The Swiss CNC lathe has efficient and high-precision processing capabilities. However, when facing long-term continuous processing, factors such as thermal deformation may affect its processing accuracy. We can address this issue from the following perspectives.

Firstly, from the hardware configuration of the device, for key components of the Swiss CNC lathe such as the spindle and screw, materials with good thermal conductivity can be used, and specialized heat dissipation channels can be designed around them. For example, adding heat dissipation fins on the spindle housing to quickly dissipate heat through air convection. At the same time, an efficient cooling system is equipped for the walking machine, using a circulating cooling method to accurately deliver the coolant to the heating area and quickly reduce the temperature. Reasonably plan the flow path of the coolant to ensure that it can fully contact the parts that need to be cooled.

In terms of processing technology, optimizing cutting parameters is effective. Reducing cutting speed can decrease the generation of cutting heat. Based on different processing materials and part shapes, find a cutting speed range that can ensure processing efficiency while reducing heat generation. In addition, it is also very important to arrange the processing sequence reasonably. For processing procedures that are prone to generating a large amount of heat, they can be arranged in the early stages of the processing process, so that in subsequent processing, as the equipment runs, the heat can gradually dissipate, reducing the impact on key processing procedures.

Real time monitoring and temperature compensation technology can also solve this problem. By installing temperature sensors at key parts of the Swiss CNC lathe, real-time monitoring of temperature changes in the equipment can be achieved. When the temperature exceeds a certain threshold, the control system can automatically issue an alarm to remind the operator to take corresponding measures. Meanwhile, by utilizing advanced CNC systems, processing parameters can be adjusted in real-time based on temperature changes, achieving temperature compensation and ensuring the stability of processing accuracy.

In addition, regular equipment maintenance and upkeep are also indispensable. Cleaning the chips and oil stains inside the equipment and maintaining a good ventilation environment can help dissipate heat. At the same time, precision testing and adjustment of key components of the equipment are carried out to promptly detect and correct accuracy deviations caused by thermal deformation.