Electric stackers are designed with emergency power-off switches or emergency stop buttons, which are usually located in easy-to-reach locations for operators. In the event of an emergency, such as vehicle loss of control, risk of collision, or operating error, the operator can quickly press these buttons to immediately cut off the power and stop the vehicle, thereby avoiding or mitigating potential accident injuries. Some electric stackers are also equipped with a regenerative braking system, which is a technology that converts the vehicle's kinetic energy into electrical energy and stores it during deceleration. This system not only helps save energy, but also provides additional braking force during deceleration, allowing the vehicle to stop more smoothly, further improving safety.
When the mast of the electric stacker is raised and reaches a certain height, the high-cargo speed limiter is automatically activated. This device switches the vehicle from handling mode to stacking mode and automatically reduces the driving speed. This is because when working at height, if the vehicle speed is too fast, it may cause unstable operation and increase the risk of cargo falling or vehicle overturning. By limiting the speed, it can ensure greater safety when working at height.
Electric stackers are usually equipped with protective arms on both sides of the driver's seat, which can prevent operators from being injured due to accidental collisions. In addition, some models are also equipped with body guardrails and seat cushions, which not only increase the comfort of operators, but also provide additional safety protection.
Electric stackers are usually equipped with electronic power steering systems, which can provide appropriate power assistance according to vehicle speed and steering angle. When driving at low speeds, the power assistance is large, making steering easier; when driving at high speeds, the power assistance is reduced, making steering more stable. This intelligent power steering system not only improves the comfort of operation, but also makes steering more precise and reduces the safety risks caused by improper operation.
The chassis design of electric stackers is stable and can withstand large loads and impact forces. The front wheels usually adopt a large wheel design to increase the chassis height and improve the ability to pass obstacles. At the same time, the auxiliary wheels on both sides of the drive wheel provide additional support and stability for the chassis, ensuring that the vehicle can maintain stable driving on uneven ground. In terms of tires, electric stackers usually use wear-resistant and non-slip materials to increase the vehicle's grip and driving stability. This design helps prevent the vehicle from slipping or losing control on slippery or uneven surfaces, thereby improving safety.
The fork of an electric stacker is one of the main components for carrying cargo. To ensure safety, the fork is usually equipped with a safety device such as an upward limit switch. When the fork rises to the top, the upward limit switch automatically cuts off the upward power supply to ensure that the fork stops smoothly and prevents it from falling off or being damaged due to excessive rise.
CQD16-D
Narrow Aisle Truck
1600kg