DE2130784A1 - Firearm - Google Patents

Description

300 Harvard Avenue

Westville, N.J./V.St.Λ. Hamburg, June 20, 1971

Firearm

The invention relates to a firearm for firing projectiles by means of compressed gas and particularly to a firearm that is suitable for different types of projectiles and different gas pressures is suitable so that the weapon can be changed for different operating cases. Possibly it should be able to be used either as a lethal or a non-lethal weapon.

lie in the steadily increasing crime rate and the increased need for anti-crime facilities, which also allow a non-lethal application, a firearm is required, who can be used against individual criminals and troublemakers without a GcJ: ahr for their lives, what needs. the whales used so far is often not the case. At the same time, however, there are also situations in which the breach of a deadly weapon is desired is in order to leispioJ wise a safe protection of the liitcrei: rjcn the public to ornable.

209853/0370 bad ORtGiNAL

It is therefore an object of the invention to provide a firearm that is both lethal and as non-lethal weapon can be used.

This task is carried out with a firearm for firing of projectiles solved by means of compressed gas according to the invention by a / \ ufnahiaeeinrichtung for receiving a projectile, through a holding chamber for a charge of compressed gas, through a usually closed one Release valve that is used to release the compressed gas charge from the Iialtekammer in the receiving device can be opened by means of a trigger device, and by a pressurized gas source connectable recording devices for recording and automatic Initiation of a predetermined charge of pressurized gas into the IJaltekaironer after the discharge of a charge of pressurized gas from this.

The invention is illustrated below with reference to an exemplary embodiment showing figures explained in more detail.

Fig. 1 shows the view of an operated by means of compressed gas Pistol.

FIG. 2 shows, partially in section, a view of the pistol according to FIG. 1.

BAD ORIGINAL 209853/0370

Fig. 3 shows a section along the line 3-3 from Fig. 2.

Fig. 4 shows a section through a projectile; Fig. 5 shows a section through another projectile.

Fig. 6 shows a section through a further projectile.

7 shows a section through an even further modified projectile.

Fig. 6 shows the cam device zuir in a perspective partial representation. Insertion of a pressurized gas cartridge.

FIG. 9 shows a section along the line 9-9 from FIG. 8.

Fig.IO shows the side view of the cartridge holder. Fig. 11 shows a plan view of the cartridge holder. Fig. 12 shows a preliminary cartridge holder.

Fig. 13 shows in persj.oh Li vis el Kr:; <'. Γγ. i γλ ι uug ciie Lnfjcrac.KM .. ' uc-r Pa L rom. :: /? «Nl i.cuiu / j.

209853/0370

BATH ORIGINAL

In the figures, / are in each case for the same or corresponding Parts used the same reference numerals.

The gun 20 shown in Fig. 1 has a handle portion 22 with a chamber for receiving a Pressurized gas cartridge (not shown) which can be brought into position by the cam device, as will be described in detail with reference to FIGS. The pistol has a housing part 26 and a magazine 28, which is connected to the projectile receiving area 30 of the pistol by means of holes 34 matching projections 32 can be connected v / ground. The barrel 30 is located in front of the projectile receiving area or the Projektilaufnahraekammor and is used for alignment of the projectile as it is ejected from the pistol.

As can be seen in FIG. 2, the housing 26 with the handle part 22 which forms the cartridge chamber 24 tied together. A hollow pin 25 extends into the chamber 24, the cavity of which is in communication with the chamber and a channel 29. The channel in turn merges into a cavity or a gas receptacle 31, which limited by the housing 26 and an adjustable element 33 including seal 35 and seal 37 will. A hollow tubular member 38 extends into the receptacle 31 and is in the bore 40 of the piston 42 attached. Between the rear of the piston 42

209853/0370 _{BATHROOM 0R1GINAL}

and a shoulder 46 of the housing 26 is a spring 44 so that the piston 42 normally is held in a forward position.

A first or gas holding chamber 48 is defined by the piston 42 and the devices 50 and 52, while a The opening provided in the piston 42 is in connection with its bore 40 and the chamber 48. The piston 42 is characterized by an important feature, which is that its rear part has a larger Cross-sectional area than the front part, so that a located in the cold chamber 48, under pressure Stagnant fluid acts on different surfaces to cause the piston to move backwards during operation enable.

