WO2017157499A2 - Silencer for a firearm - Google Patents

Abstract

The invention relates to a silencer for a firearm, in particular a repeater, an automatic or semi-automatic firearm, a single- or multi-loading firearm, or similar, the silencer comprising: an outer tube delimiting a hollow body of the silencer; an inner tube, arranged in the hollow body, said inner tube radially delimiting a projectile channel in the interior and bearing at least one sound-reflection and/or sound-absorption element, such as a sound baffle plate with through-passages for the projectiles, wherein the outer tube and the inner tube delimit an annular chamber, in which optionally a sound-absorbent filler and/or a sound-absorbent cladding are provided; a front face facing the firearm and having a projectile-entry opening; and an end face wall facing away from the firearm and having a projectile-exit opening, wherein at least one exchange opening for a gas exchange between the projectile channel and the annular chamber is formed in the inner tube and in addition at least one vent opening is formed in the end face wall, particularly at the outer radius of the annular chamber. The annular chamber permits gas communication between the at least one exchange opening and the at least one vent opening.

Description

 Silencer for a firearm

The invention relates to a silencer for a firearm, in particular an automatic or semi-automatic firearm, a repeating weapon, a single or multi-loader with an outer tube which limits a hollow body of the silencer. In the hollow body of the muffler all muffler elements, such as damping and / or reflection elements and sound directing elements are arranged.

A silencer is known from DE 1 553 874 AI. The muffler is intended for a handgun and includes an outer tube to which a plurality of funnel-shaped wall inserts are mounted, which have mutually aligned bullet passages. In the firearm facing the entrance area of the hollow body, an inner tube is arranged, which has a plurality of radial passage openings in a rectilinear oblong hole shape, which allows a Mündungsgastransfer radially arranged on the outside of the inner tube Annraumabteile in which a sound-absorbing filling material, such as a pore-containing material or a fine wire mesh is arranged to increase the sound absorption efficiency of the muffler. Through the passage openings enter gas and pressure waves in the outer annular chamber compartments, which are closed gas-tight except for the replacement opening in order to extinguish by sound and reflection of absorption sound waves of the muzzle blast at least partially. Especially in rapid-fire volleys with several short-term successive shots there is the specific problem of discharging muzzle gases that expand at the mouth of the gun barrel. There burn also unburned powder residues abruptly, which effect is known as muzzle fire or fireball at the mouth. The silencer should control the relaxation and cooling of the gas and avoid a sudden deflagration. Particularly in the case of supersonic projectiles, the muzzle blast is significant as soon as a supersonically accelerated projectile encounters atmospheric pressure at the end of the weapon. The muffler should be suitable to the explosion heat to the Make effective environment to avoid thermal overload of the muffler elements.

It was found that at high firing frequencies the known mufflers are exposed to a strong thermal load and gas pressure load, which increases in favor of better sound absorption. At the high firing frequencies, which are further increased in modern automatic or semi-automatic firearms, the muzzle blast gas pressure adds up and causes the thermal load to increase, so that even filler materials protected by the inner tube or sound reflecting or sound absorbing elements can be damaged.

It is an object of the invention to overcome the disadvantages of the prior art, in particular to provide a silencer for a firearm, in particular a repeating weapon, an automatic or semi-automatic firearm, a single or multi-loader, in particular the above-mentioned known muffler with so little modification as possible, and / or a thermal and mechanical resistance is improved even at high firing frequencies and upon receipt of sufficient sound absorption and spark quenching.

