UA141574U - METHOD OF SHOOTING WITH DEADLY AMMUNITION - Google Patents

Abstract

A method of firing non-lethal ammunition, in which aiming and firing are performed. The shot is fired by means of a firing device made of plastic and containing a barrel, a receiver in which an air-shock trigger mechanism is installed, and a handle which is mounted on the firing device. Non-lethal ammunition is introduced into the store, an air-shock trigger mechanism is actuated, and hydrogel balls containing phosphorus, a copolymer of carboxylic acid and water are used as non-lethal ammunition. In this case, the hydrogel balls introduced into the magazine are acted upon by the force of the air, which is pushed by the air-shock trigger mechanism, and the hydrogel balls are pushed out of the barrel by converting the potential energy of the hydrogel balls into the kinetic energy of the hydrogel balls.

Description

The useful model belongs to the methods of shooting, to the methods of firing from weapons with non-lethal ammunition and is intended for training and education of training participants, in particular operators, in aiming and shooting at samples of weapons without the consumption of real ammunition, taking into account the ballistic data of weapons and field rules of shooting .

There is a known method of controlling the guidance and fire of a combat vehicle of a reactive salvo fire system, which is used as an element of an automated control system (ACS) for the guidance and fire of a combat vehicle of a reactive salvo fire system. According to this method, autonomous topographic-geodetic anchoring and orientation of the combat vehicle are used, autonomous calculation of firing settings and data of the flight task based on the coordinates of the aiming points, and aimless guidance of the guide package are carried out. Using the autonomous orientation system, the initial azimuth is determined, and with the help of navigation equipment (navigation system) - the initial coordinates of the combat vehicle, after which the location and orientation of the combat vehicle are continuously determined on the basis of the navigation system, which are displayed with the help of the system on the background of the topographic map. After receiving the target indication through the data reception-transmission unit with the help of the automatic control system, the range (distance) to the target and the direction of entry to the starting position are also displayed. At the starting position, the set guidance angles for the current coordinates of the combat vehicle are determined using the automatic control system, as well as the discrepancy between them and the current guidance angles is continuously determined. With the help of guidance drives, guidance of the guide package is carried out along these differences.

Disadvantages of the method of controlling the guidance and fire of a combat vehicle of a rocket salvo fire system are its complexity, high cost, and the impossibility of using it for training operators, given the lack of means of simulating firing, as well as the lack of the ability to take into account the influence of meteorological conditions on the ballistic characteristics of weapons.

From the state of the art, there is a known method of orientation on the terrain based on the use of a firearm and with the participation of an observer, which is implemented with the help of a suitable device for orientation on the terrain. This method includes preliminary assembly of at least two sets of individual equipment of the observer (training participant), as well as a set of group equipment, while each of the sets of individual equipment of the observer is assembled

Zo consists of a position angle sensor, an azimuth sensor, a device for determining own coordinates, a control and calculation device, a receiver-transmitter, and a set of group equipment is assembled as part of a group receiver-transmitter, a control and calculation device with a digital terrain model, and the first, second, the fourth and sixth inputs of the control and calculation device are connected to the corresponding outputs of the position angle sensor, the azimuth sensor, the device for determining own coordinates and the receiver-transmitter of the set of individual equipment of the observer, the input of which is connected to the first output of the control and calculation device, the receiver-transmitter a set of individual equipment of the observer is connected via a radio channel to a group receiver-transmitter, the output of which is connected to the second input of a control and calculation device with a digital terrain model, and the first output of a control and calculation device with a digital terrain model is connected to the input of a group receiver-transmitter . After that, the data on the relative location of the observer and the target assigned to him are transmitted via the radio channel through receiver-transmitters to an individual control and calculation device, in which they are compared with the data received from position sensors in space in terms of elevation angle and azimuth, and the resulting difference signal is transmitted on the indicators-pointers of vertical and horizontal rotation, which are mounted in the optical device of the observer. The disadvantage of this method of orientation on the terrain is the impossibility of using it for training, given the lack of means of simulating shooting and damage, the absence of barrel wear and failure to take into account various meteorological conditions when simulating shooting and damage (patent VI Mo 2247921, IPC 7 Г41С23/00, 0155/ 02, published on February 20, 2004).

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 one 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 OA 56636, publ. 05.15.2003).

