4 4 полный привод

4 4 полный привод other 4 4 полный привод, see Four-wheel drive (disambiguation).

"Four by four" redirects here. For other uses, see Four by four (disambiguation).

Four-wheel drive, also called 4×4 ("four by four") or 4WD, refers to a two-axled vehicle drivetrain capable of providing torque to all of its wheels simultaneously.

It may be full-time or on-demand, and is typically linked via a transfer case providing an additional output drive-shaft and, in many instances, additional gear ranges.

A four-wheeled vehicle with torque supplied to both axles is described as "all-wheel drive" (AWD).

However, "four-wheel drive" typically refers to a set of specific components and functions, and/or intended offroad application, which generally complies with modern use of the terminology.


4×4/4WD/AWD systems were developed in many different markets and used in many different vehicle platforms.

There is no universally accepted set of terminology to describe the various architectures and 4 4 полный привод The terms used by various manufacturers often reflect marketing rather than engineering considerations or significant technical differences between systems.[2][3]SAE International's standard J1952 recommends only the term All-Wheel-Drive with additional sub classifications which cover all types of AWD/4WD/4x4 systems found on production vehicles.[4]


Four-by-four (4×4) refers to the general class 4 4 полный привод vehicles.

The first figure represents the total wheels (more precisely, axle ends), and the second, the number that are powered. Syntactically, 4×2 means a four-wheel vehicle that transmits engine torque to only two axle-ends: the front two in front-wheel drive or the rear two in rear-wheel drive.[5] Alternatively, a 6×4 vehicle has three axles, two of which provide torque to two wheel ends each.


Four wheel drive (4WD) refers to vehicles with two axles providing torque to four wheel ends.

In the North American market the term generally refers to a system that is optimized for off-road driving conditions.[6] The term "4WD" is typically designated for vehicles equipped with a transfer case which switches between 2WD and 4WD operating modes, either manually or automatically.[7]


Main article: AWD (vehicle)

All wheel drive (AWD) historically was synonymous with "four-wheel drive" on four-wheeled vehicles, and six-wheel drive on 6×6s, and so on, being used in that fashion at least as early as the 1920s.[8][9] Today in North America the term is applied to both heavy vehicles as well as light passenger vehicles.

When referring to heavy vehicles the term is increasingly applied to mean "permanent multiple-wheel drive" on 2×2, 4×4, 6×6 or 8×8 drive train systems that include a differential between the front and rear drive shafts.[10] This is often coupled with some sort of anti-slip technology, increasingly hydraulic-based, that allows differentials to spin at different speeds but still be capable of transferring torque from a wheel with poor traction to one with better.

Typical AWD systems work well on all surfaces, but are not intended for more extreme off-road use.[10] When used to describe AWD systems in light passenger vehicles, it refers to a system that applies torque to all four wheels (permanently or on demand) 4 4 полный привод is targeted at improving on-road traction and performance (particularly in inclement conditions), rather than for off-road applications.[6]

Some all 4 4 полный привод drive electric vehicles solve this challenge using one motor for each axle, 4 4 полный привод eliminating a mechanical differential between the front and rear axles.

An example of this is the dual motor variant of the Tesla Model S, which on a millisecond scale can control the torque distribution electronically between its two motors.[11]


Individual-wheel drive (IWD) is used to describe electric vehicles with each wheel being driven by its own electric motor. This system essentially has inherent characteristics that would be generally 4 4 полный привод to four-wheel drive systems like the distribution of the available torque to the wheels.

However, because of the inherent characteristics of 4 4 полный привод motors, torque can be negative, as seen in the Rimac Concept One and SLS AMG Electric.

This can have drastic effects, as in better handling in tight corners.[12]

The term IWD can refer to a vehicle with any number of wheels. For example, the Mars rovers are 6-wheel IWD.

SAE Recommended Practices[edit]

Per the SAE International standard J1952, AWD is the preferred term for all the systems described above. The standard subdivides AWD systems into three categories.[4]

Part-Time AWD systems require driver intervention to couple and decouple the secondary axle from the primarily driven axle and these systems do not have a center differential (or similar device).

The definition notes that part-time systems may have a low range.

Full-Time AWD 4 4 полный привод drive both front and rear axles at all times via a center (inter-axle) differential.

The torque split of that differential may be fixed or variable depending on the type of center differential. This system can be used on any surface at any speed. The definition does not address inclusion or exclusion of 4 4 полный привод low range gear.

