NO127126B - - Google Patents

Description

Ongoing or extension,

respectively muzzle piece for gun barrel for

non-rotating projectiles.

The present application concerns a 1Extension or extension, resp.

a muzzle piece on gun barrel, especially for non-rotating projectiles and preferably for ISp on mortars, grenade launchers etc.

There are known running ends, respectively. nozzle pieces of this kind include, a guide device with guides whose 'underside' extends, at an angle upwards and outwards and' where the outlet openings open into the open air. A known embodiment of this kind has a number of radially projecting fins with several outlet openings arranged in a row behind each other. The diameter of the mouth piece with the fins, respectively The guides are thus larger than the internal diameter of the barrel. With this design, the effort is made to absorb the recoil force in the weapon as much as possible, in order to reduce the recoil effect. the design of the parts in relation to each other such that the gas outlet at the end of the weapon barrel is lined and utilized so that the flowing gases can also contribute to the desired recoil force reduction. In the known embodiment, there is no device or design of the parts whereby the propellant gases can flow out of the flow for the gases to reach the device with the outward and upwardly directed guide surfaces.

In another known embodiment of the running end, respectively the muzzle of a weapon barrel for non-rotating projectiles for mortars, grenade launchers etc., where recesses are arranged on the inner circumference of the weapon barrel, it is ensured that the barrel end, or the muzzle, due to the design of the outlet slots at an acute angle to the direction of the projectile's flight, is composed of a number of inclined ring discs with intervening flat spacer discs, the "inner diameter at the barrel end, respectively the muzzle piece, corresponds to the diameter of the smooth rudder. Hereby, the spacer discs, when seen in 'ground plan, a drop-shaped outline. Thereby, the wing-stabilized projectile is still fast while the propellant gases can flow outwards, so that these in the course of the flow are directed forwards and achieve a lining towards the outlet. The wing-stabilized projectile is enveloped relatively uniformly by the propellant gases so that the danger of impact of the projectile away from the longitudinal axis of the course is avoided.

The object of the present invention is to facilitate the outflow of the flowing propellant gases and to avoid in advance any unfavorable influence on the projectile body as a result of the flowing gases.

In the case of an ongoing or extension, respectively a muzzle piece for gun barrels with a smooth interior, for non-rotating (wing-stabilized) projectiles, in particular for mortars, grenade launchers, etc., and comprising a guide device with a guide ring whose inner diameter corresponds to the inner diameter of the gun barrel and whose underside extends to

inclined upwards and outwards, as well as outlet openings that open into the "free" for the outlet of the propellant gases, the peculiarity according to the present invention consists in that the guide device at its outer end

has only a single lead ring in connection with elongated wide outlet openings. This single guidance is so arranged at a distance from the end of the barrel that the wing-stabilized projectile becomes fast.

Such an embodiment is aimed at the impact on the wing-stabilized projectile not only with regard to the lining and the outflow of the propellant gases but also with regard to a mechanical contact with the wing-stabilized projectile during the passage in this phase at the end of the weapon barrel. With this, the flowing gases will not find any part immediately at the beginning of the outlet openings with which the gases can be guided or bumped against. Over the length of the elongated openings, the presence of such a part will prevent the gases from obtaining a specific lining or coming into contact with or bumping against these. The elongate openings are free over the entire length of attached lining members. In other words, the gases can immediately flow radially out and up and away and thereby find, between the ends, nothing to prevent the gases' expansion and free flow. First at the end of the elongated openings, a guide ring is arranged which guides the gases which are there and which at this point have already to a large extent expanded, outwards and upwards and prevents a return flow to the weapon barrel at the end of the entire device. In this way, everything possible has been done to prevent a build-up of the gases at the outlet. This can be achieved with low safety because the propellant gases which here flow out in an almost completely free radial path have become depressurised. As parts are otherwise missing on the outer circumference of the lop extension with slits, respectively. on the mouth piece, the possibility of vortex formation as a result of such parts is overcome and the gases can escape completely freely to the outside. Thereby, in this phase, a good lining is ensured for the projectile which, unlike a rotating projectile, has no intrinsic stability, while the gases are transferred to a depressurized state. The device according to the present invention, whereby

at the end of the elongated openings is still a liner corresponding to the internal diameter of the smooth lop, causes the wing-stabilized projectile with ogival projectile body to retain a mechanical liner with mutually separated contact areas, and the

