According to the technical characteristics and application scenarios, metal cutting control systems in the laser field can be mainly divided into the following categories:
Fiber laser control system
Specially designed for fiber lasers, suitable for medium to high power metal cutting. Its high photoelectric conversion rate and stable power output are suitable for processing materials such as stainless steel and aluminum alloy.
CO ₂ laser control system
Mainly used for cutting non-metallic materials, but some systems also support thin metal processing, with lower costs, suitable for users with less demand for metal processing.
UV laser control system
For the design of precision metal components (such as medical devices), cutting is achieved by breaking material chemical bonds at the molecular level, which is suitable for ultra fine machining scenarios.
Bochu System
The non closed loop open source system developed domestically is easy to operate and has strong stability. It is suitable for laser cutting machines below 2000W, especially performing well in equipment below 1000W.
PA8000 system
An open CNC system based on PC technology, supporting high-power laser cutting, with advantages such as fast speed, high precision, and closed-loop detection, representing the forefront technology in the global CNC field. PIC system
The older card control system, integrated into a regular computer for operation, controls through analog signal transmission, and its open source characteristics still have a certain market.
L6000 CNC Laser Tube Cutting System
Supports cutting of square pipes, round pipes, and special-shaped pipes, compatible with dual chuck pushing/single chuck pulling machine tools, supports 6-axis collaboration and automatic feeding functions, suitable for complex pipe processing scenarios.
Intelligent control system
Equipped with AI technology, it achieves functions such as adaptive machining parameter optimization and dynamic path decision-making, and improves machining efficiency and accuracy through a closed-loop system of "perception learning decision-making control".
Intelligent flying cutting: improves cutting efficiency and reduces machine vibration.
Nano micro connection: reduces damage to the cross-section of parts and facilitates cutting.
Visual positioning: Achieve precise positioning and machining of the lateral axis.
Energy avoidance: prevent energy accumulation at cutting intersections and protect materials.
The above systems and functional modules jointly promote the development of metal cutting towards high efficiency, high precision, and intelligence.
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