RU2724831C1 - Firing device with light-and-sound cartridges - Google Patents

Abstract

FIELD: education.SUBSTANCE: invention relates to means for training in aiming and shooting, as well as for practical shooting in open and closed rooms. Device for firing light and sonic cartridges comprises cylindrical housing with hollow ends, one of which is support, screwed on muzzle of barrel of gun, with slots for discharge of powder gases, and the other end is cantilever, the powder gas reflector is located in the housing coaxially with it, a power supply unit, a heat-resistant case which is coaxially placed inside the casing end and a cylindrical light emitter which is enclosed therein in the form of a cylindrical light pointer, connected to the power supply unit. In addition, there is a coaxial compression bushing arranged in the support end of the housing, formed of two coupled cylinders of different diameters with a through axial hole for passage of powder gases, providing impact action on the reflector, wherein cylinder of larger diameter of this bushing is made with thread on outer surface forming in assembly with support end of housing threaded pair, and bushing itself is fixed in housing by thrust action of muzzle section of standard weapon barrel into end face of its cylinder of larger diameter with possibility of formation by its one surface facing weapon muzzle section, lock for passage of powder gases along the barrel of the weapon, creating in it pressure level of powder gases, which guarantees automatic recharging of the weapon, and forming another by its surface, facing the reflector, together with its surface and slots in the housing of the passage channel for removal of powder gases into atmosphere, as well as control unit arranged in its heat-resistant hollow cage coaxial to the housing and controlling light emitter, formed from installed on its electronic board and interconnected units: impact sensor fixing impact action on powder gas reflector, power supply unit and processor, which controls radiation duration of light emitter, and sealing ring separating control unit board from case, at that, the powder gas reflector is made integral with the housing during formation of its hollow ends and is a blind web transversely located inside it and separating from each other its hollow ends with a diameter corresponding to its internal diameter, and the heat-resistant case surrounding the light emitter is fixed in the housing by setting screws, which provide its centering relative to the axis of the light emitter when it is installed in the housing and in operation.EFFECT: invention is aimed at providing reliability in operation of the firing device with light-and-sound cartridges while preserving the function of automatic re-charging of the combat small arms.3 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.

Known laser shooting simulator containing a weapon with a barrel and trigger mechanism, laser radiation, a target with a light emission receiver, while it is equipped with a device for firing light and sound cartridges and a membrane. The laser radiation tool is made in the form of a laser pointer with a power source and is fixed in the barrel of the weapon coaxially with the latter by means of a device for firing light and sound cartridges. The membrane is placed between the device for firing light and sound cartridges and a 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 you press the trigger of the trigger mechanism. The device for firing light and sound cartridges is made with a central axial channel, the diameter of which is less than the diameter of the barrel channel 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 the target light signal of the target (RU patent No. 2196951, F41G 3/26, 01/20/2003).

The disadvantage of this known device is that its device for firing light and sound cartridges cannot be used in military weapons with a standard light and sound cartridge, because it is made with a central axial channel, the diameter of which is less than the diameter of the barrel of the weapon.

Known closest to the claimed invention is a device for firing light and sound cartridges, comprising a cylindrical body with hollow ends, one of which is support with slots for exhausting powder gases, screwed onto the muzzle of the weapon barrel, and the other end is cantilevered; a powder gas reflector located in the housing coaxially with it with the possibility of axial movement; Power Supply; coaxially placed inside the cantilever end of the casing, a heat-resistant case screwed into the cantilever end of the casing and the cylindrical light emitter enclosed by it in the form of a cylindrical light pointer connected to the power supply, as well as a spring-loaded contact switch of the light emitter located between the powder gas reflector and the emitter with the possibility of interaction with them when shooting (Patent No. 2680172, publ. 11/13/2018 Bull. No. 32).

This device, which is closest to the claimed technical solution, for firing light and sound cartridges allows to increase the effectiveness of training the skills of shooters in training as close as possible to real combat conditions through the use of standard weapons.

