28 0 6 MB
THE EXCAVATORS DATA BOOK 2nd Edition
HS-EN003J
09.12 (KA/KA,GT2) Printed in Japan
THE EXCAVATORS DATA BOOK
2nd Edition
CONTENTS SECTION 1
HITACHI HYDRAULIC EXCAVATORS Model Name Designation .......................................................................1-2 History of Hitachi Hydraulic Excavators..................................................1-3
SECTION 2
FUNDAMENTALS OF HYDRAULIC EXCAVATOR General ...................................................................................................2-2 Outline of Hydraulic Excavator............................................................2-2 Features of Hydraulic Excavator .........................................................2-3 Suitability of Hydraulic Excavator........................................................2-5 Types of Hydraulic Excavator .............................................................2-6 Applications .........................................................................................2-7 Function of Components .....................................................................2-9 Noise level.........................................................................................2-11 Specifications........................................................................................2-12 Front-end Attachments......................................................................2-12 Bucket Capacity ................................................................................2-14 Engine Output ...................................................................................2-15 Pumps ...............................................................................................2-17 Hydraulic Pressure............................................................................2-20 Swing Speed .....................................................................................2-22 Swing Circle ......................................................................................2-22 Operating Weight ..............................................................................2-23 Travel Speed .....................................................................................2-23 Ground Pressure ...............................................................................2-24 Gradeability .......................................................................................2-25 Rollers ...............................................................................................2-25 Type of Shoes ...................................................................................2-26 Digging Forces ..................................................................................2-27 Working Ranges................................................................................2-28 Lifting Capacity..................................................................................2-29 Hydraulic Breaker..............................................................................2-30 Hydraulic Crusher .............................................................................2-33
SECTION 3
PRODUCT DATA Economy .................................................................................................3-2 General................................................................................................3-2 Owning and Operating Cost................................................................3-3 Productivity ...........................................................................................3-13 Arm End Dimensions ............................................................................3-16
SECTION 4
SPECIFICATIONS Description of Illustrated Specifications ..................................................4-2 ZX70-3 class ...........................................................................................4-7 ZX110-3 class .......................................................................................4-22 ZX120-3 class .......................................................................................4-30 ZX160-3 class .......................................................................................4-40 ZX180-3 class .......................................................................................4-43 ZX200-3 class .......................................................................................4-49 ZX240-3 class .......................................................................................4-70 ZX270-3 class .......................................................................................4-80 ZX330-3 class .......................................................................................4-86 ZX450-3 class .......................................................................................4-96 ZX500-3 class .....................................................................................4-104 ZX650-3 class .....................................................................................4-107 ZX850-3 class .....................................................................................4-110 EX1200-6 ............................................................................................4-116 EX1900-6 ............................................................................................4-117 EX2500-6 ............................................................................................4-118 EX3600-6 ............................................................................................4-119 EX5500-6 ............................................................................................4-120 EX8000-6 ............................................................................................4-121 ZX W-3 Series .....................................................................................4-122
SECTION 1 HITACHI HYDRAULIC EXCAVATORS
1-1
Model Name Designation ZAXIS spells Z-AXIS. It is the third axis, followed by X-and Y-axis, and symbolises the future. ZAXIS also means creative power drawn in the future’s space. Example The ZAXIS 200 implies model number. The stamped/registered model number is the ZX200.
Improvement number Operating weight range Approx. 20,000 kg ZAXIS
Long Crawler undercarriage
Marsh
Wheeled
Heavy-duty model
1-2
History of hydraulic excavators
1-3
1-4
SECTION 2 FUNDAMENTALS OF HYDRAULIC EXCAVATOR
2-1
2-1 General 2-1-1 Outline of Hydraulic Excavator A hydraulic excavator consists of the basic machine which has the full 360q swing upperstructure and the undercarriage for traveling; and the front-end attachment which can be exchanged to allow a wide range of applications including digging and loading.
Front-end attachment
Upperstructure
Undercarriage
This machine is fully driven hydraulically in a manner completely different from a mechanically driven type. Mechanical energy of the engine is first converted into hydraulic energy to actuate cylinders and motors in which hydraulic energy is then converted into mechanical energy. In other words, travel, swing, digging and their combined operations are all done by hydraulic power. Hydraulic excavator: Engine
Hyd. pump
Hyd. Cylinder
Work
Hyd. motor
Hydraulic excavator
Mechanical excavator: Engine
Gears Chains Wire ropes
Work
Mechanical excavator
2-2
2-1-2 Feature of Hydraulic Excavator A big feature of a hydraulic excavator is a full 360q swing while stationary. In addition, combined operations of digging, loading and swing are possible, ensuring high operating efficiency and production. By exchanging the front-end attachment, a range of applications is widened greatly, giving high versatility.
x Operating cost is minimum: Wear of undercarriage is minimal because operations can be done with the machine stationary.
x The machine, even while stationary, can get the job done in wide ranges.
x The machine can be stationed on firm ground while digging in water or soft ground.
x The machine can dig ditches and foundations, precisely and safely.
x The machine can swing a full 360q, allowing easy operation in confined area.
2-3
x The front-end attachment can be exchanged easily for a wide scope of applications.
x Travel on rough terrain and soft ground is possible.
x Lifting work in pipe-laying can be done.
x High stability
x Digging and loading can be done stationarily. So operation is comfortable and fatigue-free.
x The undercarriage can counter-rotate with minimum movement trace in confined area.
x The undercarriage allows efficient job-to-job travel.
x A wheeled hydraulic excavator gives high mobility.
2-4
2-1-3 Suitability Of Hydraulic Excavator A hydraulic excavator is a really versatile machine. Here, we'll show you several kinds of construction jobs for which a hydraulic excavator is suitable, compared with other construction equipment. Jobs
Hydraulic Dozer Bulldozer excavator shovel
Wheel loader
Digging narrow ditch Digging wide ditch
Advantages of hydraulic excavator x Wide working ranges including deep ditching capability x Digging at elevated level x Long reach x Operation without damaging scaffolding x Lifting x A wide scope of applications
Dozing
Advantages of dozer shovel
Digging in water
x Large loading capacity x Towing x Bulldozing x Short-range hauling
Slope finishing Leveling Loading dump truck Filling Digging hole Hauling Lifting : Excellent
: Good
: Inferior
2-5
2-1-4 Types of Hydraulic Excavators Hydraulic excavators are divided into three types; crawler, wheel and truck types, according to types of under carriages.
1. Crawler type xMost popular type, widely used in small to giant sizes xGround pressure Small and medium sizes: 0.3 to 0.7 kgf/cm2 Large size: 0.7 kgf/cm2 or over For operation on swamp and muddy site, wide undercarriage is employed to reduce ground pressure down to 0.2 to 0.3 kgf/cm2.
2. Wheel type x Similar to crawler construction, but tires are employed instead of crawlers.
Characteristics x High travel speed (about 30 km/h, 18.6 mph), quick job-to-job travel x Does not damage pavement x Not applicable on rough and soft ground x Poor stability
Characteristics x Applicable regardless of jobsite ground conditions such as soft ground and rough terrain x Good stability x Low travel speed (about 3 km/h): inferior mobility x Damaging pavement
3. Truck type x Truck chassis of special design, different from an ordinary automobile, using outriggers to ensure high stability in operation. Mobility is higher than that of wheel type.
Characteristics x Highest travel speed with maximum speed of 50 km/h (31 mph). Long-distance travel possible. x Does not damage pavement x Not applicable under adverse road conditions
2-6
2-1-5 Applications A hydraulic excavator is very versatile. Here are typical applications, including civil-engineering, mining and recycle jobs.
1. Civil-engineering works Sewage work
Road widen work
Attach. ML Crane hook
Attach. Slide type arm Rock braking
Dragging
Attach. Breaker
2. Resources mining Overburden removal in coal mining
Pipe laying
Gravel collecting
2-7
3. Forestry works Timber handling
Prune off work
Attach. Timber grapple
Attach. Harvester
4. Demolition / Crushing Bill crushing
Bill crushing
House crushing
Attach. 2-Piece Front + Pulverrise
Attach. 3-Piece Front + Crusher
Attach. Fork grapple
Slag handling
Scrap handling
Scrap handling
Attach. Magnet
Attach. High-mount Cab + Fork grapple
Attach. Orange Peel grapple
5. Metal recycle
2-8
2-1-6 Functions of Components
Backhoe 9. TRACTION DEVICE 10. ROLLERS 11. TRACK ADJUSTER 12. CONTROL LEVERS 13. INSTRUMENT PANEL 14. HYDRAULIC TANK 15. FUEL TANK
1. 2. 3. 4. 5. 6. 7. 8.
ENGINE RADIATOR HYDRAULIC PUMPS CONTROL VALVES HYDRAULIC OIL FILTERS SWING MECHANISM SWING CIRCLE CENTER JOINT
Loading shovel 10. ROLLERS 11. TRACK ADJUSTER 12. CONTROL LEVERS 13. INSTRUMENT PANEL 14. HYDRAULIC OIL COOLER 15. HYDRAULIC TANKS 16. FUEL TANK 17. BATTERIES 18. AIR GREASE GUN
1. 2. 3. 4. 5. 6. 7. 8. 9.
ENGINE RADIATOR HYDRAULIC PUMPS CONTROL VALVES HYDRAULIC OIL FILTERS SWING MECHANISM SWING CIRCLE CENTER JOINT TRACTION DEVICE
2-9
TERMINOLOGY Engine drives pumps through engine transmission. Here, mechanical energy from the engine is converted into hydraulic energy. Radiator maintains engine coolant at adequate temperature. Hydraulic pump is the heart of the hydraulic system to deliver the oil flow to all circuits.
Traction device consists of hydraulic motors, reduction gears and sprockets. Left and right side frames are each provided with one traction device, thus allowing back-and-forth movement, pivot turn and counter-rotation turn. On most Hitachi hydraulic excavators, the swing and travel mechanisms are provided with planetary reduction gears. Planetary reduction gear features compact and larger reduction ratio, compared with spur gear.
Control valve regulates the pressure, flow rate and direction of the oil flow in the hydraulic system. Motor
Control valve Planetary reduction gear Cylinder
Spur gear
Rollers are employed for smooth travel.
Hydraulic oil filter catches and eliminates contaminants from the oil. Swing mechanism functions to convert hydraulic energy into mechanical energy when the oil is fed into the swing motor from the pump. As a result, the swing motor runs to swing the superstructure.
Track adjuster adjusts the tension of the track link in such a manner as to move the front idler back or forth by greasing. Control levers are shifted to regulate the control valve spools.
Swing circle supports and turns the superstructure smoothly.
Instrument panel is strategically arranged for maximum operator efficiency.
Center joint is one type of rotary joints, located at the center of the machine, to connect the hydraulic line on the superstructure to the traction device on the travel mechanism.
Hydraulic oil cooler maintains the oil at adequate temperature.
Rotation side
Hydraulic tank serves as both a reservoir and an oil conditioner. Fuel tank reserves fuel.
Center joint
Fixed side
2-10
2-1-7 Noise Level In Japan, to measure machine noise level and to evaluate sound suppression method, noise level (sound pressure level) had been used. Noise level is the intensity (sound pressure) of sound emitted from a sound source at a specific point in space. Noise level varies with not only noise source, but measuring environment and conditions. On the contrary, in U.S.A and Europe, sound power level is used in sound measurement standards. To follow this technological trend, JIS has been revised to use sound power level in its measurement standards. Accordingly, construction equipment noise measuring method has also been changed. In Japan, “Low noise Construction Equipment Certification System” has been introduced since October 1995. What’s Sound Pressure Level? Sound pressure level inherent in a sound source is defined in principle by only sound source, and constant at any place unless operating conditions of the noise source are changed. Therefore, sound pressure is an effective measure in the evaluation of noise suppression method, and in the definition, indication and prediction of machine noise.
Noise Measuring Method and Judging Criteria by the Ministry of Land, Infrastructure and Transport (Japan) 1. Change of Noise Measuring Method y Giving consideration to machine noise at work y Conforming to ISO (International Standards) — sound power level indication and measuring method New Measuring Method (ISO 6395) Varies with the type of machine Operating condi- Bulldozer: Forward travel/reversing tions Hydraulic excavator: 90° swing and excavation (simulation operation) 6 points on semi-spherical surface Measuring points (Radius is 4, 10 or 16 m, which is selected according to the size of machine.) Sound power level in dB (A) Measurements indication
Conventional Measuring Method (JCMAS 011) Stationary test High idling of unloaded engine (including some stipulation to define machine noise at work) Measuring points at the distance of 7, 15 and 30 m from the machine in four directions at the height of 1.5 m. Average energy of sound pressure levels in dB (A) in 4 directions (front, rear, left and right)
2. Noise Judging Criteria Comparison New Vs. Conventional Standards Backhoe Rated Output kW P 55 55 P 103 103 P 206 206 P
*Data in (
New Standard (Simulation) Sound Power Level dB (A) 99 104 106 106
Conventional Standard (High Idle) Average energy at 7 m in 4 directions dB (A) 70 (99)* 73 (105)* 76 (107)* 79 (109)*
) are conventional standard data converted by the new standards.
2-11
2-2 Specifications 2-2-1 Front-End Attachments The front-end attachment can be easily exchanged for a wide range of applications.
Backhoe: An excavator normally digs, while rolling in the bucket and arm under the ground on which the excavator is stationed.
Ejector bucket: For digging and ejecting clay type soil through linkage. When the bucket cylinder rod is retracted, the bucket and ejector rotate in roll-out direction to forcibly discharge sticky mud from the bucket since the ejector rotates slower than the bucket.
Breaker: For breaking rock and concrete
Backhoe bucket: For general digging operation
One-point ripper: For ripping hardpan
Ripper bucket: For ripping and loading hardpan
Slope-finishing blade: For all slope finishing jobs including scraping up and down, compacting, leveling, and grading V-shaped bucket: For ditching waterway and drainage
2-12
Clamshell: For vertical deep digging, piling, footing, dredging and cleaning in confined space like manholes
Loading shovel: With shorter boom and arm than standard ones on a backhoe, a loading shovel normally digs above the ground on which it is stationed, while tilting the bucket in, featuring excellent loading on dump trucks, etc.
Short-reach front: For digging operation in limited space, both in height and area; especially, suited for underground construction work.
Long-range front: For efficient river maintenance work using extra long reach of 13 m (43 ft) to 18 m (60 ft)
Loading shovel buckets: Bottom dump bucket and tilt dump bucket are available. Bottom dump bucket provides many advantages -speedy dumping, less shocks and fewer material spills for easy, simple loading, with shorter cycle times. Tilt dump bucket features simple, rugged construction and larger bucket capacity for heavy-duty operation. Offset arm front: For digging parallel to the center line of a machine on its left or right side.
Bottom dump bucket
Tilt dump bucket
2-13
2-2-2 Bucket Capacity Bucket capacity is rated by using heaped capacity and struck capacity. At present, heaped capacity is widely used. 1
1
1
1
1
Heaped capacity
From this table, we can see that Hitachi rating (based on JIS) and ISO use the same angle of repose. PCSA and SAE use the greater angle of repose.
1
1
1
Struck capacity
Strike off plane
1. Struck capacity Nearly equal
Struck capacity is defined as the volume bounded by the inside bucket contour without consideration for material supported or carried by spill guard or on bucket teeth.
2. Heaped capacity Heaped capacity is defined as the volume in the bucket under the strike off plane, plus that of the heaped material above the strike off plane with an angle of repose of 1:2, without consideration for material supported or carried by the spill guard or bucket teeth. At present, there are different standards to define the heaped capacity of a hoe bucket, causing confusion. This is chiefly attributed to the difference in defining the angle of repose. On the contrary, for a loading shovel bucket, almost the same definitions are employed.
For calculation of bucket capacity, refer to Appendix.
Note: JIS: Japanese Industrial Standards (A3403-4) PCSA: Power Crane and Shovel Association (USA) SAE: Society of Automobile Engineers (USA) (J296) CECE: Committee for European Construction Equipment ISO: International Standards Management (7451)
Loading shovel bucket The angles of repose are shown in the following table. Angles of repose Standard Hitachi rating PCSA SAE CECE ISO (Based on JIS) Bucket type Hoe bucket
1:1
1:1
1:1
1:2
1:1
Loader bucket
1:2
1:2
1:2
1:2
1:2
2-14
2-2-3 Engine Output ENGINE OUTPUT Engine output is determined by the following equation.
where,
P (kW)
=
2S u T u N 60 x 102
P (kW)
=
2S u T u N 60 u 75
or
2. Maximum horsepower Maximum horsepower is defined as maximum horsepower generated by an engine at the specified speed. Maximum horsepower is commonly used to rate horsepower of a diesel engine for automobile. Applicable standards are: JIS D 1004: Maximum automobile horsepower DIN 70020: Maximum automobile horsepower SAE J1349, gross: Maximum horsepower
P: Rated engine output, kW or PS T: Shaft torque, kgfm N: Engine revolution speed, rpm
Engine output is expressed by rated horsepower or maximum horsepower. Engine horsepower is further defined by the following three standards: JIS: Japanese Industrial Standards DIN: Deutsche Industrie Norm SAE: Society of Automobile Engineers Hitachi employs both rated net horsepower (DIN 6270, net) and maximum gross horsepower (SAE J270, gross) for convenience of comparison with competitors'.
1. Rated horsepower Rated horsepower is defined as engine output generated for one hour of continuous operation at the speed specified by manufacturer.
The difference between rated horsepower and maximum horsepower is just the engine output allowance. The greater the difference, the higher the durability.
Reference: 1) Gross horsepower Gross horsepower is defined as engine output to be measured at a flywheel without power- consuming accessories such as muffler, fan, alternator and air cleaner. 2) Net horsepower Net horsepower is defined as engine output to be measured at a flywheel with all standard power consuming accessories such as muffler, fan, alternator and air cleaner.
Net
Gross
3) Power conversion 1PS = 0.986 HP = 0.735 kW 1HP = 1.014 PS = 0.746 kW 4) Brake horsepower Brake horsepower is the same as flywheel horsepower. By SAE J1349, brake power is defined as a power available at a flywheel or another output member to do useful work. Brake horsepower (BHP) = Flywheel horsepower
2-15
Accessories
Standard conditions
Measuring Conditions of Respective Standards
Barometic pressure
JIS D1005
DIN 70020
DIN 6271
SAE J1349 (GroND)
SAE J1349 (Net) 750
mm Hg
760
760
736
750
Temperature
qC
20
25
20
25
25
Water vapor pressure
mm Hg
1 1.4
7.5
7.5
Relative atmospheric humidity
%
60
Air cleaner
{
¯
{
Radiator
¯
¯
{
Fan
{
¯ ({: Air cooled)
{
Oil pan
{
{
{
Muffler*
¯
Generator Others
JIS or equivalent
JIS or equivalent
¯
{
{: charge
¯
{: Not charge
Items required for engine are provided
Basic engine
Fully equipped
*Exhaust manifold is included in the basic engine.
Types of combustion chambers There are three types of combustion chambers: direct injection type, swirl type and precombustion type. The direct-injection type gives the highest fuel efficiency, the swirl type is the second, and precombustion type is the lowest.
Fuel efficiency
2-16
2-2-4 Pumps A pump is the heart of the hydraulic system. The pump delivers the oil to each hydraulic component on the machine to get the job done. As explained earlier, the pump converts mechanical energy into hydraulic energy.
Types of pumps There are two types of displacement pumps: non-positive displacement type and positive displacement type. A water wheel, illustrated, is an example of the non positive displacement pump. All it does is pick up fluid and move it. The positive displacement moves fluid while sealing it from coming again. All hydraulic systems today operate under high pressure, thus need the positive displacement pumps. Non-positive
positive
A pump does not create pressure, but flow only.
Tank
System
2-17
The positive displacement pumps are further divided into the following three types: Gear pump Vane pump Piston pump In all these pumps, fluids are circulared inside, as shown below.
Hydraulic pump displacement Displacement is the volume of fluid to be displaced by the pump at each cycle. Hydraulic pumps fall into the following two types: Fixed displacement pump Variable displacement pump The fixed displacement pump always delivers the constant volume of fluid at constant pump speed. To change this volume, you must change the pump speed. On the other hand, the variable displacement pump can change the volume of fluid ... without need for changing the pump speed. That is, the volume is increased when the pressure is reduced; while the volume is decreased when the pressure is increased.
Gear pump
Vane pump
Functions of variable displacement pump Stroke
Piston pump
POSITIONING: The greater the swash plate angle T, the greater the output flow ... for faster operation.
The piston pump fall in two types: Axial piston pump Radial piston pump The axial piston pump has the pistons which move axially in parallel with its center line (axis), as illustrated below. The radial piston pump has the radially moved pistons. From the illustrations below, you can find that both types employ the reciprocating pistons. These pistons move axially but are driven by rotary motion.
Axial piston pump
Radial piston pump
2-18
Stroke
DIGGING: The smaller the swash plate angle T, the less the output flow ... for more digging power.
Gear pump vs. piston pump Type
Gear pump
Item
Piston pump
Simple construction with fewer parts Variable displacement Inlet Outlet Control lever Regulator Inlet
Construction
Inlet
Drive shaft
Outlet
Cylinder Shoe Outlet
Std. pressure setting bar kgf/cm2 psi Std. oil flow rate liter/min Imp gpm US gpm Pump efficiency %
Swashplate
175 to 210 175 to 210 2 500 to 3 000
210 to 350 210 to 350 2 990 to 5 000
50 to 300 10 to 65 13 to 80 80 to 85
100 to 500 20 to 110 26 to 130 85 to 90 Delivery flow is automatically regulated with pressure increase. (Pressure compensation)
Fixed flow
Noise Self-priming
Evaluation
Pressure setting
Pressure setting
Hydraulic horsepower
Pressure setting
Not so loud Superior x Inefficient use of engine output x Compact construction and simple maintenance x Low cost x Suitable for smaller-sized, lower-priced excavators
2-19
Pressure setting
louder Slightly inferior x Variable displacement permits best use of engine output. x Relatively complex construction. Foreign matter in the oil causes trouble: oil must be always kept clean. x Relatively high cost x Suitable for larger-sized excavators
2-2-5 Hydraulic Pressure The setting of hydraulic pressure is a key factor in determining of the production of a hydraulic excavator. There is the increasing trend toward higher hydraulic pressure setting among hydraulic excavator manufacturers in the world. Of course, the setting of higher hydraulic pressure gives both advantages and disadvantages. The advantages include increased digging force and swing force, and smaller pressure loss due to reduced oil flow speed. On the other hand, the disadvantages include decreased efficiency of pumps and motors due to increased internal leakage, premature oil deterioration due to excessive oil temperature rise, breakage of pipings and hoses, increased oil leakage from seals, and occurrence of cavitation. Note that most of these problems cannot be solved easily, even with modern hydraulic technology. Hitachi design policy is to give the highest priority to the reliability to a hydraulic system, apart from today's design trend toward higher pressure. The result is higher reliability of Hitachi machines--that is, high availability.
Advantages of high pressure setting Increased power
Reduced pressure loss due to reduced oil flow
Hitachi machine
2-20
Disadvantages of high pressure setting Increased oil leakage from seals
Occurrence of cavitation
Decreased efficiency of pumps and motors due to increased internal leakage
High
Low
2-21
2-2-6 Swing Speed
2-2-7 Swing Circle
Swing speed is defined as the speed [expressed by RPM (min-1)] at which the superstructure revolves stably. This means it is not starting or braking swing speed during acceleration/deceleration. Swing speed is determined by oil flow to swing motors from pumps, not by the oil pressure. In most digging operations, the superstructure is revolved in a swing range of 0q to 180q in which the swing motor is accelerated or decelerated. But, swing becomes stabilized after 3/4 to 1-1/2 turns. Therefore, the above defined swing speed is practically meaningless.
The Hitachi machines employ the internal gears for swing circle.
Internal gear
External gear
Actual operation Advantages of internal gear
0 to 180q
x The internal gear has high durability to allow high contact pressure and tooth bending force since convex tooth surfaces of the pinion gear and concave tooth surfaces of the swing circle gear are engaged snugly. x The internal gear permits the swing circle to receive high bending force. x The sealed internal gear can minimize lubrication and wear. Swing speed test
After 270 to 540q (3/4 to 1-1/2 turns)
Instead, practically important swing performance is acceleration/deceleration capability.
Higher production
Lower production
2-22
2-2-8 Operating Weight 2-2-9 Travel Speed In catalog, operating weight is generally used to express the weight of a hydraulic excavator. In addition to the operating weight, machine weight and dry weight are also used. Operating Machine weight weight Excavator with front-end attachment Tools Fuel Hydraulic oil Lubricant Engine coolant Operator
Dry weight
{
{
{
{
{
¯
{
{
¯
Travel speed is defined as the speed at which the machine travels, and is expressed by travel distance per hour at the rated engine RPM. Travel speed is based on traveling on firm, level ground. Therefore, when traveling on rough terrain or muddy ground, travel speed is reduced because engine RPM or oil flow to hydraulic pump drops due to increased load; particularly, when climbing a slope. Travel time occupies 10 to 15% of all operation time of a hydraulic excavator.
{ ¯ ¯ {: Including ¯: Not including
Generally, it seems that mobility in the performance of a hydraulic excavator is not so important, but becomes essential performance in operations requiring frequent movements such as pipelaying work or when the machine itself travels away in case of blasting on quarrying site. Trenching
Refilling
Pipelaying
2-23
2-2-10 Ground Pressure Ground pressure is the weight of a hydraulic excavator acting on a unit area of the ground, as determined below. Ground pressure =
Examples of ground pressure
Operating weight Total ground contact area*
*Total ground contact area = (L + 0.35h) u shoe width u 2 where, L: Center-to-center distance between tumblers h: Height of crawler Drive tumbler
Examples Man (standing on one leg)
03 to 0.4 (0.3 to 0.4, 4 to 6)
Automobile
1.2 to 2.4 (1.2 to 2.5, 17 to 35)
Truck
2.5 to 7.5 (2.5 to 7.5, 35 to 110)
Bulldozer
0.6 to 1.5 (0.6 to 1.5, 8 to 20)
Hydraulic excavator
0.2 to 1.3 (0 2 to 1.3, 3 to 19)
Wheeled excavator
4.5 to 5.0 (4.5 to 5.0, 65 to 70)
Wheel loader
2.8 to 4.0 (2.8 to 4.0, 40 to 55)
h
L
Note that ground pressure under the rollers will be occasionally increased several times as calculated above. Ground pressure is a good guideline to prejudge which size of hydraulic excavator can operate on soft ground or rough terrain without settlement. Generally speaking, it is difficult to reduce the weights of major components from the design standpoint. Thus, there is the tendency that the greater the machine, the heavier the ground pressure.
2-24
Ground pressure bar 2 (kgf cm , psi)
2-2-11 Gradeability
2-2-12 Rollers
Gradeability is defined as the ability of a hydraulic excavator to climb, descend and stop on a firm, smooth slope under unloaded and fully equipped conditions, with no slippage of shoes. Gradeability is also determined with traction force, travel mechanism, allowable inclination angle of the engine and leakage of fuel and hydraulic oil in mind. Gradeability can be expressed as follows.
As illustrated, there is the difference between ground pressure distribution patterns of a hydraulic excavator and a bulldozer. You can easily understand that the bulldozer mainly performs crowding operation, so the vertical force to the ground, due mainly to its own weight, is relatively small. On the contrary, the hydraulic excavator gives greater pressure to the ground, especially at the end of track, when digging hardpan, rock or the like. Accordingly, the Hitachi hydraulic excavators are equipped with the ruggedly designed tracks including rollers.
TanT =
B a
Gradeability 70% equalsT = 35q 58% equalsT = 30q Furthermore, gradeability is classified into two kinds: continuous and maximum gradeability.