This object is solved by the merlanals of claim 1. Thereafter, a silencer for a firearm, in particular a repeating weapon, an automatic or semi-automatic firearm, a single or multi-loader or the like, is provided. The muffler has an outer tube, which is usually formed by a cylindrical metal tube having no opening on its closed circumferential surface. The outer tube can be designed in several parts in order to simplify the installation of sound reflection and / or absorption elements and / or Mündungsgasumleitelementen in the interior of the muffler. The outer tube defines on the inside a hollow body of the muffler, in which an inner tube is arranged, which bounds on the inside a projectile channel of the muffler in the radial direction. The inner tube is adapted to at least one Schallreflexions- and / or absorption element, such as a sound impact wall with Geschoßdurchtritts- opening, for example, a baffle plate with the bullet passage opening to firmly hold. According to the invention, the muffler has an annular space which is bounded on the inside by an inner tube and radially on the outside by an outer tube in the radial direction. Preferably, the annular space extends over the entire axial length of the muffler. In the ring raum is optionally arranged a sound-absorbing filler material and / or a sound-absorbing lining. Preferably, the filler material is a porous material, such as a metal foam, or a braid, woven, knitted or flow, in particular of metal (wire) or another heat-resistant material. The inner tube protects the filler material and / or the liner from immediate thermal and mechanical stress peaks through the throat gas. The muffler has an end wall facing the weapon with a central bullet entrance opening through which the projectile fired by the firearm can enter the muffler, the muzzle gas protruding and following the projectile. Furthermore, the silencer according to the invention has an end wall facing away from the weapon with a central projectile exit opening, from which the projectile leaves the muffler. In order to ensure a cooling, in particular circulating, mouth gas exchange flow between the projectile channel and the annular space, at least one replacement opening, preferably a plurality of exchange openings, is introduced into the inner tube. Furthermore, at least one vent opening, preferably two, three, more than three, four and five, preferably less than ten vent openings are introduced in the front end wall, in particular at the radial height of the annular space, in order to deliver the gas to the atmosphere to the outside. Furthermore, the annulus provides direct, uninterrupted gas communication between the at least one replacement port through which the throat gas enters the annulus and the at least one vent exclusively along the annulus, it being understood that not all of the throat gas over the at least one Exchangeable opening enters the annular space, necessarily exits from the at least one vent opening. It has been found that with a plurality of discharged shots, the gas pressure within the projectile channel is significantly greater than in the annulus, so that due to the direct gas communication with the vent, much of the throat gas that has flowed into the annulus also over the at least one Vent can be discharged to the outside of the muffler.

In particular, if the entire annulus over its entire longitudinal extension he contains a sound-absorbing material, such as the porous material, a spark from the vent opening is avoided. However, it has also been shown that in the case of gap-shaped annular spaces with a radial distance of a few millimeters or a few centimeters, depending on the caliber, a spark continuation can be ruled out, even if the annulus is unoccupied by the filling material. In a preferred embodiment of the invention, the annulus is designed such that within the annulus via the at least one exchange opening flowed out muzzle gas can leave at least one vent, without having to leave the annulus. This is achieved due to the attachment of the additional vents on the front end wall, which is in communication or communication with, in particular, each replacement opening in the inner tube. This direct gas communication between the at least one replacement port and the at least one vent provides excellent venting of the muffler and thus a cooling and pressure relief mechanism so that even with high frequency gunfire, the functional elements within the muffler, even when performed in a classical manner, remain undamaged ,

In a development of the invention, the inner tube delimits the annular space in such a way that gas flowing into the hollow body passes exclusively through the projectile channel and the at least one replacement opening into the annular space. Controlled feeding ensures that the inner tube is dimensioned according to the expected load. It should be noted that the dimension of the at least one exchange opening, especially in a multiple arrangement of exchange openings leads to no excessive weakening of the inner tube.

In a preferred embodiment of the invention, the annular space extends substantially over its entire length between the end walls substantially gas-permeable and / or barrier-free. Preferably, no radially projecting, either on the inside of the outer tube or on the outside of the inner tube disposed, radial annular space constriction is provided, whereby an unhindered flow through the orifice gas is ensured along the annulus.

Alternatively, one or more gas-permeable radial walls for dividing the annular space into a plurality of annular space compartments may be arranged in the annular space, so that, for example, different filling materials and / or linings can be arranged in the respective different annular space compartments. In this way, a position-specific tuning of the absorption and reflection behavior of the muffler can be achieved. The gas permeable radial wall may be perforated or at least one passageway between adjacent annulus compartments for direct gas communication between the replacement opening and the vent opening is provided longitudinally and in the annulus.

In a preferred embodiment of the invention, the annular space rotates in particular uniformly concentric completely the Innenrohi-. A radial distance between the outer tube and the inner tube may preferably be smaller than the radius of the cylindrical inner tube, in particular less than half, one third or one fourth of the radius of the cylindrical inner tube to form in particular the above-mentioned inner space gap. Preferably, the axial distance between the inside of the outer tube and the outside of the inner tube is less than 30% of the outer diameter of the outer tube of the muffler, preferably the axial distance is less than 25% or 20%. In a preferred embodiment, the radial distance is between 5% and 30%, in particular 5% and 15%. Preferably, the axial distance is not less than 5% with respect to the outer diameter of the outer tube.

