DE102019006131A1 - Shooting system - Google Patents

Abstract

The invention relates to a dry training system for shooting sports, in particular for dynamic shooting disciplines. The system includes a laser emitter attached to the barrel muzzle of a weapon, which emits a short coded laser beam in the direction of the retroreflective target area when the gun is triggered, and a laser receiver positioned on the shooter, which receives the laser beam reflected from the retroreflective target area and then a hit detects when the received return beam has the transmitted code

Description

The invention relates to a dry training shooting system for shooting sports, in particular for dynamic shooting disciplines. The system includes one in the run ( 15th ) a weapon ( 1 ) attached laser emitter ( 2 ), which emits a short coded laser beam ( 5 ) in the direction of the retroreflective target surface ( 7th ) and a laser receiver positioned on the shooter ( 1 1 ), which corresponds to the retroreflective target surface ( 7th ) reflected laser beam ( 8th ) receives and then detects a hit when the received return beam ( 8th ) has the code sent.

State of the art:

DE3504579A1 discloses an optoelectronic target practice method in which the laser transmitter and laser receiver are accommodated in a housing and are functionally connected to one another electrically. In view of the fact that display devices are also integrated or connected in the housing, the device would only be usable in stationary use.

U.S. Pat 3,792,535 discloses a laser rifle simulator system for training rifle fire. It uses a high-voltage laser system with a gallium arsenide laser diode which, when fired with a driver current of 20 amps, only emits a 200 ns long laser pulse.With the mechanical structure described with the electronic circuit used, a structure with the required small dimensions cannot be implemented. Even the required immunity to interference from extraneous light cannot be achieved with the single simple high-voltage laser pulse.

WO 99/10700 discloses a training system with an active goal and network connection. Such systems, with active targets, are unsuitable for the envisaged application because they are very expensive, sensitive, inflexible and unsuitable for outdoor use.

DE3507007A1 discloses an apparatus for aiming a firearm. The only function of the retroreflectors used here is to make the point of impact of the laser beam more visible to the shooter by lighting up the target, without electronic hit detection and evaluation taking place.

It is the object of the present invention to create an inexpensive, simply structured and easy and flexible to use shooting training system, which corresponds to the principles of modern training and sport psychology through its methodology: no stress and frustration experience by observing the failures, but only observation and feedback of the correct and successful shooting sequence.

• - die an der Laufmündung befestigte, den Laserstrahl abgebende Laser Emitter Einheit muss von ihren Abmessungen und von ihrem Gewicht her sehr klein gehalten werden, damit sie die ungehinderte Verwendung auch mit Kurzwaffen möglich macht
• - Bei der Treffererkennung kommt die übliche elektronische Erfassung, z. B. das Detektieren mit elektronischen Zielen oder mittels auf das Ziel gerichteter Kamera und Bildverarbeitungssoftware nicht infrage, da die bei den dynamischen Disziplinen in den Parcours verwendeten Ziele in der Größe und Form unterschiedlich sind und das wetterunabhängige Trainieren unter realen Verhältnissen auf dem Outdoor-Gelände mit aktiven elektronischen Zielen nicht realisierbar ist. Es kommen nur passive Ziele infrage, die nach ihrer Form und Größe unterschiedliche Zielflächen möglich machen, die dabei leicht herzustellen, wetterfest und einfach in der Handhabung sind.
• - ein Funktionieren bei Zielentfernungen von mindestens 30 Metern, weitgehend fremdlichtunabhängig, auch bei Sonnenschein, ist Bedingung.
• - Die Treffer müssen dem Schützen in akustischer Form in seinem Ohr/Gehörschutz unmittelbar signalisiert werden, um durch das empfangene Treffersignal einen positiven Stimulus im Muskelgedächtnis zu verankern.
• - Die Schießzeiten mit den Zwischenzeiten müssen hundertstel Sekunde genau festgehalten und angezeigt werden, damit das Schießergebnis nach beendeter Runde ausgewertet werden kann.

The shooting system to be invented must guarantee the freedom of movement necessary for the shooter to complete the shooting sequence in all shooting sports. The shooter's freedom of movement is particularly important in the dynamic shooting disciplines that have recently become more and more popular, in which the shooter moves with a weapon in space or terrain and fires several shots from several positions at targets placed at different distances according to a given course structure which also differ in their shape and size. It's like an obstacle course under time pressure with a weapon, with the targets set up spatially. The evaluation of the shooting result is done according to the "hit / no hit" principle. A hit is rated if the target area is hit at any point, no further distinction is made. During the run, only the hits are counted and the time required for them. It is a very demanding shooting discipline that requires a lot of training in order to memorize posture, movement sequences as well as timing, breathing and sighting. The training system to be invented must be designed in such a way that it can also be used without restriction for training dynamic disciplines. Since training with a sharp weapon is very cumbersome, cost-intensive and only possible on specialized shooting ranges, the present invention is intended to create a dry training system, which also enables the dynamic shooter to train in his private rooms or garden area. The necessary freedom of movement includes that the shooter is not impaired during his shooting practice, when moving, running, holstering or changing magazines. The requirements for the training system are as follows:

• - The laser emitter unit, which is attached to the muzzle and emits the laser beam, must be kept very small in terms of its dimensions and weight so that it can also be used unhindered with handguns
• - In the case of hit detection, the usual electronic recording, z. For example, detection with electronic targets or with a camera and image processing software aimed at the target is out of the question, as the targets used in the dynamic disciplines in the course are different in size and shape and the weather-independent training under real conditions on the outdoor terrain active electronic targets is not feasible. Only passive targets come into question, which, depending on their shape and size, make different target areas possible, which are easy to manufacture, weatherproof and easy to use.
• - Functioning at target distances of at least 30 meters, largely independent of external light, even in sunshine, is a condition.
• - The hits must be signaled to the shooter in acoustic form in his ear / hearing protection in order to anchor a positive stimulus in the muscle memory through the hit signal received.
• - The shooting times with the intermediate times must be recorded and displayed exactly to one hundredth of a second so that the shooting result can be evaluated after the lap has ended.

The object was achieved with the present invention. According to the invention, it was recognized that, since the courses require a large number of goals of different shapes and sizes, practically only passive goals that are easy to produce ( 6th ) come into question. According to the invention it was recognized that if the target areas ( 7th ) have retroreflective properties that reflect the incident laser light exactly back in the direction of the light source through the microspheres or microprisms embossed in the material, a single laser receiver positioned on the shooter and aimed at the targeted target ( 11 ) is sufficient to get the hits on the spatially separated targets ( 6th ) to determine, depending on whether a reflected back beam is detected by them or not. It was recognized that the reflector foils used in road traffic for markings and traffic signs are ideally suited for this. The foils are made in self-adhesive form and can be used to cover the target area ( 7th ) of the respective destination ( 6th ), to be stuck on in any shape and size. The industrially produced reflective films are standardized and classified according to their reflective properties in RA1, RA2 and RA3 categories. They are made in different colors. The target areas ( 7th ) can thus be covered with retroreflective sheeting and the shooter can train with targets of real size, such as those used in competition.

Due to the fine structure of the microspheres or microprisms in the reflector foil, target areas of any size or size ( 7th ) possible, for example those with dimensions in the millimeter range, which makes the present invention very interesting for precision shooting.

It was recognized that, by virtue of the fact that the laser receiver ( 11 ) must be continuously in operation and its optics ( 10 ) Trapped light rays have to be analyzed continuously in order to filter out the hit radiation from the ambient light radiation, because of the very small reflected light power and the considerable constant interfering signals that occur at the same time, modulation and coding of the laser signal are required.

It was recognized that the fact that the reflector foil reflects the light practically independently of the angle of incidence in the direction of the light source, even at a small angle on the targets ( 6th ) can be shot. This is especially the case with outdoor shooting and also with moving targets. Because the reflection is independent of the angle of incidence, three-dimensional targets are also conceivable in which the surface of the target object or only part of it is covered with reflective tape.

It was recognized that when several shooters are shooting at the same target at the same time, because of the precisely directed reflection of the reflector foil, each shooter can only get his own hits from his laser receiver ( 11 ) is detected, mutual interference does not occur (multi-user capability given).

The laser emitter unit ( 2 ) is designed in such a way that it only contains the laser module, the control electronics and the small button cells required for the power supply, which means that their dimensions can be kept small.
The laser emitter unit ( 2 ) is in the run ( 15th ) the weapon ( 1 ) attached. The attachment can be done in different ways depending on the weapon. The laser emitter ( 2 ) with the help of an exchangeable caliber mandrel ( 3rd ), which in the barrel ( 15th ) is pushed and is held there by frictional forces or by a clamp fastening. Airsoft guns and alarm guns can be attached to the muzzle of the gun using a screw adapter.
The laser diode built into the laser emitter is fixed in such a way that the direction of the exiting laser beam can be adjusted horizontally and vertically by adjusting screws ( 4th ) can be fine-tuned. When using the real weapon ( 1 ) so the visor does not have to be adjusted. The laser beam can be triggered by detecting the mechanical wave that occurs when the hammer is hit or when shooting with CO2 airsoft weapons, or by means of a button or detector switch positioned on the trigger mechanism that is connected to the control electronics by cable.
Due to the extraneous light interference immunity required for outdoor use, the emitted laser beam is modulated and coded by the control electronics.

Since the optics ( 10 ) of the laser receiver on the shooter ( 11 ) when firing a shot in the direction of the targeted target ( 6th ) and its distance from the laser axis of the emitted laser beam cannot be more than 30 cm due to the return beam characteristics of the retroreflector, either the shooter's head, in the face area or the attachment to the weapon ( 1 ) itself in question.
The integration of the laser receiver is ideal ( 11 ) including optics ( 10 ) in hearing protection ( 9 ), which is not perceived as annoying by the shooter because he is used to constantly wearing hearing protection when shooting ( 9 ) to wear.

