Height adjustable suspension

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Height adjustable suspension is a feature of certain automobile suspension systems that allow the motorist to vary the ride height or ground clearance. This can be done for various reasons including giving better ground clearance over rough terrain, a lower ground clearance to improve performance and fuel economy at high speed, [1] or for stylistic reasons. Such a feature requires fairly sophisticated engineering.

Contents

Citroen CX in high position HighCX.JPG
Citroën CX in high position

Height adjustment is most often achieved by air or oil compression used for the "springs" of the vehicle  when the pressure is varied  the vehicle body rises or lowers.

Factory systems for cars

Height adjustable suspension from 1954 - high position 1954 Citroen 15CVH.JPG
Height adjustable suspension from 1954  high position
An Audi A8 Multi Media Interface control screen for its Adaptive Air Suspension, which gives the vehicle clearance a range from 95 mm to 145 mm Audi A8 Adaptive Air Suspension Control.JPG
An Audi A8 Multi Media Interface control screen for its Adaptive Air Suspension, which gives the vehicle clearance a range from 95 mm to 145 mm
Kneeling bus in Dublin Dublin bus kneeling bus with ramp.jpg
Kneeling bus in Dublin

The first instance of a production vehicle with adjustable (rear only) suspension was on the 1954 Citroën 15CVH. This vehicle featured a self-leveling, height adjustable hydropneumatic suspension. Since that time, these systems have appeared continuously on Citroën models, including the DS and CX. [2]

Height adjustable suspension was banned in the United States from 1974 to 1981, due to the stringent interpretation of passenger vehicle bumper height regulations by the U.S. government agency NHTSA. [3]

Subaru was one of a few manufacturers who offered the feature after the ban was lifted on the Subaru XT, the Subaru Leone wagon and the Subaru Legacy for a short time.

Many modern SUVs use height adjustability as part of active suspension systems to improve the vehicle's versatility on and off-road. [4] The Range Rover offered this feature from 1993. New models of the Ford Expedition have a computer-controlled system designed for convenience, which lowers automatically when the doors are unlocked by remote, returns to normal height when the vehicle is started, and (on 4-wheel-drive models), raises when the 4x4 system is engaged. [4]

Some cars use these systems to improve the vehicle's handling by lowering the vehicle's height during higher speeds  a current example being the Mercedes-Benz Active Body Control system. [4] Another example is the Audi A8, which when driven at speeds of more than 120 km/h for more than 30 seconds reduces its clearance from 120 mm to 95 mm. [5]

The new 2011 Jeep Grand Cherokee also includes adjustable suspension in the 4x4 model. It automatically lowers when the Park selection is engaged, and also lowers at high speeds to improve aerodynamics. It also allows drivers to manually raise the suspension for off-road situations.

Starting in 2012, the Tesla Model S and Tesla Model X offer their own patented height adjustable suspension as an option. Two goals are accomplished  the long, low slung car can be raised to avoid road obstacles  it also lowers at speed on the highway to improve aerodynamics. [4] [6]

Factory systems for buses

Height adjustable air suspensions are also equipped on some buses, mainly "low-floor" city buses or "kneeling buses", however in recent years some high floor charter/intercity buses have been equipped with this feature as well. This allows the floor to be lowered when the bus is stopped, to allow people with large or bulky luggage, passengers with disabilities, or simply when stopping at stops with unusual curb arrangements to enter or exit the vehicle easily. It can also raise the bus more than normal, which is useful when navigating roads with large amounts of speed humps, crossing railway lines or in other unusual, but not always uncommon situations.

Assistive technology for persons with disabilities includes vehicles modified with height adjustable suspension, for example to allow wheelchair entry to the vehicle.

Aftermarket systems

In 1959, auto customizer Ron Aguirre scavenged the Pesco pumps and valves from a B-52 Bomber and adapted them to the front suspension of his X-Sonic bubble-topped custom car Corvette, allowing him to change the height of the car with a switch on the dashboard. [7] This was done to evade California law regarding ground clearance. [8]

Aguirre is commonly accepted as the first person to create a Lowrider car with hydraulically adjustable suspension. [9]

Another customizer, Gene Winfield, created The Reactor with height adjustable suspension in 1964, a car novel enough to guest star in several television programs. [10]

Aftermarket height adjustable suspension installed on a 1964 Chevrolet Impala lowrider Chevrolet Impala 1964 Lowrider.JPG
Aftermarket height adjustable suspension installed on a 1964 Chevrolet Impala lowrider

Adjustable suspensions have become intrinsically associated with lowrider vehicles. The popular image of these vehicles is of one "hopping" on its suspension, or sitting with one wheel completely off the ground.