There is a well-known classical method of archery or sports weapons, according to which the athlete takes a suitable position, holds his breath for 7-10 seconds while simultaneously aiming. After the specified time, the shooter presses the trigger or releases the bowstring (see Toropov V.A., Koldunov S.A. Service weapon, device, application, training. - St. Petersburg, 1997, 112 p.).

From the state of the art, a method of firing non-lethal bullets from a 40-38 mm single-shot pistol designed for firing non-lethal and signal projectiles is known (see

Small arms of the 80s. Publishing House of the Ministry of about. PNR -1985. - with. 73.). The disadvantage of this method is the small number of cartridges (one in the barrel), which makes it difficult to use such a means for shooting.

There is a known method of shooting with sports weapons, which includes aiming, controlling the tension of the bow or the axis of the weapon and shooting, in which the shot is additionally delayed, while the delay and the shot are performed using a time delay unit (patent

OA 53552, publ. 15.01.2003). This method cannot be used in difficult and variable meteorological conditions.

There is a well-known method of simulating shooting from small arms, which is based on the study of the basic provisions of the shooting rules. 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 OA 71891, publ. 07/25/2012). The known method is complicated and cumbersome.

There is a known method of shooting non-lethal bullets, which includes shooting from a semi-automatic pistol, according to which shooting is carried out through a nozzle that reduces the initial speed of the bullet, and as a nozzle, a silent firing device of an integral type is used. The nozzle consists of a silencer housing, which has damping gaskets, an expansion chamber for powder gases that enter the chamber through holes in the barrel. The integral muffler has a bayonet-type mount and is attached to the barrel behind

With the help of pins. In front of the body on the barrel there are also holes for the exit of powder gases.

The operation of the nozzle for the implementation of the method is as follows: after the passage of the non-lethal bullet in the process of firing, the powder gases, passing through the barrel, exit into the holes in front of the device body, due to which the speed of the bullet is reduced to the permissible level (patent OA 35727, publ. 04/16/2001 ). This method is not intended for use in difficult and variable meteorological conditions.

There is a known method of training without bullets in shooting with pneumatic weapons, which consists in simulating a shot, while a portion of compressed air enters the barrel of the weapon when the trigger is pressed, which causes the recoil of the weapon and the sound of the shot, which corresponds to the conditions of a real shot with a bullet (OA patent 61871, published on July 25, 2011). This method is not intended for use in difficult and variable meteorological conditions.

A known method of loading weapons, which consists of the following steps: - the start of the loading procedure in combination with issuing the command to open fire at the first moment, - the introduction of ammunition into at least one chamber or several chambers of the revolver drum, while the rotation of the revolver drum occurs at least approximately at a speed, which corresponds to the normal rate of fire of the weapon, and the revolver drum continues to rotate at least until the first cartridge reaches the firing position, - activating the trigger mechanism of the weapon at the second moment, which immediately follows the first moment, as a result of which fire is opened almost without delay, when therefore, the firing sequence ends when the third moment is reached and, if no other command to open fire is received, the weapon is discharged from the next moment, so that from a certain final moment the weapon will be discharged (patent for the invention OA 107624, publ. 01.26.2015). This method is not intended for use in difficult and variable meteorological conditions, the method of firing proposed in this invention leads to wear of the barrel of the weapon and a decrease in its survivability.

There is a well-known method of training to fire a pistol based on the feedback action of a rubber band with a target, which differs in that the rubber band is fixed with one end on top of the gun with a bushing, the other is fixed on the target and thereby reproduces the projection of a straight line and feedback 15 with a target, the tension force of the rubber band functionally ensures the application of force by the hand with the gun when it is in the starting position lowered down and thereby creates muscle tension of the arm as a whole, and under the condition of reducing the tension (weakening of the antagonist muscles), the resistance of the arm - decreases relative to the stretched rubber band, the force of stretching the rubber band brings the hand with the gun forward to the target directly by the target itself (invention patent OA 100443, publ. 01/25/2012). This method is not intended for use in difficult and variable meteorological conditions, the method of firing proposed in this invention leads to wear of the barrel and a decrease in its survivability.

