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Gatling Gun
History
Patent drawing for R.J. Gatling’s Battery Gun, 9 May 1865.
The original Gatling gun was a field weapon, which used multiple rotating barrels turned by a hand crank, and firing loose (no links or belt) metal cartridge ammunition using a gravity feed system from a hopper. The Gatling gun’s innovation lay neither in the rotating mechanism (featured by many revolvers of the day)[clarification needed]| nor the use of multiple barrels to limit overheating (used by the mitrailleuse gun); rather, the innovation was the gravity feed reloading mechanism, which allowed unskilled operators to achieve a relatively high rate of fire of 200 rounds per minute.
The Gatling gun was first used in warfare during the American Civil War. The gun was not accepted by the Union Army until 1866, but a “sales engineer” of the manufacturing company demonstrated it in combat. Admiral Astete of the Peruvian navy took with him from the US dozens of Gatling guns to Peru in December of 1879 during the Peru-Chile saltpeter war. Gatling guns were use by the Peruvian navy and army, specially in the “Battle of Tacna” (May 1880) and the “Battle of San Juan”(January 1881) against the Chilean army invaders. Lieutenant A.L. Howard of the Connecticut National Guard had an interest in the company manufacturing Gatling guns, and took a personally-owned Gatling gun to Saskatchewan in Canada in 1885 for use with the Canadian military against the Mtis during Louis Riel’s North-West Rebellion.
Early multi-barrel guns were approximately the size and weight of artillery pieces, and were often perceived as a replacement for cannon firing grapeshot or cannister shot. Unlike earlier weapons such as the Mitrailleuse which required manual reloading, the Gatling gun was more reliable, easier to operate, and had a higher firing rate. The large wheels required to move these guns around required a high firing position which increased the vulnerability of their crews. Sustained firing of gunpowder cartridges generated a cloud of smoke making concealment impossible until Smokeless powder became available in the late 19th century. When fighting troops of industrialized nations, Gatling guns could be targeted by artillery they could not reach and their crews could be targeted by snipers they could not see.
The Gatling gun was used most successfully to expand European colonial empires by killing warriors of non-industrialized societies including the Matabele, the Zulu, the Bedouins, and the Mahdists. Imperial Russia purchased 400 Gatling guns and used them against Turkoman cavalry and other nomads of central Asia. The Royal Navy used Gatling guns against the Egyptians at Alexandria in 1882.
Gatling guns were used by the US side during the Spanish-American War, most notably during the battle of San Juan Hill.
Basic design of the original gun
A British 1865 Gatling gun at Firepower – The Royal Artillery Museum
The Gatling gun was hand-crank operated with six barrels revolving around a central shaft, similar to the Puckle Gun. Early models had a fibrous matting stuffed in among the barrels which could be soaked with water to cool the barrels down. Later models eliminated the matting-filled barrels as being counterproductive. The ammunition was initially a steel cylinder charged with black powder and primed with a percussion cap, because self-contained brass cartridges had not yet been fully developed and become available. The shells were gravity-fed into the breech through a hopper or stick magazine on top of the gun. Each barrel had its own firing mechanism. After 1861, new brass cartridges similar to modern cartridges replaced the paper cartridge, but Gatling did not switch to them immediately.
The model of 1881 was designed to use the ‘Bruce’-style feed system (U.S. Patents 247,158 and 343,532) that accepted two rows of .45/70 cartridges. While one row was being fed into the gun, the other could be reloaded, thus allowing sustained fire. The final gun required four operators. 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.
Each barrel fires once per revolution at about the same position. The barrels, a carrier, and a lock cylinder were separate and all mounted on a solid plate revolving around a central shaft, mounted on an oblong fixed frame. The carrier was grooved and the lock cylinder was drilled with holes corresponding to the barrels. Each barrel had a single lock, working in the lock cylinder on a line with the barrel. The lock cylinder was encased and joined to the frame. The casing was partitioned, and through this opening the barrel shaft was journaled. In front of the casing was a cam with spiral surfaces. The cam imparted a reciprocating motion to the locks when the gun rotated. Also in the casing was a cocking ring with projections to cock and fire the gun.
