RU2680172C2 - Nozzle for simulating combat fire - Google Patents

Abstract

FIELD: simulators; weapons and ammunition.SUBSTANCE: invention relates to means for training in aiming and shooting, as well as for practical shooting in open and closed rooms. Nozzle for simulating combat fire contains body (1) with a central axial channel and slots for evacuating the powder gases. Body contains a means of light radiation oriented along the center of the axial channel and made in the form of a light pointer with a power source. In this case, the nozzle is provided with pencil case (2), reflector (5), return spring (6) and contact closure (7). Pencil case is made with a threaded connection and is provided with cover (3). Opening is made in the central part of cover (3). Inside case (2) there is inset (4) insulated from it. It contains a means of light radiation with a light pointer, power source and contacts. Reflector (5) is located at the base of body (1) of the nozzle. Diameter of reflector (5) is equal to the diameter of the axial channel of the nozzle and serves to dissect the powder gases. Between cover (3) of case (2) and reflector (5) there is return spring (6) and contact closure (7). Slots for the removal of powder gases are located in the middle part of body (1) of the nozzle in the region of reflector (5). At the base of body (1), the nozzle is threaded to connect to the muzzle of a light and sound or combat weapon. Diameter of the central axial channel of the nozzle is equal to the diameter of the bore of the barrel of a light or sound weapon and is its continuation.EFFECT: provides reliability, safety and durability when using a nozzle in combination with a regular combat weapon for training the skills of shooters in the closest possible to real combat conditions.5 cl, 2 dwg

Description

The invention relates to means for training and training in aiming and shooting, as well as for practical shooting in open and closed spaces on standard targets, both single arrows and in groups.

Known laser shooting simulator containing a weapon simulator, laser radiation, placed on a weapon simulator, power supply (RU patent No. 2056514, F41G 3/26, 03/20/1996). The use of such a simulator allows saving live ammunition due to their uselessness, since they are replaced by a light signal emanating towards the target from the laser radiation.

The disadvantage of this simulator is the inconvenience of operating the simulator due to the presence of a wired connection between the laser radiation means located on the simulator and the power supply mounted on the shooter's equipment. This limits the shooter's actions during training, especially in situations close to real ones. The elimination of these shortcomings entails the complexity of the design of the simulator and its cost.

Known pistol simulator with a semiconductor laser, in the arms of which is installed a laser source on the diode, creating a visible beam with an elliptical cross section, and an optical system for collimating the beam, having a lens with a smoothly varying refractive index (US Patent No. 5194007, F41G 3/26, 16.03 .1993). The visible light source and optical system are mounted on the weapon body with the possibility of disconnecting them, the power supply unit is mounted on the handle of the weapon. There is a control photodiode playing the role of a target mounted near a laser source.

The advantage of such a simulator is that the direction of the optical axes of the light source and the optical system coincides with the aiming line, however, its use does not allow the shooter to feel the real conditions of the combat situation, since noise effects are completely excluded, and the target, which plays the role of the control photodiode, is set to a slight distance from the shooter.

Known laser shooting simulator containing a weapon with a barrel and trigger mechanism, laser radiation, a target with a light signal receiver (US patent No. 605461, F41G 3/26, 02.25.1997). It used military weapons, from the bottom of the barrel of which a unit is mounted, including a power battery, a piezoelectric crystal and a laser diode. When you press the trigger of the trigger mechanism, the electric circuit closes, and the laser diode emits a beam parallel to the path of the bullet and aimed at the target.

The advantage of the simulator is the ability to use it in combat conditions with firing live ammunition and on the simulator without cartridges.

However, it has a complex electronic circuit, is expensive to manufacture, and during training the effect of combat conditions disappears. In addition, the axis of light radiation in it does not coincide with the trajectory of a bullet flying out of the barrel, but is only parallel to it, and therefore the aiming conditions are hindered and the aiming accuracy is reduced.

Known nozzle for shooting with a laser pointer according to the first embodiment (RU patent No. 2196951, F41G 3/26, 01/20/2003) adopted by the authors as a prototype. Laser shooting simulator contains weapons with a barrel and trigger mechanism, laser radiation, a target with a light emission receiver, while it is equipped with a nozzle for blank firing and a membrane. The laser radiation tool is made in the form of a laser pointer with a power source and mounted on the barrel of the weapon coaxially with the latter by means of a nozzle for idle shooting. The membrane is placed between the nozzle for blank firing and the laser pointer with a gap in relation to the power source with the possibility of its selection due to the energy of the powder gases when the trigger is pulled by the trigger. The nozzle for idle firing is made with a central axial channel, the diameter of which is smaller than the diameter of the bore, in communication with the output side channels, and a cavity located in its front part for accommodating the membrane and the end part of the laser radiation means. A photodiode was used as a target light signal receiver.

However, the nozzle is made with a central axial channel, the diameter of which is less than the diameter of the barrel of the weapon, which makes it impossible to use it in light-sound weapons. In the barrel channel of a standard light-sound weapon, plugs are installed that prevent the departure of solid objects.

The objective of the invention is to provide a simulator with simplicity and accessibility with the lowest cost for training and training of shooters, as close as possible to real combat conditions and the possibility of using it in any shooting simulator using both military and light-sound weapons.

