EP1802935A1

EP1802935A1 - Firearm simulator

Info

Publication number: EP1802935A1
Application number: EP05788422A
Authority: EP
Inventors: Rudi Beckmann
Original assignee: Heckler und Koch GmbH
Current assignee: Heckler und Koch GmbH
Priority date: 2004-09-30
Filing date: 2005-09-21
Publication date: 2007-07-04
Anticipated expiration: 2025-09-21
Also published as: DE102004047628B4; KR100952535B1; DE502005010050D1; DE102004047628A1; CA2581221A1; KR20070049234A; WO2006037478A1; US8123525B2; JP4586069B2; US20070275354A1; JP2008514896A; ES2349412T3; EP1802935B1; CA2581221C; ATE476634T1

Abstract

Apparatus and methods are described for a weapon simulator. An example weapon simulator includes a pressure piston, which is couplable to a weapon, which acts to open a breech, and which is seated in a pressure cylinder. An example pressure piston includes a slider. The slider holds a pressure intake opening open and keeps one or more pressure outlet openings closed when the breech block is in a front-most position. In addition, the slider keeps the pressure intake opening closed and holds the one or more pressure outlet opening open when the breech block is in a rear-most position.

Description

weapon simulator

The invention relates to a weapon simulator for installation in a self-loading firearm, in particular an unlocked, fully automatic, large-caliber, portable self-loading firearm, according to the preamble of claim 1. The invention also relates to a self-loading firearm according to claim 7, in which inventive weapon simulator is used.

As far as positional information such as "top" or "front" are used in the following, they always start from a weapon which is held with a horizontal axis of the soul (barrel axis) and whose vertical axis is vertical. The mouth points to "front".

Self-loading weapons, especially self-loading, self-loading, larger-caliber handguns, such as self-loading grenade launchers, require considerable practice before their tactical capabilities can be nearly exhausted. However, this practice can not usually be obtained with sharp original ammunition on the site practice site of the barracks because these practice sites are often in densely populated areas and the required

Safety distance to protect can not be met. Military training areas, where the spatial conditions are present, are rare and can often only be reached in days of travel. So comes to the considerable expense of the ammunition even a greater amount of time, equipment and fuel to reach the military training area added. Since chronic lack of money is symptomatic for all arms, substitute exercises must be held or the exercise omitted. As for the ability of the single-shot, there are already devices that are used in the weapon and burn a weak cartridge that can be used in roofed small-caliber shooting ranges, as they are usually provided in barracks. Of course, ballistics only rarely match the ballistics of the weapon, but this is sufficient for basic training on such a weapon. As a pattern, the Swedish training device for the bazooka "Carl Gustav" called.

It is different with large-caliber fully automatic weapons, for example, a self-loading grenade launcher: there is the work of the shutter so impressive that it takes a long time getting used to actually accurate firing bursts can be delivered. In this habituation time it is

Paying attention to the impacts rather detrimental than useful, because it gives the self-esteem of the firing soldier, who then considers the burst of fire useless, and later in the ice pack, when firing bursts, only delivers them as uncontrolled "shots of fear." In fact, such a weapon As a result, the weapon is not only not used in full, but rather useless.

Although a weapon simulator is already known from US 44 80 999 A, the piston replaces the barrel of a self-loading pistol and the piston drives back the shutter, but this gun has more elements that need to be replaced or exchanged, so that the well-known weapon simulator works, namely, a valve assembly consisting of a long operating rod, which replaces the short spring guide rod of the striker spring, and a valve which is controlled by this actuating rod. In addition, from DE 36 31 262 Al a sorting gun shown, the upper part is interchangeable and in whose change-top part a COΣ cartridge sits, which drives a plunger which is provided instead of the closure.

The object of the invention is to find a device that, without changing the original Bedieungselemente the weapon allows an exercise of bursts even indoors and without attaching additional elements to the weapon.

This object is achieved in that in a weapon simulator according to the preamble of claim 1, a pressure piston is provided which is insertable into the weapon and acting on the shutter opening (claim 1). By "usable" is here also "attachable to the weapon" to understand.

