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What is the impact of single diameter rotation on Taizhou Yuhuan hydraulic machine tools?
Memo:The accuracy of hydraulic machine tool spindle rotation is one of the important standards for machine tools, which has an impact on the accuracy and surface roughness of the parts being processed.
The accuracy of hydraulic machine tool spindle rotation is one of the important standards for machine tools, which has an impact on the accuracy and surface roughness of the parts being processed. What are the specific aspects of this? Next, let's analyze it for everyone.
Firstly, during the machining process of boring, the boring cutter rotates simultaneously with the main spindle of the boring machine. When its spindle becomes unilaterally adjusted, it moves the axis in a specified direction. The shape obtained by boring is determined by inertia. His formula is: M=R, N=0, where R is the radius of the hole
Secondly, during the turning process, during the operation of the outer circle and the boring hole, the workpiece moves along the main axis simultaneously. It is known that the shape of the outer surface of the workpiece is determined by the relative navigation marks of the tool. If the position marked on the tool tip of the turning tool is Z=0, Y=- R. Among them, R is the machining radius. The results obtained from these two assumptions are different.
So after completion, a conclusion can be drawn: when turning on hydraulic machine tools, if the spindle is jumping, it has a greater impact on the workpiece, and it has nothing to do with the roundness of the workpiece.
Firstly, during the machining process of boring, the boring cutter rotates simultaneously with the main spindle of the boring machine. When its spindle becomes unilaterally adjusted, it moves the axis in a specified direction. The shape obtained by boring is determined by inertia. His formula is: M=R, N=0, where R is the radius of the hole
Secondly, during the turning process, during the operation of the outer circle and the boring hole, the workpiece moves along the main axis simultaneously. It is known that the shape of the outer surface of the workpiece is determined by the relative navigation marks of the tool. If the position marked on the tool tip of the turning tool is Z=0, Y=- R. Among them, R is the machining radius. The results obtained from these two assumptions are different.
So after completion, a conclusion can be drawn: when turning on hydraulic machine tools, if the spindle is jumping, it has a greater impact on the workpiece, and it has nothing to do with the roundness of the workpiece.