The technical result consists in increasing the effectiveness of training, training the skills of shooters as close as possible to real combat conditions and reducing the cost of training through the use of regular weapons.

The nozzle for simulating live firing includes a housing made with a central axial channel and slots for the removal of powder gases, a light radiation means located in the center of the axial channel and made in the form of a light pointer with a power source is placed in the housing. The nozzle is additionally equipped with a pencil case, a reflector, a return spring and a contact closure, while the pencil case is made with a threaded connection and has a lid in the central part of which a hole is made, an insert isolated from it is located inside the pencil case, in which the light emission means with a light pointer, a source is located power and pins. The reflector is located on the side of the base of the nozzle body, its diameter is equal to the diameter of the axial channel of the nozzle and serves to dissect the powder gases. A return spring and contact closure are located between the pencil case cover and the reflector. Slots for the removal of powder gases are located in the middle of the nozzle body and in the area of the reflector. At the base of the nozzle body, a thread is made for connection with the muzzle of a light-sound or combat weapon, while the diameter of the central axial channel of the nozzle is equal to the diameter of the barrel channel of a light-sound or combat weapon and is a continuation thereof. The insert in which the light emitting means is placed is made of heat-resistant material. The contact closure is spring-loaded. The light pointer can be made in the form of a laser or in the form of an infrared radiation source.

The invention is illustrated by drawings, where in FIG. 1 shows a nozzle for simulating live fire, in FIG. 2 - shows a nozzle for simulating combat shooting in the context.

The nozzle for simulating live firing includes a housing 1, inside of which a reflector 5, a return spring 6, a spring-loaded contact closure 7 and a pencil case 2, at the base of which a thread is made, with a cover 3, in the central part of which a hole is made, are placed. Inside the pencil case 2 there is an insert 4, in the central part of which along the axis of the nozzle channel there is placed a light emission means. On the housing 1 in its middle part and in the area of the reflector are made slots 8 for the removal of powder gases. The insert is made of heat-resistant material and is isolated from the inner surface of the pencil case, for example with foil; inside it, strictly along the axis of the nozzle channel, a light emission means is mounted, consisting of a light pointer with a power source and contacts. Means of light radiation can be made in the form of a laser or in the form of a source of infrared radiation. The diameter of the central axial channel of the nozzle is equal to the diameter of the channel of the barrel of a light-sound or combat weapon and is its continuation.

The nozzle for simulating live fire works as follows. The nozzle body 1 is connected by thread to light-sound or combat weapons to the muzzle of the barrel, after which the product is considered completely ready for use. The shooter charges the weapon with blank cartridges and makes a shot, that is, everything happens in the same order as when shooting live ammunition. Gunpowder gases flow out through the bore and create pressure on the reflector 5, while it starts to move the side of the pencil case 2 and interacts with the contactor 7. When the contactor 7 contacts the contacts of the light source 2, the light emitter is triggered. The excess powder gases are dissected to the sides through the slots 8 of the housing 1, which ensures the safety of training, as the hot powder gases do not have the ability to go forward and can not injure others. After triggering the light emitter, which can be either a laser or infrared radiation source, the reflector 5 under the action of the spring 6 returns to its original position.

The automation of small arms, as well as aiming from it, is performed in the normal mode, since the nozzle for simulating combat shooting does not make changes to the design of the weapon.

The nozzle for simulating combat shooting is attached to the weapon instead of the muzzle brake of the compensator for the standard thread and does not require additional fixation options.

Positive aspects are achieved by the use of standard light-sound and combat weapons, the use of a cheaper blank cartridge with respect to combat, external similarity and energy consumption of the nozzle to simulate combat shooting, ease of installation and maintenance, as well as the ability to use it for training in groups for combat coordination and testing techniques on fire maneuver due to safe use, and the ability to use in any of the existing interactive shooting galleries and tactical games, such as Laz tag. "

Claims (5)

1. A nozzle for simulating live firing, comprising a housing made with a central axial channel and slots for removing powder gases, a light radiation means arranged in the center of the axial channel and made in the form of a light pointer with a power source, characterized in that the nozzle is placed in the housing additionally equipped with a pencil case, a reflector, a return spring and contact closure, while the pencil case is made with a threaded connection and is equipped with a lid, in the central part of which a hole is made, inside the pencil case Position the insert isolated from it, wherein the light emitting means taken with the light pointer, and a power supply contacts; the reflector is located on the side of the base of the nozzle body, its diameter is equal to the diameter of the axial channel of the nozzle and serves to dissect the powder gases; a return spring and contact closure are located between the pencil case cover and the reflector; the slots for the removal of powder gases are located in the middle part of the nozzle body and in the area of the reflector, at the base of the nozzle body there is a thread for connecting to the muzzle part of a light-sound or combat weapon, while the diameter of the central axial channel of the nozzle is equal to the diameter of the barrel channel of a light-sound or combat weapon its continuation. 2. A nozzle for simulating live fire according to claim 1, characterized in that the insert in which the light emission means is located is made of heat-resistant material. 3. Nozzle for simulating live firing according to claim 1, characterized in that the contact closure is spring-loaded. 4. Nozzle for simulating live fire according to claim 1, characterized in that the light pointer is made in the form of a laser. 5. Nozzle for simulating live fire according to claim 1, characterized in that the light pointer is made in the form of an infrared source.

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