The disadvantage of this device, which is closest to the claimed technical solution, for firing light and sound cartridges is the impossibility of creating sufficient pressure of the powder gases on the reflector to create excess pressure in the barrel channel, which ensures automatic reloading of weapons in normal mode. The absence of a ballistic projectile in a military weapon that acts as a locking mechanism during the passage of powder gases through the barrel channel and creates enough pressure in it to trigger the automation of small arms, namely, a gas piston and a bolt, requires the creation of this small weapon in the barrel bore pressure, providing not only the operation of its light emitter, but also the operation of its automation, providing automatic reloading of weapons in normal mode. Otherwise, for the firing of the shot following the first, this weapon must be reloaded.

Moreover, in this device for firing light and sound cartridges, its spring and the light emitter itself are not protected from contact with aggressive powder gases penetrating through the gap between the housing and the movable reflector and causing them to heat, deposit, and corrosion from exposure to chemicals, therefore these parts nozzles have low strength and reliability in operation, as well as a short service life.

In addition, the presence of moving parts in the housing of the device providing contact with the light emitter (movable pusher, return spring) reduces the reliability of the device in operation, as does the pencil case screwed into the cantilever end of the housing, covering the light emitter without the possibility of centering it together with the light emitter with respect to the axis the case of the device when installed in the case and subsequent operation, also reduces its reliability and leads to the need

The technical result achieved by the invention is to ensure the reliability of operation of the device for firing light and sound cartridges while maintaining the function of automatic reloading of combat small arms by placing a compression sleeve in the supporting end of the casing, which ensures the formation of not only a normalized level of pressure of powder gases in the barrel of the weapon, guaranteeing its automatic recharging in the normal mode, but also the formation of a sufficient level of pressure of the powder gases on their reflector to trigger the light emitter.

The specified technical result is achieved by the fact that the device for firing light and sound cartridges containing a cylindrical body with hollow ends, one of which is support, screwed onto the muzzle of the weapon barrel, with slots for the removal of powder gases, and the other end is cantilever; a powder gas reflector located in the housing coaxially with it; Power Supply; coaxially placed inside the cantilever end of the casing, a heat-resistant pencil case and a cylindrical light emitter covered by it in the form of a cylindrical light pointer connected to the power supply unit ... is additionally equipped with a coaxial compression sleeve located in the supporting end of the casing, formed from two mating cylinders of different diameters with a through axial hole , for the passage of powder gases, providing impact on the reflector, moreover, a cylinder with a larger diameter of this sleeve is threaded on the outer surface, forming a threaded pair assembled with the supporting end of the body, and the sleeve itself is fixed in the body by the persistent action of a muzzle cut of a standard weapon barrel in the end face of its cylinder of larger diameter with the possibility of forming one of its surface facing the muzzle of the weapon, constipation for the passage of powder gases through the barrel of the weapon, creating a pressure level of powder gases in it, guaranteeing automatic reloading of the weapon, and formation its other surface facing the reflector, together with its surface and slots in the body of the passage channel for the removal of powder gases into the atmosphere; as well as a light emitter control unit located in its heat-resistant hollow holder coaxial with the casing, formed from installed on its electronic board and interconnected nodes: an impact sensor that detects the impact on the reflector of powder gases, a power supply and a processor that controls the duration of radiation of the light emitter ; and a sealing ring separating the control unit board from the pencil case, while the powder gas reflector is made integral with the body when forming its hollow ends and is a blank partition transversely located inside it and separating its hollow ends from each other with a diameter corresponding to its inner diameter ; and a heat-resistant pencil case, covering the light emitter, is fixed in the housing with set screws, ensuring its centering relative to the axis of the light emitter when it is installed in the housing and operation.

Using a laser as a light emitter improves the accuracy of shooting.

The use of an infrared source as a light emitter expands the scope of use of the device.

