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Propulsion transmission

January 05, 2023

For other uses, see Transmission (disambiguation).

Propulsion transmission is the mode of transmitting and controlling propulsion power of a machine. The term transmission properly refers to the whole drivetrain, including clutch, gearbox, prop shaft (for rear-wheel drive vehicles), differential, and final drive shafts. In the United States the term is sometimes used in casual speech to refer more specifically to the gearbox alone, and detailed usage differs. The transmission reduces the higher engine speed to the slower wheel speed, increasing torque in the process. Transmissions are also used on pedal bicycles, fixed machines, and where different rotational speeds and torques are adapted.

Single stage gear reducer

Often, a transmission has multiple gear ratios (or simply "gears") with the ability to switch between them as the speed varies. This switching may be done manually (by the operator) or automatically (by a control unit). Directional (forward and reverse) control may also be provided. Single-ratio transmissions also exist, which simply change the speed and torque (and sometimes direction) of motor output. Conventional gear/belt transmissions are not the only mechanism for speed/torque adaptation. Alternative mechanisms include torque converters and power transformation (e.g. diesel-electric transmission and hydraulic drive system). Hybrid configurations also exist. Automatic transmissions use a valve body to shift gears using fluid pressures in response to engine RPM, speed, and throttle input.

Often the term 5-speed transmission refers simply to the gearbox, that uses gears and gear trains to provide speed and torque block conversions from a rotating power source to another device.[1][2] The most common use is in motor vehicles, where the transmission adapts the output of the internal combustion engine to the drive wheels. Such engines need to operate at a relatively high rotational speed, which is inappropriate for starting, stopping, and slower travel. In motor vehicles, the transmission generally is connected to the engine crankshaft via a flywheel or clutch or fluid coupling, partly because internal combustion engines cannot run below a particular speed. The output of the transmission is transmitted via the driveshaft to one or more differentials, which drive the wheels. While a differential may also provide gear reduction, its primary purpose is to permit the wheels at either end of an axle to rotate at different speeds (essential to avoid wheel slippage on turns) as it changes the direction of rotation.

Explanation

 
Interior view of Pantigo Windmill, looking up into cap from floor—cap rack, brake wheel, brake, and wallower. Pantigo Windmill is located on James Lane, East Hampton, Suffolk County, Long Island, New York.

Early transmissions included the right-angle drives and other gearing in windmills, horse-powered devices, and steam engines, in support of pumping, milling, and hoisting.

Most modern gearboxes are used to increase torque while reducing the speed of a prime mover output shaft (e.g. a motor crankshaft). This means that the output shaft of a gearbox rotates at a slower rate than the input shaft, and this reduction in speed produces a mechanical advantage, increasing torque. A gearbox can be set up to do the opposite and provide an increase in shaft speed with a reduction of torque. Some of the simplest gearboxes merely change the physical rotational direction of power transmission.

Many typical automobile transmissions include the ability to select one of several gear ratios. In this case, most of the gear ratios (often simply called "gears") are used to slow down the output speed of the engine and increase torque. However, the highest gears may be "overdrive" types that increase the output speed.

Uses

Gearboxes have found use in a wide variety of different—often stationary—applications, such as wind turbines.

Transmissions are also used in agricultural, industrial, construction, mining and automotive equipment. In addition to ordinary transmission equipped with gears, such equipment makes extensive use of the hydrostatic drive and electrical adjustable-speed drives.

Simple

 
The main gearbox and rotor of a Bristol Sycamore helicopter

The simplest transmissions, often called gearboxes to reflect their simplicity (although complex systems are also called gearboxes in the vernacular), provide gear reduction (or, more rarely, an increase in speed), sometimes in conjunction with a right-angle change in direction of the shaft (typically in helicopters, see picture). 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, have drives with outputs in more than one direction. So too helicopters use a split-torque gearbox where power is taken from the engine in two directions for the different rotors.

 
Gears from a five-speed + reverse gearbox from the 1600 Volkswagen Golf (2009).

The gearbox in a wind turbine converts the slow, high-torque rotation of the turbine into much faster rotation of the electrical generator. These are much larger and more complicated than the PTO gearboxes in farm equipment. They weigh several tons and typically contain three stages to achieve an overall gear ratio from 40:1 to over 100:1, depending on the size of the turbine. (For aerodynamic and structural reasons, larger turbines have to turn more slowly, but the generators all have to rotate at similar speeds of several thousand rpm.) The first stage of the gearbox is usually a planetary gear, for compactness, and to distribute the enormous torque of the turbine over more teeth of the low-speed shaft.[3] Durability of these gearboxes has been a serious problem for a long time.[4]

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.

For transmission types that overcome this issue, see Continuously variable transmission, also known as CVT.

Multi-ratio systems

 
Tractor transmission with 16 forward and 8 backward gears
 
Amphicar gearbox cutaway w/optional shift for water going propellers
"Gearbox" redirects here. For other uses, see Gearbox (disambiguation).

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 efficiency.

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 7000 rpm (though this varies, and is typically less for diesel engines), while the car's wheels rotate between 0 RPM and around 1800 RPM.

Furthermore, the engine provides its highest torque and power outputs unevenly across the rev range resulting in a torque band and a power band. Often the greatest torque is required when the vehicle is moving from rest or traveling slowly, while maximum power is needed at high speed. Therefore, a system is required 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. Transmissions perform this transformation.

 
A diagram comparing the power and torque bands of a "torquey" engine versus a "peaky" one

The dynamics of a car vary with speed: at low speeds, acceleration is limited by the inertia of vehicular gross mass; while at cruising or maximum speeds wind resistance is the dominant barrier.

Many transmissions and gears used in automotive and truck applications are contained in a cast iron case, though more frequently aluminium is used for lower weight especially in cars. There are usually three shafts: the main shaft, a countershaft, and an idler shaft.

The main shaft extends outside the case in both directions: the input shaft towards the engine, and the output shaft towards the rear axle (on rear-wheel-drive cars. Front-wheel-drive vehicles generally have the engine and transmission mounted transversely, the differential being part of the transmission assembly.) The shaft is suspended by the main bearings, and is split towards the input end. At the point of the split, a pilot bearing holds the shafts together. The gears and clutches ride on the main shaft, the gears being free to turn relative to the mainshaft except when engaged by the clutches.

Manual

Main article: Manual transmission
 
16-speed (2x4x2) ZF 16S181 — opened transmission housing (2x4x2)
 
16S181 — opened planetary range housing (2x4x2)

Manual transmissions come in two basic types:

The former type was standard in many vintage cars (alongside; e.g., epicyclic and multi-clutch systems) before the development of constant-mesh manuals and hydraulic-epicyclic automatics, older heavy-duty trucks, and can still be found in use in some agricultural equipment. The latter is the modern standard for on- and off-road transport manual and automated manual transmissions, although it may be found in many forms; e.g., non-synchronized straight-cut in a racetrack or super-heavy-duty applications, non-synchro helical-cut in the majority of heavy-trucks and motorcycles, and in certain classic cars (e.g., the Fiat 500), and partly- or fully-synchronized helical in almost all modern manual-shift passenger cars and light trucks.