Thus, the gun can be said to have a first valve device with the first or holding chamber 48, which is delimited by the seals 50 and 52 and the piston 42, a hollow tube part 38, a spring 44 and contains a receiving chamber 31 which is associated with the adjustable element 33 and the seal 35 with the seal 37 is limited.

One of the first valve equipment; a second Ventileinrichtuncj with a sliding part 56 and an associated valve seat 58, the

209853/0370

BATH ORIGINAL

Sliding part normally with the front part in a gas-tight position with respect to the valve seat is, while the rear part of the sliding part is in a substantially gas-tight position with respect to the housing 26 is located. These gas-tight seats are made up of first and second sealing rings 60 and 62 reached, each comprising the rear and the front part of the sliding part 56.

The sliding part 56, together with the housing 26 and the valve seat 58, limits a second or Trigger chamber 64. The sliding part has a Channel 56, which opens into this second chamber and by means of the first valve device into the first chamber opens to selectively release the pressurized gas from the first chamber into the second chamber to enable. The sliding part 56 is also characterized in that its rear part is a has a larger cross-sectional area than its front part, which means that it has different surfaces v / acting fluid pressure a backward movement of the sliding part with respect to the housing 26 and the valve seat 58 allows.

In front of the sliding part 56 there is a tubular cavity 68, which is partially covered by the valve seat 58 is limited. At the front end of this tubular

209853/037 0

BATH ORIGINAL,

The cavity is the projectile seal 70, the is fixed near the valve seat 58 by means of a retaining element. In front of the projectile seal 70 is the projectile receiving area and the device for receiving the projectile before ejection from the gun.

As shown in FIGS. 1 and 2, each projectile consists of an actual projectile or projectile and a projectile housing and can via the magazine 28 in the projectile receiving area to get promoted. The magazine 28 can be exchanged easily and can in different V / eise, for example by means of projections 32 which engage in holes or depressions 34 in the housing 26, detachable connected to the projectile receiving area. The one from the actual projectile and, projectile housing existing unit is referred to below as a projectile combination. These projectile combinations-n are out of the magazine 28 up into the Projekti1 receiving chamber conveyed so that a flange 74 extending into this chamber engages the rear and upper part of the projectile housing 112 is. At the same time one touches one another in the front Part of the projectile receiving chamber extending projection 76 the top and front part of the projectile, so that the projectile combination was kept in the Kanuner

209853/0370

BATH ORIGINAL

will. In addition, guides or rails 78 (FIG. 3) are integral with the front wall of the projectile receiving chamber and serve to guide the project !! combination from the magazine up and in contact with the Flange 74 and projection 76. The guides are spaced a distance substantially equal to that Diameter of the projectile of the Projektilkornbination and v / iron arcuate surfaces 80, which in substantially correspond to the outer surface of the projectile housing. Furthermore, the projection 76 has an upper one arcuate surface 82, the radius of which is substantially equal to the radius of the inner surface of the projectile housing and a lower arcuate surface 84 the radius of which is substantially equal to the radius of the projectile is the projectile combination. The projectile combination is thus in the projectile receiving chamber in the. Abschußstellursg held, with the remaining projectile combinations located in the magazine 28 push this projectile combination into its fixed position in the chamber. Is the one in the chamber The last projectile combination located in the magazine 28 acts as a spring (not shown) on the underside of this projectile combination in order to put it in its specific position in the projectile receiving chamber to keep.

The pistol also has one with the first and

209853/0370 bad

second valve device cooperating trigger device, which contains a trigger 88, which is rotatably attached to the handle 22 and normally with the surface 90 a distance of the sliding part 56 has. The trigger works with the trigger 88 so that they causes its rotation in a generally clockwise direction (Fig. 2), and it contains the rotatable means of the pin 93 attached to the handle trigger 92, which is normally engaged with the projection by means of the of the extension piece 96 standing trigger spring 94 is held in the front position. That Extension piece 96 extends rearwardly from trigger 92 and is rotatable by means of a pin held. It normally contacts surface 98 of trigger 88 and can be released by moving trigger 92 slide along surface 98 until extension piece 96 engages groove 100 of the trigger koi: unt, so that it is rotated clockwise.

