Precision-Engineered Laser Cutting Screw Compressor

1. Sheet Metal Processing: It can cut sheet metal materials, including stainless steel, carbon steel, and aluminum alloy, to manufacture various components such as chassis, cabinets, and ventilation ducts. This process achieves high precision and efficiency, accommodating different thicknesses and shapes while producing a smooth cutting surface and minimizing thermal deformation.

   
   

2. Mechanical Manufacturing: It is utilized to cut various mechanical components, such as gears, shafts, and connectors. This process can accommodate complex shapes and contours, thereby improving the precision and quality of the parts, reducing the need for subsequent processing procedures, and enhancing overall production efficiency.

   
   

3. Automobile Manufacturing: It can cut automobile body panels, frame components, engine parts, and more. For instance, it is capable of cutting the contours and holes of door panels, roofs, chassis, and other components, achieving high precision and rapid cutting. This capability enhances the level of automation and improves the quality of products in automobile production.

   
   

4. Shipbuilding: It is utilized for cutting ship steel plates and fabricating structural components of ships, including hull sections, decks, and bulkheads. The quality of the cutting seam is high, with excellent perpendicularity of the cutting surface. There is no slag inclusion, the oxide layer is minimal, the surface is smooth, and thermal deformation is minimal, which helps to reduce the workload for subsequent welding and processing.

• Electronics and Electrical Industry

1. PCB Manufacturing: It can cut and drill printed circuit boards (PCBs), enabling high-precision processing. This technology accommodates PCBs of various shapes and sizes, thereby enhancing production efficiency, improving product quality, and reducing the scrap rate.

   
   

2. Electronic Equipment Enclosure Processing: It is utilized to cut the metal enclosures of electronic devices, such as mobile phones, computers, and tablets, enabling personalized design and precision manufacturing. This process can accommodate complex shapes, heat dissipation holes, and other structures, thereby enhancing both the appearance and performance of the product.

Advertising Word Production: It can swiftly cut various metal advertising materials, including stainless steel, copper, and aluminum, while achieving intricate font designs and high-precision cutting results. This enhances both the efficiency and quality of advertising production.

Decorative Sheet Processing: It can cut and engrave acrylic sheets, wooden boards, plastic boards, and other decorative materials to create a variety of patterns and shapes, such as screens, partitions, and background walls, thereby fulfilling personalized decoration needs.

Medical Equipment Industry

It can be utilized to cut metal enclosures and components of medical equipment, including the casings of surgical instruments and diagnostic devices. This process ensures the precision and hygiene standards of the products while meeting the stringent requirements of the medical industry regarding product quality and safety.

Home Furnishing Manufacturing Industry

Furniture Manufacturing: It can cut materials such as wood, engineered boards, and metal for manufacturing furniture components, including the frames of tables and chairs, cabinet doors, and drawers. This process enables personalized customization and high-precision processing, thereby enhancing the quality and aesthetics of the furniture.

Kitchenware Manufacturing: It is utilized for cutting the panels and enclosures of range hoods, stoves, disinfection cabinets, and other kitchenware, enabling rapid prototyping and high-precision cutting, which enhances production efficiency and product quality.

Drainage: Manually drain the air tank before starting the machine every day to discharge the condensed water and oil in the tank.

Filter Cleaning and Replacement: Regularly clean and replace the filters to maintain the quality of the compressed air clean. Check the air filter every 500 hours and clean the dust and impurities on the surface. Replace the filter element every 2000 hours.

Component Inspection: Regularly check the working conditions of various components of the air compressor, such as the sealing ring of the intake valve, compressor lubricating oil, oil filter, oil vapor separator, pressure valve, relief valve, oil drain valve, drive belt, etc. Replace or maintain them in time according to the regulations.

Pressure and Flow Control

A key functionality of the Screw Air Compressor for Laser Cutting is its ability to maintain constant pressure and adjustable flow rates. It caters to the diverse requirements of different laser cutting tasks, from thin material slicing to thick metal cutting, by delivering the exact air volume needed. The integrated control system allows operators to fine-tune settings, ensuring optimal performance across various cutting scenarios.

Intelligent Operation

Equipped with a microcomputer control panel, the compressor supports automated operation and numerical control programming. It can be seamlessly integrated into smart factory setups, enabling remote monitoring and adjustment. This functionality eliminates the need for constant manual oversight, streamlining production workflows and reducing human error.

Compatibility with Laser Cutting Processes

The compressor is engineered to work in tandem with laser cutting’s non-contact method. It provides clean, dry compressed air that prevents contamination of the laser beam or the material being cut, preserving the integrity of both the equipment and the final product. This compatibility makes it an indispensable component for modern laser cutting operations.