Manual transmissions are the most common type outside North America and Australia. They are cheaper, lighter, usually give better performance, but the newest automatic transmissions and CVTs give better fuel economy.[5][6] It is customary for new drivers to learn, and be tested, on a car with a manual gear change. In Malaysia and Denmark all cars used for testing (and because of that, virtually all those used for instruction as well) have a manual transmission. In Japan, the Philippines, Germany, Poland, Italy, Israel, the Netherlands, Belgium, New Zealand, Austria, Bulgaria, the UK,[7] Ireland, Sweden, Norway, Estonia, France, Spain, Switzerland, the Australian states of Victoria,[8] Western Australia and Queensland, Finland, Latvia,[9] Lithuania and the Czech Republic, a test pass using an automatic car does not entitle the driver to use a manual car on the public road; a test with a manual car is required.[citation needed] Manual transmissions are much more common than automatic transmissions in Asia, Africa, South America and Europe.

Manual gearboxes can include both synchromesh engagement and plain tooth to tooth engagement. For example, reverse gear is usually without synchromesh, as the driver is only expected to engage it when the vehicle is at a standstill. Many older (up to 1970s) cars also lacked synchromesh on first gear (for various reasons—cost, typically "shorter" overall gearing, engines typically having more low-end torque), meaning it also could only be used for moving away from a stop unless the driver became adept at double-declutching and had a particular need to regularly downshift into the lowest gear.

Some manual gearboxes have an extremely low ratio for first gear, Referred to in the UK as a crawler gear but some know it as a creeper gear or granny gear. Such gears are usually not engaged via a synchromesh mechanism. This feature is used on larger and heavier vehicles (Goods vehicles, coaches or those made for trailer-towing, farming, or construction-site work. During normal on-road use, the truck is usually driven without using the creeper gear at all, and second gear is used from a standing start. Some off-road vehicles, most particularly the Willys Jeep and its descendants, also had transmissions with "granny first's" either as standard or an option, but this function is now more often provided for by a low-range transfer gearbox attached to a normal fully synchromeshed gearbox.

Non-synchronous

Main article: Non-synchronous transmission

Some commercial applications use non-synchronized manual transmissions that require a skilled operator. Depending on the country, many local, regional, and national laws govern the operation of these types of vehicles (see Commercial Driver's License). This class may include commercial, military, agricultural, or engineering vehicles. Some of these may use combinations of types for multi-purpose functions. An example is a power take-off (PTO) gear. The non-synchronous transmission type requires an understanding of gear range, torque, engine power, and multi-functional clutch and shifter functions. Sequential manual transmissions, which are commonly used in motorcycles and race cars, are a form of non-synchronous manual transmission.

Automatic

Main article: Automatic transmission
 
Epicyclic gearing or planetary gearing as used in an automatic transmission.

Most modern North American and some European and Japanese cars have an automatic transmission that selects an appropriate gear ratio without any operator intervention. They primarily use hydraulics to select gears, depending on pressure exerted by fluid within the transmission assembly. Rather than using a clutch to engage the transmission, a fluid flywheel, or torque converter is placed in between the engine and transmission. It is possible for the driver to control the number of gears in use or select reverse, though precise control of which gear is in use may or may not be possible.

Automatic transmissions are easy to use. However, in the past, some automatic transmissions of this type have had a number of problems; they were complex and expensive, sometimes had reliability problems (which sometimes caused more expenses in repair), have often been less fuel-efficient than their manual counterparts (due to "slippage" in the torque converter), and their shift time was slower than a manual making them uncompetitive for racing. With the advancement of modern automatic transmissions, this has changed.[10]

Attempts to improve the fuel efficiency of automatic transmissions include the use of torque converters that lock up beyond a certain speed or in higher gear ratios, eliminating power loss, and overdrive gears that automatically actuate above certain speeds. In older transmissions, both technologies could be intrusive, when conditions are such that they repeatedly cut in and out as speed and such load factors as grade or wind vary slightly. Current computerized transmissions possess complex programming that both maximizes fuel efficiency and eliminates intrusiveness. This is due mainly to electronic rather than mechanical advances, though improvements in CVT technology and the use of automatic clutches have also helped. A few cars, including the 2013 Subaru Impreza[11] and the 2012 model of the Honda Jazz sold in the UK, actually claim marginally better fuel consumption for the CVT version than the manual version.

For certain applications, the slippage inherent in automatic transmissions can be advantageous. For instance, in drag racing, the automatic transmission allows the car to stop 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 must be kept spinning at high rpm by a large flow of exhaust to maintain the boost pressure and eliminate the turbo lag that occurs when the throttle suddenly opens on an idling engine.

Continuously variable

Main article: Continuously variable transmission

The continuously variable transmission (CVT) is a transmission in which the ratio of the rotational speeds of two shafts, as the input shaft and output shaft of a vehicle or other machine, can be varied continuously within a given range, providing an infinite number of possible ratios. The CVT allows the driver or a computer to select the relationship between the speed of the engine and the speed of the wheels within a continuous range. This can provide even better fuel economy if the engine constantly runs at a single speed. The transmission is, in theory, capable of better user experience, without the rise and fall in the speed of an engine, and the jerk felt when changing gears poorly.

CVTs are increasingly found on small cars and especially high-gas-mileage or hybrid vehicles. On these platforms, the torque is limited because the electric motor can provide torque without changing the speed of the engine. By leaving the engine running at the rate that generates the best gas mileage for the given operating conditions, overall mileage can be improved over a system with a smaller number of fixed gears, where the system may be operating at peak efficiency only for a small range of speeds. CVTs are also found in agricultural equipment; due to the high-torque nature of these vehicles, mechanical gears are integrated to provide tractive force at high speeds. The system is similar to that of a hydrostatic gearbox, and at 'inching speeds' relies entirely on a hydrostatic drive. German tractor manufacturer Fendt pioneered the technology, developing its 'Vario - YouTube' transmission.

Electric variable

Main article: hybrid vehicle drivetrain

The Electric Variable Transmission (EVT or e-CVT) are used in hybrid vehicle combines the output of an electric motor and a gasoline engine, and like a CVT, provides continuously varied gear ratios.

In the common implementation, a gasoline engine is connected to a traditional transmission, which is in turn connected to an epicyclic gear system's planet carrier. An electric motor/generator is connected to the central "sun" gear, which is normally un-driven in typical epicyclic systems. Both sources of power can be fed into the transmission's output at the same time, splitting power between them. In common examples, between one-quarter and half of the engine's power can be fed into the sun gear. Depending on the implementation, the transmission in front of the epicyclic system may be greatly simplified or eliminated. EVTs are capable of continuously modulating output/input speed ratios like mechanical CVTs, but offer the distinct benefit of being able to also apply power from two different sources to one output, as well as potentially reducing overall complexity dramatically.

In typical implementations, the gear ratio of the transmission and epicyclic system is set to the ratio of the common driving conditions, say highway speed for a car, or city speeds for a bus. When the driver presses on the gas, the associated electronics interpret the pedal position and immediately set the gasoline engine to the RPM that provides the best gas mileage for that setting. As the gear ratio is normally set far from the maximum torque point, this set-up would normally result in very poor acceleration. Unlike gasoline engines, electric motors offer efficient torque across a wide selection of RPM and are especially effective at low settings where the gasoline engine is inefficient. By varying the electrical load or supply on the motor attached to the sun gear, additional torque can be provided to make up for the low torque output from the engine. As the vehicle accelerates, the power to the motor is reduced and eventually ended, providing the illusion of a CVT.

The canonical example of the e-CVT is Toyota's Hybrid Synergy Drive. This implementation has no conventional transmission, and the sun gear always receives 28% of the torque from the engine. This power can be used to operate any electrical loads in the vehicle, recharging the batteries, powering the entertainment system, or running the air conditioning system. Any residual power is then fed back into a second motor that powers the output of the drivetrain directly. At highway speeds, this additional generator/motor pathway is less efficient than simply powering the wheels directly. However, during acceleration, the electrical path is much more efficient than an engine operating so far from its torque point.[12] GM uses a similar system in the Allison Bus hybrid powertrains and the Tahoe and Yukon pick-up trucks, but these use a two-speed transmission in front of the epicyclic system, and the sun gear receives close to half the total power.

