New Energy

Industry Supply Chain

Upstream Industry

Midstream Industry

Downstream Industry

Power Generation Equipment Manufacturing

Equipment Component and Parts Manufacturing

Power Generation Equipment Manufacturing

Manufacturing equipment that converts power generation devices into electrical energy, including solar power generation equipment, wind power generators, and renewable energy power generation equipment.

Component Manufacturing

Manufacturing of power and photovoltaic modules, solar cell chips, solar cell modules, solar power supplies, photovoltaic equipment and components, etc.

New Energy

Hydrogen Energy

The energy released by hydrogen during physical and chemical changes is a readily available, green, low-carbon, and widely applicable secondary energy source.

Hydropower

Generates electricity using the potential energy contained in water bodies. It is renewable, pollution-free, abundant in resources, and has low operating costs.

Other Renewable Energy Generation

Includes wind power, photovoltaic power, biomass power, ocean energy power, and geothermal energy power.

New Energy Application Areas

New Energy Vehicles

Vehicles that use new types of vehicle fuels or new onboard power systems as their power source, including pure electric vehicles and hybrid electric vehicles.

Hydrogen Refueling Stations

Gas stations that provide hydrogen to fuel cell vehicles; these are the infrastructure that provides hydrogen to fuel cell vehicles.

Charging Stations

Charging devices that provide energy replenishment for electric vehicles.

Industry Pain Points

Traditional Equipment Is Outdated

The equipment has limited functionality, a short lifespan, and cannot guarantee personal safety.

The Processing Procedures Are Complex And Intricate

Manual welding suffers from poor consistency and low efficiency.

Serious Industrial Pollution

It has a significant impact on workers' health.

Application of Collaborative Robots in Welding for New Energy Equipment

Energy Storage Equipment (Taking Power Batteries as an Example)

Collaborative robot welding is mainly applied in battery module manufacturing: cell interconnection, module frame welding, battery pack housing sealing, and busbar welding. Module structural weldingis currently the most significant application, ensuring structural strength and electrical connection reliability.

Photovoltaic Equipment

Collaborative robot welding is used for component frames, inverter housings, and bracket connections, covering aluminum alloy thin sheetsand stainless-steelcomponents for lightweight, high-precision joints.

Wind Power Equipment

Covers mainframes, blade connections, motor housings, tower sections, elevator structures, and steel pipe piles. Collaborative robots perform precision welding on large sheetsand tube connection nodesto ensure structural integrity and durability.

New Energy Vehicles

Covers battery trays, body frames, door frames, roof structures, and chassis parts. Collaborative robots weld sheet and tube connection areas, balancing strength and heat distortion control.

Hydropower Equipment

Includes hydro-turbine generator sets, transformers, current transformers, surge arresters, pressure pipelines, trash racks, etc. Collaborative robots weld thick platesand complex tube structuresto meet high-strength and corrosion-resistance requirements.

Hydrogen Energy Equipment

Includes fuel cell connectors, hydrogen transport pipelines, and hydrogenation station tanks and delivery systems. Collaborative robots perform precise welding on thin-walled tubesand high-strength alloy jointsto ensure gas tightness and structural reliability.