The working principle and classification of auto parts engraving machine?

2020-12-31    2256

Working principle of auto parts engraving machine:

Using laser engraving and cutting, the process is very simple, just like using a computer and a printer to print on paper. You can use a variety of graphics processing software in the windows environment to design. Scanned graphics, vectorized graphics and various CAD files can be easily "printed" to the engraving machine. The only difference is that printing applies toner to paper, while laser engraving is to shoot the laser onto almost all materials such as wood products, acrylic particles, plastic plates, metal plates, and stone to cause chemical changes in the materials. So as to achieve the carving effect.

Radium carving machine classification:

Divided by material

It can be divided into metal laser engraving machines (all solid metals and alloys such as stainless steel, steel, alumina, aluminum, etc.), non-metallic laser engraving machines (all solid non-metal materials such as glass, plexiglass, leather, artificial leather, wood, etc.) Wood crafts, auto parts, etc.)

According to laser

Lamp pumped YAG laser engraving machine (wavelength 1064nm); CO2 laser engraving machine (wavelength 1064nm), semiconductor laser engraving machine (wavelength 1064nm), fiber laser engraving machine (wavelength 1064nm), green laser engraving machine (wavelength 532nm), ultraviolet Laser engraving machine (wavelength 266nm)


Can engrave a variety of non-metallic materials. Used in clothing accessories, pharmaceutical packaging, wine packaging, architectural ceramics, beverage packaging, fabric cutting, rubber products, shell nameplates, craft gifts, electronic components, leather and other industries. Used in electronic components, integrated circuits (IC), electrical appliances, mobile communications, hardware products, tool accessories, precision equipment, glasses and watches, jewelry, auto parts, plastic buttons, building materials, PVC pipes, medical equipment and other industries. Applicable materials include: ordinary metals and alloys (iron, copper, aluminum, magnesium, zinc and other metals), rare metals and alloys (gold, silver, titanium), metal oxides (all kinds of metal oxides are acceptable), special surfaces Treatment (phosphating, aluminum anodization, electroplating surface), ABS material (electric appliance housing, daily necessities), ink (transparent keys, printed products), epoxy resin (electronic component packaging, insulating layer). Carved metal and a variety of non-metal materials. It is more suitable for the processing of some products requiring fine and high precision.