Turning the crank rotated the shaft. Cartridges, held in a hopper, dropped individually into the grooves of the carrier. The lock was simultaneously forced by the cam to move forward and load the cartridge, and when the cam was at its highest point, the cocking ring freed the lock and fired the cartridge. After the cartridge was fired the continuing action of the cam drew back the lock bringing with it the spent cartridge which then dropped to the ground.
The grouped barrel concept had been explored by inventors since the 18th century, but poor engineering and the lack of a unitary cartridge made previous designs unsuccessful. The initial Gatling gun design used self-contained, reloadable steel cylinders with a chamber holding a ball and black-powder charge, and a percussion cap on one end. As the barrels rotated, these steel cylinders dropped into place, were fired, and were then ejected from the gun. The innovative features of the Gatling gun were its independent firing mechanism for each barrel and the simultaneous action of the locks, barrels, carrier and breech.
The smallest caliber gun also had a Broadwell drum feed in place of the curved magazine of the other guns. The drum, named after L. W. Broadwell, an agent for Gatling’s company, comprised twenty stick magazines arranged around a central axis, like the spokes of a wheel, each holding twenty cartridges with the bullet noses oriented toward the central axis. This significant invention does not appear to have been patented separately, and may have been included in the April 9, 1872 patent, U.S. 125,563; a post and base, apparently for mounting a Broadwell drum, is visible in Figure 13 of U.S. 125,563. As each magazine emptied, the drum was manually rotated to bring a new magazine into use until all 400 rounds had been fired.
Modern Gatling-style guns
The GAU-8 Gatling gun of an A-10 Thunderbolt II at Osan Air Base, South Korea.
After Gatling guns were replaced by lighter, cheaper blowback style weapons, the approach of using multiple rotating barrels fell into disuse for many decades. However, Gatling gun-style weapons made a return in the 194050s, when weapons with very high rates of fire were needed in military aircraft. For these modern weapons, electric motors are used to rotate the barrel, although systems that derive power from their ammunition do exist such as the GShG-7.62 machine gun and GSh-6-23, which uses a gas-operated drive system.
US Special warfare combatant-craft crewmen use a Gatling gun to lay down suppressing fire during a practice “hot” extraction of forces on a beach.
One of the main reasons for the resurgence of the Gatling gun-style design is the weapon’s tolerance for continuous high rates of fire. For example, if 500 rounds were fired per minute from a conventional single-barrel weapon, this would likely result in the barrel overheating (distorting in extreme cases) or a weapon jam. In contrast, a five-barreled Gatling gun-style weapon firing 500 rounds per minute, only fires 100 rounds per barrel per minute, an acceptable rate of fire. Ultimately the limiting factor is the rate at which loading and extraction can occur. In a single barrel design these tasks must alternate, a multiple barrel design on the other hand lets them occur simultaneously, with different barrels at different points in the cycle. Their high rate of fire also makes them useful in systems that have little time to engage their targets, such as CIWS which defend against fast-moving anti-ship missiles.
The M61 Vulcan 20 mm cannon is the most prolific member of a family of weapons designed by General Electric and currently manufactured by General Dynamics. It is a six-barreled rotary cannon capable of more than 6,000 rounds per minute. Similar systems are available ranging from 5.56 mm to 30 mm (there was even a 37 mm Gatling on the prototype T249 Vigilante AA platform); the rate-of-fire being somewhat inversely-proportional to the size and mass of the ammunition (which also determines the size and mass of the barrels). Another Gatling design well-known among aviation enthusiasts is the GAU-8 Avenger 30 mm cannon, carried on the A-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 Gatling weapon active in the U.S. arsenal.
During the Vietnam War, the 7.62 mm caliber M134 Minigun was created as a helicopter weapon. Able to fire 6,000 rounds per minute from a 4,000-round linked belt, the Minigun proved to be one of the most effective non-explosive projectile weapons ever built and is still used in helicopters today. They are also used on USAF AC-47, AC-119 and Lockheed AC-130 gunships, their original high-capacity cargo airframes able to house the items needed for sustained operation. With sophisticated navigation and target identification tools, Miniguns can be used effectively even against concealed targets. The crew’s ability to concentrate the Gatling’s fire very tightly produces the appearance of the ‘Red Tornado’ from the light of the tracers, as the gun platform circles a target at night.
