Gross Power | 446.0 kW |
---|---|
Max. Torque | 2696.0 N·m |
Displacement | 18.1 l |
The 772 features a full hydraulic brake system, which offers significant improvements in reliability, response, control and serviceability versus an air-over hydraulic system. There are fewer components (part by part comparison), boosting reliability and streamlining maintenance.
The brake system is equipped with a primary accumulator and a secondary accumulator, which also provides back-up braking in the event of a failure. The accumulators automatically drain pressure after shutdown, reducing the service time by removing the need to drain the pressure off the system and reducing the risk of high-pressure exposure during maintenance. The new brake system uses a pump that is driven off the flywheel 100 percent of the time and is only loaded when hydraulic pressure falls below 1,600 psi. The pump will cut out at 1,975 psi. In the new system, oil in this circuit is also sent to the hydraulic fan system. Any additional oil is sent to the brake cooling system along with the oil used in the drive fan.
Because oil is now used to actuate the brakes, Caterpillar has eliminated the need for two brake master cylinders, two relay valves, an air dryer and the retarder valve (found on ARC trucks only) that were associated with the air-over-hydraulic brake system. The air system had complexity, which affected its reliability. The oil actuated system is simpler and more reliable.
Cat dry front and rear oil-cooled, multiple disc brakes are now hydraulically controlled, reducing maintenance costs. The 772 brakes provide exceptional, fade-resistant braking and retarding for maximum performance and productivity in all haul-road conditions.
Extended life friction material has double the wear life of standard brakes and is twice as resistant to glazing for more consistent braking power with less noise.
Cat rear oil-cooled disc brakes are designed with large discs and plates for reliable, adjustment-free operation and performance. Rear brakes are completely enclosed and sealed to prevent contamination and reduce maintenance.
An oil film prevents direct contact between the discs. This design absorbs the braking forces by shearing the oil molecules and carrying heat away to extend brake life.
The Caterpillar two-piece piston design combines the service, secondary, parking brake and retarding functions in the same system. The primary piston hydraulically actuates both service and retarding functions. The secondary piston is spring-applied and held in the disengaged position by hydraulic pressure. If hydraulic system pressure drops below a specified level, the spring-applied secondary piston automatically applies the brakes.
Oil-cooled, spring-applied, hydraulically released parking brake is applied to the rear wheels for superior parking capability on all grades up to 15 percent.
Standard ARC electronically controls braking on grade to maintain engine at approximately 1,900 rpm (adjustable from 1,850-1,950 rpm in increments of 10). ARC is deactivated when the operator applies the brakes or throttle.
ARC allows the operator to maintain optimum engine speeds for up to 15 percent faster downhill hauls and greater productivity.
Automatic brake modulation offers a smoother ride and better control in slippery conditions, allowing the operator to concentrate on driving.
ARC increases operating ease, resulting in greater operator confidence with less fatigue.
Automatically activates ARC when engine speed exceeds factory preset levels, regardless of operator inputs, to avoid potentially damaging engine overspeeds.
Electronically monitors and controls rear wheel slippage for greater traction and enhanced truck performance in poor underfoot conditions. If slippage exceeds a set limit, the oil-cooled disc brakes engage to slow the spinning wheel. Torque is then automatically transferred to the wheel with better traction.
Optional Compression Brake is integrated with Automatic Retarder Control (ARC) to provide up to 35 percent higher downhill travel speed and reduce wear on brake components.
The 772 body capacity at 41.0 yd3 (31.3 m3) has increased 14% over the 771D at 36.0 yd3 (27.5 m3). Payloads are based on 2,800 lbs per LCY (1660 kg per lcm) material. Payloads are based on 2,800 lbs per LCY (1660 kg per lcm) material.
Provides the operator with better control of the load when dumping, including over-center load control and modulated control throughout the operating range. The automatic body snubbing feature reduces impact on the frame, hoist cylinders and operator.
Two-stage hoist cylinders provide fast dump cycle times of 9.5 seconds for raise and 12.5 seconds for lower.
The new dual slope and flat floor body systems will continue to use fully fabricated, mild steel structures, offering a strong, yet weldable underbody structure. All interior, steel body surfaces that come in contact with material are fabricated from 400 BHN steel to provide superior wear characteristics and resistance to impact. Wide box-section ribs provide excellent durability and impact support in the floor, front-wall, sidewall, and top rail areas. Full-length stringer rails enhance strength and rigidity throughout the body. Other new features that further enhance durability of the understructure include:
Sidewall ribs are integrated into the floor ribs, forming a belt to provide increased strength in the sidewalls.
Underbody ribs are increased from seven to nine, enhancing the underbody structural support.
Front wall body rest supports are integrated into the front wall structure for enhanced durability.
Full-length, single-piece stringer rails are used, improving the structural support in the body, especially in the body pivot support area.
Front wall is 400 BHN and the thickness is increased from 10.2 mm (0.4 in) to 16.0 mm (0.63 in), eliminating the need for additional liners for impact resistance in most applications.
