Flat engine

From WOI Encyclopedia Italia

A flat engine is an internal combustion engine with pistons that are all relatively horizontal. A straight engine canted 90 degrees from straight up is a flat engine, as is one in which the cylinders are arranged in two banks on either side of a single crankshaft. In both configurations, the motion of all the pistons is in the horizontal plane.

Usually, each pair of corresponding pistons from each bank of cylinders share one crank pin on the crankshaft, either by master/slave rods or by two ordinary rods side by side. Some authorities divide flat engines into boxer engines which do not share crank pins in this way, and 180° engines which do.

• The boxer engine (also known as a horizontally opposed cylinder engine) in which the corresponding pistons reach top dead center simultaneously. Boxer engines should not be confused with opposed piston engines, which use a completely different concept.

• The 180° V engine, in which corresponding pistons share a crank pin on the crankshaft, and thus each will reach top dead center half a crankshaft revolution after the other. Flat engines with more than eight cylinders are most commonly V engines.

German engineer Karl Benz patented his design for the first internal combustion engine with horizontally opposed pistons in 1896.

Contents 1 Configuration 1.1 Boxer engines 1.2 180° V-engines 2 Notable flat engines 3 See also 3.1 Flat engine designs 3.2 Other engine designs 4 External links

Configuration

Flat engines are shorter than in-line engines, and have a lower center of gravity than any other common configuration. Automobiles and motorcycles powered by a flat engine generally have a lower center of gravity, giving better stability and control. These engines, however, are also wider than more traditional configurations and are more expensive to build. The extra width may cause problems fitting the engine into the engine bay of a front-engined car owing to the interference with the steering wheels, and create cornering problems for a motorcycle.

The flat configuration also lends itself very well with air cooling and aircraft engines. Air-cooled designs such as in the VW Beetle used a flat-4, as did the Porsche 356 and 912. The Chevrolet Corvair used an air-cooled flat-6, a rarity in American designs. Both the older and newer models of the Porsche 911 use a flat-6, at first air cooled but later models are water-cooled. These automobiles situate the engine in the rear rather than the front, where its width does not interfere with the steering of the front wheels.

Front-mounted air-cooled flat-twin engines were used by Citroën in their model 2CV and its derivatives, while the Citroën GS, Citroën GSA, Oltcit used a flat-4, and a flat-6 was proposed for the Citroën DS, but rejected. BMW uses an air-cooled or partially oil-cooled flat-twin in many of its motorcycles.

All versions of the Subaru Impreza, Forester, Tribeca, Legacy and SVX use either a flat-4 or flat-6 engine.

Boxer engines

Boxer engines got their name because each pair of pistons moves simultaneously in and out rather than alternately, like boxers showing they're ready by clashing their gloved fists against each other before a fight. Boxer engines of up to eight cylinders have proved highly successful in both automobiles and motorcycles, and continue to be popular for light aircraft engines.

One benefit of using a boxer engine versus a V-engine is that the design provides good balance because each piston's momentum is counterbalanced by the corresponding piston movement of the opposite side. Boxers are one of only three cylinder layouts that have a natural dynamic balance; the others being the straight-6 and the V12. These engines can run very smoothly and free of unbalanced forces with a four-stroke cycle and do not require a balance shaft or counterweights on the crankshaft to balance the weight of the reciprocating parts, which are required in other engine configurations. Note that this is generally true of boxer engines regardless of the number of cylinders (assumed to be even), but not true for all V and straight, or inline engines. However, in the case of boxer engines with fewer than six cylinders, unbalanced moments (also known as a "rocking couple") are unavoidable due to the "opposite" cylinders being not exactly opposite but offset slightly.

Boxer engines tend to produce more noise than inline and V-engines because valve clatter is not so well dampened due to lack of covering by air-filters and other components, and produce a larger torsional vibration than a V-engine, and so tend to require a larger flywheel. They have a characteristic smoothness throughout the rev range and, combined with the mounting position immediately ahead of the rear axle, offer a low center of gravity and more neutral handling.

180° V-engines

Non-boxer flat engines have been used in performance and racing cars, notably 180 degree V12s. Ferrari used a 180° version of the Colombo V12 in the Testarossa and Berlinetta Boxer models. The Porsche 917 flat 12 engine is also not a boxer.