Automated manual

Main article: Automated manual transmission

Automated manual transmission (AMT) denotes a type of multi-speed motor vehicle transmission system that is closely based on the mechanical design and build of a conventional manual transmission,[13][14][15][16][17] but uses automation to control either the clutch, and/or the gear shifting.

Modern versions of these systems began to appear on mass-production automobiles in the mid-1990s, and are fully-automatic in operation. Tradenames include Selespeed and Easytronic, and they can control both the clutch operation and the gear shifts automatically, by means of an ECU, therefore requiring no manual intervention or driver input over gear changes.[18][19]

The usage of modern computer-controlled AMTs in passenger cars increased during the mid-1990s, as a more sporting alternative to the traditional hydraulic automatic transmission. During the 2010s, AMTs were largely replaced by the increasingly widespread dual-clutch transmission design.

Clutchless manual / Semi-automatic

Main article: Semi-automatic transmission

Semi-automatic transmission denotes a multi-speed motor vehicle transmission where part of its operation is automated (usually the clutch actuation), but the driver's input is still required to manually change gear ratios. Most semi-automatic transmissions used in cars and motorcycles are based on conventional manual transmissions or a sequential manual transmission, but use an automatic clutch system. Occasionally, however, some semi-automatic transmissions have also been based on standard hydraulic automatic transmissions, with a fluid coupling or torque converter, and using a planetary gearset.[20][21]

Names for specific types of semi-automatic transmissions include clutchless manual,[22][23] auto-manual,[24] auto-clutch manual,[25][26] and paddle-shift transmissions.[27][28][29] These systems facilitate gear shifts for the driver by operating the clutch system automatically, usually by means, or under control of an actuator or servo, and sensors, while still requiring the driver to manually shift gears

The first usage of semi-automatic transmissions was in automobiles, increasing in popularity in the mid-1930s when they were offered by several American car manufacturers. Less common than traditional (hydraulic) automatic transmissions, semi-automatic transmissions have nonetheless been made available on various car and motorcycle models, and currently remain in production. Semi-automatic transmissions with paddle-shift operation have been used in various racing cars, and were first introduced to control the electro-hydraulic gear shift mechanism of the Ferrari 640 Formula One race car in 1989.[30] These systems are currently used on a variety of top-level racing car classes; including Formula One, Indycar, and Touring car racing.[31][32] Other applications include motorcycles, trucks, buses, and railway vehicles.

Early semi-automatic systems used a variety of mechanical, electrical, pneumatic, and hydraulic systems—including centrifugal clutches, vacuum-operated clutches, torque converters, electro-pneumatic clutches, electro-mechanical (and even electrostatic) and servo/solenoid-controlled clutches, and control schemes—automatic clutching when moving the gearshift, pre-selector controls, centrifugal clutches with drum-sequential-shift, requiring the driver to lift the throttle for a successful shift, etc.—and some were little more than regular lock-up torque converter automatics with manual gear selection. Semi-automatic transmission systems on motorcycles generally use a centrifugal clutch.

An example of this transmission type in automobiles is the VW Autostick semi-automatic transmission; a conventional 3-speed manual transmission, with a vacuum-operated automatic clutch, plus a torque converter (like in a regular automatic), and a standard gear shifter.[33]

Semi-automatic transmissions on motorcycles and ATVs still require the driver to manually shift gears, and generally use a conventional sequential manual foot-shift lever, coupled with an automatic centrifugal clutch, so there is no manually-operated clutch lever on the handlebar for the driver to use, as it is a fully-automated clutch system.

Sequential manual

 
Operation of a typical 4-speed sequential manual transmission; commonly used in motorcycles and race cars.

A sequential manual transmission (like the kind of gearbox used on a fully-manual motorcycle) is a type of multi-speed non-synchronous manual transmission, which only allows the driver to select either the next gear (e.g., shifting from second gear to first gear) or the previous gear (e.g. shifting from second gear to third gear), in a successive order. This restriction avoids accidentally selecting the wrong gear, however, it also prevents the driver from deliberately "skipping" gears. The clutch in a sequential manual transmission is only needed when going from a standstill (i.e., stationary; neutral) into first gear, after which the gears are forced into place by the dogs. This contrasts with a conventional manual transmission, which uses synchromesh for smooth gear shifts.[34] The use of dog-clutches (rather than synchromesh) results in faster shift speeds than a manual transmission.[35]

Sequential manual transmissions use the rotation of a drum and selector forks to switch gears, like what is used on a fully-manual motorcycle transmission.[36] The shift-drum mechanism is connected and rotated in a fore-and-aft motion by either a mechanical linkage (e.g., shift lever) or via an electro-pneumatic or electro-hydraulic control system, which typically will mechanically connect to the shift forks and dog clutches, and is operated with paddle-shifters, behind the steering wheel. They can also be designed with manual or automatic clutch systems. Semi-automatic sequential transmissions (with automatic clutches) may be found both in automobiles (mainly track and some rally racecars, e.g. paddle-shift), motorcycles (typically light "step-thru" type city utility bikes, e.g.; the Honda Super Cub) and quad bikes (often with a separately engaged reversing gear), the latter two normally using a scooter-style centrifugal clutch.

On a sequential manual transmission, the shift lever operates a ratchet mechanism that converts the fore and aft motion of the shift lever into rotation of a selector drum (sometimes called a barrel) which has three or four tracks machined around its circumference.[37] Selector forks are guided by the tracks, either directly or via selector rods. The tracks deviate around the circumference and as the drum rotates, the selector forks are moved to select the required gear.[38]

Bicycle gearing

 
Shimano XT rear derailleur on a mountain bike
Main articles: Bicycle gearing, Derailleur gears, and Hub gear

Bicycles usually have a system for selecting different gear ratios. There are two main types: derailleur gears and hub gears. The derailleur type is the most common, and the most visible, using 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 by the number to the rear gives the number of gear ratios, often called "speeds".

Several attempts have been made to fit bicycles with an enclosed gearbox, giving obvious advantages for better lubrication, dirt-sealing and shifting. These have usually been in conjunction with a shaft drive, as a gearbox with a traditional chain would (like the hub gear) still have many of the derailleur's disadvantages for an exposed chain. Bicycle gearboxes are enclosed in a box replacing the traditional bottom bracket. The requirement for a modified frame has been a serious drawback to their adoption. One of the most recent attempts to provide a gearbox for bicycles is the 18 speed Pinion P1.18.[39][40][41] This gives an enclosed gearbox, but still a traditional chain. When fitted to a rear suspension bike, it also retains a derailleur-like jockey cage chain tensioner, although without the derailleur's low ground clearance.

Causes for failure of bicycle gearing include worn teeth, damage caused by a faulty chain, damage due to thermal expansion, broken teeth due to excessive pedaling force, interference by foreign objects, and loss of lubrication due to negligence.

Uncommon types

Dual-clutch transmission

Main article: Dual-clutch transmission

A dual-clutch transmission (DCT) (sometimes referred to as a twin-clutch transmission, or a double-clutch transmission) is a type of multi-speed vehicle transmission system, that uses two separate clutches for odd and even gear sets.[42] The design is often similar to two separate manual transmissions with their respective clutches contained within one housing, and working as one unit.[43][44] In car and truck applications, the DCT functions as an automatic transmission, requiring no driver input to change gears.