A 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, using a laser shooting simulator irradiate a target (or a target from a group of targets) and thus simulate shooting, and the targets, in the presence of laser irradiation, make a decision about their damage, while indication of damage to the target is carried out using sound and pyrotechnic devices, according to which after selecting the target ( or targets from a group of targets), pre-irradiate the target with a laser distance meter, obtain the distance to the target using it, perform a repeated distance measurement using a radio distance meter, perform a comparison of the distances obtained using a laser and radio distance meter and memorize them, distance comparison data obtained with the help of a laser and a radio range finder, calculate ballistics based on the selected type of ammunition, transmit the memorized distance to the target via a radio range finder, carry out aiming by optical tracking of the selected target (or a target from a group of targets), perform a simulated shot with laser irradiation of the target, and make a decision on hitting the target is carried out on the basis of a comparison of the distance received through the radiometer from the shooter and re-measurement of the distance using a laser and radio distancemeter, while the coincidence of the recorded distances in the first and second measurements, taking into account the ballistic characteristics of the selected type of ammunition and the nature of the movement of the target (or targets from the group targets) and the shooter, will ensure the activation of sound and pyrotechnic devices simulating shooting and damage (patent OA 32112, publ. 15.12.2000).

This method is chosen as a prototype. The disadvantage of this method is technological complexity

From shooting, since complex laser equipment is used, the method is dangerous for human health due to the use of laser radiation, as well as the impossibility of using the method in difficult weather conditions and when weather conditions change.

The basis of a useful model is the task of creating a method of firing non-lethal ammunition, which takes into account, identifies and eliminates the shortcomings of the known level of technology, which will allow the application of the stated method for firing in difficult and variable weather conditions, without endangering human life and health.

The useful model is based on the task of creating a highly effective way of using non-lethal ammunition, which will allow firing in difficult meteorological conditions, including when using smoke screens, when changing the ballistic characteristics of the flight of ammunition regardless of the pressure, force and direction of the wind during firing, with lack of wear of the barrel of the firing device, without violating the integrity of non-lethal ammunition.

The task is solved by the fact that the method of firing non-lethal ammunition, in which aiming and shooting are carried out. The shot is carried out with the help of a shooting device, which is made of plastic mass and contains a barrel, a receiver in which an air-shock trigger is installed, a handle that is installed on the shooting device. Non-lethal ammunition is introduced into the store, an air-shock trigger is activated, and as non-lethal ammunition, hydrogel balls containing phosphorus, carboxylic acid copolymer and water are used. At the same time, the hydrogel balls introduced into the magazine are acted upon by the force of air, which is pushed by the air-shock trigger mechanism, and push the hydrogel balls out of the barrel by converting the potential energy of the hydrogel balls into the kinetic energy of the hydrogel balls.

The technical result achieved by the implementation of the stated solution 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, and the absence of harm to life and health when practicing without combat defensive and offensive shooting in field conditions and in difficult meteorological conditions with shooting and damage, as well as - reducing damage to the environment through the use of biodegradable non-lethal ammunition.

The presented set of essential features ensures the solution of the task and the achievement of the technical result.

A technical feature of the method presented by this utility model is that hydrogel balls containing phosphorus, carboxylic acid copolymer and water are used as non-lethal ammunition.

The applicant unexpectedly discovered that the hydrogel balls of the above composition, which are still applicable in horticulture, floristry, and decoration, when used as non-lethal ammunition when firing from a shooting device made of plastic, ensure such shooting in which, according to first, there is no wear of the plastic barrel of the shooting device, due to which the phenomenon of reducing the survivability of such a barrel does not occur (since there is no strong friction of the hydrogel with the inner surface of the barrel); secondly, they are suitable for shooting in variable and difficult meteorological conditions, due to the presence of phosphorus balls in the composition; thirdly, they allow shooting without harming the environment (since they are decomposable); and, fourthly, they allow shooting without causing harm to life and health, since when hitting a target (in a person), due to the hydrogel structure, when used correctly, they do not leave bruises and bruises, do not cause pain when contact with the human body: when hitting a target, they fly into microscopic very small pieces (grains of sand) that do not have sharp edges (when other balls fly into pieces when hitting a target, it is possible for sharp pieces of balls to hit the human body and cause harm to health u). Therefore, the potential energy of the hydrogel balls is transformed into the kinetic energy of the hydrogel balls when they are pushed out of the barrel under the action of the air force from the movement of the trigger mechanism in the most optimal way.