On-Demand AWD systems drive the secondary axle via an active or passive coupling device or "by an independently powered drive system". The standard notes that in some cases the secondary drive system may also provide the primary vehicle propulsion.

An example is a hybrid AWD vehicle where the primary 4 4 полный привод is driven by a internal combustion engine and secondary axle is driven 4 4 полный привод an electric motor. When the internal combustion engine is shut off the secondary, electrically driven axle is the only driven axle.

On-demand systems function 4 4 полный привод with only one powered axle until torque is required by the second axle. At that point either a passive or active coupling sends torque to the secondary axle.

In addition to the above primary classifications the J1952 standard notes secondary classifications resulting in a total of eight system designations:

  • Part-Time Non Synchro System
  • Part-Time Synchro System
  • Full-Time Fixed Torque System
  • Full-Time Variable Torque Passive System
  • Full-Time Variable Torque Active System
  • On-Demand Synchro Variable Torque Passive System
  • On-Demand Synchro Variable Torque Active System
  • On-Demand Independently Powered Variable Torque Active System



Main article: Differential

Two wheels fixed to the same axle turn at the same speed as a vehicle goes around curves.

This either forces one to slip, if possible, to balance the apparent distance covered, or creates 4 4 полный привод and mechanically stressful wheel hop. 4 4 полный привод prevent this the wheels are allowed to turn at different speeds using a mechanical or hydraulic differential. This allows one driveshaft to independently drive two output shafts, axles that go from the differential to the wheel, at different speeds.

The differential does this by distributing angular force (in the form of torque) evenly, while distributing angular velocity (turning speed) such that the average for the two output shafts is equal to that of the differential ring gear.

When powered each axle requires a differential to distribute power between the left and right sides. When power is distributed to all four wheels a third or 'center' differential can be used to distribute power between the front and rear axles.

The described system handles extremely well, as it is able to accommodate various forces of movement and distribute power evenly and smoothly, making slippage unlikely.

Once it does slip, however, recovery is difficult. If the left front wheel of a 4WD vehicle slips on an icy patch of road, for 4 4 полный привод, the slipping wheel will spin faster than the other wheels due to the lower traction at that wheel.

Since a differential applies equal torque to each half-shaft, power is reduced at the other wheels, even if they have good traction. This problem can happen in both 2WD and 4WD vehicles, whenever a driven wheel is placed on a surface with little traction or raised off the ground.

The simplistic design works acceptably well for 2WD vehicles. It is much 4 4 полный привод acceptable for 4WD vehicles, because 4WD vehicles have twice as many wheels with which to lose traction, increasing the likelihood that it may happen. 4WD vehicles may also be more likely to drive on surfaces with reduced traction. However, since torque is divided amongst four wheels rather than two, each wheel receives approximately half the torque of a 2WD vehicle, reducing the potential for wheel slip.

Limiting slippage[edit]

Main article: Limited-slip differential (LSD)

Many differentials have no way of limiting the amount of engine power that gets sent to its attached output shafts.

As 4 4 полный привод result, if a tire loses traction on acceleration, either because of a low-traction situation (e.g., - driving on gravel or ice) or the engine power overcomes available traction, the tire that is not slipping receives little or no power from the engine.

4 4 полный привод

In very low traction situations, this can prevent the vehicle from moving at all. To overcome this, there are several designs of differentials that can either limit the amount of slip (these are called 'limited-slip' differentials) or temporarily lock the two output shafts together to ensure that engine power reaches all driven wheels equally.

Locking differentials work by temporarily locking together a differential's output shafts, causing all wheels to turn at the same rate, providing torque in case of slippage.

This is generally used for the center differential, which distributes power between the front and the rear axles. While a drivetrain that turns all wheels equally would normally fight the driver and cause handling problems, this is not a concern when wheels are slipping.

The two most common factory-installed locking differentials use either a computer-controlled multi-plate clutch or viscous coupling unit to join the shafts, while other differentials more commonly used on off-road vehicles generally use manually operated locking devices.

In the multi-plate clutch the vehicle's computer senses slippage and locks the shafts, causing a small jolt when it activates, which can disturb the driver or cause additional traction loss.