The force of the trigger spring 94 normally holds the trigger 92 in the forward position while simultaneously acts on the projection 99, so that this part of the extension piece 96 is substantially is pressed down, whereby the rear part of the extension piece 96 in contact with the Surface 98 of the trigger 88 is held. Will the

209853/0370

BATH ORIGINAL

Trigger moved to the left (as shown in Fig. 2), so the pin attached to the trigger also moves essentially to the left and up, so that the trigger spring maintains its force against the projection 99 and the extension piece 96 is held in contact with the surface 98. If the trigger is moved further, the extension piece 9fr thus enters the groove 100 of the / shutter button and it is rotated clockwise. This movement of the trigger and the trigger continues until the trigger is turned sufficiently and its surface 90 reaches the position in the. the force from the slide member 56 (as described later) overcomes the resistance of the trigger and moves over the top, turning the trigger even further clockwise. At the same time it is caused that the extension piece 96 leaves the groove 100 and is in contact with the extension part 101 of the trigger comes. Since the sliding part 56 moves very quickly to the rear, the movement of the trigger 88 becomes well beyond the normal movement of the extension piece 96 accelerates, and extension piece 101 pushes extension piece 96 down and off the trigger path. The moment of inertia of the extension piece 96 causes the trigger to be released during this very quickly returns to the position shown in FIG.

209853/0370

• The movement of the sliding part 56 to the rear and back to its normal position and the renewed filling of the chamber 64 takes place extremely quickly, so that the space between surface 90 of trigger 88 and slide member 56 is required to return to allow the trigger to return to its normal position by means of the trigger spring 110 after the projectile was fired and before the sliding part 56 is brought under sufficient pressure to bring it back after to push back. Thus, the dwell time of the sliding part 56 is in the front and normal position, as shown in Fig. 2, so short that without the presence of a gap between the surface 90 of the Trigger could never return to its normal position, so that the pistol only shot a single shot could fire.

To use the pistol that works with compressed gas, a compressed gas cartridge (not shown) is inserted into the Inserted cartridge receiving chamber and by moving the drying device 21 upwards against a hollow pin 25 pressed, which will be described with reference to FIGS. 1 and 8 to 13 in detail. When perforating the cartridge with the pin 25 passes through this and through a filter 102 in the channel 29 gas upwards, so that the gas is kept in the compressed state and a significant temperature

209853/0370

BATH ORIGINAL

waste of the gas is prevented. The gas flows through the channel 29 and into the cavity 31, from where it through the hollow part of the tubular part 38 into the bore 40 of the piston 42, through the opening 54 and enters the first chamber 48. The gun is shown in FIG. 2 in the normal position before Ignition by supply of pressurized gas, and the positions of the various elements of the pistol are shown as as they arise in the various chambers at atmospheric pressure.

After the compressed gas has entered the first chamber 48, it acts on the larger and smaller cross-sectional areas of the piston 42, because of the larger dimension of the rear cross-sectional area of the piston in relation to its front cross-sectional area is the force of the compressed gas causes a "movement of the piston 42 to the left against the force of the spring. Is the available standing pressure of the gas is sufficient, with the force of the gas against the larger cross-sectional area of the piston 42 is greater than the combined forces of the spring 44 and the force of the gas on the front, smaller cross-sectional area of the piston 42, so moved the piston 42 moves backwards and its front part 108 moves backwards with respect to the seal 52. When the spring 44 is compressed, its forward force increases. So must

