UA141575U - METHOD OF INDICATION OF IMPRESSION WHEN SHOOTING WITH DEADLY AMMUNITION - Google Patents

Abstract

A method of indicating a hit when firing non-lethal ammunition, in which aiming, firing and indication of hitting a target are performed. Indication of hitting the target is carried out by the action of non-lethal ammunition on at least one sensitivity sensor, which is installed on the target. The target is additionally equipped with a counter for the number of hits on the target, a speaker, a light bulb and / or LED strip and a control center, the power is turned on, and the moment when the non-lethal ammunition hits the target is recorded. Vibration from the sensor is transmitted to the hit counter and to the control center. In the control center, install an electronic board and connect it with a cable to the sensitivity sensor, connect it to the meter, speaker, light bulb and / or LED strip. The control center is performed with the ability to automatically receive vibration from the sensor. When registering at the vibration control center, turn on and off the speaker to generate a voice signal, turn on and off the LED strip to generate an LED signal and / or turn on and off the light bulb to generate a light signal. When the specified final number of hits on the target is turned on and off the voice signal, turn on the LED signal from the LED strip and / or the light signal from the light bulb. The shot is fired by means of a plastic firing device comprising a barrel, a receiver in which a shock-air trigger mechanism is installed, and a handle which is mounted on the firing device. The store houses non-lethal ammunition. Non-lethal bullets are used as non-lethal ammunition. To fire, non-lethal bullets are placed in the magazine, acted upon by the force of the air pushed by the shock-air trigger mechanism, and the bullets are pushed out of the barrel by converting the potential energy of the bullets into the kinetic energy of the bullets. A vibration sensor or an impact sensor is used as the sensitivity sensor. The power output of the vibration sensor or shock sensor is connected to the power supply of the electronic board and / or to a stand-alone power supply. The information output of the vibration sensor or shock sensor is connected to the control unit.

Description

The useful model belongs to the methods of indicating damage during shooting, to the method of indicating damage when firing from simulated weapons and is intended for training and teaching training participants, in particular operators, in aiming and shooting at samples of weapons without consuming real ammunition, taking into account the ballistic data of weapons and field shooting rules.

There is a known method of determining the coordinates of the point of impact of a bullet on a video target during training in shooting, in which an image of the background and target situation is formed on the projection screen, the point of impact of the bullet is registered on the projection screen, followed by software processing of the results of the coordinate measurement in the computer, which differs in that evenly illuminate the projection screen with infrared radiation, which forms an image of bullet holes in a video camera with an infrared light filter, carry out a continuous computer comparison of the current image with the previous image formed by a video camera with an infrared light filter, in the presence of bullet holes in the projection screen, for each frame of the television scan on the screen, the coordinates of each new point of impact of the bullet are calculated, in addition, after the shot, at the same moment, the hole is indicated on the projection screen in the form of a color mark (patent of Ukraine Mo 56636, published on 05.15.2003).

There is a well-known way of simulating shooting from small arms, which is based on the study of the basic provisions of the rules of shooting. Instead of the KYA-83 commander's box, a personal electronic computer with appropriate software is used to reproduce the real conditions of shooting small arms, taking into account the ballistic data of the weapon and field rules (patent of Ukraine Mo 71891, publ. 07/25/2012).

The closest analog of a useful model is the well-known method of simulated shooting with laser simulators of shooting and damage, in which the crew searches, finds, recognizes a target (group of targets), makes a decision to attack a target (or a target from a group of targets), conducts aiming, selects the type of ammunition, with the help of a laser shooting simulator, a target (or a target from a group of targets) is irradiated and in this way firing is simulated, and the targets, in the presence of laser irradiation, make a decision about their damage, while the target damage indication is carried out using sound and pyrotechnic devices,

According to which, after selecting a target (or a target from a group of targets), the target is first irradiated with a laser distance meter, the distance to the target is obtained using it, the distance is re-measured using a radio distance meter, the distances obtained using the laser and of the radio range finder and remember them, based on the distance comparison data obtained with the help of a laser and radio range finder, perform a ballistics calculation based on the selected type of ammunition, transmit the memorized distance to the target through the radio range finder, carry out additional aiming by optical tracking of the selected target (or targets from a group of targets), perform a simulated shot with laser irradiation of the target, and the decision to hit the target is made on the basis of a comparison made through a radio rangefinder of the distance from the shooter and re-measurement of the distance using a laser and radio rangefinder, while the coincidence of the recorded distances in the pe the first and second measurement, taking into account the ballistic characteristics of the selected type of ammunition and the nature of the movement of the target (or a target from a group of targets) and the shooter, will ensure the activation of sound and pyrotechnic devices simulating shooting and damage (patent of Ukraine Mo 32112, publ. 15.12.2000). Indication of damage according to the described method is carried out by measuring distances and complex calculations.

