DE1242477B - Automatic firearm - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

• Int. CL:

F41d

German KI .: 72 h -1/03

Number: 1242 <

File number: H 5C

Registration date: 30. <

Open date: June 15, 1967

The invention relates to an automatic firearm with a breech block with a reference mass is provided. Such reference masses are necessary in order to avoid disturbances that are caused by a rebound of the lock when it enters the closed position. at In all known arrangements, the reference mass consists of one arranged on the closure movable piece, which either directly or via a spring exerts a blow on the lock, to prevent the breech from rebounding. Because both the elastic forces that cause a rebound effect of the shutter, as well as the inertial forces of the impact mass on the shutter speed depend on, is only working properly over a fairly small area the sequence of shots guaranteed. This is a major disadvantage of those provided with a make-up mass Closures.

It is also from other tools and machine parts with which an impact is carried out known to use reference masses. As areas of application for such reference masses were Hammers, rams as well as switching and regulating devices specified. With these known tool and machine parts you can find either one-piece refills or liquids or smaller fillers how to use shot. Of these reference measures have so far only been used in weapons technology one-piece reference masses found application, presumably because the experts believe was that with the very rapid movements to which the breech of an automatic firearm was subjected is just a precisely coordinated one-piece mass that looks up at a precisely defined point in time and, if necessary, a pawl or the like, subordinate to the desired secure locking can. No attempt was made, for example in the reference mass of a closure itself, to find more To arrange reference masses to change the properties of the reference mass itself. Quite Obviously, experts saw in precisely coordinated locking systems that only a single compact one The only option for that was that they had reference mass and were therefore predictable Creation of a reasonably reliable closure, although even those with such a reference mass provided closures have the disadvantages described above.

In contrast, the object of the invention is to address the shortcomings of the known closures avoid that in their precise coordination on an automatic firearm

Applicant:

Heckler & Koch G. m. B. H., Oberndorf / Neckar

Named as inventor:

Theodor Koch, Oberndorf / Neckar

certain shutter speed and their relatively complicated structure. This task is achieved according to the invention in that the reference mass in the destruction of rebound energy known way consists of a large number of loose items that are frictional against each other are freely movable, and that these individual parts are placed in one or more chambers of the breech

ao are filled.

It has surprisingly been found that the inventive use of a larger Number of loose individual parts as reference mass and the arrangement of these parts in chambers of the lock by the friction of the individual parts of the reference mass against each other and against the walls of the Chambers and the resulting damping of the movement of the reference mass on the closure a sustained and effective counter pressure is exerted, which ensures that it functions properly is no longer limited to a low speed range, but by the shutter speed is largely independent. As a result, a firearm is in accordance with the invention the bolt speed is much less critical, so that ammunition of the various types can be fired. This opens up the possibility of using the ammunition in to a much greater extent than before to match certain requirements, because adhering to a a certain rate of fire is no longer a priority.

Another essential advantage of the invention is that the closure according to the invention characterized by a very simple structure. There is no need for precisely worked and precisely managed Look-up pieces and the look-up pieces supporting springs to be provided, rather it is sufficient to install chambers in the closure, in which the existing from the individual parts Reference mass is filled, in the manufacture of these chambers neither tight manufacturing

709 590/41

tolerances adhered to, particularly high surface finishes should be striven for. Also the vote the make-up mass itself is not particularly critical because it is used in accordance with the invention loose individual parts cannot become a vibratory system to be tuned to a certain frequency needs. So, through you invention, not only does that become Functionality of a lock significantly, improved, but at the same time its manufacturing costs are reduced considerably. ·.:. '·.

In a preferred embodiment of the invention, the closure is with axially directed bores provided for receiving the mass parts, which are preferably closed at their rear ends are.

The mass parts are made of a granulate made of a heavy metal, in particular tungsten, educated. The inventive use of a granulate made of heavy metal has the advantage that a such granules have a high specific weight and the required secondary mass on a small scale Space can be accommodated. In addition, the internal friction of such granules is great high, so that good damping is achieved. In addition, such granules are also mechanical so stable that abrasion does not occur.

Further details and embodiments of the invention emerge from the following description, in which the invention is described in more detail with reference to the embodiment shown in the drawing and is explained. It shows

F i g. 1 shows a longitudinal section through a locking system with a leading lock and

F i g. 2 the locking system according to FIG. 1 with locked lock.

The drawing shows a locking system of known type which has been designed according to the invention. The closure 1 comprises a support body, a control piece 2 connected to it and a closure head 4 which is mounted on the control piece 2 of the closure so as to be displaceable in the axial direction. On the control piece 2 there are two control surfaces 3 which cooperate with two locking rollers 5 α and 56, which are slidably mounted in openings 6 a and 6 6 of the bolt head 4 transversely to the direction of movement of the bolt. When the lock is locked, the rollers 5 a and 5 δ enter the recesses 7 α and 7 6 of a locking piece 7 in which the barrel 8 is anchored. When the breechblock is advancing, a cartridge 9 is inserted into the barrel 8 (Fig. 2), which can be ignited with the aid of the firing pin 11, which is slidably mounted in the support body 1 and in the control piece 2 of the breechblock and normally by means of a helical spring 10 is held in a rest position. To ignite the cartridge 9, the firing pin is struck in a known manner with the aid of a tap (not shown) on the bottom of the cartridge.