With the introduction of the next generation of trucks, Caterpillar will build on the previous strengths and provide differentiation through six different body systems. Both dual slope and flat floor bodies will be available in the following configurations:
Low Impact, Steel Body System
Medium Impact, Steel Body System
High Impact, Steel Body System
Heavy Duty Impact, Steel Body System
High Impact, Rubber Body System
Heavy Duty High Impact, Rubber Body System
For low abrasion limestone quarry applications, Caterpillar offers a one-piece quarry steel body system with a 25 mm (0.98 in) steel floor.
The traditional steel-lined system is well understood by users worldwide. In the new 772 steel body system, the unique design allows the floor and liner to work together to provide the impact and wear resistance. The Medium Impact, Steel Body System offers an optimum combination of wear and impact resistance, while maximizing performance. If the application dictates higher impact or wear needs, the High Impact, Steel Body System or the Heavy Duty, High Impact, Steel Body System provides more impact and wear resistance, but at an increase in body weight versus the Medium Impact, Steel Body System.
A new offering available from the factory is the rubber-lined body system. For impact resistance in hard-rock applications, rubber liners offer a practical, durable and cost-effective solution. They dissipate impact energy, maximizing body life and reduce noise, improving job site work conditions inside and outside the cab. These maintenance-free liners also require minimal installation time. The density of rubber is 20 percent of the density of steel, yet its ability to absorb impact is three times that of steel. This gives rubber a high impact strength-to-weight ratio. In addition, truck operators enjoy a better operator environment, without the hard impacts felt during loading.
Two primary factors affect body selection:
Impact is the energy that is created by the material when it hits the truck body. The condition and size of material, combined with the height at which it is dropped, greatly determines the impact energy that the body must absorb. The most measurable effect of impact is structural bending, chipping, cracking, and spalling. These conditions can be created when the impact absorption capability is exceeded by the impact of the material itself. Generally speaking, a high impact material might be basalt or granite. A medium impact material might be mixture of decomposed rock (75 percent rock, 25 percent dirt), while a low impact material might simply be dry, packed dirt.
The tendency of a material to grind away the surface of a body by means of friction is abrasion. Abrasion occurs when a material's hardness is higher than the wear surface that it slides on. A high abrasion material could be any rock material containing a high proportion of hard, angular minerals such as quartz. Granite tends to be highly abrasive. A moderate abrasion material might contain a high proportion of minerals such as calcite. Limestone is most likely in the moderately abrasive category. A low abrasion material could be any material that contains minerals such as talc.
There are three exhaust routing systems available for the 772, depending on the customer's requirements for body heat and sound:
The standard design provides full-time routing of exhaust into the body to heat areas where material gathers. This plays a crucial role in preventing material from being retained in the body during dumping. Not for use with rubber liner body systems.
The second option is the full-time routing of exhaust through a muffler, which eliminates exhaust in the body. This option should be used for rubber-lined bodies or applications that do not require body heat.
The final option provides a diverter box so that the customer has the flexibility to choose whether to route the exhaust through the body or directly to the outside. Both options go through the muffler. Not for use with rubber liner body systems.
Your Cat dealer can help you manage to target payload to maximize equipment use, ensure safe operation, increase productivity and lower cost-per-ton.
Underloading increases costs due to lost payloads, underutilizes equipment, and increases cost-per-ton.
Overloading causes excessive wear on vehicle components, such as brakes, tires and drive train, reducing component life and increasing maintenance costs and repairs.
Designed to work as an optimum pass/match system, the 772 is best sized to match the 988H Wheel Loader, with a 4 pass/match, the 990H Wheel Loader with 3 pass/match, and the 385C Hydraulic Excavator with a 6 pass/match.
The 772 frame uses a box-section design, incorporating two forgings and 13 castings in high-stress areas with deep penetrating and continuous wrap-around welds to resist damage from twisting loads without adding extra weight.
Mild steel used throughout the frame provides flexibility, durability and resistance to impact loads, even in cold climates and allows for easy field repairs.
Castings have large radii with internal reinforcing ribs to dissipate stress in areas of high stress concentration. Castings move welds to lower stress areas for greater frame life.
Resiliently mounted to the main frame with all-new cab mounts that reduce vibration and sound, the integral ROPS is designed as an extension of the truck frame. The ROPS/FOPS structure provides “five-sided protection” for the operator.
The 772 features a drop tube/casting design and two forged steel mountings for hoist cylinders, similar to the design as found on the 775.
A volcano casting that holds the center tube is enhanced with thicker wall dimensions for increased durability.
New strut-mount castings have been moved 10 in (254 mm) forward and 1 in (25.4 mm) outward on each side. These thicker strut-mount castings and their location improve ride characteristics as well as durability.
New steering casting (same as 775) accommodates larger steering cylinders and ball studs.
New tail casting accommodates new angled rail design.
Structural frame welds are J-groove type, ensuring full weld penetration for strength and longevity. During fabrication, weld integrity is further enhanced by rotating the frames 360 degrees to provide optimal, flat welding surfaces.
Caterpillar structures are tested using System Structural Analysis (SSA) to dynamically simulate operations in field environments and identify potential structural improvements in high stress areas. With analysis of machine structures and variables, such as haul road and payload, structural improvements were made to the frame to accommodate the new cab, platform, engine and radiator.