This configuration is sometimes termed a 180° V engine because like most other V engine layouts each pair of pistons share a crank pin. In a 180° V engine when one piston of a pair is at Top Dead Centre the other will be at BDC. In a boxer engine a pair of pistons will be on crank pins 180° apart so that both pistons in a pair will be at TDC at the same time.

Notable flat engines

• In 1896, Karl Benz invented the first internal combustion engine with horizontally opposed pistons

• In 1923 Max Friz designed the first BMW motorcycles, choosing a 500 cc boxer engine and unit transmission with shaft drive. This engine type is still in production today. The BMW 247 engine, known as an airhead due to its air cooling, was produced until 1995. BMW replaced it with the oilhead engine with partial oil cooling and four valves per cylinder, but still retaining the same boxer twin configuration.
• In 1948 Preston Tucker modified a helicopter flat-6 to be rear mounted in his Tucker Torpedo
• The Volkswagen air-cooled flat-4 engine used in the Volkswagen Beetle, SP2 and Karmann Ghia, and later developed further for the Volkswagen Type 2 (Bus) transporters and Volkswagen Type 3 cars
• The Citroën 2CV and Panhard air-cooled flat-2 engines, both influenced by the flat-2s of BMW
• The air-cooled Chevrolet Corvair flat-6
• In 1960 Lancia's flat-4 water-cooled engine debuted for the Lancia Flavia model, first Italian front-wheel drive car, like 1500cc (90 bhp din coupè version) and during the years become a 2.000 cc with {{#ifeq:|on|0000000000000142}}142 bhp ({{convert/{{#if:{{#ifeq:{{#expr:0*0}}|0|0}}|kW|}}|142|142*745.69987158227022|{{#if:{{#ifeq:{{#expr:0*0}}|0|0}}||}}||r={{#ifeq:{{{sp}}}|us|er|re}}|j=2.872564068-0|d=LoffAonSoff}}) Sae when was mounted the first electronic Injection by Bosch in 1970 in a flat four engine, Lancia also rebuild a new big flat-4 engine in 1976, 2484 cc, for his upper size model Lancia Gamma, this engine was also tested by Squadra Corse Lancia in 1978 with 16 valves and Turbo supercharged, over 300bhp, forRacing Car Lancia Beta Montecarlo prototype (car after becomes World Champion of Makes in 1979 with a different engine). Last Flat-4 engine by Lancia was produced in 1984 on final production of Lancia Gamma, replaced by new Lancia Thema
• The flat-4 engines in Alfa Romeo's Alfasud, Sprint, 33 and early versions of the 145. The last of the line was a 1712 cc flat-4, 16 valves, producing up to 137bhp.
• The water-cooled front-mounted flat-4 and flat-6 engines used by Subaru in all of its mid-sized cars; Subaru refers to these as boxer engines in publicity commentary, and include a variety of naturally aspirated and turbo driven engines; in their turbo engines from 1983 to current, both closed and semi-closed short blocks have been used. Subaru also offer the world's first boxer turbodiesel.

• Since its introduction in 1975, the Honda Goldwing has utilized a boxer style engine, a 4-cylinder until 1987, and 6-cylinders since.
• The water-cooled SOHC 1832 cc flat-6 is fitted to the Honda Goldwing from 2001 on.
• The air-cooled flat-4, flat-6 and flat-8 engines were used for many years in early Porsches. The flat-12 in Porsche's famous 917's is a 180° V-engine and not a boxer.
• The water-cooled flat-6 engines in the Porsche Boxster, Cayman and later 911 models
• General aviation aircraft often use air-cooled flat-4 and flat-6 engines made by companies such as Lycoming, Continental and Rotax.

See also

• History of the internal combustion engine

Flat engine designs

• Flat-twin
• Flat-4
• Flat-6
• Flat-8
• Flat-10
• Flat-12
• Flat-16
• H engine
• Controlled Combustion Engine

Other engine designs

• X engine
• V engine
• W engine
• Straight engine
• Rotary engine

Piston engine configurations
Straight	Single, 2, 3, 4, 5, 6, 8, 9, 10, 12, 14
V	2, 4, 5, 6, 8, 10, 12, 16, 20, 24
Flat	2, 4, 6, 8, 10, 12, 16, H
W	8, 9, 12, 16, 18
Other inline	H, VR, Opposed, U (Square), X
Other	Hemi, Radial, Rotary, Pistonless, Deltic, (Wankel)

