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The air reservoir was in the club-shaped stock. With a full air reservoir, the Girardoni air rifle had the capacity to shoot 30 shots at useful pressure. These balls were effective to approximately {{cvt|125|yd}} on a full air reservoir. The power declined as the air reservoir was emptied.<ref>Military writer August Haller claimed in an 1891 treatise ''Die österreichische Militär-Repetier-Windbüchse'' that the first ten shots would be effective to about 150&nbsp;paces, the next ten shots up to 120–125&nbsp;paces, the next ten out to 100&nbsp;paces, and then the remaining ] in the reservoir would be too low.</ref> The air reservoir was similar to the disposable ]s used on some modern air guns.{{fact|date=November 2020}} The air reservoir was in the club-shaped stock. With a full air reservoir, the Girardoni air rifle had the capacity to shoot 30 shots at useful pressure. These balls were effective to approximately {{cvt|125|yd}} on a full air reservoir. The power declined as the air reservoir was emptied.<ref>Military writer August Haller claimed in an 1891 treatise ''Die österreichische Militär-Repetier-Windbüchse'' that the first ten shots would be effective to about 150&nbsp;paces, the next ten shots up to 120–125&nbsp;paces, the next ten out to 100&nbsp;paces, and then the remaining ] in the reservoir would be too low.</ref> The air reservoir was similar to the disposable ]s used on some modern air guns.{{fact|date=November 2020}}


M==Design and capabilities==
==Importance==


The rifle was {{cvt|4|ft}} long and weighed {{cvt|10|lb}}, about the same size and weight as infantry muskets of the time. It fired a .46 or .51 caliber ball and had a tubular, spring-fed ] with a capacity of 20 balls.<ref name=":0"/><ref>The Beeman article on Girardoni air rifles in the sources section and an article in the German gun magazine ''Visier'' (issue 1/2007, page&nbsp;141) claim the caliber was actually .463" (11.75 mm).</ref><ref>Die Entwicklung der Handfeuerwaffen im österreichischen Heere, 1896, Anton Dolleczek</ref> Some of the weapons were also made using a gravity-fed magazine. Unlike its contemporary, muzzle-loading muskets, which required the ] to stand up to reload with powder and ball, the shooter could reload a ball from the magazine by pulling a transverse chamber bar out of the breech which allowed a ball to be supplied to it and which then rebounded back to its original position with the aid of a spring, all while lying down.<ref name=":0">{{Cite book|url=https://books.google.com/books?id=77hTDwAAQBAJ&q=Girandoni&pg=PR4|title = Repeating and Multi-Fire Weapons: A History from the Zhuge Crossbow Through the AK-47|isbn = 9781476631103|last1 = Prenderghast|first1 = Gerald|date = 4 April 2018}}</ref>
The Girardoni air rifle was the first ] of a specific general kind to enter general military service.<ref>{{Cite web|title=The Girandoni Air Rifle: Deadly Under Pressure|url=https://www.guns.com/news/2011/03/15/the-girandoni-air-rifle-deadly-under-pressure|access-date=2022-02-18|website=Guns.com|language=en}}</ref> It was one of the first uses of a ].<ref>{{Cite book |last=Tucker |first=Spencer C. |url=https://books.google.com/books?id=Lk_VDwAAQBAJ&dq=The+Girardoni+air+rifle+tubular+magazine&pg=PA164 |title=Weapons and Warfare: From Ancient and Medieval Times to the 21st Century |date=2020-03-26 |publisher=ABC-CLIO |isbn=978-1-4408-6728-6 |language=en}}</ref>

Contemporary regulations of 1788 required that each rifleman be equipped with the rifle, three compressed air reservoirs (two spare and one attached to the rifle), cleaning stick, hand pump, lead ladle and 100 lead balls, 1 in the chamber, 19 in the magazine built into the rifle and the remaining 80 in four tin tubes. Equipment not carried attached to the rifle was held in a special leather ]. It was also necessary to keep the leather ]s of the reservoir moist to maintain a good seal and prevent leakage.<ref>A letter detailing regulations, "Signed, Vienna, 24th January 1788"; reproduced in Baker, G; Currie, C. ''The Austrian Army Repeating Air Rifle'' 2nd Ed., 2007.</ref>

