The difference in working principles between CNC engraving and milling machines and precision engraving machines
The working principle of CNC engraving and milling machines is the same as that of precision engraving machines - both are driven by the X, Y, and Z axes - and are controlled by electronic controllers for movement
The working principle of CNC engraving and milling machines is the same as that of precision engraving machines. They are all driven by the X, Y, and Z axes and controlled by electronic controllers for movement< Br/>
Differences in workmanship
CNC engraving and milling machines require high precision, and the precision and materials used for each machined part are of high standards. Although precision is not as high as that of engraving and milling machines, people intuitively feel that small format machines are engraving machines, while large format machines are engraving and milling machines, also known as chiseling machines, engraving and milling machines, or simply collectively referred to as large engraving machines< Br/>
Differences in usage:
CNC engraving and milling machines can be understood as capable of both fine carving and cutting and milling. For example, when doing 3D carving, although there is a large drop, the 200mm wide material can be completed in one go, with a considerable amount of cutting in one go. The cutting tool diameter specifications available for engraving and milling machines range from 1mm to 16mm, with a tool length of 50-80mm. We can use it flexibly, using fine knives to do fine work and coarse knives to do big work. Due to the emphasis on heavy loads in machine design, the rigidity of the frame, and the large Z-axis travel, it can not only be used for small engraving machines, but also for high-speed cutting of thick plates. The one-time feed amount can reach 20mm-30mm, which is a manufacturing process that engraving machines cannot achieve< Br/>
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