In the weapon simulator according to the invention the Druckkoben exerts an effect as a fired cartridge on the weapon by either the plunger pushes back the shock bottom and thus the closure of an unlocked weapon, acting on the barrel of a locked recoil and accelerates the shutter opening, or in the Movement path of the gas piston engages and pushes back the shutter.

The pressure piston is preferably supplied with compressed air, but other pressure media, such as CO ₂ / can be used. Compressed air storage tanks, in particular refillable storage containers, can be removed, which are attached to the gun, for example, instead of magazines o. The like. But can also come from the line (compressed air line in workshops or vehicles). Because z. B. at a Seblstlade grenade launcher only about 10 bar are needed, the described compressed air sources are sufficient.

The pressure piston can be installed in the barrel, which has the advantage that the original run can be used. In one embodiment of the invention, however, it is preferred that the pressure piston is seated in a pressure cylinder. This pressure cylinder can be attached to the weapon where the piston movement is required to operate the closure. So z. B. the pressure cylinder in the

Gas linkage of a gas pressure loader are involved, for example, instead of the gas cylinder of the weapon, wherein the pressure piston then performs the function of the gas piston.

According to the invention, however, it is preferred that the pressure cylinder includes a slide which holds open the pressure inlet bore during closure in the foremost position and keeps the Druckauslaß¬ holes closed, and when closing in the rearmost position the pressure inlet bore closed and the Druckauslaßbohrungen holds open (claim 1). Thus, with a firing gun (this is a weapon in which the open firing with the trigger is released for firing, like a conventional machine gun) the full function in simulating continuous and single fire ensured, with only the actuating elements of the weapon (fuse , Trigger) are needed while the slide is taken in the pressure cylinder of the pressure piston so that it does not require any additional device. Of course, the pressure supply will normally have other elements, such as an upstream safety valve, which is adjustable to the number of shots to be simulated, so that the simulating weapon is no longer able to fire a shot when the number of shots is exceeded, a conventional magazine or has a conventional belt. Such a backup can also control the slide directly (claim 2), so that this ultimately forms only an end valve in front of the printing cylinder. However, it is preferred that the slide is controlled by the pressure piston (claim 4). So it does not require its own control for the slide, but the slide can ultimately cause the zuzuschießende weapon on the plunger controls the slide itself and thus ensures that the weapon behaves exactly as it would be the case when with sharp ammunition would be operated, which ultimately nothing more is required than that the pressure cylinder is used with slide instead of the barrel and controlled with compressed air or other pressure medium.

However, it is preferred that the pressure cylinder has the shape of the barrel of the weapon and instead can be used in this (claim 2), wherein the pressure piston is effective against the closure. As a result, not only can a pressure piston with a diameter larger than the caliber be used, which reduces the pressure in the piston, but also protects the barrel, which could scratch when used as a pressure cylinder. Moreover, the printing cylinder has no fields and features on its inner surface that could affect the function of the plunger.

The pressure cylinder has, as usual, at least one pressure inlet and Drucklauslaßbohrung, which may be disposed within the weapon, so as not to affect their appearance. According to the invention, it is preferred that in a pressure cylinder having a pressure inlet bore and at least one Druckauslaßbohrung, all Druckein- and -auslaßbohrungen outside the housing portion of the weapon are arranged, which receives the shutter (claim 3), so to speak outside the weapon. This ensures that the function of the weapon in the simulated Operation is not affected by any gas streams, and that no gas lines open into the weapon itself. Thus, it is possible to change the weapon itself quickly and without significant structural intervention, the replacement of the barrel apart, so that the typical behavior of each weapon can be experienced in simulation mode. Thus, every single weapon can be tested in simulation mode, so that it often becomes apparent when it is z. B. to wear, wrong assembly o. The like. Should be, even before a sharp shot is fired.