The drawings show the design of the device for firing light and sound cartridges.

FIG. 1 - Device for firing light and sound cartridges.

FIG. 2 - Scheme of the movement of powder gases in the channel of the gun barrel.

The device contains a cylindrical housing 1 (Fig. 1) with a powder gas reflector 2 inside in the form of a blank partition formed in the housing 1 integrally with it when drilling its hollow ends, one of which is supporting 3 with slots 4 for removing powder gases, screwed onto the muzzle of the barrel of the weapon, and the other end 5 is cantilever.

In the cantilever end 5 of the housing 1 there is a heat-resistant pencil case 6, covering a cylindrical light emitter 7 in the form of a cylindrical light pointer and fixed in the housing 1 by set screws 8, providing not only its reliable fastening in the housing, but also the possibility of centering it relative to the axis of the light emitter 7 when installation in the housing 1 and operation, increasing the reliability of the device as a whole.

In the abutment end 3 of the housing 1, there is a compression sleeve 9 coaxial with it, formed of two mating cylinders of different diameters 10 and 11 with a through axial hole 12 for the passage of powder gases, providing impact on the reflector 2. A larger diameter cylinder 10 of this compression sleeve 9 is made with a thread 13 on the outer surface, forming an assembly with a supporting end 3 of the housing 1, screwed assembly on the muzzle of the weapon barrel, a threaded pair.

The compression sleeve 9 itself is fixed in the supporting end 3 of the housing 1 of the device by the persistent action of the muzzle cut of the barrel of a standard weapon (not indicated) in the end face of its cylinder of a larger diameter 10 with the possibility of constipation with one of its surface facing the muzzle cut of the weapon for the passage of powder gases through the barrel weapons, creating a level of pressure of the powder gases in it, guaranteeing automatic reloading of the weapon, and the formation of its other surface facing the reflector 2, together with its surface and slots 4 in the housing 1 of the passage channel for the removal of powder gases into the atmosphere.

In the cantilever end 5 of the housing 1, behind its reflector 2, coaxially with it, there is a heat-resistant hollow cage 14, inside which is located the control unit of the light emitter 15, formed from installed on its electronic board and interconnected nodes: shock sensor 16, which records shock impact on the reflector of powder gases, the power supply 17 and the processor that controls the duration of the radiation of the light emitter. The use of a gentle signaling effect on it by the control unit 15 instead of a forceful action of aggressive powder gases on the light emitter 7 makes it possible to increase the reliability of the light emitter 7 of the device and, as a result, the reliability of the device as a whole.

Behind the control unit 15, a sealing ring 19 is placed in the holder 14, which separates the control unit board 15 from the pencil case 6 and protects them from beating against each other.

Assembly and principle of operation of the nozzle to simulate live-fire shooting

First, the canister 6 is separately assembled with the light emitter 7, installing the light emitter 7 in the canister 6, and then the light emitter control unit 15 is assembled separately, installing and interconnecting the shock sensor 16, the power supply 17 and the radiation duration control processor on its electronic board light emitter 18.

After that, the preassembled electronic board of the control unit 15 is inserted into the holder 14, and then the sealing ring 19 is placed in it and the light emitter 7 assembled with the pencil case 6 is attached to the processor 18. The holder 14 is pressed by the pencil case 6 to the reflector 2 and then the pencil case 6 is fixed set screws 8 in the cantilever end 5 of the housing 1. The same screws 8 through center the pencil case 6 relative to the light emitter 7.

The compression sleeve 9 is screwed into the support end 3 of the housing 1, and then this support end 3 is screwed onto the barrel of the weapon.

The device for firing light and sound cartridges is ready for use.

