DE9302005U1 - Kit for low-recoil actuation of firearms - Google Patents

Description

According to the physical law of impulse, firearms have the unpleasant property of recoil when the projectile is expelled, ie the impulse given to the projectile in the direction of flight is transferred as a counter-impulse to the weapon, which then recoils or, in practical use, combines the recoil with a lifting of the weapon.

According to the law of momentum: I = M × V, i.e. the momentum I = mass × velocity, thus the momentum increases with the mass of the expelled projectile.

The task of reducing recoil to a large extent, if not eliminating it, is very old. The desire for such a weapon is not only desired in the defense sector, but is also of great importance to sports shooters, who have to aim at the target again every time after firing the shot before taking the next shot.

Possible solutions were offered in the form of spring-activated balancing masses and corresponding vent holes, which in the latter case should at least reduce the upward pull of the weapon by a counter-impulse of the escaping gases. Ultimately, however, a satisfactory solution has not been found, especially for high-caliber weapons and their ammunition.

The object of the invention presented is therefore to present a device which, taking into account the state of the art, represents a completely new process principle.

The idea is that a counter impulse is generated in the weapon at the same time as the projectile is being expelled by an oppositely activated propellant charge, which is generated by a correspondingly defined mass element, which in turn moves backwards in its own barrel under spring load and ultimately releases the resulting propellant gases in the direction of the target via a relief bore, whereby when the propellant gases exit, they are redirected upwards, for example, in order to prevent a residual impulse with the weapon being thrown upwards.

Naturally, it is necessary to select the propellant charge so that it burns almost without residue, in order to keep the rear impulse compensation barrel as clean as possible for as long as possible so that the mass compensation element can move safely. In this movement, the mass is slowed down by the spring placed in the barrel, whereby the spring itself must in turn be designed so that the mass must under all circumstances pass the vent hole in accordance with the propellant charge designed, so that pressure is relieved in the rear barrel.

In a preferred embodiment, the variant shown presents a projectile whose casing is designed with two chambers and preferably allows a circular rimfire ignition in the area of the partition wall.

Of course, variants are conceivable, such as the rear propellant charge being ignited with its own propellant charge set, e.g. via a primer cap, but in the case of firearms this means that, for example, the magazine is designed twice and that a more complex ignition mechanism must be created for the ignition of both propellant charges.

Furthermore, it should be borne in mind that, for example, when using electronic handguns, for which the author has already made several applications, it is possible to ignite the propellant charges electronically synchronously, in which case the possibility of separate propellant charge sets is easier to implement.

The invention will now be explained in more detail with reference to kit claims 1-14 and Figure 1.

This shows

Figure 1 shows a detailed section

the weapon on average.

We can see the two barrel sections (1,2), with the front section of the barrel showing, for example, fields and grooves (27) that give the projectile (3) the required spin. The projectile (3) is part of the cartridge (3,6,7) with its cartridge base (30).

In the variant shown, it is ignited by rimfire ignition (8) via a bolt element (12), whereby it is divided into two compartments (6,7) by the separating element (31), whereby compartment (6) serves to expel the projectile (3), while compartment (7), after the cartridge base (30) has burned, is suitable for accelerating the mass element (5) via the rear barrel (2) against the spring force (9), whereby the propellant gases are discharged via the bore (10) when the barrel passes over the bore (11). The left-hand part of the drawing shows the end region of the bore (10), whereby the slope (28) ensures that the propellant gases cause a downward impulse, which is used to eliminate an upward impulse of the weapon.

The ignition mechanism itself is only a schematic representation of one possible variant, in which the trigger (14) and pin (21) move the eccentric (16) so that the piston element (20) moves upwards and thus activates the spring (19). At the same time, the element (17) moves the slide (24) forwards and at the same time activates the spring (18) for the subsequent backward movement, which in the variant shown acts on the pin (26). The purpose of this movement is for the bolt (12) in the area of the rimfire igniter (8) to find the window (13) of the slide (24) and thus ignite the cartridge (3,6,7) due to the spring tension (19). The slide (24) is mounted in the guide (25).

A further illustration, in particular of the ejection slide, the handle with its cartridge magazine etc., has been omitted here. Reference should only be made to element (29), which is shown here as a screw that allows the barrel section (2), the mass element (5), the springs (9) and finally the bore (10) to be cleaned.

Claims (14)

EXPECTATIONS 1. Kit for low-recoil operation of firearms, characterized, that the barrel is divided into two compartments (1,2), that it has an ejection or receiving window for the case (6,7) or the cartridge (3,6,7), whereby the rear propellant compartment (7) after ignition is suitable for accelerating the mass element (5) in the barrel (2) in a spring-buffered manner against the direction of travel of the projectile (3), whereby finally the relief bore (11) after traversing the mass element (5) is suitable for discharging the propellant gases. 2. Kit according to claim 1,
characterized, that the front barrel portion (1) has grooves and fields (27) which are suitable for giving the projectile (3) the required spin. 3. Kit according to at least one of claims 1, 2, characterized in that, in addition, the front barrel portion (1) is reinforced and that the cartridge circulation (32) is suitable for forming a stop surface for the spring-loaded slide, the rear barrel portion (2) being windowed for ejecting the cartridge case and for inserting a new cartridge and containing the mass element (5) which rests against the cartridge base (30) by means of a spring (9), the relief bore (11) being suitable for discharging the propellant gases via bore (10) after being passed over by the mass element (5). 4. Kit according to at least one of claims 1-3, characterized in that with the screw element (29) removed, the rear barrel section (2) and ultimately the bore (10) must be cleaned. 5. Kit according to at least one of claims 1-4, characterized in that the mass element (5) and the spring (9) are designed in such a way that they preferentially reduce or cancel the recoil when the projectile (3) is expelled. 6. Kit according to at least one of claims 1-5, characterized in the ammunition (3,6,7) preferably has chambered (6,7) propellant charges which are separated from one another by the partition wall (31) and which, in a preferred embodiment, can be ignited synchronously by the rimfire ignition (8), whereby the ammunition base (30) preferably burns. 7. Kit according to at least one of claims 1-6, characterized in that the propellant casing compartments (6,7) are separated (31) and can be ignited electronically synchronously by appropriately designed ignition electrodes, preferably via an ignition spark. 8. Kit according to at least one of claims 1-7, characterized in that the opposing impulses are designed in such a way that the resultant is suitable for making a slide mechanism operable in the normal manner for ejecting the case and inserting a new cartridge. ·· 1 · n 9. Kit according to at least one of claims 1-8, characterized in that the bore (10) in the muzzle area of the weapon is deflected in such a way that in the event of a residual impulse, the weapon can be prevented from being thrown up. 10. Kit according to at least one of claims 1-9, characterized in that the kit is used in a rapid-fire weapon. 11. Kit according to at least one of claims 1-10, characterized in that that instead of a common cartridge (3,6,7) on the one hand a normal cartridge is used and on the other hand a separate opposing propellant charge can be integrated into the barrel (2) via the magazine . 12. Kit according to at least one of claims 1-11, characterized in that in such a procedure the two propellant charges should preferably be ignited centrally and/or electronically. 13. Kit according to at least one of claims 1-12, characterized in that the screw element (29) allows the weapon to be individually adjusted to the resulting recoil with known spring (9) parameters. 14. Kit according to at least one of claims 1-13, characterized in that the barrel (2) with its case ejection window can be exchanged for a different type of ammunition, if necessary including the spring (9), mass element (5) and screw element (29).