The disadvantage of this method is the distortion of the damage indication signal when the weather conditions change due to the technological complexity of measuring distances, which leads to the unreliability of the method, the impossibility of indicating the damage in difficult weather conditions, and the danger to human health of this method in general due to the use of laser radiation during simulated shooting .

The basis of a useful model is the task of creating an improved method of indicating a hit when shooting, which takes into account the identified and eliminated shortcomings of known analogues, which will allow the application of the declared method in case of changing weather conditions, in difficult weather conditions without endangering human life and health.

The basis of the useful model is also the task of creating a highly effective way of indicating a hit when shooting, which allows indicating a hit when shooting in conditions of difficult and variable meteorological conditions, in particular when using smoke screens, regardless of the pressure, force and direction of the wind during shooting.

The technical result achieved by the implementation of a useful model consists in reducing signal distortions when indicating a hit in difficult and variable meteorological conditions, in increasing the reliability and accuracy of calculating the indication of a hit in difficult and variable meteorological conditions in the absence of safety for life and health i, increasing the reliability of the hit indication method when firing when practicing without combat firing in defense and offensive in field conditions. The technical result, which is achieved when implementing a useful model, additionally consists in simplifying the method of firing, increasing the reliability of the method of firing due to the absence of phenomena of wear of the barrel of the firing device, in the absence of phenomena of reducing the survivability of such a barrel, reducing safety for life and health when working out non-combat defensive and offensive shooting in field conditions and in difficult weather conditions with shooting and hitting, as well as - reducing damage to the surrounding environment.

The problem is solved by the fact that in the method of indicating a hit when firing non-lethal ammunition, in which aiming, shooting and indication of hitting the target are carried out, according to a useful model, the indication of hitting the target is carried out by the action of the non-lethal ammunition on at least one sensitivity sensor, which is installed on targets, at the same time, a counter of the number of hits on the target, a speaker, a light bulb and/or an LED strip and a control center are additionally installed on the target, the power is turned on, the moment of non-lethal ammunition hitting the target is recorded, the vibration from the sensor is transmitted to the counter of the number of hits and to the control center, at the same time, an electronic board is installed in the control center and it is connected with a cable to the sensitivity sensor, it is connected to a meter, to a speaker, to a light bulb and/or to an LED strip, while the control center is made with the possibility of automatic acceptance of vibration from the sensor; when registering in the control center, the vibrations turn on and off the speaker to produce a voice signal, turn on and off the LED strip to produce an LED signal, and/or turn on and off the light bulb to produce a light signal, and when a set final number of hits on the target is reached, turn the voice on and off signal, include an LED signal from an LED strip and/or a light signal from a light bulb; the shot is fired using a firing device that is made of plastic mass and that includes a barrel, a receiver in which a shock-air trigger is installed, and a handle , which is installed on the device for

From shooting, in which non-lethal ammunition is placed in the store, where non-lethal bullets are used as non-lethal ammunition, while in order to fire, non-lethal bullets are placed in the store, act on them with the force of air, which is pushed by the shock-air trigger mechanism, and push the bullets out of the barrel by transformation of the potential energy of the balls into the kinetic energy of the balls; where a vibration sensor or shock sensor is used as a sensitivity sensor, while the power output of the vibration sensor or shock sensor is connected to the power supply of the electronic board and/or to an autonomous power source, and the information output of the vibration sensor or shock sensor is connected to the control unit.

Due to the use of sensitivity sensors (vibration sensors), the reduction of signal distortions during damage indication in conditions of complex and variable meteorological conditions is achieved, according to which the reliability and accuracy of the calculation of damage indication with the help of counters and the control center, which perform with the possibility of automatically receiving a signal from the counter, are increased the number of hits on the target, in the conditions of a complex and changing meteorological situation in the absence of safety for life and health, an increase in the reliability and reliability of the damage indication is achieved when practicing non-combat shooting in defense and offensive in field conditions.

A technical feature of a useful model is that the vibration sensors perform in such a way that they are technically adapted to receive the signal from hitting the target of the ball and are not technically adapted to receive the signal from hitting the target of other objects, for example tree branches, stones, lumps lands that can mistakenly hit the target in difficult and changing weather conditions when practicing non-combat shooting in defense and offensive in field conditions. Due to this, a reduction in signal distortions and an increase in the reliability of damage indication in the proposed method is achieved.