1. Continuous gradeability The ability to almost continuously climb a slope, determined by allowable inclination angle of the engine. Continuous gradeabiiity
Look at the lower rollers on both types of machines. The rollers of the bulldozer are mainly designed for higher mobility, while those of the hydraulic excavator must be ruggedly designed for tough digging operation. Some manufactures, however, use the bulldozer rollers on their hydraulic excavators. This will easily cause trouble such as oil leakage. Excavator
Roller
Bush
Floating seal
Collar
Rollers for hydraulic excavator: Ruggedly designed for heavy load
2. Maximum gradeability The ability to instantaneously climb a slope, which is regarded as a maximum gradeability to be calculated.
Bulldozer
Roller
Bush
Floating seal
Collar Maximum gradeability
Rollers for bulldozer: Chiefly designed for high mobility
2-25
2-2-13 Types of Shoes The shoes must be properly selected according to underfoot conditions. When operating on the soft, level ground, wide shoes are to be selected. In this case, if these shoes are employed under adverse underfoot conditions, they will be easily damaged. It is recommended to use the narrowest possible shoes for tractor-type excavators.
1. Grouser shoes
3. Low ground pressure shoes Triangular shoes Triangular shoes are selected for operation on soft ground, which give low ground pressure and great traction force. What's more, triangular shoes are shaped for easy mud removal and high ground compaction.
Grouser shoes are most widely used, and fall in three types: single grouser, double grouser and triple grouser shoes. Most Hitachi hydraulic excavators are provided with triple grouser shoes as standard for excellent steering performance and durability. In particular, single grouser shoes hold the ground well, thus giving big traction force on soft ground.
Single grouser
Double grouser
Triangular shoe
Triple grouser
Wide grouser shoes
2. Flat shoes Flat shoes are best suited for operation on the pavement. In other words, grouser shoes will damage the pavement easily.
Shoes with wide grousers are selected for operation on marshy land. These shoes are designed to lower ground pressure and greater traction. Note that they are not suited for rough terrain.
Wide grouser shoe Flat shoe
2-26
2-2-14 Digging Forces 1. Maximum digging force
3. Arm digging force
Maximum digging force is defined as that caused at teeth of the bucket during digging operation. For a backhoe, maximum digging force is due to bucket cylinder or arm cylinder; and for a loading shovel, maximum digging force is expressed as maximum crowding force or maximum breakout force.
Arm digging force is defined as maximum digging force due to arm cylinder in tangential direction at bucket tooth in position where bucket tooth force due to bucket cylinder is maximized.
2. Bucket digging force Bucket digging force is defined as maximum digging force due to bucket cylinder in tangential direction at bucket tooth as illustrated below.
A shorter arm gives greater roll-in force, while a longer arm gives wider working ranges, as illustrated below. Short arm: Bigger digging force
As shown below, the shorter the bucket tooth radius, the greater the bucket roll-in force.
Shorter
Longer
Long arm: Wide working ranges
Bucket roll-in force
2-27
2-2-15 Woking Ranges Working ranges, similar to digging force, are key specification to indicate the digging performance of a hydraulic excavator. Working ranges are expressed by the following items. A:
Maximum cutting height Maximum height from ground level to bucket tooth tip when it is raised fully.
D:
Maximum dumping height Minimum height from ground level to the lowest point of moving trace of bucket tooth tip when the bucket performs dumping at highest possible level. The higher the maximum dumping height, the easier the loading onto a dump truck.
E:
Minimum swing radius Minimum horizontal distance from center of swing to most outside of the front-end attachment when it is fully retracted. Minimum swing radius is an index to show how operation is easily done in tight space.
F:
Maximum vertical wall Maximum vertical wall is the deepest underground depth in digging vertical wall with the bucket. This value is varied according to bucket wrist angle.
Max. digging reach Maximum horizontal distance from center of swing to bucket tooth tip, normally at boom foot level.
A': Maximum digging reach (on ground) Maximum horizontal distance from center of swing to bucket tooth tip when it is extended fully and rested on the ground. B:
C:
Maximum digging depth Maximum digging depth from ground level to bucket tooth tip at lowest level.
B': Maximum digging depth (8' level) Maximum digging depth at which 8 feet can be dug with the bucket in parallel with ground level. This value is varied according to bucket wrist angle.
2-28
2-2-16 Lifting Capacity Many hydraulic excavators have been employed for various pipelaying works such as water/sewage pipelines, gas pipelines and pipings in plants. In these operations, the machine slings a pipe on the back of a bucket or from the link, and places down into a dug trench. Lifting capacity is defined by SAE and PCSA Standards.
Lifting capacity is the rated stability capacity or rated hydraulic lift capacity, whichever is the smaller.
Rated stability capacity: Rated hydraulic lift capacity:
Definition of load point height: SAE:
Vertical height from ground level to a point on the back of a bucket suspending the load. PCSA: Vertical height from ground level to a pin connecting the bucket and arm.
2-29
75% of tipping load 87% of hydraulic lift capacity
2-2-17 Hydraulic Breaker There is increasing demand for hydraulic breakers at many job sites because they not only improve working conditions but also reduce labor costs and increase productivity. There are two different types of breaker on the market: a hydraulic type and a pneumatic type. The pneumatic type, besides producing considerable noise, requires the extra investment of an air compressor for operation. The hydraulic type has reduced noise problem and requires no air compressor.
2. Important points required to be explained sufficiently: Before the customer signs a sales contract, it is required to explain the following items enough to let the customer understand well. Also, give sufficient operating and installing instructions to the customer at the delivery of the machine, using “Operation Manual” and “Installation Manual for Hydraulic Breaker Piping Kits on the Service bulletin.”
1. Features and applications x Typical features 1. No need for an air compressor 2. Reduced noise x Applications 1. Demolition of buildings, bridges, roads, etc. 2. Crushing rocks at mine 3. Crushing rocks at foundation for building construction site. 4. Breaking concrete piles and beams excluding steel beams.
1. 2. 3. 4. 5. 6. 7. 8.
2-30
Breaker High pressure delivery line Return line Breaker control valve Main control valve with safety valve Hydraulic pump Hydraulic tank Hydraulic oil cooler
HYDRAULIC BREAKER OPERATING TIPS Carefully study the operation manuals of the machine and breaker, and perform the required checks and or inspection before connecting the breaker to the arm.
7. Operate the hydraulic excavator carefully to avoid hitting against the object to be broken.
1. Perform the required checks and inspection daily before operation. 2. Operate machine slowly, breaker is heavier than bucket.
8. Do not operate the breaker in water.
3. Avoid hammering operation of breaker. Do not use boom and arm functions to crush. Objects, machine damage may result.
Rod
9. Do not use breaker for lifting operation. Machine damage may result. Avoid tipping the machine, do not use breaker to lift objects. 4. Do not use breaker to move objects, machine damage may result.
5. Do not operate the breaker with the hydraulic cylinder rod fully retracted or fully extended to prevent cylinder or machine damage.
10. Do not swing upperstructure to operate breaker on side of machine. Machine may become unstable and shortened undercarriage component life may result from breaker being operated facing the side.
6. Stop operation if breaker hydraulic hoses jump abnormally. Change in breaker accumulator pressure or damaged accumulator will cause abnormal hose jumping and may cause breaker and/or machine damage. Accumulator
2-31
REPLACEMENT OF HYDRAULIC OIL AND FILTER ELEMENT Hydraulic breaker operation subjects the machine’s hydraulic system to possible contamination and accelerated deterioration. Hydraulic filter elements and hydraulic oil must be replaced more often than digging applications to prevent damage to hydraulic pumps and other hydraulic components. Recommended changing intervals are as shown below.
Changing interval (hours)
Note: *1
Machine with Hydraulic Breaker
Machine with Ordinary Bucket
Hydraulic Oil
600 *1
1 500 or 2 500 *3
Filter Element
100 *2
500
The above figures are applied to the machines when their breaker time sharing is 100%. For the machine of smaller breaker time sharing, changing intervals can be extended as shown in the diagram below.
*2
Replace elements when the machine continues breaker operation more than 100 hours.
*3
2500-hours oil change intervals are applied to only Daphne Super-Hydro LW46H (Idemitsu Kosan) and Tellus Oil R46 (Shell Oil), both being Hitachi’s recommended oils.
Breaker Time Sharing (%)
Time of replacing filter element
Time of replacing Hydraulic oil –1500 hours life
Changing Intervals (hours)
2-32
Time of replacing Hydraulic oil –2500 hours life
2-2-18 Hydraulic Crusher There’s increasing demand for hydraulic crusher on many job sites because they not only improve working conditions but also reduce labor costs and increase producticity.
1. Features and applications x Typical features 1. Reduced noise and vibration. 2. 360q free turning mechanism. 3. With the high performance cutter.
2. Important points required to be explained sufficiently: Before the customer signs a sales contract, it is required to explain the following items enough to let the customer understand well. Also, give sufficient operating and installing instructions to the customer at the delivery of the machine, using “Operation Manual” and “Installation Manual for Hydraulic Breaker Piping Kits on the Service bulletin.”
x Applications 1. Demolition of buildings, bridges, etc. 2. Breaking concrete piles and beams excluding steel beams.
1. 2. 3. 4. 5. 6. 7. 8.
2-33
Crusher High pressure delivery and return line High pressure delivery and return line Crusher control valve Main control valve with safety valve Hydraulic pump Hydraulic tank Hydraulic oil cooler
HYDRAULIC CRUSHER OPERATING TIPS The crusher is much heavier than bucket in weight. Operate the machine slowly to prevent tipping the machine. Also operate the machine with the following precautions. 1. Do not operate crusher with bucket and arm cylinder fully extended or retracted to prevent machine damage. Do no allow machine’s weight to be supported by crusher, the bucket cylinder or the crusher or machine may become damaged. 2. Do not swing upperstructure to perform crushing operation on side of machine. Avoid tipping machine, always perform crushing operation in forward and rearward direction. 3. Do not operate crusher on a slope. Always operate crusher on level ground. When traveling over crushed scraps reduce engine speed and select slow travel speed. 4. Do not use crusher to haul crushed scraps. 5. Always remove crusher from excavator when transporting machine. Close all hydraulic piping with cap or plugs.
REPLACEMENT OF HYDRAULIC OIL AND FILTER ELEMENT Frequently replacing the bucket with the crusher or breaker subjects the machine’s hydraulic system to possible contamination and accelerated deterioration. Replace hydraulic filter elements and hydraulic oil more often than digging applications to prevent damage to hydraulic pumps and other hydraulic components. Refer to item of Hydraulic Breaker Operating Tips for the changing interval.
2-34
SECTION 3 PRODUCT DATA
3-1
Economy General A hydraulic excavator capable of achieving great economy must be low in fuel consumption and operating cost, and high in productivity with excellent availability. The operating cost includes cost for maintenance and expendable parts such as filters and oil. In other words, a hydraulic excavator high in reliability.
Check points • Operating condition • Fuel consumption and production rate • Operating cost and production rate • Refilling and replacement intervals for maintenance and expendable parts such as filter elements and oil. • Availability
Comparison The degree of productivity varies greatly depending on operating conditions. Thus, a comparison must be based on similar operating conditions.
1. Fuel cost and production rate Formula: Actual fuel consumption Production rate 2. Operating cost and production rate Formula: Operating cost Production rate
3-2
Owning and Operating Cost 1. Fixed and operating costs
Table: Standard useful service life (hours)
The outlay for acquiring and running machinery is a major item in the costing of a contract. With the increase in mechanization and the adoption of larger and more efficient units, this share is increasing, and the accurate calculation of machinery expenses has become extremely important. The success or failure of a construction contract is virtually dependent on the accuracy with which costs are estimated. The form suggested for estimating machine costs is based on PCSA (Power Crane and Shovel Association) recommendations. In different countries and regions alternative methods of estimating costs may be used, and these recommendations should be modified where necessary after taking local conditions into consideration.
2. Fixed costs Fixed costs are items incurred as a result of purchasing the machine and are treated separately from the costs incurred in operating it. Depreciation, interest, insurance, taxes, etc. are fixed costs because they must be paid whether or not the machine is being used.
a) Economic or useful service life The useful life of a machine is the basic figure in calculating costs. This is used in determining depreciation, as well as the costs of repairs, maintenance, supplies, and other expenses.
3-3
Model
Standard useful service life (h)
ZX70/75US/85US Class
6 000 to 8 000
ZX110/120/135US Class
6 000 to 8 000
ZX140W Class
6 000 to 8 000
ZX160/160W/180/180W Class
7 000 to 9 000
ZX200/210W/225US/240N Class
8 000 to 10 000
ZX240/270 Class
9 000 to 10 000
ZX330 Class
10 000 to 12 000
ZX400 Class
11 000 to 13 000
ZX450/520 Class
12 000 to 16 000
ZX650 Class
14 000 to 18 000
ZX850 Class
15 000 to 19 000
EX1200 Class
20 000 to 24 000
EX1900 Class
30 000 to 35 000
EX2500 Class
35 000 to 40 000
EX3600 Class
40 000 to 45 000
EX5500 Class
40 000 to 45 000
EX8000 Class
40 000 to 45 000
b) Depreciation
c) Salvage value
Depreciation is the decline in a machine's value over its useful life as a result of a combination of wear, weathering, and obsolescence. For tax purposes it is expressed as a yearly figure, but for determining costs, it must be expressed in hourly terms. Using the straight-line calculation method, depreciation is the same each year, dropping from cost when new to salvage value at the end of the machine's useful life. This method has the advantage that it is simple to calculate and easy to apply.
A machine's salvage value will depend on its condition, its obsolescence, and the general resale market for that type of machine. It may have only scrap value or only 20% or more of its original value. Generally, an average value of 15% is a useful figure for estimating costs.
Table: Example of Depreciation Using a Straight-line Method Useful Life
% of the total to be taken
Depreciation (%)
in years
in working hours
Per year
Per hour
1
3 000
100.00
0.03333
2
6 000
50.00
0.01667
3
9 000
33.33
0.01111
4
12 000
25.00
0.00833
5
15 000
20.00
0.00667
6 18 000 16.67 0.00556 Note: Assuming 3,000 working hours per year.
d) Interest, tax, insurance, and storage These fixed cost items are commonly estimated as a percentage of the average investment in a machine. Each item can vary widely between different areas and different users. Because of this, whenever possible, the actual figures provided by a user should be accepted instead of an estimate. 15% is a reasonable figure and the following formula gives the hourly cost: Formula: Hourly cost Average Investment X 15% (or whatever rate is used)
=
Working hours per year
where, Average Investment Total Machine Investment + Salvage value = 2
3-4
3. Operating costs
There are three important points which must be remembered concerning repairs and maintenance.
Although operating costs would normally be expected to vary more or less directly with the time the machine is operated, for convenience some part of them can be estimated as fixed rather than variable costs.
a) Repairs, maintenance, and supplies Repairs, maintenance and supplies can be calculated by using the formula: Hourly cost =
Annual depreciation Working hours per year
• The figures given in the above table assume proper maintenance. If this is not carried out, repair bills can increase at an alarming rate. • It is assumed that the machine will be used within its specified rating. Even when operated within its rated capacity, the severity of the work will make a great difference in the degree of maintenance and repairs required. • Expenses will not be uniform from year to year, and it is to be expected that both the amount of repairs and losses resulting from downtime will increase as the machine gets older.
X percentage factor
b) Fuel consumption
Table: Percentages of Repair, Maintenance and Supply Costs Type of Application or Service Moderate
Average
Severe
50 to 60%
60 to 80%
80 to 95%
The percentages given in the above table are believed to be fairly representative of the repair costs of hydraulic excavators. They represent totals for labor, parts and supplies, and are calculated against depreciable value. It is advisable, when estimating, to apply moderate (50% to 60%) to small-size class such as the ZX110 class. Average (60% to 80%) to medium-size class such as the ZX200 class, and severe (80% to 95%) for large-size machines such as the EX1200 class and larger.
The table below estimates of hourly fuel consumption at three different ranges of application. To estimate hourly fuel cost, select the job condition based on application and find hourly fuel consumption. Hourly fuel cost = Hourly fuel consumption X local unit price of fuel
3-5
Table: Hourly Fuel Consumption Low
Medium
High
ZX70/75US/85US Class
Model
4 to 5
5 to 7
7 to 10
ZX110/120/135US Class
6 to 8
8 to 10
10 to 16
ZX140W Class
6 to 8
8 to 10
10 to 16
ZX160/160W/180/180W Class
8 to 10
10 to 13
13 to 19
ZX200/210W/225US/240N Class
10 to 13
13 to 18
18 to 27
ZX240 Class
12 to 15
15 to 20
20 to 30
ZX270 Class
12 to 16
16 to 21
21 to 32
ZX330 Class
16 to 20
20 to 27
27 to 40
ZX400 Class
16 to 20
20 to 27
27 to 40
ZX450 Class
23 to 30
30 to 39
39 to 59
ZX520 Class
23 to 30
30 to 39
39 to 59
ZX650 Class
30 to 39
39 to 52
52 to 78
ZX850 Class
35 to 45
45 to 60
60 to 90
EX1200 Class
49 to 62
62 to 83
83 to 125
EX1900 Class
73 to 93
93 to 125
125 to 187
EX2500 Class
93 to 120
120 to 160
160 to 240
EX3600 Class
125 to 160
160 to 214
214 to 321
EX5500 Class
187 to 240
240 to 320
320 to 480
EX8000 Class
250 to 321
321 to 428
428 to 642
Note: ZX:Based on ZX-3 Series EX:Based on EX-6 Series ZX70 to ZX 330: P mode ZX400 to EX1200:HP mode This data has been calculated from the engine load as a measure if general operations and is not a guarantee of fuel comsumption rates. When using this data, please keep in mind the many variables such as operator's skill, ambient temperature, type of jobs, can affect fuel consumption.
3-6
3-7
c) Hydraulic oil, engine oil, gear oil, grease, filters The table below is a guide to consumption of oils and grease. Hourly cost of them can be approximately estimated in the same manner as the fuel consumption. The cost of filter can be calculated from the local price of filter and the replacement interval. The hourly filter cost is the total of the hourly costs for each type of filter. Formula: Hourly cost of filter A = No. of A filters X local price of A filter replacement interval of A filter
Table: Hourly Consumption of Oil Model
Engine Oil l/h
l/h*
Gear Oil* l/h
Hydraulic Oil* l/h
Grease kg/h 0.01
ZX70/75US/85US Class
0.025
0.024
0.012
0.02-0.07
ZX110 Class
0.04
0.032
0.007
0.0325-0.087
0.01
ZX120/135US Class
0.05
0.032
0.007
0.0325-0.087
0.01
ZX140W Class
0.04
0.032
0.044
0.034-0.11
0.01
ZX180 Class
0.05
0.032
0.013
0.045-0.12
0.01
ZX160W/180W Class
0.05
0.046
0.02
0.034-0.11
0.01
ZX200/225US/240N Class
0.05
0.046
0.014
0.05-0.13
0.02
ZX210W Class
0.05
0.046
0.021
0.034-0.11
0.02
ZX240 Class
0.06
0.046
0.017
0.05-0.13
0.02
ZX270 Class
0.06
0.046
0.027
0.0625-0.17
0.02
ZX330 Class
0.075
0.072
0.027
0.08-0.21
0.02
ZX400 Class 0.08 0.082 0.0294 0.06-0.2 0.02 Note: Marked with * are concerned with periodical replacement = Quantity (Liter) / Replacement interval (hour) = L/h ZX:Based on ZX-3 Series EX:Based on EX-6 Series This data has been calculated from the engine load as a measure if general operations and is not a guarantee of comsumption rates. When using this data, please keep in mind the many variables such as operator's skill, type of jobs, can affect consumption.
3-8
Table: Hourly Consumption of Oil Engine Oil l/h
l/h*
Gear Oil* l/h
Hydraulic Oil* l/h
Grease kg/h
ZX450 Class
0.09
0.114
0.024
0.14-0.37
0.04-0.14
ZX520 Class
0.09
0.114
0.027
0.14-0.37
0.04-0.14
ZX650 Class
0.12
0.114
0.043
0.18-0.48
0.05-0.14
ZX850 Class
0.14
0.114
0.055
0.18-0.53
0.05-0.15
EX1200 Class
0.19
0.14
0.123
0.335-0.675
0.09-0.37
EX1900 Class
0.29
0.332-0.632
0.251
0.55-1.1
0.69-3.24
EX2500 Class
0.37
0.47-0.71
0.389
0.74-1.48
0.69-3.24
EX3600 Class
0.50
0.76-1.0
0.644
1.0-2.0
0.74-3.49
EX5500 Class
0.74
0.94-1.42
0.788
1.55-3.1
0.81-3.83
Model
EX8000 Class 1.00 1.52-2.07 1.18 2.4-4.85 1.31-6.33 Note: Marked with * are concerned with periodical replacement = Quantity (Liter) / Replacement interval (hour) = L/h ZX:Based on ZX-3 Series EX:Based on EX-6 Series This data has been calculated from the engine load as a measure if general operations and is not a guarantee of comsumption rates. When using this data, please keep in mind the many variables such as operator's skill, type of jobs, can affect consumption. Grease conditions: The ZX-3 series and EX1200-6 in question are backhoes, and EX1900-6 and lager models in question are loading shovels. 1) The ZX450-3 and larger models are lubricated using an auto lubricator. However, buckets on the ZX-3 series and EX1200-6 are manually greased, and those on the EX1900-6 and larger models are auto greased. 2) Grease volume is the total of auto and manual greasing volume at all greasing points on the front attachments and swing circles. 3) For auto lubrication, minimum and maximum data at the set lubricating intervals are listed. 4) Calculation is made on condition that manual greasing interval at the front attachment is 8 hours. 5) Greasing interval at the swing circle is 250 hours.
3-9
d) Tires (for wheel loaders and dump trucks)
Table: Wheel Loader and Dump Truck Tire Coefficient
Tires are fast-wearing parts and tire costs are generally high. When calculating operating costs for wheel loaders, it is better to include tire costs as an independent item. Tire cost is calculated from the following formula. Hourly tire cost =
Tire price Estimated tire life
Conditions Road Maintenance
Slope
As tire prices vary in different parts of the world, the actual price or data from tire manufacturers lists should be used in calculating tire costs. The useful life of tires fitted to construction machines is much shorter than for those used on ordinary trucks. For example, when tires are used on rocky ground, they will only last for 200 hours or so because of rock cuts. Their useful life may be 4,000 hours on good roads. Heat separation (especially in summer) can cause rapid tire failure, and their useful life will again vary according to the way they are used. Generally the following method of calculation is useful in estimating the effective life of tires according to the condition of use.
Curves
Load
Travel speed
Road surface
Wheel position Other conditions
3-10
Coefficient
Very good
1.0
Good
0.9
Poor
0.7
Flat
1.0
Maximum 6%
0.9
Maximum 15%
0.7
No curves
1.0
Medium curves
0.9
Sharp curves
0.8
Rated
1.0
20% over
0.8
40% over
0.6
Over 16 km/h (10 mph)
1.0
Over 32 km/h (20 mph)
0.8
Over 48 km/h (30 mph)
0.6
No rocks, soft soil
1.0
Soft soil with some rocks
0.9
Gravel, level
0.9
Gravel, uneven
0.8
Sharp rocks
0.6
Idle wheel
1.0
Front wheel
0.9
Drive wheel
0.8
None
1.0
Medium
0.9
Miscellaneous
0.8
The maximum useful life of tires at a driving speed of 16 km/h is supposed to be 5,000 hours, and the coefficients for various conditions are given in the following table. Other conditions include such situations as breakages owing to impact, operation on rugged rocky surfaces after blasting, road conditions when wet, unevenness of road surfaces, etc. For instance, the suseful life of tires of a well adjusted wheel loader (drive wheel) used on flat ground with no curves at a speed of 32 km/h with a standard load on soft soil with some rocks in the surface can be estimated as follows: Useful tire life = 5 000 X 0.9 X 1.0 X 1.0 X 0.8 X 0.9 X 0.8 X 1.0 = 2 592 hours
[Tire chains] Tire cost represents a large proportion of the total repair costs in the case of heavy machines, especially large-sized wheel loaders. This is because these machines are operated under severe working conditions, and damage is caused by the sear of tires owing to slipping when loading, with tread or side wall cuts making them unserviceable, shock bursts, etc.
Tire chains may be used to reduce the wear and slashing of tires. The use of tire chains has the following effects: • Wear of tires is decreased. • Cuts in the tire tread and side walls are reduced. • Punctures are decreased. • Loading efficiency is raised as the thrusting of the bucket can be carried without the fear of shock bursts. • Pulling power is increased and slippage is reduced. • The need for spare tires decreases as the useful life of tires is extended. • The center of gravity is lowered by the weight of chains and the stability of the loader is improved. On the other hand, the following adverse effects can also be expected: • The cost of tire chains and their upkeep will be involved. • Work has to stop when repairs to tire chains are necessary. • More time is required to change tires when chains are fitted.
e) Operator's wages The wages paid to operators vary from country to country and the applied rate, locally should be used.
3-11
OPERATING COST ESTIMATING FORM (PCSA Recommendation)
Date: ____________
Prepared for: ________________________________________________________________________ Address: ___________________________________________________________________________ Model and Type: _____________________________________________________________________ Application: _________________________________________________________________________ 1. Total Machine Investment: ........................................................................................... $ ____________ 2. Salvage Value: ............................................................................................................. $ ____________ (_____% of No. 1) 3. Depreciable Value: ....................................................................................................... $ ____________ (No. 1 minus No. 2) 4. Economic or Useful Life: __________ Years or __________ Hours (_____Hours per Year) 5. Average Investment:..................................................................................................... $ ____________ No. 1 plus No. 2 2 FIXED COST
PER YEAR
PER HOUR
6. Depreciation: ______ % per Year of No. 3.............................. $________________ $ _____________ 7. Interest, Tax, Insurance and Storage per Year: ..................... $________________ $ _____________ (_____% of No. 5) 8. Total Fixed Cost: .................................................................... $________________ $ _____________
OPERATING COST (ACTUAL or ESTIMATE) 9. Repairs, Maintenance and Supplies per Year: ...................... $________________ $ _____________ (_____% of No. 6) 10. Diesel Fuel: ______ Liters per Hour, @ _____ ¢per Liter ......................................... $ 11. Hydraulic Oil, Engine Oil, Gear Oil and Grease:......................................................... $ 12. Operator's Wages: .................................................................................................... $ 13. Oiler's Wages (if assigned): ...................................................................................... $ 14. Tire (wheel loader): ................................................................................................... $
____________ ____________ ____________ ____________ ____________
$ Hours
Tire Price = Estimated Life
15. Miscellaneous: .......................................................................................................... $ ____________ 16. Total Operating Cost: ................................................................................................ $ ____________ TOTAL COST (No. 8 plus No. 16) .................................................................................... $ ____________ COST PER TON:
Total Cost Hourly Production
$ ................................ $ Per Tonne ___________ Tonne
=
3-12
Productivity Hourly productivity can be determined by the following equation. V=
3600 x Q x K x E C xD
Where V = hourly productivity, m3/h Q = bucket capacity (heaped), m3 K = bucket factor (see Table 1) E = work efficiency (see Table 2) C = basic cycle time (sec) D = factor between swing angle and digging depth (see Table 3)
Bucket Factor (K)
Bucket factor (K) varies with kind of soil and digging depth. Cumulative data, obtained depending on kind and conditions of soil, are generally used for actual planning. Table 1
Bucket Factor (K)
(Using JIS bucket capacity definition)
Type of Excavation
Light excavation
K Kind and conditions of soil
Medium excavation
0.8 1.0
0.7 0.9
Loose sand; easily heaped condensed soil with little air void in bucket; and clay containing lots of sand.
Easily collapsed soil when stockpiled (no blasting required); sand and soil loaded in bucket with air void; wet or dry clay; coarse gravel: and compacted sand and soil.
Relatively tough excavation
Tough excavation
0.6 - 0.8
0.4 - 0.7
Bulky blasted rocks Finely crushed loaded in bucket limestone and with large air void. sandstone; wet cohesive clay; gravel containing rubble; and excavation in water.
