The working principle of trackless electric flat cars mainly involves the drive system, steering system, travel mechanism and control system.
Drive system: The trackless electric flat car is equipped with one or more motors, usually DC motors. These motors are powered by a power supply to generate a rotational torque, convert electrical energy into mechanical energy, drive the vehicle's drive wheels to rotate, and thus realize the movement of the vehicle. The drive wheels usually use rubber tires or universal tires, installed at the bottom of the vehicle, and contact the ground.
Steering system: The trackless electric flat car turns by the differential speed of the two motors. When controlled by the steering button on the wireless remote control, press the turn left button, and the trackless flat car turns left; press the turn right button to turn right. This design allows the trackless electric flat car to remain particularly flexible during the turning process, with little restriction on the layout of the surrounding operating area, and can make corresponding adjustments for uneven ground.
Travel mechanism: In addition to the drive wheel, the trackless electric flat car is also equipped with a universal wheel to alleviate the vibration caused by uneven ground and improve the comfort of vehicle driving. These parts jointly bear the weight of the vehicle and the task of shock absorption and pressure relief during driving.
Control system: Trackless electric flat cars are equipped with control systems, usually including controllers, sensors and encoders. The controller receives instructions from the operating panel or wireless remote control to control the start, stop, speed adjustment, etc. of the motor. This system ensures the safe and stable operation of the vehicle under various working conditions.
Power supply system: Trackless electric flat cars are usually powered by batteries or cables. The battery is charged by a charger and then supplies electricity to the motor. Cable-powered trackless electric flat cars are powered by connecting cables to external power sources.
Navigation system: In order to ensure that the trackless electric flat car can travel along the predetermined path, guide rails are usually laid on the ground or positioning and navigation are performed through technologies such as laser navigation.
Applications
Trackless electric flat cars have a wide range of applications, covering almost all areas of modern industry and logistics handling.
Due to their flexibility, high efficiency and strong adaptability, trackless electric flat cars play an important role in multiple scenarios and have become an indispensable and important equipment in modern industry and logistics transportation. The following are its main applications:
Material handling within factory workshops: Within factory workshops, trackless electric flat cars can flexibly transport raw materials, semi-finished products and finished products between various processes, and are particularly suitable for variable production line layouts to ensure the smooth progress of the production process.
Large warehouses and logistics centers: In large warehouses and logistics centers, trackless electric flat cars can efficiently handle the handling, loading and unloading and stacking of bulk materials. Its trackless design allows the flat car to move freely in any direction within the warehouse, easily cope with complex storage environments, and improve storage and logistics efficiency.
In summary, trackless electric flat cars achieve free travel in factory environments without tracks through the synergy of their drive system, steering system, walking mechanism and control system. They are widely used in automobile production, shipbuilding, mold stamping, steel allocation, transportation and assembly of large machinery and equipment, and other fields
Post time: Aug-19-2024
