In the new era, industrial manufacturing has put forward new requirements for the precision, speed and thickness of metal plate cutting, and the power that can be realized by laser cutting machine is getting higher and higher.
As a result, the laser cutting machine industry is undergoing transformation and upgrading. Under the current broad industry prospect, the laser cutting machine must strive to develop new technologies to occupy a place in the increasingly fierce market competition and fast growing market. In order to meet the future production needs, the laser cutting machine is developing in these directions:
1. High automatic production efficiency
At present, the cost of metal processing is mainly on labor and raw materials. Upgrading automatic production can effectively reduce labor costs and improve production efficiency. In the future, automatic production will be the mainstream.
2. Functional diversity
The same device has different functions to easily expand its scope of use. In order to realize the multi-function of the same equipment, it is necessary to adopt modular design and combination design of multiple modules, so as to realize new equipment suitable for different materials and processes.
3. Joint production line
A product production line is destined to be realized by multiple devices. Integrating functions on one device will cause inconvenience in operation and maintenance. Several sets of equipment with equivalent efficiency can be combined to form a complete production line.
4. High power laser cutting technology can improve performance and productivity year by year. High power laser machine not only improves performance and output, but also provides larger cutting range, faster cutting speed and improves the edge quality of parts. High power can usually cut thicker materials. However, larger cutting range is only one of the advantages of high power laser cutting. Faster cutting speed also improves the output.
5. Multiple degrees of freedom
Laser cutting machines are widely used in the processing of complex surfaces and workpieces, such as laser cutting robots, 2.5D laser cutting machines specially used for pipe cutting, 3D optical fiber transmission laser cutting machines, etc.