Work Efficiency (E) Work efficiency (E) varies largely with operator’s skill as well as machine travel distance, preparation time length and dump trucks combined. (Actual work efficiency is from 0.5 to 0.8. ) Table 2
Work Efficiency (E)
Work Conditions
Work Efficiency
Very good
0.9 (55 minutes/hour)
Good
0.83 (50 minutes/hour)
Ordinary
0.75 (45 minutes/hour)
3-13
Basic Cycle Time (C) Cycle time varies with kind and conditions of soil as well as the degree of excavation difficulty. Here, basic cycle time (C) is defined on condition that kind of soil is ordinary, swing angle is 90°, digging depth is 60% maximum digging depth (catalog data), and operation is dumping onto a well matched dump truck. Basic Cycle Time (C) Backhoe
Unit: sec
Basic Cycle Time
Mode
ZX70 class
13
Maximum output mode
ZX110 class
14
Maximum output mode
ZX120 class
14
Maximum output mode
ZX160LC class
15
Maximum output mode
ZX200 class
16
Maximum output mode
ZX240 class
17
Maximum output mode
ZX270 class
17
Maximum output mode
ZX330 class
17
Maximum output mode
ZX450 class
18
Maximum output mode
ZX650 class
19
Maximum output mode
ZX850 class
20
Maximum output mode
EX1200
22
Maximum output mode
EX1900
25
Maximum output mode
EX2500
27
Maximum output mode
EX3600
28
Maximum output mode
30
Maximum output mode
EX5500 Note: ZX:Based on ZX-3 Series EX:Based on EX-6 Series
Factor between Swing Angle and Digging Depth (D) Cycle time varies with swing speed and digging depth. Table 3
Factor between Swing Angle and Digging Depth
Digging Depth
Swing Angle 45°
90°
135°
Less than 40% maximum digging depth
0.80
0.85
0.95
1.05
40% to 75% maximum digging depth
0.95
1.00
1.10
1.20
More than 75% maximum digging depth
1.10
1.15
1.25
1.40
3-14
180°
Hourly Production (Loose Soil Volume) (V) Hourly production (V) of each model in light excavation is tabulated below for reference. V=
3600 x Q x K x E C xD
where
K = 0.9 E = 0.9 D = 1.0
Hourly Production (Loose Soil Volume) (V) Backhoe Bucket Capacity (Q) (heaped) m3
Unit: m3/h
Work Efficiency (E) 1.0
0.83
0.75
ZX70 class
0.28
70
58
52
35
ZX110 class
0.45
104
86
78
52
ZX120 class
0.5
116
96
87
58
ZX160 class
0.6
130
108
97
65
ZX200 class
0.8
162
134
122
81
ZX240 class
1.0
191
158
143
95
ZX270 class
1.1
210
174
157
105
ZX330 class
1.4
267
221
200
133
ZX450 class
1.9
342
284
257
171
ZX650 class
2.9
495
410
371
247
ZX850 class
3.4
551
457
413
275
EX1200
5.2
766
636
574
383
EX1900
12.0
1 555
1 291
1 166
778
EX2500
15.0
1 800
1 494
1 350
900
EX3600
22.0
2 546
2 113
1 909
1 273
EX5500 29.0 Note: ZX:Based on ZX-3 Series EX:Based on EX-6 Series
3 132
2 600
2 349
1 566
3-15
0.5
Arm End Dimentions Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J
Bucket Cylinder
I
+ ZX75US Class
ZX70 Class
Unit : mm
ZX70, ZX70-3 EX60-5
EX60-2, EX60-3
EX60
ZX75US-3, ZX75US-A, ZX75US EX75US-5
A
255
255
255
255
B
188
178
178
188
C
200
178
178
200
D
310
310
310
310
E (diameter)
50
45
45
50
F (diameter)
50
45
45
50
G (diameter)
50
45
45
50
H (diameter)
55
55
55
55
I
70
70
65
70
J
15
15
15
15
Dimensions
3-16
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J
Bucket Cylinder
I
+ ZX110(M) Class
ZX135US Class
Dimensions
ZX110(M), ZX110(M)-3 EX100(M)-5
EX100(M)-3
A B C D E (diameter) F (diameter) G (diameter) H (diameter) I J
325 253 254 362 65 65 65 65 87 5
325 254 254 362 65 65 65 65 87 5
Unit : mm
EX100(M)
ZX135US-3, ZX135US
EX140US-3
EX135USR-5
365 254 254 420 65 65 65 65 98 20
325 253 254 362 65 65 65 65 87 5
325 253 254 362 65 65 65 65 87 5
325 253 254 362 65 65 65 65 87 5
ZX120 Class
ZX140W Class
Dimensions
ZX120-3, ZX120, EX120-5
EX120-3
EX120
ZX140W-3
ZX130W
A B C D E (diameter) F (diameter) G (diameter) H (diameter) I J
325 253 254 362 65 65 65 65 87 5
325 254 254 362 65 65 65 65 87 5
340 254 254 420 65 65 65 65 98 10
325 253 254 362 65 65 65 65 87 5
325 253 254 362 65 65 65 65 87 5
3-17
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J +
Bucket Cylinder
I ZX170W Class
ZX160 Class ZX160LC-3, ZX160LC EX150LC-5
EX150
ZX170W-3, ZX160W
EX160WD
A
370
370
370
370
B
304
305
305
305
C
305
305
305
305
D
401
391
401
391
E (diameter)
71
65
71
65
F (diameter)
80
80
80
80
G (diameter)
80
80
80
80
H (diameter)
71
71
71
71
I
97
97
97
97
J
0
0
0
0
Dimensions
ZX180W Class ZX190W-3
ZX180W
A
Dimensions
450
450
B
304
304
C
305
305
D
476
476
E (diameter)
71
71
F (diameter)
80
80
G (diameter)
80
80
H (diameter)
80
80
I
96
96
J
0
0
3-18
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J -
Bucket Cylinder
J +
I ZX200 Class
ZX210W Class
Unit : mm
ZX200-3, ZX200, EX200-5, EX200-3, EX200-2
EX200
ZX210W-3,
ZX210W
ZX200
A
450
450
450
450
450
B
305
305
304
305
305
C
305
305
305
305
305
D
476
472
476
476
476
E (diameter)
71
71
71
71
71
F (diameter)
80
80
80
80
80
G (diameter)
80
80
80
80
80
Dimensions
H (diameter)
80
80
80
80
80
I
96
96
96
96
96
J
0
0
0
0
0
ZX225US/USR Class
ZX200 to 330 Class Super Long
ZX225US-3, / USR-3, ZX225US / USR
EX225USR-5
ZX200-3
EX-5 Super Long, EX-2, EX-3
EX Super Long
A
450
450
290
290
235
B
305
305
221
221
221
C
305
305
221
221
221
D
476
476
325
325
325
E (diameter)
71
71
65
65
50
F (diameter)
80
80
65
65
50
G (diameter)
80
80
65
65
50
Dimensions
H (diameter)
80
80
65
65
55
I
96
96
87
87
65
J
0
0
-5
-5
-5
3-19
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J -
Bucket Cylinder
J +
I ZX200LCH Class H15 Super Long Front
ZX240 Class
Unit : mm
ZX200-3 H15 ZX200 H15
EX200-5 H15 SL
ZX240-3, EX220-5, ZX230
EX220-2, EX220-3
EX220
A
290
290
460
460
460
B
219
219
367
368
368
C
221
221
408
408
408
D
355
355
475
475
475
E (diameter)
65
65
80
80
80
F (diameter)
65
65
90
90
90
G (diameter)
65
65
90
90
90
Dimensions
H (diameter)
65
65
90
90
90
I
87
87
123
123
123
J
-5
-5
5
5
0
ZX270 Class ZX270-3, ZX270
EX270-5
EX270
A
475
475
475
B
407
408
408
C
408
408
408
D
475
475
475
E (diameter)
80
80
80
F (diameter)
90
90
90
G (diameter)
90
90
90
Dimensions
H (diameter)
90
90
90
I
137
137
137
J
0
0
0
3-20
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J -
Bucket Cylinder
J +
I
ZX330 Class
Unit : mm ZX330-3, ZX330, EX300-5
EX300-3, EX300-3C, EX300-2
EX300
A
575
570
570
B
418
418
418
C
418
418
418
D
585
585
585
E (diameter)
90
90
90
F (diameter)
100
100
100
G (diameter)
100
100
100
H (diameter)
100
100
100
I
124
124
124
J
-10
0
0
Dimensions
3-21
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J +
Bucket Cylinder
I
ZX400(R,LCH) Class
Unit : mm
ZX400-3
ZX380HH
ZX370MTH
ZX330-3, EX300-5, ZX330
A
575
575
575
575
570
570
B
418
418
418
418
418
418
C
418
418
418
418
418
418
D
585
585
585
585
585
585
E (diameter)
90
90
90
90
90
90
F (diameter)
100
100
100
100
100
100
G (diameter)
100
100
100
100
100
100
H (diameter)
100
100
100
100
100
100
I
124
124
124
124
124
124
J
-10
-10
-10
-10
Dimensions
3-22
EX300-3C, EX300-3, EX-2
EX300
0
0
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J +
Bucket Cylinder
I
ZX450 Class Dimensions
Unit : mm ZX450-3
ZX450, ZX450-3
EX400-3, EX400-5
EX400
A
520
520
520
530
B
430
430
430
430
C
470
470
470
470
D
568
568
568
572
E (diameter)
100
100
100
100
F (diameter)
110
110
110
110
G (diameter)
110
110
110
110
H (diameter)
110
110
110
110
I
140
140
140
140
-10
-10
-10
J -10 Data adapt to the standard arm and the H arm.
3-23
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J +
Bucket Cylinder
I
ZX500 Class Dimensions
Unit : mm ZX500LC-3
ZX520LCH-3
A
520
520
B
430
430
C
470
470
D
568
568
E (diameter)
100
100
F (diameter)
110
110
G (diameter)
110
110
H (diameter)
110
110
I
140
140
J -10 Data adapt to the standard arm and the H arm.
-10
ZX650 Class Dimensions
Unit : mm ZX650-3
ZX600
EX550-5
EX550-3
A
600
545
545
545
B
485
470
470
470
C
520
510
510
510
D
666
620
620
620
E (diameter)
110
110
110
110
F (diameter)
130
120
120
120
G (diameter)
120
120
120
120
H (diameter)
140
130
130
130
I
150
155
155
155
0
0
0
J -20 Data adapt to the standard arm and the H arm.
3-24
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J +
Bucket Cylinder
I
ZX850-3 Class Dimensions
Unit : mm ZX850-3
ZX800
EX700 to 750
UH23
A
600
600
600
530
B
488
500
500
608
C
550
552
552
651
D
676
676
676
630
E (diameter)
110
110
110
110
F (diameter)
140
130
130
120
G (diameter)
130
130
130
110
H (diameter)
150
140
140
130
I
160
166
166
138
20
0
20
J -20 Data adapt to the standard arm and the H arm.
3-25
Pin diameter E
Pin diameter F
B
Note: Dimensions shown are for guideline for installation. Be careful that some attachments cannot be installed because of the differences in bucket cylinder stroke, arm height/width, pin joint, and hydraulic pressure/oil flow; or interference with other components at cylinder stroke ends.
C Pin diameter H D
Arm
Pin diameter G
A
Bucket
Pin diameter J J +
Bucket Cylinder
I
EX1200 Class Dimensions
Unit : mm EX1200-6
EX1200-5, EX1200-5C, EX1200-5D
EX1100-3m/c
EX1100-3
A
655
661
661
661
661
B
640
640
640
640
640
C
642
642
642
642
636
D*1
765
730
730
730
730
E (diameter)
130
130
130
130
130
F (diameter)
160
160
160
160
160
G (diameter)
140
140
140
140
140
H (diameter)
160
160
160
160
160
I
196
196
196
196
196
J -90 -90 Data adapt to the standard arm and the H arm.
-90
-90
-90
3-26
SECTION 4 SPECIFICATIONS
4-1
DESCRIPTION OF ILLUSTRATED SPECIFICATIONS 15.
Manufacturer and model
liter Hydraulic oil tank capacity
ENGINE
16.
1. Make and model
liter
2.
Hydraulic system capacity kW(HP) @min
-1
17. Type of swing brake
Rated horsepower (ISO 9249, net) 18.
3.
min-1(rpm)
kW(HP) @min-1 Swing speed
Rated horsepower (EEC 80 / 1269, net) 19.
4.
kN·m (kgf·m)
kW(HP) @min-1 Swing torque
Rated horsepower (SAE J1349, net)
20. Parking brake
5. kW(HP) @min-1 Max. horsepower (EEC 80 / 1269, gross) 6.
CONTROL SYSTEM kW(HP) @min-1 21. Type
Max. horsepower (SAE J1349, gross) 7. No.of cylinder
22. No. of levers and pedals
8. liter Piston displacement
DIMENSIONS
9. liter
23.
Fuel tank capacity
E
10. Injection/Aspiration
D
F C
HYDRAULICS A B
11. Hydraulic system 12. Working pumps
H
I
G
Variable displacement piston pump Fixed displacement piston pump Vane pump Gear pump
A. Center-to-center distance
mm
B. Track length
mm
C. Counterweight clearance
mm
D. Weight of counterweight E. Rear-end swing radius
kg mm
13. MPa (kgf/cm2) Max. pressure setting 14. liter/min Max. oil flow
4- 2
F. Overall height of cab
mm
G. Track gauge
mm
H. Min. ground clearance
mm
I. Track height
mm
32. Max. boom-swing angle
UNDERCARRIAGE
degree
33. Max. offset-distance
24. Type 25. No. of upper/lower rollers (each side)
kg
26.
Operating weight
C
A
mm
34.
D B
BLADE
E A. Max. travel speed
35. km/h
B. Max. traction force C. Gradeability
%(deg.)
D. Shoe width
A
BACKHOE 27. Boom length
m
28. Arm length
m
1
mm
B. Overall height of blade
mm
C. Blade distance
mm
D. Max. raising height above ground
mm
E. Max. lowering depth from ground F. Blade angle
1
kg Operating weight with blade
2
m3 Bucket capacity, CECE heaped PCSA:Power Crane and Shovel Association (U.S.A) CECE:Committee for European Construction Equipment 31.
G E
F
I H
C D
B A
mm degree
36.
m3
1
C
A. Overall width of blade
Bucket capacity, PCSA heaped 30.
D E
mm
E. Ground pressure (When equipped with a backhoe kPa(kgf/cm2) front-end attachment)
29.
F
B
kN(kgf)
8'
A. Max. digging reach
mm
B. Max. digging reach on G.L.
mm
C. Max. digging depth
mm
D. Max. digging depth (8' level)
mm
E. Max. cutting height
mm
F. Max. dumping height
mm
G. Min. swing radius
mm
H. Max. digging force by bucket cylinder kN (kgf) I. Max. digging force by arm cylinder
kN (kgf)
4- 3
LOADING SHOVEL 33. Bucket type Bottom dump type Tilt dump type 34. m3 Bucket capacity 35.
E F
D
G
H C
B A
A. Max. digging reach
mm
B. Max. digging reach on G.L.
mm
C. Level crowding distance
mm
D. Dumping height
mm
E. Working radius at D
mm
F. Max. cutting height
mm
G. Breakout force
kN(kgf)
H. Crowding force
kN(kgf)
36. kg Operating weight
4- 4
Manufacturer and model
15. Type of swing brake 16. min-1(rpm)
ENGINE Swing speed
1. Make and model 17.
2.
kN·m (kgf·m)
kW(HP) @min-1 Swing torque
Rated horsepower (ISO 9249, net) 3. kW(HP) @min-1
CONTROL SYSTEM
Rated horsepower (EEC 80 / 1269, net)
18. Type
4.
19. No. of levers
kW(HP) @min-1 Max. horsepower (SAE J1349, net) 5. No.of cylinder
DIMENSIONS
6.
20.
liter
A
Piston displacement 7.
C
D
G
liter Fuel tank capacity
B
8. Injection/Aspiration
HYDRAULICS
E F
A. Rear-end swing radius
mm
B. Wheel base
mm
C. Weight of counterweight
9. Hydraulic system
D. Overall height of cab
10. Working pumps Variable displacement piston pump Fixed displacement piston pump Vane pump
kg mm
E. Overall width tires
mm
F. Outrigger width
mm
G. Min. ground clearance
mm
UNDERCARRIAGE 21. Travel mechanism
Gear pump
22. Drive system 23. Tires (Front/Rear) 11.
24. Tire size
mm
2
MPa (kgf/cm )
25. Outriggers
Max. pressure setting
26.
12.
A
liter/min Max. oil flow
B
13. liter
C
Hydraulic oil tank capacity A. Max. travel speed
14.
B. Gradeability
liter
C. Min. turning radius
Hydraulic system capacity
4- 5
km/h %(deg.) mm
BACKHOE (with monoblock boom)
BACKHOE (with two-piece boom)
27. Boom length
m
33. Boom length
m
28. Arm length
m
34. Arm length
m
29.
1
1
35.
1
1
m3
m3
Bucket capacity, PCSA heaped 30.
1
Bucket capacity, PCSA heaped
2
36.
1
2
m3
m3
Bucket capacity, CECE heaped
Bucket capacity, CECE heaped
PCSA:Power Crane and Shovel Association (U.S.A) CECE:Committee for European Construction Equipment
PCSA:Power Crane and Shovel Association (U.S.A) CECE:Committee for European Construction Equipment
31.
37.
G E
F
E I H
C D
G
B A
F
I H
C D 8'
B A
8'
A. Max. digging reach
mm
A. Max. digging reach
mm
B. Max. digging reach on G.L.
mm
B. Max. digging reach on G.L.
mm
C. Max. digging depth
mm
C. Max. digging depth
mm
D. Max. digging depth (8' level)
mm
D. Max. digging depth (8' level)
mm
E. Max. cutting height
mm
E. Max. cutting height
mm
F. Max. dumping height
mm
F. Max. dumping height
mm
G. Min. swing radius
mm
G. Min. swing radius
mm
H. Max. digging force by bucket cylinder kN (kgf) I. Max. digging force by arm cylinder
H. Max. digging force by bucket cylinder kN (kgf)
kN (kgf)
I. Max. digging force by arm cylinder
32.
kN (kgf)
38. kg
kg
Operating weight
Operating weight
4- 6
ZX60USB with Blade UNDERCARRIAGE
ENGINE Yanmar 4TNV98
1. Make/model ISO net kW(HP) @min-1
2.
26. ECC net kW(HP) @min-1
40.5(54.3) @ 2 000
4.
SAE net kW(HP) @min-1
40.5(54.3) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
3.318
liter
120
13. 14.
liter
16.
liter
2.97*
SAE/PCSA
m3
0.22-0.24
CECE
m3
−
A
mm
6 230 / 6 560
B
mm
6 090 / 6 420
C
mm
3 770 / 4 120
D
mm
−/−
E
mm
5 960 / 6 190
F
mm
4 170 / 4 400
G
mm
2 470 / 2 560
H
kN (kgf)
41.1 (4 190)
I
kN (kgf)
31.1 / 27.0 (3 170) / (2 750)
1
1
2
G
100
F
I
127.5
H
Hydraulic with disc
18.
min-1(rpm)
0-9.5(9.5)
19.
kN·m (kgf·m)
11.0(1 120)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
mm
Left 80 / Right 60 Left 720 / Right 850
kg
BLADE
DIMENSIONS 23.
degree
33. Max. Offset-Distance
Hydraulic servo
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
35 (0.36)
1.50* / 1.85
1×144
17. Type of swing brake
kPa E (kgf/cm 2)
m
E
15.
P400
34 (0.35)
m
24.5(250),25.7(262) tarvel
Max. liter/min
R400
36 (0.35)
1
31.
1× MPa (kgf/cm2)
G400*
28. Arm length
30.
E-P contorol & OHS
12. Working pumps
58(30)
mm
27. Boom length
29.
HYDRAULICS 11. Hydraulic system
39.8 (4 058)
BACKHOE
Direct
10. Injection/Aspiration
B kN(kgf)
D
E
9.
0 - 2.5 -4.5
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
1/4
25. Upper/lower rollers
40.5(54.3) @ 2 000
3.
Tractor type
24. Type
A
mm
1 990
B
mm
G2 450 / R2 500
C
mm
B
615
A
−
D
kg
E
mm
1 300
F
mm
G2 550 / R2 560
G
mm
1 600
H
mm
330
I
mm
555
F
D E C
36.
2 000
A
mm
B
mm
415
C
mm
1 900
D
mm
445
E
mm
390
F
degree kg
6 090
Remarks *mark shows data to compute operating weight(s).
4- 7
ZX60USB with Blade
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Yanmar 4TNV98
1. Make/model ISO net kW(HP) @min-1
2.
26. ECC net kW(HP) @min-1
40.5(54.3) @ 2 000
4.
SAE net kW(HP) @min-1
40.5(54.3) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
3.318
liter
120
13. 14.
liter
16.
liter
2.97*
SAE/PCSA
m3
0.13-0.28
CECE
m3
−
A
mm
6 230 / 6 560
B
mm
6 090 / 6 420
C
mm
3 770 / 4 120
D
mm
−/−
E
mm
5 960 / 6 190
F
mm
4 170 / 4 400
G
mm
2 470 / 2 560
H
kN (kgf)
41.1 (4 190)
I
kN (kgf)
31.1 / 27.0 (3 170) / (2 750)
1
1
2
G
100
F
I
127.5
H
Hydraulic with disc
18.
min-1(rpm)
0-9.5(9.5)
19.
kN·m (kgf·m)
11.0(1 120)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
mm
Left 80 / Right 60 Left 720 / Right 850
kg
BLADE
DIMENSIONS 23.
degree
33. Max. Offset-Distance
Hydraulic servo
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
35 (0.36)
1.50* / 1.85
1×144
17. Type of swing brake
kPa E (kgf/cm 2)
m
E
15.
P400
36 (0.35)
m
24.5(250),25.7(262) tarvel
Max. liter/min
G400
34 (0.35)
1
31.
1× MPa (kgf/cm2)
R400*
28. Arm length
30.
E-P contorol & OHS
12. Working pumps
58(30)
mm
27. Boom length
29.
HYDRAULICS 11. Hydraulic system
39.8 (4 058)
BACKHOE
Direct
10. Injection/Aspiration
B kN(kgf)
D
E
9.
0 - 2.5 -4.5
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
1/4
25. Upper/lower rollers
40.5(54.3) @ 2 000
3.
Tractor type
24. Type
A
mm
1 990
B
mm
2 500
C
mm
620
B A
−
D
kg
E
mm
1 300
F
mm
2 560
G
mm
1 600
H
mm
335
I
mm
560
F
D E C
36.
2 000
A
mm
B
mm
415
C
mm
1 900
D
mm
445
E
mm
390
F
degree kg
5 990
Remarks *mark shows data to compute operating weight(s).
4- 8
ZX70-3 UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
26. ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135
13. 14.
m
3.72*
m
1.62* / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
6 320 / 6 810
B
mm
6 170 / 6 670
C
mm
4 170 / 4 670
D
mm
3 820 / 4 385
E
mm
7 150 / 7 550
F
mm
5 060 / 5 450
G
mm
1 720 / 2 080
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 (3 900)
1
1
1
2
31.
3× MPa (kgf/cm2)
26.0(265),31.4(320) travel
G
2×72.6, 1×61.6
Max. liter/min
E
15.
liter
60
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
6 500
A
mm
2 200
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
30.
E-P contorol & OHS
12. Working pumps
C %(deg.)
27. Boom length
29.
HYDRAULICS 11. Hydraulic system
58.9 (6 010)
BACKHOE
Direct/Turbocharged
10. Injection/Aspiration
B kN(kgf)
23 29 30 kPa 30 E (kgf/cm 2) (0.31) (0.23) (0.30) (0.31)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers
39.4(52.8) @ 2 000
3.
Tractor type
24. Type
A
mm
2 140
B
mm
2 765
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 750
H
mm
360
I
mm
655
B A F
D E C
36.
kg
7 000
Remarks *mark shows data to compute operating weight(s).
4- 9
ZX70LC-3 UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.72*
m
1.62* / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
6 320 / 6 810
B
mm
6 170 / 6 670
C
mm
4 170 / 4 670
D
mm
3 820 / 4 385
E
mm
7 150 / 7 550
F
mm
5 060 / 5 450
G
mm
1 720 / 2 080
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
1
30.
1
2
G
2×72.6, 1×61.6 E
15.
liter
60
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
6 600
A
mm
2 320
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
58.9 (6 010)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
22 28 28 kPa 28 E (kgf/cm 2) (0.29) (0.22) (0.29) (0.29)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
kg
7 100
Remarks *mark shows data to compute operating weight(s).
4- 10
ZX70-3 Off-set Front UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
D
4
8.
.liter
2.179
9.
liter
135 Direct/Turbocharged
10. Injection/Aspiration
0 - 3.4 -5.3
B kN(kgf)
58.9 (6 010)
C %(deg.)
70(35)
D
mm
G450*
kPa E (kgf/cm 2)
32 (0.33)
BACKHOE m
28. Arm length
m
1.62
SAE/PCSA
m3
0.13-0.28
CECE
m3
1
1
30.
1
2
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
26.0(265),31.4(320) travel
14.
Max. liter/min
2×72.6, 1×61.6
15.
liter
16.
G E
F
I
60 H
100
liter
C D
Hydraulic with disc
17. Type of swing brake
0.12-0.24 0m
Max
31.
3×
12. Working pumps
Off-set Boom
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
B A
8'
A
mm
6 320
5 880
B
mm
6 170
5 710
C
mm
4 160
3 710
D
mm
3 790
3 330
E
mm
7 130
6 780
F
mm
5 050
4 700
2 150
2 160 / 2 310
18.
min-1(rpm)
0-10.5(10.5)
G
mm
19.
kN·m (kgf·m)
14.3(1 460)
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 (3 900)
Hydraulic with disc
20. Parking brake
CONTROL SYSTEM
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
kg
E D
F C A B
H G
I
−
1 150 / 1 150 7 000
BLADE
DIMENSIONS 23.
−
degree L/R mm
A
mm
2 140
B
mm
2 765
C
mm
760
D
kg
850
E
mm
1 750
F
mm
2 600
G
mm
1 750
H
mm
360
I
mm
655
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 11
ZX70LC-3 Off-set Front UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
D
4
8.
.liter
2.179
9.
liter
135 Direct/Turbocharged
10. Injection/Aspiration
0 - 3.4 -5.3
B kN(kgf)
58.9 (6 010)
C %(deg.)
70(35)
D
mm
G450*
kPa E (kgf/cm 2)
30 (0.31)
BACKHOE m
28. Arm length
m
1.62
SAE/PCSA
m3
0.13-0.28
CECE
m3
1
1
30.
1
2
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
26.0(265),31.4(320) travel
14.
Max. liter/min
2×72.6, 1×61.6
15.
liter
16.
G E
F
I
60 H
100
liter
C D
Hydraulic with disc
17. Type of swing brake
0.12-0.24 0m
Max
31.
3×
12. Working pumps
Off-set Boom
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
B A
8'
A
mm
6 320
5 880
B
mm
6 170
5 710
C
mm
4 160
3 710
D
mm
3 790
3 330
E
mm
7 130
6 780
F
mm
5 050
4 700
−
2 160 / 2 310
18.
min-1(rpm)
0-10.5(10.5)
G
mm
19.
kN·m (kgf·m)
14.3(1 460)
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 (3 900)
Hydraulic with disc
20. Parking brake
CONTROL SYSTEM
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
kg
E D
F C A B
H G
I
−
1 150 / 1 150 7 100
BLADE
DIMENSIONS 23.
−
degree L/R mm
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 12
ZX80LCK-3 UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
D
4
8.
.liter
2.179
9.
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa
14.
(kgf/cm2)
60
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
SAE/PCSA
m3
0.13-0.28
CECE
m3
0.12-0.24
A
mm
7 130
B
mm
7 000
C
mm
4 460
D
mm
4 220
E
mm
8 210
F
mm
6 090
G
mm
1 670
H
kN (kgf)
55 (5 600)
I
kN (kgf)
32 (3 300)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B
G
8'
I
degree
−
mm
−
kg
7 400
BLADE
DIMENSIONS
H
B A
33. Max. Offset-Distance
Hydraulic servo
F
32 (0.33)
32. Max. Boom-Swing Angle
CONTROL SYSTEM
E
kPa E (kgf/cm 2)
K4.0*
21. Type
23.
