Welded parts

The processing methods for involute gears can be divided into two main categories: one is the profiling method, which uses a forming milling cutter to mill the gear teeth slots, mimicking the shape. The other is the generating method (or shaping method). (1) Gear hobbing machine: can process helical gears with a module of less than 8. (2) Milling machine for gear cutting: can process straight tooth strips. (3) Shaper for gear cutting: can process internal teeth. (4) Cold heading machine for gear cutting: can perform chipless processing. (5) Gear planing machine: can process large gears with a module of 16. (6) Precision casting of gears: can mass-produce inexpensive small gears. (7) Gear grinding machine: can process gears on precision master machines. (8) Die-casting machine for gears: mostly processes non-ferrous metal gears. (9) Gear shaving machine: a metal cutting machine tool used for precision finishing of gears.

Axis type

A gear is a wheel-like mechanical part that transmits torque through the engagement of its teeth. Gears can change speed and torque, alter the direction of motion, and change the form of motion by driving with other toothed mechanical parts (such as another gear, rack, or worm). Due to advantages such as high transmission efficiency, accurate transmission ratios, and a wide power range, gear mechanisms are widely used in industrial products, and their design and manufacturing levels directly affect the quality of industrial products. The teeth of the gears interlock, causing one gear to drive another to transmit power. Separating two gears can also use chains, tracks, or belts to drive the gears on both sides to transmit power.

Axis type

The processing methods for involute gears can be divided into two main categories: one is the profiling method, which uses a forming milling cutter to mill the gear teeth slots, mimicking the shape. The other is the generating method (unfolding method). (1) Gear hobbing machine: can process helical gears with a module of less than 8. (2) Milling machine for gear cutting: can process straight tooth strips. (3) Shaper for gear cutting: can process internal teeth. (4) Cold heading machine for gear cutting: can process without chips. (5) Gear planing machine: can process large gears with a module of 16. (6) Precision casting of teeth: can mass-produce inexpensive small gears. (7) Gear grinding machine: can process gears on precision master machines. (8) Die-casting machine for teeth: mostly processes non-ferrous metal gears. (9) Gear shaving machine: is a metal cutting machine tool used for precision gear finishing.