Preferably, the radial distance between the outer tube and the inner tube in the circumferential direction and / or in the projectile direction of the annular space is constantly the same. Alternatively and additionally, the outer tube and the inner tube may be a cylindrical metal tube having a wall thickness of at least 0.5 mm and at most 10 mm. Preferably, a wall thickness of 1 mm to 3 mm is to be selected.

In a preferred embodiment of the invention, the projectile channel is divided into several Kanalabteilte. Furthermore, in particular during the course of a channel expansion chamber adjoining the projectile access opening, the inner tube can form at least one replacement opening with an at least partially rectilinear opening edge. In particular, the at least one replacement opening is preferably polygonal in the region of the channel expansion chamber, in particular hexagonal, preferably honeycomb-shaped. It can be formed in the inner tube a plurality of offset in the axial direction of flight direction rows exchange openings in the region of the channel expansion chamber. Preferably, each row comprises a plurality of circumferentially offset, in particular at the same axial height arranged exchange openings, in particular axially adjacent exchange openings of axially adjacent rows are offset in the circumferential direction to each other. Preferably, all exchange openings formed in the inner tube are in the region of the channel expansion zone. Chamber and / or even later explained channel intermediate chamber the same dimensioned and designed.

Preferably, the channel expansion chamber is delimited in the axial projectile direction by a particular first sound reflection element, which can be designed as a baffle plate, in particular baffle plate, with projectile opening. Furthermore, the particular first sound-reflecting element can have a central region forming the projectile passage opening, which is designed to taper in the shape of a funnel toward the projectile passage opening, wherein in particular the direction of tapering of the projectile travel direction is set against. Alternatively and additionally, a channel intermediate chamber may be connected to a particularly first sound reflection element with a projectile passage opening delimiting the channel expansion chamber in the axial projectile direction, in which preferably at least one second exchange opening, also identical to the at least one first exchange opening also formed in the channel expansion chamber, is introduced into the inner pipe , Preferably, the channel intermediate chamber is bounded by a second sound reflection element with projectile opening in the axial direction of the projectile, wherein in particular the second sound reflection element is designed as a baffle plate, in particular baffle plate. The second sound reflection element preferably has a central region forming the projectile passage opening, which is funnel-shaped, in particular tapering towards the projectile passage opening, wherein in particular the direction of taper of the projectile flight direction is opposite and / or the second sound reflection element is designed substantially equal to the first sound reflection element.

In a further development of the invention, at least one radially inwardly extending sound reflection element, such as a baffle plate, in particular a baffle plate, in particular firmly carried on the inner tube. The at least one sound reflection element is provided with a bullet passage opening and / or at the axial location of the sound reflection element is a further exchange opening, in particular a third exchange opening, arranged in the inner pipe. The further exchange opening extends axially upstream and downstream of the sound reflection element with respect to the axial location of the sound reflection element. In this case, the sound reflection element can be fastened to the inner tube, in particular preferably via a transitional and interference fit. The sound reflection element can extend radially beyond the projectile flight axis to the further exchange opening in such a way that the outflow gas which passes through the sound reflection element can be displaced radially. dial is deflected outwardly into the annular chamber to supply it in particular the further or third exchange opening which is greater than, preferably twice as large as the at least one first exchange opening.

In a preferred embodiment of the invention, the sound absorption and / or reflection element is preferably detachably fastened to the inner tube by means of a passport or press pin. In this case, the dowel or pressing pin can be inserted into a bore in each case in the inner tube and, if appropriate, in a supporting base of the sound reflection and / or absorption element bearing against the inner tube. The sound reflection and / or absorption element per se can also be used firmly in a slot recess formed in the inner tube according to a transitional or interference fit.

In a development of the invention, an end chamber bounded by the end wall is bounded radially by the inner tube, in which at least one further, in particular third, sound reflection element, such as a baffle plate, preferably a baffle plate, is provided with projectile opening. Preferably, three, four, five or more sound reflection elements, in particular of the same type, are fixed in the channel end chamber to the inner pipe. The sound reflection elements are arranged in particular at the same axial distance from each other, wherein in particular the sound reflection element in addition to the projectile passage opening has a bypass opening substantially at the radial height of the inner tube, in particular with a second output port in the inner tube is combined such that orifice gas at least partially on the sound reflection element is deflected radially outwardly to the bypass opening and at least partially introduced into the second outlet opening in the annular space.