G450*
K2.12*
Hydraulic with disc
20. Parking brake
mm
m
Hydraulic with disc
17. Type of swing brake
70(35)
D
m
E
liter
C %(deg.)
1
2×72.6, 1×61.6
15.
58.9 (6 010)
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
B kN(kgf)
BACKHOE
31.
3×
12. Working pumps
0 - 3.4 -5.3
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 140
B
mm
2 765
C
mm
760
D
kg
1 100
E
mm
1 750
F
mm
2 730
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 13
ZX70LC-3 with Blade
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.72
m
1.62 / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
6 320 / 6 810
B
mm
6 170 / 6 670
C
mm
4 170 / 4 670
D
mm
3 820 / 4 390
E
mm
7 150 / 7 550
F
mm
5 060 / 5 450
G
mm
1 720 / 2 080
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
1
30.
1
2
G
2×72.6, 1×61.6 E
15.
liter
60
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
−
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
58.9 (6 010)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
25 31 31 kPa 31 E (kgf/cm 2) (0.32) (0.25) (0.32) (0.32)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
2 320
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
7 280
Remarks *mark shows data to compute operating weight(s).
4- 14
ZX70LCN-3 with Blade
UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
EUROPEAN SPEC
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.72*
m
1.62* / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
6 320 / 6 810
B
mm
6 170 / 6 670
C
mm
4 170 / 4 670
D
mm
3 820 / 4 385
E
mm
7 150 / 7 550
F
mm
5 060 / 5 450
G
mm
1 720 / 2 080
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
1
30.
1
2
G
2×72.6, 1×61.6 E
15.
liter
60
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
−
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
58.9 (6 010)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
25 31 31 kPa 31 E (kgf/cm 2) (0.32) (0.25) (0.32) (0.32)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 750
H
mm
360
I
mm
655
B A F
D E C
36.
2 200
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
7 270
Remarks *mark shows data to compute operating weight(s).
4- 15
ZX70LC-3 Off-set Front with Blade
UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
3.
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
Tractor type
24. Type
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
C %(deg.)
70(35)
m
1.62*
SAE/PCSA
m3
0.13-0.28
CECE
m3
1
1
1
2
13.
MPa (kgf/cm2)
26.0(265),31.4(320) travel
14.
Max. liter/min
2×72.6, 1×61.6
16.
G E
F
I
60
liter
H
100
liter
C D
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
B A
8'
CONTROL SYSTEM
mm
6 320
5 875
B
mm
6 165
5 710
C
mm
4 160
3 710
D
mm
3 780
3 330
E
mm
7 130
6 775
F
mm
5 050
4 700
G
mm
2 150
2 160 / 2 310
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 (3 900)
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D C A B I
−
degree L/R mm kg
−
1 150 / 1 150 −
BLADE
DIMENSIONS 23.
Max
A
Hydraulic with disc
20. Parking brake
0.12-0.24 0m
31.
3×
15.
Off-set Boom
m
28. Arm length
E-P contorol & OHS
12. Working pumps
F
mm G450* G600 P450 R450
BACKHOE
30.
11. Hydraulic system
G
58.9 (6 010)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
25 33 33 kPa 33 E (kgf/cm 2) (0.34) (0.26) (0.34) (0.34)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
2 320
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
7 700
Remarks *mark shows data to compute operating weight(s).
4- 16
ZX70LCN-3 Off-set Front with Blade
UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
3.
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
Tractor type
24. Type
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
C %(deg.)
70(35)
m
1.62*
SAE/PCSA
m3
0.13-0.28
CECE
m3
1
1
1
2
13.
MPa (kgf/cm2)
26.0(265),31.4(320) travel
14.
Max. liter/min
2×72.6, 1×61.6
16.
G E
F
I
60
liter
H
100
liter
C D
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
14.3(1 460)
B A
8'
CONTROL SYSTEM
mm
6 320
5 880
B
mm
6 170
5 710
C
mm
4 160
3 710
D
mm
3 790
3 330
E
mm
7 130
6 780
F
mm
5 050
4 700
G
mm
2 150
2 160 / 2 310
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 (3 900)
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D C A B I
−
degree L/R mm kg
−
1 150 / 1 150 −
BLADE
DIMENSIONS 23.
Max
A
Hydraulic with disc
20. Parking brake
0.12-0.24 0m
31.
3×
15.
Off-set Boom
m
28. Arm length
E-P contorol & OHS
12. Working pumps
F
mm G450* G600 P450 R450
BACKHOE
30.
11. Hydraulic system
G
58.9 (6 010)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
25 33 33 kPa 33 E (kgf/cm 2) (0.34) (0.26) (0.34) (0.34)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
750
E
mm
1 750
F
mm
2 600
G
mm
1 750
H
mm
360
I
mm
655
B A F
D E C
36.
2 200
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
7 690
Remarks *mark shows data to compute operating weight(s).
4- 17
ZX85USBLC-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.72
m
1.62 / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
7 210 / 7 700
B
mm
7 050 / 7 550
C
mm
3 970 / 4 470
D
mm
−/−
E
mm
6 810 / 7 180
F
mm
4 790 / 5 140
G
mm
2 740 / 2 890
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
liter
16.
liter
1
30.
1
2
G
2×79.2, 1×61.6 E
15.
56
F
I
100
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
16.0(1 630)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
mm kg
Left 60 / Right 60 Left 910 / Right 720 −
BLADE
DIMENSIONS 23.
degree
33. Max. Offset-Distance
Hydraulic servo
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
71.0 (7 240)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
27 35 35 kPa 35 E (kgf/cm 2) (0.36) (0.28) (0.37) (0.36)
4
9.
0 - 3.1 -5.0
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
1 480
E
mm
1 490
F
mm
2 690
G
mm
1 870
H
mm
360
I
mm
650
B A F
D E C
36.
2 320
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
8 080
Remarks *mark shows data to compute operating weight(s).
4- 18
ZX85USB-3 with Blade UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.67*
m
1.62* / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
7 210 / 7 700
B
mm
7 050 / 7 550
C
mm
3 970 / 4 470
D
mm
−/−
E
mm
6 810 / 7 180
F
mm
4 790 / 5 140
G
mm
2 740 / 2 890
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
liter
16.
liter
1
30.
1
2
G
2×79.2, 1×61.6 E
15.
56
F
I
100
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
16.0(1 630)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
mm kg
Left 60 / Right 60 Left 910 / Right 720 −
BLADE
DIMENSIONS 23.
degree
33. Max. Offset-Distance
Hydraulic servo
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
71.0 (7 240)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
27 35 35 kPa 35 E (kgf/cm 2) (0.36) (0.28) (0.37) (0.36)
4
9.
0 - 3.1 -5.0
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
1 480
E
mm
1 490
F
mm
2 690
G
mm
1 870
H
mm
360
I
mm
650
B A F
D E C
36.
2 320
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
8 080
Remarks *mark shows data to compute operating weight(s).
4- 19
ZX75US-3 UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.72*
m
1.62* / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
6 430 / 6 920
B
mm
6 260 / 6 760
C
mm
4 110 / 4 610
D
mm
3 760 / 4 330
E
mm
7 210 / 7 610
F
mm
5 120 / 5 510
G
mm
1 810 / 2 170
H
kN (kgf)
55 (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
1
30.
1
2
G
2×79.2, 1×61.6 E
15.
liter
56
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
16.0(1 630)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
−/−
mm
−/−
kg
7 200
A
mm
2 320
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree
BLADE
DIMENSIONS 23.
degree
33. Max. Offset-Distance
Hydraulic servo
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
71.0 (7 240)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
25 31 31 kPa 31 E (kgf/cm 2) (0.32) (0.25) (0.32) (0.32)
4
9.
0 - 3.1 -5.0
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
1 380
E
mm
1 290
F
mm
2 690
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
kg
7 800
Remarks *mark shows data to compute operating weight(s).
4- 20
ZX85US-3 with Blade
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AU-4LE2X
1. Make/model ISO net kW(HP) @min-1
2.
39.4(52.8) @ 2 000
ECC net kW(HP) @min-1
39.4(52.8) @ 2 000
4.
SAE net kW(HP) @min-1
39.4(52.8) @ 2 000
5.
ECC gross kW(HP) @min-1
40.5(54.3) @ 2 000
6.
SAE gross kW(HP) @min-1
40.5(54.3) @ 2 000
A
B
.liter
2.179
liter
135 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & OHS
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
3.72*
m
1.62* / 2.12
SAE/PCSA
m3
0.13-0.33
CECE
m3
0.12-0.29
A
mm
6 430 / 6 920
B
mm
6 260 / 6 760
C
mm
4 110 / 4 610
D
mm
3 760 / 4 330
E
mm
7 210 / 7 610
F
mm
5 120 / 5 510
G
mm
1 810 / 2 170
H
kN (kgf)
55 / 55 (5 600) / (5 600)
I
kN (kgf)
38 / 32 (3 900) / (3 300)
1
1
30.
1
2
G
2×79.2, 1×61.6 E
15.
liter
56
16.
liter
100
18.
min-1(rpm)
0-10.5(10.5)
19.
kN·m (kgf·m)
16.6(1 690)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G450* G600 P450 R450
28. Arm length
26.0(265),31.4(320) travel
Max. liter/min
C %(deg.)
BACKHOE
31.
3×
12. Working pumps
71.0 (7 240)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
26 33 33 kPa 34 E (kgf/cm 2) (0.35) (0.27) (0.34) (0.34)
4
9.
0 - 3.1 -5.0
D
D
8.
A km/h
C
E
7. No.of cylinder
1/5
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 290
B
mm
2 920
C
mm
760
D
kg
1 380
E
mm
1 290
F
mm
2 690
G
mm
1 870
H
mm
360
I
mm
655
B A F
D E C
36.
2 320
A
mm
B
mm
460
C
mm
1 880
D
mm
360
E
mm
300
F
degree kg
7 800
Remarks *mark shows data to compute operating weight(s).
4- 21
ZX110-3 UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.27*
m
1.96 / 2.26* / 2.81
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
7 490 / 7 760 / 8 240
B
mm
7 350 / 7 620 / 8 110
C
mm
4 780 / 5 080 / 5 630
D
mm
4 520 / 4 850 / 5 430
E
mm
7 940 / 8 110 / 8 360
F
mm
5 530 / 5 700 / 5 960
G
mm
2 370 / 2 400 / 2660
H
kN (kgf)
90 (9 200)
I
kN (kgf)
60 / 55 / 48 (6 090) / (5 530) / (4 890)
1
1
30.
1
2
G
2×111 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.9(13.9)
19.
kN·m (kgf·m)
31.0(3 160)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
10 900
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 F510
28. Arm length
34.3(350),31.3(319) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
91.0 (9 300)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
31 27 37 kPa 37 E (kgf/cm 2) (0.38) (0.32) (0.28) (0.38)
4
9.
0 - 3.6 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 620
B
mm
3 340
C
mm
890
D
kg
1 850
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 480
D
mm
480
E
mm
500
F
degree kg
11 900
Remarks *mark shows data to compute operating weight(s).
4- 22
ZX110M-3 UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.27*
m
1.96 / 2.26* / 2.81
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
7 490 / 7 760 / 8 240
B
mm
7 300 / 7 580 / 8 070
C
mm
4 580 / 4 880 / 5 430
D
mm
4 320 / 4 650 / 5 220
E
mm
8 140 / 8 320 / 8 560
F
mm
5 730 / 5 910 / 6 170
G
mm
2 370 / 2 400 / 2 660
H
kN (kgf)
90 (9 200)
I
kN (kgf)
60 / 55 / 48 (6 090) / (5 530) / (4 890)
1
1
30.
1
2
G
2×111 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.9(13.9)
19.
kN·m (kgf·m)
31.0(3 160)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
13 100
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G700* G800 G900 T900
28. Arm length
34.3(350),31.3(319) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
130(13 300)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
25 23 23 kPa 28 E (kgf/cm 2) (0.29) (0.26) (0.23) (0.23)
4
9.
0 - 2.4 -4.2
D
D
8.
A km/h
C
E
7. No.of cylinder
2/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 990
B
mm
3 790
C
mm
1 100
D
kg
1 850
E
mm
2 130
F
mm
2 950
G
mm
1 990
H
mm
595
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 23
ZX110-3 Off-set Front UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
2.999
9.
liter
250 Direct/Turbocharged
10. Injection/Aspiration
C %(deg.)
70(35)
D
mm
G500*
kPa E (kgf/cm 2)
39 (0.40)
m
Off-set Boom
28. Arm length
m
1.95
SAE/PCSA
m3
0.45
CECE
m3
1
1
1
2
MPa (kgf/cm2)
34.3(350),31.3(319) swing
14.
Max. liter/min
2×111
15. 16.
E
F
I H
170
liter
C D
Hydraulic with disc
17. Type of swing brake 18.
G
70
liter
B A
8'
0-13.9(13.9)
min-1(rpm)
31.0(3 160)
kN·m (kgf·m)
CONTROL SYSTEM
mm
7 670
7 140
B
mm
7 530
7 000
C
mm
5 340
4 800
D
mm
5 060
4 520
E
mm
7 720
7 370
F
mm
5 330
4 980
G
mm
2 950
H
kN (kgf)
90 (9 200)
I
kN (kgf)
63 (6 400)
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree mm kg
2 520
− − 11 500
BLADE
DIMENSIONS 23.
Max
A
Hydraulic with disc
20. Parking brake
0.40 0m
31.
2×
13.
G
91.0 (9 300)
E-P contorol & HIOS II
12. Working pumps
H
B kN(kgf)
BACKHOE
30.
11. Hydraulic system
19.
0 - 3.6 -5.5
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 620
B
mm
3 340
C
mm
890
D
kg
1 850
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 24
ZX110M-3 Off-set Front UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
2.999
9.
liter
250 Direct/Turbocharged
10. Injection/Aspiration
C %(deg.)
70(35)
D
mm
G700*
kPa E (kgf/cm 2)
29 (0.30)
m
Off-set Boom
28. Arm length
m
1.95
SAE/PCSA
m3
0.45
CECE
m3
1
1
1
2
MPa (kgf/cm2)
34.3(350),31.3(319) swing
14.
Max. liter/min
2×111
15. 16.
E
F
I H
170
liter
C D
Hydraulic with disc
17. Type of swing brake 18.
G
70
liter
B A
8'
0-13.9(13.9)
min-1(rpm)
31.0(3 160)
kN·m (kgf·m)
CONTROL SYSTEM
mm
7 670
7 140
B
mm
7 480
6 950
C
mm
5 140
4 600
D
mm
4 860
4 320
E
mm
7 920
7 570
F
mm
5 530
5 180
G
mm
2 950
H
kN (kgf)
90 (9 200)
I
kN (kgf)
63 (6 400)
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
2 520
− 1 420 / 1 420
L/R mm kg
13 800
BLADE
DIMENSIONS 23.
Max
A
Hydraulic with disc
20. Parking brake
0.40 0m
31.
2×
13.
G
130(13 300)
E-P contorol & HIOS II
12. Working pumps
H
B kN(kgf)
BACKHOE
30.
11. Hydraulic system
19.
0 - 2.4 -4.2
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
2/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 990
B
mm
3 790
C
mm
1 100
D
kg
1 850
E
mm
2 130
F
mm
2 950
G
mm
1 990
H
mm
595
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 25
ZX110-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.27*
m
1.96 / 2.26* / 2.81
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
7 490 / 7 760 / 8 240
B
mm
7 350 / 7 620 / 8 110
C
mm
4 780 / 5 080 / 5 630
D
mm
4 520 / 4 850 / 5 430
E
mm
7 940 / 8 110 / 8 360
F
mm
5 530 / 5 700 / 5 960
G
mm
2 370 / 2 400 / 2 660
H
kN (kgf)
90 (9 200)
I
kN (kgf)
60 / 55 / 48 (6 090) / (5 530) / (4 890)
1
1
30.
1
2
G
2×111 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.9(13.9)
19.
kN·m (kgf·m)
31.0(3 160)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
11 100
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),31.3(319) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
91.0 (9 300)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
32 28 37 kPa 38 E (kgf/cm 2) (0.39) (0.33) (0.29) (0.38)
4
9.
0 - 3.6 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 620
B
mm
3 340
C
mm
890
D
kg
1 850
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 480
D
mm
480
E
mm
500
F
degree kg
12 200
Remarks *mark shows data to compute operating weight(s).
4- 26
ZX110M-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
70
16.
liter
170
18.
min-1(rpm)
0-13.9(13.9)
19.
kN·m (kgf·m)
31.0(3 160)
4.27*
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
7 490 / 7 760 / 8 240
B
mm
7 300 / 7 580 / 8 070
C
mm
4 580 / 4 880 / 5 430
D
mm
4 320 / 4 650 / 5 220
E
mm
8 140 / 8 320 / 8 560
F
mm
5 730 / 5 910 / 6 170
G
mm
2 370 / 2 400 / 2 660
H
kN (kgf)
90 (9 200)
I
kN (kgf)
60 / 55 / 48 (6 090) / (5 530) / (4 890)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
13 100
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
23 (0.23)
1.96 / 2.26* / 2.81
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m
Hydraulic with disc
17. Type of swing brake
G900
25 (0.26)
m
E
liter
G800
28 (0.29)
1
2×111
15.
G700*
28. Arm length
34.3(350),31.3(319) swing
Max. liter/min
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
130(13 300)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
D
E
9.
0 - 2.4 -4.2
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 990
B
mm
3 790
C
mm
1 100
D
kg
1 850
E
mm
2 130
F
mm
2 950
G
mm
1 990
H
mm
595
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 27
ZX110-3 Off-set Front
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
2.999
9.
liter
250 Direct/Turbocharged
10. Injection/Aspiration
C %(deg.)
70(35)
D
mm
G500*
kPa E (kgf/cm 2)
40 (0.41)
m
Off-set Boom
28. Arm length
m
1.96*
SAE/PCSA
m3
0.45
CECE
m3
1
1
1
2
MPa (kgf/cm2)
34.3(350),31.3(319) swing
14.
Max. liter/min
2×111
15. 16.
E
F
I H
170
liter
C D
Hydraulic with disc
17. Type of swing brake 18.
G
70
liter
B A
8'
0-13.9(13.9)
min-1(rpm)
31.0(3 160)
kN·m (kgf·m)
CONTROL SYSTEM
mm
7 670
7 140
B
mm
7 530
7 000
C
mm
5 340
4 800
D
mm
5 060
4 520
E
mm
7 720
7 370
F
mm
5 330
4 980
G
mm
2 950
H
kN (kgf)
90 (9 200)
I
kN (kgf)
63 (6 400)
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
2 520
− 1 420 / 1 420
L/R mm kg
11 700
BLADE
DIMENSIONS 23.
Max
A
Hydraulic with disc
20. Parking brake
0.40 0m
31.
2×
13.
G
91.0 (9 300)
E-P contorol & HIOS II
12. Working pumps
H
B kN(kgf)
BACKHOE
30.
11. Hydraulic system
19.
0 - 3.6 -5.5
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 620
B
mm
3 340
C
mm
890
D
kg
1 850
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 28
ZX110M-3 Off-set Front
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
EUROPEAN SPEC
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
2.999
9.
liter
250 Direct/Turbocharged
10. Injection/Aspiration
C %(deg.)
70(35)
D
mm
G700*
kPa E (kgf/cm 2)
29 (0.30)
m
Offset- Boom
28. Arm length
m
1.96*
SAE/PCSA
m3
0.45
CECE
m3
1
1
1
2
MPa (kgf/cm2)
34.3(350),31.3(319) swing
14.
Max. liter/min
2×111
15. 16.
E
F
I H
170
liter
C D
Hydraulic with disc
17. Type of swing brake 18.
G
70
liter
B A
8'
0-13.9(13.9)
min-1(rpm)
31.0(3 160)
kN·m (kgf·m)
CONTROL SYSTEM
mm
7 670
7 140
B
mm
7 480
6 950
C
mm
5 140
4 600
D
mm
4 860
4 320
E
mm
7 920
7 570
F
mm
5 530
5 180
G
mm
2 950
H
kN (kgf)
90 (9 200)
I
kN (kgf)
63 (6 400)
32. Max. Boom-Swing Angle
21. Type
Hydraulic servo
33. Max. Offset-Distance
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
2 520
− 1 420 / 1 420
L/R mm kg
13 800
BLADE
DIMENSIONS 23.
Max
A
Hydraulic with disc
20. Parking brake
0.40 0m
31.
2×
13.
G
130(13 300)
E-P contorol & HIOS II
12. Working pumps
H
B kN(kgf)
BACKHOE
30.
11. Hydraulic system
19.
0 - 2.4 -4.2
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
2/6
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 990
B
mm
3 790
C
mm
1 100
D
kg
1 850
E
mm
2 130
F
mm
2 950
G
mm
1 990
H
mm
595
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 29
ZX120-3 UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.60*
m
2.1 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
7 960 / 8 320 / 8 790
B
mm
7 830 / 8 200 / 8 670
C
mm
5 150 / 5 570 / 6 060
D
mm
4 910 / 5 350 / 5 880
E
mm
8 370 / 8 570 / 8 900
F
mm
5 960 / 6 160 / 6 490
G
mm
2 370 / 2 390 / 2 640
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
1
30.
1
2
G
2×117 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
34.0(3 470)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
12 100
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 F510
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
102 (10 400)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
32 28 38 kPa 38 E (kgf/cm 2) (0.39) (0.33) (0.29) (0.39)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 880
B
mm
3 580
C
mm
890
D
kg
2 500
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 480
D
mm
480
E
mm
500
F
degree kg
13 200
Remarks *mark shows data to compute operating weight(s).
4- 30
ZX130K-3 UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
2.999
9.
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa
14.
(kgf/cm2)
70
16.
liter
170
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
34.0(3 470)
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
8 320
B
mm
8 200
C
mm
5 570
D
mm
5 350
E
mm
8 570
F
mm
6 160
G
mm
2 390
H
kN (kgf)
99 (10 100)
I
kN (kgf)
65 (6 600)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B
G
8'
I
degree
−
mm
−
kg
13 100
BLADE
DIMENSIONS
H
B A
33. Max. Offset-Distance
Hydraulic servo
F
41 (0.42)
32. Max. Boom-Swing Angle
CONTROL SYSTEM
E
kPa E (kgf/cm 2)
4.60*
21. Type
23.
G500*
K2.52*
Hydraulic with disc
20. Parking brake
mm
m
Hydraulic with disc
17. Type of swing brake
70(35)
D
m
E
liter
C %(deg.)
1
2×117
15.
102 (10 400)
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.4 -5.5
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 880
B
mm
3 580
C
mm
890
D
kg
3 100
E
mm
2 130
F
mm
2 870
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 31
ZX130-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
3.
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.60*
m
2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
7 960 / 8 320 / 8 790
B
mm
7 830 / 8 200 / 8 670
C
mm
5 150 / 5 570 / 6 060
D
mm
4 910 / 5 350 / 5 880
E
mm
8 370 / 8 570 / 8 900
F
mm
5 960 / 6 160 / 6 490
G
mm
2 370 / 2 390 / 2 640
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
1
30.
1
2
G
2×117 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
33.0(3 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
12 500
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
95(9 690)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
33 28 38 kPa 39 E (kgf/cm 2) (0.40) (0.34) (0.29) (0.39)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
2 880
B
mm
3 580
C
mm
890
D
kg
2 700
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 480
D
mm
480
E
mm
500
F
degree kg
13 600
Remarks *mark shows data to compute operating weight(s).
4- 32
ZX130LCN-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
3.
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
MPa (kgf/cm2)
14.
m
4.60*
m
2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
7 960 / 8 320 / 8 790
B
mm
7 830 / 8 200 / 8 670
C
mm
5 150 / 5 570 / 6 060
D
mm
4 910 / 5 350 / 5 880
E
mm
8 370 / 8 570 / 8 900
F
mm
5 960 / 6 160 / 6 490
G
mm
2 370 / 2 390 / 2 640
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
1
30.
1
2
G
2×117 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
33.0(3 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
12 700
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
95(9 690)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
32 27 37 kPa 39 E (kgf/cm 2) (0.40) (0.33) (0.28) (0.38)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
3 050
B
mm
3 750
C
mm
890
D
kg
2 700
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 33
ZX130-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
EUROPEAN SPEC
69.0(93.0) @ 2 000
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
2-Piece Boom
m
2.10* / 2.52 / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
7 950 / 8 320 / 8 800
B
mm
7 820 / 8 200 / 8 680
C
mm
4 940 / 5 340 / 5 830
D
mm
4 810 / 5 220 / 5 720
E
mm
9 070 / 9 390 / 9 820
F
mm
6 610 / 6 930 / 7 360
G
mm
1 750 / 1 820 / 2 000
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
liter
16.
liter
1
30.
1
2
G
2×117 E
15.
70
F
I
170
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
33.0(3 370)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
12 900
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
95(9 690)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
34 29 40 kPa 40 E (kgf/cm 2) (0.41) (0.35) (0.30) (0.41)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 880
B
mm
3 580
C
mm
890
D
kg
2 700
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 480
D
mm
480
E
mm
500
F
degree kg
14 000
Remarks *mark shows data to compute operating weight(s).
4- 34
ZX130LCN-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 2 000
3.
ECC net kW(HP) @min-1
69.0(93.0) @ 2 000
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
250 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
2-Piece Boom
m
2.10* / 2.52 / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
7 950 / 8 320 / 8 800
B
mm
7 820 / 8 200 / 8 680
C
mm
4 940 / 5 340 / 5 830
D
mm
4 810 / 5 220 / 5 720
E
mm
9 070 / 9 390 / 9 820
F
mm
6 610 / 6 930 / 7 360
G
mm
1 750 / 1 820 / 2 000
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
1
30.
1
2
G
2×117 E
15.
liter
70
16.
liter
170
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
33.0(3 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
13 100
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
95(9 690)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
33 25 38 kPa 39 E (kgf/cm 2) (0.40) (0.34) (0.26) (0.39)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 050
B
mm
3 750
C
mm
890
D
kg
2 700
E
mm
2 130
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 35
ZX135US-3 UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 1 800
ECC net kW(HP) @min-1
69.0(93.0) @ 1 800
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
220 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.60*
m
2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
8 020 / 8 380 / 8 850
B
mm
7 880 / 8 250 / 8 720
C
mm
5 120 / 5 530 / 6 020
D
mm
4 880 / 5 320 / 5 840
E
mm
8 960 / 9 240 / 9 630
F
mm
6 510 / 6 780 / 7 180
G
mm
1 990 / 2 100 / 2 450
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
1
30.
1
2
G
2×117 E
15.
liter
62
16.
liter
120
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
34.0(3 470)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
13 400
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
117(11 940)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
35 31 42 kPa 42 E (kgf/cm 2) (0.43) (0.36) (0.32) (0.43)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 880
B
mm
3 580
C
mm
860
D
kg
3 680
E
mm
1 480
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 330
D
mm
480
E
mm
520
F
degree kg
14 300
Remarks *mark shows data to compute operating weight(s).
4- 36
ZX135USK-3 UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 1 800
ECC net kW(HP) @min-1
69.0(93.0) @ 1 800
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
2.999
9.
liter
220 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa
14.
(kgf/cm2)
62
16.
liter
120
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
34.0(3 470)
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
8 380
B
mm
8 250
C
mm
5 530
D
mm
5 320
E
mm
9 240
F
mm
6 780
G
mm
2 100
H
kN (kgf)
99 (10 100)
I
kN (kgf)
65 (6 600)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B
G
8'
I
degree
−
mm
−
kg
14 500
BLADE
DIMENSIONS
H
B A
33. Max. Offset-Distance
Hydraulic servo
F
41 (0.42)
32. Max. Boom-Swing Angle
CONTROL SYSTEM
E
kPa E (kgf/cm 2)
4.60
21. Type
23.
G500*
K2.52*
Hydraulic with disc
20. Parking brake
mm
m
Hydraulic with disc
17. Type of swing brake
70(35)
D
m
E
liter
C %(deg.)