However, without limitation, hit capture may also be read by the sensor from hitting the target with other types of bullets and pellets and other types of shots.

The vibration signal and the signal of the number of lesions are sent to the control center.

The reliability of the useful model is also achieved due to the fact that the control center is equipped with the possibility of automatically receiving a signal from the counter of the number of hits on the target.

The reliability of indications, according to the method, is also achieved due to the fact that the control center performs with the possibility of receiving a signal for a given number of hits on the target.

In addition, the reliability of indications is achieved due to the fact that a speaker, light bulb and/or LED strip connected to the control center are additionally installed on the target.

At the same time, the control center contains an electronic board and is made with the possibility of connecting a cable with a sensitivity sensor, with the possibility of connecting with a counter of the number of hits on a target, with a speaker, with a light bulb and/or with an LED strip.

The control center is made with the possibility of automatically receiving a signal from the sensor.

The power output of the vibration sensor is connected to the power source of the electronic board or to an autonomous power source, and the information output of the vibration sensor is connected to the control unit.

A technical feature of the method presented by this utility model is that non-lethal bullets are used as non-lethal ammunition.

A vibration sensor can be used as a sensitivity sensor. Preferably, but not limited to, the vibration sensor contains a piezoelectric film, which upon deformation (bending) leads to the appearance of a potential difference. As soon as the voltage exceeds the limit value, the contact is closed, which leads to the generation of a signal, which is transmitted to the counter of the number of hits and further to the control center. The internal voltage threshold in the vibration sensor is adjusted so that the sensor is triggered only when the sensor is directly affected by the hydrogel ball (ie, when the hydrogel ball hits the target), while this setting prevents the appearance of false signals. The sensitivity of the sensor allows you to detect vibrations caused by human movements and not count them as vibrations from the impact of a hydrogel ball or other type of non-lethal ammunition. The counter and the control center are connected to the sensitivity sensor.

It is also possible to use shock sensors for prompt response to vibration signals and transfer them to the meter. It is possible to use two-level or one-level shock sensors. The advantage of using two-level sensors is the possibility to prevent false response to vibration. Its principle of action consists in responding to the force of the blow and separating false and real blows. The two-level shock sensor allows you to change the operating mode depending on

From a noisy environment. Thus, when you are in a noisy place, you need to turn off the response to weak external influences. In this case, the signal will turn on with light hits.

As a speaker, an electrodynamic loudspeaker is used, in which the conversion of an electrical signal into a sound one occurs due to the movement of a coil with a current in the magnetic field of a permanent magnet (electromagnet), followed by the conversion of the received mechanical vibrations into vibrations of the surrounding air with the help of a diffuser. When an electric signal of sound frequency is applied, the coil produces forced oscillations in the field of a permanent magnet under the action of Ampere's force perpendicular to the lines of force of the magnetic field, capturing the diffuser and creating waves of rarefaction and compression in the air through it. The connection "diffuser-coil" oscillates with the frequency of the supplied current.

A light source assembled on the basis of LEDs is used as an LED strip. It is a flexible printed (mounting) board on which LEDs are equidistant from each other. Usually the width of the tape is 8-20 mm, the thickness (with LEDs) is 2-3 mm. To limit the current through the LEDs, ballast supports (resistors) are introduced into the electrical circuit of the tape, which are also mounted on the tape. They use tapes with a monochrome glow (red, green, blue, yellow, white) and multi-colored (with the possibility of creating almost any shade, KOV-tape). Just like LEDs with white color, LED strips come in different color temperatures - from 2700 K to 10000 K. In the construction of KOV-strips, alternating LEDs of three colors (red, green, blue), that is, this tape can be imagined as three single-color tapes, or three-component KOV LEDs, which have three semiconductor emitters of red, green, and blue light, united in one body. The LED strip works from direct current and is connected to a constant voltage, usually 12 V, less often 24 V and 5 V. To smoothly control the brightness and color of the light, colored LED strips use controllers whose principle of operation consists in changing the brightness of the light of the LEDs separately for each color .

An artificial light source is used as a light bulb (incandescent lamp), in which light is emitted by an incandescent body heated by an electric current to a high temperature. As incandescent bodies most often use a spiral made of refractory metal (most often -

tungsten) or carbon filament. To exclude oxidation of the incandescent body when in contact with air, it is placed in a vacuum flask or a flask filled with inert gases or vapors. It is possible to use incandescent lamps: vacuum (the simplest), argon (nitrogen-argon), krypton, xenon-halogen with a reflector, IR radiation.