According to the invention, two axial bores are made in the support body of the closure 1, which form chambers 12 a and 126 and are almost half filled with heavy metal granules, preferably tungsten granules, serving as a make-up mass 13. At their rear ends, the chambers 12a and 126 by means of screwed plugs 14 a and 14 b sealed. The cavities 15 a and 156 remaining here serve as working spaces for the reference mass 13.

As is known, after a shot has been released, the breech is moved in the opposite direction to the direction of the shot, whereby it tensions the recoil spring until it is released by the counter-pressure of the recoil spring or the impact is brought to a standstill on a buffer device, not shown. The reference mass according to the invention 13, which, when the lock is locked, as in FIG. 2 shown, in the front part of the holes 12 a and 12 & is located when braking

ίο the return movement of the closure due to its inertia is thrown backwards and takes place on the stopper 14 a and 14 b , as shown in FIG. 1 is shown. Due to its inertia, the reference mass remains in this position even during the closing advance, which is brought about by the relaxing closing spring, not shown. The bolt head 4 removes a cartridge in the usual way during the advance from a magazine or a belt and introduces it into the cartridge chamber in the barrel 8 of the weapon.

If the bolt head 4 has inserted the cartridge 9 into the barrel of the weapon and has come to a standstill, the locking rollers 5 a and 56 are pushed into the recesses 7 a and T b by means of the control surfaces 3 on the following control piece 2. This process takes place with considerable force, which results from the kinetic energy of the control piece 2 and the support body of the closure 1, which are brought to a standstill during this process. This impact exerted by parts 1 and 2 of the lock via the locking tubes 5 a and 5 b , the locking piece 7 initially yields elastically, but then springs back and presses the locking tubes 5 α and 5 b onto the control surfaces 3 of the locking piece 2, which is in In connection with the own elasticity of the locking piece 2, the locking parts 1 and 2 would rebound if no countermeasures were taken. At the moment of rebounding, however, the individual parts of the reference mass 13 hit the front faces of the bores 12 α and 12 b , which due to their inertia are thrown from their position near the stopper 14 a and 146 forward, and consequently practice on the closure a pressure that counteracts the forces that would cause the buckle to rebound. The impact of the granulated reference mass 13 on the front end faces of the chambers 12 "and 126 does not take place, as in the known closures, with a reference mass as an elastic impact, which in turn could give rise to impact effects that should be avoided, but rather than in the Significant inelastic shock, because the impact mass, which consists of individual particles that can move against each other, has a high internal friction, which completely prevents elastic vibrations of this mass. Due to the inelastic impact of the whip mass, a lasting and effective counter pressure is generated, which reliably prevents the breech from rebounding and ensures proper locking of the breech in a very wide range of breech speeds.

It goes without saying that the invention is not limited to the illustrated embodiment. she is completely independent of the actual design of the closure and can basically be used with all

known closures are used. In particular can the reference mass according to the invention instead of a two-part closure, as it is as an exemplary embodiment has been shown, can also be used with a one-piece or mass lock. Further modifications of the illustrated embodiment can result from the fact that In the case of embodiments of the invention, individual features of the invention can be used individually or several in any Combination are present. The effect of the reference mass is not only dependent on the total mass of the particles used, but also to a considerable extent by the ratio of their Total volume to the volume of the chamber and, in addition, also to the shape of the chamber in which the particles are arranged. By coordinating these variables, the time course and the Size of the force effect of the reference mass can be optimally adapted to the given conditions.

ao

Claims (4)

Patent claims: 1. Automatic firearm with a breech that is provided with a reference mass is, characterized in that the Look-up mass (13) in a manner known to destroy rebound energy consists of a large number of loose items that are freely movable against each other under friction, and that these items are filled into one or more chambers (12 a, 12 b) of the closure (1) . 2. Weapon according to claim 1, characterized in that the closure is provided with axially directed bores (12 a, 12 b) for receiving the parts of the reference mass (13), which are preferably closed at their rear ends. 3. Weapon according to one of the preceding claims, characterized in that the reference mass (13) is formed from a granulate. 4. Weapon according to claim 3, characterized in that the granules made of a heavy metal, in particular made of tungsten. Considered publications:
German Patent No. 739 398;
German Auslegeschrift No. 1119 726;
British Patent No. 656 882. 1 sheet of drawings 709 590 / 416.67 © Bundesdruckerei Berlin