Heat engines
Stroke cycles One • Two • Four • Six •
Engine types Gas turbine • Piston • Jet • Rocket engine • Steam engine • Stirling engine • Tschudi• Twingle Rotary • Wankel • Free-piston • Britalus • Coomber • Swing-piston • Orbital • Quasiturbine
Valves Cylinder head porting • D slide • Four-stroke • Manifold • Multi • Piston • Poppet • Sleeve
Piston layouts Single cylinder • Straight • Opposed • Flat • V • W • H • Deltic • Radial • Rocket engine nozzle • Rotary • Stelzer • Controlled Combustion • Bourke
Motion mechanisms Cam • Connecting rod • Coomber rotary • Crank • Crank substitute • Crankshaft • Linkages (Evans • Peaucellier-Lipkin • Sector straight-line • Watt) • Double acting/differential cylinder
Thermodynamic cycle

Articles relating to Automobile configurations
Car body style and classification	2 plus 2 | Antique car | Cabrio coach | Cabriolet | City car | Classic car | Compact car | Compact performance car | Compact SUV | Convertible | Coupé | Coupé convertible | Coupe Utility | Crossover SUV | Custom car | Drophead coupe | Fastback | Full-size car | Grand tourer | Hardtop | Hatchback | Hot hatch | Hot rod | Large family car | Leisure activity vehicle | Liftback | Limousine | Luxury car | Microcar | Mid-size car | Mini SUV | Minivan | Multi-purpose vehicle | Muscle car | Notchback | Personal luxury car | Pickup truck | Retractable hardtop | Roadster | Sedan | Saloon | Small family car | Sport compact | Sports car | Sport utility vehicle | Spyder | Station wagon | Estate car | Supermini | Targa top | Taxicab | Touring car | Town car | T-top | Ute | Van | Voiturette
Specialised vehicles	Gyrocar | Flying car. Amphibious vehicle
Fuel technologies	Internal combustion engine | Electric vehicle | Neighborhood electric vehicle | Hybrid vehicle | Battery electric vehicle | Hydrogen vehicle | Fuel cell | Plug-in hybrid electric vehicle | Steam car | Alternative fuel cars | Biodiesel | Gasohol | Ethanol | LPG (Propane) | Homogeneous Charge Compression Ignition | Liquid Nitrogen | Gasoline Direct Injection
Driven wheels	Four-wheel drive | Front-wheel drive | Rear-wheel drive | All-wheel drive | Two-wheel drive
Engine positioning	Front engine | Rear engine | Mid engine
Layout	FF layout | FR layout | MR layout | MF layout | RR layout
Engine configuration	Internal combustion engine | Straight-6 | V engine | Wankel engine | Reciprocating engine | Inline engine | Flat engine | Flathead engine | Diesel engine | Two-stroke cycle | Four-stroke cycle | Pushrod engine | Straight engine | H engine | Turbodiesel | Hybrid vehicle | Rechargeable energy storage system | Electric vehicle | Hydrogen vehicle

