WO2012091612A1 - Practice apparatus for shooting - Google Patents

Abstract

The invention relates to practice apparatuses for instruction in small arms shooting. The practice apparatus for shooting comprises an optical emitter arranged in the barrel of the small arms and comprising a laser, power supply elements and a trigger circuit for actuation at the moment of the shot, and a target in the form of a sheet with a luminophore layer on the face, over which a target grid is placed. The laser emits violet-coloured radiation with a wavelength of less than 430 Nm, and the trigger circuit for actuation at the moment of the shot comprises a microphone for picking up a click of the small arms firing pin and for supplying power to the above-mentioned laser at the moment of the click.

Description

 Shooting simulator

The invention relates to simulators for training in shooting from small arms and can be used at training ranges in shooting ranges.

 State of the art

 Known shooting simulator containing small arms, a device for indicating hits, primary and secondary alarm units (RU 2038568, 1995). A disadvantage of the known shooting simulator is the low information content of the alarm units.

 A device is known for monitoring the position of the point of contact during firing training, comprising a block simulating a phono-target environment, a block for coding radiation to a screen, including a linear source, a light filter, a lens, a weapon simulator, consisting of a light filter, a lens, a diaphragm, an photodiode with an amplifier, and a gun trigger contact connected to the calculator. The device has a position sensor for the image of the coding radiation on the screen, including an opaque plate, illuminator and photodiodes. The photodiodes are connected by an AND gate to a single-bit binary counter connected via memory blocks to a computer. The computing device determines the coordinates of the aiming point and displays them (SU 1376706, 1995).

Known optoelectronic shooting simulator, which includes a weapon simulator, photovoltaic targets and command-control unit. The weapon simulator contains an autonomous power source located inside the housing normally open contact system, which is mechanically connected to the trigger, to the power supply circuit of a rectangular current pulse generator and a radio transmitter. An optical emitter is connected to the output of a rectangular current pulse generator, coupled to an optical system installed in the barrel of a weapon simulator, and the output of the radio transmitter is connected to an omnidirectional antenna. Each photoelectric target includes a series-connected photodetector unit, a selective amplifier, a detector and a single pulse generator, the output of which is connected to an indicator (RU 93039361, 1997).

 A common disadvantage of known simulators is that they are not intended for use with real weapons.

 Known shooting simulator containing an optical emitter and a target, characterized in that the emitter is designed to be placed in the barrel of small arms and includes a laser, batteries and a trigger circuit to fire at the time of the shot, and the target is a field divided into sectors with uniformly located on it LEDs, while in each of the sectors the LEDs are connected in series, and the number of sectors for signaling the results of the hit is selected at least one (RU 21825, F41G3 / 26, published on 02.20.2002).

 This decision was made as a prototype for the claimed facility.

The disadvantage of this simulator is that the complexity of constructive construction of targets and the scheme for capturing the moment of pulling the trigger, which uses a piezoelectric element as a trigger indicator. It is known that the piezoelectric element has a limited number of reliable responses (voltage generation in the form of a signal), the probability of such an element tripping decreases with the amount of effort applied to it, which leads to a circuit failure.

 Disclosure of invention

 The present invention is aimed at achieving a technical result, which consists in simplifying the design and increasing information content by the results of a series of shots.

 The specified technical result is achieved in that in a shooting simulator containing an optical emitter placed in the barrel of a small arms and including a laser, batteries and a trigger circuit for operation at the time of the shot, and a target, characterized in that the laser is emitted blue radiation or purple in color with a wavelength shorter than 430 Nm, the trigger circuit for triggering at the time of the shot includes a microphone for picking up a click of a small arms striker and supplying power to the specified laser at the moment t click, and the target is a plate with a phosphor layer on the front surface, over which is applied a target mesh, or a semitransparent plate on top of a standard target.