A dual-clutch transmission uses two sets of internals, each with its own clutch, so that a "gearchange" actually only consists of one clutch engaging as the other disengages—providing a supposedly "seamless" shift with no break in (or jarring reuptake of) power transmission. Each clutch's attached shaft carries half of the total input gear complement (with a shared output shaft), including synchronized dog clutch systems that pre-select which of its set of ratios is most likely needed at the next shift, under command of a computerized control system. Specific types of this transmission include: Direct-Shift Gearbox and Twin-Clutch SST.

Infinitely variable

The IVT is a specific type of CVT that includes not only an infinite number of gear ratios, but an "infinite" range as well. This is a turn of phrase, it actually refers to CVTs that are able to include a "zero ratio", where the input shaft can turn without any motion of the output shaft while remaining in gear. The gear ratio, in that case, is not "infinite" but is instead zero.

Most (if not all) IVTs result from the combination of a CVT with an epicyclic gear system with a fixed ratio. The combination of the fixed ratio of the epicyclic gear with a specific matching ratio in the CVT side results in zero output. For instance, consider a transmission with an epicyclic gear set to 1:−1 gear ratio; a 1:1 reverse gear. When the CVT side is set to 1:1 the two ratios add up to zero output. The IVT is always engaged, even during its zero output. When the CVT is set to higher values it operates conventionally, with increasing forward ratios.

In practice, the epicyclic gear may be set to the lowest possible ratio of the CVT, if reversing is not needed or is handled through other means. Reversing can be incorporated by setting the epicyclic gear ratio somewhat higher than the lowest ratio of the CVT, providing a range of reverse ratios.

Direct-drive mechanism

Further information: Direct-drive mechanism

A direct-drive mechanism is where the transmitting of mechanical power and torque from an electric motor to the output device (such as the driven wheels of a car) occurs without any gearing reductions.[45][46][47]

Several cars from the late 19th century used direct-drive wheel hub motors, as did some concept cars in the early 2000s; however, most modern electric cars use inboard motor(s), where drive is transferred to the wheels, via the driveshaft or axles.[48][49]

Non-direct

Electric

Main article: Electric transmission (propulsion)

Electric transmissions convert the mechanical power of the engine(s) to electricity with electric generators and convert it back to mechanical power with electric motors. Electrical or electronic adjustable-speed drive control systems are used to control the speed and torque of the motors. If the generators are driven by turbines, such arrangements are called turbo-electric transmission. Likewise, installations powered by diesel-engines are called diesel-electric.

Diesel-electric arrangements are used on many railway locomotives, ships, large mining trucks, and some bulldozers. In these cases, each driven wheel is equipped with its own electric motor, which can be fed varying electrical power to provide any required torque or power output for each wheel independently. This produces a much simpler solution for multiple driven wheels in very large vehicles, where driveshafts would be much larger or heavier than the electrical cable that can provide the same amount of power. It also improves the ability to allow different wheels to run at different speeds, which is useful for steered wheels in large construction vehicles.

Hydrostatic

See also Continuously variable transmission > Hydrostatic CVTs

Hydrostatic transmissions transmit all power hydraulically, using the components of hydraulic machinery. They are similar to electrical transmissions but use the hydraulic fluid as the power distribution system rather than electricity.

The transmission input drive is a central hydraulic pump and the final drive unit(s) is/are a hydraulic motor or hydraulic cylinder (see: swashplate). Both components can be placed physically far apart on the machine, being connected only by flexible hoses. Hydrostatic drive systems are used on excavators, lawn tractors, forklifts, winch drive systems, heavy lift equipment, agricultural machinery, earth-moving equipment, etc. An arrangement for motor-vehicle transmission was probably used on the Ferguson F-1 P99 racing car in about 1961.

The Human Friendly Transmission of the Honda DN-01 is hydrostatic.

Hydrodynamic

If the hydraulic pump or hydraulic motor makes use of the hydrodynamic effects of the fluid flow, i.e. pressure due to a change in the fluid's momentum as it flows through vanes in a turbine. The pump and motor usually consist of rotating vanes without seals and are typically placed in proximity. The transmission ratio can be made to vary by means of additional rotating vanes, an effect similar to varying the pitch of an airplane propeller.

The torque converter in most automotive automatic transmissions is, in itself, a hydrodynamic transmission. Hydrodynamic transmissions are used in many passenger rail vehicles, those that are not using electrical transmissions. In this application, the advantage of smooth power delivery may outweigh the reduced efficiency caused by turbulence energy losses in the fluid.

See also

Notes

References

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Further reading

  • Harald Naunheimer; Peter Fietkau; G Lechner (2011). Automotive transmissions : fundamentals, selection, design and application (2nd ed.). Springer. doi:10.1007/978-3-642-16214-5. ISBN 9783642162138.

External links

 
Look up transmission in Wiktionary, the free dictionary.
  •   Media related to Transmissions at Wikimedia Commons
  • Manual Transmission Operation on YouTube WeberAuto 2012-09-23

