DE2127877A1 - Silencers for handguns - Google Patents

Description

PATENT LAWYERS

PATENT Attorney DIPL-ING. R. MOLIER-BDRNER PATENTANWALT DIPL.-ING. HANS-H. WEY

B E R LI N- DAHLEM 33. PO D B I ELS KIALLE E «8 8 MÖNCHEN 22 -WIDENM AY ERSTRASSE

TEL. 03Π. 762907 ■ TELEGR. PROPINDUS. TELEX 0184 057 TEL. 0811. 225585 TELEGR. PROPINDUS TELEX 0524244

23 858 / a

Carl Walther
7900 Ulm

Silencers for handguns

The invention relates to a muffler for handguns, consisting of one in front of the muzzle of the gun barrel arranged tubular hollow body, through the rear end wall of the barrel into the Inside protrudes, the front end wall of which has a projectile passage opening and the one provided with passage openings for the projectile and the propellant gases Partition walls are divided into several chambers, at least one of which is designed as a backflow chamber is"

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The well-known silencer principles can roughly be used in can be divided into two groups: one group works exclusively with short-term storage the propellant gases following the projectile in several, one behind the other, closed off from the outside Chambers, whereby a throttled expansion of the propellant gases through the storey opening reached on the front end wall of the muffler the other group directs at least part of the propellant gases through side openings to the outside · ways The silencers have proven to be more effective the first group largely enforced; Arrangements of the second type are practically only used where a propagation speed of the propellant gases in the supersonic range avoided and already before the exit of the Projectile should be lowered from the barrel into the subsonic range.

As a particularly effective mufflers have been found in which the muzzle of the barrel is first followed by a penetrated by a central tube surge chamber, the projectile of the post-W can absorb a large part of the following propellants.

In order to actually effectively store a large part of the propellant gases in such a backflow chamber as well as well as in the other chambers formed by simple partition walls, it was proposed in Axially connected to the partition walls to arrange funnel-shaped structures, which the propellant gases for expansion force and thus largely move out of the direction of the storey. It was also proposed that the side be interrupted Provide funnel walls in order to create the

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Bring propellant gas flow to the walls. In the end It has been proposed that the propellant gases be swirled by means of guide lamellae and thus an effective filling to reach the chambers.

However, all silencers constructed in this way are in The better the damping effect, the more complex the construction not all, push the remaining bang below a certain sound level. This is mainly due to that it does not succeed effectively with the known devices, the propellant gases actually to the desired expansion to force and thus to be able to store briefly in the chambers.

The invention is based on the object of designing a silencer that has a higher degree of efficiency than the known ones, in particular in that designs are found by means of which it is possible divert or ineffectively divert the gas flow that is close to the projectile and that immediately follows it make, and at the same time is less expensive to construct.

According to the invention, this object is achieved in a muffler of the type described achieved in that the front and the rear end wall perforated in a manner known per se the üückströmiakammer are conical in shape that the the corrugated tube passing through the backflow chamber is provided with openings and that the other, the Rücki Partition walls downstream of the flow chamber with through openings for the eyes are vorselipu with a serrated edge bent backwards. These measures enable effective Discharge of the gases flowing in front of, next to and behind the floor. The conical end walls

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prevent too strong a gas shock and cause a easier influx of propellant gases through the holes arranged in the rear end wall into the backflow chamber; through the holes arranged in the projectile passage tube, the holes behind the projectile are inserted into it Pipe entering gases partially into the backflow chamber sucked off, the incoming pressure waves partially reflected by impinging on in the return flow chamber Pressure waves are extinguished.

| The return flow chamber is expediently in the interior a coarse wire mesh arranged, the wires of which have a diameter of at least 0.5 to 1 now and preferably have a rectangular cross-section. This wire mesh is not, like known wire mesh, '"the Absorption of the energy of the propellant gases, but a reflection of the pressure waves in the as far as possible Inside the backflow chamber.

The serrated edges of the The partition walls downstream of the return flow chamber are effective Turbulence of the propellant gases still following the projectile in the form of a pencil and thus an effective one Discharge causes in the chambers formed by the partition walls. The spikes act as a breakwater. The edges are expediently from front to back more and more bent up and pointing to becoming larger.

Jagged. The funnel-shaped upturned edges at
a forced expansion of the swirled propellant gases also have an effect

The front partitions advantageously still have additional gas passage openings that provide a better Adjust the overpressure built up in the silencer to the outside air pressure.

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A silencer constructed and configured in this way has been tested and shows how to get through. Measurements can prove a much better damping of the shot resulting bang than all previously known silencers, ν

A preferred embodiment of one according to the invention trained silencer is in the drawing and explained in more detail below on the basis of this Bs shows

Fig. 1 is a longitudinal section through the muffler} FIG. 2 is a plan view of the rear partitions. Fig. 3 is a plan view of one of the foremost partition walls "

The muffler (Fig. I) consists of a jacket tube 10, which is closed on both ends by end walls 11, 12. Through a hole 13 in the rear end wall 11, the gun barrel Xh protrudes into the interior of the muffler and is with it screwed a thread provided in the bore I ^. The front end wall 12 has a projectile outlet opening 15. This opening is also the only opening in the silencer »through which the propellant gases can escape.