A shooting simulator kit may contain a set of interchangeable targets in the form of plates each with a phosphor layer on the front surface and the image of the target grid, and a targeting device in the form of a laser emitting red or green radiation, except for the simulator itself. These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

 The present invention is illustrated by a specific example of execution, which, however, is not the only possible, but clearly demonstrates the possibility of achieving the desired technical result.

 Description of drawing

 In FIG. 1 - presents a block diagram of a shooting simulator. According to the present invention, the design of a shooting simulator is considered, which allows you to shoot military and traumatic weapons, without using live ammunition, train shooters (pulling the trigger, aiming, holding weapons), without using live ammunition, conduct training in any room, without special conditions (shooting range, training ground) and visually observe the results of the shots, without the use of special devices and computers.

A shooting simulator (Fig. 1) is a portable kit that includes an emitter 1 based on a semiconductor laser inserted into the barrel 2 of a small arms, and a set of targets 3 using luminescent materials for the light reaction (“memorization”) at the points of impact shots from weapons. The emitter 1 is a laser device inserted into the barrel of a small arms containing a “violet” semiconductor laser 4 with the emission of blue, violet or ultraviolet light (with a wavelength shorter than 430 Nm), an electronic triggering circuit 5 for operation at the moment of firing, microphone 6 in this circuit for picking up the click of a small arms striker, generating a signal for applying a power circuit to the specified laser, and batteries 7. Structurally, the device is inserted either into the barrel (using interchangeable nozzles for caliber) or instead of a cartridge. When the striker is triggered, the emitter gives a short pulse in the form of laser light with a wavelength of about 405 Nm. The electronic circuit controls the duration and power of the laser pulse.

 The emitter’s electronic start-up circuit, as an option, includes a current stabilizer assembled on transistors VT2 and VT3, which provides constant radiation brightness as the batteries discharge.

Luminescent targets 3 are plates made of paper, plastic or fabric containing a light-charged phosphor, coated with ordinary ink or printed (line image) with a standard target 8 or a standard target with a superimposed translucent film containing a phosphor. Since the phosphor “charges” only the spectral part of the light with a wavelength shorter than 430 Nm, the target can be illuminated by the dim light of incandescent lamps, or LED lamps with red, yellow, green LEDs. A red or green laser can be used for guidance. When a violet laser pulse hits a target, a clear luminous dot trace remains on it 9. The luminescence time, depending on the laser power, flash duration and type of phosphor used, can be from several seconds to several hours. The best embodiment of the invention

 The simulator may contain one target or a set of interchangeable targets in the form of plates, each with a phosphor layer on the front surface and an image of a target grid or translucent plates containing a phosphor. After a series of shots, one target can be replaced with a new one, and the used one can be placed for a while in a dark place to dampen the process of glowing points on the surface.

 Based on such a solution, a children's toy - a laser shooting range - can also be created. For guidance, a guidance device in the form of a “red” semiconductor laser with emission of red radiation can be used, and for a “shot” - violet. An example is not illustrated.

 Industrial applicability

 The present invention is industrially applicable and can be manufactured using known nodes.

Claims

Claim

 1. A shooting simulator containing an optical emitter placed in the barrel of a small arms and including a laser, batteries and a trigger circuit to fire at the time of the shot, and a target, characterized in that the laser is emitted blue, violet or ultraviolet light with with a wavelength shorter than 430 Nm, the trigger circuit for triggering at the moment of firing includes a microphone for picking up a click of a striker of small arms and supplying power to the specified laser at the moment of clicking, and the target represents ith plate with a phosphor layer on the front surface, on top of which a target grid is deposited.

 2. A shooting simulator according to claim 1, characterized in that it contains a set of interchangeable targets in the form of plates each with a phosphor layer on the front surface and an image of a target grid, or translucent plates containing a phosphor.

 3. Shooting simulator according to claim 1, characterized in that it comprises a device for pointing to the target in the form of a laser with emission of red or green radiation.