These systems were initially adapted from the hydraulic pistons, valves and pumps used to adjust the flaps on aircraft. Today however, many aftermarket companies produce parts and equipment specifically designed for lowriders.

In recent years "air bag" systems (not to be confused with the air bag safety device) have been rapidly gaining popularity among car customizers. These air suspension systems use heavy-duty custom rubber "bags" to replace the stock shocks and springs, with either a compressor or tank of compressed gas used to raise and lower the vehicle at will. [4] Any light-duty truck, from a small suv Chevrolet S10 Blazer to a full-size truck such as Dodge Ram 3500, can be outfitted to adjust the vehicle so that the frame will lie on the ground when the air bags are deflated, or "Laid Out".

Trucks are also capable of "laying" the pinch weld of the body, or "Bodydrop" using a technique such as channeling the frame or building an entirely new frame.

User control

The first height adjustable suspension systems were controlled by the driver manually. [11]

With the development of computer controls, research is ongoing into electronic control of the height adjustment process. [12] [13] Certain modern layouts allow electronics alone to make this decision without the driver's control, notably the Tesla Model S and Tesla Model X [6]

Related Research Articles

<span class="mw-page-title-main">Shock absorber</span> Mechanical component

A shock absorber or damper is a mechanical or hydraulic device designed to absorb and damp shock impulses. It does this by converting the kinetic energy of the shock into another form of energy which is then dissipated. Most shock absorbers are a form of dashpot.

<span class="mw-page-title-main">Citroën DS</span> Executive car produced by Citroën

The Citroën DS is a front mid-engined, front-wheel drive executive car manufactured and marketed by Citroën from 1955 to 1975, in fastback/sedan, wagon/estate, and convertible body configurations, across three series of one generation.

<span class="mw-page-title-main">Car suspension</span> Suspension system for a vehicle

Suspension is the system of tires, tire air, springs, shock absorbers and linkages that connects a vehicle to its wheels and allows relative motion between the two. Suspension systems must support both road holding/handling and ride quality, which are at odds with each other. The tuning of suspensions involves finding the right compromise. It is important for the suspension to keep the road wheel in contact with the road surface as much as possible, because all the road or ground forces acting on the vehicle do so through the contact patches of the tires. The suspension also protects the vehicle itself and any cargo or luggage from damage and wear. The design of front and rear suspension of a car may be different.

<span class="mw-page-title-main">Citroën GS</span> Motor vehicle

The GS is a front-engine, front-drive, four or five door, five passenger family car manufactured and marketed by Citroën in two series: for model years 1970-1979 in fastback saloon and estate bodystyles and subsequently as the GSA for model years 1980-1989 in hatchback and estate body styles — the latter after a facelift. Combined production reached approximately 2.5 million.

<span class="mw-page-title-main">Citroën CX</span> Car model made by Citroën

The Citroën CX is a large, front-engined, front-wheel-drive executive car manufactured and marketed by Citroën from 1974 to 1991. Production models took the form of a four-door fastback sedan, station wagon (estate), and a long-wheelbase fastback limousine. The CX is known for its hydropneumatic self-leveling suspension system, and its low coefficient of drag, underscored by its nameplate CX, which references the aerodynamics symbol for drag coefficient.

<span class="mw-page-title-main">Hydropneumatic suspension</span> Pneumatics

Hydropneumatic suspension is a type of motor vehicle suspension system, designed by Paul Magès, invented by Citroën, and fitted to Citroën cars, as well as being used under licence by other car manufacturers, notably Rolls-Royce, Bmw 5-Series e34 Touring, Maserati and Peugeot. It was also used on Berliet trucks and has been used on Mercedes-Benz cars, where it is known as Active Body Control. The Toyota Soarer UZZ32 "Limited" was fitted with a fully integrated four-wheel steering and a complex, computer-controlled hydraulic Toyota Active Control Suspension in 1991. Similar systems are also widely used on modern tanks and other large military vehicles. The suspension was referred to as fr:Suspension oléopneumatique in early literature, pointing to oil and air as its main components.