The air reservoir was in the club-shaped stock. With a full air reservoir, the Girardoni air rifle had the capacity to shoot 30 shots at useful pressure. These balls were effective to approximately {{cvt|125|yd}} on a full air reservoir. The power declined as the air reservoir was emptied.<ref>Military writer August Haller claimed in an 1891 treatise ''Die österreichische Militär-Repetier-Windbüchse'' that the first ten shots would be effective to about 150&nbsp;paces, the next ten shots up to 120–125&nbsp;paces, the next ten out to 100&nbsp;paces, and then the remaining ] in the reservoir would be too low.</ref> The air reservoir was similar to the disposable ]s used on some modern air guns.{{fact|date=November 2020}}


==See also== ==See also==

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Air rifle
Girandoni air rifle
Girandoni system Austrian repeating air rifle, circa 1795, believed to have been taken on the Lewis and Clark Expedition
TypeAir rifle
Place of origin Holy Roman Empire
Service history
In service1780–1815
Used byAustrian Empire
Production history
DesignerBartolomeo, Girandoni
Designed1779 or 1780
No. built1,300
Specifications
Mass4.5 kg (9.9 lb)
Length120 cm (3.9 ft)

Cartridgespherical balls
Caliber.46", 11.7 mm 146.3 grains (9.48 g), or .51", 13 mm, 201.49 grains (13.06 g)
Muzzle velocityabout 500 fps (152 m/s), 117 ft lbs (159 J)
Feed system20/21 round magazine or hopper
SightsIron

The Girandoni air rifle is an air gun designed by Italian inventor Bartolomeo Girandoni circa 1779. The weapon was also known as the Windbüchse ("wind rifle" in German). One of the rifle's more famous associations is its use on the Lewis and Clark Expedition to explore and map the Louisiana Purchase of 1803.

History and use

Recreation of an Austrian Girardoni system accoutrements bag, including bullet mold, air pump, spare air flasks, wrenches and ladle

The Girardoni air rifle was in service with the Austrian army from 1780 to around 1815. Many references to the Girardoni air rifles mention lethal combat ranges of 125 to 150 yards and some extend that range considerably. The advantages of a high rate of fire, no smoke from propellants, and low muzzle report granted it acceptance. It did have problems and was eventually removed from service for several reasons decades after introduction. There was also a version sold to civilians after it was removed from military service.

While the detachable air reservoir was capable of around 30 shots, it took nearly 1,500 strokes of a hand pump to fill those reservoirs. Later, a wagon-mounted pump was provided. The reservoirs, made from hammered sheet iron held together with rivets and sealed by brazing, proved very difficult to manufacture using the techniques of the period and were always in short supply. The weapon was very delicate, and a small break in the reservoir could make it inoperable. It was also very different from any other weapon of the time, requiring extensive training to use.

The Lewis and Clark Expedition used the rifle in the demonstrations that they performed for nearly every Native American tribe they encountered on the expedition.

M==Design and capabilities==

The rifle was 4 ft (1.2 m) long and weighed 10 lb (4.5 kg), about the same size and weight as infantry muskets of the time. It fired a .46 or .51 caliber ball and had a tubular, spring-fed magazine with a capacity of 20 balls. Some of the weapons were also made using a gravity-fed magazine. Unlike its contemporary, muzzle-loading muskets, which required the rifleman to stand up to reload with powder and ball, the shooter could reload a ball from the magazine by pulling a transverse chamber bar out of the breech which allowed a ball to be supplied to it and which then rebounded back to its original position with the aid of a spring, all while lying down.

Contemporary regulations of 1788 required that each rifleman be equipped with the rifle, three compressed air reservoirs (two spare and one attached to the rifle), cleaning stick, hand pump, lead ladle and 100 lead balls, 1 in the chamber, 19 in the magazine built into the rifle and the remaining 80 in four tin tubes. Equipment not carried attached to the rifle was held in a special leather knapsack. It was also necessary to keep the leather gaskets of the reservoir moist to maintain a good seal and prevent leakage.

