The size of the workbench is 460 × 400mm, and the load-bearing capacity of the workbench can reach 300kg. This enables it to place various small and medium-sized workpieces, such as small structural parts in mechanical manufacturing and small mold blanks in mold manufacturing, providing stable support for processing.
2. Advantages of travel range
The X-axis stroke is 400mm, the Y-axis stroke is 300mm, and the Z-axis stroke is 300mm. This travel range is suitable for processing small and medium-sized parts with complex shapes. For example, when machining mechanical parts with multiple grooves, holes, and surfaces, the cutting tool can flexibly move in various axis directions to accurately complete machining operations such as milling and drilling.
2, Processing accuracy
1. Accuracy of spindle system
Equipped with BT30 specification spindle, the maximum speed can reach 15000rpm. Adopting direct transmission to reduce transmission errors and ensure spindle rotation accuracy. During processing, it can ensure precise cutting of the tool, resulting in high surface smoothness and good dimensional accuracy of the parts. For example, when milling the plane and contour of precision parts, small dimensional tolerances and positional tolerances can be achieved.
2. Shaft system and positioning accuracy
The X, Y, and Z axes can achieve a positioning accuracy of 0.005mm through high-precision ball screws and linear guides, combined with advanced assembly technology. For machining with positional accuracy requirements, such as hole system machining of electronic device parts, the tool can be accurately positioned to ensure machining accuracy. The precision of repeated positioning is also high, ensuring consistency in processing.
3, Numerical Control System
1. Advanced CNC system functions
Adopting Mitsubishi/new generation CNC system, with strong computing power and rich functional instructions. Through an intuitive user interface, it facilitates programming and processing control. Support functions such as high-speed and high-precision machining, tool radius compensation, and 3D tool compensation. When processing complex geometric parts, such as automotive parts with irregular surfaces, it is possible to accurately calculate tool paths, optimize machining, and ensure accuracy and efficiency.
4, Machine tool structure
1. Quality and stability of castings
The main components are made of high-quality castings and undergo aging treatment to eliminate internal stress. This structure provides good rigidity and stability, and can resist deformation and ensure machining accuracy during long-term use. For example, when the machine tool works continuously, the machining accuracy can also be maintained at a high level.
2. Structural layout optimization
The overall structural layout is reasonable, and the components are closely coordinated. Key components such as columns and bed frames are designed with reinforcing ribs to increase rigidity and reduce vibration. Reasonable design of heat dissipation channels reduces the impact of thermal deformation on machining accuracy, ensuring stable performance of the machine tool in different environments
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