Gear cutting is a group term used to describe several processes that are used to create gears out of gear blanks. The gear-cutting process involves the cutting or abrasion of material from a gear blank to create a gear. Different types of gear cutting include: grinding, shaping, finishing, broaching, hobbing, and milling. Each of these processes has its characteristics.
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This article will discuss what gear cutting is, how it works, and the types.
Gear cutting is the process in which a gear is cut using a milling machine, as opposed to the gear being cast or stamped. Gear cutting can be achieved using a few different processes including: grinding, shaping, broaching, hobbing, and milling.
Gear cutting has a few different methods, but they all work on a similar principle. A gear blank, which is a block shape resembling the final shape of the gear, is given gear teeth using either cutting or abrasion. Cutting uses a special cutting tool mounted on a milling machine which cuts one tooth at a time, whereas the abrasion method uses a shaped grinding disc to abrade away material.
Gear cutting is used to create a series of different gears, which mesh with one another to transmit a rotational force. Most gears are used in the transmission of mechanical power. Several gear-cutting techniques offer the ability to create different gear types. The different gear types have different characteristics including: increased power transmission, reduction in friction, reduction in noise, or low cost.
The use of any form of gear cutting is to create a gear. The different types of gear cutting have different uses. For example, gear grinding is used for high-precision gear cutting, while gear shaping is used for medium production runs for high consistency. Meanwhile, gear finishing is used to increase the precision of other gear cutting methods, gear broaching is used for the quickest production, gear hobbing is used for the best speed and accuracy, and gear milling is used for low-volume custom gears.
Some gear-cutting methods are forms of milling, so they do share some common ground. However, there are also differences which are listed below:
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Milling is by far the most common machining application due to its versatility and necessity in the creation of so many different parts for different applications, whereas gear cutting is limited only to the production of gears.
There are a few ways in which gears can be cut. The most common are discussed below:
Gear grinding uses an abrasive wheel to remove material from a gear blank. The abrasive wheel will rotate at high speed and make contact with the gear blank, imparting its profile into the gear. Gear grinding does come at a high tool and energy cost, and is slower than other methods. However, this process is very precise. Figure 1 is a photo of gear grinding, the pink wheel is the grinding disc which images with the gear blank on the right of the picture:
Spur gears are a cylindrical shaped toothed component used in industrial equipment to transfer mechanical motion as well as control speed, power, and torque. These simple gears are cost-effective, durable, reliable and provide a positive, constant speed drive to facilitate daily industrial operations.
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Spur gears are one of the most popular types of precision cylindrical gears. These gears feature a simple design of straight, parallel teeth positioned around the circumference of a cylinder body with a central bore that fits over a shaft. In many variants, the gear is machined with a hub which thickens the gear body around the bore without changing the gear face. The central bore can also be broached as to allow the spur gear to fit onto a spline or keyed shaft.
Spur gears are used in mechanical applications to increase or decrease the speed of a device or multiply torque by transmitting motion and power from one shaft to another through a series of mated gears.
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