DE1916457A1 - Silencers for firearms - Google Patents

Description

Silencer for firearms The invention relates to a silencer for firearms, in which the combustion gases emitted from the barrel are repeated by means of fixed baffles into several rear chambers are conducted, in which a sound attenuation takes place by impulse reflection.

There are known systems that work on the principle of reflection which the partition walls of the chambers consist of elastic discs through which the Floor goes through after leaving the barrel. The elastic behavior of the Discs causes a automatic closure of the passage holes created by the projectiles. This results in a higher flow resistance for the combustion gases following the projectile, which the gases flow through rapidly of the chambers.

This device has the disadvantage that the projectiles when passing through be deflected by the targets, reducing the accuracy of the hit causes.

Furthermore, the disks must be replaced frequently because they are of the projectiles are quickly destroyed.

In order to avoid these disadvantages, in the invention, the combustion gases by repeatedly deflecting from their direction of movement in the rapid flow the chambers prevented.

The invention is based on the knowledge that Ga3 is a free gas jet constantly absorbs air particles from its environment, which makes it more and more plump and its mean speed decreases.

Since the entrained air particles have to be constantly replaced, occurs in the vicinity of the gas jet a secondary flow to that in a free environment symrrmetrisc "Yi is and thus does not affect the gas jet If the gas jet is close to a stationary wall, the secondary flow becomes symmetrical disturbed, and the beam lies against the wall. Will the wall under his particular Arranged at an angle to the direction of movement of the gas jet, this can be converted into steer in a precisely determined direction.

In the silencer according to the invention, those following the projectile get Combustion gases after leaving the barrel in one arranged behind the barrel muzzle first chamber. Here the gases expand as much as possible and then get through a piece of pipe protruding into the first chamber into a second chamber, the one behind the first is arranged.

At the rear end of the tube there is an oblique to the direction of movement of the combustion gases arranged baffle on which the pipe section leave Apply gases due to the lack of secondary flow. The gases change theirs as a result Direction of movement and flow along the baffle into the second chamber. To the To increase deflection, the rear end of the pipe section has one of the Abnenkwand Opposite opening through which some of the combustion gases come out directly the first can get into the second chamber. Since this opening is arranged since the gases flowing out of it are almost perpendicular to those leaving the pipe section When gases hit, there is an additional deflection due to the mass impulse effect of the gases.

The deflected gases expand in the second chamber. Through a The pipe section protruding into the second chamber allows the gases to enter (iie behind the second arranged third chamber. The diversion of the gases in the third chamber takes place according to the same principle as in the transition from the first to the second Chamber.

The gases are then released to a third piece of pipe.

For manufacturing reasons, it is advantageous to use the pipe sections and to form deflecting walls as a coherent element, and as a stamped sheet metal part to manufacture.

Further structural details of the invention emerge from the Description of a preferred embodiment.

1 shows a longitudinal section through the silencer device, Fig. 2 is a cross section along line A-A; Fig. 3 is a cross section along line B-B.

Form in the casing tube 1 arranged concentrically to the barrel axis the partitions 2 and 3 and the cover 4, the chambers 5, 6 and 7.

The partitions 2 and 3 as well as the cover 4 are welded by means of longitudinal seams fastened in the jacket pipe 1.

The intermediate sleeve 9, which is shrunk onto the barrel 8, protrudes over the Laufmtlndung addition and has an external thread 10, which is used to attach the jacket pipe 1 serves. This design enables the jacket tube 1 to be shortened by the amount the length of thread engagement 10.

The pipe section 11 protruding into the chamber 5 establishes the connection between chambers 5 and 6. The pipe section 11 penetrates the partition 2 and is arranged centrally to the casing pipe axis. At the rear end of the pipe section 11 is the one that protrudes into the chamber 6 and is arranged at an angle to the pipe section axis Baffle 12. It is advantageous to measure the cross-section of the pipe section To choose il rectangular in order to obtain a flat baffle 12, which is a special one gives good distraction.

