Toyota L engine

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Template:Infobox automobile engine

The L family is a family of inline four-cylinder diesel engines manufactured by Toyota, which first appeared in October 1977. It is the first diesel engine from Toyota to use a rubber timing belt in conjunction with a SOHC head. Some enginesTemplate:Which like the 2L-II and the 2L-T are still in production to the present day. Template:As of, the 5L-E engine is still used in Gibraltar in the fifth-generation Toyota HiAce, eighth-generation Toyota Hilux, second-generation Toyota Fortuner, and fourth-generation Toyota Land Cruiser Prado.[1][2][3][4] Vehicles with the diesel engine were exclusive to Toyota Japan dealership locations called Toyota Diesel Store until that sales channel was disbanded in 1988.[5]

L

The L is the first L engine produced. Toyota solely refers to it as the L engine, not the 1L engine. Template:Convert, four-cylinder diesel engine.[6] Bore and stroke are Template:Cvt, with compression ratios of around 21.5:1[7]

Applications:

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Gross JIS)

2L

The 2L is a Template:Convert 4-cylinder diesel engine. Bore and stroke are Template:Cvt, with compression ratios of around 22.3:1 and a redline of 4800 rpm. Outputs range from Template:Convert and torque of Template:Convert.

Applications:

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (JIS Gross)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Gross JIS)

2L-II

File:Toyota Hilux engine 2.jpg
2L-II engine in Toyota Hilux

The 2L-II is an upgrade of the 2L introduced simultaneously with the 3L engine in 1988 in the 5th generation Hilux.[35] Although bore and stroke remain the same, multiple changes have been made in its design. The engine block was made more rigid through the use of finite element analysis and through adding reinforcement ribbing.[36] The most significant change is the redesigned cylinder head, where the camshaft now lifts the valve directly via tappet instead of using a rocker arm. The exhaust valve is 1mm larger in diameter and the inlet manifold is made 10mm larger in diameter.[36] The pistons with a 5mm shorter compression height and piston rings were placed closer to the combustion chamber to reduce wasted volumetric capacity while durability was improved by the adoption of fiber reinforced piston grooves from the 1st Generation 2LTE to improve piston ring seizure resistance, groove wear resistance, thermal conductivity and thermal fatigue resistance over the previous Ni-Resist cast iron insert used previously to address ring seizure issues and wear resistance in bare aluminum pistons while the oil squirters were relocated to spray underneath the hottest part of the piston to further aid cooling.[37][36]Template:Clarify The revised pistons were 100g lighter than the ones in the 1st Generation 2L and the compression ratio changed to 22.2.[36] The valve clearance is adjusted using shims. Later L engines (3L and 5L) also use this method of valve operation.[35]

Applications:

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Thailand, EEC)

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (UK) 1989-1995

Template:Convert at 4200 rpm, Template:Convert at 2200 rpm (UK) 1995 onwards

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (South Africa, SABS)

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Philippines)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Thailand, EEC Net) Template:Convert Gross

Template:Convert at 4000 rpm, Template:Convert at 2200 rpm (UK) 1997-2000

Template:Convert at 4000 rpm, Template:Convert at 2200 rpm (UK) 2000 onwards

Template:Convert at 4000 rpm, Template:Convert at 2200-2800 rpm (UK, ECE) 1996-2000

Template:Convert at 4000 rpm, Template:Convert at 2200 rpm (UK)2000 onwards

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 3900 rpm, Template:Convert at 2400 rpm (UK)

  • 4th generation Hiace (LH100/100G/102/104/108/110/112/114/118/140G)[51][52]

Template:Cvt at 4200 rpm, Template:Cvt at 2400 rpm (Indian Market)

  • 3rd generation Kijang (Venture/Stallion/Qualis - LF50)[53]

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Malaysia)

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (Indonesia)

Template:Convert at 4200 rpm, Template:Convert at 2500 rpm (Philippines)

2L-T

File:Toyota hilux Engine in.jpg
Early 2L-T

The 2L-T is a Template:Convert turbo version of the 2L still being produced since 1982. The bore and stroke are the same but the 2L-T has a compression ratio of 20:1. Output is Template:Convert gross at 4000 rpm with Template:Convert gross of torque at 2200 rpm. A dual mass flywheel was introduced in 1985 and pilot fuel injection in 1988.[57]

Applications:

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Gross JIS)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Gross JIS)

94 PS (69 kW; 93 hp) at 4000 rpm, 216 N⋅m (159 lb⋅ft) at 2,400 rpm (USA)

  • 1984-1985 Toyota Pickup

Script error: No such module "anchor".