A Coordinate Measuring Machine (CMM) is used to inspect truck frames for consistency in the manufacturing process. In addition all critical welds receive testing to verify weld penetration which results in frame durability.
All maintenance points have convenient ground level or platform access. Common engine service points are grouped on the right side of the engine for quick access. Two fuel filters come standard with the machine and the primary fuel filter includes a water separator. These filters are easy to change and are all spin-on/spin-off type. Engine oil check and fill are accessed via the service platform. The newly designed engine oil dipstick is “rope-type” style, making daily checks easier for the operator.
Machine switches and an auxiliary start receptacle offer easier access and expanded capabilities. The battery disconnect switch, and auxiliary start receptacles are now combined into the same modular assembly and relocated for ground access. Also, a new service panel on the LH front of the machine provides:
Power is available to the machine, but it cannot be started.
The 772 features an all-new transmission, hoist and steering lockout mode. This feature disables the steering, hoist and transmission hydraulics, and sets the parking brake while the engine is running, allowing maintenance and trouble-shooting on the truck. The operator can use this feature to take S•O•SSM analysis samples.
Ground-level access to circuit breakers are now provided for engine control, alternator and main electrical breakers.
S•O•SSM sampling valves speed sampling and analysis reliability.
Disconnect valves are conveniently located throughout the hydraulic systems for easy pressure testing.
Radial seal air filters are easy to change, reducing time required for air filter maintenance.
Electrical connectors are sealed to lock out dust and moisture. Harnesses are braided for protection. Wires are color-coded for easy diagnosis and repair.
The C18 engine is equipped with two fuel filters. The primary filter features 10-micron screening, and the secondary filter is 2-micron.
The 772 has one engine oil filter on the right-hand side of the engine. This filter is located for easy serviceability. The oil filter is a 5-micron filter and features a 500-hour oil change interval.
The 772 features a new configuration for fuses, circuit breakers and rear cab-mounted relays, enabling up to 50 percent faster servicing. A 12-Volt and 24-Volt power port are included. The automotive-style fuses, which replace the screw-in type, are all incorporated into a single enclosure that is easily accessible from inside the cab. 10-amp and 15-amp spare fuses are also included in the new design.
A Cat Data Link port located near the fuse panel in the cab can access all electronic controls for obtaining monitoring and diagnostic data. Excellent access to the ECM and electrical panels improves the ability to perform maintenance and trouble-shoot the cab electronics.
Cat ET service tool provides service technicians with easy access to stored diagnostic data through the Cat Data Link to simplify problem diagnosis and increase machine availability. Cat ET is beneficial because of how it displays the status of all engine parameters, including throttle position, timing and fuel flow. Critical data from the electronic engine and transmission controls, including transmission shifting, engine speed and fuel consumption, provides service technicians with enhanced diagnostic capability to reduce downtime and operating costs.
This advanced lubrication system is available as a factory installed option. This system provides optimal lubrication at preset intervals during machine operation significantly extends component life.
Clustered grease fittings save time as all lubrication points are mounted in three main locations.
New “rope-type” oil dipstick improves serviceability by allowing easy daily checks.
Oil change labor time is reduced by as much as 50 percent with this standard on-board engine oil evacuation and pre-lube system. This system automatically fills engine oil filters and galleries, which ensures components are lubricated prior to starting the engine.
The extended life brake discs are made with a friction material that provides longer service life and increased heat resistance when compared to Caterpillar's standard brake offerings. Discs use an innovative carbon paper for braking and can be expected to double the life of standard paper friction material in most conditions. This is a significant step forward, especially in long, downhill-loaded hauling applications. The material is also twice as resistant to glazing, which is common during periods of high-temperature braking in moderate to severe operating conditions. Resistance to glazing leads to more consistent braking power.
Caterpillar has been and continues to be proactive in developing machines that meet or exceed safety standards. Safety is an integral part of all machine and systems designs.
Resiliently mounted to the frame to reduce vibration and sound, the integral ROPS structure, which provides “five-sided protection” for the operator, is designed as an extension of the truck frame.
Safety is integral to maintaining the highest productivity in mining machine operation. The Caterpillar 10/10/20 Payload Guidelines ensures that steering and braking systems have sufficient capacity to perform.
An optional rear vision camera system provides visibility to the rear of the machine through an LCD monitor in the cab. The monitor an be set to activate only when the truck is in reverse, and the display is equipped with a sensor to detect ambient light, which automatically brightens or dims the display.
Cat hydraulically controlled dry front and rear oil-cooled multiple disc brakes provide exceptional, fade-resistant braking and retarding for maximum performance and productivity in all haul-road conditions. The service brakes and retarding system are actuated by modulated hydraulic pressure, while secondary and parking brake functions are spring applied and hydraulic released. This reliable and durable system ensures braking in the event of complete hydraulic failure.
A twin, double-acting cylinder steering system is designed to deliver precise control under all loading and underfoot conditions. The steering hydraulic system is separate from the main hydraulic system to prevent crosscontamination and overheating.
