RU2522068C1 - Hardware for small arms to signal on aiming line location in prohibited fire sector - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed hardware comprises set of gun barrel spatial orientation and aiming line vector measurement unit. Navigation unit serves to define shooter location coordinates. Transceiver serves to transmit the coded info on shooter location coordinates and receipt of info on coordinates of objects towards which fire is prohibited. Besides, said hardware includes coders and decoders, range and direction vectors computers. It incorporates the unit to compare estimate ranges with gun fire range and unit to compute estimate directions and aiming line vector. Outputs of said comparators are connected via control signal generator with signalling unit input. Signalling unit is configured to be switched on at unlocking the gun Said signalling unit can be communicated via wireless communication channel with audio indicator composed by micro earphone.

EFFECT: ruled out hitting of friendly troops.

3 cl, 1 dwg

Description

The invention relates to security systems for the use of small arms and hunting weapons in a joint action of shooters in the group.

With the joint actions of shooters in a group, in some cases the problem arises of preventing an accidental defeat of a false target (defeat of one's own), especially in conditions of poor visibility. This problem is similar to the recognition of “friend or foe” during combat operations.

A known method of identifying "friend or foe" in relation to technology, presented in the patent [1] - RU 2353892 C2, F41H 13/00, G01S 17/74, 04/27/2009, in which the belonging of the object of technology to "own" is determined by the IR spectrum -radiation, modified in a certain way by applying to the radiating surface a special coating containing certain components that change the spectrum of infrared radiation.

Known systems of recognition of "friend or foe", used to recognize equipment belonging to "friend", based on radar methods. For example, in the patents [2] - RU 2100823 C1, G01S 13/78, 12/27/1997; [3] - RU 2324137 C1, F41H 7/02, F41H 13/00, 04/27/2009 recognition systems are described, the operation of which is based on the formation of a light response when the requested object is irradiated with a laser beam modulated by a specific code that is recognizable only on “its” object . In the article [4] - I. Politov. Identification systems "friend or foe" MBT "ABRAMS" and BMP "Bradley" // Foreign Military Review, 2001, No. 7, p.24 - 26, describes the recognition system based on sending a transmitting antenna with a needle-like radiation pattern of the encoded request radio signal side of the requested object and receiving a response from it received by the omnidirectional antenna.

The considered systems can be connected with weapon control units, prohibiting its use in relation to “their” objects of equipment. The main disadvantage of these systems is that they are applicable only in conditions of direct visibility between the object performing the request and the requested object and their effectiveness depends on the conditions of visibility (radio visibility) on the “interrogator-responder” line. In addition, for the system presented in [1], an important factor is the cleanliness of the coated emitting surface.

Known recognition system "friend or foe", presented in the patent [5] - RU 2386144 C1, G01S 13/78, 04/10/2010, using means of individual navigation. In this system, all objects are combined into a local information and control network, which allows each of the objects to transmit and receive information on the coordinates of the strike, to compare the coordinates of the strike with the coordinates of its own location, and to broadcast an alarm that prohibits this strike if it is in danger zone. The system is applicable when shooting at specified coordinates, as well as when using high-precision weapons with guidance on coordinates. The system is not applicable in the conditions of use of conventional weapons induced by the shooter.

The task of ensuring security when using small arms in certain situations is solved by using the device presented in the patent [6] - RU 2328693 C2, F41H 1/00, 07/10/2008, adopted as a prototype.

The prototype device is designed to prevent the defeat of small arms of its military personnel on the battlefield by signaling that the aiming line has fallen into the prohibited shooting sector, where it is possible to defeat "your" partner (military serviceman), who is part of a group for joint actions.

The prototype device contains equipment placed on weapons, and equipment placed on uniforms. The equipment placed on the weapon includes a laser pointer, a coding unit for laser pointer, and a photodetector coupled to a laser pointer, the output of which is connected to the input of the signaling unit through a control signal generator that decodes and generates a control signal. The equipment located on the outfit includes a transponder, which includes a carrier base with optical fibers, the input ends of which are distributed over the surface of the uniform, and the output ends are combined and, using an auxiliary lens and a color separator, are coupled to the transponder photodetector receiving an encoded signal at a laser wavelength designator and its decoding and recognition. The transponder’s photodetector is connected to a transponder laser emitting an encoded signal at a wavelength different from the wavelength of the laser target, perceived by the photodetector unit coupled to the laser target.

The prototype device operates as follows. A laser pointer emits an encoded signal. In the case of pointing the target to "their" coded laser signal of the target reaches the input ends of the optical fibers distributed over the surface of the uniform. The received signal is transmitted through the optical fiber to the photodetector of the defendant, where it is decoded and recognized. After recognition, the received signal is transmitted to the laser transponder, which under the influence of this signal generates an encoded output signal at a wavelength different from the wavelength of the laser target. This signal is emitted towards the laser target pointer and, passing through the target pointer lens, enters the photodetector unit and then to the input of the driver of the control signal, where it is decoded and the control signal is generated. The control signal is then fed to the input of the alarm unit, initiating its operation. This ensures that the shooter is warned about pointing the weapon at “his own”, that is, about the hit of the aiming line in the forbidden shooting sector.