1
2×117
15.
117(11 940)
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.3 -5.5
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
2 880
B
mm
3 580
C
mm
860
D
kg
4 510
E
mm
1 480
F
mm
2 870
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 37
ZX135US-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 1 800
3.
ECC net kW(HP) @min-1
69.0(93.0) @ 1 800
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
220 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
4.60*
m
2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
8 020 / 8 380 / 8 850
B
mm
7 880 / 8 250 / 8 720
C
mm
5 120 / 5 530 / 6 020
D
mm
4 880 / 5 320 / 5 840
E
mm
8 960 / 9 240 / 9 630
F
mm
6 510 / 6 780 / 7 180
G
mm
1 990 / 2 100 / 2 450
H
kN (kgf)
99 (10 100)
I
kN (kgf)
73 / 65 / 58 (7 500) / (6 600) / (5 900)
1
1
30.
1
2
G
2×117 E
15.
liter
62
16.
liter
120
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
33.0(3 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
13 400
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
110(11 220)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
35 31 42 kPa 42 E (kgf/cm 2) (0.43) (0.36) (0.32) (0.43)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
2 880
B
mm
3 580
C
mm
860
D
kg
3 680
E
mm
1 480
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 330
D
mm
480
E
mm
520
F
degree kg
14 300
Remarks *mark shows data to compute operating weight(s).
4- 38
ZX135US-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AJ-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
69.0(93.0) @ 1 800
3.
ECC net kW(HP) @min-1
69.0(93.0) @ 1 800
4.
SAE net kW(HP) @min-1
69.0(93.0) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
220 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS II
13.
MPa
14.
(kgf/cm2)
m
2.52*
SAE/PCSA
m3
0.19-0.59
CECE
m3
0.17-0.50
A
mm
8 380
B
mm
8 250
C
mm
5 330
D
mm
5 220
E
mm
9 430
F
mm
6 970
G
mm
2 020
H
kN (kgf)
99 (10 100)
I
kN (kgf)
65 (6 600)
1
1
30.
2
G E
liter
62
16.
liter
120
18.
min-1(rpm)
0-13.7(13.7)
19.
kN·m (kgf·m)
33.0(3 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
14 000
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
2-Piece Boom
m
1
2×117
15.
70(35)
mm G500* G600 G700 P500
28. Arm length
34.3(350),32.3(329) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
110(11 220)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
37 32 44 kPa 44 E (kgf/cm 2) (0.45) (0.38) (0.33) (0.45)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
1/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
2 880
B
mm
3 580
C
mm
860
D
kg
3 680
E
mm
1 480
F
mm
2 740
G
mm
1 990
H
mm
440
I
mm
800
B A F
D E C
36.
2 490
A
mm
B
mm
610
C
mm
2 330
D
mm
480
E
mm
520
F
degree kg
14 900
Remarks *mark shows data to compute operating weight(s).
4- 39
ZX160LC-3 UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
5.10*
m
2.22 / 2.58* / 3.08
SAE/PCSA
m3
0.52-0.82
CECE
m3
0.45-0.70
A
mm
8 520 / 8 870 / 9 330
B
mm
8 340 / 8 700 / 9 160
C
mm
5 620 / 5 980 / 6 490
D
mm
5 340 / 5 740 / 6 270
E
mm
8 620 / 8 880 / 9 130
F
mm
5 940 / 6 170 / 6 400
G
mm
3 290 / 2 910 / 2 920
H
kN (kgf)
108 (11 000)
I
kN 110 / 87 / 78 (kgf) (11 200) / (8 900) / (7 900)
1
1
30.
1
2
G
2×191 E
15.
liter
125
16.
liter
210
18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
42.8(4 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
16 500
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 F600
28. Arm length
34.3(350),29.3(299) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
40 35 42 kPa 48 E (kgf/cm 2) (0.49) (0.41) (0.36) (0.43)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 100
B
mm
3 920
C
mm
1 030
D
kg
3 300
E
mm
2 490
F
mm
2 950
G
mm
1 990
H
mm
470
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 40
ZX160LC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
5.10*
m
2.22 / 2.58*
SAE/PCSA
m3
0.52-0.82
CECE
m3
0.45-0.70
A
mm
8 520 / 8 870
B
mm
8 340 / 8 700
C
mm
5 620 / 5 980
D
mm
5 340 / 5 740
E
mm
8 620 / 8 880
F
mm
5 940 / 6 170
G
mm
3 290 / 2 910
H
kN (kgf)
108 (11 000)
I
kN (kgf)
110 / 87 (11 200) / (8 900)
1
1
30.
1
2
G
2×191 E
15.
liter
125
16.
liter
210
18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
42.8(4 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
16 600
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 G800
28. Arm length
34.3(350),29.3(299) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
40 35 31 kPa 48 E (kgf/cm 2) (0.49) (0.41) (0.36) (0.32)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 100
B
mm
3 920
C
mm
1 030
D
kg
3 300
E
mm
2 490
F
mm
2 950
G
mm
1 990
H
mm
470
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 41
ZX160LC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa (kgf/cm2)
14.
m
2-Piece Boom
m
2.22 / 2.58*
SAE/PCSA
m3
0.52-0.82
CECE
m3
0.45-0.70
A
mm
8 330 / 8 690
B
mm
8 150 / 8 510
C
mm
5 210 / 5 580
D
mm
5 090 / 5 470
E
mm
9 420 / 9 740
F
mm
6 600 / 6 900
G
mm
2 580 / 2 070
H
kN (kgf)
108 (11 000)
I
kN (kgf)
110 / 87 (11 200) / (8 900)
1
1
30.
1
2
G
2×191 E
15.
liter
125
16.
liter
210
18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
42.8(4 370)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
17 100
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G500* G600 G700 G800
28. Arm length
34.3(350),29.3(299) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
42 36 32 kPa 50 E (kgf/cm 2) (0.51) (0.43) (0.37) (0.33)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 100
B
mm
3 920
C
mm
1 030
D
kg
3 300
E
mm
2 490
F
mm
2 950
G
mm
1 990
H
mm
470
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 42
ZX180LC-3 UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
125
16.
liter
220
18.
min-1(rpm)
0-14.1.(14.1)
19.
kN·m (kgf·m)
53.3(5 440)
5.50*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 070 / 9 430 / 9 940
B
mm
8 910 / 9 270 / 9 790
C
mm
6 120 / 6 570 / 7 070
D
mm
5 870 / 6 320 / 6 870
E
mm
9 290 / 9 400 / 9 790
F
mm
6 450 / 6 570 / 6 940
G
mm
3 140 / 3 130 / 3 120
H
kN (kgf)
122 (12 500)
I
kN 105 / 91 / 81 (kgf) (10 700) / (9 300) / (8 300)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
18 300
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
31 (0.32)
2.26 / 2.71* / 3.21
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m
Hydraulic with disc
17. Type of swing brake
G800
36 (0.37)
m
E
liter
G700
41 (0.42)
1
2×191
15.
G600*
28. Arm length
34.3(350),32.4(330) swing
Max. liter/min
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
D
E
9.
0 - 3.4 -5.3
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 000
E
mm
2 490
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 43
ZX180LC UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
125
16.
liter
220
18.
min-1(rpm)
0-14.1.(14.1)
19.
kN·m (kgf·m)
53.3(5 440)
5.50*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 070 / 9 430 / 9 940
B
mm
8 910 / 9 270 / 9 790
C
mm
6 120 / 6 570 / 7 070
D
mm
5 870 / 6 320 / 6 870
E
mm
9 290 / 9 400 / 9 790
F
mm
6 450 / 6 570 / 6 940
G
mm
3 140 / 3 130 / 3 120
H
kN (kgf)
122 (12 500)
I
kN 105 / 91 / 81 (kgf) (10 700) / (9 300) / (8 300)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
18 000
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
35 (0.36)
2.26 / 2.71* / 3.21
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m
Hydraulic with disc
17. Type of swing brake
G700
41 (0.42)
m
E
liter
G600
48 (0.49)
1
2×191
15.
G500*
28. Arm length
34.3(350),32.4(330) swing
Max. liter/min
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
D
E
9.
0 - 3.4 -5.3
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 000
E
mm
2 490
F
mm
2 950
G
mm
1 990
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 44
ZX180LC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
5.50*
m
2.26 / 2.71*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 070 / 9 430
B
mm
8 910 / 9 270
C
mm
6 120 / 6 570
D
mm
5 870 / 6 320
E
mm
9 290 / 9 400
F
mm
6 450 / 6 570
G
mm
3 140 / 3 130
H
kN (kgf)
122 (12 500)
I
kN (kgf)
105 / 91 (10 700) / (9 300)
1
1
30.
1
2
G
2×191 E
15.
liter
125
16.
liter
220
18.
min-1(rpm)
0-14.1.(14.1)
19.
kN·m (kgf·m)
53.3(5 440)
F
I H
Hydraulic with disc
17. Type of swing brake
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
18 500
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350),32.4(330) swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
36 31 28 kPa 41 E (kgf/cm 2) (0.42) (0.37) (0.32) (0.29)
4
9.
0 - 3.4 -5.3
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 000
E
mm
2 490
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 45
ZX180LCN-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
MPa (kgf/cm2)
14.
125
16.
liter
220
18.
min-1(rpm)
0-14.1.(14.1)
19.
kN·m (kgf·m)
53.3(5 440)
5.50*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 070 / 9 430
B
mm
8 910 / 9 270
C
mm
6 120 / 6 570
D
mm
5 870 / 6 320
E
mm
9 290 / 9 400
F
mm
6 450 / 6 570
G
mm
3 140 / 3 130
H
kN (kgf)
122 (12 500)
I
kN (kgf)
105 / 91 (10 700) / (9 300)
1
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
18 100
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
35 (0.36)
2.26 / 2.71*
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m
Hydraulic with disc
17. Type of swing brake
G700
41 (0.42)
m
E
liter
G600
49 (0.50)
1
2×191
15.
G500*
28. Arm length
34.3(350),32.4(330) swing
Max. liter/min
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
D
E
9.
0 - 3.4 -5.3
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 000
E
mm
2 490
F
mm
2 950
G
mm
1 990
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 46
ZX180LC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa (kgf/cm2)
14.
liter
16.
liter
2.26 / 2.71*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
8 980 / 9 350
B
mm
8 810 / 9 190
C
mm
5 640 / 6 050
D
mm
5 520 / 5 940
E
mm
10 260 / 10 530
F
mm
7 320 / 7 590
G
mm
2 280 / 2 230
H
kN (kgf)
122 (12 500)
I
kN (kgf)
105 / 91 (10 700) / (9 300)
1
1
30.
2
G
F
I
220
0-14.1.(14.1)
19.
kN·m (kgf·m)
53.3(5 440)
H C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
19 200
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
33 (0.34)
2-Piece Boom
Hydraulic with disc min-1(rpm)
kPa E (kgf/cm 2)
m
125
18.
G800
37 (0.38)
1
2×191
17. Type of swing brake
G700
43 (0.44)
m
E
15.
G600*
28. Arm length
34.3(350),32.4(330) swing
Max. liter/min
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
D
E
9.
0 - 3.4 -5.3
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 000
E
mm
2 490
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 47
ZX180LCN-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
2.
90.2(121) @ 2 000
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 000
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
2.999
liter
320 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa (kgf/cm2)
14.
liter
16.
liter
2.26 / 2.71*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
8 980 / 9 350
B
mm
8 810 / 9 190
C
mm
5 640 / 6 050
D
mm
5 520 / 5 940
E
mm
10 260 / 10 530
F
mm
7 320 / 7 590
G
mm
2 280 / 2 230
H
kN (kgf)
122 (12 500)
I
kN (kgf)
105 / 91 (10 700) / (9 300)
1
1
30.
2
G
F
I
220
0-14.1.(14.1)
19.
kN·m (kgf·m)
53.3(5 440)
H C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
18 900
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
37 (0.38)
2-Piece Boom
Hydraulic with disc min-1(rpm)
kPa E (kgf/cm 2)
m
125
18.
G700
43 (0.44)
1
2×191
17. Type of swing brake
G600
51 (0.52)
m
E
15.
G500*
28. Arm length
34.3(350),32.4(330) swing
Max. liter/min
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
169 (17 250)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
D
E
9.
0 - 3.4 -5.3
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 000
E
mm
2 490
F
mm
2 950
G
mm
1 990
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 48
ZX200-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 430 / 9 920
B
mm
9 250 / 9 750
C
mm
6 180 / 6 670
D
mm
5 950 / 6 490
E
mm
9 670 / 10 040
F
mm
6 830 / 7 180
G
mm
3 280 / 3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
19 800
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
39 34 46 kPa 44 E (kgf/cm 2) (0.45) (0.40) (0.35) (0.47)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 350
E
mm
2 750
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 49
ZX200LC-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 430 / 9 920
B
mm
9 250 / 9 750
C
mm
6 180 / 6 670
D
mm
5 950 / 6 490
E
mm
9 670 / 10 040
F
mm
6 830 / 7 180
G
mm
3 280 / 3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
20 400
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
37 32 44 kPa 42 E (kgf/cm 2) (0.43) (0.38) (0.33) (0.45)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
4 350
E
mm
2 750
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 50
ZX210H-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
5.193
9.
liter
400 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
liter
16.
liter
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
CECE
m3
0.45-1.00
A
mm
9 920
B
mm
9 750
C
mm
6 670
D
mm
6 490
E
mm
10 040
F
mm
7 180
G
mm
3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
21 000
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM
H5.68* H2.91*
21. Type
23.
47 (0.48)
0.51-1.20
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m3
1
240
min-1(rpm)
G600*
SAE/PCSA
Hydraulic with disc
18.
mm
m
135
17. Type of swing brake
70(35)
D
m
E
15.
C %(deg.)
1
2×212
Max. liter/min
203 (20 700)
28. Arm length
34.3(350)
(kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.5 -5.5
27. Boom length
29.
11. Hydraulic system
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 750
E
mm
2 750
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 51
ZX210LCH-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
5.193
9.
liter
400 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
liter
16.
liter
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
CECE
m3
0.45-1.00
A
mm
9 920
B
mm
9 750
C
mm
6 670
D
mm
6 490
E
mm
10 040
F
mm
7 180
G
mm
3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
21 400
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM
H5.68* H2.91*
21. Type
23.
44 (0.45)
0.51-1.20
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m3
1
240
min-1(rpm)
G600*
SAE/PCSA
Hydraulic with disc
18.
mm
m
135
17. Type of swing brake
70(35)
D
m
E
15.
C %(deg.)
1
2×212
Max. liter/min
203 (20 700)
28. Arm length
34.3(350)
(kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.5 -5.5
27. Boom length
29.
11. Hydraulic system
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
4 750
E
mm
2 750
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 52
ZX210K-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
49 (0.50)
27. Boom length
m
K5.68*
28. Arm length
m
K2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 920
B
mm
13.
MPa
9 750
C
mm
14.
6 670
D
mm
6 490
E
mm
10 040
F
mm
7 180
G
mm
3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
BACKHOE
1
G
2×212
Max. liter/min
E
liter
16.
liter
2
34.3(350)
(kgf/cm2)
15.
1
30.
1
31.
2×
12. Working pumps
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
21 900
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
203 (20 700)
mm
29.
11. Hydraulic system
B kN(kgf)
D
4
9.
0 - 3.5 -5.5
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
5 350
E
mm
2 750
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 53
ZX210LCK-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
46 (0.47)
27. Boom length
m
K5.68*
28. Arm length
m
K2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 920
B
mm
13.
MPa
9 750
C
mm
14.
6 670
D
mm
6 490
E
mm
10 040
F
mm
7 180
G
mm
3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
BACKHOE
1
G
2×212
Max. liter/min
E
liter
16.
liter
2
34.3(350)
(kgf/cm2)
15.
1
30.
1
31.
2×
12. Working pumps
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
22 300
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
203 (20 700)
mm
29.
11. Hydraulic system
B kN(kgf)
D
4
9.
0 - 3.5 -5.5
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
5 350
E
mm
2 750
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 54
ZX210-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.03 / 2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 300 / 9 500 / 9 990
B
mm
9 110 / 9 320 / 9 820
C
mm
5 800 / 6 180 / 6 670
D
mm
5 580 / 5 950 / 6 480
E
mm
9 580 / 9 670 / 10 040
F
mm
6 940 / 6 830 / 7 180
G
mm
3 480 / 3 350 / 3 250
H
kN (kgf)
151 (15 400)
I
kN 145 / 133 / 109 (kgf) (14 800) / (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
20 300
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
40 35 32 kPa 45 E (kgf/cm 2) (0.46) (0.41) (0.36) (0.33)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
4 750
E
mm
2 750
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 55
ZX210LC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.03 / 2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 300 / 9 500 / 9 990
B
mm
9 110 / 9 320 / 9 820
C
mm
5 800 / 6 180 / 6 670
D
mm
5 580 / 5 950 / 6 480
E
mm
9 580 / 9 670 / 10 040
F
mm
6 940 / 6 830 / 7 180
G
mm
3 480 / 3 350 / 3 250
H
kN (kgf)
151 (15 400)
I
kN 145 / 133 / 109 (kgf) (14 800) / (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
20 900
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
38 33 30 kPa 43 E (kgf/cm 2) (0.44) (0.39) (0.34) (0.31)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
4 750
E
mm
2 750
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 56
ZX210LCN-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
D
4
8.
.liter
5.193
9.
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS II
11. Hydraulic system
14.
liter
16.
liter
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 300 / 9 500 / 9 990
B
mm
9 110 / 9 320 / 9 820
C
mm
5 800 / 6 180 / 6 670
D
mm
5 580 / 5 950 / 6 480
E
mm
9 580 / 9 670 / 10 040
F
mm
6 940 / 6 830 / 7 180
G
mm
3 480 / 3 350 / 3 250
H
kN (kgf)
151 (15 400)
I
kN 145 / 133 / 109 (kgf) (14 800) / (13 600) / (11 100)
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
21 000
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
52 (0.53)
SAE/PCSA
1
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
5.68*
240
min-1(rpm)
G500*
2.03 / 2.42 / 2.91*
Hydraulic with disc
18.
mm
m
135
17. Type of swing brake
70(35)
D
m
E
15.
C %(deg.)
1
2×212
Max. liter/min
203 (20 700)
28. Arm length
34.3(350)
MPa (kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.5 -5.5
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
5 500
E
mm
2 750
F
mm
2 950
G
mm
1 980
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 57
ZX210-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
EUROPEAN SPEC
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
2-Piece Boom
m
2.03* / 2.42 / 2.91
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 280 / 9 500 / 10 000
B
mm
9 090 / 9 320 / 9 820
C
mm
5 420 / 5 720 / 6 230
D
mm
5 300 / 5 610 / 6 120
E
mm 10 590 / 10 640 / 11 080
F
mm
7 670 / 7 700 / 8 150
G
mm
2 700 / 2 700 / 2 390
H
kN (kgf)
151 (15 400)
I
kN 145 / 133 / 109 (kgf) (14 800) / (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
20 900
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
41 36 32 kPa 47 E (kgf/cm 2) (0.48) (0.42) (0.37) (0.33)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 030
D
kg
5 500
E
mm
2 750
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 58
ZX210LC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
2-Piece Boom
m
2.03* / 2.42 / 2.91
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 280 / 9 500 / 10 000
B
mm
9 090 / 9 320 / 9 820
C
mm
5 420 / 5 720 / 6 230
D
mm
5 300 / 5 610 / 6 120
E
mm 10 590 / 10 640 / 11 080
F
mm
7 670 / 7 700 / 8 150
G
mm
2 700 / 2 700 / 2 390
H
kN (kgf)
151 (15 400)
I
kN 145 / 133 / 109 (kgf) (14 800) / (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
135
F
I
240
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
21 500
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
39 34 31 kPa 44 E (kgf/cm 2) (0.45) (0.40) (0.35) (0.23)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
5 500
E
mm
2 750
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 59
ZX210LCN-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
D
4
8.
.liter
5.193
9.
liter
400 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
liter
16.
liter
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 280 / 9 500 / 10 000
B
mm
9 090 / 9 320 / 9 820
C
mm
5 420 / 5 720 / 6 230
D
mm
5 300 / 5 610 / 6 120
E
mm 10 590 / 10 640 / 11 080
F
mm
7 670 / 7 700 / 8 150
G
mm
2 700 / 2 700 / 2 390
H
kN (kgf)
151 (15 400)
I
kN 145 / 133 / 109 (kgf) (14 800) / (13 600) / (11 100)
1
30.
2
G
F
I H
C D
8'
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
21 600
BLADE
DIMENSIONS
G
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
54 (0.55)
SAE/PCSA
1
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
2-Piece Boom
240
min-1(rpm)
G500*
2.03* / 2.42 / 2.91
Hydraulic with disc
18.
mm
m
135
17. Type of swing brake
70(35)
D
m
E
15.
C %(deg.)
1
2×212
Max. liter/min
203 (20 700)
28. Arm length
34.3(350)
MPa (kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.5 -5.5
27. Boom length
29.
HYDRAULICS
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
1 030
D
kg
5 500
E
mm
2 750
F
mm
2 950
G
mm
1 990
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 60
ZX225US-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 520 / 10 010
B
mm
9 320 / 9 830
C
mm
6 210 / 6 700
D
mm
5 960 / 6 500
E
mm
10 560 / 10 980
F
mm
7 640 / 8 050
G
mm
2 740 / 2 370
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
23 200
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
45 40 54 kPa 52 E (kgf/cm 2) (0.53) (0.46) (0.41) (0.55)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
975
D
kg
7 570
E
mm
1 680
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 61
ZX225USLC-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 520 / 10 010
B
mm
9 320 / 9 830
C
mm
6 210 / 6 700
D
mm
5 960 / 6 500
E
mm
10 560 / 10 980
F
mm
7 640 / 8 050
G
mm
2 740 / 2 370
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
23 600
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
43 38 51 kPa 49 E (kgf/cm 2) (0.50) (0.44) (0.39) (0.52)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 660
B
mm
4 460
C
mm
975
D
kg
7 570
E
mm
1 680
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 62
ZX225USLC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 520 / 10 010
B
mm
9 320 / 9 830
C
mm
6 210 / 6 700
D
mm
5 960 / 6 500
E
mm
10 560 / 10 980
F
mm
7 640 / 8 050
G
mm
2 740 / 2 370
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
23 600
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
43 38 34 kPa 49 E (kgf/cm 2) (0.50) (0.44) (0.39) (0.35)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
975
D
kg
7 570
E
mm
1 680
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
2 900
A
mm
B
mm
715
C
mm
3 070
D
mm
570
E
mm
300
F
degree
25
kg
25 700
Remarks *mark shows data to compute operating weight(s).
4- 63
ZX225USLC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
liter
16.
liter
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
2.91* 0.51-1.20
CECE
m3
0.45-1.00
A
mm
10 010
B
mm
9 830
C
mm
6 700
D
mm
6 500
E
mm
10 980
F
mm
8 050
G
mm
2 370
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
1
30.
2
G
F
I H
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
24 500
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
2-Piece Boom
m3
1
230
min-1(rpm)
39 (0.40)
SAE/PCSA
Hydraulic with disc
18.
kPa E (kgf/cm 2)
m
123
17. Type of swing brake
G800
44 (0.45)
m
E
15.
G700
51 (0.52)
1
2×212
Max. liter/min
G600*
28. Arm length
34.3(350)
(kgf/cm2)
70(35)
mm
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
D
E
9.
0 - 3.5 -5.5
C %(deg.)
4
8.
A km/h
C D
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
975
D
kg
7 570
E
mm
1 680
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
2 900
A
mm
B
mm
715
C
mm
3 070
D
mm
570
E
mm
300
F
degree
25
kg
26 500
Remarks *mark shows data to compute operating weight(s).
4- 64
ZX225USR-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 430 / 9 920
B
mm
9 250 / 9 750
C
mm
6 180 / 6 670
D
mm
5 950 / 6 490
E
mm
9 670 / 10 040
F
mm
6 830 / 7 180
G
mm
3 280 / 3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
22 300
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
43 38 52 kPa 50 E (kgf/cm 2) (0.513)(0.44) (0.39) (0.53)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 010
D
kg
6 650
E
mm
1 990
F
mm
2 950
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 65
ZX225USRLC-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 430 / 9 920
B
mm
9 250 / 9 750
C
mm
6 180 / 6 670
D
mm
5 950 / 6 490
E
mm
9 670 / 10 040
F
mm
6 830 / 7 180
G
mm
3 280 / 3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
22 700
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
41 36 49 kPa 47 E (kgf/cm 2) (0.48) (0.42) (0.37) (0.50)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 660
B
mm
4 460
C
mm
1 010
D
kg
6 650
E
mm
1 990
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 66
ZX225USRK-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
m
K2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 920
B
mm
9 750
C
mm
6 670
D
mm
6 490
E
mm
10 040
F
mm
7 180
G
mm
3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
1
liter
16.
liter
1
30.
2
G E
15.
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
23 400
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
K5.68*
m
1
2×212
Max. liter/min
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
(kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
45 40 54 kPa 52 E (kgf/cm 2) (0.53) (0.46) (0.41) (0.55)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 370
B
mm
4 170
C
mm
1 010
D
kg
6 900
E
mm
1 990
F
mm
3 080
G
mm
2 200
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 67
ZX225USRLCK-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
m
K2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 920
B
mm
9 750
C
mm
6 670
D
mm
6 490
E
mm
10 040
F
mm
7 180
G
mm
3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
109 (11 100)
1
liter
16.
liter
1
30.
2
G E
15.
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
23 800
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
K5.68*
m
1
2×212
Max. liter/min
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
(kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
43 38 51 kPa 49 E (kgf/cm 2) (0.50) (0.44) (0.39) (0.52)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 660
B
mm
4 460
C
mm
1 010
D
kg
6 900
E
mm
1 990
F
mm
3 080
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 68
ZX225USLC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
122(164) @ 2 000
3.
ECC net kW(HP) @min-1
122(164) @ 2 000
4.
SAE net kW(HP) @min-1
122(164) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
320 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
14.
m
5.68*
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
9 430 / 9 920
B
mm
9 250 / 9 750
C
mm
6 180 / 6 670
D
mm
5 950 / 6 490
E
mm
9 670 / 10 040
F
mm
6 830 / 7 180
G
mm
3 280 / 3 180
H
kN (kgf)
151 (15 400)
I
kN (kgf)
133 / 109 (13 600) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×212
Max. liter/min
123
F
I
230
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.3(13.3)
19.
kN·m (kgf·m)
69.0(7 040)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
22 700
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
203 (20 700)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
41 36 33 kPa 47 E (kgf/cm 2) (0.48) (0.42) (0.37) (0.34)
4
9.