In the viscous coupling differentials the 4 4 полный привод stress of high shaft speed differences causes a dilatant fluid in the differential to become solid, linking the two shafts. This design suffers from fluid degradation with age and from exponential locking behavior.[citation needed] Some designs use gearing to create a small rotational difference that hastens torque transfer.

A third approach to limiting slippage is taken by a Torsen differential.

A Torsen differential allows the output shafts to receive different amounts of torque. This design does not 4 4 полный привод for traction when one wheel is spinning freely, where there is no torque, but provides excellent handling in less extreme situations.[citation needed] A typical Torsen II differential can deliver up to twice as much torque to the high traction side before traction is exceeded at the lower traction side.

A fairly recent innovation in automobiles is electronic traction control.

Traction control typically uses a vehicle's braking system to slow a spinning wheel. This forced slowing emulates the function of a limited-slip differential, and, by using the brakes more aggressively to ensure wheels are being driven at the same speed, can also emulate a locking differential.

It should be noted that 4 4 полный привод technique normally requires wheel sensors to detect when a wheel is slipping, and only activates when wheel slip is detected. Therefore, there is typically no mechanism to actively prevent wheel slip (i.e., you can't "lock the differential" in advance of wheel slip), rather the system is designed to expressly permit wheel slip to occur, and then attempt to send torque to the wheels with the best traction.

If 4 4 полный привод all-wheel slip is a requirement, this is 4 4 полный привод limiting design.

Operating Modes[edit]

The architecture of an AWD/4WD system can be described by showing its possible operating modes.[1] A single vehicle may have the ability to operate in multiple modes depending on driver selection. Mohan describes the modes as follows:

Two Wheel Drive 4 4 полный привод Mode - In this mode only one axle (typically the rear axle) is driven.

The drive to the other axle is disconnected. The operating torque split ratio is 0:100.

Four Wheel Drive (4WD) Mode - Here, depending on the nature of torque transfer to the axles, we can define three sub-modes (below).

Part-time Mode - The front and rear axle drives are rigidly coupled in the transfer case.

Since the driveline does not permit any speed differentiation between the axles and would cause driveline wind-up, this mode is recommended only for ‘part-time’ use in off-road or loose surface conditions where driveline wind-up is unlikely. Up to full torque could go to either axle depending on the road condition and the weight over the axles.

Full-time Mode - Both axles are driven at all times but an inter-axle differential 4 4 полный привод the axles to turn at different speeds as needed.

This allows the vehicle to be driven ‘full-time’ in this mode, regardless of the road surface, without fear of driveline wind-up. With standard bevel gear differentials the torque split is 50:50. Planetary differentials can provide asymmetric torque splits as needed.

A system that operates permanently in the full-time mode is sometimes called ‘All-the-Time 4WD’, 'All-Wheel-Drive' or ‘AWD’. If the inter-axle differential is locked out then the mode reverts to a ‘part-time mode’.

On-Demand Mode - In this mode the transfer case operates primarily in the 2WD mode.

Torque is transferred to the secondary axle as needed by modulating the transfer clutch from ‘open’ to a rigidly coupled state while avoiding any driveline wind-up. The torque modulation may be achieved by active electronic/hydraulic control 4 4 полный привод, or by passive devices, based on wheel slip or wheel torque, as described in the section on traction control systems.

In addition to these basic modes there could 4 4 полный привод implementations that combine these modes.

The system could have a clutch across the center differential, for example, capable of modulating the front axle torque from a Full-time mode with the 30:70 torque split of the center differential to the 0:100 torque split of the 2WD mode


Late 1800s[edit]

In 1893, before the establishment of a modern automotive 4 4 полный привод in Britain, English engineer Bramah Joseph Diplock patented a four-wheel-drive system for a steam-powered traction engine,[13] including four-wheel steering and three differentials, which was subsequently built.

The development also incorporated Bramah's Pedrail wheel system in what was one of the first four-wheel-drive automobiles to display an intentional ability to travel on challenging road surfaces.

It stemmed from Bramagh's previous idea of developing an engine that would reduce the amount of damage to public roads.

Ferdinand Porsche 4 4 полный привод and built a four-wheel-driven electric vehicle for the k.

u. k. Hofwagenfabrik Ludwig Lohner & Co. in Vienna in 1899, presented to the public during the 1900 World Exhibition in Paris. The vehicle was a series hybrid car, that used an electric hub motor at each wheel, powered by batteries, which were in turn charged by a gasoline-engine generator.[14][15] It was clumsily heavy and due to its unusual status the so-called Lohner-Porsche is not frequently given its credit as the first four-wheel-driven automobile.


