Multi-function couplers (MFCs), or fully automatic couplers, make all connections between rail vehicles (mechanical, air brake, and electrical) without human intervention, in contrast to autocouplers, or semi-automatic couplers, which handle only the mechanical aspects. The majority of trains fitted with these types of couplers are multiple units, especially those used in
mass transit operations. There are a few designs of fully automatic couplers in use worldwide, including the
Scharfenberg coupler, various knuckle hybrids such as the Tightlock (used in the UK), the Wedglock coupling, BSI coupling (Bergische Stahl Industrie, now
Faiveley Transport), and the Schaku-Tomlinson Tightlock coupling. There are several other automatic train couplings similar to the Scharfenberg coupler, but not necessarily compatible with it. Older US transit operators continue to use these non-Janney electro-pneumatic coupler designs, having used them for decades.
Westinghouse H2C The
Westinghouse H2C coupler, whose predecessor the H2A was first used on the
BMT Standards and later the
R1 through
R9 classes, is currently used on the
R32,
R42,
R62,
R62A,
R68, and
R68A class subway cars of the
New York City Subway. The A ends of the cars typically have the Westinghouse coupler, and the B ends use either a semi-permanent
drawbar or a Westinghouse coupler.
WABCO N-Type Model N-2 on a
SEPTA Silverliner II The WABCO N-Type coupler was first developed for the prototype
Pittsburgh Skybus system, with the initial model, N-1, applied only to the three Skybus cars. The updated N-2 model, with a larger gathering range, was first applied to the new "Airporter" rapid transit cars on the
Cleveland Rapid Transit line. The model N-2 used lightweight draft gear slung below the center sill to allow wide swings needed to negotiate sharp curves. This made the N-2 unsuitable for mainline railroad use, so an updated version, N-2-A, was developed for that market. The first of these was fitted in 1968 to the
UAC TurboTrain with 228 electrical contacts and the
Budd Metropolitan EMU with 138 contacts. Starting in the 1970s, the N-2-A was fitted to the entire
SEPTA Silverliner family of MU's, the
NJT Arrow series of MU's and the
Metro-North Railroad/
Long Island Rail Road M series of MU railcars. The N-2 was also used by the
PATCO Speedline, but was replaced due to issues with the electrical contacts. Later, WABCO would create a new model N-3 for the
BART system with a gathering range, which required a rectangular funnel. The WABCO N-type is sometimes referred to as the
pin and cup coupler or
spear coupler.
Tomlinson The Tomlinson coupler was developed by the
Ohio Brass Company and on the heavy capacity
Taipei Metro lines.
Scharfenberg coupler The Scharfenberg coupler ( or ) is probably the most commonly used type of fully automatic coupling. Designed in 1903 by Karl Scharfenberg in Königsberg, Germany (today
Kaliningrad, Russia), it has gradually spread from transit trains to regular passenger service trains. However, outside Europe, its use is generally restricted to mass transit systems. The Schaku coupler is superior to many other automatic couplers because it automatically establishes pneumatic and electrical connections and can uncouple automatically. However, there is no standard for the placement of these electro-pneumatic connections. Some rail companies place them on the sides, while others place them above the mechanical portion of the Schaku coupler. Small air cylinders, acting on the rotating heads of the coupler, ensure the Schaku coupler engagement, making it unnecessary to use shock to get a good coupling. Joining portions of a passenger train can be done at very low speed (less than in the final approach), so that the passengers are not jostled. Rail equipment manufacturers such as
Bombardier offer the Schaku coupler as an option for their mass transit systems, passenger cars, and locomotives. In North America, all the trains of the
Montreal Metro are equipped with it, as are new light rail systems
in Denver,
in Baltimore, and
in New Jersey. It is also used on
light rail vehicles
in Portland,
in Minneapolis, the
Vancouver Skytrain, and
Line 3 Scarborough in
Toronto. In New Zealand, it is found on the electric
AM class of
Auckland's suburban rail network, and on the
Matangi trains of
Wellington. It also equips all the dedicated rolling stock used for the shuttle services in the
Channel Tunnel. The maximum tonnage is under . The Scharfenberg coupler head type 10 design is the prototype for the
digital automatic coupling (DAC) used for European freight trains. The project is part of the EU's Shift2Rail initiative and aims to replace screw couplings in European freight transport. As part of the program, the manufacturers
Dellner and
Voith are, , testing new coupling systems for freight trains. In addition to the DAC, the manufacturers are also developing a hybrid DAC for locomotives which can couple with either screw or DAC couplers.
