VR6 engine

Schematic 'top view' of a 15° VR6 engine

Volkswagen's VR6 engines, and the later VR5 variants, are a family of internal combustion engines, characterised by a narrow-angle (10.5° or 15°) V engine configuration. Developed by the manufacturer in the late 1980s, evolutions of these engines are still produced by them.

When containing six cylinders, a VR-engine's cylinder block consists of two cylinder banks (left: 1-3-5; right: 2-4-6) while there is only a single cylinder head covering both rows of cylinders.

Description

Three types of engine configurationa: straight engine, b: V engine, c: VR engine
Overhead view of piston arrangements
Left: I4, Center: Wider angle V6, Right: VR6
The V6 engine needs two separate cylinder heads, while the VR6 uses one, like an inline engine

The name VR6 comes from a combination of V engine (German: V-Motor), and the German word "Reihenmotor" (meaning "inline engine" or "straight engine") - and so is described as a "Vee-Inline engine" (VR-Motor). It shares a common cylinder head for the two offset banks of cylinders. It has a specific sound that is unique and different than either inline or "V" engines. The engine is currently in use in a variety of VW models, one such example is the Volkswagen Passat NMS.[1]

This engine configuration was also adopted for the Horex VR6 Motorbike.

The Volkswagen VR6 was specifically designed for transverse engine installations in front-wheel drive vehicles. The narrow angle of 15° between the two 'rows' in the VR6 engine is a more compact size than a wider angle V6 design. This made it possible for Volkswagen to install six-cylinder engines in existing four-cylinder cars. The wider configuration of a wider angle V6 engine would have required an extensive redesign of the vehicles to enlarge the engine compartment. The VR6 is also able to use the firing order of a straight-six engine.

The narrow angle between cylinders allows the use of just one cylinder head - whereas wider angle Vee engines require two separate cylinder heads. This arrangement also allows for two overhead camshafts to drive all the valves. This simplifies engine construction and reduces costs. In early 12 valve VR6 engines, there were two overhead camshafts with six cam lobes on each. The forward camshaft has three intake valve lobes and three exhaust valve lobes to control the frontmost three cylinders. The rear camshaft is designed the same way, but controls the rearmost three cylinders. The operating principle of this design is most similar to a single overhead camshaft (SOHC) design. Later 24 valve VR6 engines still had two overhead camshafts, but with 12 cam lobes each. However, the operation of the camshafts in the 24 valve engine is different from that of the earlier 12 valve engine, in that the front camshaft only operates the intake valves, and the rear camshaft only operates the exhaust valves. The operating principle of this design is most similar to a double overhead camshaft (DOHC) design...

There are several different variants of the VR6 engine. The original VR6 engine displaced 2.8 litres and featured a 12 valve design (two valves per cylinder). These engines produced a DIN-rated power output of 128 kW (174 PS; 172 bhp), and 240 N·m (177 lbf·ft) of torque.

Detailed specifications

Schematic diagram of the piston 'Vee' angle in the VR6 engine.
Note the 'double overhead camshaft' (DOHC) design.

Volkswagen Group identifies the original VR6 by the chassis "AAA" engine ID code. It operates on the four-stroke cycle, has an engine displacement of 2.8 litres. The 2.8 VR6 cylinder bore diameter is 81.0 millimetres (3.19 in), and the piston stroke is 90.0 millimetres (3.54 in), although some European engines had a displacement of 2.9 litres (this variant identified by the "ABV" engine ID code). The 2.9 VR6 cylinder bore diameter is 82.0 millimetres (3.23 in), and the piston stroke is 90.0 millimetres (3.54 in). The "Vee" angle is 15°, and the compression ratio (CR) is 10:1.[2]

The drop-forged steel, six-throw crankshaft runs in seven main bearings; unlike the majority of wide angle V6 engines which have only four main bearings.[3] The connecting rod bearing journals are offset 22° to one another.[4] Two overhead camshafts (OHCs) operate the automatic hydraulic valve lifters which, in turn, open and close the 39.0 millimetres (1.54 in) intake valves and 34.3 millimetres (1.35 in) exhaust valves. Since the two 'rows' of pistons and cylinders share a single cylinder head and head gasket, the piston crown (or top surface) is tilted. Intake and exhaust valves need different camshafts to vary valve overlap (they may be coaxial like in some 90° V8).[5]