The invention relates not only to a weapon simulator, but in the same way, a portable firearm, in particular an unlocked, fully automatic self-loading grenade launcher with a run by a

Pressure cylinder is replaced, as described above (claim 5). By replacing the barrel, which can still be used again, the weapon remains fully functional. You do not need an additional training facility. The pressure cylinder, which is used instead of the run in simulator operation, is simple and cheap to manufacture and can be provided with a muzzle fire damper so that the simulated weapon visually does not differ from the sharp weapon.

Thus, it is possible with the weapon according to the invention, for example, to test the weapon in the simulation mission briefly on the shooting or military training area and to give the new trainees shooter a first impression of the function of the weapon while the printing cylinder, for example, connected to the compressed air circulation of a truck is. With the same weapon, after replacing the simulator with a barrel, gunners can continue their training with sharp shots in minutes. It is also possible with the simulator after a repair of the weapon first Perform functional tests, which then only need to be completed with live ammunition. So it is possible to reduce at least the costs and the time required for the training quite considerably. In particular, frequent exercises with the weapon can also be "shot" in interiors or in inhabited areas, since the noise generated is low and no projectiles leave the gun.

This is of particular interest to a portable self-loading grenade launcher whose operation with live ammunition requires a spacious training area, the operation of which requires a spacious shooting range with training ammunition, and in which small caliber practice ammunition (with a special insert barrel) can not be used for continuous firing.

The object of the invention will now be described in more detail with reference to a simulator which can be used instead of the barrel of a self-loading grenade launcher. In the drawing shows:

Fig. 1 is a schematic front part of a

Selbstladegranatwerfers, in place of the barrel a simulator according to the invention is used, in longitudinal section,

Fig. 2 shows the weapon simulator of Fig. 1, in longitudinal section and in greater detail and in the position before the compressed air, and

Fig. 3 is a view similar to Fig. 2, but in which the weapon simulator was pressurized with compressed air and is ready for simulated firing. In Fig. 1, the simulator points to the left (left is "front") while the simulator in Figs. 2 and 3 points to the right.

In Fig. 1, the front end of a grenade launcher housing 1 is shown, in which instead of a run a total tubular simulator 3 is fastened mittelos a bolt 7. After removal of the bolt 7, the simulator 3 can be pulled out to the front (to the left in the drawing) and can be replaced by a barrel (not shown).

The simulator 3 has an outer elongated cylinder 13 in which. a piston 9 is reciprocably housed and tight against the inner wall of the cylinder 13 abuts.

With the piston 9, a piston rod 11 is integrally connected, which extends from the piston 9 to the weapon housing 1 and passes through a guide 15 which is attached to the weapon-side end of the cylinder 13. The piston rod 11 ends on the side facing away from the piston 9 of the guide in a plastic buffer 17, which in turn is supported on the shutter 5 of the weapon.

The weapon is a self-loading mortar grenade launcher, so that the shutter 5 is only in the front position when it has been withdrawn, but there is no effective cartridge in the camp. When undisturbed shooting operation, the shutter 5 takes the foremost position only briefly when he has tracked a cartridge and just ignites it.

The path available to the piston 9 corresponds to the travel that the shutter 5 travels between the position shown and a position behind the detent engagement of the trigger. On the side facing away from the weapon housing 1 side, a control rod 19 is fixed in the piston 9. Piston 9, control rod 19 and piston rod 11 are coaxial with the axis of the weapon.

At the end adjacent to the piston 9, the control rod 19 has a thickened portion 21, at the other end a central (coaxial to the axis of the soul) end screw 25 which holds a stop ring 23 made of soft plastic.

