Counterbalance Type Electric Stacker

Industry knowledge

In the design process of counterbalanced electric stackers, how to balance the performance, cost and safety of the vehicle?

1. Performance optimization: technological innovation leads to efficient operation
Performance is one of the core competitiveness of counterbalanced electric stackers, which is directly related to operating efficiency and user experience. During the design process, HECHA has adopted a number of technological innovations to ensure that the vehicle can still maintain excellent performance in high-load and high-intensity working environments.
Power system optimization: The company independently developed an efficient and energy-saving electric drive system, using advanced battery technology and energy management system to ensure that the vehicle can still maintain stable power output during long-term operation. At the same time, through precise motor control algorithms, energy consumption is minimized and the single-charge operation time is extended.
Intelligent control system: Integrating advanced sensor technology and Internet of Things (IoT) functions, the vehicle can monitor the working environment and load status in real time, automatically adjust the driving speed and lifting height, and improve the accuracy and efficiency of the operation. In addition, the intelligent navigation system can also help the driver quickly locate in complex environments and reduce operational errors.
Multifunctional accessory design: For different application scenarios, HECHA has designed a variety of replaceable functional accessories, such as side shifters, rotators, telescopic forks, etc. These accessories can be easily integrated into the vehicle to meet the stacking, loading and unloading, and handling needs of different customers in different locations and environments.
2. Cost control: Lean production achieves economic efficiency
While ensuring high performance, HECHA also attaches great importance to cost control, and maximizes the cost performance of products through lean production and supply chain management.
Modular design: The modular design concept is adopted to decompose the vehicle into multiple independent, easy-to-manufacture and maintain modules. This design not only simplifies the production process and improves production efficiency, but also facilitates later maintenance and upgrades, reducing the long-term use cost of customers.
Global procurement strategy: Relying on a complete domestic and foreign sales network, HECHA can find the best raw material and parts suppliers worldwide, and effectively reduce the cost of raw materials through bulk procurement and long-term cooperation.
Automated production line: Introducing advanced automated production lines and robotics technology to reduce manual intervention and improve production accuracy and efficiency. Automated production not only reduces labor costs, but also ensures the stability and consistency of product quality.
3. Safety guarantee: Multiple protections ensure worry-free operation
Safety is an important part of the design of counterbalanced electric stackers. HECHA has integrated the concept of safety throughout the entire product development process from the beginning of the design to ensure that the vehicle can provide maximum protection for the operator and the surrounding environment under any circumstances.
Active safety system: Integrates active safety functions such as emergency braking system, overspeed warning, collision warning, etc., and monitors the vehicle's operating status and surrounding environment in real time to warn of potential risks in advance and avoid accidents.
Passive safety design: The vehicle uses high-strength steel and anti-collision design to ensure that the body structure can remain intact in extreme situations such as collisions to protect the operator from injury. At the same time, the vehicle is also equipped with seats, seat belts and anti-rollover protection structures that meet international safety standards to further enhance safety.
Intelligent diagnosis and maintenance: Through the vehicle's built-in intelligent diagnostic system, it can monitor the vehicle's health in real time, predict potential faults, notify customers in advance for maintenance, and avoid downtime losses caused by faults. In addition, the remote fault diagnosis function can quickly respond to customer needs and shorten the maintenance cycle.