This invention relates to a fume extractor for a barrel of a gun, and to a barrel and a gun provided with such a fume extractor.
A known fume extractor (such as the one disclosed in U.S. Pat. No. 5,404,789) for extracting fumes from the bore of a barrel of a gun, after a shot has been fired, comprises a main reservoir and an auxiliary reservoir, both surrounding the barrel, with the auxiliary reservoir located between said main reservoir and the breech end of the tube. A first set of ports, which are slanted towards the muzzle end of the bore, provides communication between the main reservoir and the bore while a second set of ports, which are perpendicular to the bore, provides communication between the bore and the auxiliary reservoir. A set of check valves provides communication between the auxiliary reservoir and the main reservoir, when the pressure in the main reservoir is less than that of the auxiliary reservoir.
In use, when a shot is fired, owing to the pressure difference between the bore and the reservoir, the main and auxiliary reservoirs are charged or pressurised by fumes passing through the two sets of ports from the bore into the main and auxiliary reservoirs. The main reservoir is thus pressurised via the said first set of ports, as well as from the auxiliary reservoir via the set of check valves. When the projectile leaves the barrel, there is a pressure drop in the bore, so the set of check valves closes and the pressure in the main reservoir is released by blowing the fumes back into the bore via the first set of ports in the direction of the muzzle brake, thus to extract the fumes from the bore.
A first disadvantage is that, owing to the fact that the known fume extractor has only two reservoirs; the resultant extraction is a rapid discharge rather than an extended discharge. In the case of a rapid discharge, the fumes are insufficiently extracted, leading to fumes entering the turret of the gun to the detriment of the operators thereof.
Another disadvantage of the known fume extractor is that it is of insufficient capacity to sufficiently cool down the fumes before reaching the check valves when the reservoirs are charged. The result is that the check valves are damaged by the high temperature and the acceleration or deceleration of the fumes. The check valves therefore eventually disintegrate and deform.
Yet another disadvantage of the known fume extractors is that the attachment thereof to the barrel, makes it very difficult to remove the fume extractor from the barrel for maintenance purposes, for example when the check valves have to be replaced.
It is therefore an object of the present invention to provide a fume extractor for a barrel of a gun, and a barrel and a gun provided with such a fume extractor with which the aforesaid disadvantages can be overcome or at least minimised.
According to the invention there is provided a fume extractor for extracting fumes from a bore of a barrel of a gun comprising:
Further according to the invention, each port of the second set is provided with a check valve, the arrangement being such that the check valves allow passing of the fumes from the inlet reservoir to the main reservoir via the second set of ports, but restricts reverse flow of the fumes from the main reservoir to the inlet reservoir.
The inlet reservoir may be sandwiched between the main reservoir and the barrel of the gun.
The auxiliary reservoir may also be sandwiched between the main reservoir and the barrel of the gun and may be located adjacent the inlet reservoir on a muzzle brake end thereof.
The first set of ports may be a plurality of ports distributed circumferentially around the barrel and may extend perpendicular to the longitudinal axis of the barrel.
The fourth set of ports may also be a plurality of ports distributed circumferentially around the barrel and may slant radially outwardly in the direction of a muzzle brake of the gun.
The inlet and auxiliary reservoirs may be partly defined by a first tubular sleeve having end walls; and a separating wall, which separates the inlet and auxiliary reservoirs.
The first tubular sleeve may concentrically surround the barrel, with the end and separating walls sealingly abutting the outside of the barrel.
An O-ring may be provided between the first tubular sleeve and the barrel to create an airtight seal between them.
The main reservoir may be partly defined by a second tubular sleeve concentrically surrounding the first tubular sleeve, as well as by two annular end caps for sealingly engaging the second tubular sleeve and the first tubular sleeve.
An O-ring may be provided between the first tubular sleeve and each end cap to create an airtight seal between them.
An O-ring may be located between the second tubular sleeve and each end cap to create an airtight seal between the second tubular sleeve and each end cap.
A retaining ring for retaining the fume extractor in position on the barrel may be releasably connectable to the barrel.
The retaining ring may be connected to the barrel intermediate its ends, towards the muzzle brake end thereof and to one end of the fume extractor.