The applicant experimentally established that when using as non-lethal ammunition balls that have the physical form of hardened gel (ie, not hydrogel), the phenomenon of barrel wear occurs, since gel balls have a high force of friction against the barrel during the movement of the ball in the barrel, also when hitting the target (in a person), due to the gel structure, gel balls leave bruises and bruises, such balls cause a feeling of pain when in contact with the human body when hitting the target, they fly into large pieces when hitting the target, as a result of which pieces of gel

Balls can get into a person's eye and cause damage to the organ of vision. Therefore, the transformation of the potential energy of the balls having the physical form of a hardened gel into the kinetic energy of the balls having the physical form of a hardened gel, when pushing them out of the barrel, under the action of air force from the movement of the trigger mechanism, is not optimal, with the above-mentioned shortcomings.

The applicant also experimentally established that when using balls made of plastic mass and having the physical form of a solid body as non-lethal ammunition, the phenomenon of barrel wear also occurs, since solid balls have a high force of friction against the barrel during the movement of the ball in the barrel, also when hitting at the target (in a person), due to the physical structure of a solid body, such balls leave bruises and bruises, they cause a feeling of pain when in contact with the human body when hitting a target, they also fly into large pieces when hitting a target with sharp edges , as a result of which pieces of balls in the form of a solid body can enter the human eye or other part of the human body and cause damage to the organ of vision or other organs of the body. Therefore, the transformation of the potential energy of balls made of plastic mass and having the physical form of a solid body into the kinetic energy of balls made of plastic mass and having the physical form of a solid body, when pushing them out of the barrel, under the action of air force on them from motion of the shock-trigger mechanism, it is not optimal, with the above-mentioned disadvantages.

So, the applicant found that hydrogel balls are optimal for shooting through a plastic muzzle (barrel).

So, one of the reasons for achieving the technical result according to the decision is that non-lethal munitions use hydrogel balls that contain phosphorus, a copolymer of a carboxylic acid or a copolymer of a derivative of a carboxylic acid and water.

Due to the fact that the composition of the non-lethal ammunition includes phosphorus, a copolymer of carboxylic acid or a copolymer of a derivative of a carboxylic acid and water, which form a hydrogel in the form of balls, the ammunition is non-lethal. Upon hitting the target, the burst balls fall to the ground and are completely biodegradable, which does not harm the surrounding environment.

Due to the hydrogel physical form of the balls and the fact that the balls include phosphorus, because the copolymer of a carboxylic acid or a copolymer of a derivative of a carboxylic acid and water, the balls are able to reduce the flight speed of ammunition to the permissible level, which makes the ammunition not only non-lethal, but also allows safe for health and painless shooting: not to leave bruises and bruises on a person's body from hitting the body with ammunition. There are no painful sensations from the contact of hydrogel balls with the human body.

Due to the hydrogel form of the balls and the fact that the balls include phosphorus, a copolymer of a carboxylic acid or a copolymer of a derivative of a carboxylic acid and water, such a phenomenon as barrel wear does not occur, which increases the reliability of the shooting method.

Due to the hydrogel form of non-lethal ammunition balls, and the fact that the balls include phosphorus, a copolymer of carboxylic acid or a copolymer of a derivative of a carboxylic acid and water, and also due to the fact that the shot is carried out using a firing device that is made of plastic mass and which contains a barrel, a receiver, in which a shock-trigger mechanism is installed, a handle, and the magazine of the device is made with the possibility of placing non-lethal ammunition, the proposed method allows firing in difficult meteorological conditions, in particular when using smoke curtains, when changing the ballistic characteristics of the flight of hydrogel balls regardless of the pressure, force and direction of the wind during shooting.

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.

Additionally, 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 9595 water, the rest - a copolymer of carboxylic acid or its derivative, together with additives. Another application of the quantitative composition and ratio of the constituent components of the hydrogel balls with the achievement of the declared technical result is possible.

The barrel (muzzle) of the shooting device 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 balls - non-lethal ammunition.

The receiver (frame) of the device for firing the device.

The store of the device is made with the possibility of placing hydrogel balls, which contain a copolymer of carboxylic acid or a copolymer of a derivative of carboxylic acid and water.

The store (clip) of the device is made with the possibility of placing the number of shots.

The shooting device is made of plastic materials (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.

On the chair. shows the general view of a simulated shooting device, the magazine of which is made with the possibility of placing hydrogel balls.

The drawing uses the following symbols; 1 - barrel 2 - receiver

C - trigger mechanism 4 - handle 5 - sight b - magazine.