Non-lethal bullets are used as non-lethal ammunition for shooting in variable and difficult meteorological conditions.

Preferably, but not limited to, hydrogel balls are used. Preferably, but not limited to, balls containing phosphorus, a copolymer of a carboxylic acid or a copolymer of a derivative of a carboxylic acid and water are used. The carboxylic acid is preferably, but not limited to, an unsaturated monobasic carboxylic acid, in particular, acrylic acid. A copolymer of acrylamide and sodium acrylate is preferably, but not limited to, used as a copolymer of a carboxylic acid derivative. In addition, the composition of hydrogel balls can include such additives as sodium hydroxide and dye. Due to the fact that a carboxylic acid copolymer or a carboxylic acid derivative copolymer in the form of beads with any amount of water forms a hydrogel, let us assume any ratio between water and the carboxylic acid copolymer and the carboxylic acid derivative copolymer. Preferably, but not limited to, hydrogel balls contain up to 95% water, the rest is a copolymer of carboxylic acid or its derivative with additives. Another application of the quantitative composition and ratio of the constituent components of hydrogel balls is possible.

Due to the use of non-lethal bullets as non-lethal ammunition, they are able to reduce the flight speed of the ammunition to the permissible level, which makes the ammunition not only non-lethal, but also allows safe for health and painless shooting: no bruises and bruises are left on the human body from being hit by the ammunition into the body There are no pain sensations from the contact of non-lethal bullets with the human body.

Due to the use of non-lethal bullets, such a phenomenon as barrel wear does not occur, which increases the reliability of the shooting method.

Due to the use of non-lethal bullets, as well as due to the fact that the shot is carried out using a simulated shooting device, which is made of plastic mass and contains a barrel, a receiver, in which a shock-air trigger is installed

From the mechanism, the handle, while the magazine of the device is made with the possibility of placing non-lethal ammunition, the proposed method allows shooting in difficult meteorological conditions, in particular when using smoke screens, when changing the ballistic characteristics of the flight of non-lethal bullets depending on the pressure, force and direction of the wind during shooting

So, the problem solved by the proposed method is the development of a new method that reveals the technical result due to the synergistic effect of the set of essential features specified in the formula.

The barrel (muzzle) of the simulating device for shooting is made with the possibility of converting the potential energy of the physical effect used into the kinetic energy of the ammunition and serves for the direction of flight of bullets - non-lethal ammunition.

The receiver (frame) of the shooting simulator is designed to connect all parts of the device.

The store of the device is made with the possibility of placing non-lethal bullets. The store (clip) of the device is made with the possibility of placing a large number of bullets for a large number of shots (up to 500 shots).

The simulation device for shooting is made of plastic masses (plastic).

The method is implemented with the help of a shooting device, the schematic conventional image of which is explained with the help of the attached drawing.

In Fig. 1 shows a general view of a simulation device for shooting, the magazine of which is made with the possibility of placing non-lethal bullets.

In Fig. 2 conventionally shows the relationship between the sensitivity sensor, the counter and the control unit (center).

The following designations are used in the drawings: 1 - barrel, 2 - receiver,

C - shock-air trigger, 4 - handle, 5 - sight, 6 - magazine, 60 7 - sensitivity sensor,

8 - counter, 9 - control center (control unit).

Tactical and technical characteristics of the shooting device according to the useful model. 1). Orbisball machine EmZ 14.

Shooting range - about 30 m.

Aimed hit - about 20 m. balls per second (automatic mode).

Single shot mode and queue mode.

Universal battery connector. 10 Built-in 20 mm rail for auxiliary elements (laser sight, flashlight, etc.).

Dimensions: - length including stock 70 cm, - height 30 cm (from clip to scope).

Case type: compound.

Material: plastic.

Source: lithium-polymer battery 7.4 M-11.1 U

The set issued to fighters includes: a machine gun, clip (magazine), battery 11.1 M 1400 tA, charger, protective glasses, set of balls 500 pcs. 2). Orbisball machine RM 4.

Shooting range - about 20 m.

Aimed hit - about 15 m. 8 balls per second (automatic mode).

Single shot mode and queue mode.

Universal battery connector.

Built-in 20 mm rail for auxiliary elements (laser sight, flashlight, etc.).

Dimensions: - total length 66.5 cm (folded example « 10 cm),

Zo - height 31 cm (from the clip to the sight).