A secondary engine shutoff switch is located at ground level.
A battery disconnect switch, located directly above the front bumper, provides ground-level lockout of the electrical system.
Wide stationary stairways and platforms on both sides of the machine, allow easy ingress and egress.
Slip resistant surfaces
75 mm (3 in) wide three-point operator restraint
Heated, wide-angle mirrors
Body raised indicator
Guard rails
Reverse neutralizer when dumping
Low interior sound level
Service platform level transmission, hoist and steering disable switch
Service platform level starter disable switch
The Cat mechanical drive power train and power shift transmission provides unmatched operating efficiency and control on steep grades, in poor underfoot conditions, and on haul roads with high rolling resistance.
Pairing the Caterpillar seven-speed planetary power shift transmission with the C18 diesel engine with ACERT Technology delivers constant power over a wide range of operating speeds.
Transmission shifting is based on Transmission Output Speed for optimum performance efficiency and clutch life. The TCC provides integrated functionality to controlled throttle shifting, directional shift management, neutral coast inhibitor, body-up shift limiter and body-up reverse neutralizer.
The operator can now electronically lock the throttle pedal at full throttle, to reduce fatigue on long uphill hauls. The throttle can be locked on by momentarily depressing the throttle lock switch located on the operator console, while depressing the pedal fully. The throttle is released whenever braking is applied or the throttle is again depressed.
Combines maximum rimpull and cushioned shifting of torque converter drive with the efficiency and performance of direct drive. The torque converter includes: an additional clutch plate to maintain power train capability for higher horsepower and top speed, a new torque converter adapter that provides extra length to house the additional clutch plate and enables the converter components to be changed without having to change the housing, and a new sump oil level switch that serves as an emergency warning if oil is lost. The lock-up torque converter engages at approximately 8 km/h (5 mph), delivering more power to the wheels.
Quickly releases and re-engages to reduce power train torque loads for smoother shifting, long life and a more comfortable ride.
The new Cat differential works with the proven final drives as a system to deliver maximum power to the ground. For improved serviceability, the pinion gear is cantilever mounted, which allows inspection of the differential without pulling the rear-end. Visual inspection of the pinion gear and bearings can be performed in 1-2 hours versus 8 hours on the previous models. In addition, the differential bevel pinion gear set is designed for improved adjustability, which results in improved contact patterns and life. The differential gear set also provides enhanced bending life for steeper grade applications.
A new, ductile iron center housing improves quality and reliability. The improved stiffness allows for better main support bearing life. The new housing also uses bolts, reducing maintenance time. This change also improves wheel station bolted-joint life.
The new A-frame mounts directly to the spindles. The new A-frame eliminates the “king” bolt and includes a pin and bushing style mounting, consistent with the 777 and 793. This new design is simpler to maintain and service.
A stress-optimized, ductile iron spindle is splined to the rear brakes, reducing brake pack rebuild time by up to two hours. In addition, the spindles are longer and wider with fewer seals for increased strength and durability.
A single-piece brake anchor eliminates more than 200 fasteners and a row of bolted joints. Rebuild time is reduced by up to two hours. In addition, the brake pack is removable without taking the spindle off the truck. The 772 features 30 brake discs. The brake discs have increased in diameter from 19 to 21 in (482.6 to 533.4 mm). By increasing the diameter, Caterpillar has improved the overall reliability and durability of the brake packs and has also designed the brake packs to improve the OD/ID ratio. The new 772 brake pack design, moves the braking forces to the outer edge of the disc, thereby using greater surface area for improved braking forces and longer life, improving reliability and lowering maintenance cost.
The wheel stations now integrate both the wheel and the hub. The single-piece design reduces removal and installation time, and the risk of brake cooling oil leakage. The inner Duo-cone™ seal has been changed from a formed type to a cast design. Brake cooling flow and the Duo-cone seal has also been reversed for better sealing performance and improved seal life. Wheel stations are now interchangeable, reducing the number of replacement parts: left and right wheel stations are symmetric and can be interchanged. In addition, the new design eliminates one o-ring seal, which improves reliability and simplifies the system and the wheel bearings have been enhanced for longer bearing life.
The 772 uses larger 21.00R33 tires. The larger tires increase the load carrying capacity of the machine, which is needed for the increased target payload of 50 tons (45 tonnes). The new 772 lowers the cost-per-ton by optimizing the tire size to GVW ratio.
Hydraulic steering control system is designed for exceptional smoothness and precise control. A separate circuit prevents cross contamination for long life.
A battery powered supplemental steering system uses pressure accumulators and allows up to three 90 degree turns in case of engine failure.
Cast rear wheels and Cat center-mount rims are mounted using studs and nuts to minimize maintenance and maximize durability.
Caterpillar optimizes engine performance while meeting U.S. EPA Tier 3 and European Union Stage IIIA engine emission regulations. ACERT™ Technology reduces emissions during the combustion process by using advanced technology in the air and fuel systems, in conjunction with integrated electronics. Caterpillar meets emission regulations at the combustion source, rather than recycling exhaust gases.