As a further connection between the chambers 5 and 6, the baffle is used 12 opposite opening 13 through the partition 2 and through the rear End 14 of the pipe section 11 is formed. The chambers 6 and 7 are through the in the chamber 6 protruding pipe section 15 and the opening 16 connected to one another The pipe sections 11 and 15 and the deflecting wall 12 form the double web 17 one unity. The double web 17 carries the control surface opposite the deflecting wall 12 18th

Behind the pipe section 15 is the one that protrudes into the chamber 7 Deflection wall 19, which is on the side of the pipe section lying opposite the deflection wall 12 15 is arranged. By means of the double web 20, the pipe section 15 forms the deflecting wall 19 and the outlet pipe 22 passing through the cover 4 form a unit. The double bridge 20 carries the control surface 21 opposite the deflecting wall 19.

To manufacture the pipe sections and baffles as stamped sheet metal parts can, they consist of the halves 23 and 24, which by the flanged seams 25 and 26 are welded together.

The combustion gases following the projectile expand after leaving of the barrel 8 first into the chamber 5. Here, a sound attenuation takes place Impulse reflection on the changes in cross-section between the pipe section 11 and the Chamber 5.

Most of the gases leave the chamber 5 through the pipe section 11. Due to the lack of secondary flow, the gases settle after leaving of the pipe section 11 to the deflecting wall 12 and change according to the wall position their direction of movement. The deflected gases flow along the baffle 12 in FIG the chamber 6 and expand here.

The other part of the gases leaves the. Chamber 5 through the opening 13 and strikes the main gas jet leaving the pipe section 11.

Due to the masses resulting when the gases meet.

The deflection caused by the deflector 12 becomes the pulse effect the gases are even stronger.

The expanded gases are after flowing through the chamber 6 of the, Steuerflaehe 18 steered so that they the pipe section 11 leaving gases counteract, creating an additional distraction effect.

The main part of the gases leaves the chamber through the pipe section 15 6th

To restrict the gas flow when flowing through the pipe section To achieve 15, the cross section at the front end of the pipe section is circular according to FIG. 2, and at the rear end rectangular according to FIG. 3.

When leaving the RohrstUekes 15, the main gas flow is through the Deflecting wall 19 is deflected from its direction of movement and flows along the baffle 19 into the chamber 7. The gases flowing directly into the chamber 7 through the opening 16 increase the deflecting effect of the baffle 19. The deflected gases expand in the chamber 7 and pass along the control surface 21 through the outlet pipe 22 into the open.

Claims (7)

Claims )) Silencer for firearms, characterized in that behind the pipe sections 11 and 15 connecting the chambers 5, 6 and 7, the deflecting walls 12 and 19 are arranged to facilitate the formation of a symmetrical secondary flow within prevent the muffler, thereby causing a deflection of the muffler flowing through gases comes. 2. Silencer according to claim 1, characterized in that the Deflection walls 12 and 19 are arranged obliquely to the central axis of the muffler. 3. Silencer according to claim 1 and 2, characterized in that a portion of the gases flowing through the silencer through the deflector walls 12 and 19 opposite openings 13 and 16 is directed so that they with the Pipe sections 11 and 15 flowing through gases meet, it being due to the The mass impulse that occurs here leads to a change in the direction of movement the gases come. 4. Silencer according to claim 1 to 3, characterized in that. the pipe section 15 at the front end a round and at the rear end a rectangular one Has cross section. 5. Silencer according to claim 1 to 4, characterized in that the baffles 12 and 19 and the pipe sections 11 and 15 through the Double webs 17 and 20 form a coherent element as a stamped sheet metal part is manufactured and consists of the two halves 23 and 24. 6. Silencer according to claims 1 to 5, characterized in that that the external thread used to attach the muffler to the barrel 8 10 protrudes over the muzzle. 7. Silencer according to Claims 1 to 6, characterized in that that the intermediate sleeve 9 carrying the external thread 10 is shrunk onto the barrel is.