The world's first four-wheel drive car directly powered by an internal combustion engine, and the first with a front-engine, four-wheel-drive layout was the Dutch Spyker 60 H.P. Commissioned for the Paris to Madrid race of 1903, it was presented that year by brothers Jacobus and 4 4 полный привод Spijker of Amsterdam.[16][17] The two-seat sports car featured permanent four-wheel drive and was also the first car ever equipped with a six-cylinder engine, as well as four-wheel braking.

Later used as a hill-climb racer, it is now an exhibit in the Louwman Museum (the former Nationaal Automobiel Museum) in the Hague, the Netherlands.[18]

Designs 4 4 полный привод four-wheel drive in America came from the Twyford Company of Brookville, Pennsylvania in 1905, six were made there around 1906; one still exists and is displayed annually.[19] The Reynolds-Alberta Museum has a four-wheel-drive vehicle, named "Michigan", from 1905 in an unrestored storage.

The first four-wheel drive vehicles to go into mass-production were built by (what became) the American Four Wheel Drive Auto Company (FWD) of Wisconsin, founded in 1908 [20] (not to be confused with the term "FWD" as an acronym for front-wheel drive).
Along with the 2-ton Nash Quad (see below), the 3-ton FWD Model B became a standard military four-wheel-drive truck for the U.S.

Army in 4 4 полный привод War I. Some 16,000 FWD Model B 4 4 полный привод were built for the British and American armies during World 4 4 полный привод I – about half by FWD and the rest by other licensed manufacturers.

Only about 20 percent of the trucks built were four-wheel-drives, but the 4x4s were more often on the front 4 4 полный привод 11,500 of 4 4 полный привод Jeffery / Nash Quad trucks were built for similar use between 1913 4 4 полный привод 1919.

The Quad not only came with four-wheel drive and four-wheel brakes, but also featured four-wheel steering.[22] The Quad was one of the first successful four-wheel drive vehicles ever to be made, and its production continued for 15 years with a total of 41,674 units made by 1928.[23]

Daimler-Benz also has a history in four-wheel drive.

After 4 4 полный привод Daimler Motoren Gesellschaft had built a four-wheel-driven vehicle called Dernburg-Wagen, also equipped with four-wheel steering, in 1907, that was used by German colonial civil servant, Bernhard Dernburg, in Namibia; Mercedes and BMW, in 1926, introduced some rather sophisticated four-wheel drives, the G1, the G4 and G4 following.

Mercedes and BMW developed this further in 1937.


The American Marmon-Herrington Company was founded in 1931 to serve a growing market for moderately priced four-wheel-drive vehicles. Marmon-Herrington specialized in converting Ford trucks to four-wheel drive and got off to a successful start by procuring contracts for military aircraft refueling trucks, 4×4 chassis for towing light weaponry,[24] commercial aircraft refueling trucks, and an order from the Iraqi Pipeline Company for what were the largest trucks ever built at the time.

Dodge developed its first four-wheel drive truck in 1934 — a military 1½ ton designated K-39-X-4(USA), of which 796 units were built for the U.S.

Army in several configurations.[25]Timken supplied front axles 4 4 полный привод transfer-cases, added to militarized a civilian truck. The Timken transfer case was the first part-time design,[26] that allowed the driver to engage or disengage four-wheel drive 4 4 полный привод a lever inside the cabin.[27][28] In spite of the limited 1930s U.S. military budgets, the ’34 truck was liked well-enough that a more modern 1½ tonner was developed, and 1,700 RF-40-X-4(USA) trucks were produced in 1938, and 292 TF-40-X-4(USA) in 1939.[29][25]

Starting in 1936, Japanese company Tokyu Kurogane Kogyo built approximately 4,700 four-wheel-drive roadsters, called the Kurogane Type 95 reconnaissance car, used by the Imperial Japanese Army from 1937 until 1944, during the Second Sino-Japanese War.

Three different bodystyles were manufactured; a 2-door roadster, a 2-door pickup truck and a 4-door phaeton, all equipped with a transfer case that engaged 4 4 полный привод front wheels, powered by a 1.3 litre, 2-cylinder, air-cooled OHV V-twin engine.[30]

The 1937 Mercedes-Benz G5 and BMW 325 4×4 featured full-time four-wheel drive, four-wheel steering, three locking differentials, and fully independent suspension.

