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There are various types and structures of gear machining machines:

Requirement: The cutting edge shape of the tool should match the tooth groove shape of the gear being cut.

Advantages: The machine tool is relatively simple and can be processed using general-purpose machine tools.

Disadvantages:

After each tooth groove is processed, the workpiece needs to be divided periodically, and the productivity is also relatively low.

2. The processed tooth profile is approximate and the machining accuracy is relatively low;

3. For gears with the same module, as long as the number of teeth is different, the tooth profile shape is different, and different forming tools are required; Gear hobbing method

Busbar (involute): Using forming method, the machine tool does not require surface forming motion. Forming a wire (straight line): Tangent method. Machine tools require two forming movements. One is the rotation B1 of the milling cutter, and the other is the axial movement A of the milling cutter along the tooth blank. Both are simple exercises. After milling a tooth, the milling cutter returns to its original position and the tooth blank undergoes indexing motion - turning 360 degrees/ Z (z is the number of teeth of the processed gear), and then mill the next tooth slot until all teeth are milled.