The tactical and technical characteristics of the simulation device for shooting according to the proposed method are given below. 1). Orbisball machine EhZ 14.

Shooting range - about 30 m

Aimed hit - about 20 m 10 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: 60 - length including butt 70 cm

- height 30 cm (from the clip to the sight)

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 stock « 10 cm) - height 31 cm (from clip to sight)

Butt type: sliding

Material: plastic

Source: Lithium-polymer battery 7.4U-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 Vavis I opd orbizball machine Firing 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 (including butt and silencer - height 27 cm (from clip to

From the case)

Type of butt: detachable

Material: plastic

Source: Lithium-polymer battery 7.4M-111U

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 damage is implemented with the help of equipment, which includes: 1) a shooting device, the magazine of which is made with the possibility of placing hydrogel balls, which contain a copolymer of carboxylic acid and water; 2) non-lethal ammunition - hydrogel balls that contain phosphorus, carboxylic acid copolymer and water.

The method is implemented 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. Set the number of shots in advance in the control unit (the so-called "number of lives"). The hit of the bullet on the target is recorded. Due to vibration (or shock), the sensors are activated, the signal from the sensor is transmitted to the helmet to the control unit. 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 shot. After all fired shots have been fired, the lights and/or LED strip will light up and continue to burn continuously without flashing. In the case of using an LED strip of multi-colored glow, as the pre-fired shots are displayed in the control unit, the supply of green color on the strip 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 to the "lives" on the control unit. You can also install an LED strip and/or a light bulb on the helmet. The number of hits is set in the control unit. The hit counter, the control center is connected to the sensors installed on the helmet and on the fighter's vest. The control center is connected to the speaker, the LED strip and/or light bulb. The command is transmitted from the control unit to the speaker, LED strip, light bulb. When a vest or helmet is hit, by transmitting a signal from the sensor to the control center and the counter, the control center automatically "removes" the number of hits. The helmet can turn off or on. Additionally, a target (helmet) may be equipped with a smoke grenade port. When the number of shots fired is over, the contacts in the smoke grenade port are supplied with electricity, which is transmitted to the contacts mounted on the smoke grenade according to due to which the igniter is activated and the checkers are smoked. For example, the implementation of the action of the light/LED signal t and the voice signal happens in this way. After the bullet hits the target, the vibration of the bullet is registered, the sensor is triggered, the control unit automatically "takes off" one shot from the previously fired number of shots. At the same time as the number of shots fired in advance decreases, a voice accompaniment sounds, for example

From 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 the entire number of previously fired shots has been used, a voice signal sounds in the form of a voice accompaniment, a siren sounds, and 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 number of shots fired at the target in advance 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. The light and voice signal are implemented due to the program for which the microcircuit is programmed. The speaker is installed on the helmet, the LED strip or light bulb is installed on the helmet. A speaker, LED strip or light bulb 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 the proposed method are given below.

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 execution of the task are carried out using the method proposed by this technical solution.

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 technical solution.

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. You need to get out of captivity and reach your destination. The second team of fighters is looking for the first team. The tasks of the second 60 team are to prevent the first team of fighters and complete their task. All shots during the execution of the task are carried out using the method proposed by this technical solution.

Additionally, the proposed method can be used for training sports games, tactical games, and entertaining sports games.

It should be understood that the examples and embodiments described above are illustrative only, and various modifications and changes are suggested to those skilled in the art that are within the spirit of this application and the scope of the technical solution formulation.

It should be understood that the above information in no way limits the scope of the rights under the application.

The claimed utility model is industrially applicable.

Claims (1)

USEFUL MODEL FORMULA A method of firing non-lethal ammunition, in which aiming and firing is carried out, which is characterized by the fact that the firing is carried out with the help of a firing device, which is made of plastic mass and which includes a barrel, a receiver in which an air-shock trigger is installed, a handle that installed on the device for shooting, moreover, non-lethal ammunition is introduced into the store, an air-shock trigger is activated, and hydrogel balls are used as non-lethal ammunition, which contain phosphorus, a carboxylic acid copolymer and water, while the hydrogel balls introduced into the store are acted upon by the force of air, which is pushed by an air-shock trigger, and pushes the hydrogel balls out of the barrel by converting the potential energy of the hydrogel balls into the kinetic energy of the hydrogel balls. VK o OO 5 Kk I KO 55 BO Bu "day of osa sy schu y