209 8 5 3/0370

the gas pressure in the first chamber 48 is sufficiently high be to cause the piston 42 to move rearward by a distance that will cause movement of the front surface 108 of the piston 42 is effected to the left by the seal 52 before the pressurized gas from the first Chamber 48 between the piston 42 and the seal 52 through into the channel 66 and finally into the second Chamber 64 can reach. If the pressure of the gas is not sufficient, the force on the larger cross-sectional area of the piston 42 is not great enough to counter the pressure as a result of the gas pressure on the smaller, front cross-sectional area of the piston 42 and the pressure of the Overcome spring 44. In this case, the front surface 108 of the piston 42 does not move rearward away from the seal 52 and the pressurized gas cannot escape into the second chamber 64. The gun can so don't get shot down. Depending on the properties of the spring 44 and the size and the Cross-sectional areas of the piston 42 can therefore set a lower pressure limit for the operation of the pistol under which the shooting of a projectile or even the release of pressurized gas for the projectile receiving chamber becomes impossible. The pressure must therefore have at least a predetermined value in order to achieve a To allow movement of the front surface 10 of piston 42 rearwardly from seal 52 v / eg. Enough If the pressure is not applied for this, the pistol cannot

209853/0370

BATH ORIGINAL

be shot, and an actuation of the pulling device does not result in the firing of a projectile.

There is sufficient gas pressure to cover the area 108 to the rear of the seal 52, this acts as overpressure protection for the first shot, when the gun is at atmospheric pressure prior to pressurizing the chambers. If that Gas flows into the smaller chamber 48, the presence of the seal 52 causes a time delay in the movement of the piston 42 to the left of. of the seal, so that this delay is an ircpulse-like Prevents the gas from flowing into the larger chamber 64, so that the impact effect is reduced.

It is assumed that the gas pressure "is sufficient to the Surface 108 to move to the rear part of the seal 52, so that then the force on the smaller cross-sectional area of the piston 52 is no longer present and the entire force of the compressed gas in the first chamber 48 on the larger cross-sectional area of the Piston 42 acts, so that it is pushed backwards against the force of spring 44. The pipe part 48 is also moved backwards when the pressurized gas flows from the first chamber 48 into the second chamber 64 flows. When the pipe part 38 follows its movement continues at the back, gas continues to flow from the

209853/03 7 0

Cartridge (not shown) through the pin 25, the cavity 31, the tubular part 38, the bore 40, the first chamber 48 and channel 66 into second chamber 64, so that the gas pressure in the second chamber is continuously increased. At the same time, the piston 42 and the pipe part 38 attached to it is through the force of the pressurized gas in the first chamber 48 moves backwards, and this movement continues for so long continues until the pipe part 38 comes into sealing engagement with the seal 35, so that then no more gas can flow from the cavity 31 through the pipe part 38. This therefore becomes the upper pressure limit for operation the gun by setting the normal distance between the adjustment element 33, the associated Seal 35 and the pipe part 38 controlled. If the normal distance between seal 35 and pipe part 38 is increased, a higher gas pressure is required in the chamber 48 to overcome the force of the spring 44, and to permit movement of the tubular member 38 to the left into sealing engagement with the seal 35, while, on the other hand, when the distance between the seal 35 and the pipe part 38 is reduced a lower gas pressure in the chamber 48 is required to overcome the opposing force of the spring 44 so that the pipe part 38 comes into sealing engagement with the seal 35. Thus, through the arrangement the seal 35 at a distance from the pipe part 38 a single

209853/0370

"achieved adjustable control for the upper Druekgreiize for de.n operation of Fistole This can be achieved simply by ,, that an element. (not shown) extends beyond the housing 26 and allows the adjustment member 33 to move.

Located in the second Karamer 64 compressed. Gas, its bridge acts on the different surfaces of the sliding part 16, the rear cross-sectional area of which is larger than the front * so that a resultant force to the left or * to the rear arises t whereby the sliding part 56 to the left and. in! touch with the surface 9Q of the trigger & B: kornmt * At this point the pistol is fully cocked and ready to fire when the trigger is actuated ,, ■

Assuming that a * Projekti! Combination in the correct position in eggs project! La.ufnahiaekarnmer 30 is, _t as described above so the trigger can be pushed 92 back ,, xxn the force of the trigger spring 94 to overcome the above to effect described engagement of the extension piece 96 in the rage 100 of the Auslösora 8 8 ,. This results in a clockwise rotation of the laser from (Fig. 2). to the. Force of the 110 tripping

209853/0370.