They were produced because of a government demand for a four-wheel-drive passenger vehicle. The modern G-series/Wolf such as the G500 and G55AMG still feature some of the attributes, with the exception of fully independent suspension since it can compromise ground clearance.

The Unimog is also a result of Mercedes 4x4 technology.

The first Russian produced four-wheel-drive vehicle, also in part for civilian use, was the GAZ-61, developed in the Soviet Union in 1938. "Civilian use" may be a bit of a misnomer, as most if not all were used by the Soviet government and military (as command cars), but the GAZ-61-73 version is the first four-wheel drive vehicle with a normal closed sedan body.

Elements of the chassis were used in subsequent military vehicles such as the 1940 GAZ-64 and the 1943 4 4 полный привод, as well as the post-war GAZ-69, and the 4 4 полный привод civilian GAZ-M-72, based on the rear-wheel driveGAZ-20 "Victory" and built from 1955-1958. Soviet civilian life did not allow the proliferation of civilian products such as the Jeep in North America, but through the 1960s the technology of Soviet 4 4 полный привод vehicles stayed on par with British, German, and American models, even exceeding it in some aspects, and for military purposes just as actively developed, produced and used.

It was not until "go-anywhere" vehicles were needed for the military on a large scale, that four-wheel drive found its place.

The World War II Jeep, originally developed by American Bantam but mass-produced by Willys and Ford, became the best-known four-wheel-drive vehicle in the world during the war.[31]


Willys introduced the model CJ-2A in 1945, the first full-production four-wheel-drive vehicle for sale in the general marketplace. Thanks to the ubiquitous World War II jeep's success, its rugged utilitarianism set the pattern for many four-wheel drive vehicles to come.[32]

The similarly boxy, also inline-4 powered Land Rover appeared at the Amsterdam Motor Show in 1948.

Originally conceived as a stop-gap product for the struggling Rover car company, despite chronic under-investment it succeeded far better than the passenger cars. Inspired by a Willys MB – the ubiquitous WWII “jeep” – that was frequently run off-road on the farm belonging to chief engineer Maurice Wilks, Land 4 4 полный привод developed the more refined yet still off-road capable luxury 4WD Range Rover in the 1970s.

With the acquisition of the "Jeep" name in 1950 Willys had cornered the brand.

Its successor, Kaiser Jeep, introduced a revolutionary 4WD wagon called the Wagoneer in 1963. Not only was it technically innovative, with independent front suspension and the first automatic transmission coupled to 4WD, it was equipped and finished as a regular passenger automobile.[33] In effect, it was the ancestor of the modern SUV.

The luxury Rambler or BuickV8s powered Super Wagoneer produced from 1966 to 1969 raised the bar even higher.

Jensen applied the Formula Ferguson (FF) full-time all-wheel-drive system to 318 units of their Jensen FF built from 1966 to 1971, marking the first time 4WD was used in a production GT sports car.[34] While most 4WD systems split torque evenly, the Jensen split torque roughly 40% front, 60% rear by gearing the front and rear at different ratios.


American Motors (AMC) acquired Kaiser's Jeep Division in 1970 and quickly upgraded and expanded the entire line of off-road 4WD vehicles.

With its added roadworthiness, the top range full-size Grand Wagoneer continued to compete with traditional luxury cars.[35] Partially hand-built, it was relatively unchanged during its production through 1991, even after Chrysler's buyout of AMC.

Subaru 4 4 полный привод the category-expanding Leone in 1972, an inexpensive compact station wagon with a light-duty, part-time four-wheel drive system that could not be engaged on dry pavement.

In September AMC introduced Quadra Trac full-time AWD for the 1973 model year Jeep Cherokee and Wagoneer.[36] Thanks to full-time AWD, which relieved the driver of getting out to lock hubs and having 4 4 полный привод manually select between 2WD and 4WD modes, it dominated all other makes in FIA rally competition.

Gene Henderson and Ken Pogue won the Press-on-Regardless Rally FIA championship with a Quadra Trac equipped Jeep in 1972.[37]

American Motors introduced the innovative Eagle for the 1980 model year.[38] These were the first American mass production cars to use the complete front-engine, four-wheel drive system.[39] The AMC Eagle was offered as a sedan, coupe, and station wagon with permanent automatic all-wheel-drive passenger models.

