Often used as a synonym for the drug of your choice. In my case this is marijuana, but to a coke-head gear would be cocaine, and to a heroin addict would mean heroin. Discussions with people you don't know very well can therefore become quite confusing, although less so in England where marijuana is purchased in imperial measurements, coke and heroin in metric.

Term used for mecha excavated from archaeological sites in the sci-fi Playstation RPG, Xenogears. After playing through the game, some folks develop the habit of calling all mecha "gears". The main gear in the game, a character in its own right, is named Weltall and, by chance, comes into the possession of the protagonist, Fei Fong Wong, who then develops a need/hate relationship with it.

Gear is also a gear wheel, used in a gearbox

This aims to describe the main types of gear and their arrangement as elements within a gearbox.

Gear wheels & configurations

A gearbox is made up of a series of gearwheels mounted on shafts. Over the years, engineers have thought up many different types of gear wheel and many different arrangements to give a huge range of reduction ratios and other properties. Here are some of the more common.

Spur gear

This is the most basic type of gear wheel. It is the kind of gear wheel you might see in a toy or in a simple drawing. Basically it is a circular wheel, with teeth cut into it. It is a flat shape, extended in the third dimension to make a gear-shaped prism. The teeth are a special shape based on a curve called an involute, which ensures that the gear ratio does not change as the gears engage, transmit their power and then disengage.

The basic spur gear is just fine for delivering small amounts of power, such as in a wristwatch, but as the amount of power increases, the intermeshing teeth start to chatter and vibrate because as two of the gear teeth meet, the full power of the drive is transmitted suddenly to the tooth, with no gradual lead-in. Spur gears are relatively cheap to make, so they tend to be used on low-power drives, or drives where cost is more important than noise.

Helical gear and herring bone gears

One step up from the spur gear. Imagine that 2-dimensional shape of the gear wheel. If a spur gear is made by projecting that shape vertically upward, the helical gear is made in exactly the same way, except that the gear turns a little as it projects upward. So the gear teeth on a spur gear are parallel with the gear axis, but the teeth on a helical gear are not. They make an angle with the gear axis, called the helix angle.

When two matching helical gears engage, the power is gradually transmitted from tooth to tooth, and so there is much less chatter as the gears co-rotate.

The drawback to the helical gear is that the angled teeth introduce a thrust component to the forces as they are transmitted from one gear to the next, so either the designers have to use a thrust bearing to react the load. Alternatively, they put in a second pair of gear wheels with the opposite helix angle. These two gears are often mounted together, and the teeth form a herring bone pattern, which gives rise to the name: herring bone gears.

In both spur and helical gears, the shafts carrying the gears are normally parallel, so that the drive does not usually turn a corner. Although in some arrangements of helical gears, the shafts are not parallel.

Bevel gears

The bevel gear tooth takes the same involute form as a spur gear, but these gears are made in the shape of a coneā€”or rather a frustum, rather than a two-and-a-half dimensional prism. The bevel gear is designed to turn the drive through an angle, usually 90o. As in almost all gearing systems, there is usually a speed reduction as well whenever a set of bevel gears is used. Bevel gears usually come in pairs, so with one smaller than the other, and having a smaller cone angle. The larger gear has a wider cone angle, and the angles and sizes are chosen to give the correct ratios and angles.

This diagram courtesy of WonkoTheSane:

   _  | \
___ |_|== }_______
 ^  | |/// //||\\ \
 |_/  | /_//_||_\\_\ 
            |   |                       
         ___|   |___
        /   |   |   \
        \ > |   |  _/
            |   |

Hypoid gears

these are used most often in an automotive differential, the arrangement at the back of the car which allows the wheels to turn a corner while still provide the driving effort. As the car turns a corner, the inside wheel has to go a shorter distance than the outside wheel, and that means the two wheels cannot be on the same axle, or there will be a lot of sliding and wear. The differential is a special type of gearbox used to transmit drive to the rear wheels, while at the same time allowing them to rotate relative to each other. The reason for using a hypoid gear arrangement is that the drive shaft does not have to be in the same horizontal plane as the line joining the two rear wheels. This arrangement means the drive shaft does not have to protrude into the passenger compartment quite so far as it would if an ordinary gearbox were used.

Worm and wheel

Also called a worm gear, this is one of the more unusual types of gear arrangement in that almost all other gears will work with the input shaft driving the output, or the other way around. The worm and wheel does not do that. The output shaft cannot (normally) be used to drive the input shaft. Also, the worm/wheel offers a very high gear ratio, delivering a very large speed reduction and a large torque multiple in a simple and compact arrangement.

The worm/wheel drive is a very simple idea. The input shaft is attached to a helical screw, called the worm. This engages with the wheel, one tooth in each pitch of the thread. As the input shaft turns, it the worm acts like a screw, forcing the wheel to move forward by one tooth pitch per revolution of the input shaft. The wheel might have 100 or so teeth, giving a gear ratio of 100:1. However, the worm/wheel is quite inefficient because of high friction losses, so the drive does not increase the torque by the full 100 times, but it is, nevertheless, a simple, cheap way of getting a very high drive torque.

Arrangements and designs

The various types of gear can be arranged into different types of gearbox, for example:

Gear (?), n. [OE. gere, ger, AS. gearwe clothing, adornment, armor, fr. gearo, gearu, ready, yare; akin to OHG. garawi, garwi ornament, dress. See Yare, and cf. Garb dress.]


Clothing; garments; ornaments.

Array thyself in thy most gorgeous gear. Spenser.


Goods; property; household stuff.


Homely gear and common ware. Robynson (More's Utopia)


Whatever is prepared for use or wear; manufactured stuff or material.

Clad in a vesture of unknown gear. Spenser.


The harness of horses or cattle; trapping.


Warlike accouterments.




Manner; custom; behavior.




Business matters; affairs; concern.


Thus go they both together to their gear. Spenser.

8. Mech. (a)

A toothed wheel, or cogwheel; as, a spur gear, or a bevel gear; also, toothed wheels, collectively.


An apparatus for performing a special function; gearing; as, the feed gear of a lathe.


Engagement of parts with each other; as, in gear; out of gear.

9. pl. Naut.

See 1st Jeer (b).


Anything worthless; stuff; nonsense; rubbish.

[Obs. or Prov. Eng.]


That servant of his that confessed and uttered this gear was an honest man. Latimer.

Bever gear. See Bevel gear. -- Core gear, a mortise gear, or its skeleton. See Mortise wheel, under Mortise. -- Expansion gear Steam Engine, the arrangement of parts for cutting off steam at a certain part of the stroke, so as to leave it to act upon the piston expansively; the cut-off. See under Expansion. -- Feed gear. See Feed motion, under Feed, n. -- Gear cutter, a machine or tool for forming the teeth of gear wheels by cutting. -- Gear wheel, any cogwheel. -- Running gear. See under Running. -- To throw in, ∨ out of, gear Mach., to connect or disconnect (wheelwork or couplings, etc.); to put in, or out of, working relation.


© Webster 1913.

Gear (?) v. t. [imp. & p. p. Geared (?); p. pr. & vb. n. Gearing.]


To dress; to put gear on; to harness.

2. Mach.

To provide with gearing.

Double geared, driven through twofold compound gearing, to increase the force or speed; -- said of a machine.


© Webster 1913.

Gear, v. i. Mach.

To be in, or come into, gear.


© Webster 1913.

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