NO117624B - - Google Patents

Description

Lbp for firing Svelsemunition with automatic weapons.

By. firing practice ammunition, for example target practice cartridges, such as plastic training cartridges, with automatic weapons with a locked breech, it has been found that the gas pressure, which is min-

dre than what you have with sharp cartridges, is not large enough to move the recoiling parts to a sufficient extent. For this reason, the weapon's automatic action is not guaranteed when firing practice ammunition.

A known way to remedy these deficiencies is to place recoil-enhancing damming nozzles at the muzzle of the barrel.

If such damming nozzles can be placed at all, these must be of a relatively large size. The consequence of that is that the weapon's weight becomes significantly greater, which in many cases cannot be accepted. Furthermore, when the weapons are installed in armored vehicles, there may not be sufficient space.

It is also known to use non-locked end pieces, so-called automatic end pieces. In many cases, however, these do not lead to the desired result, as the demands placed on them for construction reasons cannot always be realised.

For firing loose cartridges, a method has also been adopted, after which the barrel is split in two at a certain distance from the cartridge chamber. The division was made so that it fits the gas pressure, which is less than what you have with live ammunition. Thereby, the mass to be moved, i.e. the rear part of the barrel, including locking devices, is adjusted to a weight that ensures the weapon's automatic operation.

For practice ammunition where the projectile must have a safe guide," such a divided barrel is not suitable. When the two barrel parts are separated, a gap is formed through which the projectile must pass, and furthermore the grooves in the two parts are offset in relation to each other. -

In order to avoid these disadvantages, it is proposed that the barrel for shooting with practice ammunition is divided into two axially displaceable guided parts, whereby according to the invention it is characterized by the division being made at the front end of the cartridge chamber, at least in the immediate vicinity of the sleeve opening to a practice cartridge placed in the chamber, whereby the two parts (1) and (2) in a rest position with their adjacent end surfaces form an annular gap (4), which is in connection with the bore of the barrel and extends over at least a part of the barrel's cross-section, and that the parts, in a manner known in and of themselves, are mutually limitedly displaceable against a constantly acting force, preferably spring force..

With such a construction of the barrel, it is achieved that the combustion gases which at the front end of the cartridge chamber are still under relatively high pressure, enter the annular gap between the two parts of the barrel and, due to the pressure they exert on the end surface of a recoil die, push " this part backwards. By suitably dimensioning the radial size of the ring gap, one has the option at hand to adjust the size of the end surfaces in relation to each other so that the rear part of the barrel absorbs a sufficiently large recoil for the automatic action of the locking mechanism to take effect safely. In addition, with a structure according to the invention, it is achieved that the projectile during charging remains in the transition of the barrel so that as soon as it starts moving after the shot has been fired, it has a very good guidance, without interruption along the way, so that a good shot precision is secured.

The invention is explained in more detail with reference to the drawing, which shows an example of the design. The drawing shows: Fig. 1 an axial section of the parts of the barrel before the shot is fired,

fig. 2 parts of the race shortly after the shot is fired.

The relatively short rear stump of course 2 is wood

■ with the help of a top-shaped shoulder inserted into the corresponding recess 6 in the front part of the barrel 1 and forms together with the annular gap 4» The projectile 5 for the practice cartridge, which is indicated by dashed lines, is located in the rear part of the barrel part 1, respectively in the unmarked transition between the cartridge chamber and the similarly unmarked grooves in the barrel. With 3, the weapon's closing or locking device is indicated.

According to fig. 2, the combustion gases which have been developed when the shot is fired, due to its pressure on the annular front end surface of barrel part 2, push this backwards and against the constantly acting counterforce from a not shown closing spring, extension spring or the like, while the projectile, which indicated has moved forward in the race.

Other possibilities for the execution are conceivable. Instead of feeding the two parts of the race 1 and 2, muff-like into each other, e.g. annular gap 4 also be made so that it extends over the entire barrel cross-section, is guided by a sleeve that goes over parts 1 and 2 of the barrel, covers the annular gap from the outside and is preferably attached to part 1.

Claims (1)

Barrel for firing practice ammunition with automatic weapons, which barrel is divided into two relative to each other axially displaceable guided parts, characterized in that the division is made at the front end of the cartridge chamber, at least in the immediate vicinity of the sleeve opening of a practice cartridge that is placed in the chamber, whereby the two parts (1) and (2) in a resting position with their adjacent end surfaces form an annular gap (4), which is in connection with the bore of the barrel and extends over at least part of the barrel cross-section, and that the parts, in a manner known per se, are mutually limitedly movable against a constantly acting force, preferably spring force.