The shooter charges the weapon with light and sound ammunition and fires, just like when shooting live ammunition. In this case, the powder gases flow out through the barrel of the weapon (not indicated), fall into the supporting end 3 of the device body 1, create pressure on the compression sleeve 9 and beat through the central hole 12 into the reflector 2, creating a shock wave detected by the shock sensor 16, which transmits a signal to the processor 18 and it, in turn, turns on the light emitter 7. In this case, the powder gases reflected from the blank partition of the reflector 2 flow into the atmosphere through the passage channel formed by its surface and also by the surface of the sleeve 9 and facing it slots 4 in the housing 1. The implementation of the reflector of the powder gases 2 in the form of a blank partition formed in the housing 1 at the same time integrally with it allows you to protect the light emitter 7 from the effects of aggressive powder gases.

At the same time, the end face of the sleeve 9, facing the barrel of the weapon during firing, is involved in the formation of constipation for powder gases during their passage along the barrel of the small arms, creating enough pressure in it to trigger its automation. Thus, the created technical solution, due to the combination of its essential features reflected in the claims, allows to ensure the reliability of operation of the device for firing light and sound cartridges while maintaining the function of automatic reloading of small arms due to the placement of a compression sleeve participating in the supporting end of the device body in the formation of not only the pressure level of the powder gases in the barrel of the weapon, guaranteeing its automatic reloading in the normal mode, but also in the formation of a sufficient level of pressure of the powder gases on their reflector to trigger the light emitter, as well as by performing the powder gas reflector in one piece with the body a device in the form of a dead fixed jumper protecting the light emitter from contact with aggressive powder gases, and by using the signaling effect of the control unit on the light emitter instead of the force acting on it, and, in addition , placing between the control unit and the pencil case an o-ring that protects them from beating, as well as fixing the pencil case in the device case with set screws that allow it to be mounted securely during installation and operation with its alignment relative to the axis of the light emitter, which coincides with the axis of the device case. The device for firing light and sound cartridges claimed as an invention has passed the tests and is ready for release at the applicants ’enterprise.

Claims (3)

1. A device for firing light and sound cartridges, comprising a cylindrical body with hollow ends, one of which is support, screwed onto the muzzle of the weapon barrel, with slots for the removal of powder gases, and the other end is a cantilever; a powder gas reflector located in the housing coaxially with it; Power Supply; coaxially placed inside the cantilever end of the casing, a heat-resistant pencil case and a cylindrical light emitter covered by it in the form of a cylindrical light pointer connected to a power unit, characterized in that it is additionally equipped with a coaxial compression bushing located at the supporting end of the casing, formed from two mating cylinders of different diameters with a through axial hole for the passage of powder gases, providing impact on the reflector, and a cylinder of a larger diameter of this sleeve is threaded on the outer surface, forming a threaded pair assembled with the supporting end of the body, and the sleeve itself is fixed in the body by the persistent action of a muzzle cut of a standard weapon barrel in the end face of its cylinder of larger diameter with the possibility of forming one of its surface facing the muzzle of the weapon, constipation for the passage of powder gases through the barrel of the weapon, creating a pressure level of powder gases in it, which guarantees automatic recharging narrowing, and the formation of its other surface facing the reflector, together with its surface and slots in the body of the passage channel for the removal of powder gases into the atmosphere; as well as a light emitter control unit located in its heat-resistant hollow holder coaxial with the casing, formed from installed on its electronic board and interconnected nodes: an impact sensor that detects the impact on the reflector of powder gases, a power supply and a processor that controls the duration of radiation of the light emitter ; and a sealing ring separating the control unit board from the pencil case, while the powder gas reflector is made integral with the body during the formation of its hollow ends and is a blank partition transversely located inside it and separating its hollow ends from each other with a diameter corresponding to its inner diameter; and a heat-resistant pencil case, covering the light emitter, is fixed in the housing with set screws, ensuring its centering relative to the axis of the light emitter when it is installed in the housing and operation. 2. The device according to claim 1, characterized in that a laser is used as the light emitter. 3. The device according to claim 1, characterized in that an infrared source is used as a light emitter.

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