Description
Parameters
Boom sections 4
Boom shape U-shape
Max. lifting moment: basic boom 397kN·m
Max. lifting moment: full-extension boom 306kN·m
Max. lifting moment: full-extension boom + fixed jib /kN·m
Boom length: basic boom 8.7m
Boom length: full-extension boom 28.1m
Boom length: full-extension boom + fixed jib /m
Max. lifting height: basic boom 9.1m
Max. lifting height: full-extension boom 28.5m
Max. lifting height: longset boom + fixed jib combination 14/163m
Outrigger span (longitudinal × transverse) 4.65×5.4m
Max. travel speed 90 km/h
Wheel formula 4×2×2
Fuel consumption per 100km 20L
Engine model /
Max. engine power /kW/rpm
Max. engine torque /N·m/rpm
Motor model /
Rated/Peak Power /kW/rpm
Rated/Peak Torque /N·m/rpm
Max. lifting capacity 12t
Engine model YCS04200-30
Max. engine power 147/2300kW/rpm
Max. engine torque 720/(1300-1600)N·m/rpm
Features
- The three-axle cranes are capable of accessing various urban or small jobsites, featuring high flexibility and fast transferring.
- The electro-hydraulic control system realizes effective flow distribution, featuring quick response to combined motions and small impact shock, energy saving, and environmentally friendly. Precise control: Excellent inching performance, min. The stable speed of a single rope is 1.2m/min and min. The sound speed of slewing is 0.1°/s, realizing precise lifting of mm level. Integrated slewing buffer control: boost buffer, sequential brake, and free swing technology—smooth start and stop.
- Innovative structural frame verified by 200,000 cycling fatigue tests to ensure high reliability.
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CAN BUS system:Controllers, displays, meters, I/O modules, sensors, etc., are integrated into CAN Bus networking and fast-responsive.
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Fault diagnosis system:Operating device with intelligent controller, body with BCM module, accurately locating the fault point, making the maintenance convenient.
- The SANY load moment indicator system protects against overloading, over-release, and over-winding.
- Valves and other hydraulic components realize better inching motion performance. Load-sensing and constant-power techniques optimize fuel efficiency.