BATH ORIGINAL

squirming the trigger normally in the position like Fig. 2 holds. When the trigger 88 is turned, so does the force of the compressed gas in the second chamber 64 on the sliding part 56 whose movement backwards and over the trigger, so that compressed gas enters chamber 68 at an extremely high rate. The projectile casing 112 is a short distance between its rear part and the leading edge of the projectile seal 70, so that when compressed gas is injected into the chamber 6 8 the flange-like part 114 of the seal 17 is simultaneously moved to the right when the Projectile housing 112 is pressed against the face of seal 70 so that a very tight seal between them arises. The compressed gas flows through the opening 116 of the Projektilkor.ibination in order to reach the to act on the rear surface of the projectile 122 and to push it out through the barrel 36.

Since the sliding part 56 when the compressed gas is released from the second chamber 64 by this very is moved rapidly rearward, the piston 42 is due to the frictional contact between it and the Sliding part 56 is also printed very quickly to the left. Thus, the seal 35 must be sufficient Have longitudinal extension so that the pipe part 38 does not touch the Lndte.il 118 of the adjustment element 33,

209853/0370

BATH ORIGINAL

- ίο - ■

when the piston "j42 and the tubular part 38 to the left to be pushed.

After the compressed gas is expelled from the second chamber 64, the pressure also becomes how the pressure in the first chamber 48 is briefly reduced. This causes the force of the spring 44 a movement of the piston 42 and the sliding part 56 to the right into the position shown in FIG. 2, wherein the trigger 88 by the trigger spring HO into the returned position shown before the next backward movement of the sliding part 56 takes place, there there is a stand on surface 90 like this was described introductory.

Since the pressure in the pressurized gas cartridge (not shown), which is located in the handle 22 and the cartridge chamber 24, is reduced, there can no longer be enough pressure for the last shot available seili to the piston 42 a sufficient distance to the left so that its face 108 is away from the left part of the gasket is released. Then the second receives. Chamber 6 4 no compressed gas. So everything gets into the second chamber 6 4 gas still present when removing the pressurized gas cartridge from the handle of the quay; ir.ier 6 4 back through channel GC and under the lip of seal 52 into chamber 48. The gas in

209 8 5 3/0370

this Kainraer then flows through the pipe part. 38 back and through the pin 25 to the outside, so that the gun is completely free of pressure will.

As previously described, the projectile 122 extends forwardly over the projectile housing 112 and contacts the underside 84 of the projection 76 when the projectile combination itt the launch position is in the projectile receiving chamber 30 and can be fired. When firing the projectile 122 goes lost contact with surface 84, so that the projectile housing 112 can move upward and substantially forward over the projection 76 to through the remaining gas pressure and the upward force of the magazine spring (not shown) the projectile holder to be ejected. the Movement-the next project !! combination in the Firing position also supports this ejection,

While it is currently believed that pressures of less than 70 kg / cm 'are applied in pistols with pressurized gas is, then there is something to do with the finding Gun no pressure limit upwards. The individual parts can be made from stronger; Halerial or thicker to withstand any pressure.

209853/0370

BATH ORIGINAL

Fig. 4 shows a projectile combination which can be used in the pistol according to the invention. This projectile pool has a hollow projectile; Ti! housing 212 with a large front opening and a relatively small opening 116 in the rear part. The projectile includes an outer element 132 which may be made of plastic or any other suitable material and which is fitted into the housing 112. Unite and guide devices with a pin 134 and the Clement J 36 are attached to the front end of the outer part in such a way that they cut off the explosion of the projectile. The mass 138 is located in the guide element 13C and is held in place by the pin 134 which engages in the recess 140 in the mass. The Führeler.icn-t 3 36 also has at least one ventilation opening 140 and an ignition chamber 142 with an ignition charge. In the front part of the guide element 136, a firing pin device with a firing pin 144 embedded in a protective cover 146 is attached. An ignition device is located in the mass 138 at its rear part near the opening 148. This can be of simple construction and contain, for example, a thin brass housing IbO, a counter-zapion 152 and an ignition charge 1ü4. The outer part 132 and the guide element 136 limit a filler element 1 L> G, eic can contain different types of ruched, zV *. Tear gas,} \ ΊΓ]; Γ.

2 0 9 8 5 3/0370 _BAD original

IiLItK lends powder, cotton around · /.

