KR101827365B1 - Device of generating reaction of wireless mechanical for imitation shooting - Google Patents

Abstract

A wireless manual mechanical recoil device for a simulated gun according to the present invention is characterized in that a hollow is formed in the same shape as a nose bundle of a firearm 10 and is installed in a chamber 11 of a firearm 10, A reaction module 100 formed with the reaction module 100; A spring guide bar (not shown) is inserted through the hollow of the recoil module 100 to guide movement of the recoil module 100 in the chamber 11 when the recoil module 100 is retracted, 12); A loading handle 200 connected to the loading protrusion 110 of the recoil module 100 and retracting the recoil module 100 by being retracted by a user's hand; A trigger 300 mounted in place of the trigger portion of the firearm 10 and incorporating a spring retracted by the user's finger and providing an elastic force for in-situ restoration; A locking protrusion 410 protruding from the lower side of the chamber 11 of the firearm 10 is formed and the locking protrusion 410 of the chamber 11 is moved downward by the driving of the trigger portion 300, And a loading claw 400 having a spring for providing an elastic force for restoring the original position of the loading claw 200. The loading claw 200 is wound by a user's hand and retracted, The loading module 100 is retracted together with the trigger 110 and the loading latch 400 that restrains one side of the retracted reaction module 100. When the user loads the trigger part The locking tab 410 of the loading claw 400 is moved downward to release the constraint of the rebound module 100 and the reaction force of the rebound module 100 is released by the spring elastic force of the spring guide bar 12, The impact caused by the forward movement Characterized in that for performing.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless hand-operated mechanical recoil device for a gun,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recoil device for use in a simulated firearm, To a recoil device.

In recent years, with the development of multimedia technology and computer programming technology, virtual experiences that simulate real situations and experience difficult situations that are difficult to implement in actual situations while having a feeling similar to actual situations in a virtual space are gaining popularity have.

Particularly, in the virtual space simulating the actual situation, such as aircraft training and indoor driving practice are performed in the virtual space. Also, in the sports area, the training of the athletes is performed in the virtual space, have.

In this way, the virtual reality education by the simulator is used to cultivate the ability to cope properly when real situation occurs by actually experiencing situations that are difficult to direct in actual situations.

In recent years, it has become possible to actively cope with real situations by using various multimedia and computer technologies to create various environments that can actually occur in a virtual space simulating actual situations and to perform shooting training similar to actual situations A video shooting training system has been researched and developed so that the field experience and the shooting skill can be polished.

On the other hand, in Korea, only authorized persons, such as police officers or soldiers, are allowed to use firearms.

Therefore, they are only allowed to use firearms in authorized areas, and fire drills are conducted to the extent that firearms are used at fixed targets several times a year.

In this way, if only the regular shooting training using the gun use is used for the fixed target, and even such training is not given much opportunity, when the actual use of the firearm is allowed, There is a problem that it can harm an accident or an innocent person.

In addition, when actual shooting training is performed, various complaints by the residents near the training site and temporal, spatial, and material constraints cause a problem in constructing an efficient training system.

In order to solve such a problem, a need has arisen for a video shooting training system as described above.

Therefore, in a recoil device for a simulated shooting, which is detachably mounted on the buttock of a rifle as a recoil device for providing a sense of reality of the simulated shooting device in accordance with such a demand, A housing installed in the butt; A shaft movably installed inside the housing; A coil wound on an inner surface of the housing to move a shaft by a magnetic field formed when a current is supplied to strike an end of the housing; A spring installed on an outer surface of the shaft to provide a restoring force to the shaft; And a trigger switch installed on the trigger of the rifle to detect a trigger and supply a current to the coil, wherein one end of the shaft to be moved is guided in the inside of the housing while a shaft to be moved is struck And a hollow guide tube is provided.

However, the simulation gun of this cited document 1 requires that an electronic device for recoil implementation be separately provided, a power supply device for driving it must be separately provided, and a wired system for power and electric signals is adopted, There was a problem of rising.

KR 10-2009-0018331 A

KR 20-2005-0029118U

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems of the prior art.

More specifically, it is an object of the present invention to provide a recoil-type realization device which is equipped with an electronic device and is equipped with a battery and other peripherals. In order to solve the problem of frequent failures and high costs, And realizes a reaction similar to a recoil mechanism of a firearm, realizing a feeling of reality, and enabling wireless driving by omitting an electronic device.