In a preferred embodiment of the invention, more than two or three venting outlets, preferably four or more venting outlets, are incorporated in the front end wall, which preferably have a particularly arcuate oblong hole shape. In addition, the at least one slot-shaped vent opening in the passage opening have a continuous Langloch extension, wherein preferably a common arc line of the vent opening is located on a circular path concentric with the central axis of the muffler. The radius of the circular path is smaller than the radius of the outer circumference of the outer tube and greater than the radius of the projectile exit opening. A constant hole width of the slot-shaped vent opening is preferably smaller than the largest one Cross-sectional dimension of the projectile exit opening. Preferably, a hole width of the slot-shaped vent opening is smaller than a fifth, a sixth or a seventh of the outer diameter of the outer tube. Preferably, the particular arcuate oblong vent opening forms more than 10%, 20% or 30% of the entire Stirnendwand- area. Alternatively or additionally, less than 90% or 80%, preferably between 40% and 80%, of the rigid material, such as metal, may be realized on the end wall.

In a preferred embodiment of the invention, the inner tube directly adjoins an inner side of the front end wall, embracing the projectile exit opening, so that all of the entry gas entering the hollow body of the muffler enters the projectile passage via the projectile entry opening. Preferably, the inner tube is gas-tightly secured to an inner side of the front end wall, so that muzzle gas can enter the annular space exclusively via the at least one replacement opening. Preferably, the inner tube extends along the entire longitudinal extension of the hollow body towards the projectile exit opening. The inner tube may be gas-tightly secured to an inner side of the front end wall, so that, in particular, muzzle gas can flow back and forth between the annular space and the projectile channel exclusively via the at least one replacement opening and, in particular, can circulate in a cooling manner. Preferably, a ratio between the entire circumferential surface of the inner tube to the passage cross-sectional area of the at least one replacement opening in the end wall is greater than 1, preferably greater than 2 or 3.

In a preferred embodiment of the invention, the sound-absorbing filling material is a porous material, such as a foam-like material, for example a metal foam, or a wire mesh or knitted fabric, in particular of metal or another thermally resistant material.

Preferred embodiments are specified in the subclaims.

Further characteristics, advantages and features of the invention will become apparent from the following description of a preferred embodiment of the invention with reference to the accompanying drawings, in which:

Figure 1 is a perspective view of the fiction, contemporary muffler; Figure 2 is a side view of the muffler according to Figure 1;

Figure 3 is a cross-sectional view taken along section line III-III of Figure 2;

Figure 4 is a perspective cross-sectional view of the invention

 Silencer according to Figures 1 to 3;

FIG. 5 shows a further perspective cross-sectional view, which is opposite to that in FIG

 Figure 4 shown rotated by 90 °;

FIG. 6 shows a muffler according to the invention without the muzzle brake already shown in FIGS. 1 to 5; and

Figure 7 is an exploded view of the muffler according to the invention, which is to be mounted on a muzzle brake

In FIGS. 1 to 7, the silencer according to the invention is generally provided with the reference number 1. The silencer 1 according to the invention has as main components an outer tube 3 with a cylindrical cross-sectional shape, an inner tube 5 of cylindrical cross section interspersed with recesses, a front end wall 7 which defines a projectile exit opening 11 and an end wall 13 to be coupled to the firearm (not shown) with a projectile opening 15 , wherein the firearm-side end wall 13 may well be optionally replaced by muffler-foreign components, such as a muzzle brake 17, which can be coupled via a releasable fastening means 19 with the muffler 1. Both end wall ends 7, 13 are screwed into the inner tube 5 each end (screw 21).

The outer tube 3 is clamped axially between the front ends 7, 13 depending on the screwing situation. The axial direction is determined by the projectile flight direction G. In order to apply the tensioning and screwing forces, the projectile exit opening 11 can be made polygonal or polygonal to engage an imbus. The inner tube 5 is concentric with the outer tube 3 on the inside and defines on the one side the projectile channel 21, through which the projectile (not shown) flies from the projectile entry opening 15 to the projectile exit opening 11. The outer tube 3 bounded on the inside the entire sound body cavity.