The C18 block incorporates a one-piece, grey iron block, featuring generous ribbing for stiffness and heavy bearing bulkheads for rigidity and strength. Caterpillar also has moved away from pipe thread ports to straight-thread, o-ring connection points, reducing the potential for leaks. This new design supports the engine's higher compression ratios and increased power density.
The new cross flow air design routes air straight across the head removing bends and turns that create resistance to flow. By removing the resistance to flow, parasitic loads are reduced as pumping needs are lessened. The cylinder head is a one piece, cast iron component with a newly designed graphite and steel composite head gasket that seals the combustion chamber with better rigidity and wear capability.
A single overhead cam is driven by gears on the front of the engine, which significantly reduce noise and vibration. Caterpillar also has added two pendulum absorbers, mounted at the front of the camshafts to further reduce noise and vibration.
New design and material improvements to the pistons, rods and liners have been made to support the higher cylinder pressures and the 16.3:1 compression ratios associated with ACERT Technology, while still providing durability to engine overhaul. A single-piece steel piston, pulsator-tested to 4,000 psi, is matched to a robust connecting rod to ensure long component life. The piston's steel skirt increases its durability and results in reduced thermal expansion, allowing a tighter piston fit and reduced liner vibration. The overall piston surface area reduces friction and enhances fuel economy. The newly designed connecting rod allows better lubrication and cooling and is more securely fastened to the crankshaft using two additional bolts. The new improved rod bearings are made of steel-backed copper alloy with lead tin overlay. This new metallurgy reduces flaking and offers better fatigue strength. Cylinder liners are wet liners made of compacted graphite and iron for excellent wear and strength characteristics. Also, the tolerances between the pistons and the wet cylinder liners have been tightened to unprecedented levels for reduced blow-by and higher efficiency.
The single, waste-gated turbocharger found on the C18 engine is water-cooled to accommodate sudden hot machine shutdowns. Water cools the bearings during this event, preventing bearing seizure. The C18 engine also includes a new turbine housing and an additional spacer bearing. The addition of a spacer bearing eliminates snap rings and, therefore, reduces complexity and improves shaft motion. The turbocharger for the 772 features a titanium compression wheel. The titanium compression wheel is used to withstand the higher compression wheel speeds that are required, especially in high altitude applications. The titanium wheel can withstand these high-spin conditions with much better wear characteristics. Changes enable the C18 to deliver longer life and lower maintenance costs, and contribute to good fuel economy. The design also provides high horsepower with improved response time while keeping exhaust temperatures low for long hours of continuous operation. The waste-gate turbocharger design improves engine response and peak torque, while providing higher boost over a wider range.
The Cat MEUI fuel system combines the technical advancement of electronic control with the simplicity of direct mechanically controlled unit fuel injection. This system electronically controls injection pressure by sensing the engine speed and load conditions over the entire engine operating speed range. A low-pressure fuel transfer pump provides fuel to the injectors, which then increases the pressure to deliver very fine, atomized fuel particles into the combustion chamber with precise timing and duration. The result is a more complete fuel burn with lower emissions and better engine response.
The 772 is equipped with three oil coolers: an engine-mounted engine oil cooler, an engine-mounted transmission/torque converter oil cooler, and a remote-mounted, brake, hoist and hydraulic fan oil cooler. These coolers allow major components to expel heat, maintaining optimal operating temperatures.
The C18 engine is equipped with two fuel filters. The primary filter is machine-mounted and features oil/water separation and an electric priming pump. The electric pump provides easier priming and better contamination control than a manual unit. The secondary fuel filter is also machine mounted, and has a switch that monitors pressure changes and provides pressure drop warnings to the operator.
The ADEM™ A4 electronic control module provides flexible fuel mapping, allowing the engine to respond quickly to varying application needs.
The new modular cooling system with a single-pass flow core design uses brazed construction for stronger joints, better leak prevention and higher heat transfer. The simpler design of the single-pass system, which replaces the two-pass flow folded core system enables coolant to enter one end of the core and flow out the opposite end for more efficient ambient cooling capability and greater durability.
The 772 includes a standard, variable-speed, on-demand fan. This fan provides cooling airflow only when necessary, resulting in reduced parasitic losses, a reduction of fuel consumption and fan-generated noise. The C18 engine includes a Poly-V accessory drive belt with an auto-tensioner, which is self adjusting.
Center cab positioning provides additional room and creates a walk-in-style cab. The new configuration allows the operator to easily enter and exit the cab. The cab environment offers a spacious surrounding, giving the operator the ability to stretch out and providing superior comfort for an entire operating shift. The operator seat is located on the right hand side of the cab with the trainer to the immediate left.
The 772 operator's station is ergonomically designed for total machine control in a comfortable, productive and safe environment. All controls, levers, switches and gauges are positioned to maximize productivity and minimize operator fatigue.
Integral, sound-suppressed cab is resiliently mounted to the frame to isolate the operator from sound and vibration for a quiet, secure and comfortable ride.
Designed for excellent all-around visibility and clear sight lines to the haul road. The large viewing area, with 52 percent more glass, enables the operator to maneuver with confidence for greater productivity.