In order to achieve the above object, a wireless manual passive recoil device for a simulated gun according to the present invention is characterized in that a hollow is formed in the same shape as a nose bundle of a gun 10 and is installed in a chamber 11 of the gun 10, A rebound module (100) in which a loading projection (110) is formed downward; A spring guide bar (not shown) is inserted through the hollow of the recoil module 100 to guide movement of the recoil module 100 in the chamber 11 when the recoil module 100 is retracted, 12); A loading handle 200 connected to the loading protrusion 110 of the recoil module 100 and retracting the recoil module 100 by being retracted by a user's hand; A trigger 300 mounted in place of the trigger portion of the firearm 10 and incorporating a spring retracted by the user's finger and providing an elastic force for in-situ restoration; A locking protrusion 410 protruding from the lower side of the chamber 11 of the firearm 10 is formed and the locking protrusion 410 of the chamber 11 is moved downward by the driving of the trigger portion 300, And a loading claw 400 having a spring for providing an elastic force for restoring the original position of the loading claw 200. The loading claw 200 is wound by a user's hand and retracted, The loading module 100 is retracted together with the trigger 110 and the loading latch 400 that restrains one side of the retracted reaction module 100. When the user loads the trigger part The locking tab 410 of the loading claw 400 is moved downward to release the constraint of the rebound module 100 and the reaction force of the rebound module 100 is released by the spring elastic force of the spring guide bar 12, The impact caused by the forward movement Characterized in that for performing.

As described above, according to the present invention, the rebound module 100 is retracted together with the loading projections 110 connected to the loading handle 200 by the loading knob 200, The load is carried out by driving the loading latch 400 which restrains one side of the receded rebound module 100 and the user pulls the trigger 300 with the fingers so that the latching hook 400 of the loading latch 400 The control unit 410 moves downward to release the restraint of the recoil module 100 and to trigger the impact caused by the impact generated when the recoil module 100 advances due to the spring elastic force of the spring guide bar 12, It is possible to generate a recoil like an actual firearm without driving the firearm, and the principle of occurrence of the recoil is the same as that of the actual firearm, and simultaneously with the triggering of the trigger, It is advantageous in that it is simple in construction, such as the loading handle 100, the loading handle 200, the trigger 300 and the loading latch 400, so that there is no fear of failure, and the cost and maintenance are easy.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall configuration diagram of a wireless passive mechanical recoil device for a simulated gun according to an embodiment of the present invention; FIG.
2 is an operational explanatory view of a wireless passive mechanical recoil device for a simulated gun according to an embodiment of the present invention;

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

1, a wireless passive mechanical recoil device for a simulated gun according to the present invention is characterized in that a hollow is formed in the same shape as a nose bundle of a firearm 10 and is installed in a chamber 11 of a firearm 10, A rebound module (100) in which a loading projection (110) is formed downward; A spring guide bar (not shown) is inserted through the hollow of the recoil module 100 to guide movement of the recoil module 100 in the chamber 11 when the recoil module 100 is retracted, 12); A loading handle 200 connected to the loading protrusion 110 of the recoil module 100 and retracting the recoil module 100 by being retracted by a user's hand; A trigger 300 mounted in place of the trigger portion of the firearm 10 and incorporating a spring retracted by the user's finger and providing an elastic force for in-situ restoration; A locking protrusion 410 protruding from the lower side of the chamber 11 of the firearm 10 is formed and the locking protrusion 410 of the chamber 11 is moved downward by the driving of the trigger portion 300, And a loading claw 400 having a spring for providing an elastic force for restoring the original position of the loading claw 200. The loading claw 200 is wound by a user's hand and retracted, The loading module 100 is retracted together with the trigger 110 and the loading latch 400 that restrains one side of the retracted reaction module 100. When the user loads the trigger part The locking tab 410 of the loading claw 400 is moved downward to release the constraint of the rebound module 100 and the reaction force of the rebound module 100 is released by the spring elastic force of the spring guide bar 12, The impact caused by the forward movement Characterized in that for performing.

Specifically, as shown in FIG. 1, the gun 10 of the present invention has a shape of a shot-gun, because the shape of the loading handle has a large area so that the user can manually manipulate the shape of the loading handle. It is suitable for the form of firearm.

Of course, other types of guns may be used, but it is preferable that the loading handle 200 is formed in the same shape as the loading handle of the shot-gun so that the user can easily take up the shape when the loading operation is performed.