According to the invention, the laser receiver ( 11 ) with its optics ( 10 ) in hearing protection ( 9 ) integrated. However, other accommodation options are also conceivable, such as integration in a glasses frame or attachment to a headband, if it is ensured that the holder does not slip and the optics ( 10 ) when firing a shot always in the direction of the target ( 6th ) shows.

The acoustic hit signal is displayed to the shooter directly in his ear, which is extremely important for effective training.In the hearing protection solution according to the invention, the acoustic signal is generated directly in the hearing protection capsule, with a different attachment of the laser receiver unit ( 10 , 11 ) on the shooter's head, an earphone must be connected to the laser receiver via cable or radio 11 ) can be connected.
The immediate feedback of a hit via a sound signal directly into the shooter's ear enables optimal storage of the sighting image and the associated psychokinetic experience with the corresponding action sequences at the moment of pulling into the shooter's muscle memory and leads to automation of these through appropriate repetitions.

In order to be able to display and evaluate the shooting results, the laser receiver ( 11 ) by cable ( 12th ) or radio link ( 13th ) with a smartphone ( 14th ) connected. A smartphone app ( 16 ) takes care of the timekeeping; it generates a start signal and shows the individual hit times with the intermediate times. After the end of the training run, the shooting result can be analyzed and evaluated.

The training psychological unique selling points of the present invention: The users have a much stronger learning effect and learning gain than with the usual training or, for example, with devices that work with visualization.
The realistic as well as individually configurable arrangement of the goals in the room means that, for example, training offers with cost-intensive, always the same, computer-animated training courses are exceeded.
The prompt feedback of the hits via a tone enables the sighting image and the successful hand position to be saved in the muscle memory and automated. The approach of the training with the present invention corresponds to the maxim of modern training and sport psychology: no stress and frustration experience by paying attention to the failures, but only observation and feedback of the correct and successful shooting sequence.
The focus on the successful hit brings confidence in one's own performance to the fore.
As a result, the fun factor during training will also increase.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 3504579 A1 [0002]
• US 3792535 [0003]
• WO 9910700 [0004]
• DE 3507007 A1 [0005]

Claims (10)

Laser shooting training system consisting of a laser emitter (2) to be attached to the barrel of a firearm (1), one or more targets (6) whose target surfaces (7) have retroreflective properties and a laser receiving unit (10, 11) positioned on the shooter , the laser emitter (2) sending a modulated and coded laser beam (5) in the direction of the target (6) when the trigger of the weapon is actuated, which beam is reflected in the direction of the shooter when the retroreflective target surface (7) is hit and a hit from the laser Receiver (11) is determined when the received light beam (8) contains the transmitted code. Shooting training system according to Claim 1 , characterized in that the laser emitter (2) and the laser receiver (11) are two separate and also separately positioned units which are not connected to one another by electrical lines. Shooting training system according to Claim 1 , characterized in that the laser emitter (2) is fixed at the end of the barrel (15) of the weapon (1) either by a caliber mandrel (3) pushed into the barrel (15) or by a screw adapter, or else firmly in the Barrel (15) is installed and when the trigger of the weapon is activated, it emits a short laser beam (5) which is triggered by a vibration sensor or a switch attached to the trigger mechanism. Shooting training system according to Claim 1 , characterized in that the laser emitting the laser beam (5) is fastened in the laser emitter (2) in such a way that the direction of the exiting light beam can be finely adjusted horizontally and vertically with adjusting screws (4). Shooting training system according to Claim 1 , characterized in that the laser emitter (2) can additionally have an infrared LED which emits an infrared pulse when a shot is fired Shooting training system according to Claim 1 , characterized in that the targets (6) are equipped with retroreflective target surfaces (7). Shooting training system according to Claim 1 , characterized in that the laser receiver (11) with its optics (10) or only parts thereof, for example the optics (10), is integrated in a hearing protection (9), headphones or glasses frame or by another holder on the head of the Protect is attached in such a way that the optics (10) of the laser receiver (11) point in the direction of the targeted target (6) when aiming. Shooting training system according to Claim 1 , characterized in that the laser receiver can be attached to the weapon by a clamping device and the hit information is passed on directly or indirectly to a smartphone / tablet via an SRD radio link. Shooting training system according to Claim 1 , characterized in that the hits are indicated to the shooter acoustically directly in the ear or hearing protection (9). Shooting training system according to Claim 1 , characterized in that the laser receiver (11) can be connected to a smartphone / tablet (14) by cable (12) and / or radio link (13) and the hit results with the hit times and intermediate times on the smartphone / tablet from a App (14) can be displayed, analyzed and saved.

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