1. New Energy Vehicle Sector
Manufacturing Stage: In the production process of new energy vehicles,
Laser Cleaning Machine can be used for pre- and post-weld cleaning of the vehicle body, cleaning of components, and cleaning of battery components.
Pre-weld cleaning removes impurities such as oil and rust from metal surfaces, improving welding quality and reducing welding defects; post-weld cleaning removes oxides and slag from weld seams, improving welding strength and appearance quality.
In terms of component cleaning, it can quickly remove flux and oil residues from surfaces such as liquid cooling pipe components and battery boxes, improving product qualification rates.
Adapting to the Trend of Automotive Lightweighting: To improve the driving range and energy efficiency of new energy vehicles, automotive lightweighting is an important development direction.
Many new materials, such as aluminum alloys and carbon fiber, are widely used in automobile manufacturing. Laser
Cleaning Machine can efficiently and accurately clean the surfaces of these new materials, removing impurities and contaminants, providing good surface conditions for subsequent processing and joining processes, and meeting the high requirements of new energy vehicles for material cleaning.
Driving Battery Technology Upgrades: Batteries are the core components of new energy vehicles, and their performance and safety are crucial.
Laser Cleaning Machine can be used to clean battery terminals and casings, removing surface oxides and oil stains, improving battery conductivity and heat dissipation, and thus extending battery life.
Simultaneously, during battery production, laser cleaning technology can clean electrode sheets, removing metal impurities, electrolyte residue, and
Other contaminants, ensuring electrode quality and performance, and supporting continuous upgrades in battery technology.
2. Photovoltaic Field
Improving Photovoltaic Module Production Quality: During photovoltaic module production, Laser Cleaning Machine can be used to clean the surfaces of materials such as silicon wafers, removing impurities and oil stains, improving the production quality and efficiency of photovoltaic modules.
For example, during the cutting and grinding of silicon wafers, some tiny particles and contaminants are generated. Laser Cleaning Machine can precisely remove these impurities, ensuring the surface flatness and purity of the silicon wafers, thereby improving the photoelectric conversion efficiency of photovoltaic modules.
Assisting in Photovoltaic Power Plant Operation and Maintenance: Photovoltaic power plants are usually located outdoors, and photovoltaic panels are easily affected by dust, dirt, bird droppings, and other contaminants, reducing power generation efficiency.
Traditional cleaning methods, such as manual cleaning and water cleaning, suffer from low efficiency, high cost, and damage to the panels.
Laser Cleaning Machine can achieve efficient and non-destructive cleaning, quickly removing contaminants from the surface of photovoltaic panels, restoring their power generation efficiency, and reducing operation and maintenance costs. With the large-scale construction and operation of photovoltaic power plants, the demand for Laser Cleaning Machine will continue to increase.
3. Wind Power Sector: An important tool for energy storage equipment maintenance: Energy storage equipment is also affected by contaminants such as dust and oil during long-term operation, requiring regular maintenance and cleaning.
Laser Cleaning Machine can efficiently clean the surface of energy storage equipment, maintaining its good operating condition and providing a guarantee for the development of the energy storage industry.
