NO128635B - - Google Patents

Description

Firing device for projectiles.

The present invention relates to a firing device for projectiles/especially for combating armored vehicles, consisting of a preferably portable firing barrel with an open rear end, through which a filling of flowable material with great density and divisibility emerges into the open, accelerated by the pressurized gas, while the projectile is accelerated towards the muzzle driven by the same pressurized gases that are produced by a propellant charge.

When firing a projectile from a barrel, as is known - regardless of whether the barrel is affected by recoil or not - a powerful bang occurs at the moment the rear end of the projectile passes the muzzle. This bang, which is caused by the sudden expansion of the pressurized gases produced by the propellant charge, constitutes a strong mental and physical strain on the operating personnel, above all when relatively large projectiles are fired from a barrel supported by the shoulder. This is e.g. the case of the armored weapon §QJ9 is termed "panzerfist" (Panzerfaust). In order to avoid this injurious bang, which can sometimes be life-threatening for the operating staff, some firing barrels of the above-mentioned kind are equipped with silencers. In the absence of better solutions, currently used as silencers are mainly rigidly designed containers that are fitted with turnbuckles, non-return valves or the like and divided into several expansion chambers. The containers which, in terms of volume, are adapted to the quantity of compressed gas in question and whose expansion chambers open out into the open through bores with a small cross-section, are arranged with a recoil-free firing barrel in front of the muzzle and the rear barrel opening present in this case, since in the containers located in front of the muzzle, there is arranged a ring for the passage of the projectile. In these containers, the pressurized gases expand after the projectile has passed out of the assigned firing barrel, first into the containers before they reach the open air above the expansion chambers through the holes provided for this purpose. On its way through the expansion ion chambers, the still inherent energy of the inflowing pressurized gases is largely destroyed by means of the reversing valves, non-return valves or the like.

The known silencers, which - as already mentioned - ensure that the propellant's projectile-accelerating pressurized gases are gradually released with regard to their inherent energy after the projectile has left the barrel and thus reduce the bang as a result of a sudden release of this energy, are in several respects man-gelful. As a result of their complicated construction, these silencers are relatively expensive to manufacture. In addition, as a result of the rigid design of the container walls, especially when they are intended for large outputs, they have considerable volume and great weight, which significantly complicates the transport and handling of the gun barrels that are silenced in this way, especially when it comes to carry-only weapons.

A firing device for projectiles for combating armored vehicles, which consists of a portable barrel, the rear end of which is closed and in which the projectile is accelerated, is described in Norwegian patent application 969/68. The barrel mouth is, after the under-calibrated projectile has left the barrel, covered with a piston that covers the entire barrel caliber and at the same time acts as a so-called driving mirror. The pressurized gases which are produced by the propellant charge which causes the acceleration of the projectile escape over a ring to nozzles which are directed towards the rear end of the barrel. As a result of the relatively large total nozzle cross-section, despite the prescribed closure of the nozzle, as before, a strong noise occurs. In addition to this, the relatively large total cross-section of the nozzles and the arrangement of the nozzles • in the area of the rear runner already during the movement of the projectile in the barrel causes large quantities of the compressed gas to escape from the inside of the barrel, which leads to a significant reduction in performance.

The purpose of the invention is therefore to provide a firing device of the type indicated at the outset which enables firing with a weak bang, without the need for silencers of the type mentioned.

According to the invention, this task is solved by the fact that where a pressure-resistant piston is arranged axially movable between the projectile and the propellant charge and between this and the filling, which covers the entire barrel caliber, that the piston, which is accelerated together with the projectile, is captured in the area of the muzzle at the same time or approximately at the same time that the piston, which is accelerated together with the filling, reaches the area of the rear touching end, and that the pressurized gases that are contained in the firing barrel between the two pistons escape into the open through one or more blow-out openings and/or through leaks between the piston and barrel jacket, respectively through slots with, in comparison with the barrel caliber, a very small cross-section or overall cross-section.

In the firing device according to the invention it is

it is not necessary to arrange the known, heavy and voluminous and also manufacturing-expensive silencer in front of the muzzle, because the sudden expansion of the pressurized gases produced by the propellant charge, which is associated with a strong bang, with the help of the closed of the muzzle is safely avoided in the moment the projectile leaves the barrel. Rather, the pressurized gases slowly escape through the blow-out opening or the .-openings and/or the leaks or the slits.

According to a further feature of the invention, the opening or openings with a very small cross-section in relation to the barrel caliber or total cross-section are arranged in the barrel jacket immediately behind the piston caught at the barrel mouth. However, this or these openings that open directly into the open can also be. arranged in the piston which is located between the projectile and the propellant charge and is closed by the projectile until the piston is captured or until the projectile separates from the piston.

Further features of the invention appear from the following description and drawing, in which fig. la shows the principle of a recoil-free execution of the firing barrel according to the invention before the projectile is fired, fig. lb shows the same after the projectile has left the barrel and fig. 2 shows a section of a modified version of the firing barrel according to the invention.

