Transmission (mechanics)

Template:Transmission types In mechanics, a transmission or gearbox is the gear and/or hydraulic system that transmits mechanical power from a prime mover (which can be an engine or electric motor), to some form of useful output device. Typically, the rotational speed of an input shaft is changed, resulting in a different output speed. However, some of the simplest gearboxes merely change the physical direction in which power is transmitted. In daily life, individuals most often encounter the transmissions used in automobiles, which cover an ever-expanding array of specific types. However, gearboxes have found use in a wide variety of different—often stationary—applications. Early transmissions included right-angle drives and other gearing in windmills, horse-powered devices, and steam engines, mainly in support of pumping, milling, and hoisting applications.

Most transmissions will either reduce an unsuitable high speed and low torque of the prime mover output shaft to a more useable lower speed with higher torque, or do the opposite and provide a mechanical advantage (i.e increase in torque) to allow higher forces to be generated. Many systems, such as typical automobile transmissions, include the ability to select one of several different gear ratios. In this case, most of the gear ratios (simply called "gears") are used to slow down the output speed of the engine and increase torque. However, the highest gear(s) may be an "overdrive" type that increases the output speed.

Transmissions are also used in agricultural, industrial, construction, and mining equipment. In addition to ordinary transmission equipped with gears, such equipment makes extensive use of the hydrostatic drive and Ward-Leonard controls.

Contents

Simple transmission

The simplest transmissions, often called gearboxes to reflect their simplicity (although complex systems are also called gearboxes on occasion), provide gear reduction (or, more rarely, an increase in speed), sometimes in conjunction with a right-angle change in direction of the shaft. These are often used on PTO-powered agricultural equipment, since the axial PTO shaft is at odds with the usual need for the driven shaft, which is either vertical (as with rotary mowers), or horizontally extending from one side of the implement to another (as with manure spreaders, flail mowers, and forage wagons). More complex equipment, such as silage choppers and snowblowers, has drives with outputs in more than one direction.

Regardless of where they are used, these simple transmissions all share an important feature: the gear ratio cannot be changed during use. It is fixed at the time the transmission is constructed.

Multi-ratio systems

Many applications require the availability of multiple gear ratios. Often, this is to ease the starting and stopping of a mechanical system, though another important need is that of maintaining good fuel economy.

Automotive basics

The need for a transmission in an automobile is a consequence of the characteristics of the internal combustion engine. Engines typically operate over a range of 600 to about 6000 revolutions per minute (though this varies from design to design and is typically less for diesel engines), while the car's wheels rotate between 0 rpm and around 2500 rpm.

Furthermore, the engine provides its highest torque outputs approximately in the middle of its range, while often the greatest torque is required when the vehicle is moving from rest or travelling slowly. Therefore, a system that transforms the engine's output so that it can supply high torque at low speeds, but also operate at highway speeds with the motor still operating within its limits, is required. Transmissions perform this transformation.

Most transmissions and gear boxes used in automotive and truck applications are contained in a cast iron case, though sometimes aluminum is used for lower weight. There are three shafts: a mainshaft, a countershaft, and an idler shaft.

The mainshaft extends outside the case in both directions: the input shaft towards the engine, and the output shaft towards the rear axle. The shaft is suspended by the main bearings, and is split towards the input end. At the point of the split, the pilot bearing holds the shafts together. The gears and clutches ride on the mainshaft, the gears being free to turn relative to the mainshaft except when engaged by the clutches.

The countershaft is generally below the mainshaft and turns in the opposite direction, driven by a bevel gear on the input shaft.

Manual transmission

Missing image
Speedmechanicstransmission.jpg
Cover of Speed Mechanics magazine, showing cutaway of typical automobile manual transmission

Main article: manual transmission

Manual transmissions come in two basic types: a simple unsynchronized system where gears are spinning freely and must be synchronized by the operator to avoid noisy and damaging "gear clash", and synchronized systems that will automatically "mesh" while changing gears.

