What are the advantages of visual laser control systems

The laser control system is the control core of laser processing equipment. With its built-in high-performance processor, the laser control system can quickly calculate the processing path and allocate the power during processing in a reasonable way, allowing other equipment such as the laser, laser head, and motor to operate correctly and orderly, ultimately producing qualified products.

The visual laser control system is composed of a visual recognition system and a laser control system. It detects and recognizes the target object through visual recognition technology. After obtaining precise positioning, the laser is controlled to emit light through laser control technology. The motion axis controls the laser to move and evaporate some materials, achieving precise processing of the target object.

Compared to ordinary laser control systems, visual laser control systems have the following advantages:
High precision: Through laser control technology, precise positioning and tracking of objects can be achieved, enabling high-precision control and operation.

Flexibility: Ordinary laser control systems require the corresponding design drawings to be imported in advance and the processing program to be set before starting processing. Visual recognition technology can obtain real-time position information of target objects. After analyzing the target's orientation, laser processing can be directly started without the need to repeatedly set processing plans, making processing tasks more flexible.

Multifunctionality: Visual laser control systems can achieve automated operations, reduce manual intervention, improve efficiency, and can therefore be applied in more production scenarios, such as industrial production, intelligent manufacturing, unmanned systems, and other fields.

The visual laser control system can also be used for precision machining, requiring high-precision cameras and additional optimization of control algorithms. The optimized visual laser control system can control accuracy at the micrometer level, including precision metal products such as heart stents, which are processed by laser.

It should be noted that the accuracy of precision laser processing is influenced by various factors, including laser parameter adjustment, material characteristics, process control, equipment accuracy, etc. Therefore, the accuracy in actual machining may vary slightly, but it can usually meet the application requirements for high-precision machining within the micrometer level range.