January 05, 2023
propulsion, transmission, other, uses, transmission, disambiguation, mode, transmitting, controlling, propulsion, power, machine, term, transmission, properly, refers, whole, drivetrain, including, clutch, gearbox, prop, shaft, rear, wheel, drive, vehicles, di. For other uses see Transmission disambiguation Propulsion transmission is the mode of transmitting and controlling propulsion power of a machine The term transmission properly refers to the whole drivetrain including clutch gearbox prop shaft for rear wheel drive vehicles differential and final drive shafts In the United States the term is sometimes used in casual speech to refer more specifically to the gearbox alone and detailed usage differs The transmission reduces the higher engine speed to the slower wheel speed increasing torque in the process Transmissions are also used on pedal bicycles fixed machines and where different rotational speeds and torques are adapted Single stage gear reducer Often a transmission has multiple gear ratios or simply gears with the ability to switch between them as the speed varies This switching may be done manually by the operator or automatically by a control unit Directional forward and reverse control may also be provided Single ratio transmissions also exist which simply change the speed and torque and sometimes direction of motor output Conventional gear belt transmissions are not the only mechanism for speed torque adaptation Alternative mechanisms include torque converters and power transformation e g diesel electric transmission and hydraulic drive system Hybrid configurations also exist Automatic transmissions use a valve body to shift gears using fluid pressures in response to engine RPM speed and throttle input Often the term 5 speed transmission refers simply to the gearbox that uses gears and gear trains to provide speed and torque block conversions from a rotating power source to another device 1 2 The most common use is in motor vehicles where the transmission adapts the output of the internal combustion engine to the drive wheels Such engines need to operate at a relatively high rotational speed which is inappropriate for starting stopping and slower travel In motor vehicles the transmission generally is connected to the engine crankshaft via a flywheel or clutch or fluid coupling partly because internal combustion engines cannot run below a particular speed The output of the transmission is transmitted via the driveshaft to one or more differentials which drive the wheels While a differential may also provide gear reduction its primary purpose is to permit the wheels at either end of an axle to rotate at different speeds essential to avoid wheel slippage on turns as it changes the direction of rotation Contents 1 Explanation 2 Uses 3 Simple 4 Multi ratio systems 4 1 Automotive basics 4 2 Manual 4 3 Non synchronous 4 4 Automatic 4 5 Continuously variable 4 6 Electric variable 4 7 Automated manual 4 8 Clutchless manual Semi automatic 4 9 Sequential manual 4 10 Bicycle gearing 5 Uncommon types 5 1 Dual clutch transmission 5 2 Infinitely variable 5 3 Direct drive mechanism 6 Non direct 6 1 Electric 6 2 Hydrostatic 6 3 Hydrodynamic 7 See also 8 Notes 9 References 10 Further reading 11 External linksExplanation Edit Interior view of Pantigo Windmill looking up into cap from floor cap rack brake wheel brake and wallower Pantigo Windmill is located on James Lane East Hampton Suffolk County Long Island New York Early transmissions included the right angle drives and other gearing in windmills horse powered devices and steam engines in support of pumping milling and hoisting Most modern gearboxes are used to increase torque while reducing the speed of a prime mover output shaft e g a motor crankshaft This means that the output shaft of a gearbox rotates at a slower rate than the input shaft and this reduction in speed produces a mechanical advantage increasing torque A gearbox can be set up to do the opposite and provide an increase in shaft speed with a reduction of torque Some of the simplest gearboxes merely change the physical rotational direction of power transmission Many typical automobile transmissions include the ability to select one of several gear ratios In this case most of the gear ratios often simply called gears are used to slow down the output speed of the engine and increase torque However the highest gears may be overdrive types that increase the output speed Uses EditGearboxes have found use in a wide variety of different often stationary applications such as wind turbines Transmissions are also used in agricultural industrial construction mining and automotive equipment In addition to ordinary transmission equipped with gears such equipment makes extensive use of the hydrostatic drive and electrical adjustable speed drives Simple Edit The main gearbox and rotor of a Bristol Sycamore helicopter The simplest transmissions often called gearboxes to reflect their simplicity although complex systems are also called gearboxes in the vernacular provide gear reduction or more rarely an increase in speed sometimes in conjunction with a right angle change in direction of the shaft typically in helicopters see picture 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 have drives with outputs in more than one direction So too helicopters use a split torque gearbox where power is taken from the engine in two directions for the different rotors Gears from a five speed reverse gearbox from the 1600 Volkswagen Golf 2009 The gearbox in a wind turbine converts the slow high torque rotation of the turbine into much faster rotation of the electrical generator These are much larger and more complicated than the PTO gearboxes in farm equipment They weigh several tons and typically contain three stages to achieve an overall gear ratio from 40 1 to over 100 1 depending on the size of the turbine For aerodynamic and structural reasons larger turbines have to turn more slowly but the generators all have to rotate at similar speeds of several thousand rpm The first stage of the gearbox is usually a planetary gear for compactness and to distribute the enormous torque of the turbine over more teeth of the low speed shaft 3 Durability of these gearboxes has been a serious problem for a long time 4 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 For transmission types that overcome this issue see Continuously variable transmission also known as CVT Multi ratio systems Edit Tractor transmission with 16 forward and 8 backward gears Amphicar gearbox cutaway w optional shift for water going propellers Gearbox redirects here For other uses see Gearbox disambiguation 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 efficiency Automotive basics Edit 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 7000 rpm though this varies and is typically less for diesel engines while the car s wheels rotate between 0 RPM and around 1800 RPM Furthermore the engine provides its highest torque and power outputs unevenly across the rev range resulting in a torque band and a power band Often the greatest torque is required when the vehicle is moving from rest or traveling slowly while maximum power is needed at high speed Therefore a system is required 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 Transmissions perform this transformation A diagram comparing the power and torque bands of a torquey engine versus a peaky one The dynamics of a car vary with speed at low speeds acceleration is limited by the inertia of vehicular gross mass while at cruising or maximum speeds wind resistance is the dominant barrier Many transmissions and gears used in automotive and truck applications are contained in a cast iron case though more frequently aluminium is used for lower weight especially in cars There are usually three shafts the main shaft a countershaft and an idler shaft The main shaft extends outside the case in both directions the input shaft towards the engine and the output shaft towards the rear axle on rear wheel drive cars Front wheel drive vehicles generally have the engine and transmission mounted transversely the differential being part of the transmission assembly The shaft is suspended by the main bearings and is split towards the input end At the point of the split a pilot bearing holds the shafts together The gears and clutches ride on the main shaft the gears being free to turn relative to the mainshaft except when engaged by the clutches Manual Edit Main article Manual transmission 16 speed 2x4x2 ZF 16S181 opened transmission housing 2x4x2 16S181 opened planetary range housing 2x4x2 Manual transmissions come in two basic types A simple but rugged sliding mesh or unsynchronized non synchronous system where straight cut spur gear sets spin freely and must be synchronized by the operator matching engine revs to road speed to avoid noisy and damaging clashing of the gears The now ubiquitous constant mesh gearboxes which can be include unsynchronized non synchronized or synchronized synchromesh systems where typically diagonal cut helical or sometimes either straight cut or double helical gear sets are constantly meshed together and a dog clutch is used for changing gears On synchromesh boxes friction cones or synchro rings are used in addition to the dog clutch to closely match the rotational speeds of the two sides of the declutched transmission before making a full mechanical engagement The former type was standard in many vintage cars alongside e g epicyclic and multi clutch systems before the development of constant mesh manuals and hydraulic epicyclic automatics older heavy duty trucks and can still be found in use in some agricultural equipment The latter is the modern standard for on and off road transport manual and automated manual transmissions although it may be found in many forms e g non synchronized straight cut in a racetrack or super heavy duty applications non synchro helical cut in the majority of heavy trucks and motorcycles and in certain classic cars e g the Fiat 500 and partly or fully synchronized helical in almost all modern manual shift passenger cars and light trucks Manual transmissions are the most common type outside North America and Australia