Rack and Pinion Construction Elevator Lift - MP-B17, B18 L
The structure of this construction elevator is optimized and made of Q345 steel. Its cabin wall is made of galvanised cool roll steel plates.
The hoist is solid and strong, it runs smoothly and stable with full load of 3.2 tons.
The Rack and Pinion Elevator Heavy Duty of 3 doors cabin for the builders to transport extremly heavy and big size materials, with the side door for forklifts to load/dischage materials.
The cage roof is totally weld at the edge, no worry about water leakage in raining season.
Parts of the hoist are made by CNC machine, welded by robots. Steel spare parts are fine diecast.
modularized design and accurated process, therefore, it is easy to assemble and install.
Low energy consumption and low cost of ownership.
Technical Data - Rack and Pinion MP-B17, B18 L
|Max. Lifting Height||450 m|
|Cage Width (internal)||1.6 m|
|Cage Length (internal)||4.0 m|
|Cage Height (internal)||2.9 m|
|Cage Doors||Entrance Door + Exit Door + Side Door|
|Motor Control||FC Control|
|Engine Power per Cage||3x15 kw|
|Gearbox||KANGBO Helical Reducer|
|Safety Device Type||Centrifugal Brake|
|Power Supply Range||380–500 V, 50 or 60 Hz, 3 phase|
|Type of Mast||Square Column 650*650 mm with Bolted Rack|
|Length Mast Section||1.508 m|
Construction Hoist Floor Selection System Features - KANGBO Multi-function Electric Control System
1, Automatic operation by button input or manual operation by control lever in the car.
2, Manual operation on cage roof.
3, The hoist will slow down automatically at ground floor in the case of manual operating.
4, Provides automatic functions such as equipment status display, error detect, repairing and commissioning.
5, Automatic landing at the selected floor.
6, Industrial PLC centralized control system.
7, Centralized handheld remote control system of automatic storey selection and operation is available according to request.
With this system, the hoist can achieve continuous operation, automatic landing, no need manual control, easy operation, to reduce labor intensity.