The causes and solutions for unstable concentricity of CNC lathes

The causes and solutions for unstable concentricity of CNC lathes

Cause analysis

 

Youdaoplaceholder0 machine tool itself problems ‌

 

Youdaoplaceholder0 Insufficient spindle accuracy ‌ : Spindle bearing wear, excessive clearance, or insufficient manufacturing accuracy of the spindle will cause the spindle to jump during rotation, thereby affecting the concentricity of the workpiece.

 

Youdaoplaceholder0 Guide rail wear ‌ : Guide rails are the foundation of machine tool movement. If guide rails wear out, it will cause inaccurate movement trajectories of moving parts such as the tool rest, resulting in unstable relative positions between the tool and the workpiece during processing and affecting concentricity.

 

Youdaoplaceholder0 lead screw clearance ‌ : The lead screw is a component that transmits motion and power. If the clearance between the lead screw and the nut is too large, it will cause the tool rest to lag or advance during movement, affecting the machining accuracy and leading to unstable concentricity.

 

Youdaoplaceholder0 tool problem ‌

 

Youdaoplaceholder0 Tool wear ‌ : After long-term use, tools will wear out. Changes in the geometry and size of the tools will cause uneven cutting force, resulting in vibration of the workpiece during processing and affecting concentricity.

 

Improper installation of ‌ tools ‌ : If the tool is not firmly installed or the installation Angle is incorrect, it will cause the tool to shift during the cutting process, thereby affecting the concentricity of the workpiece.

 

Youdaoplaceholder0 workpiece problem ‌

 

Youdaoplaceholder0 Improper workpiece clamping ‌ : If the workpiece is not clamped tightly or the clamping method is unreasonable during the processing, it will become loose or shift during the processing, resulting in unstable concentricity.

 

Youdaoplaceholder0 Uneven workpiece material ‌ : If the internal structure of the workpiece material is uneven, with defects such as pores and inclusions, the cutting force will change during processing, causing the workpiece to vibrate and affecting its concentricity.

 

Youdaoplaceholder0 processing parameter issue ‌

 

Improper selection of ‌ cutting parameters ‌ : Unreasonable selection of cutting parameters such as cutting speed, feed rate and depth of cut can cause excessive or insufficient cutting force, leading to vibration or deformation of the workpiece and affecting concentricity.

 

Youdaoplaceholder0 Insufficient cooling and lubrication ‌ : Inadequate cooling and lubrication will cause the cutting temperature to rise, leading to increased thermal deformation of the workpiece and tool, and affecting the machining accuracy and concentricity.

 

Solution

 

Youdaoplaceholder0 for the problems of the machine tool itself ‌

 

Youdaoplaceholder0 main shaft maintenance ‌ : Regularly inspect the wear condition of the main shaft bearings and replace the worn bearings in a timely manner; Adjust the main shaft clearance to ensure the rotational accuracy of the main shaft. Professional spindle inspection equipment, such as laser interferometers, can be used to detect and adjust the radial runout and axial movement of the spindle.

 

Youdaoplaceholder0 Guide rail repair ‌ : For worn guide rails, methods such as scraping and plastic coating can be used to restore their accuracy. At the same time, regularly lubricate and maintain the guide rails to reduce their wear.

 

Youdaoplaceholder0 lead screw adjustment ‌ : The gap between the lead screw and the nut can be adjusted by adjusting the preload of the nut or by replacing the lead screw and nut pair. By using the lead screw clearance compensation function and setting a reasonable compensation value in the numerical control system, the influence of lead screw clearance on processing accuracy can be eliminated.

 

Youdaoplaceholder0 for the tool issue ‌

 

Youdaoplaceholder0 Tool replacement and grinding ‌ : Regularly inspect the wear condition of the tools and replace those that are severely worn in a timely manner. For shardable cutting tools, reasonable grinding should be carried out to restore the geometric shape and dimensional accuracy of the tools.

 

Youdaoplaceholder0 Correct installation of the cutting tool ‌ : Install the cutting tool correctly in accordance with the installation manual of the cutting tool, ensuring that it is firmly installed and the installation Angle is accurate. Use equipment such as tool pre-adjusters to precisely measure and adjust the size and Angle of the cutting tools.

 

Youdaoplaceholder0 for the issue of the workpiece ‌

 

Youdaoplaceholder0 Optimize the clamping method ‌ : According to the shape and size of the workpiece, select the appropriate clamping method, such as three-jaw chuck, four-jaw chuck, special fixture, etc., to ensure that the workpiece is firmly and reliably clamped. For workpieces with a large length-to-diameter ratio, auxiliary support devices such as tool rest or center rest can be adopted to reduce the vibration and deformation of the workpiece.

 

Youdaoplaceholder0 Workpiece material inspection ‌ : Before processing, inspect the workpiece material to ensure that the internal structure is uniform and free of defects such as pores and inclusions. For substandard materials, replace or handle them in a timely manner.

 

Youdaoplaceholder0 for the issue of processing parameters ‌

 

Youdaoplaceholder0 Reasonable selection of cutting parameters ‌ : Based on the workpiece material, tool material and processing requirements, reasonably select cutting parameters such as cutting speed, feed rate and depth of cut. The optimal cutting parameters can be determined through cutting tests or by referring to the cutting manual.

 

Youdaoplaceholder0 Enhance cooling and lubrication ‌ : Select appropriate cooling and lubrication methods, such as casting cooling, spray cooling, etc., to ensure there is sufficient cooling and lubrication fluid during the cutting process. Regularly inspect the working condition of the cooling and lubrication system to ensure that the pressure and flow rate of the cooling and lubrication fluid are normal.

 

Youdaoplaceholder0 leads the discussion ‌ : In your actual processing, which type of CNC lathe experiences more unstable concentricity? Is it a common CNC lathe or a more complex machine tool such as a turning and milling compound? Also, does the problem of unstable concentricity occur when processing workpieces of specific materials or specific shapes?