See also
Bira gun
Chain gun
Gardner gun
Minigun
Mitrailleuse
Revolver cannon
Ripley machine gun
Volley gun
References
^ Chambers, John W. (II) (2000). “San Juan Hill, Battle of”. The Oxford Companion to American Military History. HighBeam Research Inc.. http://www.encyclopedia.com/doc/1O126-SanJuanHillBattleof.html. Retrieved 2009-11-24.
^ a b Greeley, Horace; Leon Case (1872). The Great Industries of the United States. J.B. Burr & Hyde. p. 944. http://books.google.com/books?id=KSEaAAAAYAAJ&pg=PA944.
^ Paul Wahl and Don Toppel, The Gatling Gun, Arco Publishing, 1971.
^ a b c d e f Emmott, N.W. “The Devil’s Watering Pot” United States Naval Institute Proceedings September 1972 p. 70.
^ a b Emmott, N.W. “The Devil’s Watering Pot” United States Naval Institute Proceedings September 1972 p. 72.
^ Emmott, N.W. “The Devil’s Watering Pot” United States Naval Institute Proceedings September 1972 p. 71.
^ Gatling.
^ AC-119K Stinger Gunship Photo 1.
Citations and notes
Mischa & Kitsune, The Netbook of modern firearms
External links
Wikimedia Commons has media related to: Gatling gun
List of Military Gatling & Revolver cannons
Austro-Hungarian Gatling Guns
U.S. Patent 36,836 — Gatling gun
U.S. Patent 47,631 — improved Gatling gun
U.S. Patent 112,138 — revolving battery gun
U.S. Patent 125,563 — improvement in revolving battery guns
Description of operating principle (with animation) from HowStuffWorks
CGI animated GAU-17/A
v d e
Modern Gatling Guns
United States
5.56x45mm NATO
XM214
7.62x51mm NATO
M134
12.7x99mm NATO
GAU-19
20x102mm
M61 M195 M197 XM301
25x137mm
GAU-12 GAU-22/A
30x113mm
XM188
30x173mm
GAU-8/A GAU-13/A
37x219mm
T250
Soviet Union Russia
5.45x39mm
GShG-5.45
7.62x54mm
GShG-7.62
12.7x108mm
Yak-B 12.7
30x165mm
GSh-6-30
v d e
Weapons of the British Empire & Commonwealth of Nations 17221965
Handguns
Beaumont-Adams Revolver Webley Revolver Mk. II Enfield No. 1 & No. 2 Revolvers Browning Hi-Power
Rifles and carbines
Brown Bess Musket Ferguson rifle Baker Infantry Rifle Brunswick rifle Enfield 1853 Rifled Musket Snider-Enfield Martini-Henry Martini-Enfield Lee-Metford Lee-Enfield L1A1 SLR Lee-Enfield No.5 Mk.I “Jungle Carbine” De Lisle Commando Carbine
Submachine guns
Lanchester Sten Owen gun Sterling L2 F1 submachine gun
Rapid-fire weapons
Nordenfelt gun Gatling gun Gardner gun Maxim gun QF 2 pdr “Pom-Pom” Vickers Gun Lewis Gun Charlton Automatic Rifle Bren gun
Anti-tank weapons
2 pdr Anti-Tank Gun 6 pdr Anti-Tank Gun PIAT Rifle, Anti-Tank, .55 in, Boys L6 Wombat
Field guns
and other weapons
25 pdr Field Gun Congreve rocket SBML 2-inch Mortar Ordnance ML 3 inch Mortar No.2 “Lifebuoy” Flamethrower Stokes Mortar
Categories: Early machine guns | Multi-barrel machine guns | Machine guns of the United States | Rotary cannons | American Civil War weapons | Military equipment of the British EmpireHidden categories: All pages needing cleanup | Wikipedia articles needing clarification from January 2010
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