Between the inside of the outer tube 3 and the outer side of the inner tube 5, an annular space 23 is formed, which extends continuously in the circumferential direction and in the projectile direction G. In this case, the axial distance between the inside of the outer tube 3 and the outer side of the inner tube 5 in the circumferential direction and in the axial projectile direction G remains constant. The axial distance a can be erfmdungs according to the invention less than 40% of the outer diameter D of the outer tube 3. Preferably, the axial distance a is less than 25%, 20% or 15% of the outer diameter D. In the case described, the axial distance a is about 10% with respect to the outer diameter D. However, the axial distance a should not be less than 5% relative to the outer diameter D. be.

The annular space 23 extends from the end wall 15 continuously without radial barrier or Wandeinzüge on the opposite side to the front end wall 7. Essentially at the radial height of the annular space 23 a plurality of vent openings 25 are introduced in the front end wall 7. The vent openings 25 are, as can be seen in Figure 1, designed in a curved long shape, wherein a curved line along a circular line with a constant radial distance to the axis G extends. The five vent openings 25 extend concentrically around the projectile outlet opening 11 and are completely introduced into the material of the front end wall 7. It is also possible that the vent openings 25 are at least partially, in particular radially outwardly bounded by the inner side or an inner shoulder of the outer tube 3. With the projectile outlet opening 11, the vent openings 25 of the total inner cross-section of the outer tube 3 more than 10% Quersclmittsfläche, the remainder of the material, in particular the rigid material, such as metal, the front end wall 7 is realized.

The front end wall 7 has an axially inwardly projecting extension which connects to the imbusschlüssel- shaped projectile exit opening 11 substantially continuously.

On the input side, the muffler 1 comprises a channel expansion chamber 31, the flight up of the front end 13 and downstream of a sound reflection element limited is that is realized in the example shown in the figures as a baffle plate 33. The channel-expansion-chamber-side first baffle plate 33 is interchangeably fixed to the inner tube 5 via a fixing pin 35 and extends radially inward from the inside of the inner tube 3 in a first arm portion, followed by a central portion 37 filled as a funnel. The funnel-shaped central section 37 extends in a tapered manner in the direction of the projectile flight direction G towards the end wall 13 and coaxially defines a first passage opening 41. As can be seen in FIGS. 3 to 6, the inner tube 5 in the channel expansion chamber 31 is provided with a multiplicity of honeycomb-shaped replacement openings 43 which permits gas transfer between the projectile channel 45 delimited by the inner tube 5, in particular the channel expansion chamber 31 and the annular space 23. Due to the continuous, separation wall-free extent of the annular space 23 towards the front end wall 7, the muzzle gas reaching the annular space 23 can exit at the vent openings 25, without necessarily having to return to the projectile channel 45 via a further exchange opening arranged downstream in the axial direction G.

According to the invention, a sound-absorbing filling material or a sound-absorbing lining (both not shown in more detail) can be introduced into the annular space 23, wherein the filling material or the lining can extend over all the areas of the annular space 23 and fill it completely.

Alternatively, the annulus 23 may be divided into annulus compartments by, for example, perforated gas permeable partitions to accommodate different sound absorbing fillers and / or sound absorbing liners into the annulus 23. In this way, the sound-absorbing effect along the projectile direction G position can be adjusted individually. Due to the tubular structure, the inner tube 5 serves as a protective screen for the sound-absorbing filling material and / or the sound-absorbing lining in the annular space 23.

It is clear that a gas exchange between the annular space 23 and the projectile channel 45 also occurred beyond the Kanalexpansionskammer 31, so that not all reach into the annular space 23 muzzle gas must exit at the vent holes 25 on the muffler 1. Also in the projectile channel 45 returning muzzle gas can escape via the floor outlet opening 11 of the muffler 1. As can be seen in FIGS. 3 to 7, the replacement openings 43 are arranged in rows which are offset axially relative to one another and which extend adjacent to one another at the same axial center distance. The rows are constructed substantially the same, so that all distances between the honeycomb-shaped exchange openings 43 are constant at a minimum distance, which ensures that no excessive weakening of the inner tube 5 takes place by material removal.

Especially the special honeycomb hexagonal shape of the exchange openings 43 ensures a high number of relatively large opening cross-sections without substantially destabilizing the inner tube 5.

As can be seen in particular in FIG. 6, two adjacent rows of replacement openings 43 are offset in the circumferential direction by one exchange opening width, so that a minimum distance is not exceeded while ensuring a high exchange opening density.