They are cheaper lighter usually give better performance but the newest automatic transmissions and CVTs give better fuel economy 5 6 It is customary for new drivers to learn and be tested on a car with a manual gear change In Malaysia and Denmark all cars used for testing and because of that virtually all those used for instruction as well have a manual transmission In Japan the Philippines Germany Poland Italy Israel the Netherlands Belgium New Zealand Austria Bulgaria the UK 7 Ireland Sweden Norway Estonia France Spain Switzerland the Australian states of Victoria 8 Western Australia and Queensland Finland Latvia 9 Lithuania and the Czech Republic a test pass using an automatic car does not entitle the driver to use a manual car on the public road a test with a manual car is required citation needed Manual transmissions are much more common than automatic transmissions in Asia Africa South America and Europe Manual gearboxes can include both synchromesh engagement and plain tooth to tooth engagement For example reverse gear is usually without synchromesh as the driver is only expected to engage it when the vehicle is at a standstill Many older up to 1970s cars also lacked synchromesh on first gear for various reasons cost typically shorter overall gearing engines typically having more low end torque meaning it also could only be used for moving away from a stop unless the driver became adept at double declutching and had a particular need to regularly downshift into the lowest gear Some manual gearboxes have an extremely low ratio for first gear Referred to in the UK as a crawler gear but some know it as a creeper gear or granny gear Such gears are usually not engaged via a synchromesh mechanism This feature is used on larger and heavier vehicles Goods vehicles coaches or those made for trailer towing farming or construction site work During normal on road use the truck is usually driven without using the creeper gear at all and second gear is used from a standing start Some off road vehicles most particularly the Willys Jeep and its descendants also had transmissions with granny first s either as standard or an option but this function is now more often provided for by a low range transfer gearbox attached to a normal fully synchromeshed gearbox Non synchronous Edit Main article Non synchronous transmission Some commercial applications use non synchronized manual transmissions that require a skilled operator Depending on the country many local regional and national laws govern the operation of these types of vehicles see Commercial Driver s License This class may include commercial military agricultural or engineering vehicles Some of these may use combinations of types for multi purpose functions An example is a power take off PTO gear The non synchronous transmission type requires an understanding of gear range torque engine power and multi functional clutch and shifter functions Sequential manual transmissions which are commonly used in motorcycles and race cars are a form of non synchronous manual transmission Automatic Edit Main article Automatic transmission Epicyclic gearing or planetary gearing as used in an automatic transmission Most modern North American and some European and Japanese cars have an automatic transmission that selects an appropriate gear ratio without any operator intervention They primarily use hydraulics to select gears depending on pressure exerted by fluid within the transmission assembly Rather than using a clutch to engage the transmission a fluid flywheel or torque converter is placed in between the engine and transmission It is possible for the driver to control the number of gears in use or select reverse though precise control of which gear is in use may or may not be possible Automatic transmissions are easy to use However in the past some automatic transmissions of this type have had a number of problems they were complex and expensive sometimes had reliability problems which sometimes caused more expenses in repair have often been less fuel efficient than their manual counterparts due to slippage in the torque converter and their shift time was slower than a manual making them uncompetitive for racing With the advancement of modern automatic transmissions this has changed 10 Attempts to improve the fuel efficiency of automatic transmissions include the use of torque converters that lock up beyond a certain speed or in higher gear ratios eliminating power loss and overdrive gears that automatically actuate above certain speeds In older transmissions both technologies could be intrusive when conditions are such that they repeatedly cut in and out as speed and such load factors as grade or wind vary slightly Current computerized transmissions possess complex programming that both maximizes fuel efficiency and eliminates intrusiveness This is due mainly to electronic rather than mechanical advances though improvements in CVT technology and the use of automatic clutches have also helped A few cars including the 2013 Subaru Impreza 11 and the 2012 model of the Honda Jazz sold in the UK actually claim marginally better fuel consumption for the CVT version than the manual version For certain applications the slippage inherent in automatic transmissions can be advantageous For instance in drag racing the automatic transmission allows the car to stop 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 must be kept spinning at high rpm by a large flow of exhaust to maintain the boost pressure and eliminate the turbo lag that occurs when the throttle suddenly opens on an idling engine Continuously variable Edit Main article Continuously variable transmission The continuously variable transmission CVT is a transmission in which the ratio of the rotational speeds of two shafts as the input shaft and output shaft of a vehicle or other machine can be varied continuously within a given range providing an infinite number of possible ratios The CVT allows the driver or a computer to select the relationship between the speed of the engine and the speed of the wheels within a continuous range This can provide even better fuel economy if the engine constantly runs at a single speed The transmission is in theory capable of better user experience without the rise and fall in the speed of an engine and the jerk felt when changing gears poorly CVTs are increasingly found on small cars and especially high gas mileage or hybrid vehicles On these platforms the torque is limited because the electric motor can provide torque without changing the speed of the engine By leaving the engine running at the rate that generates the best gas mileage for the given operating conditions overall mileage can be improved over a system with a smaller number of fixed gears where the system may be operating at peak efficiency only for a small range of speeds CVTs are also found in agricultural equipment due to the high torque nature of these vehicles mechanical gears are integrated to provide tractive force at high speeds The system is similar to that of a hydrostatic gearbox and at inching speeds relies entirely on a hydrostatic drive German tractor manufacturer Fendt pioneered the technology developing its Vario YouTube transmission Electric variable Edit This section may require cleanup to meet Wikipedia s quality standards The specific problem is need to disambig between hybrid vehicle drivetrain and Belgian UGent electromagnetic EVT Please help improve this section if you can September 2021 Learn how and when to remove this template message Main article hybrid vehicle drivetrain The Electric Variable Transmission EVT or e CVT are used in hybrid vehicle combines the output of an electric motor and a gasoline engine and like a CVT provides continuously varied gear ratios In the common implementation a gasoline engine is connected to a traditional transmission which is in turn connected to an epicyclic gear system s planet carrier An electric motor generator is connected to the central sun gear which is normally un driven in typical epicyclic systems Both sources of power can be fed into the transmission s output at the same time splitting power between them In common examples between one quarter and half of the engine s power can be fed into the sun gear Depending on the implementation the transmission in front of the epicyclic system may be greatly simplified or eliminated EVTs are capable of continuously modulating output input speed ratios like mechanical CVTs but offer the distinct benefit of being able to also apply power from two different sources to one output as well as potentially reducing overall complexity dramatically In typical implementations the gear ratio of the transmission and epicyclic system is set to the ratio of the common driving conditions say highway speed for a car or city speeds for a bus When the driver presses on the gas the associated electronics interpret the pedal position and immediately set the gasoline engine to the RPM that provides the best gas mileage for that setting As the gear ratio is normally set far from the maximum torque point this set up would normally result in very poor acceleration Unlike gasoline engines electric motors offer efficient torque across a wide selection of RPM and are especially effective at low settings where the gasoline engine is inefficient By varying the electrical load or supply on the motor attached to the sun gear additional torque can be provided to make up for the low torque output from the engine As the vehicle accelerates the power to the motor is reduced and eventually ended providing the illusion of a CVT The canonical example of the e CVT is Toyota s Hybrid Synergy Drive This implementation has no conventional transmission and the sun gear always receives 28 of the torque from the engine This power can be used to operate any electrical loads in the vehicle recharging the batteries powering the entertainment system or running the air conditioning system Any residual power is then fed back into a second motor that powers the output of the drivetrain directly At highway speeds this additional generator motor pathway is less efficient than simply powering the wheels directly However during acceleration the electrical