0 - 3.5 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
3 660
B
mm
4 470
C
mm
1 010
D
kg
6 650
E
mm
1 990
F
mm
2 950
G
mm
2 390
H
mm
450
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 69
ZX240-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
6.00*
m
2.50 / 2.96* / 3.61
SAE/PCSA
m3
0.80-1.40
CECE
m3
0.70-1.20
A
mm
9 880 / 10 290 / 10 910
B
mm
9 690 / 10 110 / 10 750
C
mm
6 500 / 6 960 / 7 610
D
mm
5 940 / 6 750 / 7 440
E
mm
9 950 / 10 160 / 10 560
F
mm
6 990 / 7 200 / 7 580
G
mm
3 480 / 3 440 / 3 430
H
kN (kgf)
180 (18 400)
I
kN 150 / 125 / 109 (kgf) (15 300) / (12 800) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×224
Max. liter/min
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
23 400
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
222 (22 650)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
44 39 53 kPa 51 E (kgf/cm 2) (0.52) (0.45) (0.40) (0.54)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 460
B
mm
4 260
C
mm
1 090
D
kg
5 400
E
mm
2 940
F
mm
3 010
G
mm
2 390
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 70
ZX240LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
6.00*
m
2.50 / 2.96* / 3.61
SAE/PCSA
m3
0.80-1.40
CECE
m3
0.70-1.20
A
mm
9 880 / 10 290 / 10 910
B
mm
9 690 / 10 110 / 10 750
C
mm
6 500 / 6 960 / 7 610
D
mm
5 940 / 6 750 / 7 440
E
mm
9 950 / 10 160 / 10 560
F
mm
6 990 / 7 200 / 7 580
G
mm
3 480 / 3 440 / 3 430
H
kN (kgf)
180 (18 400)
I
kN 150 / 125 / 109 (kgf) (15 300) / (12 800) / (11 100)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×224
Max. liter/min
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
23 900
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
222 (22 650)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
41 36 49 kPa 47 E (kgf/cm 2) (0.48) (0.42) (0.37) (0.50)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 845
B
mm
4 640
C
mm
1 090
D
kg
5 400
E
mm
2 940
F
mm
3 010
G
mm
2 590
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 71
ZX250H-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
5.193
9.
liter
500 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
Max. liter/min liter
16.
liter
19.
kN·m (kgf·m)
73.5(7 500)
CECE
m3
0.70-1.00
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
10 290
B
mm
10 110
C
mm
6 960
D
mm
6 750
E
mm
10 160
F
mm
7 200
G
mm
3 440
H
kN (kgf)
180 (18 400)
I
kN (kgf)
125 (12 800)
8'
degree
−
mm
−
kg
24 700
BLADE
DIMENSIONS E
mm
33. Max. Offset-Distance
Hydraulic servo
H
B A
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM
H6.00* H2.96*
21. Type
23.
54 (0.55)
0.80-1.00
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m3
1
280
0-13.5(13.5)
G600*
SAE/PCSA
Hydraulic with disc min-1(rpm)
mm
m
156
18.
70(35)
D
1
2×224
17. Type of swing brake
C %(deg.)
m
E
15.
222 (22 650)
28. Arm length
34.3(350)
(kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.4 -5.5
27. Boom length
29.
11. Hydraulic system
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 460
B
mm
4 260
C
mm
1 090
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 390
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 72
ZX250LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
4
8.
.liter
5.193
9.
liter
500 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
Max. liter/min liter
16.
liter
19.
kN·m (kgf·m)
73.5(7 500)
CECE
m3
0.70-1.00
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
10 290
B
mm
10 110
C
mm
6 960
D
mm
6 750
E
mm
10 160
F
mm
7 200
G
mm
3 440
H
kN (kgf)
180 (18 400)
I
kN (kgf)
125 (12 800)
8'
degree
−
mm
−
kg
25 300
BLADE
DIMENSIONS E
mm
33. Max. Offset-Distance
Hydraulic servo
H
B A
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM
H6.00* H2.96*
21. Type
23.
50 (0.51)
0.80-1.00
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m3
1
280
0-13.5(13.5)
G600*
SAE/PCSA
Hydraulic with disc min-1(rpm)
mm
m
156
18.
70(35)
D
1
2×224
17. Type of swing brake
C %(deg.)
m
E
15.
222 (22 650)
28. Arm length
34.3(350)
(kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.4 -5.5
27. Boom length
29.
11. Hydraulic system
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 845
B
mm
4 640
C
mm
1 090
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 590
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 73
ZX250K-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
56 (0.57)
27. Boom length
m
K6.00*
28. Arm length
m
K2.96*
SAE/PCSA
m3
0.80-1.25
CECE
m3
0.70-1.10
BACKHOE
1
13.
MPa
14.
Max. liter/min
G
2×224 E
liter
16.
liter
2
34.3(350)
(kgf/cm2)
15.
1
30.
1
31.
2×
12. Working pumps
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
10 290
B
mm
10 110
C
mm
6 960
D
mm
6 750
E
mm
10 160
F
mm
7 200
G
mm
3 440
H
kN (kgf)
180 (18 400)
I
kN (kgf)
125 (12 800)
8'
degree
−
mm
−
kg
25 400
BLADE
DIMENSIONS E
mm
33. Max. Offset-Distance
Hydraulic servo
23.
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
222 (22 650)
mm
29.
11. Hydraulic system
B kN(kgf)
D
4
9.
0 - 3.4 -5.5
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 460
B
mm
4 260
C
mm
1 090
D
kg
6 500
E
mm
2 940
F
mm
3 140
G
mm
2 390
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 74
ZX250LCK-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
52 (0.53)
27. Boom length
m
K6.00*
28. Arm length
m
K2.96*
SAE/PCSA
m3
0.80-1.25
CECE
m3
0.70-1.10
BACKHOE
1
13.
MPa
14.
Max. liter/min
G
2×224 E
liter
16.
liter
2
34.3(350)
(kgf/cm2)
15.
1
30.
1
31.
2×
12. Working pumps
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
10 290
B
mm
10 110
C
mm
6 960
D
mm
6 750
E
mm
10 160
F
mm
7 200
G
mm
3 440
H
kN (kgf)
180 (18 400)
I
kN (kgf)
125 (12 800)
8'
degree
−
mm
−
kg
26 000
BLADE
DIMENSIONS E
mm
33. Max. Offset-Distance
Hydraulic servo
23.
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
222 (22 650)
mm
29.
11. Hydraulic system
B kN(kgf)
D
4
9.
0 - 3.4 -5.5
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 845
B
mm
4 640
C
mm
1 090
D
kg
6 500
E
mm
2 940
F
mm
3 140
G
mm
2 590
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 75
ZX250LC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
3.
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
6.00*
m
2.19 / 2.50 / 2.96*
SAE/PCSA
m3
0.76-1.39
CECE
m3
0.70-1.24
A
mm
9 660 / 9 880 / 10 290
B
mm
9 470 / 9 690 / 10 110
C
mm
6 190 / 6 500 / 6 960
D
mm
5 600 / 5 940 / 6 750
E
mm
10 000 / 9 950 / 10 160
F
mm
6 970 / 6 990 / 7 200
G
mm
3 580 / 3 480 / 3 440
H
kN (kgf)
180 (18 400)
I
kN 163 / 150 / 125 (kgf) (16 600) / (15 300) / (12 800)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×224
Max. liter/min
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
24 700
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
222 (22 650)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
42 37 34 kPa 49 E (kgf/cm 2) (0.50) (0.43) (0.38) (0.35)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 845
B
mm
4 640
C
mm
1 090
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 590
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 76
ZX250LCN-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
3.
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
14.
m
6.06*
m
2.19 / 2.50 / 2.96*
SAE/PCSA
m3
0.76-1.39
CECE
m3
0.70-1.24
A
mm
9 660 / 9 880 / 10 290
B
mm
9 470 / 9 690 / 10 110
C
mm
6 190 / 6 500 / 6 960
D
mm
5 600 / 5 940 / 6 750
E
mm
10 000 / 9 950 / 10 160
F
mm
6 970 / 6 990 / 7 200
G
mm
3 580 / 3 480 / 3 440
H
kN (kgf)
180 (18 400)
I
kN 163 / 150 / 125 (kgf) (16 600) / (15 300) / (12 800)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×224
Max. liter/min
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
24 600
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
222 (22 650)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
42 37 34 kPa 49 E (kgf/cm 2) (0.50) (0.43) (0.38) (0.35)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
3 845
B
mm
4 640
C
mm
1 090
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 390
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 77
ZX250LC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
3.
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
2-Piece Boom
m
2.19 / 2.50 / 2.96*
SAE/PCSA
m3
0.76-1.39*
CECE
m3
0.70-1.24*
A
mm
9 770 / 10 010 / 10 430
B
mm
9 580 / 9 820 / 10 260
C
mm
5 810 / 6 080 / 6 530
D
mm
5 700 / 5 970 / 6 430
E
mm 11 300 / 11 470 / 11 840
F
mm
8 210 / 8 350 / 8 720
G
mm
2 500 / 2 560 / 2 310
H
kN (kgf)
180 (18 400)
I
kN 163 / 150 / 125 (kgf) (16 600) / (15 300) / (12 800)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×224
Max. liter/min
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
25 600
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
222 (22 650)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
44 39 35 kPa 51 E (kgf/cm 2) (0.52) (0.45) (0.40) (0.36)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 845
B
mm
4 640
C
mm
1 090
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 590
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 78
ZX250LCN-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
132(177) @ 2 000
3.
ECC net kW(HP) @min-1
132(177) @ 2 000
4.
SAE net kW(HP) @min-1
132(177) @ 2 000
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
2-Piece Boom
m
2.19 / 2.50 / 2.96*
SAE/PCSA
m3
0.76-1.39*
CECE
m3
0.70-1.24*
A
mm
9 770 / 10 010 / 10 430
B
mm
9 580 / 9 820 / 10 260
C
mm
5 810 / 6 080 / 6 530
D
mm
5 700 / 5 970 / 6 430
E
mm 11 300 / 11 470 / 11 840
F
mm
8 210 / 8 350 / 8 720
G
mm
2 500 / 2 560 / 2 310
H
kN (kgf)
180 (18 400)
I
kN 163 / 150 / 125 (kgf) (16 600) / (15 300) / (12 800)
1
30.
liter
16.
liter
2
G E
15.
1
1
2×224
Max. liter/min
156
F
I
280
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-13.5(13.5)
19.
kN·m (kgf·m)
73.5(7 500)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
25 500
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
222 (22 650)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
44 39 35 kPa 51 E (kgf/cm 2) (0.52) (0.45) (0.40) (0.36)
4
9.
0 - 3.4 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/9
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
3 840
B
mm
4 460
C
mm
1 090
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 390
H
mm
460
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 79
ZX270-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
140(188) @ 2 100
ECC net kW(HP) @min-1
140(188) @ 2 100
4.
SAE net kW(HP) @min-1
140(188) @ 2 100
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
6.20*
m
2.42 / 3.11* / 3.76
SAE/PCSA
m3
1.00-1.62
CECE
m3
0.90-1.40
1
liter
16.
liter
1
30.
1
2
G
2×236 E
15.
156
F
I
290
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-12.6(12.6)
19.
kN·m (kgf·m)
80.0(8 160)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
B
mm
9 870 / 10 520 / 11 100
C
mm
6 540 / 7 230 / 7 880
D
mm
6 320 / 7 050 / 7 720
E
mm
9 890 / 10 260 / 10 460
F
mm
6 970 / 7 310 / 7 520
G
mm
4 070 / 3 910 / 3 900
H
kN (kgf)
193 (19 700)
I
kN 174 / 137 / 121 (kgf) (17 800) / (14 000) / (12 300)
8'
degree
−
mm
−
kg
27 300
BLADE
DIMENSIONS E
mm 10 060 / 10 710 / 11 270
33. Max. Offset-Distance
Hydraulic servo
23.
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350),32.4(330)Swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
246 (25 100)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
48 42 57 kPa 55 E (kgf/cm 2) (0.56) (0.49) (0.43) (0.58)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 730
B
mm
4 670
C
mm
1 180
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 590
H
mm
510
I
mm
1 070
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 80
ZX270LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
140(188) @ 2 100
ECC net kW(HP) @min-1
140(188) @ 2 100
4.
SAE net kW(HP) @min-1
140(188) @ 2 100
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
6.20*
m
2.42 / 3.11* / 3.76
SAE/PCSA
m3
1.00-1.62
CECE
m3
0.90-1.40
1
liter
16.
liter
1
30.
1
2
G
2×236 E
15.
156
F
I
290
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-12.6(12.6)
19.
kN·m (kgf·m)
80.0(8 160)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
B
mm
9 870 / 10 520 / 11 100
C
mm
6 540 / 7 230 / 7 880
D
mm
6 320 / 7 050 / 7 720
E
mm
9 890 / 10 260 / 10 460
F
mm
6 970 / 7 310 / 7 520
G
mm
4 070 / 3 910 / 3 900
H
kN (kgf)
193 (19 700)
I
kN 174 / 137 / 121 (kgf) (17 800) / (14 000) / (12 300)
8'
degree
−
mm
−
kg
27 800
BLADE
DIMENSIONS E
mm 10 060 / 10 710 / 11 270
33. Max. Offset-Distance
Hydraulic servo
23.
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350),32.4(330)Swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
246 (25 100)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
46 40 54 kPa 52 E (kgf/cm 2) (0.53) (0.47) (0.41) (0.55)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
4 050
B
mm
4 940
C
mm
1 180
D
kg
6 100
E
mm
2 940
F
mm
3 010
G
mm
2 590
H
mm
510
I
mm
1 070
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 81
ZX280LC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
140(188) @ 2 100
3.
ECC net kW(HP) @min-1
140(188) @ 2 100
4.
SAE net kW(HP) @min-1
140(188) @ 2 100
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa (kgf/cm2)
14.
m
6.20*
m
2.42 / 3.11*
SAE/PCSA
m3
0.91-1.38
CECE
m3
0.83-1.21
A
mm
10 060 / 10 710
B
mm
9 870 / 10 520
C
mm
6 540 / 7 230
D
mm
6 320 / 7 050
E
mm
9 890 / 10 260
F
mm
6 970 / 7 310
G
mm
4 070 / 3 910
H
kN (kgf)
193 (19 700)
I
kN (kgf)
174 / 137 (17 800) / (14 000)
1
liter
16.
liter
1
30.
1
2
G
2×236 E
15.
156
F
I
290
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-12.6(12.6)
19.
kN·m (kgf·m)
80.0(8 160)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
28 200
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350),32.4(330)Swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
246 (25 100)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
46 41 37 kPa 53 E (kgf/cm 2) (0.54) (0.47) (0.42) (0.38)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
4 052
B
mm
4 940
C
mm
1 180
D
kg
6 100
E
mm
2 940
F
mm
3 100
G
mm
2 590
H
mm
510
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 82
ZX280LCN-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
140(188) @ 2 100
3.
ECC net kW(HP) @min-1
140(188) @ 2 100
4.
SAE net kW(HP) @min-1
140(188) @ 2 100
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
MPa (kgf/cm2)
14.
m
6.20*
m
2.42 / 3.11*
SAE/PCSA
m3
0.91-1.38
CECE
m3
0.83-1.21
A
mm
10 060 / 10 710
B
mm
9 870 / 10 520
C
mm
6 540 / 7 230
D
mm
6 320 / 7 050
E
mm
9 890 / 10 260
F
mm
6 970 / 7 310
G
mm
4 070 / 3 910
H
kN (kgf)
193 (19 700)
I
kN (kgf)
174 / 137 (17 800) / (14 000)
1
liter
16.
liter
1
30.
1
2
G
2×236 E
15.
156
F
I
290
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-12.6(12.6)
19.
kN·m (kgf·m)
80.0(8 160)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
28 000
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350),32.4(330)Swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
246 (25 100)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
46 41 37 kPa 52 E (kgf/cm 2) (0.54) (0.47) (0.42) (0.38)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
4 052
B
mm
4 940
C
mm
1 180
D
kg
6 100
E
mm
2 940
F
mm
3 100
G
mm
2 400
H
mm
510
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 83
ZX280LC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
140(188) @ 2 100
3.
ECC net kW(HP) @min-1
140(188) @ 2 100
4.
SAE net kW(HP) @min-1
140(188) @ 2 100
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa (kgf/cm2)
14.
m
2-Piece Boom
m
2.42 / 3.11*
SAE/PCSA
m3
0.91-1.38
CECE
m3
0.83-1.21
A
mm
10 070 / 10 740
B
mm
9 880 / 10 550
C
mm
6 020 / 6 690
D
mm
5 910 / 6 590
E
mm
11 500 / 12 080
F
mm
8 390 / 8 960
G
mm
2 820 / 2 580
H
kN (kgf)
193 (19 700)
I
kN (kgf)
174 / 137 (17 800) / (14 000)
1
liter
16.
liter
1
30.
1
2
G
2×236 E
15.
156
F
I
290
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-12.6(12.6)
19.
kN·m (kgf·m)
80.0(8 160)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
28 500
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350),32.4(330)Swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
246 (25 100)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
47 41 37 kPa 53 E (kgf/cm 2) (0.54) (0.48) (0.42) (0.38)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
4 052
B
mm
4 940
C
mm
1 180
D
kg
6 100
E
mm
2 940
F
mm
3 100
G
mm
2 590
H
mm
510
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 84
ZX280LCN-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AH-4HK1X
1. Make/model ISO net kW(HP) @min-1
2.
140(188) @ 2 100
3.
ECC net kW(HP) @min-1
140(188) @ 2 100
4.
SAE net kW(HP) @min-1
140(188) @ 2 100
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
5.193
liter
500 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa (kgf/cm2)
14.
m
2-Piece Boom
m
2.42 / 3.11*
SAE/PCSA
m3
0.91-1.38
CECE
m3
0.83-1.21
A
mm
10 070 / 10 740
B
mm
9 880 / 10 550
C
mm
6 020 / 6 690
D
mm
5 910 / 6 590
E
mm
11 500 / 12 080
F
mm
8 390 / 8 960
G
mm
2 820 / 2 580
H
kN (kgf)
193 (19 700)
I
kN (kgf)
174 / 137 (17 800) / (14 000)
1
liter
16.
liter
1
30.
1
2
G
2×236 E
15.
156
F
I
290
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-12.6(12.6)
19.
kN·m (kgf·m)
80.0(8 160)
C D
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM
33. Max. Offset-Distance
21. Type
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−/−
mm
−/−
kg
28 300
BLADE
DIMENSIONS 23.
G
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350),32.4(330)Swing
Max. liter/min
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
246 (25 100)
27. Boom length
29.
11. Hydraulic system
B kN(kgf)
46 41 37 kPa 53 E (kgf/cm 2) (0.54) (0.48) (0.42) (0.38)
4
9.
0 - 3.3 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
4 052
B
mm
4 940
C
mm
1 180
D
kg
6 100
E
mm
2 940
F
mm
3 100
G
mm
2 400
H
mm
510
I
mm
920
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 85
ZX330-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
6.40*
m
2.67 / 3.20* / 4.00
SAE/PCSA
m3
1.15-1.86
CECE
m3
1.00-1.60
1
30.
liter
16.
liter
2
G E
15.
1
1
2×288
Max. liter/min
180
F
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
B
mm 10 360 / 10 890 / 11 670
C
mm
D
mm
6 640 / 7 210 / 8 040
E
mm
9 990 / 10 360 / 10 750
F
mm
6 940 / 7 240 / 7 630
G
mm
4610 / 4 460 / 4 470
H
kN (kgf)
234 (23 900)
I
kN 211 / 176 / 151 (kgf) (21 500) / (18 000) / (15 400)
8'
6 840 / 7 380 / 8 180
degree
−
mm
−
kg
31 600
BLADE
DIMENSIONS E
mm 10 570 / 11 100 / 11 860
33. Max. Offset-Distance
Hydraulic servo
23.
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
298 (29 200)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
56 49 66 kPa 64 E (kgf/cm 2) (0.65) (0.57) (0.50) (0.67)
6
9.
0 - 3.2 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 730
B
mm
4 640
C
mm
1 160
D
kg
6 800
E
mm
3 390
F
mm
3 160
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 86
ZX330LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13. 14.
m
6.20*
m
2.42 / 3.11* / 3.76
SAE/PCSA
m3
1.15-1.86
CECE
m3
1.00-1.60
1
30.
liter
16.
liter
2
G E
15.
1
1
2×288
Max. liter/min
180
F
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D
F C A B
G
I
B
mm 10 360 / 10 890 / 11 670
C
mm
D
mm
6 640 / 7 210 / 8 040
E
mm
9 990 / 10 360 / 10 750
F
mm
6 940 / 7 240 / 7 630
G
mm
4610 / 4 460 / 4 470
H
kN (kgf)
234 (23 900)
I
kN 211 / 176 / 151 (kgf) (21 500) / (18 000) / (15 400)
8'
6 840 / 7 380 / 8 180
degree
−
mm
−
kg
32 200
BLADE
DIMENSIONS E
mm 10 570 / 11 100 / 11 860
33. Max. Offset-Distance
Hydraulic servo
23.
A
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
70(35)
mm G600* G700 G800 F600
28. Arm length
34.3(350)
MPa (kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
298 (29 200)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
53 47 62 kPa 61 E (kgf/cm 2) (0.62) (0.54) (0.48) (0.63)
6
9.
0 - 3.2 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
6 800
E
mm
3 390
F
mm
3 160
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 87
ZX350H-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
6
8.
.liter
7.79
9.
liter
630 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
liter
16.
liter
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
CECE
m3
1.00-1.30
A
mm
11 100
B
mm
10 890
C
mm
7 380
D
mm
7 210
E
mm
10 360
F
mm
7 240
G
mm
4 460
H
kN (kgf)
234 (23 900)
I
kN (kgf)
176 (18 000)
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
33 700
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM
H6.40* H3.20*
21. Type
23.
61 (0.62)
1.15-1.50
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m3
1
374
min-1(rpm)
G600*
SAE/PCSA
Hydraulic with disc
18.
mm
m
180
17. Type of swing brake
70(35)
D
m
E
15.
C %(deg.)
1
2×288
Max. liter/min
298 (29 200)
28. Arm length
34.3(350)
(kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.2 -5.5
27. Boom length
29.
11. Hydraulic system
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 730
B
mm
4 640
C
mm
1 160
D
kg
7 400
E
mm
3 390
F
mm
3 160
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 88
ZX350LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
D
6
8.
.liter
7.79
9.
liter
630 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
13.
MPa
14.
liter
16.
liter
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
CECE
m3
1.00-1.30
A
mm
11 100
B
mm
10 890
C
mm
7 380
D
mm
7 210
E
mm
10 360
F
mm
7 240
G
mm
4 460
H
kN (kgf)
234 (23 900)
I
kN (kgf)
176 (18 000)
1
30.
2
G
F
I H
C D
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
34 200
BLADE
DIMENSIONS
G
8'
33. Max. Offset-Distance
Hydraulic servo
H
B A
32. Max. Boom-Swing Angle
CONTROL SYSTEM
H6.40* H3.20*
21. Type
23.
64 (0.65)
1.15-1.50
Hydraulic with disc
20. Parking brake
kPa E (kgf/cm 2)
m3
1
374
min-1(rpm)
G600*
SAE/PCSA
Hydraulic with disc
18.
mm
m
180
17. Type of swing brake
70(35)
D
m
E
15.
C %(deg.)
1
2×288
Max. liter/min
298 (29 200)
28. Arm length
34.3(350)
(kgf/cm2)
B kN(kgf)
BACKHOE
31.
2×
12. Working pumps
0 - 3.2 -5.5
27. Boom length
29.
11. Hydraulic system
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
7 400
E
mm
3 390
F
mm
3 160
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 89
ZX350K-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
70 (0.71)
27. Boom length
m
K6.40*
28. Arm length
m
K3.20*
SAE/PCSA
m3
1.15-1.40
CECE
m3
1.00-1.20
A
mm
11 100
B
mm
13.
MPa
10 890
C
mm
14.
7 380
D
mm
7 210
E
mm
10 360
F
mm
7 240
G
mm
4 460
H
kN (kgf)
234 (23 900)
I
kN (kgf)
176 (18 000)
BACKHOE
1
G
2×288
Max. liter/min
E
liter
16.
liter
2
34.3(350)
(kgf/cm2)
15.
1
30.
1
31.
2×
12. Working pumps
180
F
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
34 400
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
298 (29 200)
mm
29.
11. Hydraulic system
B kN(kgf)
D
6
9.
0 - 3.2 -5.5
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/7
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
3 730
B
mm
4 640
C
mm
1 160
D
kg
8 200
E
mm
3 390
F
mm
3 290
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 90
ZX350LCK-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
66 (0.67)
27. Boom length
m
K6.40*
28. Arm length
m
K3.20*
SAE/PCSA
m3
1.15-1.40
CECE
m3
1.00-1.20
A
mm
11 100
B
mm
13.
MPa
10 890
C
mm
14.
7 380
D
mm
7 210
E
mm
10 360
F
mm
7 240
G
mm
4 460
H
kN (kgf)
234 (23 900)
I
kN (kgf)
176 (18 000)
BACKHOE
1
G
2×288
Max. liter/min
E
liter
16.
liter
2
34.3(350)
(kgf/cm2)
15.
1
30.
1
31.
2×
12. Working pumps
180
F
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
35 000
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
298 (29 200)
mm
29.
11. Hydraulic system
B kN(kgf)
D
6
9.
0 - 3.2 -5.5
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
8 200
E
mm
3 390
F
mm
3 290
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 91
ZX350LC-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
3.
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa
14.
m
6.40*
m
2.33 / 2.67 / 3.20*
1
30.
liter
16.
liter
180
F
m3
1.03-14
CECE
m3
0.93-1.59
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
B A
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B I
mm
D
mm
6 300 / 6 640 / 7 210
E
mm
9 980 / 9 990 / 10 360
F
mm
6 900 / 6 940 / 7 240
G
mm
4 460 / 4 610 / 4 460
H
kN (kgf)
234 (23 900)
I
kN 239 / 211 / 176 (kgf) (24 400) / (21 500) / (18 000)
6 500 / 6 840 / 7 380
degree
−
mm
−
kg
33 300
BLADE
DIMENSIONS
F
mm 10 080 / 10 360 / 10 890
C
33. Max. Offset-Distance
Hydraulic servo
E
mm 10 310 / 10 570 / 11 100
B
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
A
8'
Hydraulic with disc
20. Parking brake
G
SAE/PCSA 2
G E
15.
1
1
2×288
Max. liter/min
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
(kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
298 (29 200)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
54 48 43 kPa 63 E (kgf/cm 2) (0.64) (0.55) (0.49) (0.44)
6
9.
0 - 3.2 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
7 400
E
mm
3 390
F
mm
3 160
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 92
ZX350LCN-3 Monoblock Boom
UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
3.
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
MPa
14.
m
6.40*
m
2.33 / 2.67 / 3.20*
1
30.
liter
16.
liter
180
F
18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
1.03-14
CECE
m3
0.93-1.59
H C D
B A
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B I
mm
D
mm
6 300 / 6 640 / 7 210
E
mm
9 980 / 9 990 / 10 360
F
mm
6 900 / 6 940 / 7 240
G
mm
4 460 / 4 610 / 4 460
H
kN (kgf)
234 (23 900)
I
kN 239 / 211 / 176 (kgf) (24 400) / (21 500) / (18 000)
6 500 / 6 840 / 7 380
degree
−
mm
−
kg
33 200
BLADE
DIMENSIONS
F
mm 10 080 / 10 360 / 10 890
C
33. Max. Offset-Distance
Hydraulic servo
E
mm 10 310 / 10 570 / 11 100
B
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
A
8'
Hydraulic with disc
20. Parking brake
G
m3
I
374 Hydraulic with disc
17. Type of swing brake
H
SAE/PCSA 2
G E
15.
1
1
2×288
Max. liter/min
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
(kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
298 (29 200)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
54 48 43 kPa 62 E (kgf/cm 2) (0.63) (0.55) (0.49) (0.44)
6
9.
0 - 3.2 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
13.
EUROPEAN SPEC
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
7 400
E
mm
3 390
F
mm
3 160
G
mm
2 400
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 93
ZX350LC-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
3.
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa
14.
m
2-Piece Boom
m
2.33 / 2.67 / 3.20*
1
30.
liter
16.
liter
180
F
m3
1.03-14
CECE
m3
0.93-1.59
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
B A
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B I
mm
6 040 / 6 360 / 6 900
D
mm
5 930 / 6 250 / 6 800
E
mm 11 870 / 12 060 / 12 550
F
mm
8 550 / 8 750 / 9 240
G
mm
3 250 / 3 120 / 2 890
H
kN (kgf)
234 (23 900)
I
kN 239 / 211 / 176 (kgf) (24 400) / (21 500) / (18 000) degree
−
mm
−
kg
34 200
BLADE
DIMENSIONS
F
mm 10 170 / 10 470 / 11 020
C
33. Max. Offset-Distance
Hydraulic servo
E
mm 10 390 / 10 680 / 11 220
B
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
A
8'
Hydraulic with disc
20. Parking brake
G
SAE/PCSA 2
G E
15.
1
1
2×288
Max. liter/min
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
(kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
298 (29 200)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
56 49 44 kPa 64 E (kgf/cm 2) (0.54) (0.48) (0.42) (0.38)
6
9.