Schematic diagram showing the differences in port lengths between a V6 and VR6 using 12-valves
Schematic diagram showing the differences in port lengths between a V6 and VR6 using 24-valves

Because of the cylinder arrangement in the VR6 - with two rows of combustion chambers within the same cylinder head, the intake and exhaust ports between the two rows of cylinders are of varying lengths. Without compensation, these varying port lengths would result in the two rows of cylinders producing different amounts of power at a particular engine RPM. Depending on the specific generation of VR6, the difference in port lengths are compensated for by specific tuning of the intake manifold, the camshaft overlap and lift profile, or a combination thereof.[5]

The fuel injectors, operated by the Bosch Motronic engine control unit (ECU) system, are mounted behind the bend of the intake manifolds. VR6 engines also use an additional auxiliary electric pump to circulate the engine coolant whilst the engine is running, and also during the cooling fan 'after-run' cycle, in addition to the belt-driven main water pump.

The centerline of the cylinders are also offset from the centerline of the crankshaft by 12.5 millimetres (0.49 in). To accommodate the offset cylinder placement and narrow "Vee" design, the connecting rod bearing journals are offset 22° to each other. This also allows the use of a 120° firing interval between cylinders.[6] The firing order is: 1, 5, 3, 6, 2, 4.[7]

History and evolution

A European-spec 'ABV' 2.9 litre VR6 in a Volkswagen Corrado
Volkswagen VR5 engine
Overview
Manufacturer Volkswagen
Also called 2.3 V5
Production 2000-2005
Combustion chamber
Configuration VR5
Displacement 2,324 cc (141.8 cu in)
Cylinder bore 81.0mm
Piston stroke 90.2mm
Valvetrain DOHC/2 valves per cylinder/4 valves per cylinder
Compression ratio 10.8:1
Combustion
Fuel system multipoint indirect injection
Fuel type petrol
Output
Power output 150–170 PS (110–130 kW; 150–170 hp)
Torque output 209–220 N·m (154–162 lb·ft)
Chronology
Predecessor -
Successor -
Volkswagen VR6 engine
Overview
Manufacturer Volkswagen
Also called 2.8 V6
Production 1991-2005
Combustion chamber
Configuration VR6
Displacement 2,792 cc (170.4 cu in)
Cylinder bore 81.0mm
Piston stroke 90.3mm
Valvetrain DOHC/4 valves per cylinder
Combustion
Fuel system multipoint indirect injection
Fuel type petrol
Output
Power output 140–204 PS (103–150 kW; 138–201 hp)
Torque output 235–265 N·m (173–195 lb·ft)
Chronology
Predecessor -
Successor -
Volkswagen VR6 engine
Overview
Manufacturer Volkswagen
Also called 2.9 V6
Production 1994-1997
Combustion chamber
Configuration VR6
Displacement 2,861 cc (174.6 cu in)
Cylinder bore 82.0mm
Piston stroke 90.3mm
Valvetrain DOHC/2 valves per cylinder
Combustion
Fuel system multipoint injection
Fuel type petrol
Output
Power output 184–190 PS (135–140 kW; 181–187 hp)
Torque output 245 N·m (181 lb·ft)
Chronology
Predecessor -
Successor -
Volkswagen VR6 engine
Overview
Manufacturer Volkswagen
Also called 3.2 V6
Production 2003-
Combustion chamber
Configuration VR6
Displacement 3,189 cc (194.6 cu in)
Cylinder bore 84.0mm/86.0mm
Piston stroke 95.9mm/90.9mm
Valvetrain DOHC/4 valves per cylinder
Compression ratio 11.3:1
Combustion
Fuel system multipoint indirect injection/FSI commonrail direct injection
Fuel type petrol
Output
Power output 235–250 PS (173–184 kW; 232–247 hp)
Torque output 315–320 N·m (232–236 lb·ft)
Chronology
Predecessor -
Successor -
Volkswagen VR6 engine
Overview
Manufacturer Volkswagen
Also called 3.6 FSI
Production 2005-
Combustion chamber
Configuration VR6
Displacement 3,598 cc (219.6 cu in)
Cylinder bore 89.0 mm
Piston stroke 96.4 mm
Valvetrain DOHC/4 valves per cylinder
Compression ratio 12.0:1
Combustion
Fuel system FSI commonrail direct injection
Fuel type petrol
Output
Power output 260–300 PS (190–220 kW; 260–300 hp)
Torque output 350 N·m (260 lb·ft)
Chronology
Predecessor -
Successor -

