Dust-proof design of full-electric stackers
In actual use, full-electric stackers often face complex and changeable working environments, especially warehouses, factories or open-air sites with a lot of dust. In order to ensure the normal operation of the equipment and extend its service life, dust-proof design is particularly important. Manufacturers usually use sealing and filter technology to prevent dust from entering the motor, control system and key mechanical components. This not only avoids equipment failures caused by dust accumulation, but also reduces the frequency and cost of maintenance.
The selection and installation quality of seals are the key to dust-proof effect. Some stackers are equipped with special filter elements at the air inlet, which can effectively block fine particles, ensure air circulation and isolate dust. The surface of the vehicle body usually uses dust-proof coating or smooth design to reduce dust adhesion. In terms of overall structure, key electrical components are often designed in a sealed box to prevent dust intrusion from causing short circuits or performance degradation.

Waterproof design of full-electric stackers
In addition to dustproof, waterproof design is also an important factor for full-electric stackers to adapt to harsh environments. In rainy or humid environments, moisture entering the interior of the equipment may cause damage to electrical components and even cause safety hazards. To this end, the vehicle design focuses on waterproof performance to ensure that key parts can effectively isolate the intrusion of water vapor and liquid.
The vehicle's electrical control box adopts a sealed structure and is equipped with waterproof rubber rings or sealing strips to ensure that the interfaces and openings are tight. The motor and battery compartment are also waterproofed to avoid short circuits and corrosion. In order to adapt to ground water accumulation or slight wading, the chassis design of the stacker increases the ground clearance and selects materials with good water resistance.
The waterproof design also involves the reasonable layout of the drainage system to ensure that the vehicle can quickly remove the incoming water in the water environment to avoid long-term retention. Some models of stackers are also equipped with a high-waterproof shell to cope with more complex outdoor working environments.

Dustproof and waterproof design guarantees equipment performance
The effective implementation of dustproof and waterproof design is of great significance to the stable operation of full-electric stackers. It not only reduces the frequency of equipment failures caused by environmental factors, but also improves the safety of vehicle use. In dusty working environments, the dustproof design avoids increased wear of mechanical parts and extends the service life of parts. In a humid environment, waterproof measures effectively prevent electrical short circuits and corrosion, ensuring the continuity of operation and personnel safety.
The improvement of dustproof and waterproof design also improves the convenience of maintenance. The need for frequent cleaning and maintenance is reduced, so that the equipment can still maintain good performance under high-load operation, thereby improving overall work efficiency.

Design concept to adapt to various environments
The dustproof and waterproof design of the full-electric stacker reflects full consideration of different working environments. Whether in a humid storage space or in a dusty production workshop, the equipment can maintain good operating conditions. Such a design concept not only conforms to the development trend of industrial equipment, but also meets users' expectations for equipment durability and stability.
By continuously optimizing the structure and materials, manufacturers are committed to making full-electric stackers adapt to more complex environments and provide solid equipment guarantees for logistics and warehousing operations. At the same time, this environmental adaptability design also reduces equipment loss and maintenance costs caused by the environment for users.