0 - 3.2 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
7 400
E
mm
3 390
F
mm
3 160
G
mm
2 590
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 94
ZX350LCN-3 2-Piece Boom
UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
3.
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
Tractor type
24. Type
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
E-P contorol & HIOS III
11. Hydraulic system
13.
MPa
14.
m
2-Piece Boom
m
2.33 / 2.67 / 3.20*
1
30.
liter
16.
liter
180
F
m3
1.03-14
CECE
m3
0.93-1.59
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
0-10.7(10.7)
19.
kN·m (kgf·m)
117.7(12 000)
C D
B A
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
D C A B I
mm
6 040 / 6 360 / 6 900
D
mm
5 930 / 6 250 / 6 800
E
mm 11 870 / 12 060 / 12 550
F
mm
8 550 / 8 750 / 9 240
G
mm
3 250 / 3 120 / 2 890
H
kN (kgf)
234 (23 900)
I
kN 239 / 211 / 176 (kgf) (24 400) / (21 500) / (18 000) degree
−
mm
−
kg
34 200
BLADE
DIMENSIONS
F
mm 10 170 / 10 470 / 11 020
C
33. Max. Offset-Distance
Hydraulic servo
E
mm 10 390 / 10 680 / 11 220
B
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
23.
A
8'
Hydraulic with disc
20. Parking brake
G
SAE/PCSA 2
G E
15.
1
1
2×288
Max. liter/min
70(35)
mm G600* G700 G800 G900
28. Arm length
34.3(350)
(kgf/cm2)
C %(deg.)
BACKHOE
31.
2×
12. Working pumps
298 (29 200)
27. Boom length
29.
HYDRAULICS
B kN(kgf)
56 49 44 kPa 64 E (kgf/cm 2) (0.54) (0.48) (0.42) (0.38)
6
9.
0 - 3.2 -5.5
D
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
H
EUROPEAN SPEC
A
mm
4 050
B
mm
4 940
C
mm
1 160
D
kg
7 400
E
mm
3 390
F
mm
3 160
G
mm
2 400
H
mm
500
I
mm
1 060
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 95
ZX400LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A
B
.liter
7.79
liter
630 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
70(35) G600*
kPa E (kgf/cm 2)
73 (0.74)
27. Boom length
m
6.4H
28. Arm length
m
3.2H
SAE/PCSA
m3
1.6
CECE
m3
1.2
A
mm
11 120
13.
B
mm
10 900
C
mm
7 310
D
mm
7 140
E
mm
10 440
F
mm
7 330
G
mm
4 460
H
kN (kgf)
236 (24 100)
I
kN (kgf)
176 (18 000)
1
G E
liter
16.
liter
298
min-1(rpm)
19.
kN·m (kgf·m)
F
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
2
2×288
Max. liter/min
15.
1
30.
1
34.3(350)
MPa (kgf/cm2)
14.
BACKHOE
31.
2×
12. Working pumps
C D
0-10.7(10.7)
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
39 000
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
322 (32 800)
mm
29.
11. Hydraulic system
B kN(kgf)
D
6
9.
0 - 2.9 -5.0
C %(deg.)
D
8.
A km/h
C
E
7. No.of cylinder
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
4 050
B
mm
5 060
C
mm
1 260
D
kg
8 000
E
mm
3 390
F
mm
3 390
G
mm
2 590
H
mm
560
I
mm
1 150
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 96
ZX400LCH-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AH-6HK1X
1. Make/model ISO net kW(HP) @min-1
2.
202(271) @ 1 900
ECC net kW(HP) @min-1
202(271) @ 1 900
4.
SAE net kW(HP) @min-1
202(271) @ 1 900
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
−
A km/h
0 - 2.9 -5.0
B kN(kgf)
322 (32 800)
C %(deg.)
70(35)
D
mm
G750
kPa E (kgf/cm 2)
59 (0.60)
27. Boom length
m
6.4H
28. Arm length
m
3.2H
SAE/PCSA
m3
1.6
CECE
m3
1.2
A
mm
11 120
B
mm
10 900
C
mm
7 310
D
mm
7 140
E
mm
10 440
F
mm
7 330
G
mm
4 460
H
kN (kgf)
236 (24 100)
I
kN (kgf)
176 (18 000)
A
B C D E
6
7. No.of cylinder 8.
.liter
7.79
9.
liter
630 Direct/Turbocharged
10. Injection/Aspiration
HYDRAULICS E-P contorol & HIOS III
G E
liter
16.
liter
298
min-1(rpm)
19.
kN·m (kgf·m)
F
I
374
H
Hydraulic with disc
17. Type of swing brake 18.
2
2×288
Max. liter/min
15.
1
30.
34.3(350)
MPa (kgf/cm2)
14.
1
1
31.
2×
12. Working pumps 13.
BACKHOE
29.
11. Hydraulic system
C D
0-10.7(10.7)
33. Max. Offset-Distance
Hydraulic servo
22. No. of lever/pedal
2 imp.levers 2 travel pedals with levers
34.
35.
E D
F C A B I
degree
−
mm
−
kg
39 000
BLADE
DIMENSIONS 23.
G
8'
32. Max. Boom-Swing Angle
CONTROL SYSTEM 21. Type
H
B A
Hydraulic with disc
20. Parking brake
2/8
25. Upper/lower rollers 26.
3.
Tractor type
24. Type
A
mm
4 050
B
mm
5 060
C
mm
1 260
D
kg
8 000
E
mm
3 390
F
mm
3 390
G
mm
2 590
H
mm
560
I
mm
1 150
B A F
D E C
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
degree kg
Remarks *mark shows data to compute operating weight(s).
4- 97
ZX450-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
0-3.4 / 0-5.5
B kN(kgf)
322 (32 800 )
C
D
70 (35)
mm
D
kPa E (kgf/cm 2)
E
600
750
85 (0.87)
69 (0.70)
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.0
28. Arm length
m
3.4
SAE/PCSA
m3
1.9
CECE
m3
1.7
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
278 (28 400)
I
kN (kgf)
216 (22 000)
kg
45 700
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330
H
560
liter
C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
E
4 040
B
mm
5 040
C
mm
1 360
D
kg
9 150
E
mm
3 645
F
mm
3 330
G
mm
2 890 / 2 390
H
mm
723
I
mm
1 220
m3
2.3-2.6
2.6-2.8
A
mm
8 760
8 720
B
mm
9 380
8 360
C
mm
3 370
3 390
D
mm
10 070
10 030
E
mm
2 760
2 220
F
mm
10 070
10 000
G
kN (kgf)
271 (27 600)
259 (26 400)
H
kN (kgf)
34. 35.
G
A km/h
C %(deg.)
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
F
D
G
H C
B A
36.
kg
47 200
Remarks *mark shows data to compute operating weight(s).
4- 98
ZX450LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
0-3.4 / 0-5.5
B kN(kgf)
322 (32 800 )
C
D
mm
70 (35)
D
kPa E (kgf/cm 2)
E
600
750
900
79 (0.81)
64 (0.65)
54 (0.55)
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.0
28. Arm length
m
3.4
SAE/PCSA
m3
2.1
CECE
m3
1.8
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
278 (28 400)
I
kN (kgf)
216 (22 000)
kg
46 700
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330
H
560
liter
C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
C %(deg.)
−
7. No.of cylinder
H
Tractor type 3/9
24. Type
I
mm
E
4 470
B
mm
5 470
C
mm
1 360
D
kg
9 150
E
mm
3 645
F
mm
3 330
G
mm
2 890 / 2 390
H
mm
723
I
mm
1 220
F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 99
ZX470H-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.4 / 0-5.5
B kN(kgf)
322 (32 800 )
C %(deg.)
70 (35)
D
600
mm
kPa E (kgf/cm 2)
88 (0.90)
27. Boom length
m
7.0 H
28. Arm length
m
3.4 H
SAE/PCSA
m3
1.9
CECE
m3
1.7
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
288 (29 400)
I
kN (kgf)
218 (22 200)
kg
47 100
E
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
4 040
B
mm
5 040
C
mm
1 360
D
kg
9 150
E
mm
3 645
F
mm
3 330
G
mm
2 890 / 2 390
H
mm
723
I
mm
1 220
m3
2.3-2.6
2.6-2.8
A
mm
8 760
8 720
B
mm
9 380
8 360
C
mm
3 370
3 390
D
mm
10 070
10 030
E
mm
2 760
2 220
F
mm
10 070
10 000
G
kN (kgf)
271 (27 600)
259 (26 400)
H
kN (kgf)
34. 35.
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
E F
D
G
H C
B A
36.
kg
48 100
Remarks *mark shows data to compute operating weight(s).
4- 100
ZX470LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.4 / 0-5.5
B kN(kgf)
322 (32 800 )
C %(deg.)
70 (35)
D
mm
600
kPa E (kgf/cm 2)
82 (0.84)
27. Boom length
m
7.0 H
28. Arm length
m
3.4 H
SAE/PCSA
m3
1.9
CECE
m3
1.7
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
288 (29 400)
I
kN (kgf)
218 (22 200)
kg
48 100
E
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/9
24. Type
I
mm
4 470
B
mm
5 470
C
mm
1 360
D
kg
9 150
E
mm
3 645
F
mm
3 330
G
mm
2 890 / 2 390
H
mm
723
I
mm
1 220
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 101
ZX470R-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.4 / 0-5.5
B kN(kgf)
322 (32 800 )
C %(deg.)
70 (35)
D
mm
600
kPa E (kgf/cm 2)
89 (0.91)
27. Boom length
m
7.0 R
28. Arm length
m
3.4 R
SAE/PCSA
m3
1.9
CECE
m3
1.7
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
288 (29 400)
I
kN (kgf)
218 (22 200)
kg
47 900
E
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 040
B
mm
5 040
C
mm
1 360
D
kg
9 150
E
mm
3 645
F
mm
3 330
G
mm
2 890 / 2 390
H
mm
723
I
mm
1 220
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 102
ZX470LCR-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.4 / 0-5.5
B kN(kgf)
322 (32 800 )
C %(deg.)
70 (35)
D
mm
600
kPa E (kgf/cm 2)
83 (0.85)
27. Boom length
m
7.0 R
28. Arm length
m
3.4 R
SAE/PCSA
m3
1.9
CECE
m3
1.7
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
288 (29 400)
I
kN (kgf)
218 (22 200)
kg
48 900
E
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/9
24. Type
I
mm
4 470
B
mm
5 470
C
mm
1 360
D
kg
9 150
E
mm
3 645
F
mm
3 330
G
mm
2 890 / 2 390
H
mm
723
I
mm
1 220
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 103
ZX500LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
0-2.9 / 0-4.0
B kN(kgf)
415 (42 300 )
C
D
mm
70 (35)
D
kPa E (kgf/cm 2)
E
600
750
900
88 (0.89)
71 (0.72)
60 (0.61)
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.0
28. Arm length
m
3.4
SAE/PCSA
m3
2.1
CECE
m3
1.8
A
mm
12 060
B
mm
11 820
C
mm
7 690
D
mm
7 550
E
mm
11 130
F
mm
7 730
G
mm
4 840
H
kN (kgf)
278 (28 400)
I
kN (kgf)
216 (22 000)
kg
49 500
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
C %(deg.)
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 250
B
mm
5 330
C
mm
1 435
D
kg
9 820
E
mm
3 645
F
mm
3 410
G
mm
2 920 / 2 420
H
mm
810
I
mm
1 290
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 104
ZX520LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-2.9 / 0-4.0
B kN(kgf)
415 (42 300 )
C %(deg.)
70 (35)
D
mm
600
kPa E (kgf/cm 2)
91 (0.93)
27. Boom length
m
7.0 H
28. Arm length
m
3.4 H
SAE/PCSA
m3
2.1
CECE
m3
1.8
A
mm
12 060
B
mm
11 820
C
mm
7 690
D
mm
7 550
E
mm
11 130
F
mm
7 730
G
mm
4 840
H
kN (kgf)
288 (29 400)
I
kN (kgf)
218 (22 200)
kg
51 700
E
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 250
B
mm
5 330
C
mm
1 435
D
kg
9 820
E
mm
3 645
F
mm
3 520
G
mm
2 890 / 2 390
H
mm
810
I
mm
1 290
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 105
ZX520LCR-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-01
1. Make/model 2.
ISO net kW(HP) @min-1
260 (349) @ 1 800
3.
ECC net kW(HP) @min-1
260 (349) @ 1 800
4.
SAE net kW(HP) @min-1
260 (349) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-2.9 / 0-4.0
B kN(kgf)
415 (42 300 )
C %(deg.)
70 (35)
D
mm
600
kPa E (kgf/cm 2)
93 (0.95)
27. Boom length
m
7.0 R
28. Arm length
m
3.4 R
SAE/PCSA
m3
1.9
CECE
m3
1.7
A
mm
12 060
B
mm
11 840
C
mm
7 770
D
mm
7 630
E
mm
11 060
F
mm
7 650
G
mm
6 590
H
kN (kgf)
288 (29 400)
I
kN (kgf)
218 (22 200)
kg
52 500
E
6
8. 9.
725
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 360
15.
liter
16.
E
F
I
330 560
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.0 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 250
B
mm
5 330
C
mm
1 435
D
kg
9 820
E
mm
3 645
F
mm
3 520
G
mm
2 890 / 2 390
H
mm
810
I
mm
1 290
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 106
ZX650LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-02
1. Make/model 2.
ISO net kW(HP) @min-1
345 (463) @ 1 800
3.
ECC net kW(HP) @min-1
345 (463) @ 1 800
4.
SAE net kW(HP) @min-1
345 (463) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
0-3.4 / 0-4.9
B kN(kgf)
460 (46 920 )
C
D
mm
70 (35)
D
kPa E (kgf/cm 2)
E
650
750
900
99 (1.01)
87 (0.87)
73 (0.75)
6
8. 9.
900
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.8 / 6.8 BE
28. Arm length
m
3.6 / 2.9 BE
SAE/PCSA
m3
2.9 / 3.5
CECE
m3
2.6 / 3.1
A
mm
13 250 / 11 800
B
mm
13 000 / 11 500
C
mm
8 530 / 7 120
D
mm
8 400 / 6 970
E
mm
11 920 / 11 190
F
mm
8 050 / 7 330
G
mm
5 780 / 5 240
H
kN (kgf)
324 / 369 (33 100) / (37 700)
I
kN (kgf)
255 / 306 (26 000) / (31 200)
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 456
15.
liter
16.
E
F
I
380 680
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.5 32.
kg
65 900 / 66 300
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
C %(deg.)
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 590
B
mm
5 840
C
mm
1 530
D
kg
E F
D
G
H C
11 100
E
mm
3 850
F
mm
3 450
G
mm
3 300
H
mm
860
I
mm
1 390
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 107
ZX670LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-02
1. Make/model 2.
ISO net kW(HP) @min-1
345 (463) @ 1 800
3.
ECC net kW(HP) @min-1
345 (463) @ 1 800
4.
SAE net kW(HP) @min-1
345 (463) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.4 / 0-4.9
B kN(kgf)
460 (46 920 )
C %(deg.)
70 (35)
D
mm
kPa E (kgf/cm 2)
E
600 91 (0.93)
6
8. 9.
900
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.8 H / 6.8 BE
28. Arm length
m
3.6 H / 2.9 BE
SAE/PCSA
m3
2.9 / 3.3
CECE
m3
2.5 / 2.9
A
mm
13 280 / 11 800
B
mm
13 030 / 11 500
C
mm
8 560 / 7 120
D
mm
8 420 / 6 970
E
mm
11 940 / 11 190
F
mm
8 020 / 7 330
G
mm
4 840 / 5 240
H
kN (kgf)
324 / 369 (33 100) / (37 700)
I
kN (kgf)
255 / 306 (26 000) / (31 200)
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 456
15.
liter
16.
E
F
I
380 680
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.5 32.
kg
67 300 / 67 100
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 590
B
mm
5 840
C
mm
1 530
D
kg
11 100
E
mm
3 850
F
mm
3 450
G
mm
3 300
H
mm
860
I
mm
1 390
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 108
ZX670LCR-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-02
1. Make/model 2.
ISO net kW(HP) @min-1
345 (463) @ 1 800
3.
ECC net kW(HP) @min-1
345 (463) @ 1 800
4.
SAE net kW(HP) @min-1
345 (463) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.4 / 0-4.9
B kN(kgf)
460 (46 920 )
C %(deg.)
70 (35)
D
600
mm
kPa E (kgf/cm 2)
E
103 (1.05)
102 (1.04)
6
8. 9.
900
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.8 R / 6.8 BER
28. Arm length
m
3.6 R / 2.9 BER
SAE/PCSA
m3
2.9 / 3.3
CECE
m3
2.5 / 2.9
A
mm
13 280 / 11 800
B
mm
13 030 / 11 500
C
mm
8 560 / 7 120
D
mm
8 420 / 6 970
E
mm
11 940 / 11 190
F
mm
8 020 / 7 330
G
mm
4 840 / 5 240
H
kN (kgf)
324 / 369 (33 100) / (37 700)
I
kN (kgf)
255 / 306 (26 000) / (31 200)
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 456
15.
liter
16.
E
F
I
380 680
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
9.5 32.
kg
68 400 / 68 200
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 590
B
mm
5 840
C
mm
1 530
D
kg
11 100
E
mm
3 850
F
mm
3 450
G
mm
3 300
H
mm
860
I
mm
1 390
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 109
ZX850-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-03
1. Make/model 2.
ISO net kW(HP) @min-1
397(532) @ 1 800
3.
ECC net kW(HP) @min-1
397(532) @ 1 800
4.
SAE net kW(HP) @min-1
397(532) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
0-3.1 / 0-4.1
B kN(kgf)
560 (57 100)
C
D
70 (35)
mm
D
kPa E (kgf/cm 2)
E
650
750
121 (1.23)
105 (1.08)
6
8. 9.
1 120
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
8.4 / 7.1 BE
28. Arm length
m
3.7 / 2.95 BE
SAE/PCSA
m3
3.5 / 4.5
CECE
m3
3.1 / 3.9
A
mm
14 100 / 12 340
B
mm
13 820 / 12 020
C
mm
8 870 / 7 140
D
mm
8 740 / 7 000
E
mm
13 030 / 12 010
F
mm
9 080 / 8 130
G
mm
5 950 / 5 210
H
kN (kgf)
399 / 472 (40 700) / (48 200)
I
kN (kgf)
323 / 394 (33 000) / (40 200)
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 528
15.
liter
16.
E
F
I
500 790
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
7.3 32.
80 500 / 81 200
kg
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
4 590
B
mm
5 840
C
mm
1 680
D
kg
13 300
E
mm
4 600
F
mm
3 360
G
mm
3 450
H
mm
890
I
mm
1 500
m3
3.6-4.0
4.0-4.4
A
mm
10 000
10 000
B
mm
10 590
10 590
C
mm
3 860
3 860
D
mm
7 910
4 970
E
mm
F
mm
10 860
10 860
G
kN (kgf)
441 (46 000)
441 (46 000)
H
kN (kgf)
81 700
80 700
34. 35.
G
A km/h
C %(deg.)
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
E F
D
G
H C
B A
36.
kg
Remarks *mark shows data to compute operating weight(s).
4- 110
ZX850LC-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-03
1. Make/model 2.
ISO net kW(HP) @min-1
397(532) @ 1 800
3.
ECC net kW(HP) @min-1
397(532) @ 1 800
4.
SAE net kW(HP) @min-1
397(532) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
0-3.1 / 0-4.1
B kN(kgf)
560 (57 100)
C
D
mm
70 (35)
D
kPa E (kgf/cm 2)
E
650
750
900
112 (1.14)
98 (1.00)
82 (0.84)
6
8. 9.
1 120
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
8.4 / 7.1 BE
28. Arm length
m
3.7 / 2.95 BE
SAE/PCSA
m3
3.5 / 4.5
CECE
m3
3.1 / 3.9
A
mm
14 100 / 12 340
B
mm
13 820 / 12 020
C
mm
8 870 / 7 140
D
mm
8 740 / 7 000
E
mm
13 030 / 12 010
F
mm
9 080 / 8 130
G
mm
5 950 / 5 210
H
kN (kgf)
399 / 472 (40 700) / (48 200)
I
kN (kgf)
323 / 394 (33 000) / (40 200)
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 528
15.
liter
16.
E
F
I
500 790
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
7.3 32.
kg
82 200 / 83 000
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
C %(deg.)
−
7. No.of cylinder
H
Tractor type 3/9
24. Type
I
mm
E
5 110
B
mm
6 360
C
mm
1 680
D
kg
13 300
E
mm
4 600
F
mm
3 360
G
mm
3 450
H
mm
890
I
mm
1 500
F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 111
ZX870H-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-03
1. Make/model 2.
ISO net kW(HP) @min-1
397(532) @ 1 800
3.
ECC net kW(HP) @min-1
397(532) @ 1 800
4.
SAE net kW(HP) @min-1
397(532) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.1 / 0-4.1
B kN(kgf)
560 (57 100)
C %(deg.)
70 (35)
D
650
mm
kPa E (kgf/cm 2)
E
131 (1.33)
131 (1.33)
130 (1.32)
6
8. 9.
1 120
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
8.4 H / 7.1 BE / 7.1 BE
28. Arm length
m
3.7 H / 2.95 BE / 3.7 H
SAE/PCSA
m3
3.5 / 4.3 / 3.7
CECE
m3
3.1 / 3.8 / 3.2
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 528
15.
liter
16.
E
F
I
500 790
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
A
mm 14 100 / 12 340 / 12 820
B
mm 13 820 / 12 020 / 12 510
C
mm
8 870 / 7 140 / 7 820
D
mm
8 740 / 7 000 / 7 690
E
mm 13 030 / 12 010 / 12 130
F
mm
9 080 / 8 130 / 8 180
G
mm
5 950 / 5 210 / 5 090
H
kN 402 / 402 / 472 (kgf) (41 000) / (41 000) / (48 200)
I
kN 324 / 324 / 394 (kgf) (33 100) / (33 100) / (40 200)
8'
7.3
kg 82 100 / 82 400 / 81 700
32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
4 590
B
mm
5 840
C
mm
1 680
D
kg
13 300
E
mm
4 600
F
mm
3 780
G
mm
3 450
H
mm
890
I
mm
1 500
m3
3.6-4.0
4.0-4.4
A
mm
10 000
10 000
B
mm
10 590
10 590
C
mm
3 860
3 860
D
mm
7 910
4 970
E
mm
F
mm
10 860
10 860
G
kN (kgf)
441 (46 000)
441 (46 000)
H
kN (kgf)
82 800
81 700
34. 35.
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
E F
D
G
H C
B A
36.
kg
Remarks *mark shows data to compute operating weight(s).
4- 112
ZX870LCH-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-03
1. Make/model 2.
ISO net kW(HP) @min-1
397(532) @ 1 800
3.
ECC net kW(HP) @min-1
397(532) @ 1 800
4.
SAE net kW(HP) @min-1
397(532) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.1 / 0-4.1
B kN(kgf)
560 (57 100)
C %(deg.)
70 (35)
D
650
mm
kPa E (kgf/cm 2)
E
121 (1.23)
121 (1.23)
120 (1.23)
6
8. 9.
1 120
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.0 H / 7.1 BE / 7.1 BE
28. Arm length
m
3.4 H / 2.95 BE / 3.7 H
SAE/PCSA
m3
1.9 / 4.3 / 3.7
CECE
m3
1.7 / 3.8 / 3.2
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 528
15.
liter
16.
E
F
I
500 790
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
A
mm 12 060 / 12 340 / 12 820
B
mm 11 840 / 12 020 / 12 510
C
mm
7 770 / 7 140 / 7 820
D
mm
7 630 / 7 000 / 7 690
E
mm 11 060 / 12 010 / 12 130
F
mm
7 650 / 8 130 / 8 180
G
mm
6 590 / 5 210 / 5 090
H
kN 288 / 402 / 472 (kgf) (29 400) / (41 000) / (48 200)
I
kN 218 / 324 / 394 (kgf) (22 200) / (33 100) / (40 200)
8'
7.3
kg 48 100 / 84 300 / 83 500
32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/9
24. Type
I
mm
5 110
B
mm
6 360
C
mm
1 680
D
kg
13 300
E
mm
4 600
F
mm
3 780
G
mm
3 450
H
mm
890
I
mm
1 500
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 113
ZX870R-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-03
1. Make/model 2.
ISO net kW(HP) @min-1
397(532) @ 1 800
3.
ECC net kW(HP) @min-1
397(532) @ 1 800
4.
SAE net kW(HP) @min-1
397(532) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.1 / 0-4.1
B kN(kgf)
560 (57 100)
C %(deg.)
70 (35)
D
mm
650
kPa E (kgf/cm 2)
126 (1.26)
27. Boom length
m
8.4 H
28. Arm length
m
3.7 H
SAE/PCSA
m3
3.5
CECE
m3
3.1
A
mm
14 100
B
mm
13 820
C
mm
8 870
D
mm
8 740
E
mm
13 000
F
mm
9 080
G
mm
5 950
H
kN (kgf)
402 (41 000)
I
kN (kgf)
324 (33 100)
kg
83 600
E
6
8. 9.
1 120
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 528
15.
liter
16.
E
F
I
500 790
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
7.3 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/8
24. Type
I
mm
4 590
B
mm
5 840
C
mm
1 680
D
kg
13 300
E
mm
4 600
F
mm
3 360
G
mm
3 450
H
mm
890
I
mm
1 500
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 114
ZX870LCR-3 UNDERCARRIAGE
ENGINE Isuzu AH-6WG1XYSA-03
1. Make/model 2.
ISO net kW(HP) @min-1
397(532) @ 1 800
3.
ECC net kW(HP) @min-1
397(532) @ 1 800
4.
SAE net kW(HP) @min-1
397(532) @ 1 800
5.
ECC gross kW(HP) @min-1
−
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B C
0-3.1 / 0-4.1
B kN(kgf)
560 (57 100)
C %(deg.)
70 (35)
D
650
mm
kPa E (kgf/cm 2)
E
126 (1.26)
126 (1.26)
6
8. 9.
1 120
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
15.681
.liter
27. Boom length
m
7.1 BER / 7.1 BER
28. Arm length
m
2.95 BER / 3.7 R
SAE/PCSA
m3
4.3 / 3.7
CECE
m3
3.8 / 3.2
A
mm
12 340 / 12 820
B
mm
12 020 / 12 510
C
mm
7 140 / 7 820
D
mm
7 000 / 7 690
E
mm
12 010 / 12 130
F
mm
8 130 / 8 180
G
mm
5 090 / 6 090
H
kN (kgf)
402 / 472 (41 000) / (48 200)
I
kN (kgf)
324 / 394 (33 100) / (40 200)
1
29.
1
30.
HYDRAULICS Engine speed sensing system
11. Hydraulic system
1
2
31.
2×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3 (350)
14.
Max. liter/min
2 x 528
15.
liter
16.
E
F
I
500 790
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
7.3 32.
kg
83 900 / 83 600
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type 34.
m3
35.
DIMENSIONS 23.
A E D
F C A B
G
A km/h
D
−
7. No.of cylinder
H
Tractor type 3/9
24. Type
I
mm
5 110
B
mm
6 360
C
mm
1 680
D
kg
13 300
E
mm
4 600
F
mm
3 780
G
mm
3 450
H
mm
890
I
mm
1 500
E F
D
G
H C
B A
36.
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
kN (kgf)
H
kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 115
EX1200-6 UNDERCARRIAGE
ENGINE Cummins QSK23-C
1. Make/model 2.
ISO net kW(HP) @min-1
3.
ECC net kW(HP) @min-1
4.
SAE net kW(HP) @min-1
5.
ECC gross kW(HP) @min-1
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
552(740HP) @ 1 800
0-2.4 / 0-3.5
B kN(kgf)
707(72 100)
D
70 (35)
D
567(760HP) @ 1 800
mm 700
900
700
900
112 143 113 kPa 142 E (kgf/cm 2) (1.45) (1.14) (1.46) (1.15)
E
6
8. 9.