The Volkswagen Group VR6 engine was introduced in Europe by Volkswagen in 1991, in the Passat and Corrado; and in North America the following year. The Passat, Passat Variant (estate/wagon), and U.S.-specification Corrado used the original 2.8 litre design; the European-specification Corrado and the 4WD Passat Syncro received a 2.9-litre version with 140 kilowatts (190 PS; 188 bhp). This version also had a free flowing 6 centimetres (2.4 in) (2.5 in) catalytic converter, sharper camshafts, 4-bar (58 psi) fuel pressure regulator, enlarged inlet manifold, and larger throttle body.It was also sold to Mercedes Benz for use in their vans, and designated as M104.900.

The 2.9-litre engine, as destined for the Corrado, was originally designed to benefit from a dual-tract variable-length inlet manifold - called the VSR (German: "Variables SaugRohr"), and made by Pierburg for Volkswagen Motorsport. This gave extra low-down torque, but was deleted before production on cost grounds, and was instead offered as an aftermarket option. This design was later sold to Schrick, who redesigned it and offered it as the Schrick VGI ("Variable Geometry Intake").

In 1992, with the introduction of the Volkswagen Golf Mk3, a six-cylinder engine was available for the first time in a lower-midsize segment hatchback in Europe. North America waited until 1994 to receive this engine; at the same time, the European model started to use the 2.9-litre in the VR6 Syncro model. The corresponding Vento/Jetta VR6 versions appeared in the same years.

Volkswagen Group removed a cylinder from the VR6 in 1997 to create the VR5 (aka 'V5'), the second block to use an uneven number of cylinders in a Vee design after the Honda V3 triples of MotoGP fame. This version, which had a 2.3-litre capacity, was capable of 110 kilowatts (150 PS; 148 bhp), and had a maximum torque of 210 newton metres (155 lbf·ft). It was introduced in the Passat in 1997, and the Golf and Bora in 1999.

Further modifications were added to the design in 1999, with the introduction of the 24-valve 2.8-litre VR6. This engine produced 150 kilowatts (204 PS; 201 bhp), and 265 newton metres (195 lbf·ft) of torque. The new version was not available in the Passat (as it was incompatible with the then-current generation's longitudinal engine layout), but was introduced as the range-topper in the Golf and Bora for European markets under engine codes AQP and AUE from 1999. The VR6 name was dropped as a commercial designation, and the 4WD system (now renamed 4motion) became standard on the V6 (VR6) in Europe. The corresponding multi-valve V5 was only released in 2001, with a 20 PS power increase, to 125 kilowatts (170 PS; 168 bhp). The multi-valve V6 (VR6) was introduced in North America in 2001 aboard the T4 Eurovan, producing 150 kilowatts (204 PS; 201 bhp), and in the GTI in 2002 (where it retained the VR6 name).

In 1999, an updated 12-valve VR6 model was released for the North American market A4-platform Golf Mk4/GTI/Jetta product line. This new VR6 improved performance via updated camshafts, variable geometry intake manifold, an increased compression ratio of 10.5:1, and updated emissions equipment. Power increased to 130 kilowatts (177 PS; 174 bhp) at 5,800 rpm, while torque increased to 245 newton metres (181 lbf·ft) at 3,200 rpm. This engine option was available from 1999.52002, when it was replaced by the revised 24-valve engine, engine code BDE, at the same time as the European market also introduced this revised engine.

