FR3015019A1 - TIRE DRIVE SYSTEM WITH RARE AND FUNCTIONAL FIREARMS, REPLACING REAL AMMUNITION WITH AN ELECTRONIC CARTRIDGE - Google Patents

Abstract

The invention relates to a firing training system (FIG. 1) enabling sports shooters to complete their training outside specific facilities, thereby reducing training costs and eliminating time and travel constraints. This system consists of: • An electronic cartridge (Figure 2), introduced into the chamber or barrel of the weapon, which emits a laser pulse when the impact of the striker on the base of the cartridge. This cartridge has a battery that allows it to be used several hundreds or thousands of times (depending on the battery capacity). • An electronic target to detect the laser pulse and generate the necessary information to display the position of the corresponding impact. The device according to the invention is particularly intended to supplement the training of sports shooters outside specific facilities.

Description

The present invention relates to shooting training with real and functional firearms, without modification or addition of device external to the weapon, replacing the actual ammunition with an electronic cartridge. This system is by no means a sighting system. To be fully effective, shooting practice training must be done using one's own weapon, with its own aiming settings. This training is done with real ammunition, the shooter must train in specialized facilities (shooting ranges), which forces him to the level of schedules and displacements. In addition, training with real ammunition is expensive, and financially, and in terms of consumption of natural resources (sockets, powder, often lead shots). Various types of training devices simulating the firing without real ammunition have already been proposed: - US Patent 4367516 (Marksmanship Training Device and Method) by Lionel C. Jacob: this device requires the dismantling and temporary replacement of certain parts of the weapon to emit a light beam when pressing on the trigger tail. In addition this system is dependent on the type of weapon used, so impractical and limited. US Patent 3938262 (Laser Weapon Simulator) by Richard A. Dye and Donald Rowley A. This device detects the impact of the firing pin by a piezoelectric means excited by a blank cartridge, and emits a laser beam. The disadvantage of this system is that it is intended for long guns only, and it consists of a device mounted at the end of the barrel, which modifies the balance of the weapon. In addition, the consumption of blank cartridges does not provide a gain, both financially and environmentally. Patent US 3633285 (Laser Markmanship Trainer) by Sensney Cleatus R: this device detects the impact of the firing pin by a piezoelectric means, and emits a laser beam. The laser is emitted by a device mounted under the barrel of the weapon, which does not seem easily mountable on a handgun. In addition, mounting under the barrel introduces a difference in sight, since the light path does not follow the path of the bullet, and a change in the balance of the weapon. Patent WO 1996013693 (Acoustic Triggered Laser Device for Simulating Firearms) by Gary E Seeton: this device detects the impact of the firing pin by a piezoelectric means, and emits a laser beam. The laser is emitted by a device mounted under the barrel of the weapon. Compared with US Pat. No. 3,623,285, the difference is essentially in the filtering of the frequencies generated on percussion.

As for US Patent 3633285, mounting under the barrel introduces a difference in sight, since the light path does not follow the path of the bullet, and a change in the balance of the weapon. - Patent EP 0837298 (Cordless laser hand gun) by Johann Fischer, Heinz Renner, Thomas Weiss: this device emits a laser beam by establishing a contact when the trigger tail is pressed. The laser is emitted by a device mounted in the barrel of the weapon. The batteries are located in a charger specially designed for this application. This device is not applicable to revolvers that do not have a charger, and requires the realization of a specific charger. The firing training system according to the invention makes it possible to remedy these constraints. Indeed, it includes: - An electronic cartridge, introduced in the chamber or in the barrel of the weapon, which emits a laser pulse during the impact of the striker on the base of the cartridge. This cartridge incorporates a -2- energy source (eg battery / battery) allowing it to be used several hundred or thousands of times. - An electronic target to detect the laser pulse and generate the necessary information to display the position of the corresponding impact.

Thus, the Laser beam borrowing the path of the bullet, the shooter can train in totally realistic conditions, with the weapons that he usually uses, without modification of his weapon, without external device mounted somewhere on the weapon, without modifying or adapting its organs and sighting settings, which allows him to work the repetitiveness of his shot, without danger for those around him, while minimizing his travel and ammunition costs, and minimizing its environmental impact.

This training system therefore offers the following advantages: - Training possible outside the specialized infrastructures (shooting ranges) - Training 'as at the stand' - Very low costs compared to training with live ammunition - Respect for the environment: consumption reduced in sockets / powder / projectiles (of which lead), less displacements, - Reduction of the wear of the weapon The electronic cartridge is introduced in the chamber of the weapon, such as a real cartridge. This system is intended for all types of weapons (pistols, revolvers, rifles, rifles) the electronic cartridge is available in different sizes and shapes to be chambered in all standard calibres, and at least (non-exhaustive list): - 9x19 mm - 38 SP / 357 MAG - 223 REM - Etc. The electronic cartridge is equipped with at least: - A Laser - An electronic circuit - A device for detecting the shock of the striker - A device for damping the shock of the striker on the base The cartridge is put automatically energized upon introduction into the weapon chamber, and automatically power off when extracting the chamber.