Uu Ltii /vu!i.'il;ul!en of the storey te Ll.:; tion projectile from your housing falls out of the pin 1J4 v / ecj _{t which} it is no longer cjt-hciLten by the project !! housing at its steepness, and the projectile moves on there ;; '/, Lei zn. The projectile gets through the LuLt: i>'v / eyl., v / i.L'cl die fiar.se Ι.'Πϊ by this movement nauh lii.nl it! pressed. V / eitn there ;; Projectile on: the 'Mal -nit tri i7 E t, so v / ii; d cli.e M-: ii ;. ^£ »o I'M) pressed forward by the 'L'iÜijheLt, so that s LcIi the mass and dt ignite you I tuner beu.i impact move forward and the ignition device the' /, ündzapfon 14 touched to vstinden the ignition charge L ^r ) 4. Through the opening 148 through the opening 148 the clothing in the Kaiumer becomes again. L42 fired to the outer Tc; i L 132 du ¹ ; Bring the projectile to the implosion z \ x and separate the outer part of the l'ührclement 136, so that the filling may leak substantially forward. The opening 14 in the guide rail enables air to escape and thus facilitates the forward movement of the mass 138 when it hits the target. If the filling contains a layer of flashlight powder at the rear of the outer part, the remaining part of the filling canister is filled with a loading plug made of, for example, cius fjtyrolijchaum or some other suitable material

209863/0370

BATH ORIGINAL

can exist. The ignition charge then ignites flash powder 158, so that there is a powerful lightning bolt and an explosion.

Fig. 5 shows a project limit used as a shotgun cartridge. The project 11 housing 112 includes a body 160 fitted into the housing. Lin front 162 is attached to the body at 164 by a hook or other attachment device. The body 160 and front 162 define a filling tube 166, and the body and front are deregulated to separate in the air to release the filling from the chamber which then continues movement toward the desired destination . In this case, the E ¹ ULlung is made up of a number of shot pellets or plastic pellets, and the front and body are relatively light and fall apart so that the pellets alone move towards the target.

Fig. 6 shows a firearm in accordance with the invention Projectile combination to be used in which part of the projectile used to eject the projectile Pressurized gas is stored in the projectile itself and used to expel the filling when it hits the Purpose serves. The projectile combination contains a

209853/03 7 0

BATH ORIGINAL

Projectile housing and a projectile with an outer part 17O that sits in the housing. The outer part includes a rear wall portion 172 and valve means, which is preferably a Kuyel check valve 174. However, any other Linweg valve can also be used. A guide member 17G is coupled to the front end of the outer member 170 and an ileal peg 178 extends through the guide member 176 and in contact with a groove in the mass 182, thereby normally holding the mass in place. The guide element 176 has a projection 184 with openings 186 which are sealed with wax 188, for example. The mass 182 also has a protrusion normally inserted into the protrusion 184 to seal the openings 186. The second group of openings 190 is arranged around the circumference of the guide element 176. These form a connection between the outer and inner surfaces of the guide element 176. Line seal 192 is arranged on the front end of the guide element 176. Furthermore, a movable piston 19 4 is movably mounted in guides (not shown) in the outer part 170 and, together with the outer part and the stirring element 176, delimits the filling chamber 196 which contains the filling to be conveyed to the destination.

For example, if a pressure of 21.1 3; g / cir. ' used to um > l'roj'-ktil π us your case · cic-r i'ro jekti lko: .binntj tv:

2 0 9853/0370

BATH ORIGINAL

to be thrown out, the pressurized gas would flow through channel 200 and check valve 174, which increases the pressure by a predetermined factor

2 2

for example, about 1.05 kg / cm to 2.11 kg / cm. When the projectile leaves the case, so the check valve maintains the pressure in the 2O2 chamber. When the projectile hits the target, so the mass 182 moves due to its inertia " forward, since the pin 163 fell off during the flight. The pressure behind the movable piston 194 moves this together with the filling of the chamber 196 forwards by that which covers the openings 186 Break through sealing material 188. As a result, the filling can in turn pass through the openings 186 and get around the mass through a second number of holes 190 on the perimeter of the guide member 176 to move. This projectile combination has the advantage that when moving the filling to the target no noise is made and no explosion is required.