path is much more efficient than an engine operating so far from its torque point 12 GM uses a similar system in the Allison Bus hybrid powertrains and the Tahoe and Yukon pick up trucks but these use a two speed transmission in front of the epicyclic system and the sun gear receives close to half the total power Automated manual Edit Main article Automated manual transmission Automated manual transmission AMT denotes a type of multi speed motor vehicle transmission system that is closely based on the mechanical design and build of a conventional manual transmission 13 14 15 16 17 but uses automation to control either the clutch and or the gear shifting Modern versions of these systems began to appear on mass production automobiles in the mid 1990s and are fully automatic in operation Tradenames include Selespeed and Easytronic and they can control both the clutch operation and the gear shifts automatically by means of an ECU therefore requiring no manual intervention or driver input over gear changes 18 19 The usage of modern computer controlled AMTs in passenger cars increased during the mid 1990s as a more sporting alternative to the traditional hydraulic automatic transmission During the 2010s AMTs were largely replaced by the increasingly widespread dual clutch transmission design Clutchless manual Semi automatic Edit Main article Semi automatic transmission Semi automatic transmission denotes a multi speed motor vehicle transmission where part of its operation is automated usually the clutch actuation but the driver s input is still required to manually change gear ratios Most semi automatic transmissions used in cars and motorcycles are based on conventional manual transmissions or a sequential manual transmission but use an automatic clutch system Occasionally however some semi automatic transmissions have also been based on standard hydraulic automatic transmissions with a fluid coupling or torque converter and using a planetary gearset 20 21 Names for specific types of semi automatic transmissions include clutchless manual 22 23 auto manual 24 auto clutch manual 25 26 and paddle shift transmissions 27 28 29 These systems facilitate gear shifts for the driver by operating the clutch system automatically usually by means or under control of an actuator or servo and sensors while still requiring the driver to manually shift gearsThe first usage of semi automatic transmissions was in automobiles increasing in popularity in the mid 1930s when they were offered by several American car manufacturers Less common than traditional hydraulic automatic transmissions semi automatic transmissions have nonetheless been made available on various car and motorcycle models and currently remain in production Semi automatic transmissions with paddle shift operation have been used in various racing cars and were first introduced to control the electro hydraulic gear shift mechanism of the Ferrari 640 Formula One race car in 1989 30 These systems are currently used on a variety of top level racing car classes including Formula One Indycar and Touring car racing 31 32 Other applications include motorcycles trucks buses and railway vehicles Early semi automatic systems used a variety of mechanical electrical pneumatic and hydraulic systems including centrifugal clutches vacuum operated clutches torque converters electro pneumatic clutches electro mechanical and even electrostatic and servo solenoid controlled clutches and control schemes automatic clutching when moving the gearshift pre selector controls centrifugal clutches with drum sequential shift requiring the driver to lift the throttle for a successful shift etc and some were little more than regular lock up torque converter automatics with manual gear selection Semi automatic transmission systems on motorcycles generally use a centrifugal clutch An example of this transmission type in automobiles is the VW Autostick semi automatic transmission a conventional 3 speed manual transmission with a vacuum operated automatic clutch plus a torque converter like in a regular automatic and a standard gear shifter 33 Semi automatic transmissions on motorcycles and ATVs still require the driver to manually shift gears and generally use a conventional sequential manual foot shift lever coupled with an automatic centrifugal clutch so there is no manually operated clutch lever on the handlebar for the driver to use as it is a fully automated clutch system Sequential manual Edit Operation of a typical 4 speed sequential manual transmission commonly used in motorcycles and race cars A sequential manual transmission like the kind of gearbox used on a fully manual motorcycle is a type of multi speed non synchronous manual transmission which only allows the driver to select either the next gear e g shifting from second gear to first gear or the previous gear e g shifting from second gear to third gear in a successive order This restriction avoids accidentally selecting the wrong gear however it also prevents the driver from deliberately skipping gears The clutch in a sequential manual transmission is only needed when going from a standstill i e stationary neutral into first gear after which the gears are forced into place by the dogs This contrasts with a conventional manual transmission which uses synchromesh for smooth gear shifts 34 The use of dog clutches rather than synchromesh results in faster shift speeds than a manual transmission 35 Sequential manual transmissions use the rotation of a drum and selector forks to switch gears like what is used on a fully manual motorcycle transmission 36 The shift drum mechanism is connected and rotated in a fore and aft motion by either a mechanical linkage e g shift lever or via an electro pneumatic or electro hydraulic control system which typically will mechanically connect to the shift forks and dog clutches and is operated with paddle shifters behind the steering wheel They can also be designed with manual or automatic clutch systems Semi automatic sequential transmissions with automatic clutches may be found both in automobiles mainly track and some rally racecars e g paddle shift motorcycles typically light step thru type city utility bikes e g the Honda Super Cub and quad bikes often with a separately engaged reversing gear the latter two normally using a scooter style centrifugal clutch On a sequential manual transmission the shift lever operates a ratchet mechanism that converts the fore and aft motion of the shift lever into rotation of a selector drum sometimes called a barrel which has three or four tracks machined around its circumference 37 Selector forks are guided by the tracks either directly or via selector rods The tracks deviate around the circumference and as the drum rotates the selector forks are moved to select the required gear 38 Bicycle gearing Edit Shimano XT rear derailleur on a mountain bike Main articles Bicycle gearing Derailleur gears and Hub gear Bicycles usually have a system for selecting different gear ratios There are two main types derailleur gears and hub gears The derailleur type is the most common and the most visible using 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 by the number to the rear gives the number of gear ratios often called speeds Several attempts have been made to fit bicycles with an enclosed gearbox giving obvious advantages for better lubrication dirt sealing and shifting These have usually been in conjunction with a shaft drive as a gearbox with a traditional chain would like the hub gear still have many of the derailleur s disadvantages for an exposed chain Bicycle gearboxes are enclosed in a box replacing the traditional bottom bracket The requirement for a modified frame has been a serious drawback to their adoption One of the most recent attempts to provide a gearbox for bicycles is the 18 speed Pinion P1 18 39 40 41 This gives an enclosed gearbox but still a traditional chain When fitted to a rear suspension bike it also retains a derailleur like jockey cage chain tensioner although without the derailleur s low ground clearance Causes for failure of bicycle gearing include worn teeth damage caused by a faulty chain damage due to thermal expansion broken teeth due to excessive pedaling force interference by foreign objects and loss of lubrication due to negligence Uncommon types EditDual clutch transmission Edit Main article Dual clutch transmission A dual clutch transmission DCT sometimes referred to as a twin clutch transmission or a double clutch transmission is a type of multi speed vehicle transmission system that uses two separate clutches for odd and even gear sets 42 The design is often similar to two separate manual transmissions with their respective clutches contained within one housing and working as one unit 43 44 In car and truck applications the DCT functions as an automatic transmission requiring no driver input to change gears A dual clutch transmission uses two sets of internals each with its own clutch so that a gearchange actually only consists of one clutch engaging as the other disengages providing a supposedly seamless shift with no break in or jarring reuptake of power transmission Each clutch s attached shaft carries half of the total input gear complement with a shared output shaft including synchronized dog clutch systems that pre select which of its set of ratios is most likely needed at the next shift under command of a computerized control system Specific types of this transmission include Direct Shift Gearbox and Twin Clutch SST Infinitely variable Edit The IVT is a specific type of CVT that includes not only an infinite number of gear ratios but an infinite range as well This is a turn of phrase it actually refers to CVTs that are able to include a zero ratio where the input shaft can turn without any motion of the output shaft while remaining in gear The gear ratio in that case is not infinite but is instead zero Most if not all IVTs result from the combination of a CVT with an epicyclic gear system with a fixed ratio The combination of the fixed ratio of the epicyclic gear with a specific matching ratio in the CVT side results in zero output For instance consider a transmission with an epicyclic gear set to 1 