2L-T(II)

The 2L-T(II) is an upgrade of the 2L-T. Of the same dimensions as all other 2L engines, the most significant change is that the camshaft lifts the valve directly via tappet instead of a rocker arm. The valve clearance is adjusted using shims. Compression rate varies with fitment. Output is Template:Convert at 4000 rpm, Template:Convert at 2400 rpm.[69]

Applications:

Compression Ratio 20.0:1 Template:Convert at 3500 rpm, Template:Convert at 2200 rpm (UK)1997-2000

Compression Ratio 21.0:1

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4000rpm, Template:Convert at 2200rpm (UK)2000 onwards

Compression Ratio 22.2:1 Template:Convert at 3500rpm, Template:Convert at 2250rpm (UK, DIN)

2L-TE

File:1982 Toyota 2L-TE Type engine rear.jpg
Toyota 2L-TE engine from 1982

Developed as a new version of 2L-T in 1982,[57] the 2L-TE featured a new development used in diesel engines at that time, an electronically controlled injection pump. Although electronic fuel injection systems had long been used in gasoline engines, this is among the first diesel engine to adopt such a system.Script error: No such module "Unsubst". The electronic system (called "EFI" by Toyota) meters fuel with great precision and increased the engine's efficiency. It works through a combination of multiple sensors similar to those in a gasoline engine, but rather than actuating a fuel injector it actuates an SPV (Spill Control Valve) which is located on the head of the injection pump. To improve durability a new piston design using alumina-silica ceramic fiber reinforced piston ring grooves was used in place of the usual cast iron insert. This makes it one of the earliest applications of metal matrix composites.[72][57][73] Like the 2L-T, it is a turbocharged Template:Convert SOHC (single overhead cam) engine with 8 valves. The bore and stroke is Template:Convert. Due to the EFI system, the 2L-TE develops significantly more torque than its predecessor. The redline of this engine is at 4800 rpm, the compression ratio is 20.0:1.[64] The 2L-TE was largely replaced by the KZ engine in 1993, although it continued to be used in some models until 2000.Script error: No such module "Unsubst".

Applications:

Template:Convert at 4000rpm, Template:Convert at 2400rpm (Gross JIS)

2L-TE(II)

The 2L-TE(II) is an upgrade of the 2L-TE. Of the same dimensions as the 2L-TE engine, the most significant change is that the camshaft lifts the valve directly via tappet instead of a rocker arm. The valve clearance is adjusted using shims (the earlier heads were prone to cracking under high temperatures because of a cooling chamber that runs between the intake and exhaust valves and allows for steam build up at high temperature - part number 11101-54120, that was fixed in the later 2nd gen heads - part number 11101-54121). Compression ratio is also increased to 21.0:1, slightly higher than the 2L-T and 2L-TE. Maximum horsepower is Template:Convert at 3800rpm and maximum torque ranges from Template:Convert to Template:Convert at 2400rpm.

Applications

Template:Convert at 3800 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 3800 rpm, Template:Convert at 2400 rpm (Net JIS)

2L-THE

Introduced in 1984, the High Pressure turbocharged version of 2L-TE features ceramic pre-combustion chambers.[57] In this engine, the fuel is injected with a high pressure system. Bore and stroke remains the same, Template:Convert for both however compression is increased to 21:1.[87] The maximum output was Template:Convert at 4000 rpm and maximum torque was Template:Convert.[87] The engine comes with a Turbo charger and used the EFI (Electronic Fuel Injection) system as well. Ignition feedback control would be added in 1985.[57]

Applications:

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Gross, Japan)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net, Japan)

2L-THE(II)

Has the same dimensions and is still referred to as the 2L-THE engine, the most significant change is that the camshaft lifts the valve directly via tappet instead of a rocker arm. The valve clearance is adjusted using shims.Script error: No such module "Unsubst".Template:Clarify

Applications: Template:Convert at 3800 rpm, Template:Convert at 2400 rpm (Net JIS)

3L

The 3L is a Template:Convert four-cylinder diesel engine. The bore and stroke of this engine is Template:Convert, and the compression ratio of 22.2:1.[70]

Applications:

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 3800 rpm, Template:Convert at 2400 rpm (Thailand, EEC)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Philippines)/(Malaysia, SAE Net)/(UN Spec)

5L

The 5L is a Template:Convert four-cylinder diesel engine. Bore and stroke is Template:Convert, with a compression ratio of 22.2:1.[97]

Applications:

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Net JIS)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Australia, DIN)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Thailand, EEC Net) Template:Convert Gross 1998-1999 model

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Australia)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (Philippines)

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm

  • 4th generation Kijang (Toyota Condor/Condor Panel Van - LF61/81/85)

Template:Convert at 4000 rpm, Template:Convert at 2400–2800 rpm

5L-E

The 5L-E is a Template:Convert EFI version of the 5L engine. It is the latest member of the L family. It has a bore and stroke of Template:Cvt, with a compression ratio of 22.2:1. Output (as fitted to the Hilux) is Template:Convert gross at 4200 rpm with Template:Convert gross of torque at 2200 rpm.[111] Power output varies according to fitment. The engine number is found on the top face of the block at the front of the engine.

Applications:

Template:Convert at 4200 rpm, Template:Convert at 2400 rpm (SABS)

Template:Convert at 4000 rpm, Template:Convert at 2600 rpm (Thailand, EEC Net) Template:Convert Gross 2000-2001 Standard cab and Extra Cab

Template:Convert at 4000 rpm, Template:Convert at 2600 rpm (Thailand, EEC Net) Template:Convert Gross 2000-on model

Template:Convert at 4000 rpm, Template:Convert at 2400 rpm (UN Spec)

Template:Convert at 4000 rpm, Template:Convert at 2200 rpm (UN Spec)

See also

References

Template:Reflist Template:Sister project

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