The firing stroke according to fig. la and lb are denoted by 1 and are made as a portable weapon for one-time use, so that it falls under the so-called disposable firearms. In the area of the barrel's front end 2 and rear end 3, the diameter is reduced. The barrel's mouth is denoted by 4 and its rear opening, which is closed with a membrane 6, is denoted by 5. The ring shoulders that occur as a result of the diameter reduction at the front 2 and rear runner 3 are denoted by 7 and 8 respectively. In the barrel inner space 9 is where a projectile 10 is located, e.g. an armor-piercing projectile or an armor-piercing grenade, a propellant charge 12 which is provided with an igniter 11, as well as a filling 13 of a liquid medium, which parts 10, 12 and 13

are arranged axially one after the other. Suitable filling mediums are those which do not evaporate at the occurring temperatures and can easily be divided, such as water-oil mixtures, gel-like substances which become liquefied under pressure, as well as fatty substances and fatty solids, e.g. sandy.

The propellant charge 12 is both separated from the projectile 10, which is supported and guided by a slip ring 14 in the firing barrel 1, and from the filling 13, which can be made to float, by pistons 15 and 16, respectively, which are located within the entire barrel 1 caliber cross-section. As a result of the mutual arrangement of projectile 10, propellant charge 12, filling 13 and pistons 15, 16, one piston 15 which is located between the projectile and propellant charge 12 and the attached projectile 10 moves in the direction of the muzzle 4, while the other piston 16, which is located between the propellant charge 12 and the filling 13, moves in the direction of the rear barrel opening 5, the membrane 6 which closes the rear barrel opening 5 before the ignition of the propellant charge 12 is destroyed, so that the finely divided medium 16 leaves the barrel 1 through the rear barrel opening 5. In the present case, the filling 13 is quantitatively matched to the weight of the projectile in order to safely avoid a recoil shock, so that both pistons 15 and 16 simultaneously come into contact with the two ring shoulders 7 and 8. At this moment, in which the projectile 10 is released from the piston 15 and passes out through the barrel mouth 4, providing two exhaust openings 19 which are arranged in the barrel jacket in the area of the forward running 2 and whose total cross-section is significantly smaller than the caliber cross-section of the barrel 1, a connection between the inner barrel space 9 which is filled with the pressurized gas, and the outer space, so that the pressurized gas

17 can dodge slowly, i.e. without a bang effect.

At the one in fig. 2 partially shown embodiment of the firing barrel according to the invention and which is denoted by 31, an arrangement of blow-out openings in the barrel jacket itself has been renounced and instead a centrally pierced piston 35 has been arranged which is located in the interior of the barrel between the fired projectile 34 and the propellant charge not shown. The central bore 36 in the piston 35, which fills the entire caliber cross-section, has a cross-section which is significantly smaller than the caliber cross-section. The opening serves to release the pressurized gases 37 produced by the ignited propellant charge under the action of the pressurized gases the piston 35 with the projectile 34 and a sliding ring 38 are moved towards the barrel mouth which is denoted by 39. This happens as soon as the gas-tight connection formed between the end of the projectile and the cross-section of the barrel is loosened, and at the time when the piston 35 is prevented from moving further in the aforementioned direction as a result of the ring 40 hitting the shoulder in the barrel mouth 39 area.

Claims (3)

1. Firing device for projectiles, especially when fighting armored vehicles, consisting of a preferably portable firing barrel with an open rear end, through which a filling of buoyant material with high density and divisibility emerges into the open, accelerated by the pressurized gas, while the projectile is accelerated towards the muzzle driven by the same pressurized gases that are produced by a propellant charge, characterized in that there is an axially movable pressure-proof piston (15, 16; 35) which covers the entire barrel caliber, that the piston (15; 35) which is accelerated together with the projectile (10; 34), is captured in the area of the muzzle (2; 39) at the same time or approximately at the same time that the piston (16) which is accelerated together with the filling (13) reaches the area of the rear touching end (3 ), and that the pressurized gases (17; 37) which are enclosed in the firing barrel (1; 31) between the two pistons (15, 16; 35), escapes in the open through one or more exhaust openings (19, 36) and/or through leaks between pistons (15, 16-, 35) and barrel jacket (1;31) respectively through slits with, in comparison with the barrel caliber, a very small cross-section or overall cross-section. 2. Facility according to claim 1, characterized in that the opening or openings (19) with a very small cross-section in relation to the barrel caliber or overall cross-section are arranged in the barrel jacket (1) immediately behind the piston (15) caught at the barrel mouth (2). 3. Device according to claim 1, characterized in that the opening or openings (36) which open directly into the open are arranged in the piston (35) which is located between the projectile (34) and the propellant charge (12) and are closed by the projectile (34) until the piston (35) is captured respectively until the projectile separates from the piston.