In 2001, the VR6 was enlarged to 3.2 litres, to create a limited-production, high-performance, 168 kilowatts (228 PS; 225 bhp) version of the New Beetle called Beetle RSi. The Beetle RSi was the first production vehicle to use the 3.2 litre 24-valve VR6 engine. This engine was later used in the Mk4 Golf R32, and was also introduced in the original Audi TT. According to Volkswagen Group, these variants produced 184 kilowatts (250 PS; 247 bhp) in TT trim (engine ID code: BHE), and 177 kilowatts (241 PS; 237 bhp) in R32 trim (engine ID code: BFH/BML).

The then range-topping 3.2-litre VR6 was later used in the current Audi A3 and the Mk5 Golf R32.

In 2005, the European market version of Volkswagen's sixth generation Passat, now with a transverse engine layout, went on sale with a revised version of the 3.2-litre VR6 as its top-spec engine. For North America, the Passat received a new 3.6-litre VR6 with a narrower 10.6 degree cylinder angle, producing 206 kilowatts (280 PS; 276 bhp). These revised 3.2 and 3.6 feature Fuel Stratified Injection (FSI). This new 3.2 FSI VR6 develops 184 kilowatts (250 PS; 247 bhp) at 6,250 rpm, and 330 newton metres (243 lbf·ft)at 3,000 rpm.[8] The introduction of the Passat VR6 also marked the first time a VR6 powered vehicle was made available in North America before Europe.

The Passat R36, available from early 2008, received an uprated version of the 3.6 FSI VR6 engine, with 220 kilowatts (299 PS; 295 bhp) at 6,600 rpm and 350 newton metres (258 lbf·ft) at 2,400 rpm, standard 4motion four-wheel drive, and standard Direct-Shift Gearbox (DSG).[9]

The first generation Porsche Cayenne base model is powered by a 3.2-liter VR6 engine producing 250 hp (190 kW); modifications in the exhaust manifold allow power to peak at 6700 rpm. This is the same 3.2-liter motor found on a Volkswagen Touareg and Volkswagen R32.

Usage

VR6

The VR6 engine is currently used by Volkswagen in:

The VR6 engine was used by Volkswagen in:

The VR6 is also used in other Volkswagen Group products, namely:

The VR6 is also used by other manufacturers, namely:

VR5

The VR5 was used by in the following Volkswagen Group products:

Other applications of "VR" technology

Volkswagen Group has also developed a series of engines which combine two narrow angle "V" cylinder blocks mated together at 72 degrees. These compound VR engines are referred to as "W engines" by VW Group. For example, two VR6 blocks mated together at 72 degrees result in a W12 engine configuration, which is significantly shorter than a 90 degrees V12 engine, but only marginally wider. W8 engine and W16 engine designs were developed in a similar fashion. The W8 uses two four-cylinder "VR4" blocks mated together, and the W16 combines two "VR8" blocks.

See also

References

  1. de:VR-Motor
  2. Clemens, Kevin. VW GTI, Golf, Jetta, MK III & IV. St. Paul, MN: Motorbooks International. p. 22. ISBN 0-7603-2595-2.
  3. "Volkswagen VR6, W12 and W16 engines". AutoZine. Retrieved 23 June 2014.
  4. Raven, Gregory; Erickson, Chad. Water-Cooled VW Performance Handbook: 3rd Edition. MBI Publishing. p. 41. ISBN 1610601998.
  5. 1 2 "Volkswagen's VR6 and W-engines". Autozine technical school. AutoZine. Retrieved 23 June 2014.
  6. Barber, Thomas. "Horex VR6 motorcycle". Motorcycle Daily. Retrieved 23 June 2014.
  7. Schenck, M (1991). Automotive Design Engineering. Century Press.
  8. "The Passat (sales brochure) - 3.2 FSI VR6" (PDF). Volkswagen Group United Kingdom Limited. Volkswagen.co.uk. 1 December 2008. pp. 14, 18, 24. Retrieved 31 July 2009.
  9. "The Passat (sales brochure) - 3.6 FSI VR6" (PDF). Volkswagen Group United Kingdom Limited. Volkswagen.co.uk. 1 December 2008. pp. 11, 12, 14, 19, 24. Retrieved 31 July 2009.
  10. http://www.caranddriver.com/reviews/2009-artega-gt-review

External links

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