The path of movement of the control rod 19 is surrounded and protected by a cap 27, on the front end of which a dummy muzzle 29 adapted to the real muzzle is pushed. With the rear end, the cap 27 is seated in the front end of the cylinder 13, while the thickened portion 21 of the control rod 19 is in the foremost portion of the cylinder 13. There is also a side opening into the cylinder 13 air inlet 31 is provided. Between the air inlet 31 and the front end of the cylinder whose wall is penetrated by a ring air outlet openings 33. In this case, the rear end of the cap 27 is located just before the air outlet openings 33 and has a smaller inner diameter than the cylinder thirteenth

In addition, a slider 35 is provided which sealingly but slidably rests against the inner wall of the cylinder, is penetrated by the control rod 19 and parallel to this is penetrated by at least one air bore. In the position shown in Fig. 1 and 2, the slider 35 is in abutment with the weapon-side end of the cap 27 and the mouth-side end of the thickened portion 21 and conceals and closes the air outlet 33, 'while the air inlet opening 31 releases. For the slide 35, a separate slide bore 37 (FIG. 2) is provided in the cylinder 13, the diameter of which is smaller than that of the cylinder bore for the piston 9, but extends coaxially therewith. Between slide bore 37 and cylinder bore of the Cylinder 13 is a short section with the smallest

Diameter.

The guide 15 at the rear end of the cylinder 9 is pierced so that air can enter and exit. The air inside the cylinder 13 has no particular overpressure on this side of the piston 9.

When compressed air flows to the air inlet 31 during operation (position of Figs. 1 and 2), then the air flows through the bore (s) in the slide 35 and acted on the other hand from the front of the piston 9, the piston rod 11 and plastic buffer 17 against the closure 5 presses, which in turn is pressed forward by the weapon's own closing spring assembly (not labeled). Does that rise?

Air pressure, then moves the piston 9 with piston rod 11 and plastic buffer 15, the shutter 5 backwards until the stop ring 23 abuts against the slider 35 at the front end of the control rod and pushes him backwards. The slider now closes the air inlet 31 and strikes at the end of the slide bore 37. At this time, the slider 35 releases the air outlet openings 33. The slide is now in the position of Fig. 3, in which the shutter 5 is brought into the rearmost position.

Now, if the trigger (not shown) withdrawn, then the shutter 5 is practically free to the front, because the (already relaxed) air in the cap 27 pressed through the air outlet 33 and air into the cylinder freely through the hole (s) in the Guide 15 is sucked. In particular, the size of the air vents determines the simulated "rate of fire." The piston advances until the thickened portion 21 strikes the pusher 35 and carries it forward, thereby relieving the air vents 33 and the air inlet 31 reopened. As long as the trigger remains pulled (when the gun is set to "Continuous Fire"), and as long as compressed air is available, the weapon lock will move back and forth as in the actual fire, and if the trigger is released, it will remain as it was Fire, the shutter in the rear position, so the position of readiness to stand.

The simulator operation can be refined by a metering device, which automatically interrupts the supply of compressed air after a certain number of "shots", such as a shot number corresponding to a cartridge belt.

The weapon itself, with the exception of the expansion of the run and installation of the simulator - activities familiar to the shooter - no changes are required.

Claims

claims

1. Weapon simulator (3) for installation in a self-loading firearm, in particular an unlocked, fully automatic, large-caliber, portable self-loading firearm, characterized by a pressure piston (9) which is insertable into the weapon and acting on the closure (5) opening and in a pressure cylinder (13) which includes a slide (35) at the closure (5) in the forwardmost position the Druckeinlaßbohrung (31) holds open and the Druckauslaßbohrungen (33) holds closed, and the closure (5) in the rearmost position the pressure inlet bore (31) is closed and the Druckauslaßbohrungen (33) holds open.

2. weapon simulator (3) according to claim 1, characterized in that the pressure cylinder (13) has the shape of the barrel of the weapon and instead can be used in this.

3. weapon simulator (3) according to claim 1 or 2, characterized in that the pressure cylinder (913) has a pressure inlet bore (31) and at least one Druckauslaßbohrung (33), and that all Druckein- and -auslaßbohrungen (31, 33) outside the

Housing portion (1) of the weapon are arranged, which receives the closure (5).

4. weapon simulator (3) according to one of claims 2 or 3, characterized in that the slide (5) from

Pressure piston (9) is controlled.

5. Portable firearm, in particular unlocked, fully automatic self-loading grenade launcher with a barrel, characterized in that the barrel through a Waffensinulator (3) according to one of claims 2 to 4 erstgestellt is.