Ergonomically designed, fully adjustable air suspension seat with adjustable armrests provides optimal driving comfort. A wide, retractable 3-point seat/shoulder belt provides a secure, comfortable restraint.
Four-position, low effort electronic hoist control system is positioned next to the gear selector in the right-hand console.
Conveniently located on the floor for easy operator control.
Comfortable steering wheel with tilt and telescoping function provides a comfortable driving position for all operators.
Ergonomic gear shift lever with backlit gear indicators provides easy operation. The parking brake function is integrated into the gear selector.
By moving the trainer seat to the left of the operator, the trainer may enter/exit the vehicle using the same stairway door as the operator. When not in use, the fold-down trainer seat creates a working surface with cup holder. Under seat storage is convenient for stowing a lunch box.
Easy to reach turn signal, high beam, intermittent windshield wiper and windshield washer controls are located on the left side of the steering column, and are designed for optimum efficiency and comfort.
Cab is prewired with power converter, speakers, wiring harness, antenna and necessities for add-on communication systems.
Power ports are conveniently located in three locations in the cab: one in the right-hand console, two behind the trainer seat, and one in the dash.
TPMS provides valuable payload and cycle time data, which is viewed through Messenger. Now the system provides 2,400 cycles, as opposed to the previous 1,400 cycles, and takes a second payload measurement when the truck reaches second gear for increased accuracy. Standard LED lamps replace incandescent lamps on the TPMS, extending lamp life by 25 times.
Standard Messenger Display replaces Caterpillar Electronic Monitoring System (CEMS) unit.
Enhanced TPMS (optional attachment) incorporates second gear weighing capability and increases to 2,400 cycles of data storage for analysis.
Standard on the 772, Cat Messenger provides real-time machine performance and operating data, and basic trip, maintenance and diagnostic data using an LCD display. The viewable LCD screen area of the Messenger display is 22.5 mm X 84.6 mm (0.89 in X 3.33 in).
This allows a technician to change machine settings that are typically changed via Cat ET through the display. Service Mode can be a password-protected feature to inhibit the operator from changing these settings. Settings that can be changed via Service Mode are:
Top Gear Limit
Body Up Gear Limit
Machine Overloaded Speed Limit (if TPMS is installed)
Machine Speed Limit
Economy Shift Mode
Desired Engine Retard Speed
Target Payload (if TPMS is installed)
Payload Overload Limit (if TPMS is installed)
This will show a real-time display of various machine parameters related to the engine, transmission, hoist, brake and TPMS (if installed) systems.
The technician can perform a transmission stall test and a monitoring system self test.
Records and displays worst-case values for brake, hoist and hydraulic fan oil temperature, engine coolant temperature, tachometer, transmission/torque converter temperature, and fuel level since the last reset.
Displays electronic system information such as the ECM part number, the software part number and the software release date.
Available in 47 languages. Please consult with your salesman as to specific language availability.
(if TPMS is installed)
TPMS provides valuable payload and cycle time data to improve productivity.
Uses strut pressure sensors and on-board microprocessor to determine payload weight.
Delivers consistent, accurate payloads and improves efficiency by minimizing overloading and underloading.
External lights signal loading tool operator when payload is reached.
On-board computer stores up to 2,400 cycles for analysis of payload weight, cycle times, distances and actual cycle dates and times.
A second gear reweigh takes an additional measurement once the truck has reached second gear for improved accuracy.
System is accurate within ± 5 percent under normal loading conditions over a normal shift.
Standard LED lamps replace incandescent lamps on the TPMS, extending lamp life by 25 times.
Using satellite technology, this optional wireless system automatically reports information, including vital machine health data, to Cat dealers and customers via e-mail or pager. It can streamline diagnostic efforts, downtime, and maintenance scheduling and costs. The standard configuration of the 772 is Product Link (Level 1) ready. Product Link PL321SR (Level 3) is offered as a standard factory-installed attachment.
Product Link data can be delivered to a customer's desktop via this on-line, user-friendly subscription service. Information is organized and color-coded according to priority. There are four levels of Equipment Manager service available:
Provides alerts, location and fuel levels and machine start and stop times.
Provides all Asset Watch data, plus repair and maintenance information, such as PM maintenance due or past due, and PM maintenance history.
Provides all Maintenance Watch data, and adds machine fault information, performance trending and S•O•S oil analysis reporting with interpretation tools.
Offers comprehensive customized usage and monitoring reports.
Electronically integrates machine computer systems to optimize overall power train performance, increase reliability and component life, and reduce operating costs. All the information from these controls can be accessed through a laptop computer with Cat ET.
TCC uses electronically transferred engine rpm data to execute shifts at preset points for optimum performance, efficiency and clutch life.
Cat ET service tool provides service technicians with easy access to stored diagnostic data through the Cat Data Link to simplify problem diagnosis and increase machine availability. Cat ET is beneficial because of how it displays the status of all engine parameters, including throttle position, timing and fuel flow. Critical data from the electronic engine and transmission controls, including transmission shifting, engine speed and fuel consumption, provides service technicians with enhanced diagnostic capability to reduce downtime and operating costs.