The new Eagles combined Jeep technology with an existing and proven AMC passenger automobile platform. They ushered a whole new product category of "sport-utility" or crossover SUV. AMC's Eagles came with the comfort and high-level appointments expected of regular passenger models and used the off-road technology for an extra margin of safety and traction.[40]

The Eagle's thick viscous fluid center differential provided quiet and smooth transfer of power that was directed proportionally to the axle with the greatest traction.

This was a true full-time system operating only in four-wheel drive without undue wear on suspension or driveline components. There was no low range in the transfer case. This became the forerunner of the designs that followed from other manufacturers.[41] The automobile press at the time tested the traction of the Eagles and described it as far superior to the Subaru's and that it could beat many so-called off-road vehicles.

Four Wheeler magazine concluded that the AMC Eagle was "The beginning of a new generation of cars."[42]

The Eagles were popular (particularly in the snowbelt), had 4 4 полный привод capacity, and came in several equipment levels including sport and luxury trims. Two additional models were added in 1981, the sub-compact SX/4 and Kammback.

A manual transmission and a front axle-disconnect feature were also made available for greater fuel economy. During 1981 and 1982 a unique convertible was added to the line. The Eagle's monocoque 4 4 полный привод was reinforced for the conversion and had a steel targa bar with a removable fiberglass roof section.[43] The Eagle station wagon remained in production for one model year after Chrysler acquired AMC in 1987.

Audi also introduced a permanently all-wheel-driven road-going car, the Audi Quattro, in 1980.

Audi's chassis engineer, Jörg Bensinger, had noticed in winter tests 4 4 полный привод Scandinavia that a vehicle used by the German Army, the VolkswagenIltis, could beat any high-performance Audi.

He proposed developing a four-wheel-drive car, that would also be used for rallying to improve Audi's conservative image. The Audi Quattro system became a feature on production cars.

In 1987, Toyota also developed a car built for competition in rally campaigns.[44] A limited number of road-going FIAHomologation Special Vehicle Celica GT-Four (known as Toyota Celica All-Trac Turbo in North America) were produced.

The All-Trac system was later available on serial production Toyota Camry, Toyota Corolla, and Toyota Previa models.

Some of the earliest mid-engined four-wheel-drive cars were the various road-legal rally cars made for Group B homologation, such as the Ford RS200 made from 1984 to 1986. In 4 4 полный привод, niche maker Panther Westwinds created a mid-engined four-wheel-drive, the Panther Solo 2.


In the United States, as of late 2013, AWD vehicles comprised 32 per cent of new light vehicle sales, up five per cent since 2008.[45] This is in large part due to the popularity of the crossover.[45] Most crossovers offer the popular technology, in spite of it increasing vehicle price and fuel consumption.[46] Car manufacturers have inundated consumers with marketing proclaiming AWD as a safety feature, although the advantage of AWD over FWD is in accelerating, not braking or steering.[47] Tests have shown that though AWD gives improved acceleration in wintery conditions, it 4 4 полный привод not help with braking.[48]

In 2008, Nissan introduced the GT-R featuring a rear-mounted transaxle.

The AWD system requires two drive shafts, one main shaft from the engine to the transaxle and differential and a second drive shaft from the transaxle to the front wheels.[49]


Road racing[edit]

Spyker is credited with building and racing the first ever four-wheel drive racing car, the Spyker 60 HP in 1903.[50][17]

Bugatti created a total of three four-wheel-drive racers, the Type 53, in 1932, but the cars were notorious for having poor handling.

Miller produced the first 4WD car to qualify for the Indianapolis 500, the 1938 Miller Gulf Special.

Ferguson Research Ltd.

built the front-engine P99 Formula One car that actually won a non-World Championship race with Stirling Moss in 1961. In 1968, Team Lotus raced cars in the Indy 500 and three years later in Formula 1 with the Lotus 56, that had both turbine engines and 4WD, as well as the 1969 4WD-Lotus 63 that had the standard 3-litre V8 FordCosworth engine.

Matra also raced a similar MS84, and McLaren entered their M9A in the British Grand Prix, while engine manufacturers Ford-Cosworth produced their own version which was tested but never raced. 4 4 полный привод these F1 cars were considered inferior to their RWD counterparts, as the advent of aerodynamic downforce meant that adequate traction could be obtained in a 4 4 полный привод and more mechanically efficient manner, and the idea was discontinued, even though Lotus tried repeatedly.