<span class="mw-page-title-main">Audi A6</span> Motor vehicle

The Audi A6 is an executive car made by the German automaker Audi. Now in its fifth generation, the successor to the Audi 100 is manufactured in Neckarsulm, Germany, and is available in saloon and estate configurations, the latter marketed by Audi as the Avant. Audi's internal numbering treats the A6 as a continuation of the Audi 100 lineage, with the initial A6 designated as a member of the C4-series, followed by the C5, C6, C7, and the C8. The related Audi A7 is essentially a Sportback (liftback) version of the C7-series and C8-series A6 but is marketed under its own separate identity and model designation.

<span class="mw-page-title-main">Citroën C5</span> Large family car

The Citroën C5 is a large family car produced by the French manufacturer Citroën since March 2001, currently at its third generation. It replaced the Citroën Xantia, in the large family car class, and is the first modern Citroën with "Cx" naming nomenclature, previously used by its ancestors, the C4 and C6 from 1930. A crossover, unrelated to the previous generations, was released in 2021, with crossover styling and marketed as the Citroën C5 X.

<span class="mw-page-title-main">Mercedes-Benz 450SEL 6.9</span> Motor vehicle

The Mercedes-Benz 450SEL 6.9 is the high-performance version of the W116 S-Class saloon. It was based on the long-wheelbase version of W116 chassis introduced in 1972 and equipped with Mercedes-Benz M100 V8 engine and full hydropneumatic suspension system. The 450SEL 6.9 was presented to the public at the Geneva Auto Show in 1974 as the successor to the original high-performance saloon from Mercedes-Benz, the 300SEL 6.3 (1968–1972). Like the 300SEL 6.3 before it, the special displacement number (6.9) was affixed to the trunk lid to differentiate itself from the 450SEL. The 450SEL 6.9 was produced in a very limited number from 1975 to 1981.

<span class="mw-page-title-main">Citroën XM</span> Motor vehicle

The Citroën XM is a front-engine, front-drive, five-passenger, five-door hatchback noted for its hydropneumatic suspension. Manufactured and marketed by Citroën from 1989 to 2000, with a minor facelift in 1994, XM production reached 333,405 over the course of 11 years.

<span class="mw-page-title-main">Audi A8</span> Full-size luxury sedan

The Audi A8 is a full-size luxury sedan manufactured and marketed by the German automaker Audi since 1994. Succeeding the Audi V8, and now in its fourth generation, the A8 has been offered with both front- or permanent all-wheel drive—and in short- and long-wheelbase variants. The first two generations employed the Volkswagen Group D platform, with the current generation deriving from the MLB platform. After the original model's 1994 release, Audi released the second generation in late 2002, the third in late 2009, and the fourth and current iteration in 2017. Noted as the first mass-market car with an aluminium chassis, all A8 models have used this construction method co-developed with Alcoa and marketed as the Audi Space Frame.

<span class="mw-page-title-main">Car tuning</span> Modification of a cars performance

Car tuning is the modification of a car to optimise it for a different set of performance requirements from those it was originally designed to meet. Most commonly this is higher engine performance and dynamic handling characteristics but cars may also be altered to provide better fuel economy, or smoother response. The goal when tuning is the improvement of a vehicle's overall performance in response to the user's needs. Often, tuning is done at the expense of emissions performance, component reliability and occupant comfort.

<span class="mw-page-title-main">Active Body Control</span>

Active Body Control, or ABC, is the Mercedes-Benz brand name used to describe electronically controlled hydropneumatic suspension.

Air suspension is a type of vehicle suspension powered by an electric or engine-driven air pump or compressor. This compressor pumps the air into a flexible bellows, usually made from textile-reinforced rubber. Unlike hydropneumatic suspension, which offers many similar features, air suspension does not use pressurized liquid, but pressurized air. The air pressure inflates the bellows, and raises the chassis from the axle.

<span class="mw-page-title-main">Ride height</span>

Ride height or ground clearance is the amount of space between the base of an automobile tire and the lowest point of the automobile ; or, more properly, to the shortest distance between a flat, level surface, and the lowest part of a vehicle other than those parts designed to contact the ground. Ground clearance is measured with standard vehicle equipment, and for cars, is usually given with no cargo or passengers.