for a period of time while the propellant gases, as a result of the very wide and elongated openings and without additional fin parts for diverting the gas flow, ensure that the propellant gases are relaxed and escape. In this phase, the wing-stabilized projectile will still ■be supported by the liner at the caliber diameter and at the front guide. As soon as the projectile, with the caliber diameter has left the course, or the only guidance is that, in the meantime, a complete relaxation of the propellant gases will no longer be possible for these to influence the trajectory of the not yet self-stabilized projectile to an unfavorable degree. This also applies during the phase where the wing-stabilized projectile with the rear part is at the barrel end, respectively. in the mouthpiece. The result of the design in accordance with the present invention is that, as a result of the described combination, a very calm course is achieved for the wing stabilized. projectile. With the mutually coordinated devices, a non-oscillating launch of it is achieved. wing-stabilized projectile from the rudder, respectively from the last lining. The target accuracy of the projectile is considerably greater than before. The calm utiop for the projectile. also reduces the spread of the projectile.significantly.

The conductor at a distance from the circumferentially slitted line can be arranged free-standing and. be. retained' and connected to the running end by means of bolts. In this way, the loop end can be enclosed,

of a fastening ring designed with bearing holes for the bolts which are screwed with their free ends into the guide ring.

The invention will now be described in more detail with the help of two exemplary embodiments and with reference to the attached drawings. Fig. 1 and 2 in the drawings illustrate a first embodiment, seen from the side, respectively. in longitudinal section. Fig. 3 shows the second embodiment of the loop end according to the invention, seen in longitudinal section.

Fig. shows a cross-section along the line IV-IV in fig. 3..

By- it. embodiment shown in fig. 1 and 2, the loop 1 at the end la is designed with an outlet slot r 5 which extends directly in the longitudinal direction of the loop. However, the outlet slots can also be arranged on a mouth piece that is screwed onto the actual pipe. Above the outlet slots !? a guide ring 6 is arranged at the mouth of the barrel end 1a or a similar mouth piece which extends around the entire mouth edge and can be screwed onto the barrel end 1a. This guide ring 6 is equipped with a lower surface 6a which runs obliquely upwards and outwards. Preferably, the surface 6a has a concave curved cross-section. The guide ring 6 with the guide surface 6a causes the gases that escape through the slits 5 to be deflected away in a radial direction as far as possible. the outer surface of the blade end. The gas flow thus acquires an oblique radial direction. With such a lining, by means of the guide ring 6 and the lower surface 6a, a laminar flow is supported to a large extent for the gases that emerge from the slits 5". detrimental to the movement of the wing-stabilized projectile leaving the course. Likewise, the projectile has already --: long since left the trailing end when the vortices are formed.

x In the embodiment shown in fig. 3 and ^ is the lead 6

with the curved lower surface 6a arranged, at a distance from the running end la. The space between the mouth of the barrel end 1a and the guide ring 6 thereby forms an exit space 7 for the gases. The previously indicated slits are thus without limits in this embodiment and merge into each other. It is thus an exit space 7 which is open radially in all directions. The lead 6 is on. it

against

end that turns/the loop left correspondingly rounded at 6b. The inner surface 6c of the guide ring 6 is conically designed so that it expands outwards. With this arrangement, it is thus superfluous to arrange outlet slots in the running end la.

The assembly of the guide ring 6 in the embodiment shown in Fig. 3 and h is suitably carried out by means of bolts 8 which are fast through a fastening ring 9 which encloses the running end 1a. The fastening ring 9 is extended in two parts and is equipped with flange parts 9a through which screw bolts 10 or corresponding connecting parts are fast. The bolts 8 can be screwed into corresponding threads 11 in the guide ring 6. The lower ends of the bolts 8 can also be. equipped with threaded pins 13 as security and which are screwed through screw caps 12. The smallest diameter of the inner surface 6c of the lead ring corresponds to the inner diameter of the running end la and the upper surface of the lead ring 6 can be made flat.

Claims (3)

1. Current or extension, respectively muzzle piece for weapon barrels with a smooth inside for non-rotating (wing-stabilized) projectiles, especially for mortars, grenade launchers, etc., comprising a guide device with a guide ring whose inner diameter corresponds to the inner diameter of the weapon barrel and whose underside extends at an angle -upwards and -outwards, as well as outlet openings that open into the open air, for the outlet of the propellant gases, characterized by the fact that the guide assembly at its outer end has only one single guide ring (6) in connection with elongated wide outlet openings ( 5,7). 2. Current as stated in requirements. 1, characterized in that the lead ring (6) is - free - . arranged at a distance from an end (la) of the loop which at the circumference is without slits and that the wiring is fixed to and connected, with this end (la) of the loop by means of bolts etc. (8). 3. Current-as indicated in .claim 1 or .2, characterized.' in that the running end (la) is enclosed by a fastening ring (9.) which is designed with. stock hole for. the bolts (8.). which with their free ends are screwed into the guide ring (6)..