Nissan and Audi had success with all-wheel drive in road racing with the former's advent of the Nissan Skyline GT-R in 1989.

So successful was the car that it dominated the Japanese circuit for the first years of production, going on to bigger and more impressive wins in Australia before weight penalties eventually levied a de facto ban on the car. Most controversially was the win pulled off at the 1990 Macau Grand Prix where the car led from start to finish. Audi's dominance in the Trans-Am Series in 1988 was equally controversial as it led to a weight penalty mid season and to a rule revision banning all-AWD cars, its dominance in Super Touring eventually led to a FIA ban on AWD system in 4 4 полный привод 201124 Hours of 4 4 полный привод Mans regulations may revive AWD/4WD in road racing, though such systems are only allowed in new hybrid-poweredLe Mans Prototypes.[51] One example is the Audi R18 e-tron quattro (winner of 2012 race, the first ever hybrid/4WD to win Le 4 4 полный привод, utilizing an electric motor in the front axle while combining the engine motor in the rear.[52]

In heavy trucks[edit]

Medium-duty trucks and Heavy-duty trucks have recently adopted 4×4 drive-trains.

4×4 medium-duty trucks became common after Ford Motor Company began selling Ford Super Duty trucks. The Super Duty trucks shared many parts between the light duty and medium duty, reducing production costs. The Dana 60 front axle is used on both medium- and light-duty Super Duty trucks. Furthermore, the Big Three share/shared parts between the companies reducing costs.

The Dana S 110 is currently being used for the rear drive, under Ford and Ram's medium-duty trucks. The Dana 110 was also used on the General Motors 4×4s as well. Ram Trucks began selling medium-duty 4 4 полный привод, 4×4 and 4×2, in 2008. General Motors sold a 4×4 for model years 2005-2009.

  • GM 4×4 medium-duty trucks

  • Heavy 4 4 полный привод International Workstar

  • Ford medium-duty 4×4 drive train

In construction equipment[edit]

Volvo introduced the Model 646 four-wheel drive backhoe loader in 1977.[53]Case Corporation followed suit in the U.S.

in 1987.[citation needed]


In engineering terms, "four-wheel drive" designates a vehicle with power delivered to four wheel ends spread 4 4 полный привод at least two axles. The term 4×4 (pronounced four by four) was in use to describe North American military four-wheel-drive vehicles as early as the 1940s,[54] with the first number indicating the number of wheel ends on a vehicle and the second indicating the number of driven wheels.

Trucks with dual tires on the rear axle and two driven axles are designated as 4×4s despite having six wheels because the paired rear wheels behave as a single wheel for traction and classification purposes.

True 6×6 vehicles which have three powered axles, and are classified as 6×6s regardless of how many wheels they have. Examples of these with two rear, one front axle are the 6-wheeled Pinzgauer, which is popular with defense forces around the globe, and 10-wheeled GMC CCKW made famous by the U.S.

Army in World War II.

4-wheeler (or four-wheeler) is a related term applying to all-terrain vehicles, and not to be confused with four-wheel drive. The "four" in the instance referring to the vehicle having four wheels, not necessarily all driven.

Unusual systems[edit]

Prompted by a perceived need for a simple, inexpensive all-terrain vehicle for oil exploration in North Africa, the French motor manufacturer Citroën developed the 2CV Sahara in 1958.

Unlike other 4×4 vehicles which use a conventional transfer case to drive the front and rear axle, the Sahara had two engines, each independently driving a separate axle, with the rear engine facing backwards.

The two throttles, clutches and gear change mechanisms could be linked, so the two 12 hp (9 kW) 425 cc (26 cu in) engines could run together, or they could be split and the car driven solely by either engine.

Combined with twin fuel tanks and twin batteries (which could be set up to run either or both engines), the redundancy of two separate drive trains meant that they could make it back to civilization 4 4 полный привод after major mechanical failures. Only around 700 of these cars were built, and only 27 are known to exist today.[55]

BMC experimented with a twin-engine Mini Moke (dubbed the "Twini Moke") in the mid-1960s, but never put it into production.

This made advantage of the Mini's 'power pack' layout, with a transverse engine and the gearbox in the engine sump. Simply by fitting a second engine/gearbox unit across the rear, a rudimentary 4×4 system could 4 4 полный привод produced.