Downstream of the channel expansion chamber, a channel intermediate chamber 51 is provided which is bounded upwardly by the first baffle wall 33. In the circumferential direction of the channel gap 51 is limited by the inner tube 5. Downstream, the channel intermediate chamber 51 by a second sound impact wall 53 is limited, the wall in the form and attachment identical to the first sound baffle 33 is executed. In the inner tube portion of the channel intermediate chamber 51, two rows of honeycomb cell-shaped exchange openings 43 are provided. The channel intermediate chamber 51 is approximately at half the axial length of the overall extension of the muffler 1 and has less than half the volume of the Kanalexpansionskammer 21st

In the downstream connection to the channel intermediate chamber 51, a Kanalendkammer 55 is formed, the axial extent of which approximately corresponds to the channel expansion chamber 21.

The Kanalendkammer 55 is wall upwardly of the second sound baffle wall 53 and limited in the circumferential direction of the inner tube 5, wherein the axial boundary is realized downstream through the Stirnendwand 7. Mouth gas within the channel end chamber 55 can reach the outside of the sound body via the projectile outlet opening 11. In the Kanalendkammer 55 six second sound reflection elements in the form of a second type of sound baffle wall are arranged, the third sound impact wall should be called 57 hereinafter.

For attaching the third sound baffle wall 57, a mounting slot 63 is in the inner tube 5 in a straight line at an axial location in the inner tube 5 is introduced, in which the third sound baffle 57 can be used and fixed. For this purpose, a press or transition fit could be considered. For mounting the sound reflection elements in the interior of the muffler 1, the outer tube 3 is formed in several parts.

Each baffle element 33, 53, 57 has its own projectile opening 41 coaxial with the projectile entry opening 15 and the projectile exit opening 11.

From the slot attachment, the third sound impact wall 57 extends almost completely to the opposite end, where it forms an axial bypass opening 61, which opens into the projectile passage opening 41 radially. In combination with the axial bypass opening 61 of this another opposite type of replacement opening 67 is formed in the inner tube 5, the wall of the bypass opening 61 of the sound baffle 57 is radially opposite, wherein the further exchange opening is referred to as the second exchange opening 67. The second exchange opening 67 has a circumferentially extending long shape whose ends are rounded.

The reaching into the Kanalendkammer 55 muzzle gas entering through the projectile passage opening 41 of the channel intermediate chamber 51 in the Kanalendkammer 55 is at least partially deflected radially outward by the third sound baffle 57 and enters the second exchange opening 67 in the annular space 23. Also this Mouth gas can reach the outside of the muffler 1 via the annular space 23 and the respective vents 25.

With the inventive silencer 1 and the arrangement of a continuous annular space 23 from the one end face 13 to the other end face 7 as a continuous volume around the blinded in the inner tube 5 projectile channel 21 is achieved on the one hand, that in particular when using an absorbent filling material, such as metal foam, wire mesh, etc. on the one hand, a large absorption damping is achieved, on the other hand, the Sparks are already extinguished and reduced in the course of the projectile flight direction G initially, so that at the vent openings 25 is a venting option, especially when several shots are fired from the firearm at short intervals in a row. A so-called gas flow within the muffler 1, which also causes the muffler 1 is overheated and sparking is supported, is improved due to the further venting through the vents 25.

Above all, the vents prevent gas flow in the system of a firearm with a silencer. Thus, the Repetiervorgang can work fine.

The features disclosed in the foregoing description, the figures and the claims may be of importance both individually and in any combination for the realization of the invention in the various embodiments.

Reference list

1 silencer

 3 outer tube

 5 inner tube

 7 frontal wall

 11 storey outlet opening

 13 front wall

 15 storey entry opening

 1 muzzle brake

 19 releasable fastening device

21 storey channel

 23 annulus

 25 vents

 31 channel expansion chamber

 33 first baffle wall

 35 fixing pin

 37 central section

 41 storey opening

 43 honeycomb shaped exchange ports:

