.jpg)
Arotary cannon,rotary autocannon,gatling cannon, orgatling autocannon, is any large-calibermultiple-barreledautomatic firearm that uses aGatling-type rotating barrel assembly to deliver a sustainedsaturationaldirect fire at much greaterrates of fire than single-barreledautocannons of the same caliber. The loading, firing and ejection functions are performed simultaneously in different barrels as the whole assembly rotates, and the rotation also permits the barrels some time to cool. Rotary cannons, external or self-driven are used in aircraft over reciprocating bolt autocannons which are more prone to jamming inhigh g environments. The rotating barrels on nearly all modern Gatling-type guns are powered by an external force such as anelectric motor, although internally poweredgas-operated versions have also been developed.
The cyclic multi-barrel design synchronizes the firing/reloading sequence. Each barrel fires a singlecartridge when it reaches a certain position in the rotation, after which the spent casing is ejected at a different position and then a new round is loaded at another position. During the cycle, the barrel has more time to dissipate some heat away to the surrounding air.
Due to the usually cumbersome size and weight of rotary cannons, they are typically mounted onweapons platforms such asvehicles,aircraft, orships, where they are often used inclose-in weapon systems.
In 1852 a revolving barrel gun with a unique method of ignition was proposed by an Irish immigrant to America by the name of Delany.[1]
TheGatling gun was another gun to use rotating barrels. It was designed by the American inventorDr. Richard J. Gatling in 1861 and patented in 1862.[2] Hand cranked and hopper fed, it could fire at a rate of 200 rounds per minute. The Gatling gun was a field weapon, first used in warfare during theAmerican Civil War and subsequently by European and Russian armies.
The design was steadily improved; by 1876 the Gatling gun had a theoretical rate of fire of 1,200 rounds per minute, although 400 rounds per minute was more readily achievable in combat. By 1893, the M1893 Gatling gun could fire 800 to 900 rounds per minute. Gatling also developed examples of the M1893 powered by an electric motor driving the crank with a belt.[3] Tests demonstrated the electric Gatling could fire up to 1,500 rpm in bursts.
Ultimately, the Gatling's weight and cumbersome artillery carriage hindered its ability to keep up with infantry forces over difficult ground. It was eventually superseded by lighter and more mobile machine guns such as theMaxim gun. All models of Gatling guns were declared obsolete by the U.S. Army in 1911, after 45 years of service.
_1%2c_fires_a_GAU-17A_gun.jpg)
After the Gatling gun was replaced in service by newer non-rotating, recoil- or gas-operated machine guns, the approach of using multiple rotating barrels fell into disuse for many decades. Some examples were developed during the interwar years but only existed as prototypes or were rarely used. DuringWorld War I,Imperial Germany worked on theFokker-Leimberger, an externally powered 12-barrel Gatling gun that could fire more than 7,200 7.92×57mm rounds per minute.[4]
AfterWorld War II, theU.S. Army Air Force determined that anautomatic cannon of improved design with an extremely high rate of fire was required to achieve a sufficient number of large-caliber hits on fast-moving enemyjet aircraft. A larger-caliber cannon shell was deemed desirable as it could contain more explosives—compared to .30 and .50 caliber ammunition previously used—and thus able to destroy aircraft with only a few hits on target. However, autocannons suffered from a lower rate of fire than machine guns; a possible solution, theM39revolver cannon, had problems with overheating and excessive barrel wear.
In June 1946, the General Electric Company was awarded a U.S. military defense contract to develop an aircraft gun with a high rate of fire which GE termedProject Vulcan. While researching prior work, ordnance engineers recalled the experimental electrically driven Gatling weapons of the turn of the 20th century. In 1946, a Model 1903 Gatling gun was borrowed from a museum and set up with an electric motor drive by General Electric engineers. During test firing, the 40-year-old design briefly managed a rate of fire of 5,000 rounds per minute.