Regulates engine rpm during shifting to reduce power train stress and clutch wear by controlling engine speed, torque converter lock-up and transmission clutch engagement for smoother shifts and longer component life.
Regulates engine speed during directional shifts to prevent damage caused by high-speed directional changes.
Prevents the transmission from shifting to neutral at speeds above 6.5 km/h (4 mph), protecting the transmission from operating with insufficient lubrication.
Prevents the transmission from shifting above a pre-programmed gear without the body being fully lowered. This function is programmable via Cat Electronic Technician (Cat ET) and Messenger.
Automatically shifts the transmission to neutral if the hoist lever is activated while the transmission is shifted in reverse.
The transmission control electronically senses engine conditions and automatically up-shifts one gear to prevent overspeeding. If overspeeding occurs in the top gear, the lock-up clutch is disengaged, and the brakes are applied.
Transmission top gear maximum can be set using Cat Messenger or the Cat ET service tool to help the operator maintain speed limits.
This function minimizes shifting by not allowing the transmission to up or down shift immediately after a shift has occurred. This prevents gear hunting when operating near a shift point and minimizes transmission shifting for increased component life.
Prevents engine overspeeding by keeping the transmission from downshifting until engine speed reaches the downshift point.
Modifies engine maps for better fuel economy.
Protects the engine from abrupt directional changes by slowing down the engine before shifting the transmission into reverse.
Critical data from the engine and transmission, including transmission shifting, engine speed and fuel consumption, provides service technicians with enhanced diagnostic capability, through Cat Messenger, to reduce downtime and operating costs.
TCS electronically monitors and controls rear wheel slippage for greater traction and enhanced truck performance in poor underfoot conditions.
The system reduces parasitic losses in the power management system components. The system is operated by two new variable displacement piston pumps. These pumps primarily provide for the steering and are independent of the brake and hoist circuit.
Cat® dealers offer a wide range of solutions, services and products that help you lower costs, enhance productivity and manage your operation more efficiently. Support goes far beyond parts and service. From the time you select a piece of Cat equipment until the day you rebuild, trade or sell it, the support you get from your Cat dealer makes the difference that counts.
Cat dealers provide the level of support you need, on a global scale. Dealer expert technicians have the knowledge, experience, training and tooling necessary to handle your repair and maintenance needs, when and where you need them.
Cat dealers believe superior products deserve superior support. When Cat products reach the field, they are supported by a worldwide network of parts distribution facilities, dealer service centers, and technical training facilities to keep your equipment up and running. Cat customers rely on prompt, dependable parts availability and expertise through our global dealer network, ready to meet your needs 24/7.
Every piece of Cat equipment is designed and built to provide maximum productivity and operating economy throughout its working life. Cat dealers offer a wide range of service plans that will maximize uptime and return on your investment, including:
Preventive Maintenance Programs
Diagnostic Programs, such as Scheduled Oil Sampling and Technical Analysis
Rebuild and Reman Options
Customer Support Agreements
Operating and maintenance costs are influenced by many application and site-specific factors, such as material density, loading position, payload, grades, speeds, haul road design and maintenance. To optimize total cost of ownership and productivity, your Cat dealer can provide you with a fundamental understanding of the effects application characteristics and operating techniques have on maintenance and operating costs.
With today's complex products, equipment operators must have a thorough understanding of machine systems and operating techniques to maximize efficiency and profitability. Your Cat dealer can arrange training programs to help operator's improve productivity, decrease downtime, reduce operating costs, enhance safety, and improve return on the investment you make in Cat products.
For more complete information on Cat products, dealer services, and industry solutions, visit us on the web at www.cat.com.
Engineered for performance, designed for comfort, built to last.