Automatic transmission

Main article: automatic transmission

Many modern cars have an automatic transmission that will select an appropriate gear ratio without any operator intervention. These have primarily used hydraulics to select gears, depending on pressure exerted by fluid within the transmission assembly. Rather than using a clutch to engage the transmission, a torque converter is put in between the engine and transmission. It is possible for the driver to restrict the number of gears in use (and reverse must be selected manually), though precise control of which gear is in use is not possible.

While they are simple to use, automatic transmissions of this type have a number of problems. They are very complex and expensive, and sometimes have reliability problems (which can cause more expense in repair), and are much less fuel-efficient than their manual counterparts. With the advancement of computer technology, considerable effort has been put into designing gearboxes based on the simpler manual systems that use electronically-controlled actuators to shift gears and manipulate the clutch, resolving many of the drawbacks of a hydraulic automatic transmission.

Automatic transmissions are extremely popular in the fuel-hungry United States, where perhaps 19 of 20 new cars are sold with them (some vehicles are not available with manual gearboxes). This is different in Europe where fuel is much more expensive, though automatic transmissions are quite popular there as well.

Attempts to improve the fuel efficiency of automatic transmissions include the use of torque converters which lock-up beyond a certain speed eliminating power loss, and overdrive gears which automatically actuate above certain speeds; both technologies sometimes become intrusive, when conditions are such that they constantly cut in and out as speed and such load factors as grade or wind vary slightly. Current computerized transmissions possess very complex programming to both maximize fuel efficiency and reduce any intrusiveness.

For certain applications, the slippage inherent in automatic transmissions can be advantageous; for instance, in drag racing, the automatic transmission allows the car to be stopped with the engine at a high rpm (the "stall speed") to allow for a very quick launch when the brakes are released; in fact, a common modification is to increase the stall speed of the transmission. This is even more advantageous for turbocharged engines, where the turbocharger needs to be kept spinning at high rpm by a large flow of exhaust in order to keep the boost pressure up and eliminate the turbo lag that occurs when the engine is idling and the throttle is suddenly opened.

Semi-automatic transmission

Main article: semi-automatic transmission

The creation of computer control also allowed for a sort of half-breed transmission where the car handles manipulation of the clutch automatically, but the driver can still select the gear manually if desired. This is sometimes called "clutchless manual". Many of these transmissions allow the driver to give full control to the computer.

There are some specific types of this transmission, including Tiptronic and Direct Shift Gearbox.

Bicycle gearing

Main articles: derailleur gears, hub gears

Bicycles often have a system for selecting different gear ratios as well. There are two main types, derailleur gears and hub gears. The derailleur type is the most common, and the most visible, using a number of sprocket gears. Typically there are several gears available on the rear sprocket assembly, attached to the rear wheel. A few more sprockets are usually added to the front assembly as well. Multiplying the number of sprocket gears in front with the number to the rear gives the number of different gear ratios, often called "speeds". A 21-speed bike will have three sprocket wheels in front and seven in back.

Hub gears use epicyclic gearing and are enclosed within the axle of the rear wheel. Because of the small space, they typically only offer a handful of different speeds, although at least one has reached the level of 14 different gear ratios.

Unusual types

Continuously-variable transmission

Main article: continuously-variable transmission

The mechanical systems described above only allow a few different gear ratios to be selected, but there does exist a type of transmission that essentially has an infinite number of ratios available. The continuously variable transmission allows the relationship between the speed of the engine and the speed of the wheels to be varied constantly. This can provide even better fuel economy if the engine is constantly running at a single speed. However, this is somewhat disconcerting to drivers, who are accustomed to hearing and feeling the rise and fall in speed of an engine, and the "jerk" felt when changing gears. Changes to software in the computer control system can simulate these effects, however.

Hydrostatic transmission

Hydrostatic transmissions transmit all power with hydraulics, there is no mechanical coupling of the input and output. One half of the transmission is a variable displacement piston pump and the other half is a hydraulic motor. A movable swash plate controls the piston stroke to change the pump's displacement.

They are used in the drive train of some types of heavy equipment and applications requiring continuously variable control. Their disadvantages are high cost and sensitivity to contamination.

See also

nl: Versnellingsmechaniek pl:Skrzynia biegów

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