Cm inside is divided dör muffler by partitions into individual chambers, the Eintrittsoffnung 13 for the gun barrel Ik first 1st an EOG. Downstream of the return flow chamber 16 · SdLe essentially consists of a front 1? and a rear end wall 18 as well as dfe inner wall of the jacket tube 10 and the outer wall of a cavity 19 formed concentrically to this projectile passage tube, which has openings 20 in the rear end wall 18 "with dom

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other. Scha 11 damper is connected to the interior. The openings 20 in the rear end wall 18 are conical, which causes a throttling of the propellant gases flowing out of the backflow chamber 16 again.

According to the invention, the two end walls 17 »18 of the return flow chamber 16 are conical. In the rear end wall 18, an excessively large gas surge is avoided and the propellant gases spreading in the space between the rear end wall 11 of the silencer and the conical rear end wall 18 of the backflow chamber Io are discharged through the openings 20 into the interior of the backflow chamber 16 directed. The conical design of the front end wall 17 brings about a forced expansion of the propellant gases emerging through the pipe 19 to the front.

The joint passage tube 19 is also provided with openings. Through these openings, the door gases immediately following the projectile in the tube 19 are sucked off into the interior of the rucksack trömkajnmer. This takes place until between the interior of the tube 19 and the interior h of the rucks trömkammer 16 pressure equalization prevails. The air displaced by the projectile as it passes through the tube 19 is sucked into the backflow chamber through the openings 21, which ensures that the projectile does not push a pressure wave in front of it and impair the effectiveness of the subsequent chambers A very coarse wire mesh 22 is introduced into the return flow chamber 16, the oil diameter of which is at least 0 _f 5 nm. Through the wire 22 are the; pressure waves propagating inside the backflow chamber 16, which essentially flow from the through the opening in the rear end wall 18 of the backflow

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■■. ■ '. • ■■ Φ & *.

doing, düts projectile at least partially overtaking it Propellant gases originate, broken and partially reflected. The ones from wire mesh 22 and the front The pressure waves reflected from the end wall 17 of the backflow chamber 16 partially cancel the pressure waves that follow off, to the extent that the phase shift is 180.

The return flow chamber 16 is followed by further chambers, which are formed by partition walls 23 »24, 25 and the inner wall of the casing tube 10, and are connected to one another via their projectile passage openings 26 arranged centrally with respect to the casing tube 10. The partition walls 23, 2.k, 25 are disk-shaped with serrated edges of the openings 26 that are bent up towards the rear, the teeth 27 of the rear partition walls 23 being larger than the teeth 28 of the front partition walls 2k _t 25. The edges of the projectile through openings 26 formed at 28 have a funnel shape, which, as is known, causes the propellant gases passing through the openings 26 to expand. The foremost of the partition walls have, in addition to the projectile throat openings 26, further openings 29 which ensure a better adaptation of the overpressure prevailing in the silencer after the shot to the outside air pressure.

The prongs 27, 28 act as a kind of breakwater. They cause the one immediately next to the projectile flowing gases or gases entrained by it like the flowing in, roughly in the shape of a pencil, immediately behind the projectile Propellant gases are swirled and, in the chambers formed by the partition walls 23, 24, 25 gpLeit.

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Intermediate walls 23, 2k, 25 provided with jagged edges in this way are particularly easy to manufacture and install in the jacket pipe 10. They can be made from duraluminum disks by punching a cross seat in the middle and mortising the jagged edge with a mandrel * For the front dividing walls Zh, 25 a hole is expediently drilled first, whereby its overall height can be kept smaller. In the jacket tube 10 between the disks 23, 24, 25, the end walls 17, 18 of the return flow chamber f and the outer end walls 11, 12 of the silencer, spacer pipe pieces 30 ensure that the individual components are fixed in the silencer.

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Claims (2)

Expectations 11.7 Silencers for handguns, consisting of a tubular hollow body arranged in front of the muzzle of the gun barrel, through its rear end wall the barrel protrudes into the interior, the front wall of which has a bullet outlet opening, and the partition walls provided with passage openings for the projectile and the propellant gases in several chambers are divided, of which at least one is designed as a backflow chamber, characterized in that that the front and the rear end wall of the return chamber, perforated in a manner known per se, are conical are designed that the projectile passage tube penetrating the return flow chamber is provided with openings and that the further partition walls downstream of the return flow chamber are provided with passage openings are provided with a serrated edge that is bent backwards. 2. Silencer according to claim 1, characterized by a duroh Coarse wire mesh arranged in the return flow chamber, the wires of which have a diameter of at least 0.5 to 1 mm and preferably have a rectangular cross-section. 3 silencer according to claim 1 or 2, characterized in that that the edges of the openings in the partition walls downstream of the return flow chamber from front to back increasingly funnel-shaped are bent up and have larger spikes. 209853/0172 k. Silencer according to Claim 1, 2 or 3, characterized in that the front partition walls have additional openings. 209853/0172