45 storey channel

 51 channel intermediate chamber

 53 second baffle wall

 55 channel end chamber

 57 third sound bang wall

 61 Bypass opening

 63 mounting slot

67 second exchange opening a radial distance

D outer diameter

G projectile flight direction

Claims

claims

1. silencer for a firearm, in particular a repeating weapon, an automatic or semi-automatic firearm, a single or multi-loader, or the like, with an outer tube (3) which delimits a hollow body of the silencer (1), an inner tube arranged in the hollow body ( 5) which defines a projectile channel (21) in the radial direction on the inside and carries at least one sound reflection and / or absorption element, such as a baffle wall with projectile passage opening (41), wherein the outer tube (3) and the inner tube (5) delimiting an annular space (23) in which optionally sound-absorbing filling material and / or a sound-absorbing lining are arranged, an end wall (13) facing the firearm with a projectile entry opening (15) and a front end wall (7) facing away from the firearm with a projectile exit opening (11 ), wherein in the inner tube (5) at least one exchange opening (43, 67) for a gas exchange ch between the projectile channel (21) and the annular space (23) is formed and in the front end wall (7) in particular at the radial height of the annular space additionally at least one vent opening (25) is formed and the annular space (23) is a gas communication between the at least a replacement opening and the at least one vent opening (25) provides.

2. Silencer according to claim 1, wherein the annular space (23) is designed such that within the annular space (23) via the at least one exchange opening (43, 67) has flowed through the annulus (23) at the at least one vent opening (25) can leave without leaving the annular space (23), and / or the inner tube (5) the annular space (23) limited such that in the hollow body inflowing gas exclusively through the projectile channel (21) and the at least one exchange opening (43, 67) enters the annular space (23).

3. Silencer according to claim 1 or 2, wherein the annular space (23) extends substantially barrier-free substantially over the entire length of the muffler (1) between the end walls (7, 13) and / or in the annular space (23) or a plurality of radial walls for dividing the annular space (23) is arranged in a plurality of annular space compartments, in which in particular different filling materials and / or liners are housed, wherein the perforated at least one radial wall or at least one transitional passage between adjacent annular compartments has.

4. Silencer according to one of the preceding claims, wherein the annular space (23) concentrically completely around the inner tube (5) and / or a radial distance between the outer tube (3) and the inner tube (5) is smaller than the radius of the cylindrical inner tube (5 ), in particular less than half, is one third or one quarter of the radius of the cylindrical inner tube (5), and in which the radial distance between the outer tube (3) and the inner tube (5) in the circumferential direction and / or in the projectile direction of the annular space (23) is constant and / or the outer tube (3) and the inner tube (5) is a cylindrical metal tube having a wall thickness of at least 0.5 mm and at most 10 mm, preferably between 1 mm and 3 mm.

5. Silencer according to one of the preceding claims, wherein the projectile channel (21) is divided into a plurality of channel compartments and / or in which in particular the inner tube, in particular in the course of an adjoining the projectile entrance Kanalexpansionskammer (31) at least one exchange opening (43) with an at least Preferably, the at least one replacement opening (43) in the region of the Kanalexpansionskammer (31) polygonal, in particular hexagonal, preferably honeycomb-shaped, wherein in particular a plurality of axially offset rows exchange openings (43) in the region of the Kanalexpansionskammer (31) in the inner tube (5) are formed, wherein preferably each row comprises a plurality of circumferentially offset, in particular at the same axial height arranged exchange openings (43), in particular axially adjacent exchange openings (43) of axially adjacent rows in the circumferential direction are offset from each other, wherein preferably in the inner tube (5) formed exchange openings (43) in the region of the Kanalexpansionskammer (31) are dimensioned and designed the same.

6. A silencer according to claim 5, wherein the channel expansion chamber (31) in the axial projectile direction by a particular first sound reflection element with Ge Boss passage opening (G) is limited, which is designed as a sound baffle plate (33), in particular baffle plate, and / or a the bullet passage opening (41) forming the central region (37) which is funnel-shaped towards the projectile passage opening (41) is tapered, in particular the direction of tapering of the projectile flight direction (G) is opposite, and / or in which a channel intermediate chamber (51) connects to a particular first sound reflection element with projectile passage opening (41) bounding the channel expansion chamber (31) in the axial projectile direction, in which at least one second, in particular identical to the at least one first exchange opening (43) in the Kanalexpansionskammer (31) formed exchange opening (43) is introduced in the inner tube (5) and / or by a second sound reflection element with bullet passage opening (41) in the axial projectile direction (G) is limited in particular the second sound reflection element as a sound baffle plate (53), in particular baffle plate, is configured and / or a the bullet passage opening (41) forming central region (37) which is funnel-shaped, in particular towards the bullet passage opening (41) is tapered, in particular the direction of rejuvenation of the projectile direction ( G) is opposite and / or the second sound reflection element is designed substantially equal to the first sound reflection element.

