The difference between the independent Y-axis of turning and milling compound and the compound Y-axis

The main differences between the independent Y-axis and the compound Y-axis (usually referring to the interpolation Y-axis) in the turning and milling compound machine tool are reflected in the ‌ motion mode, precision control, rigidity performance and application scenarios ‌. The following is a specific analysis:

Independent Y-axis

 

Youdaoplaceholder0 Motion mode ‌ : An independent Y-axis means that this axis can move in a straight line on its own, without relying on the motion of other axes. This design makes the machine tool more flexible during the processing and enables it to achieve more complex processing trajectories.

 

Youdaoplaceholder0 Precision control ‌ : Since the movement of the independent Y-axis is not affected by other axes, its precision control is relatively easier to achieve and the processing accuracy is also higher.

 

Youdaoplaceholder0 Rigidity performance ‌ : The design of an independent Y-axis usually enables the machine tool to have better rigidity during the machining process, be able to withstand greater cutting forces, and ensure the stability and accuracy of the machining.

 

Youdaoplaceholder0 Application scenario ‌ : The independent Y-axis turning and milling compound machine tool is suitable for scenarios with high requirements for processing accuracy and stability, such as the processing of complex parts in industries like aerospace and medical devices.

 

Compound Y-axis (interpolated Y-axis

 

Youdaoplaceholder0 Motion mode ‌ : The compound Y-axis (interpolated Y-axis) usually moves in linkage with other axes (such as the X-axis and z-axis), and complex processing trajectories are achieved through interpolation algorithms. This design enables the machine tool to perform more processing functions during the machining process, but the motion control is relatively complex.

 

Youdaoplaceholder0 Precision control ‌ : As the motion of the compound Y-axis depends on the motion of other axes and interpolation algorithms, its precision control is relatively difficult to achieve, and the machining accuracy may be affected. However, with the advancement of technology, the interpolation algorithms of modern machine tools have become very mature and can ensure high machining accuracy.

 

Youdaoplaceholder0 rigidity performance ‌ : The design of the compound Y-axis may sacrifice the rigidity of the machine tool to some extent in exchange for more processing functions and flexibility. However, in practical applications, by optimizing the structure of machine tools and adopting high-rigidity materials, the processing stability and accuracy of machine tools can still be guaranteed.

 

Youdaoplaceholder0 Application scenario ‌ : The turning and milling compound machine tool with a compound Y-axis is suitable for scenarios with high requirements for processing functions and flexibility, such as the processing of complex parts in industries like automotive manufacturing and mold processing.

 

The independent Y-axis and the compound Y-axis each have their own advantages and application scenarios. When making a choice, a comprehensive consideration should be given based on specific processing requirements and the budget. Do you have any more specific processing requirements or budget ranges? I can offer you more targeted suggestions!