Early prototypes 4 4 полный привод separate gear levers and clutch systems for each engine. Later versions sent for evaluation by the British Army had more user-friendly linked systems.

In 1965, A. J. M. Chadwick patented a 4WD system, GB 1113068, that used hemispherical wheels for an all-terrain vehicle.

Twenty years later, B. T. E. Warne, patented, GB 2172558, an improvement on Chadwick's design that did not use differential gear assemblies. By using near-spherical wheels with provision to tilt and turn each wheel co-ordinatively, the driven wheels maintain constant traction.

Furthermore, all driven wheels steer and, as 4 4 полный привод of wheels is not necessary, vehicles with an odd number of wheels are possible without affecting the system's integrity. Progressive deceleration is made possible by dynamically changing the front-to-rear effective wheel diameter ratios.

Suzuki Motors introduced the Suzuki Escudo Pikes Peak Edition in 1996.

Earlier Suzuki versions were twin engined, from 1996 on the engine is a twin-turbocharged 2.0 L V6, mated to a sequential 6-speed manual transmission.

Nissan Motors has developed a system called E-4WD.

It is designed for cars that are normally front-wheel drive; however, the rear wheels are powered by electric motors. This system was introduced in some variants of the Nissan Cube and Tiida. (This is similar to the system used on the Ford Escape Hybrid AWD.[56])

Chrysler's Jeep Division debuted the twin engine, 670 hp (500 kW) Jeep Hurricane concept at the 2005 North American International Auto Show in Detroit.

This vehicle has a unique "crab crawl" capability, which allows it to rotate 360° in place. This is accomplished by driving the left wheels as a pair and right wheels as a pair, as opposed to driving the front and rear pairs. A central gearbox allows one side to drive in the opposite direction to the other.

It also has dual Hemi V8s.

Some hybrid 4 4 полный привод such as the LexusRX400h provide power to an AWD system through a pair of electric motors, one to the front wheels and one to the rear. In the case of the AWD model version of the Lexus RX400h (and its Toyota-branded counterpart, the Harrier hybrid), the front wheels can also receive drive power directly from the vehicle's gasoline engine as well as via the electric motors, whereas the rear wheels derive power only from the second electric motor.

Transfer of power is managed automatically by internal electronics based on traction conditions and need, making this an all-wheel-drive system.

The 4RM system used in the Ferrari FF in 2011 is unique in that it has a rear transaxle with secondary front transaxle connected directly to the engine.

The car operates primarily as a rear wheel drive vehicle. Clutches in the front transaxle engage when the rear wheels slip. Drive to the front wheels is transmitted through two infinitely-variable clutch packs which are allowed to 'slip' to give the required road wheel speeds. The front transaxle has three gears, two forward, and reverse. The two forward gears of the front transmission match the lower four forward gears of the rear transmission. It is not used in higher gears.

The connection between this gearbox and each front wheel is via independent haldex-type clutches, without a differential. Due to the difference in ratios the clutches continually slip and only transmit, at most, 20% of the engine's torque.[57]

Introduction to off-roaders[edit]

Introduction to passenger cars[edit]

Center transfer case sending power from the transmission to the rear axle (right) and front axle (left)
The HMMWV is a 4WD/AWD that powers all wheels evenly (continuously) via a manually lockable center differential, with Torsen differentials for both front and rear.
To prevent slippage from happening some vehicles have controls for independently locking center, front, and rear differentials
Selection lever: 2H for two-wheel drive, 4H for high-range 4WD, 4L for low-range 4WD, and N for Neutral
The Lohner-Porsche Mixte Hybrid was both the world's first hybrid vehicle, and the first four-wheel drive without a steam-engine
The 1903 Spyker 60-HP was the world's first 4WD, that was directly powered by an internal combustion engine, and the first 4WD race-car.
The Jeffery / Nash Quad was the world's first 4WD vehicles produced in five-figure numbers (1913–1928).
The 1936–1944 Kurogane Type 95 scout car (Japan)
The 1938–1945 GAZ-61 four-wheel drive phaeton (Russia)
The 1940–1945 Willys U.S.


1969 Jensen FF, world's first 4 4 полный привод in a production GT sports car
1987 AWD AMC Eagle wagon, the most popular model in the line
1981 AMC Eagle AWD convertible
Источник: https://en.wikipedia.org/wiki/Four-wheel_drive

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