Body	Framework	A-pillar | Bumper | Cabrio coach | Chassis | Crumple zone | Body-on-frame | Dagmar bumpers | Fender | Fender skirts | Grille | Hood | Hood scoop | Monocoque construction | Pontoon fenders | Quarter panel | Shaker scoop | Spoiler | Subframe | Tonneau
Doors	Butterfly doors | Gull-wing door | Scissor doors | Suicide door
Glass	Sunroof | Greenhouse | Windshield
Other	Antenna ball | Hood ornament | Japan Black paint | Nerf bar | Truck accessory | Bumper sticker
Exterior Equipment	Lighting	Daytime running lamp | Headlamp | Headlight styling | Hidden headlamps | Retroreflector | Sealed beam | Trafficators | High intensity discharge
	Other	British car number plates | Distance sensor | US and Canadian license plates | Vanity plate | Vehicle registration plate | Windscreen wiper | Windshield washer fluid
Car engine	Air/Fuel	Air filter | Automatic Performance Control | Blowoff valve | Boost | Boost controller | Butterfly valve | Carburetor | Charge cooler | Centrifugal type supercharger | Cold air intake | Engine management system | Engine Control Unit | Forced induction | Front mounted intercooler | Fuel filter | Fuel injection | Fuel pump | Fuel tank | Gasoline direct injection | Indirect injection | Intake | Intercooler | Manifold | Manifold vacuum | Mass flow sensor | Naturally-aspirated engine | Ram-air intake | Scroll-type supercharger | Short ram air intake | Supercharger | Throttle body | Top mounted intercooler | Turbocharger | Turbocharged Direct Injection | Twin-turbo | Variable Length Intake Manifold | Variable geometry turbocharger. Warm air intake
	Exhaust	Catalytic converter | Emissions control devices | Exhaust pipe | Exhaust system | Glasspack | Muffler | Oxygen sensor
	Cooling	Aircooling | Antifreeze | Ethylene glycol | Radiator | Thermostat
	Ignition system	Starter | Car battery | Contact breaker | Distributor | Electrical ballast | Ignition coil | Lead-acid battery | Magneto | Spark-ignition | Spark plug
	Other	Balance shaft | Block heater | Crank. Cam | Camshaft | Connecting rod | Combustion chamber | Crank pin | Crankshaft | Crossflow cylinder head | Crossplane | Desmodromic valve | Engine knocking | Compression ratio | Crank sensor | Cylinder | Cylinder bank | Cylinder block | Cylinder head | Cylinder head porting | Dump valve,Engine balance | Oil filter | Firing order | Freeze plug | Gasket | Head gasket | Hypereutectic piston | Hydrolock | Lean burn | Main bearing | Motor oil | Multi-valve | Oil sludge | Overhead camshaft | Overhead valve | PCV valve | Piston | Piston ring | Pneumatic valve gear | Poppet valve | Power band | Redline | Reverse-flow cylinder head | Rocker arm | Seal | Sleeve valve | Starter ring gear | Synthetic oil | Tappet | Timing belt | Timing mark | Top dead centre | Underdrive pulleys | Valve float | Variable valve timing
Interior equipment	Instruments	Backup camera | Boost gauge | Buzzer | Car computer | Carputer | Check Engine light | Fuel gauge | Global Positioning System | Idiot light | Navigation system | Odometer | Speedometer | Tachometer | Trip computer
	Controls	Bowden cable | Cruise control | Electronic throttle control | Hand brake | Manettino dial | Steering wheel | Throttle | Gear stick
	Motor vehicle theft deterrence	Car alarm | ESITrack | Immobiliser | Klaxon | Vehicle tracking system | VIN etching
	Passenger safety & seating	Airbag | Armrest | Automatic seatbelt | Bench seat | Bucket seat | Child safety lock | Dicky seat | Passive safety | Rumble seat | Seat belt
	Other	Air conditioning | Ancillary power | Car audio | Car phone | Center console | Dashboard | Motorola connector | Power window | Rear-view mirror | TripSense
Powertrain	Wheels and Tires	All-terrain tyre | Bias-ply tire | Contact patch | Custom wheel | Drive wheel | Hubcap | Magnesium alloy wheel | Mud-terrain tyre | Paddle tires | Radial tire | Rostyle wheel | Run flat tires | Schrader valve | Slick tire | Spinner | Tire code | Tread | Treadwear rating | Whitewall tire | Wire wheels
	Transmission	Automatic transmission | Clutch | Continuously variable transmission | Differential | Driveshaft | Electrorheological clutch | Epicyclic gearing | Fluid coupling | Fully-automatic transmission | Gear stick | Gearbox | Hydramatic | Limited slip differential | Locking differential | Manual transmission | Roto Hydramatic | Saxomat | Semi-automatic transmission | Semi-automatic transmission | Super Turbine 300 | Tiptronic Torque converter | Transmission (mechanics) | Transmission Control Unit | Turbo-Hydramatic | Universal joint
	Steering	Ackermann steering geometry | Anti-lock braking system | Camber angle | Car handling | Caster angle | Oversteer | Power steering | Rack and pinion | Toe angle | Torque steering | Understeer
	Suspension	Axle | Beam axle | Coil spring | De Dion tube | Double wishbone | Electronic Stability Control | Hydragas | Hydrolastic | Hydropneumatic suspension | Independent suspension | Kingpin | Leaf spring | Live axle | MacPherson strut | Multi-link suspension | Panhard rod | Semi-trailing arm suspension | Shock absorber | Sway bar | Swing axle | Torsion beam suspension | Transaxle | Trailing arm | Unsprung weight | Watt's linkage | Wishbone suspension
	Brakes	Anti-lock braking system | Disc brake | Drum brake | Hand brake | Hydraulic brake | Inboard brake | Brake lining | Brake fade | Brake fluid | Hydraulic fluid | Brake bleeding | Engine braking | Electronic brakeforce distribution | Regenerative brake

External links

• Detailed Flat Twin Engine Animations