In the thriving new energy industry, sheet metal processing has become an indispensable key link in the manufacturing of new energy equipment due to its advantages of high precision, cost-effectiveness, and the ability to produce in bulk. Equipment such as photovoltaic inverters and energy storage battery cabinets has strict requirements for the structural strength, sealing, and heat dissipation of their components. Sheet metal processing, through processes like cutting, bending, stamping, and welding, can precisely meet these needs, providing a solid guarantee for the stable operation of new energy equipment.
The casing of photovoltaic inverters is a typical application case of sheet metal processing in the new energy field. As the core component of solar power generation systems, photovoltaic inverters need to be exposed to outdoor conditions for extended periods, facing complex environments such as wind, rain, and sunlight. This requires the casing to have excellent waterproof, dustproof, and corrosion-resistant properties. The inverter casing is made using sheet metal processing, starting with laser cutting to trim the steel plates to the required dimensions, followed by precise bending to form a specific shape, and finally welding, polishing, and surface coating. The sprayed anti-corrosion coating effectively resists external environmental erosion, while the rational structural design of the casing enhances heat dissipation, ensuring stable operation of the inverter in high-temperature environments.
The cabinet of energy storage battery cabinets is another common product of sheet metal processing. Energy storage battery cabinets are used to store energy storage batteries and must have sufficient structural strength to protect the internal batteries, while also meeting ventilation, heat dissipation, and safety requirements. Sheet metal processing can precisely manufacture the various components of the cabinet according to the dimensions and layout of the batteries, which are then assembled through welding. The side panels and door panels of the cabinet are stamped with evenly spaced heat dissipation holes to ensure air circulation, preventing battery failure due to high temperatures. Additionally, components such as locks and hinges can be perfectly fitted to the cabinet through sheet metal processing, enhancing overall safety and practicality.
If you have needs for sheet metal components in new energy equipment, whether for photovoltaic devices, energy storage equipment, or other new energy-related products, please feel free to contact us. We have a professional sheet metal processing team and advanced processing equipment, familiar with the various special requirements for sheet metal parts in the new energy field. We can provide you with one-stop services from design optimization to production manufacturing. With precise processing techniques, strict quality control, and efficient delivery capabilities, we aim to support the smooth advancement of your new energy projects. We look forward to collaborating with you to contribute to the development of the new energy industry.
