RU93520U1 - LASER ARROW EXERCISE FOR FIRING FROM THE MAKAROV GUN (PM) - Google Patents

Abstract

 Laser shooting simulator containing a nozzle for blank firing, made with a Central axial channel, the diameter of which is smaller than the diameter of the bore, in communication with the output side channels, and a cavity located in its front part for accommodating the membrane and the end part of the laser radiation mounted on the barrel coaxial to the latter by means of an idle firing nozzle, a membrane placed between the idle firing nozzle and the laser radiation means with a gap with respect to the source power supply with the possibility of its selection due to the energy of the powder gases when you press the trigger of the trigger mechanism, a photo diode is used as a target for the light signal of the target, characterized in that a prism having an angle equal to exceeding the path above the aiming line for the Makarov pistol (PM) with an excess of the average point of impact of 12.5 cm above the aiming point at a distance of 25 m

Description

The utility model relates to means for training and training in aiming and shooting, and can be used to teach beginner shooters the correct aiming and to improve skills in precision aiming and control the aiming process.

Known autonomous laser simulator "Rubin" LT-310PM [1] consisting of a head mount, a battery, alignment screws, a laser module, a cap.

The disadvantage of this design is the lack of conditions for seeing fire from a military weapon, since the simulator is rigidly mounted in the barrel of the weapon and emits a light beam into the target parallel to the barrel of the weapon, which does not give the learner the correct skill when firing on the simulator.

The closest technical solution, taken as a prototype, is a laser shooting simulator [3] consisting of a nozzle for blank shooting and a membrane, the laser radiation is made in the form of a laser pointer with a power source and mounted on the barrel of the weapon, coaxial to the latter, by means of a nozzle for blank firing, and the membrane is placed between the nozzle for idle firing and the laser pointer with a gap in relation to the power source with the possibility of its selection due to the energy of the powder gases when you press the shutter release the hook of the trigger mechanism, the nozzle for idle firing is made with a central axial channel, the diameter of which is smaller than the diameter of the barrel channel in communication with the output side channels, and a cavity located in its front part for receiving the membrane and the end part of the laser radiation means, as a receiver light signal of the target used photodiode.

The disadvantage of this design is that the path of the laser beam does not coincide with the path of the bullet, due to the fact that the laser study means located in the cavity in the front of the nozzle for blank firing provides laser radiation without taking into account tabular data [2] exceeding the path over the line aiming for a Makarov pistol with an excess of the average point of impact 12.5 cm above the aiming point, at a distance of 25 meters

The technical result is aimed at approximating the training conditions to a real combat situation.

The technical result is achieved by the fact that in the laser shooting simulator containing a nozzle for idle firing, made with a central axial channel, the diameter of which is less than the diameter of the bore, in communication with the output side channels, and a cavity located in its front part to accommodate the membrane and the end of the laser means radiation, a membrane, laser radiation, a power source mounted on the barrel of the weapon, coaxial to the latter, by means of a nozzle for blank firing, a membrane placed m I’m waiting for a blank for shooting and laser radiation with a gap in relation to the power source with the possibility of sampling it due to the energy of the powder gases when you press the trigger of the trigger mechanism, a photodiode is used as a target for the light signal of the target, while the simulator is additionally installed a prism having an angle equal to the tabular data [2] of the excess of the trajectory over the aiming line for the Makarov pistol (PM) with the average point of contact exceeding 12.5 cm above the aiming point, n a distance of 25 meters, which allows you to bring the condition of training for combat conditions.

A distinctive feature is that, in the laser radiation facility, the simulator additionally installs a prism having an angle equal to the tabular data [2] of the excess of the trajectory over the aiming line for the Makarov pistol with the average hit point exceeding 12.5 cm above the aiming point, at a distance of 25 meters, laser study tool

The device of the laser shooting simulator of the Makarov pistol is shown in the figure.