Fig. 7 shows a combination of projectors, a projectile housing 112 and a projectile with first and second elements 206 and 208 which are attached to each other at the stud 210 are connected in the housing contains. The Elenent 208 has an opening through which an Ilaltezapfon can be found 212 in contact with a groove in the mass 214 extends,

209 8 53/037 0

BATH ORIGINAL

wpduxch the mass is normally held in place. Padding material 216, for example ^ awswqlle, list, rear, in. Tier- arranged by the elements 206 and 2Q $ chamber- and a glass container or other breakable foil 23.8 is in the same chamber in contact with its rear part Cushion 216 and with its front part in the mass 214. paa front cloth 208 contains a firing pin arrangement 220 which, for example, can consist of a blunt object which breaks the container 218 on contact. Furthermore \\? E4 ^ t da.s element 208 a plurality of openings 222 on the front part, each of these openings wit ^e; W ^eri finer * Wetz 224 covered his kcuan * v, m to prevent . that particles get out of the container 218 after it has been broken upon hitting the target area. A container 218 contains the filling that must be conveyed to the destination and can optionally be filled with a pressurized gas which is introduced into the container via the projection 226, which is sealed to produce a container with an ignition filling.

The function of the projectile combination according to FIG. 7 is similar to the combinations described above. Vienri the projectile leaves the projectile housing 112, so the force of inertia causes a backward movement

109853/0370

BATH ORIGINAL

213Q784

of the container _t , the cushion 216 causing a cushioning so that the container does not break. Since the housing 112 no longer encloses the projectile, the retaining pin 212 falls out during flight, but the mass 214 remains essentially in the position shown in FIG. 7 because of the inertia. Then, when the projectile hits the target, the mass 214 moves forward, as does the container 218, so that the forward portion of the container comes into contact with the firing pin assembly 220 and the container is broken. This allows the filling of the container to exit through the openings 222 and reach the target area. In order to prevent parts of the broken container 218 from entering the target area, the narrow grids 224 can be provided in each of the openings 222. However, the use of these grids is not absolutely necessary and does not take place if parts of the broken container 213 can get into the sewer area or if the container was constructed in such a way that loose individual parts arise when broken.

The cam device indicated generally at 21 in FIG is shown in detail in Figs. 8-13 shown. It includes a pin 25Q attached to a part of the handle 22. A rotatable one Part 252 of the handle contains sprues 254 and 256,

209853/0370 _M.

sprue 254 having a keyway 258 and sprue 256 having a bore (not shown). One Bearing shaft 260, which is formed in one piece with a wedge 262, also has an opening 264 which extends in the longitudinal direction outside the axis of the bearing shaft through this. A cartridge support 266 has a bore 268 the size of which slidably engages the support 266 with the outer Part of the bearing shaft 260 allows. The pin 250 is attached to the handle and through the Opening 264 guided in the bearing shaft 260, as shown in FIGS. 8 and 9. The wedge 262 fits into the keyway 258, while the circular cross-section of the bearing shaft 260 into the bore (not shown) of the sprue 256 is fitted. The cartridge support 266 is also arranged so that the bearing shaft 260 extends through the bore 268 and the cartridge support 266 and is slidable Engagement is.

This arrangement enables a quick and easy Insertion of the pressurized gas cartridge into the chamber 24 of the handle, and although the one to pierce the Compressed gas cartridge with the pin 25 required pressure is at least 18 kg, it is by means of the Uockeneinrichtang especially easy to insert the cartridge and with the pin 25 to go through; tossed so that the gun

209853/0370

BAD ORiGlNAl.

can be tensioned or tensioned again very quickly.

To use the cam assembly for insertion the cartridge into the chamber and for piercing this cartridge by means of the pin 25, the handle part 252 is opened and pivoted about the pin 250 together with the sprues 254 and 256 and the bearing shaft 260. The cartridge support 266 is in slidable engagement with the bearing shaft 260, so that the support 262 substantially 'Remains in the chamber 24 when the handle portion 252 is rotated outward. The cartridge (not shown) can then be inserted into the bottom part, where it fits into the support 266. The handle portion 262 is then rotated together with the sprues 254 and 256 and the bearing shaft 260 around the pin 250 to the chamber close. At the same time, because of the position of the journal 250 outside the center of the bearing shaft 260 a cam action caused the cartridge to move up and into contact with the hollow spigot is pressed, which pierces the cartridge. As a result, the weapon cocks itself and is ready to fire.