In a non-illustrated variant, the electronic cartridge is composed of at least two parts, the laser part is introduced into the barrel either by the chamber or by the mouth of the barrel, the shock detection part is introduced into the chamber of the weapon like a real cartridge. A laser module is mounted in the electronic cartridge, positioned, centered and adjusted so that the laser radiation out through the mouth of the barrel, thus borrowing the path of a real bullet.

Different types of Laser modules can be used (active or passive), able to emit in the whole Visible spectrum, in the Ultra-violet spectrum or in Infrared. - 44 - 45 - 50 -3- The electronic circuit includes electronic components and batteries. It has the following functions: - Detection of the striker shock, - Powering on / off the Laser module, - Triggering a time base to adjust (at the factory) the duration of the laser pulse compatible with the electronic target. The detection of the shock of the firing pin is carried out: - Either by a detection in aerial acoustics (noise of percussion), - Or by a mechanical detection, the movement of a projected part by the shock allowing to establish an electronic contact triggering the base of time. The percussion on a metal part can damage the striker and / or mater the dog, a mechanism can dampen the shock to reproduce shock-type damping on primer. This mechanism is based on: 1) Either on damping by a piece of flexible material (foam, rubber, etc.), 2) On damping by a spring (spring blade, coil spring, etc.) The electronic target is mainly consisting of: - a plastron letting light through a mesh of holes, - a glass panel, plastic or any other material, for directing the light to optical sensors, - an optical sensor type CCD, CMOS, photo-components (photodiodes, photoresistors, etc.) etc. to capture the light spots generated on the frosted by the laser beam. - An electronic circuit for processing optical detections. This processing allows to calculate the coordinates of the points of impact, then to restore them by software, or by display of type LED.

The accompanying drawings illustrate the invention: FIG. 1 represents the principle of use of the drive system. - Figure 2 shows by way of example the internal arrangement of the various components of the electronic cartridge in the most constraining caliber because of its small size: the 9x19 mm. FIG. 3 represents by way of example damping devices of the firing pin on the base of the electronic cartridge. The drawings presented in this document are not contractual, but only proposed to present the invention. They can be modified if necessary without changing the spirit of the invention. With reference to these drawings, in the embodiment according to FIG. 2 for a 9x19 mm cartridge, the cartridge comprises 3 compartments: the electronics compartment (1), which contains the laser module (2) and the electronic circuit (3); ). The Laser Module is purchased commercially. It is inserted in the ogive (4) located at the front of the compartment, thus ensuring the alignment of the radius relative to the barrel of the weapon. The warhead may be made of metal, resin, plastic, or any other material having sufficient mechanical strength. The electronic circuit is made on a flexible support, which makes it possible to obtain the sufficient surface to dispose all the electronic components. It is connected on one side to the Laser module, and on the other side to the 'Batteries' compartment. - The 'Damping' compartment (5): contains the part which receives the impact of the firing pin (6) (hard metal part), the shock-absorbing rubber (7), and the device for holding these parts ( 8). Given the locking system of damping parts, this part can be performed by 3D printing. - The 'Batteries' compartment (9): made of a copper tube 9 mm in diameter and 2/10 mm thick (10), it houses the SR71 batteries (11) and the mechanism power on / off (12). The compartments 'Electronics' and 'Amortization' are inserted on both sides of the compartment 'Batteries'. The electronic target consists mainly of: - a plastron letting light through a mesh of holes, - a panel for directing the light received from the laser beam to an optical sensor system - an optical sensor system CCD, CMOS, photo-components (photodiodes, photoresistors, etc.) etc. to capture the light spots generated by the laser beam. The processing of the data received by the optical sensor system is done either by software or by an electronic component of the FPGA type. This processing allows to calculate the coordinates of the points of impact, then to restore them by software, or by display of type LED. The device according to the invention is particularly intended to supplement the training of sports shooters outside specific facilities.

Claims (8)

CLAIMS1) A firing training system characterized in that it comprises a reusable electronic cartridge introduced into the chamber of the weapon for all types of firearms and calibres, and a target for detecting and visualizing the points of fire. impact. 2) Electronic cartridge characterized in that it is introduced into the chamber of the weapon or partly in the chamber of the weapon and partly in the barrel of the weapon, and allows training in laser firing. 3) Device according to claim 2 characterized in that the laser pulse is generated by the detection of the impact of the striker on the base of the electronic cartridge 4) Device according to claim 2 characterized in that the detection of the impact of the striker on the base of the cartridge is performed by piezoelectric device, aerial acoustic or mechanical means 5) Device according to claim 2 characterized in that the system for damping the impact of the striker on the cap of the cartridge by flexible material (foam, rubber, etc.) or damping by a spring (leaf spring, coil spring, etc.) 6) Device according to claim 2 characterized in that the electronic cartridge embeds its energy source (no external energy source) 7) Device according to claim 2 characterized in that the power of the cartridge is performed automatically during the introduction of the cartridge into the chamber of the weapon, and the power off during the extraction of the cartridge . 8) Detection device (target) characterized by the detection of light spots on the target generated by the laser beam and calculation of the coordinates of the laser impacts for restitution of the points of impact within the framework of the drive system.