Units:
Engine Model | Cat® C18 ACERT™ | Cat® C18 ACERT™ |
Rated Engine Speed | 1800.0 r/min | 1800.0 r/min |
Gross Power - SAE J1995 | 598.0 HP | 446.0 kW |
Net Power - SAE J1349 | 535.0 HP | 399.0 kW |
Net Power - 80/1269/EEC | 535.0 HP | 399.0 kW |
Net Power - ISO 9249 | 535.0 HP | 399.0 kW |
Number of Cylinders | 6 | 6 |
Bore | 5.7 in | 145.0 mm |
Stroke | 7.2 in | 183.0 mm |
Displacement | 1105.0 in³ | 18.1 l |
Net Power - ISO 9249:1997 | 535.0 HP | 399.0 kW |
Peak Torque | 1988.0 lb/ft | 2696.0 N·m |
Target Gross Machine Operating Weight | 181000.0 lb | 82100.0 kg |
Chassis Weight | 55171.0 lb | 25025.0 kg |
Body Weight | 22984.0 lb | 10425.0 kg |
Nominal Payload Class (100%) | 51.0 t | 46.0 t |
Top Speed - Loaded | 49.5 mile/h | 79.7 km/h |
Maximum Capacity | 50.0 t | 45.0 t |
Body Capacity - SAE 2:1 | 41.0 yd³ | 31.3 m³ |
Maximum Working Payload (110%) | 56.0 t | 51.0 t |
Not to Exceed Payload (120%)* | 61.0 t | 55.0 t |
Target Payload Capacity | 50.0 t | 45.0 t |
Forward - 1 | 8.0 mile/h | 12.9 km/h |
Forward - 2 | 11.0 mile/h | 17.7 km/h |
Forward - 3 | 14.9 mile/h | 24.0 km/h |
Forward - 4 | 20.0 mile/h | 32.2 km/h |
Forward - 5 | 27.1 mile/h | 43.6 km/h |
Forward - 6 | 36.5 mile/h | 58.7 km/h |
Forward - 7 | 49.5 mile/h | 79.7 km/h |
Reverse | 10.5 mile/h | 16.9 km/h |
Differential Ratio | 2.74:1 | 2.74:1 |
Planetary Ratio | 4.80:1 | 4.80:1 |
Total Reduction Ratio | 13.15:1 | 13.15:1 |
Brake Surface - Front | 216.0 in² | 1395.0 cm² |
Brake Surface - Rear | 7794.0 in² | 50284.0 cm² |
Brake Standards | ISO 3450: 1996 | ISO 3450: 1996 |
Pump Flow - High Idle | 136.0 gal/min | 515.0 l/min |
Relief Valve Setting - Raise | 2500.0 psi | 17255.0 kPa |
Relief Valve Setting - Lower | 500.0 psi | 3450.0 kPa |
Body Raise Time - High Idle | 9.5 s | 9.5 s |
Body Lower Time - Float | 12.5 s | 12.5 s |
Body Power Down - High Idle | 12.5 s | 12.5 s |
Struck | 31.7 yd³ | 24.2 m³ |
Heaped 2:1 (SAE) | 40.8 yd³ | 31.2 m³ |
Struck | 30.5 yd³ | 23.3 m³ |
Heaped 2:1 (SAE) | 41.0 yd³ | 31.3 m³ |
Front Axle - Empty | 48.0 % | 48.0 % |
Front Axle - Loaded | 34.0 % | 34.0 % |
Rear Axle - Empty | 52.0 % | 52.0 % |
Rear Axle - Loaded | 66.0 % | 66.0 % |
Effective Cylinder Stroke - Front | 9.2 in | 234.0 mm |
Effective Cylinder Stroke - Rear | 5.9 in | 149.0 mm |
Rear axle - Oscillation | 5.4 ° | 5.4 ° |
Fuel Tank | 140.0 gal (US) | 530.0 l |
Cooling System | 30.0 gal (US) | 114.0 l |
Differential - Final Drives | 22.0 gal (US) | 83.0 l |
Steering Tank | 9.0 gal (US) | 34.0 l |
Steering System - Including Tank | 15.0 gal (US) | 56.0 l |
Brake / Hoist / Fan Hydraulic Tank | 35.0 gal (US) | 155.0 l |
Brake/Hoist/Fan System (Tank) | 73.0 gal (US) | 277.0 l |
Crankcase | 16.0 gal (US) | 60.0 l |
Transmission - Torque Converter Sump | 14.0 gal (US) | 53.0 l |
Transmission - Torque Converter System - Including Sump | 19.0 gal (US) | 72.0 l |
Standard Tire | 21.00R33 (E4) | 21.00R33 (E4) |
ROPS/FOPS Standards | . | . |
Sound Standards | . | . |
Steering Standards | ISO 5010:1992 | ISO 5010:1992 |
Steer Angle | 36.0 ° | 36.0 ° |
Height - Top of ROPS | 13.43 ft | 4093.0 mm |
Overall Body Length | 26.81 ft | 8172.0 mm |
Inside Body Length | 18.21 ft | 5549.0 mm |
Overall Length | 28.67 ft | 8740.0 mm |
Wheel Base | 12.99 ft | 3960.0 mm |
Rear Axle - Tail | 8.5 ft | 2590.0 mm |
Ground Clearance | 2.36 ft | 720.0 mm |
Dump Clearance | 1.62 ft | 495.0 mm |
Loading Height - Empty | 11.48 ft | 3500.0 mm |
Inside Body Depth - Maximum | 5.6 ft | 1706.0 mm |
Overall Height - Body Raised | 27.42 ft | 8357.0 mm |
Operating Width | 15.59 ft | 4751.0 mm |
Centerline Front Tire Width | 10.38 ft | 3165.0 mm |
Engine Guard Clearance | 2.34 ft | 714.0 mm |
Outside Body Width | 12.97 ft | 3952.0 mm |
Inside Body Width | 12.13 ft | 3698.0 mm |
Front Canopy Height | 13.83 ft | 4216.0 mm |
Rear Axle - Clearance | 1.84 ft | 560.0 mm |
Centerline of Rear Dual Tire Width | 8.7 ft | 2652.0 mm |
Overall Tire Width | 12.88 ft | 3927.0 mm |
CATERPILLAR
Name : Cat
Service Tel : (309)578-6298
E-mail :
Web Site : https://www.caterpillar.com/en.html
Address :
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