Dellner coupler Class 221 at
Carlisle on 10 October 2005 Swedish coupling manufacturer Dellner has developed its own modular coupler design concept. It incorporates all common types of coupling heads for passenger trains. owned by
CrossCountry joining together to form an eight-car unit. Dellner also launched a proprietary coupler system: the automatic coupler with head type 12. It is based on the Scharfenberg/latch-type design. The modular coupling consists of a type 12 coupling head based on a single-position latch mechanism. The coupling head is in the same state in both coupled and uncoupled positions. The mechanism rotates only during the transition between the coupling or uncoupling process.
Wedglock coupler train The Wedglock coupler is named for the pneumatic wedges that lock the moving parts of the coupler head in the engaged position. It is the standard automatic coupler used on
London Underground trains. The coupler was introduced in 1936 and is manufactured by William Cook Rail and
Voith. The face of the coupler has a protruding, movable tongue which is inserted into the throat of the opposite coupler during coupling. Once these mechanical elements are fully engaged, their positions are locked by wedges actuated by a pneumatic cylinder. The pneumatic ports are located below the mechanical connection. They are pressed together and sealed by rubber elements. On either side of the mechanical connection are electrical contact blocks consisting of a series of butt contacts. When disconnected, the contacts are protected by the so-called "Dutch oven" covers. The covers are mechanically actuated and swing open when the other coupling approaches. The coupling can be engaged and disengaged from the cab using a three-position coupling switch.
GF Coupler The GF coupler, sometimes also written as +GF+ coupler, is a coupler manufactured by
Georg Fischer in
Schaffhausen,
Switzerland, and was widely used on Swiss railways and on vehicles produced by the Swiss railway industry. It was first shown at the Swiss National Exhibition in
Bern in 1914. There were three variants available: the GFN type for interurban railways, the GFT type for trams, and the GFV type for mass transit.
Schwab coupler of the
Swiss Federal Railways (SBB) The Schwab coupler is an automatic coupler manufactured by
Schwab Verkehrstechnik AG,
Schaffhausen, the legal successor to the Railway Coupler Division of
Georg Fischer. The coupler automatically makes the mechanical, pneumatic, and electrical connections. The mechanical locks are located on either side of the pneumatic ports. The electrical connections are located below the pneumatic ports and are protected by a cover when disconnected. Several versions are available for different applications; they can only be coupled to each other, not to other couplings, except the FK-15-10 version, which can be coupled to the Scharfenberg coupling type 10. A special feature of the Schwab coupler is the inclined coupler face, which causes the coupler heads to slide past each other during coupling, so that snow and ice are scraped off the coupler faces in winter. , Schwab couplers are used primarily in Switzerland in regional rail passenger transport. Almost all vehicles fitted with Schwab couplers are manufactured by
Stadler Rail. The best known exception is the
ICN tilt trains operated by
Swiss Federal Railways (SBB). The following versions exist: • standard gauge mainline railroads: • FK-15-12, which are used on
Stadler KISS,
Stadler GTW and
Stadler FLIRT • FK-15-10, which is compatible with the Scharfenberg type 10 coupler • metros and suburban railways: FK-9-6 • streetcars and narrow gauge railcars: FK-5.5-4 and FK-3-2.5 ,
Wabtec is working on a
digital automatic coupling (DAC) based on the Schwab coupler, a possible replacement of the screw couplers in the European rail freight service. The coupler can handle tensile forces up to 1500 kN and compressive forces up to 2000 kN and is therefore one of the strongest couplers ever designed for European railways.
Shibata coupler The Shibata coupler is a variation of the Scharfenberg coupler, which was developed by
Japanese Government Railways (JGR) engineer in the 1930s for electric trains. It is the standard coupler type for all passenger trains in Japan as well as on commuter and subway trains in South Korea.
Shinkansen (bullet train) rolling stock uses a variation of the Shibata coupler developed by
Sumitomo Metal Industries in the 1960s, which employs rotary tight-lock pins and, coincidentally, bears a closer resemblance to the
Scharfenberg coupler than to the Shibata coupler. File:Michaku.jpg|Shibata close contact ("Mitchaku") coupler File:E4-Shinkansen-Coupler.jpg|Shibata rotary coupler on
E4 Series Shinkansen ==Dual couplings and match wagons==