Obviously, the solution to the problem of ensuring security when using small arms is achieved by the prototype device in a limited number of cases, namely when the beam of the responder laser hits the target designator lens, thus leaving most of the real situations without solving the security problem.

The technical result, to which the claimed invention is directed, is to create more efficient equipment for small arms, signaling the hit of the aiming line in the prohibited shooting sector, where it is possible the defeat of "their" partner (soldier), included in the group for joint action.

The essence of the claimed invention is as follows. Equipment for small arms, signaling the hit of the aiming line in the prohibited shooting sector, contains an alarm unit and a control signal generating unit, the output of which is connected to the input of the alarm unit. Unlike the prototype, the equipment additionally contains a group of sensors for the spatial orientation of the barrel of the weapon, the outputs of which are connected to the input of the measuring unit of the vector of the aiming line, a navigation unit designed to determine the coordinates of the location of the shooter with the weapon, a transceiver designed to broadcast encoded information about the coordinates of the location of the arrow with weapons and receiving from the air encoded information about the coordinates of objects towards which shooting is prohibited, whose entrance through the encoding lock is connected to the output of the navigation unit, the unit for calculating ranges and direction vectors for objects towards which shooting is prohibited, the first input of which is connected to the output of the navigation unit, and the second input through the decoding unit is connected to the output of the transceiver, the unit for comparing estimated ranges with the destruction range small arms, the input of which is connected with the first output of the unit for calculating ranges and direction vectors to objects towards which shooting is prohibited, and the output is connected with the first input of the unit f control signal vectoring, and a unit for comparing the vectors of the calculated directions and the aiming line vector, the first input of which is connected to the second output of the range calculation unit and direction vectors for objects to which shooting is prohibited, the second input is associated with the output of the measuring unit of the aiming line vector, and the output connected to the second input of the control signal generating unit.

In preferred embodiments, the signaling unit is configured in such a way that it is turned on when the weapon is removed from the fuse, while it is connected by a wireless communication channel to an audio signaling device made in the form of an earpiece.

The invention and the possibility of its implementation are illustrated by the presented structural diagram.

Equipment for small arms, signaling the hit of the aiming line in the prohibited sector of fire, contains a group of sensors 1 for spatial orientation of the barrel of the weapon, the outputs of which are connected to the input of block 2 of the measurement of the vector of the aiming line, signaling unit 3, which serves to warn the shooter about the sighting line getting into the prohibited the firing sector, the input of which is connected with the output of the control signal generating unit 4, as well as the navigation unit 5, designed to determine the coordinates of location with a skid with weapons, a transceiver 6, designed to broadcast encoded information about the coordinates of a shooter with a weapon and receive from the air encoded information about the coordinates of objects towards which shooting is prohibited, encoding unit 7, decoding unit 8, range and vector calculation unit 9 directions to objects towards which shooting is prohibited, block 10 comparing the estimated ranges with the range of destruction by small arms and block 11 comparing the vectors of the calculated directions and the line sight vector ianiya.

The input of the transceiver 6 through the encoding unit 7 is connected to the output of the navigation unit 5, which is also connected to the first input of the unit 9 for calculating ranges and direction vectors to objects towards which shooting is prohibited, the second input of which through the decoding unit 8 is connected to the output of the transceiver 6.

The first output of the unit 9 for calculating ranges and direction vectors for objects toward which shooting is prohibited is connected to the input of the unit 10 for comparing the calculated ranges with the range of destruction by small arms, the output of which is connected with the first input of the control signal generation unit 4.

The second output of block 9 for calculating ranges and direction vectors for objects toward which shooting is prohibited is connected with the first input of block 11 for comparing vectors of calculated directions and aiming line vector, the second input of which is connected with the output of block 2 for measuring the aiming line vector, and the output is connected with the second input of the control signal generation unit 4.

Sensors 1 are placed on the weapon. The placement of the remaining units of equipment is not rigidly attached to the weapon and, depending on the design requirements, some of them may be located, for example, on the uniform of a shooter. Depending on the design requirements, the communication between the units can be either wired or wireless, for example, like Bluetooth.

The alarm unit 3 is designed in such a way that it is switched on when the weapon is removed from the fuse. The signaling unit 3 can be connected, for example, by a Bluetooth wireless communication channel with an audio signaling device made in the form of an earpiece (not shown in the structural diagram).

The operation of the claimed equipment is as follows. From the sensors 1 located on the weapon, for example, azimuth and elevation sensors, the data that carry information about the spatial orientation of the weapon barrel and, accordingly, the aiming line, are transmitted to the input of the measuring unit 2 of the vector of the aiming line.

At the same time, using the navigation unit 5, for example, operating on the signals of global navigation satellite systems, the current coordinates of the location of the shooter with a weapon are determined.