The retaining ring may be provided with an internal screw thread for screwing onto a complimentary thread provided on the outside of the barrel.
The retaining ring may be provided with a set of holes, for receiving urging screws, for urging the fume extractor in a direction towards the retaining ring for removal of the fume extractor from the barrel.
According to a second aspect of the invention there is provided a barrel of a gun having a fume extractor according to the first aspect of the invention.
According to a third aspect of the invention there is provided a gun having a fume extractor according to the first aspect of the invention.
The invention will now be described further by way of a non-limiting example with reference to the accompanying drawings wherein:
Referring to the drawings, a fume extractor according to a preferred embodiment of the invention, for extracting fumes from a bore 12 of a barrel 14 of a gun (not shown) is generally designated by reference numeral 10.
Referring to
Each port of the second set of ports 24 is provided with a check valve 30, for allowing passing of the fumes from the inlet reservoir 18 to the main reservoir 16 via the second set of ports 24, while restricting reverse flow of the fumes from the main reservoir 16 to the inlet reservoir 18.
The inlet reservoir 18 is sandwiched between the main reservoir 16 and the barrel 14 of the gun. The auxiliary reservoir 20 is also sandwiched between the main reservoir 16 and the barrel 14 of the gun and is located adjacent the inlet reservoir 18 on a muzzle brake end thereof.
The first set of ports 22 is a plurality of ports distributed around the barrel 14 and extends perpendicular to the barrel 14. The fourth set of ports 28 is a plurality of ports distributed around the barrel 14 and slant in the direction of the muzzle brake of the gun.
Referring particularly to
The main reservoir 16 is partly defined by a second tubular sleeve 34 concentrically surrounding the first tubular sleeve 32, as well as by two annular end caps 36 for sealingly engaging the second tubular 34 sleeve and the first tubular sleeve 32.
An O-ring 38 is located between the second tubular sleeve 34 and each end cap 36 to create an airtight seal between the second tubular sleeve 34 and each end cap 36. O-rings 39 are also located between the first tubular sleeve 32 and the barrel 14 and between the first tubular sleeve 32 and each end cap 36.
Referring particularly to
In use, when a shot is fired, combustion of the explosive charge pressurises the bore 12 of the barrel 14 with fumes at high pressure and temperature. Subsequently and owing to the pressure difference between the bore 12 and the inlet and auxiliary reservoirs 18 and 20, the fumes pass into the inlet and auxiliary reservoirs 18 and 20 from the bore 12 via the first and fourth sets of ports 22 and 28 respectively. Thereafter, owing to the pressure difference between the inlet and auxiliary reservoirs 18 and 20 and the main reservoir 16, fumes pass into the main reservoir 16 from the inlet and auxiliary reservoirs 18 and 20 via the second and third sets of ports 24 and 26.
After the projectile leaves the barrel 14, there is a pressure drop in the bore 12, resulting in a pressure difference between the main and auxiliary reservoirs 16 and 20 and the bore 12, which promotes the release of pressure from the main and auxiliary reservoirs 16 and 20 into the bore 12, thus to blow the fumes out of the muzzle end of the barrel 14 and therefore purging the bore 12 of the remaining fumes. The check valves 30 in the second set of ports 24 close, thus restricting reverse flow along the second set of ports 24.
It has been found that the fume extractor 10, according to the present invention, allows the fumes entering the inlet reservoir 18 to cool down sufficiently before reaching the check valves 30, so that they are not damaged. It was further found that owing to the provision of an auxiliary reservoir 20, the fumes are discharged from the main and auxiliary reservoirs over an extended period rather than rapidly, therefore allowing the fumes to be effectively extracted from the bore 12 and limiting the fumes entering the turret.
It has yet further been found that the fume extractor 10 can relatively easily be removed from the barrel 14 of the gun for maintenance purposes, owing to the retaining ring 40 aiding in such removal, when using the urging screws.
It will be appreciated that variations in detail are possible with a fume extractor for a barrel of a gun, and a barrel and a gun provided with such a fume extractor according to the invention without departing from the scope of the appended claims.
Number | Date | Country | Kind |
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2003/5148 | Jul 2003 | ZA | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB04/51060 | 6/30/2004 | WO | 4/27/2006 |