Product
Battery Static Racking
The new energy lithium-ion battery static storage rack is a specialized piece of equipment designed to address the storage needs during the “static period” in the production, warehousing, and logistics processes of lithium-ion batteries. It is primarily used for storing unactivated (uncharged) or discharged lithium-ion batteries (such as battery cells or PACK battery packs). Its core objective is to prevent thermal runaway (such as fires or explosions) caused by short circuits, overcharging, high temperatures, or collisions during the storage period, while ensuring the stability and traceability of the storage process. This is achieved through three key functions: safety protection, environmental control, and status monitoring.
In the lithium-ion battery supply chain, idle storage racks are widely applied in scenarios such as cell production workshops (after electrode winding/encapsulation), pack assembly lines (temporary storage after module stacking), and third-party logistics warehouses (transitional storage of finished batteries). They serve as indispensable “safety storage hubs” in fields such as new energy storage, power batteries, and 3C electronics.
Battery Static Racking
Application
- The standing rack is used for battery standing and aging, meeting the capacity requirements of the standing process section, and providing enough storage locations.
- The shelf is a combined structure, which has enough rigidity and stability when fully loaded. The surface is sprayed with thermosetting epoxy (powder) electrostatic coating.
- The overhead rail lifting beam is fixed on the top of the column by bolts, and the overall stability of the shelf is increased.
- The horizontal crossing device and the vertical tie rod device together form a firm and stable tower shaped steel structure.
- The back cross is composed of vertical diagonal pull rod, horizontal pull rod and connectors to adjust the accuracy of the vertical direction of the shelf and increase the overall stability of the shelf.
- The levelness of the shelf is adjusted by the adjustable anchor nut, and the shelf is installed and fixed by bolts with strength greater than 8.8.
- The way of pressing plate screw locking and sky rail lifting beam is adopted for the sky rail track.
- The ground rail adopts aluminum profile rail as the ground rail (equipped with polyurethane traveling wheel), and adopts the shim adjustable structure.
- Each bin has five fire barriers, and siliceous rock slabs are used for upper and lower positions; Each bin is equipped with DTS temperature sensor and 1 smoke sensor; Each bin is equipped with a spray head, water supply pipe, drainage pipe or water guide channel; Each bin is equipped with one catch basin or several bins; Each vertical warehouse is equipped with fire water tank: after formation, the high-temperature 24h 。
Description
New energy lithium-ion battery storage racks represent the seamless integration of “safety requirements” and “technological innovation”—they mitigate storage risks through customized structural design and enhance management efficiency via intelligent monitoring, making them an indispensable yet often overlooked critical component in the new energy industry chain. From cell production to end-user applications, static storage racks are not merely storage tools but also a cornerstone for ensuring lithium-ion battery safety and promoting the healthy development of the new energy industry. As intelligent and green technologies evolve, these racks will continue to break new ground in the three dimensions of “safety,” “efficiency,” and “sustainability,” providing more reliable support for global energy transition.
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