Butt type: sliding.

Material: plastic.

Source: Lithium polymer battery 7.4MU-11.1U.

The kit issued to fighters includes: a machine gun, clip (magazine), battery 7.4 M 1200 tA, charger, protective glasses, set of balls 500 pcs. 3). AK 47 Orbizball machine gun Vabis I op.

Shooting range - about 20 m.

Aimed hit - about 15 m. 8 balls per second (automatic mode).

Single shot mode and queue mode.

Universal battery connector.

Built-in 20 mm rail for accessories (laser sight, flashlight, etc.).

Dimensions: - total length 93 cm (together with the butt and silencer - height 27 cm (from the clip to the body).

Type of butt: detachable.

Material: plastic.

Source: Lithium polymer battery 7.4MU-11.1U.

The kit issued to fighters includes: a machine gun, a clip, a 7.4 M 1200 tA battery, a charger, protective glasses, a set of 500 balls.

The method of shooting and hitting is realized with the help of equipment, which includes: 1) a shooting device, the magazine of which is made with the possibility of placing non-lethal bullets; 2) non-lethal ammunition; 3) control unit, electronic board, at least one sensor, speaker, counter, LED strip, light bulb.

The method is carried out as follows.

During training, a team of fighters searches, locates, recognizes a target, aims and makes a decision to attack a target. The shooter aims at the target using the sight (5), holding the firing device by the handle (4), presses the shock-air trigger (3) of the firing device and fires. When the trigger is pressed, the non-lethal bullets from the magazine fall into the barrel (muzzle) of the firing device and, due to the conversion of the potential energy of the bullets into the kinetic energy of the bullets, a shot is fired by the bullet flying out of the barrel (1). Shooting is carried out taking into account the ballistic data of weapons and field shooting rules. Shooting is carried out under conditions of a smoke screen, as well as in variable meteorological conditions. After the shot is fired, the non-lethal bullets hit the target (the target is the fighter's vest, helmet or other places both on the fighter's body and outside the fighter's body and the like). The vest contains sensors, the helmet may also contain sensors. The vest and helmet are connected by a cable. The vest has ports for connecting the cable.

Vests can be equipped with a different number of vibration sensors that collect signals from a bullet hitting the vest and transmit it to a board installed on the helmet. The power source is installed on the helmet, the power source can also be installed autonomously on the vests, or the power source is installed on both the helmet and the vests. All wires (cable) are soldered to the electronic board. On the back of the helmet there is a control unit, an electronic board, which is placed in a plastic case, a dial with a counter, a battery connector, and a smoke grenade connector are soldered to the board. Light bulbs, LED strips and other devices are installed on the vests, and they can also be installed in other places on the (target.

A predetermined number of shots (the so-called "number of lives") is set in the control unit. The hit of the bullet on the target is registered. Due to vibration (or shock), the sensors are activated, the signal from the sensor is transmitted to the control unit on the helmet. A hit counter and a control center are installed on the helmet. A speaker is installed on the helmet. When hitting a target (for example, when hitting a vest), the signal from the sensor is transmitted to the control unit, which is installed on the back of the helmet. There is a voice signal, there is a light signal (light bulbs and/or LED strip are flashing). After that, they shoot one set shot. After all the given shots are finished, the lights and/or LED strip light up and continue to burn continuously without flashing. In the case of using a multi-colored LED tape, as pre-set shots are fired in the control unit, the amount of green on the tape increases. After hitting the target, when using a multi-colored LED strip, the strip first flashes in red, after which the brightness of the glow decreases by extinguishing the light on one section of the green strip. Areas of light remain on the tape, the number of which corresponds

With "life" on the control unit. An LED strip and/or light bulb can also be installed on the helmet. The set number of hits is set in the control unit. The hit counter and the control center are connected to the sensors installed on the fighter's helmet and vest. The control center is connected to a speaker, an LED strip and/or a light bulb. The command is transmitted from the control unit to the speaker, LED tape, light bulb. When hitting

With 5 vest or helmet, by transmitting a signal from the sensor to the control center and the counter, the control center automatically "removes" the given number of hits. The helmet can be turned off or on. Additionally, a port for a smoke grenade can be installed on the target (helmet). At the end of the set number of shots, electricity is supplied to the contacts located in the port for the smoke bomb, which is transmitted to the contacts installed on the smoke bomb, due to which the igniter is activated and the smoke bomb occurs.

