Overall lathe processing

Integral Lathe processing is the 1 method of rotating raw materials, which can be used to process parts of various shapes. It is the 1 high-efficiency, high-precision processing methods, widely used in aviation, automotive, electronics, machinery and other fields.

The whole lathe processing refers to the raw material fixed on the lathe, through the turning tool for cutting the raw material, so as to obtain the required shape and size of the parts. Overall lathe processing has the following advantages:

High efficiency: The overall lathe processing can realize a variety of cutting methods, including turning, boring, milling, etc., so as to complete a variety of processes on one machine tool and improve processing efficiency.

High precision: The overall lathe processing adopts a closed-loop control system, which can achieve high-precision positioning and processing, and ensure the accuracy requirements of the size and shape of the parts.

Wide range of processing: The overall lathe processing is suitable for processing various materials, including metal, plastic, rubber, etc. Whether it is small or large parts, can be processed on the overall lathe.

Good flexibility: The overall lathe processing has a variety of auxiliary functions, such as automatic tool change, automatic measurement, etc., which can realize automatic processing and improve production efficiency.

The overall lathe processing process includes the following steps:

Preparation work: select appropriate lathes and tools, check the condition of lathes and tools, adjust the parameters of lathes and tools, such as processing speed, feed speed, etc.

Fixing the workpiece: Fix the raw materials on the lathe, and use appropriate fixtures or fixtures to ensure the stability of the workpiece. In the process of fixing, attention should be paid to ensure the relative position of the workpiece and the lathe.

Set the processing parameters: according to the requirements of the workpiece, set the processing parameters, such as cutting speed, feed speed, cutting depth, etc. According to the hardness and toughness of the material, select the appropriate cutting parameters.

Machining the workpiece: place the turning tool on the workpiece, and make the turning tool cut the workpiece through the rotation of the lathe. According to the shape and size requirements of the workpiece, choose different turning tools and cutting methods for processing.

Detection of the workpiece: After the processing is completed, use measuring tools, such as calipers, micrometers, etc., to detect the size and shape of the processed workpiece. According to the test results, judge whether the processing meets the requirements.

Integral lathe processing is the 1 important processing method, it can meet the complex shape, high precision parts processing requirements. With the continuous progress of science and technology, the overall lathe processing technology is also developing, which provides a more efficient and accurate processing means for industrial production. In the future, the overall lathe processing will continue to develop, providing more possibilities for industrial manufacturing.