7. Silencer according to one of the preceding claims, wherein on the Irrnerrrohr (5) at least one radially inwardly extending sound reflection element, such as a baffle plate, in particular a baffle plate is supported, wherein the at least one sound reflection element is provided with a bullet passage opening (41) and / or at the axial height of the sound reflection element, a further exchange opening, in particular a third exchange opening (67), in the inner tube (5) is arranged, which extends axially upwardly and downwardly over the sound reflection element with respect to the axial position of the sound reflection element in particular the sound reflection element is fastened to the inner tube (5), in particular preferably via a transitional or interference fit, and / or extends beyond the projectile flight axis (G) out to the second exchange opening (67) in such a way that muzzle gas which contains the sound reflection elements nt, is deflected radially outward into the annular space (23), wherein in particular the further or third exchange opening (67) is larger, preferably twice as large as the at least first exchange opening (43).

8. Silencer according to one of the preceding claims, in which the sound absorption and / or reflection element is preferably detachably, in particular exchangeably, fastened to the inner tube (5) by means of a passport or press pin (35), wherein preferably a passport or pressing element or pin (35) is inserted into a corresponding recess or bore in each case in the inner tube (5) and possibly also in a supporting base of the sound reflection and / or absorption element which bears against the inner tube (5) and / or wherein the sound reflection and sound reflection or - absorption element is firmly inserted in a slot recess of the inner tube (5) in particular according to a transitional or interference fit.

9. Silencer according to one of the preceding claims, wherein one of the front end wall (7) limited Kanalendkammer (55) radially through the Imienrohr (5) is limited, in which at least one further particular third sound reflection element, such as a baffle plate (57), preferably a baffle plate, with bullet passage opening (41) is provided, wherein preferably three, four, five or more Schallreflek- tion elements of the same type in the Kanalendkammer (55) are attached to the inner tube (5), in particular in a same axial distance in particular, the sound reflection element next to the bullet passage opening (41) has a bypass Öffhung (61) substantially at the radial height of the inner tube (5), which in particular with an output port (67) in the inner tube is combined such that muzzle gas at least partially at the sound reflection element radially outward to the bypass opening (61) deflected and at least partially via the outlet opening (67) are introduced into the annulus.

10. Silencer according to one of the preceding claims, in which more than two or three vent opening (25), preferably four or more vent opening (25) are introduced at the front end wall (7), which preferably have a particular arcuate slot shape and / or the at least one slot-shaped vent opening (25) has a continuous elongated hole extension in its passage direction, wherein preferably a common arc line of the vent openings (25) lies concentrically on a circular path to the central axis of the muffler (1), wherein in particular a constant hole width of the slot-shaped vent opening (25 ) smaller than the largest cross-sectional dimension of the is (e) and / or a hole width of the slot-shaped vent opening (25) is smaller than a fifth, one sixth or one seventh of the outer diameter of the outer tube, in particular the particular arcuate slot vent (25) more than 10%, 20% or 30% of the front end wall (7) form and / or less than 90% or 80%, preferably between 40% and 80%, by the rigid material, such as metal, the end wall is realized.

11. Silencer according to one of the preceding claims, in which the inner tube directly on an inner side of the front end wall (7), the bullet exit opening (11) embracing, connects, so that all, in the hollow body of the muffler (1) entering the muzzle gas on the Geschosseintrittsöffnung (15 ) enters the projectile channel (21) and / or in particular is gas-tightly fastened to an inner side of the front end wall (7) so that muzzle gas enters the annular space (23) exclusively via the at least one exchange opening (43, 67), and / or in which the inner tube (5) extends along the entire axial longitudinal extension of the hollow body to the projectile outlet opening (11) and / or the inner tube (5) is gas-tightly fastened to an inner side of the front end wall (7), so that, in particular, vent gas between the annular space (23) and the projectile channel can flow back and forth exclusively via the at least one exchange opening (43, 67), and / or at the ratio between the closed wall surface of the inner tube (5) and passage cross-sectional area of the at least one exchange opening (43) in the front end wall is greater than 1, preferably greater than 2 or 3.

12. Silencer according to one of the preceding claims, wherein the sound-absorbing filler material is a porous material, such as a foam-like material, such as metal foam, or a mesh, flow, knitted fabric, fabric, in particular made of metal or other thermally resistant material.