(1) advertising industry: gift carving, cutting advertising fonts and Logo, cutting and carving plexiglass (acrylic), signboard making, crystal handicraft making, nameplates, trophies/medals, etc. ;

(2) Bamboo and wood products industry: wood printing, wooden box carving, wood sign making, wood gift carving, cutting, bamboo products carving, etc.

(3) Leather industry: cutting leather shoes, cutting purses, lettering, carving leather products, punching holes, etc.

(4) Clothing industry: cloth cutting (hollowing out), carving, etc.

(5) Electronic industry: instrument operation panel, printed circuit board, switch film, DVD machine panel, computer case accessories, conductive paper, foam pad, insulating pad, etc.

(6) Plate-making industry: rubber stamp plate-making, silica gel mold, high-temperature resistant resin mold, etc. ;

(7) Other industries: making organic ornaments, making (architecture/navigation/aviation) models, making intellectual toys (puzzles/building blocks), etc.

Materials suitable for CO2 laser cutting and engraving;

Acrylic, painted metal, anodized metal, crystal, cork, cork products, cloth, glass, plastic, leather products, marble, stone, cardboard, wood products, rubber products, seals, etc.

With the rapid development of photoelectric technology, the application of laser engraving technology is more and more extensive, and the requirements for engraving accuracy are getting higher and higher. There are three factors that reflect the development level of laser material processing: the first is laser technology, that is, laser device technology applied to laser material processing; The second is the mechanical and control system of laser equipment processing, that is, laser processing equipment; The third is the level of laser processing technology. Because laser technology is a very mature technology, whether it can effectively control the laser equipment and laser processing technology level has become the bottleneck of the application of laser engraving technology.

At present, there are many domestic manufacturers specializing in the production of laser engraving equipment (which can be made into CO2 laser marking machine and fiber laser marking machine). Their competition has shifted from laser technology to effective control of laser equipment and processing technology. Can we effectively solve the following problems: multi-axis linkage of three-dimensional graphics, vibration caused by high-speed scanning and rapid advancement of laser, scanning width and scanning accuracy, dislocation of synchronous scanning and reciprocating scanning of laser, complex algorithm and regular graphic interpolation, etc. , has become the key to competition.