Although tear gas is preferred as the fill for the projectiles for combating agitation, includes the invention the use of 'any material,' which fired in one of the projectiles described

2 0 9 8 5 3/037 0 ^; _{BAD O} r, g! NAL

can be, for example carbon tetrachloride, Explosives, napalm, rough rather convincing compounds, Marking powder »Dyes, insecticides, various Plant-killing compounds, bacteria of various types Type, radioactive trace elements »odor- generating substances, kieselguhr or selected combinations of these substances.

Although the invention has been described on the basis of exemplary embodiments, other modifications and Changes are possible, all of which fall within the scope of the invention.

209853/0370

BATH ORIGINAL

Claims (1)

Expectations V1.) Firearm for firing projectiles by means of Compressed gas, characterized by a receiving device for receiving a projectile through a holding chamber (48) for a charge of compressed gas, through a normally closed release valve to release the Pressurized gas charge from the holder chamber (48) into the receiving device by means of an extraction device and by means of one which can be connected to a pressurized gas source (24) Inclusion Kanimer (31) for admission and automatic Introduction of a predetermined charge of compressed gas into the Holding chamber (48) after the expulsion of a compressed gas charge from this. 2. Firearm according to claim 1, characterized in that that for transporting a compressed gas charge in the holding chamber (48) one usually on a valve seat (58) resting valve part (56) is provided, which by means of gas pressure from the pressurized gas source is movable away from the valve seat, so that gas through the receiving chamber (31) into the holding chamber (48) flows, and that the gas flow after a predetermined Movement of the valve part is interrupted. 3. Firearm according to claim 2, characterized in that the movable valve part has a passage, 209853/0370 one end of which is normally into the receiving chamber and the second end of which is normally opens in an actuating chamber which is connected to the valve seat that a .Verschlußelement for closing the first end of the passage after a predetermined movement of the valve part from the valve seat is provided away, whereby a predetermined amount of pressurized gas through the actuation chamber and over the Valve seat is conveyed into the cold chamber. 4. Firearm according to claim 2 or 3, characterized in that the movable valve part in one in one rigid Part provided hole is displaceable that the receiving chamber between the wall of this hole and the valve part is that the gas pressure in the receiving chamber on different areas of the valve part acts so that this is pushed into an open position and that the trigger normally prevents movement of the valve member from the valve seat. 5. Firearm according to one of claims 2 to 4, characterized characterized in that the extraction device has a movable Zvus release (88) contains, which is normally pressed to a first position in which it v / ird movement of the movable valve member under pressure in the direction of the valve seat prevents the Triggered by engaging the trigger mechanism in 209853/0370 BATH ORIGINAL ³² -? 1 3 Q 7 8 Λ Direction voia valve toi J weighed Iu ^ eybar is, so that the movable valve toil ü] icr slides the trigger and causes an additional I> evieyimy of the trigger in the same direction, and that the Abzuys-eini'ehenuny during dea: zuätii] ichcn Bev.eyuny the. The trigger is temporarily disengaged i: iit this briii'jLnr isü, in order to bring the trigger back into its normal position by the pretensioning force acting on it. G. Firearm according to one of claims] bi ::> 5, characterized by a liockaneinrichtung for inserting and pushing a pressurized gas cartridge, v / obej this ICod'oi: - einrichtuny cj.n - has on nahiaetei 1 (260) for the pressurized gas cartridge, which is eccentric ui.i a ⁵ axis ■ swiveling and can thereby be raised in the area of the cartridge receptacle in the direction of a Darchschlagüapfen (25). 7. Projectile combination of a Projektilgehüusc and a Projel ^ til for use in a firearm geiaäß one of claims 1 to 5, characterized in that the projectile consists of two ■ separable, in the project.! Lyo housing consists of UVa len, which are held together by a connecting element held in place by the Prcrjok II! housing. su: sch. 209853/0370 BATH ORIGINAL e e rs ei ie