1 470
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
23.15
.liter
27. Boom length
m
9.0 / 9.0 / 7.55 BE / 7.55 BE
28. Arm length
m
3.6 / 3.6 / 3.4 BE / 3.4 BE
SAE/PCSA
m3
5.2 / 5.2 / 6.7 / 6.7
CECE
m3
4.6 / 4.6 / 5.9 / 5.9
1
29.
1
30.
HYDRAULICS E-P Control & OHS
11. Hydraulic system
1
2
31.
3×
12. Working pumps
G
13.
MPa (kgf/cm2)
34.3(350)
14.
Max. liter/min
520
15.
liter
610
16.
1 350
liter
E
F
I H
C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
A
mm 15 350 / 15 350 / 13 750 / 13 750
B
mm 15 010 / 15 010 / 13 360 / 13 360
C
mm
9 380 / 9 380 / 8 050 / 8 050
D
mm
9 260 / 9 260 / 7 920 / 7 920
E
mm 13 460 / 13 460 / 12 410 / 12 410
F
mm
G
mm
H
kN 482 / 482 / 569 / 569 (kgf) (49 200) / (49 200) / (58 000) / (58 000)
I
kN 430 / 430 / 438 / 438 (kgf) (43 900) / (43 900) / (44 700) / (44 700)
8'
5.2
9 080 / 9 080 / 8 050 / 8 050
kg 111 000 / 113 000 / 112 000 / 114 000
32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS A
23. E
B D
F C A B I
C
mm mm mm
5 090
E F
6 500
kg
17 500
E
mm
4 850
D
G
H
1 820
D
C
mm
G
mm
3 900
H
mm
1 020
I
mm
1 660
B A
4 350 Backhoe 5 440 Loading shovel
F
m3
6.5
A
mm
11 500
B
mm
10 950
C
mm
4 370
D
mm
8 750
E
mm
6 140
F
mm
12 410
G
kN (kgf)
577 (58 900)
H
kN (kgf)
594 (60 600)
kg
114 000
34. 35.
G
A km/h
C %(deg.) C
7. No.of cylinder
H
Tractor type 3/8
24. Type
36. Remarks
*mark shows data to compute operating weight(s).
4- 116
EX1900-6 UNDERCARRIAGE
ENGINE Cummins QSKTA38-CE
1. Make/model 2.
ISO net kW(HP) @min-1
3.
ECC net kW(HP) @min-1
4.
SAE net kW(HP) @min-1
5.
ECC gross kW(HP) @min-1
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
775(1 039) @ 1 800
C
0-2.1 / 0-2.8
B kN(kgf)
941.5(96 000)
C %(deg.)
60 (30)
D
800
mm
810(1 086) @ 1 800
kPa E (kgf/cm 2)
E
184(1.88)
12
8. 9.
4 140
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
37.8
.liter
E-P Control & OHS
11. Hydraulic system
m
28. Arm length
m
3.6
m3
12.0
1
29.
1
1
SAE/PCSA 2
G
13.
MPa (kgf/cm2)
29.4(300)
14.
Max. liter/min
335
15.
liter
16.
E
F
I
1 050 2 200
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
m3
10.6
A
mm
15 250
B
mm
14 770
C
mm
8 180
D
mm
8 070
E
mm
14 140
F
mm
9 060
G
mm
H
kN (kgf)
671 (68 400)
I
kN (kgf)
620 (63 200)
kg
192 000
CECE
31.
6×
12. Working pumps
8.3
27. Boom length
30.
HYDRAULICS
8'
4.7 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
5 780
B
mm
7 480
C
mm
1 920
D
kg
25 300
E
mm
6 035
F
mm
6 990
G
mm
5 400
H
mm
795
I
mm
1 880
m3
11.0
A
mm
13 430
B
mm
12 470
C
mm
4 820
D
mm
10 440
E
mm
6 890
F
mm
14 610
G
kN (kgf)
710 (72 400)
H
kN (kgf)
660 (67 300)
kg
191 000
34. 35.
G
A km/h
D
7. No.of cylinder
H
Tractor type 3/8
24. Type
E F
D
G
H C
B A
36. Remarks
*mark shows data to compute operating weight(s).
4- 117
EX2500-6 UNDERCARRIAGE
ENGINE Cummins QSKTA50-CE
1. Make/model 2.
ISO net kW(HP) @min-1
3.
ECC net kW(HP) @min-1
4.
SAE net kW(HP) @min-1
5.
ECC gross kW(HP) @min-1
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
994(1 333) @ 1800
C
0-1.6 / 0-2.3
B kN(kgf)
1 330(135 650)
C %(deg.)
60 (30)
D
1 000
mm
1 044(1 400) @ 1800
kPa E (kgf/cm 2)
E
181(1.84)
16
8. 9.
5 000
liter
Direct / Turbocharged
10. Injection/Aspiration
BACKHOE
50.0
.liter
E-P Control & OHS
11. Hydraulic system
4×
12. Working pumps
m
28. Arm length
m
4.2
m3
15.0
1
29.
1
1
SAE/PCSA 2
G
MPa (kgf/cm2)
29.4(300)
14.
Max. liter/min
4 X 375 2 X 425
15.
liter
16.
E
F
I
1 100 2 950
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
m3
13.2
A
mm
17 080
B
mm
16 530
C
mm
8 600
D
mm
8 470
E
mm
16 060
F
mm
10 330
G
mm
H
kN (kgf)
832 (84 800)
I
kN (kgf)
825 (84 100)
kg
248 000
CECE
31.
2×
13.
9.0
27. Boom length
30.
HYDRAULICS
8'
3.8 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
6 120
B
mm
7 870
C
mm
2 140
D
kg
30 000
E
mm
6 290
F
mm
7 250
G
mm
6 000
H
mm
800
I
mm
2 060
m3
15.0
A
mm
14 060
B
mm
12 960
C
mm
4 980
D
mm
10 350
E
mm
8 140
F
mm
15 010
G
kN (kgf)
918 (93 600)
H
kN (kgf)
843 (86 000)
kg
249 000
34. 35.
G
A km/h
D
7. No.of cylinder
H
Tractor type 3/8
24. Type
E F
D
G
H C
B A
36. Remarks
*mark shows data to compute operating weight(s).
4- 118
EX3600-6 UNDERCARRIAGE
ENGINE Cummins QSKTA60-CE
1. Make/model 2.
ISO net kW(HP) @min-1
3.
ECC net kW(HP) @min-1
4.
SAE net kW(HP) @min-1
5.
ECC gross kW(HP) @min-1
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
1 450(1 944) @ 1 800
C
0-1.7 / 0-2.2
B kN(kgf)
1 330(135 650)
C %(deg.)
60 (30)
D
1 270
mm
1 450(1 944) @ 1 800
kPa E (kgf/cm 2)
E
188(1.92)
16
8. 9.
7 450
liter
Direct / Turbo charged
10. Injection/Aspiration
BACKHOE
60.0
.liter
27. Boom length
m
9.6 BE
28. Arm length
m
4.5 BE
SAE/PCSA
m3
22.0
CECE
m3
19.2
A
mm
18 190
B
mm
17 600
C
mm
8 580
D
mm
8 490
E
mm
17 690
F
mm
11 590
G
mm
H
kN (kgf)
1 050 (107 000)
I
kN (kgf)
951 (97 000)
kg
359 000
1
29.
1
30.
HYDRAULICS E-P Control & OHS
11. Hydraulic system
1
2
31.
8×
12. Working pumps
G
13.
MPa (kgf/cm2)
29.4(300)
14.
Max. liter/min
8 × 500
15.
liter
16.
E
F
I
1 900 4 000
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
3.2 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
6 660
B
mm
8 700
C
mm
2 440
D
kg
40 200
E
mm
6 780
F
mm
7 830
G
mm
5 500
H
mm
905
I
mm
2 305
m3
21.0
A
mm
15 220
B
mm
13 920
C
mm
5 050
D
mm
10 990
E
mm
8 650
F
mm
16 300
G
kN (kgf)
1 200 (122 000)
H
kN (kgf)
1 130 (115 000)
kg
361 000
34. 35.
G
A km/h
D
7. No.of cylinder
H
Shovel-type 3/8
24. Type
E F
D
G
H C
B A
36. Remarks
*mark shows data to compute operating weight(s).
4- 119
EX5500-6 UNDERCARRIAGE
ENGINE Cummins QSKTA50-CE
1. Make/model 2.
ISO net kW(HP) @min-1
3.
ECC net kW(HP) @min-1
4.
SAE net kW(HP) @min-1
5.
ECC gross kW(HP) @min-1
6.
SAE gross kW(HP) @min-1
25. Upper/lower rollers 26.
A
B
2 x 994 (2 x 1 333)
C
0-1.6 / 0-2.3
B kN(kgf)
2 230(227 000)
C %(deg.)
60 (30)
D
1 400
mm
2 x 1 044 (2 x 1 400)
kPa E (kgf/cm 2)
E
232(2.37)
16
8. 9.
11 300
liter
Direct / Turbo charged
10. Injection/Aspiration
BACKHOE
2 × 50.0
.liter
27. Boom length
m
10.6 BE
28. Arm length
m
5.3 BE
SAE/PCSA
m3
29.0
CECE
m3
26.0
A
mm
20 900
B
mm
20 100
C
mm
9 000
D
mm
8 900
E
mm
20 600
F
mm
13 000
G
mm
H
kN (kgf)
1 370 (140 000)
I
kN (kgf)
1 240 (126 000)
kg
359 000
1
29.
1
30.
HYDRAULICS E-P Control & OHS
11. Hydraulic system
8×
12. Working pumps
1
2
31.
4× G
13.
MPa (kgf/cm2)
29.4(300)
14.
Max. liter/min
8 × 375 4 × 425
15.
liter
16.
E
F
I
2 200 6 200
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
8'
3.3 32.
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
7 000
B
mm
9 350
C
mm
3 000
D
kg
57 300
m3
27.0
A
mm
16 600
B
mm
15 350
C
mm
5 550
D
mm
13 100
E
mm
8 900
F
mm
18 900
G
kN (kgf)
1 570 (160 000)
H
kN (kgf)
1 570 (160 000)
kg
522 000
34. 35.
G
A km/h
D
7. No.of cylinder
H
Shovel-type 3/7
24. Type
E F
D
G
H C
B A
E
mm
7 950
F
mm
8 600
G
mm
6 000
36.
H
mm
1 100
Remarks
I
mm
2 730
*mark shows data to compute operating weight(s).
4- 120
EX8000-6 UNDERCARRIAGE
ENGINE Cummins QSKTA60-CE
1. Make/model 2.
ISO net kW(HP) @min-1
3.
ECC net kW(HP) @min-1
4.
SAE net kW(HP) @min-1
5.
ECC gross kW(HP) @min-1
6.
SAE gross kW(HP) @min-1
Shovel-type 3/7
24. Type 25. Upper/lower rollers 26.
A
B
2 x 1 450 (2 x 1 940)
C
A km/h
0-1.3 / 0-1.9
B kN(kgf)
3 000 (306 000)
C %(deg.)
60 (30)
D
1 850
D
2 x 1 450 (2 x 1 940)
kPa E (kgf/cm 2)
E
8.
BACKHOE
2 × 60.0
.liter
27. Boom length 9.
14 900
liter
Direct / Turbo charged
10. Injection/Aspiration
E-P Control & OHS
11. Hydraulic system
m
28. Arm length 1
29.
1
30.
HYDRAULICS
m
1
SAE/PCSA CECE
m3
31.
G
13.
MPa (kgf/cm2)
29.4(300)
14.
Max. liter/min
16 × 500
15.
F
I
3 890
liter
16.
E
9 700
liter
H C D
B A
Hydraulic with disc
17. Type of swing brake 18.
min-1(rpm)
19.
kN·m (kgf·m)
m3
2
16 ×
12. Working pumps
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
mm
H
kN (kgf)
I
kN (kgf)
8'
3.2 32.
kg
Disc-type
20. Parking brake
LOADING SHOVEL
CONTROL SYSTEM 21. Type
Hydraulic servo
22. No. of lever/pedal
2 Imp. levers 2 travel pedals with levers
33. Bucket type
DIMENSIONS 23.
A E D
F C A B I
mm
7 900
m3
40.0
A
mm
18 500
B
mm
16 700
C
mm
5 600
D
mm
20 500
E
mm
10 900
F
mm
20 500
G
kN (kgf)
2 870 (293 000)
H
kN (kgf)
2 230 (227 000)
kg
804 000
34. 35.
G
242(2.47)
16
7. No.of cylinder
H
mm
E F
D
G
B
mm
10 500
C
mm
3 430
D
kg
80 000
E
mm
8 280
F
mm
9 900
G
mm
6 800
36.
H
mm
1 250
Remarks
I
mm
H C
B A
*mark shows data to compute operating weight(s).
4- 121
ZX140W-3 UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
90.2(121) @ 2 200
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 200
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 200
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
2.999
7.
liter
250 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350),32.4(330)Swing
12.
Max. liter/min
135 + 180
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-13.7(13.7)
17.
kN·m (kgf·m)
34.0(3 470)
C
6 800
Monoblock Boom
m
2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
8 040 / 8 410 / 8 870 7 840 / 8 210 / 8 690 4 610 / 5 030 / 5 520 4 380 / 4 830 / 5 340 8 660 / 8 850 / 9 160 6 240 / 6 440 / 6 760 2 610 / 2 650 / 2 910 99 (10 100) 73 / 65 / 58 (7 470) / (6 640) / (5 940)
29.
1
30.
1
1
2
G E
F
I H
B A
C D
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
Hydraulic servo
19. No. of lever/pedal
2 imp.levers
33. Boom length
m
34. Arm length 1
35.
1
36.
A
mm
2 120
B
mm
2 550
C
kg
A C
B
SAE/PCSA CECE
m3
G E
F
mm
3 130
G
E
mm
2 530
E F
F
mm
3 380
G
mm
350
m3
2
I H
D
m
1
37.
DIMENSIONS
D
14 700 - 16 000
BACKHOE (with two-piece boom)
CONTROL SYSTEM 18. Type
20.
mm
m
180
15. Type of swing brake
70(35)
28. Arm length
100
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.2,0-8.6,0-35.0
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
C D
B A
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
mm
H 8'
I 38.
kN (kgf) kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 122
ZX170W-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
107(143)@2 000
3.
ECC net kW(HP) @min-1
107(143)@2 000
4.
SAE net kW(HP) @min-1
107(143)@2 000
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
5.193
7.
liter
290 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350), 29.3(300)Swing
12.
Max. liter/min
2 × 200
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-12.2(12.2)
17.
kN·m (kgf·m)
42.8(4 370)
C
6 650
Monoblock Boom
m
2.22 / 2.58* / 3.08
SAE/PCSA
m3
0.52-0.82
CECE
m3
0.45-0.70
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
8 690 / 9 050 / 9 500 8 500 / 8 870 / 9 330 4 960 / 5 330 / 5 830 4 740 / 5 130 / 5 660 8 820 / 9 100 / 9 350 6 130 / 6 360 / 6 610 3 380 / 2 940 / 2 970 102 (10 400) 104 / 83 / 74 (10 600) / (8 440) / (7 550)
29.
1
30.
1
1
2
G E
F
I H
B A
C D
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
Hydraulic servo
19. No. of lever/pedal
2 imp.levers
33. Boom length
m
34. Arm length 1
35.
1
36.
A
mm
2 320
B
mm
2 550
C
kg
A C
B
SAE/PCSA CECE
m3
G E
F
mm
3 130
G
E
mm
2 550
E F
F
mm
3 380
G
mm
350
m3
2
I H
D
m
1
37
DIMENSIONS
D
16 600-18 000
BACKHOE (with two-piece boom)
CONTROL SYSTEM 18. Type
20.
mm
m
240
15. Type of swing brake
70(35)
28. Arm length
100
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.6,0-8.6,0-35.0
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
C D
B A
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
mm
H 8'
I 38.
kN (kgf) kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 123
ZX190W-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
122(164)@2 000
3.
ECC net kW(HP) @min-1
122(164)@2 000
4.
SAE net kW(HP) @min-1
122(164)@2 000
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
5.193
7.
liter
290 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350),32.4(330)Swing
12.
Max. liter/min
2 × 189
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-12.2(12.2)
17.
kN·m (kgf·m)
53.3(5 440)
C
6 800
Monoblock Boom
m
2.26 / 2.71* / 3.21
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
9 220 / 9 580 / 10 090 9 040 / 9 400 / 9 920 5 390 / 5 830 / 6 330 5 180 / 5 640 / 6 170 9 160 / 9 250 / 9 630 6 340 / 6 450 / 6 790 3 510 / 3 480 / 3 440 116 (11 800) 99 / 86 / 76 (10 100) / (8 780) / (7 800)
29.
1
30.
1
1
2
G E
F
I H
B A
C D
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
Hydraulic servo
19. No. of lever/pedal
2 imp.levers
33. Boom length
m
34. Arm length 1
35.
1
36.
A
mm
2 320
B
mm
2 650
C
kg
A C
B
SAE/PCSA CECE
m3
G E
F
mm
3 130
G
E
mm
2 550
E F
F
mm
3 440
G
mm
350
m3
2
I H
D
m
1
37.
DIMENSIONS
D
18 000-19 700
BACKHOE (with two-piece boom)
CONTROL SYSTEM 18. Type
20.
mm
m
240
15. Type of swing brake
70(35)
28. Arm length
100
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.6,0-8.6,0-35.0
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
C D
B A
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
mm
H 8'
I 38.
kN (kgf) kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 124
ZX210W-3 UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
122(164)@2 000
3.
ECC net kW(HP) @min-1
122(164)@2 000
4.
SAE net kW(HP) @min-1
122(164)@2 000
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
5.193
7.
liter
355 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350),28.9(295)Swing
12.
Max. liter/min
189 + 195
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-12.2(12.2)
17.
kN·m (kgf·m)
64.9(6 620)
C
7 200
Monoblock Boom
m
2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
9 670 / 10 170 9 460 / 9 960 5 800 / 6 290 5 580 / 6 110 9 840 / 10 190 7 000 / 7 350 3 520 / 3 430 151 (15 400) 133 / 109 (13 600) / (11 100)
29.
1
30.
1
1
2
G E
F
I H
B A
C D
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
Hydraulic servo
19. No. of lever/pedal
2 imp.levers
33. Boom length
m
34. Arm length 1
35.
1
36.
A
mm
2 750
B
mm
2 750
C
kg
A C
B
SAE/PCSA CECE
m3
G E
F
mm
3 170
G
E
mm
2 530
E F
F
mm
3 440
G
mm
325
m3
2
I H
D
m
1
37.
DIMENSIONS
D
19 800-20 900
BACKHOE (with two-piece boom)
CONTROL SYSTEM 18. Type
20.
mm
m
340
15. Type of swing brake
70(35)
28. Arm length
200
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.9,0-7.4,0-27.5
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
C D
B A
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
G
mm
H 8'
I 38.
kN (kgf) kN (kgf) kg
Remarks *mark shows data to compute operating weight(s).
4- 125
ZX140W-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AI-4JJ1X
1. Make/model ISO net kW(HP) @min-1
90.2(121) @ 2 200
3.
ECC net kW(HP) @min-1
90.2(121) @ 2 200
4.
SAE net kW(HP) @min-1
90.2(121) @ 2 200
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
2.999
7.
liter
250 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350),32.4(330)Swing
12.
Max. liter/min
135 + 180
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-13.7(13.7)
17.
kN·m (kgf·m)
34.0(3 470)
Monoblock Boom 2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
8 040 / 8 410 / 8 870 7 840 / 8 210 / 8 690 4 610 / 5 030 / 5 520 4 380 / 4 830 / 5 340 8 660 / 8 850 / 9 160 6 240 / 6 440 / 6 760 2 610 / 2 650 / 2 910 99 (10 100) 73 / 65 / 58 (7 470) / (6 640) / (5 940)
29.
1
30.
1
1
2
G E
F
I H
19. No. of lever/pedal
2 imp.levers
C D
A
mm
2 120
B
mm
2 550
C
kg
A
B
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
14 700 - 16 000
33. Boom length
m
2-Piece Boom
34. Arm length
m
2.10 / 2.52* / 3.01
SAE/PCSA
m3
0.19-0.66
CECE
m3
0.17-0.55
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
8 580 / 8 960 / 9 430 8 390 / 8 780 / 9 260 4 870 / 5 290 / 5 770 4 760 / 5 180 / 5 670 9 750 / 10 040 / 10 450 7 290 / 7 570 / 7 990 2 520 / 2 670 / 3 040 99 (10 100) 73 / 65 / 58 (7 470) / (6 640) / (5 940)
35.
1
36.
1
1
2
37.
DIMENSIONS
C
B A
BACKHOE (with two-piece boom)
Hydraulic servo
D
6 800
mm
m
CONTROL SYSTEM 18. Type
20.
C
m
180
15. Type of swing brake
70(35)
28. Arm length
100
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.2,0-8.6,0-35.0
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
G E
F
I H
D
mm
3 130
G
E
mm
2 530
E F
F
mm
3 380
G
mm
350
C D
38.
B A
G
mm
H
kN (kgf)
I
kN (kgf)
8'
kg
15 200 - 16 500
Remarks *mark shows data to compute operating weight(s).
4- 126
ZX170W-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
107(143)@2 000
3.
ECC net kW(HP) @min-1
107(143)@2 000
4.
SAE net kW(HP) @min-1
107(143)@2 000
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
5.193
7.
liter
290 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350), 29.3(300)Swing
12.
Max. liter/min
2 × 200
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-12.2(12.2)
17.
kN·m (kgf·m)
42.8(4 370)
Monoblock Boom 2.22 / 2.58*
SAE/PCSA
m3
0.52-0.82
CECE
m3
0.45-0.70
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
8 690 / 9 050 8 500 / 8 870 4 960 / 5 330 4 740 / 5 130 8 820 / 9 100 6 130 / 6 360 3 380 / 2 940 102 (10 400) 104 / 83 (10 600) / (8 440)
29.
1
30.
1
1
2
G E
F
I H
19. No. of lever/pedal
2 imp.levers
C D
A
mm
2 320
B
mm
2 550
C
kg
A
B
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
16 600-18 100
33. Boom length
m
2-Piece Boom
34. Arm length
m
2.21 / 2.50*
SAE/PCSA
m3
0.52-0.82
CECE
m3
0.45-0.70
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
35.
1
36.
1
1
2
37.
DIMENSIONS
C
B A
BACKHOE (with two-piece boom)
Hydraulic servo
D
6 650
mm
m
CONTROL SYSTEM 18. Type
20.
C
m
240
15. Type of swing brake
70(35)
28. Arm length
100
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.6,0-8.6,0-35.0
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
G E
F
I H
D
mm
3 130
G
E
mm
Std:2 550 / Wide:2 730
E F
F
mm
3 380
G
mm
350
C D
38.
B A
G
mm
H
kN (kgf)
I
kN (kgf)
9 190 / 9 450 9 010 / 9 280 5 430 / 5 720 5 330 / 5 620 10 010 / 10 200 7 160 / 7 340 3 040 / 3 030 99 (10 100) 88 / 81 (8 990) / (8 240)
kg
17 200-18 600
8'
Remarks *mark shows data to compute operating weight(s).
4- 127
ZX190W-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
122(164)@2 000
3.
ECC net kW(HP) @min-1
122(164)@2 000
4.
SAE net kW(HP) @min-1
122(164)@2 000
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
5.193
7.
liter
290 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350),32.4(330)Swing
12.
Max. liter/min
2 × 189
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-12.2(12.2)
17.
kN·m (kgf·m)
53.3(5 440)
Monoblock Boom 2.26 / 2.71*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
9 220 / 9 580 9 040 / 9 400 5 390 / 5 830 5 180 / 5 640 9 160 / 9 250 6 340 / 6 450 3 510 / 3 480 116 (11 800) 99 / 86 (10 100) / (8 780)
29.
1
30.
1
1
2
G E
F
I H
19. No. of lever/pedal
2 imp.levers
C D
A
mm
2 320
B
mm
2 650
C
kg
A
B
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
18 000-19 800
33. Boom length
m
2-Piece Boom
34. Arm length
m
2.26 / 2.40 / 2.71*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
9 100 / 9 240 / 9 480 8 920 / 9 060 / 9 310 5 500 / 5 640 / 5 930 5 400 / 5 540 / 5 830 9 070 / 9 780 / 9 850 6 760 / 6 870 / 6 950 3 150 / 3 970 / 3 000 116 (11 800) 99 / 92 / 86 (10 100) / (9 390) / (8 780)
35.
1
36.
1
1
2
37.
DIMENSIONS
C
B A
BACKHOE (with two-piece boom)
Hydraulic servo
D
6 800
mm
m
CONTROL SYSTEM 18. Type
20.
C
m
240
15. Type of swing brake
70(35)
28. Arm length
100
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.6,0-8.6,0-35.0
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
G E
F
I H
D
mm
3 130
G
E
mm
Std:2 550 / Wide:2 730
E F
F
mm
3 440
G
mm
350
C D
38.
B A
G
mm
H
kN (kgf)
I
kN (kgf)
8'
kg
18 600-20 400
Remarks *mark shows data to compute operating weight(s).
4- 128
ZX210W-3
EUROPEAN SPEC UNDERCARRIAGE
ENGINE Isuzu AI-4HK1X
1. Make/model ISO net kW(HP) @min-1
122(164)@2 000
3.
ECC net kW(HP) @min-1
122(164)@2 000
4.
SAE net kW(HP) @min-1
122(164)@2 000
23. Tires (Front/Rear) 24. Tire size 25. Outriggers 26.
A
4
5. No.of cylinder 6.
.liter
5.193
7.
liter
355 Direct/Turbocharged
HYDRAULICS 2× MPa (kgf/cm2)
34.3(350),28.9(295)Swing
12.
Max. liter/min
189 + 195
13.
liter
14.
Hydraulic with disc
16.
min-1(rpm)
0-12.2(12.2)
17.
kN·m (kgf·m)
64.9(6 620)
Monoblock Boom 2.03 / 2.42 / 2.91*
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
9 470 / 9 670 / 10 170 9 250 / 9 460 / 9 960 5 410 / 5 800 / 6 290 5 200 / 5 580 / 6 110 10 020 / 9 840 / 10 190 7 110 / 7 000 / 7 350 3 650 / 3 520 / 3 430 151 (15 400) 145 / 133 / 109 (14 800) / (13 600) / (11 100)
29.
1
30.
1
1
2
G E
F
I H
19. No. of lever/pedal
2 imp.levers
C D
A
mm
2 750
B
mm
2 750
C
kg
A
B
G
mm
H
kN (kgf)
I
kN (kgf)
8'
32.
kg
19 800-21 000
33. Boom length
m
2-Piece Boom
34. Arm length
m
2.41* / 2.91
SAE/PCSA
m3
0.51-1.20
CECE
m3
0.45-1.00
A
mm
B
mm
C
mm
D
mm
E
mm
F
mm
9 490 / 9 960 9 270 / 9 750 5 590 / 6 080 5 490 / 5 990 10 240 / 10 560 7 300 / 7 630 3 500 / 3 600 151 (15 400) 123 / 109 (12 540) / (11 100)
35.
1
36.
1
1
2
37.
DIMENSIONS
C
B A
BACKHOE (with two-piece boom)
Hydraulic servo
D
7 200
mm
m
CONTROL SYSTEM 18. Type
20.
C
m
340
15. Type of swing brake
70(35)
28. Arm length
200
liter
B %(deg.)
BACKHOE (with monoblock boom)
31.
11.
0-2.9,0-7.4,0-27.5
27. Boom length
E-P contorol & HIOS II
10. Working pumps
A km/h
B C
9. Hydraulic system
4WD 4/4 10.00-20 16 PR 2 or blade
22. Drive system
2.
8. Injection/Aspiration
Hydraulic
21. Travel mechanism
G E
F
I H
D
mm
3 170
G
E
mm
2 530
E F
F
mm
3 440
G
mm
325
C D
38.
B A
G
mm
H
kN (kgf)
I
kN (kgf)
8'
kg
20 700-21 800
Remarks *mark shows data to compute operating weight(s).
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