This plan focuses on the full scenario of digital energy in the automotive industry, with intelligent transfer equipment as the core, integrating robot assembly, intelligent transfer equipment, and independently developed T-shaped robots, covering core links such as new energy vehicle power batteries, energy storage systems, vehicle assembly, and component transportation. The solution integrates automation, intelligence, and flexibility technologies to adapt to high-precision, high load, and multi batch operation needs such as battery pack handling, energy storage container assembly, and vehicle chassis assembly. Through simple programming and tool replacement, it quickly switches production line modes and seamlessly integrates with the automotive digital energy production management system, breaking the traditional efficiency bottleneck, safety shortcomings, and insufficient flexibility issues of transfer. It provides efficient, safe, and low-cost intelligent transfer support for the automotive industry and new energy supply chain, helping to upgrade the digital energy of the automotive industry and building a solid foundation for intelligent manufacturing.
The path is flexible and cost-effective, capable of adjusting according to changes in automobile production lines and warehouse storage locations, with costs significantly lower than traditional conveyor belts and rigid transmission lines.
Highly intelligent, equipped with an automatic guidance system, enabling unmanned autonomous operation without manual guidance, suitable for large-scale material handling scenarios in automotive factory areas.
High precision, unmanned, high safety, automation, high load, lightweight;
A one-stop service loop, covering equipment customization, system integration, tooling adaptation, and post-operation maintenance, ensures the efficient implementation of automotive digital energy transfer solutions throughout the entire process.
It boasts outstanding flexible production capabilities, enabling quick mold changes and simple programming to meet the small-batch, multi-variety production needs of new energy vehicle batteries and energy storage products across various models and specifications, effectively enhancing lithium battery production efficiency.
It features strong precision adaptability, with positioning accuracy within ±2mm, perfectly meeting the transfer and assembly needs of precision energy components such as power batteries and battery packs. OHT is applied to the core stages of lithium battery production—transporting electrode rolls in the cold pressing, die-cutting, winding, and cut-stacking sections.