The air reservoir was in the club-shaped stock. With a full air reservoir, the Girardoni air rifle had the capacity to shoot 30 shots at useful pressure. These balls were effective to approximately 125 yd (114 m) on a full air reservoir. The power declined as the air reservoir was emptied. The air reservoir was similar to the disposable carbon dioxide cartridges used on some modern air guns.

M==Design and capabilities==

The rifle was 4 ft (1.2 m) long and weighed 10 lb (4.5 kg), about the same size and weight as infantry muskets of the time. It fired a .46 or .51 caliber ball and had a tubular, spring-fed magazine with a capacity of 20 balls. Some of the weapons were also made using a gravity-fed magazine. Unlike its contemporary, muzzle-loading muskets, which required the rifleman to stand up to reload with powder and ball, the shooter could reload a ball from the magazine by pulling a transverse chamber bar out of the breech which allowed a ball to be supplied to it and which then rebounded back to its original position with the aid of a spring, all while lying down.

Contemporary regulations of 1788 required that each rifleman be equipped with the rifle, three compressed air reservoirs (two spare and one attached to the rifle), cleaning stick, hand pump, lead ladle and 100 lead balls, 1 in the chamber, 19 in the magazine built into the rifle and the remaining 80 in four tin tubes. Equipment not carried attached to the rifle was held in a special leather knapsack. It was also necessary to keep the leather gaskets of the reservoir moist to maintain a good seal and prevent leakage.

The air reservoir was in the club-shaped stock. With a full air reservoir, the Girardoni air rifle had the capacity to shoot 30 shots at useful pressure. These balls were effective to approximately 125 yd (114 m) on a full air reservoir. The power declined as the air reservoir was emptied. The air reservoir was similar to the disposable carbon dioxide cartridges used on some modern air guns.

See also

References

  1. Wier, S.K. (2005). "The firearms of the Lewis and Clark Expedition" (PDF). p. 12. Retrieved 12 March 2013.
  2. Girardoni air rifle as used by Lewis and Clark. A National Firearms Museum Treasure Gun. at YouTube
  3. ^ Prenderghast, Gerald (4 April 2018). Repeating and Multi-Fire Weapons: A History from the Zhuge Crossbow Through the AK-47. ISBN 9781476631103.
  4. The Beeman article on Girardoni air rifles in the sources section and an article in the German gun magazine Visier (issue 1/2007, page 141) claim the caliber was actually .463" (11.75 mm).
  5. Die Entwicklung der Handfeuerwaffen im österreichischen Heere, 1896, Anton Dolleczek
  6. A letter detailing regulations, "Signed, Vienna, 24th January 1788"; reproduced in Baker, G; Currie, C. The Austrian Army Repeating Air Rifle 2nd Ed., 2007.
  7. Military writer August Haller claimed in an 1891 treatise Die österreichische Militär-Repetier-Windbüchse that the first ten shots would be effective to about 150 paces, the next ten shots up to 120–125 paces, the next ten out to 100 paces, and then the remaining air pressure in the reservoir would be too low.
  8. The Beeman article on Girardoni air rifles in the sources section and an article in the German gun magazine Visier (issue 1/2007, page 141) claim the caliber was actually .463" (11.75 mm).
  9. Die Entwicklung der Handfeuerwaffen im österreichischen Heere, 1896, Anton Dolleczek
  10. A letter detailing regulations, "Signed, Vienna, 24th January 1788"; reproduced in Baker, G; Currie, C. The Austrian Army Repeating Air Rifle 2nd Ed., 2007.
  11. Military writer August Haller claimed in an 1891 treatise Die österreichische Militär-Repetier-Windbüchse that the first ten shots would be effective to about 150 paces, the next ten shots up to 120–125 paces, the next ten out to 100 paces, and then the remaining air pressure in the reservoir would be too low.

External links

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