In 1949 General Electric began testing the first model of its modified Gatling design, now called theVulcan Gun. The first prototype was designated the T45 (Model A). It fired .60 in (15 mm) ammunition at about 2,500 rounds per minute from six barrels driven by anelectric motor. In 1950, GE delivered ten initial model A T45 guns for evaluation. Thirty-three model C T45 guns were delivered in 1952 in three calibers: .60 cal., 20mm, and 27mm, for additional testing. After extensive testing, the T171 20mm gun was selected for further development. In 1956, the T171 20mm gun was standardized by the U.S. Army and U.S. Air Force as the M61 20mm Vulcan aircraft gun.
One of the main reasons for the resurgence of the electrically or hydraulically powered multiple-barrel design is the weapon's tolerance for continuously highrates of fire. For example, 1000 rounds per minute of continuous fire from a conventional single-barreled weapon ordinarily results in rapid barrel heating followed by stoppages caused by overheating. In contrast, a five-barreled rotary gun firing 1000 rounds per minute fires only 200 rounds per barrel per minute, an acceptable rate of fire for continuous use. A multiple-barrel design also overcomes the limiting factor of the loading and extraction sequence. In a single-barrel design, these tasks must alternate, limiting the rate of fire. A multiple-barrel design allows loading and extraction to occur simultaneously on different barrels as they rotate. The design is also resistant to defective ammunition, which can cause normal machine guns to malfunction when a cartridge fails to load, fire, or eject from the weapon. Since the power source of a multiple-barrel design is external, it can simply extract defective rounds as it would a regular, spent cartridge.
TheM61 Vulcan 20 mm autocannon is the best-known of a family of weapons designed byGeneral Electric and currently manufactured byGeneral Dynamics. The M61 is a six-barreled 20mm rotary cannon that fires at up to 6,600 rounds per minute.[5] Similar systems are available in calibers ranging from 5.56 mm to 30 mm (the prototypeT249 VigilanteAA platform featured a 37 mm chambering).
Another multi-barrel design is the hydraulically drivenGAU-8 Avenger 30 mm autocannon, carried on theA-10 Thunderbolt II (Warthog) attack aircraft, a heavily armored close air-support aircraft. It is a seven-barreled cannon designed for tank-killing and is currently the largest bore multi-barrel weapon active in the U.S. arsenal, and heaviest autocannon ever mounted into an aircraft, outweighing the WW II GermanBordkanone BK 7,5 75mm aircraft-mount, tank-killing single barrel autocannon by some 630 kg (1,389 lb), with ammunition.
TheGryazev-Shipunov GSh-6-23 andGSh-6-30 are Russian gas-powered rotary cannon with maximum cyclic rates of 9,000 to 10,000 rounds per minute.
While electric motors were used to rotate the Vulcan barrels, a few examples of self-operated Gatling-derived weapons use the blow-forward, recoil or gas impulse from their ammunition. The Bangerter machine gun uses a blow-forward operation and is the most complex example. The Slostin machine gun uses a similar operation but with gas pistons on each barrels. TheGShG-7.62 machine gun andGSh-6-23, both use a more effective, simpler gas piston drive in the center of the barrel cluster.
During theVietnam War, the 7.62 mm caliberM134 Minigun was originally created to arm rotary-wing aircraft, and could be fitted to various helicopters as either a crew-served or a remotely operated weapon. It has a rate of fire from 2,000 to 6,000 rounds per minute[6] from a 4,000-round linkedbelt.
As the GAU-2B/A, the Minigun was also used on the U.S. Air ForceAC-47,AC-119 andLockheed AC-130 gunships. The AC-47 was known during the Vietnam War as "Puff the Magic Dragon" and was said to be "the only thing that scared theVC". This weapon was also used on selected USAF helicopters. With sophisticated navigation and target identification tools, Miniguns can be used effectively even against concealed targets. The crew's ability to concentrate the Minigun's fire very tightly produces the appearance of the 'Red Tornado'[7] from the light of thetracers, as the gun platform circles a target at night.
Modernrotary cannons | |||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
| |||||||||||||||||||||||