Self-levelling refers to an automobile suspension system that maintains a constant ride height of the vehicle above the road, regardless of load.

An active suspension is a type of automotive suspension that uses an onboard control system to control the vertical movement of the vehicle's wheels and axles relative to the chassis or vehicle frame, rather than the conventional passive suspension that relies solely on large springs to maintain static support and dampen the vertical wheel movements caused by the road surface. Active suspensions are divided into two classes: true active suspensions, and adaptive or semi-active suspensions. While semi-adaptive suspensions only vary shock absorber firmness to match changing road or dynamic conditions, active suspensions use some type of actuator to raise and lower the chassis independently at each wheel.

<span class="mw-page-title-main">Adaptive cruise control</span> Cruise control advanced driver-assistance system

Adaptive cruise control (ACC) is a type of advanced driver-assistance system for road vehicles that automatically adjusts the vehicle speed to maintain a safe distance from vehicles ahead. As of 2019, it is also called by 20 unique names that describe that basic functionality. This is also known as Dynamic cruise control.

<span class="mw-page-title-main">Subaru Legacy (first generation)</span> Motor vehicle

The first generation Subaru Legacy is a mid-size family car / wagon developed by Fuji Heavy Industries. The Legacy was an all new model, and was considered a notable departure from Subaru products in the past.

<span class="mw-page-title-main">Car hydraulics</span>

Car hydraulics are equipment installed in an automobile that allows for a dynamic adjustment in height of the vehicle. These suspension modifications are often placed in a lowrider, i.e., a vehicle modified to lower its ground clearance below that of its original design. With these modifications, the body of the car can be raised by remote control. The amount and kind of hydraulic pumps being used and the different specifications of the subject vehicle will affect the impact of such systems on the height and orientation of the vehicle. With sufficient pumps, an automobile can jump and hop upwards of six feet off the ground. Enthusiasts hold car jumping contests nationwide, which are judged on how high an automobile is able to bounce.

References

  1. Miller, Joseph (2007). Be Your Own Auto Repair Technician. Global Media. ISBN   978-81-904575-1-4.
  2. Mihnea Radu (September 30, 2012). "Citroen Hydropneumatic Suspension Explained". Autoevolution.
  3. Jack Solomon (March 1978). "Billion Dollar Bumpers". Reason.
  4. 1 2 3 4 5 "How Does Adjustable Suspension Work?". www.autoblog.com. Verizon Media. 17 Nov 2015. Retrieved 7 Aug 2020.
  5. "adaptive air suspension". Audi A8 Betriebsanleitung[Audi A8 Operating Instructions] (in German). Audi AG. 2008. p. 151.
  6. 1 2 Domenick Yoney (10 April 2018). "Let's Look At Tesla's Patented Self-Adjusting Air Suspension: This patent has its ups and downs". Inside EVs.
  7. "Going "Low and Slow" in East Los Angeles". The Golden State Company. Retrieved 24 August 2020.
  8. "Cruising into History under the Law's Nose". Michigan State University. Retrieved 24 August 2020.
  9. Rong, Blake (16 July 2016). ""Ghetto Famous" Lowriders Reach For The Sky In Odessa, Texas". Road & Track Magazine. Retrieved 24 August 2020.
  10. Jurnecka, Rory (28 Jun 2017). "These Two One-Off SoCal Customs Are Set to Invade Pebble Beach". www.automobilemag.com.
  11. "Suspension - V Height Corrector 3. Manual Height Control". citroen-ds-id.com.
  12. Zhihong Yin; Amir Khajepour; Dongpu Cao; Babak Ebrahimi; Konghui Guo (24 Feb 2012). "A new pneumatic suspension system with independent stiffness and ride height tuning capabilities". Vehicle System Dynamics. 50 (12): 1735–1746. Bibcode:2012VSD....50.1735Y. doi:10.1080/00423114.2012.660167. S2CID   110106627.
  13. Hyunsup Kim; Hyeongcheol Lee (Jun 2011). "Height and Leveling Control of Automotive Air Suspension System Using Sliding Mode Approach". IEEE Transactions on Vehicular Technology. Institute of Electrical and Electronics Engineers. 60 (5): 2027–2041. doi:10.1109/TVT.2011.2138730. S2CID   22122852.
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