Data on the location of a shooter with a weapon arrives at the first input of the unit 9 for calculating ranges and direction vectors for objects toward which shooting is prohibited, as well as at the input of the encoding unit 7.

In coding unit 7, data on the coordinates of the location of the shooter with a weapon together with the identification mark of the shooter are encoded and then transmitted to the input of the transceiver 6, which transmits them using the omnidirectional transceiver antenna to receive this information by other “own” arrows in the group for joint action.

The same transceiver 6 receives from the air encoded information about the coordinates of objects in the direction of which shooting is prohibited, for example, the coordinates of other “their” shooters in the group for joint actions.

Data on the coordinates of objects toward which shooting is prohibited is decoded in block 8 decoding and then fed to the second input of block 9 for calculating ranges and direction vectors for objects towards which shooting is prohibited.

From the first output of block 9, the estimated ranges to objects towards which shooting is prohibited is sent to the input of block 10, where they are compared with a threshold value determined by the range of destruction by small arms. If, as a result of the comparison, it is found that the estimated ranges to objects toward which shooting is prohibited is less than or equal to the range of destruction by small arms, the first warning signal is generated at the output of block 10, which is fed to the first input of the control signal generation block 4.

From the second output of block 9, the calculated data of direction vectors to objects toward which shooting is prohibited is sent to the first input of block 11, where they are compared with the data of the aiming line vector coming to the second input of block 11 from the output of block 2. If, as a result of the comparison, that the vector of the line of sight coincides or is close to one of the direction vectors for objects toward which shooting is prohibited, the second warning signal is generated at the output of block 11, which is fed to the second input of the 4 block of formations control signal.

If there are warning signals at both inputs of block 4, a control signal is generated at its output, which then goes to the input of signaling block 3.

If the weapon is not removed from the fuse, then the alarm unit 3 is turned off and the presence of a control signal does not lead to its operation.

If the weapon is removed from the fuse, the control signal triggers the alarm unit 3. The operation of the alarm unit 3 can occur, for example, in the ignition of one or more LEDs, thereby warning the arrow about pointing the weapon in the direction of “his” partner (serviceman), who is part of the group for joint actions. In other embodiments, the operation of the signaling unit 3 leads to an audible signal in the earpiece connected to the unit 3 by a wireless communication channel.

It is obvious that the claimed equipment has, in comparison with the prototype, a wider range of possibilities for solving the problem of ensuring security when using small arms, since it eliminates the need for the laser beam of the responder to enter the target designator lens, as is required in the prototype, and there is no need to provide direct visibility to the shooter and an object towards which shooting is prohibited.

The above shows that the claimed invention is feasible and ensures the achievement of a technical result consisting in the creation of more efficient equipment for small arms, signaling that the aiming line falls into the prohibited shooting sector, where it is possible to defeat "your" partner (military serviceman), included in the group for joint actions .

Information sources

1. RU 2353892 C2, F41H 13/00, G01S 17/74, publ. 04/27/2009.

2. RU 2100823 C1, G01S 13/78, publ. 12/27/1997.

3. RU 2324137 C1, F41H 7/02, F41H 13/00, publ. 04/27/2009.

4. I. Politov. Identification systems "friend or foe" MBT "ABRAMS" and BMP "Bradley". // Foreign Military Review, 2001, No. 7, p.24 - 26.

5. RU 2386144 C1, G01S 13/78, publ. 04/10/2010.

6. RU 2328693 C2, F41H1 / 00, publ. 07/10/2008.

Claims (3)

1. Equipment for small arms, signaling the hit of the aiming line in the forbidden shooting sector, comprising an alarm unit and a control signal generating unit, the output of which is connected to the input of the alarm unit, characterized in that the equipment further comprises a group of sensors for spatial orientation of the weapon barrel, the outputs of which associated with the input of the measuring unit of the vector of the aiming line, a navigation unit designed to determine the coordinates of the location of the shooter with a weapon, transceiver a sensor designed to transmit encoded information on the coordinates of the location of a gunner with a gun and receive from the air encoded information on the coordinates of objects towards which shooting is prohibited, the input of which through the coding block is connected to the output of the navigation block, the unit for calculating ranges and direction vectors for objects , towards which shooting is prohibited, the first input of which is connected to the output of the navigation unit, and the second input through the decoding unit is connected to the output of the transceiver, comparison unit I calculated ranges with a range of destruction by small arms, the input of which is connected with the first output of the unit for calculating ranges and direction vectors to objects towards which shooting is prohibited, and the output is connected with the first input of the control signal generation unit, and the unit for comparing the vectors of calculated directions and the line vector aiming, the first input of which is connected with the second output of the unit for calculating ranges and direction vectors for objects towards which shooting is prohibited, the second input is connected with the output of the measuring unit vector line of sight, and the output is connected to the second input of the control signal generation unit. 2. The equipment according to claim 1, characterized in that the alarm unit is designed in such a way that it is switched on when the weapon is removed from the fuse. 3. The equipment according to claim 1, characterized in that the signaling unit is connected by a wireless communication channel to an audio signaling device made in the form of an earpiece.