1 gear ratio a 1 1 reverse gear When the CVT side is set to 1 1 the two ratios add up to zero output The IVT is always engaged even during its zero output When the CVT is set to higher values it operates conventionally with increasing forward ratios In practice the epicyclic gear may be set to the lowest possible ratio of the CVT if reversing is not needed or is handled through other means Reversing can be incorporated by setting the epicyclic gear ratio somewhat higher than the lowest ratio of the CVT providing a range of reverse ratios Direct drive mechanism Edit Further information Direct drive mechanism A direct drive mechanism is where the transmitting of mechanical power and torque from an electric motor to the output device such as the driven wheels of a car occurs without any gearing reductions 45 46 47 Several cars from the late 19th century used direct drive wheel hub motors as did some concept cars in the early 2000s however most modern electric cars use inboard motor s where drive is transferred to the wheels via the driveshaft or axles 48 49 Non direct EditElectric Edit Main article Electric transmission propulsion Electric transmissions convert the mechanical power of the engine s to electricity with electric generators and convert it back to mechanical power with electric motors Electrical or electronic adjustable speed drive control systems are used to control the speed and torque of the motors If the generators are driven by turbines such arrangements are called turbo electric transmission Likewise installations powered by diesel engines are called diesel electric Diesel electric arrangements are used on many railway locomotives ships large mining trucks and some bulldozers In these cases each driven wheel is equipped with its own electric motor which can be fed varying electrical power to provide any required torque or power output for each wheel independently This produces a much simpler solution for multiple driven wheels in very large vehicles where driveshafts would be much larger or heavier than the electrical cable that can provide the same amount of power It also improves the ability to allow different wheels to run at different speeds which is useful for steered wheels in large construction vehicles Hydrostatic Edit See also Continuously variable transmission gt Hydrostatic CVTsHydrostatic transmissions transmit all power hydraulically using the components of hydraulic machinery They are similar to electrical transmissions but use the hydraulic fluid as the power distribution system rather than electricity The transmission input drive is a central hydraulic pump and the final drive unit s is are a hydraulic motor or hydraulic cylinder see swashplate Both components can be placed physically far apart on the machine being connected only by flexible hoses Hydrostatic drive systems are used on excavators lawn tractors forklifts winch drive systems heavy lift equipment agricultural machinery earth moving equipment etc An arrangement for motor vehicle transmission was probably used on the Ferguson F 1 P99 racing car in about 1961 The Human Friendly Transmission of the Honda DN 01 is hydrostatic Hydrodynamic Edit If the hydraulic pump or hydraulic motor makes use of the hydrodynamic effects of the fluid flow i e pressure due to a change in the fluid s momentum as it flows through vanes in a turbine The pump and motor usually consist of rotating vanes without seals and are typically placed in proximity The transmission ratio can be made to vary by means of additional rotating vanes an effect similar to varying the pitch of an airplane propeller The torque converter in most automotive automatic transmissions is in itself a hydrodynamic transmission Hydrodynamic transmissions are used in many passenger rail vehicles those that are not using electrical transmissions In this application the advantage of smooth power delivery may outweigh the reduced efficiency caused by turbulence energy losses in the fluid See also EditBearing reducer Chain drive Clutch Driveline shunt Epicyclic gearing Hydraulic transmission Manual transmission Motorcycle transmission Torque converter Transfer case Idle creepNotes EditReferences Edit J J Uicker G R Pennock J E Shigley 2003 Theory of Machines and Mechanisms 3rd ed New York Oxford University Press ISBN 9780195155983 B Paul 1979 Kinematics and Dynamics of Planar Machinery Prentice Hall Stiesdal Henrik August 1999 The wind turbine Components and operation PDF retrieved 2009 10 06 Musial W Butterfield S McNiff B May 2007 Improving Wind TurbineGearbox Reliability PDF National Renewable Energy Laboratory archived from the original PDF on September 23 2012 retrieved July 2 2013 Experts predict nine 10 speed transmissions to dominate in North America Autoweek May 13 2013 Ford GM work together on new nine 10 speed transmissions Autoweek April 15 2013 Practical Driving Test FAQs Dvtani gov uk 2009 10 04 Archived from the original on 2010 11 14 Retrieved 2014 04 29 Victorian restrictions on probationary drivers Vicroads vic gov au 2014 01 14 Archived from the original on 2014 08 01 Retrieved 2014 04 29 Transportlidzeklu vaditaja tiesibu iegusanas un atjaunosanas kartiba un vaditaja apliecibas izsniegsanas apmainas atjaunosanas un iznicinasanas kartiba in Latvian Likumi lv Retrieved 2014 04 29 All Pro Transmissions All Pro Transmissions Retrieved 2018 07 10 2013 Subaru Impreza Wagon AWD fueleconomy gov Retrieved November 29 2013 The Prius Continuously Variable Transmission Prius ecrostech com 2001 10 10 Retrieved 2014 04 29 5 Transmissions Cost Effectiveness and Deployment of Fuel Economy Technologies for Light Duty Vehicles www nap edu 2015 doi 10 17226 21744 ISBN 978 0 309 37388 3 Retrieved 26 July 2020 Yulong Lei Hua Tian 11 April 2005 Research on Accurate Engagement Control of Electrohydraulic Clutch Actuator www sae org SAE Technical Paper Series 1 doi 10 4271 2005 01 1787 Retrieved 26 July 2020 Transmission Actuation PDF www fte automotive com Retrieved 26 July 2020 Manual Transmission www autozine org Retrieved 26 July 2020 Manual vs Automatic Transmission A Shift to Know About RepairSmith Blog May 6 2020 Directly from the Formula 1 www magnetimarelli com Retrieved 26 July 2020 Introduction to Automatic Transmission Systems www tranzmile com Retrieved 1 August 2020 Wan Mark 2019 AutoZine Technical School Manual Transmission autozine org Retrieved 17 November 2020 How to Shift Gears on a Motorcycle wikiHow 21 September 2020 Retrieved 17 November 2020 Hunting Benjamin 11 December 2020 A brief history of missing clutch pedals and almost automatics Hagerty Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Accessing America Shifting Gears National Museum of American History 2 January 2018 Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link 1993 Ferrari Mondial T Cabriolet Valeo Bring a Trailer October 2018 Retrieved 18 November 2020 2021 Yamaha TT R110E Trail Motorcycle Photo Gallery Video Specs Features Offers Inventory and more www yamahamotorsports com How to make any bike an AUTOMATIC YouTube youtube com Archived from the original on 2021 12 21 Geartronics Sequential gearbox electronic systems Professional paddle shift system geartronics co uk Semi Auto Systems Control components for race series reduce cost improve competition John Barnard on working for Enzo Ferrari engineering Schumacher and his best F1 innovations F1 15 April 2021 Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link The history of the paddle shift lemans org 2011 02 21 Retrieved 2020 02 16 Ferrari F1 89 ferrari com Archived from the original on 2013 09 27 Retrieved 2020 02 15 Stoklosa Alexander 16 December 2015 The Bug s Life A History of the Volkswagen Beetle Car and Driver Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Gearbox technologies www drivingfast net 27 October 2016 Retrieved 2 January 2020 How Sequential Gearboxes Work www howstuffworks com 4 April 2003 Retrieved 2 January 2020 Marshall Brain 4 April 2003 How Sequential Gearboxes Work Howstuffworks com Retrieved July 2 2013 How Sequential Gearboxes Work www howstuffworks com 4 April 2003 Retrieved 2 January 2020 BMW M3 SMG Short Take Road Test Auto Reviews Car and Driver Archived from the original on 2009 04 08 Retrieved 2011 08 29 Ben Coxworth 13 March 2013 Pinion sealed gearbox offers an alternative to those darn derailleurs Gizmag Matt Wragg 6 June 2012 Pinion P1 18 Gearbox First Ride Pinkbike The Gearmakers Pinion Retrieved 2014 04 29 Powertrain transmissions Shift in power to the gearbox PDF AMS UnofficialBMW com September October 2003 Archived PDF from the original on 17 July 2011 Retrieved 31 October 2009 Automatic shifting dual clutch transmissions are poised to grab share from traditional transmissions thanks to their combination of efficiency and convenience PDF AEI online org DCTfacts com June 2009 Archived from the original PDF on 7 October 2011 Retrieved 31 October 2009 Porsche Doppelkupplung PDK Porsche com Archived from the original on 5 December 2008 Retrieved 31 October 2009 What Is Direct Drive Gear autoblog com 30 November 2015 Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Vanderwerp Dave 5 September 2019 Why the Porsche Taycan EV s Two Speed Transmission Is a Big Deal Car and Driver Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link What Is a Direct Drive Motor Electric Torque Machines Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link In wheel motor Nissan Motor Corporation Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link How Do All Electric Cars Work Alternative Fuels Data Center U S Department of Energy Retrieved 9 July 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Further reading EditHarald Naunheimer Peter Fietkau G Lechner 2011 Automotive transmissions fundamentals selection design and application 2nd ed Springer doi 10 1007 978 3 642 16214 5 ISBN 9783642162138 External links Edit Look up transmission in Wiktionary the free dictionary Media related to Transmissions at Wikimedia Commons Manual Transmission Operation on YouTube WeberAuto 2012 09 23 Retrieved from https en wikipedia org w index php title Propulsion transmission amp oldid 1125675429, wikipedia, wiki, book, books, library,

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