If you want to do precision parts processing, the four process division principles must be understood!

The division principle of precision parts processing, the parts processed on the milling machine are generally planned according to the processing principle, and there are four planning methods.

(1) Divided according to the tools used. Taking part of the process completed by the same tool as one process, this method is suitable for situations where there are many workpiece surfaces to be processed, the machine tool has a long continuous working time, and the preparation and inspection of the processing program are difficult.

(2) Divided by the number of installations. Taking the part of the process completed in one installation as a process, this method is suitable for workpieces with a small amount of processing, and the inspection state can be reached after the processing is completed.

(3) Rough and fine machining planning. The part of the machining process completed in rough machining is a process, and the part of machining process completed in finishing is a process. This method is suitable for parts that have large deformation after machining and need to be rough and finished separately, such as castings, welded parts or forgings.

(4) Divided by processing part. The part of the processing process that is about to complete the same surface is a process. For parts with many and complex processed surfaces, it can be divided into multiple processes according to its structural characteristics such as internal shape, shape, curved surface and plane.

If you want to do precision parts processing, you must first understand the principles of the above four process divisions, which will help you a lot in the processing field.

Dongguan PTJ Precision Machinery Parts Co., Ltd. focuses on: CNC finishing supporting services for automation, aviation, basic scientific research, optical fiber, communications, semiconductors, electronics, medical equipment, auto parts suspension and other equipment accessories.

Processed materials: aluminum alloy, stainless steel, magnesium alloy, titanium alloy, nickel-based alloy (invar alloy/Invar alloy, kovar alloy/Kova alloy), high temperature alloy, tungsten copper alloy, engineering plastics And other special difficult-to-process materials.

Processed products: precision mechanical parts, medical precision parts, aviation parts, instrumentation parts, optical fiber communication parts, electronic product parts, auto parts, shock absorbers, suspension parts, non-standard components, connectors, High-standard products in industries such as alloy parts, hardware enclosures, and radiators.

The division principle of precision parts processing, the parts processed on the milling machine are generally planned according to the processing principle, and there are four planning methods.

(1) Divided according to the tools used. Taking part of the process completed by the same tool as one process, this method is suitable for situations where there are many workpiece surfaces to be processed, the machine tool has a long continuous working time, and the preparation and inspection of the processing program are difficult.

(2) Divided by the number of installations. Taking the part of the process completed in one installation as a process, this method is suitable for workpieces with a small amount of processing, and the inspection state can be reached after the processing is completed.

(3) Rough and fine machining planning. The part of the machining process completed in rough machining is a process, and the part of machining process completed in finishing is a process. This method is suitable for parts that have large deformation after machining and need to be rough and finished separately, such as castings, welded parts or forgings.

(4) Divided by processing part. The part of the processing process that is about to complete the same surface is a process. For parts with many and complex processed surfaces, it can be divided into multiple processes according to its structural characteristics such as internal shape, shape, curved surface and plane.

If you want to do precision parts processing, you must first understand the principles of the above four process divisions, which will help you a lot in the processing field.

Dongguan PTJ Precision Machinery Parts Co., Ltd. focuses on: CNC finishing supporting services for automation, aviation, basic scientific research, optical fiber, communications, semiconductors, electronics, medical equipment, auto parts suspension and other equipment accessories.

Processed materials: aluminum alloy, stainless steel, magnesium alloy, titanium alloy, nickel-based alloy (invar alloy/Invar alloy, kovar alloy/Kova alloy), high temperature alloy, tungsten copper alloy, engineering plastics And other special difficult-to-process materials.

Processed products: precision mechanical parts, medical precision parts, aviation parts, instrumentation parts, optical fiber communication parts, electronic product parts, auto parts, shock absorbers, suspension parts, non-standard components, connectors, High-standard products in industries such as alloy parts, hardware enclosures, and radiators.