For example, the implementation of the action of the light/LED signal and the voice signal is as follows. After the bullet hits the target, the vibration of the bullet is registered, the sensor is activated, the control unit automatically "takes off" one shot from the predetermined number of shots. Simultaneously with the reduction of the predetermined number of shots, a voice accompaniment is played, for example, a human voice in English, followed by a siren that is repeated three times. During the siren, the light begins to flash (if a light bulb is used). Then the light turns off. After all the predetermined number of shots have been used, a voice signal sounds in the form of a voice accompaniment, a siren sounds, a light flashes, which does not turn off. In the case of using an LED strip, voice signals in the form of a siren and voice accompaniment are also used, the LED strip installed on the helmet flashes red, after which the LED strip changes color to green, while the number of green light areas decreases by the number corresponding to the number of hits in goal At the same time, the predetermined number of shots at the target is displayed in the form of the number of green areas on the LED strip. When all of the pre-set shots have been fired, the LED strip will flash red without turning on the green light on the strip.

Light and voice signals are implemented by the program for which the microcircuit is programmed. The speaker is installed on the helmet, the LED strip or light is installed on the helmet. A speaker, LED strip or light is connected to the control unit on the helmet.

Hit indicating devices can be different colors, different sizes, and can be located anywhere on and off the target. It is also possible to use different updates in the proposed method, which will be aimed at identifying the hit.

Options for implementing a useful model.

Option 1. Conducting training - combat task "Survive and capture". The task: capture the flag, bring it to the enemy's base and hold it until the end of the training, while staying alive and causing damage to the enemy team. All shots during the mission are fired using the method suggested by this useful model.

Option 2. Conducting training - combat mission "Secret task". In this battle mission, the challenge to find special bonus points for the fighter team has been added to the "Survive and Capture" version of the mission. All shots during the execution of the task are carried out using the method proposed by this useful model.

Option 3. Conducting training - combat mission "Crazy Day". In this combat mission, the first team of fighters is a special forces unit that was captured. It is necessary to get out of captivity and reach the destination. The second team of fighters is looking for the first team. The tasks of the second team are to prevent the first team of fighters and complete their task. All shots during the task are carried out using the method proposed by the useful model.

In addition, the method according to the useful model can be used when conducting training sports games, tactical games, entertaining sports games.

Various modifications and changes are proposed, which are covered by the essence of this application and the scope of the utility model formula.

Claims (1)

USEFUL MODEL FORMULA A method of indicating a hit when firing non-lethal ammunition, in which aiming, firing and indication of hitting a target are carried out, which is characterized in that the indication of hitting a target is carried out by the action of a non-lethal ammunition on at least one sensitivity sensor that is installed on the target, while a counter of the number of hits on the target, a speaker, a light bulb and/or an LED strip and a control center are additionally installed on the target, the power is turned on, the moment of non-lethal ammunition hitting the target is recorded, the vibration from the sensor is transmitted to the counter of the number of hits and to the control center, while an electronic board is installed in the control center and connected with a cable to a sensitivity sensor, it is connected to a meter, to a speaker, to a light bulb and/or to an LED strip, while the control center is made with the possibility of automatically receiving vibration from the sensor; during registration in the vibration control center on and off turn on the speaker to produce a voice signal, turn on and off the LED strip to produce an LED signal and/or turn on and off the light bulb to produce a light signal, and when a predetermined final number of hits on the target is reached, turn the voice signal on and off, turn on the LED signal from the LED strip, and /or a light signal from a light bulb; at the same time, the shot is carried out with the help of a firing device, which is made of plastic mass and contains a barrel, a receiver in which a shock-air trigger is installed, and a handle, which is installed on the firing device, and non-lethal ammunition is placed in the store, where how non-lethal munitions use non-lethal bullets, and in order to fire the non-lethal bullets, they are placed in the magazine, act on them by the force of air pushed by the shock-air trigger, and push the bullets out of the barrel by converting the potential energy of the bullets into the kinetic energy of the bullets; where a vibration sensor or shock sensor is used as a sensitivity sensor, while the power output of the vibration sensor or shock sensor is connected to the power supply of the electronic board and/or to an autonomous power source, and the information output of the vibration sensor or shock sensor is connected to the control unit. h y ku U y o y Be VKM v EE. in OO ZHK "m, U same with I fig. 1 mm: t dim pln yuyu them. Sho sekhhhh, - ; WRITE. i. і Z sheoooyanzhoozhooyanoooshnooshhoooshtoooshoshshchooshcheoshtooshtoeshtovono Fig. 2