A laser shooting simulator for firing a Makarov pistol includes a weapon 1 with a barrel 2 and a trigger mechanism having a trigger 3, in the barrel 16 a laser radiation means 5 with a prism 15 having an angle equal to the table data is fixed coaxially to the barrel [2] excess of the trajectory above the aiming line for the Makarov pistol with an excess of the average hit point 12.5 cm above the aiming point, at a distance of 25 meters, power supply 6, laser radiation 5 is located in of the bridge 17 provided in the front of the nozzle 4 for idle shooting, a deformable membrane 7 is placed at the bottom of the cavity with a gap with respect to the power supply unit 6, the laser radiation means 5 has a power button 8, a central axial channel is made in the nozzle 4 for idle shooting, diameter which is smaller than the diameter of the bore, the central axial channel 9 is in communication with the output side channels 10, in the bore 16 is a rod 11, spring-loaded with a spring 12, which is located between the nozzle 4 for idle shooting and the shoulder 13 erased nya 11, one end of the rod 11 enters the central axial channel 9 of the nozzle 4 for idle shooting with the possibility of interaction with the deformable membrane 7, and at the other end of the rod 11 there is a stop for interaction with the striker 14 of the trigger mechanism with a spring 18. Nozzle 4 for blank firing, laser radiation means 5, deformable membrane 7, rod 11 are installed with the possibility of quick removal and replacement.

The simulator has a target (not shown in the figure) in which a photodiode is used as a light signal receiver.

The target is set at a distance of 25 meters, the target can be a light panel, for example, with automatic scoring.

The work is as follows.

No ammunition is required to charge a weapon. The shooter holding a weapon in his hand, takes aim at the target, taking into account the excess of the control point over the aiming point (under the target cut), having previously turned on the button 8 for turning on the laser radiation means 5 with a prism 15, which has an angle equal to the tabular data of the excess of the control point over the aiming point for the Makarov pistol (PM) at a distance of 25 meters. When you press the trigger 3 firing pin 14 of the firing mechanism striker against the stop of the rod 11, which, compressing the spring 12, moves in the bore and interacts with the deformable membrane 7. The latter bends, selects the gap and comes into contact with the power supply 6 The laser light 5 with a prism 15 emits a light beam that is refracted passing through the prism 15. The light beam hits the target, and the light board instantly informs the arrow of the hit on the target.

For a subsequent shot, it is necessary to cock the trigger manually (not shown in the figure).

Training on this simulator exactly corresponds to firing from weapons using live ammunition by installing a prism having an angle equal to the tabular data [2] exceeding the trajectory over the aiming line for the Makarov pistol (PM) with exceeding the average hit point 12.5 cm above the aiming point, at a distance of 25 meters into a laser radiation facility, which makes it possible to bring the training condition closer to combat conditions.

Information sources:

1. Dobrovolsky V.A. Laser shooting simulator "Rubin" For interactive shooting training [Text] / V.A.Dobrovolsky //II International Forum "Laserpolytech-2007" - "Technologies and means of providing fire training": scientific. practical Conf .: Novosibirsk, 2008. C-.38-48.

2. Manual on small business: 9-mm Makarov pistol (PM) [Text]: - M .: Military Publishing House, 2001.

3. Pat. 2196951 of the Russian Federation F41G 3/26, Laser shooting simulator (options) [Text] / Andrianov N.F .; No. 2002109401/02; claimed April 11, 2002; published on January 20, 2003.

Claims (1)

Laser shooting simulator containing a nozzle for blank firing, made with a Central axial channel, the diameter of which is smaller than the diameter of the bore, in communication with the output side channels, and a cavity located in its front part for accommodating the membrane and the end part of the laser radiation mounted on the barrel coaxial to the latter by means of an idle firing nozzle, a membrane placed between the idle firing nozzle and the laser radiation means with a gap with respect to the source power supply with the possibility of its selection due to the energy of the powder gases when you press the trigger of the trigger mechanism, a photo diode is used as a target for the light signal of the target, characterized in that a prism having an angle equal to exceeding the path above the aiming line for the Makarov pistol (PM) with an excess of the average point of impact of 12.5 cm above the aiming point at a distance of 25 m