Next, the rebound module 100 is formed in the same shape as the boot bar of the firearm 10 and is formed in the chamber 11 of the firearm 10, and the loading projections 110 are installed downward So that the knock bundle of the yarn gun 10 can be operated in the same manner as driving the backward advancement in the chamber 11 and is formed of a metal material or a synthetic resin material having a high density, It is preferable to give a large recoil.

It is preferable to apply the lubricant to the chamber 11 in order to facilitate the backward advancement of the reaction module. In the case of such a lubricant, it is preferable that the lubricant can be adhered to the chamber 11 Do.

Next, a spring (not shown) is inserted through the hollow of the recoil module 100 with a spring incorporated therein to guide movement of the recoil module 100 in the chamber 11 when the recoil module 100 is retracted, In the case of the guide bar 12, the spring is inserted into the hollow of the recoil module 100 while the compression spring is inserted into the spring guide bar 12 using a compression spring, At the time of retraction, the compression spring is compressed to store the elastic force so as to provide an elastic force to return the recoil module 100 to its original position.

Next, referring to the triggering part and the recoil part of FIG. 2 in the case of the trigger part 300 and the loading part 400, a user of the trigger part 300 pulls the trigger part 300 with his fingers The latching jaw 410 of the loading claw 400 is formed to perform a downward movement and when the finger pulling the trigger portion 300 is released, the trigger portion 300 and the loading claw 400 The spring returns to the original position by the built-in spring.

At this time, in the case of the spring incorporated in the trigger part 300 and the loading claw 400, the torsion spring is incorporated to condense the torsional tension due to the axial movement of the trigger part 300 and the loading claw 400 It is preferable to return to the original state, and it is also possible to use a general compression spring or a tension spring.

Referring to FIG. 2, the operation of the wireless passive mechanical recoil device for a simulator gun according to the present invention can be described. The reel 200 is connected to the loading handle 200 by the user's hand- The load is carried out by driving the rebound module 100 retracted by the loading projection 110 and the loading latch 400 restricting one side of the receded rebound module 100, The locking tab 410 of the loading claw 400 is moved downward to release the constraint of the reaction module 100 and the reaction force of the springback bar 12 to the reaction module 100) is moved forward.

Therefore, it is possible to generate recoil like real firearm without driving other electronic devices, and it is possible to provide a feeling similar to that of a real firearm because the principle of occurrence of the recoil is the same as that of the actual firearm and simultaneously with triggering of the trigger, 100, the loading handle 200, the trigger 300, and the loading claw 400, so that there is no fear of failure, and it is easy in cost and maintenance.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: Firearms
11: Chamber
12: Spring guide bar
100: recoil module
110:
200: Load Handle
300:
400: loading latch
410: hanging jaw

Claims (4)

A recoil module 100 having a hollow shape formed in the same shape as the boot block of the firearm 10 and provided in the chamber 11 of the firearm 10 and having the charging projections 110 formed downward;
A spring guide bar (not shown) is inserted through the hollow of the recoil module 100 to guide movement of the recoil module 100 in the chamber 11 when the recoil module 100 is retracted, 12);
A loading handle 200 connected to the loading protrusion 110 of the recoil module 100 and retracting the recoil module 100 by being retracted by a user's hand;
A trigger 300 mounted in place of the trigger portion of the firearm 10 and incorporating a spring retracted by the user's finger and providing an elastic force for in-situ restoration;
A locking protrusion 410 protruding from the lower side of the chamber 11 of the firearm 10 is formed and the locking protrusion 410 of the chamber 11 is moved downward by the driving of the trigger portion 300, (400) incorporating a spring for providing an elastic force for restoring the original position,
A recoil module 100 that is retracted together with a loading projection 110 connected to the loading handle 200 by a loading knob 200 retracted by the user's hand and a retracted knob 200, The loading is carried out by driving the loading clamp 400 which restrains the load,
When the user pulls the trigger portion 300 with his / her finger, the latching jaw 410 of the loading latch 400 is moved downward to release the restraint of the recoil module 100,
The triggering of the reaction module 100 is performed by the spring elastic force of the spring guide bar 12,
The spring of the spring guide bar 12 is a compression spring, and the trigger part 300 and the loading claw 400 each include a torsion spring,
In order to facilitate the backward advancement of the recoil module 100, a lubricant is applied to the chamber 11,
The gun 10 is in the form of a shot-gun, and the loading handle 200 is formed in the same shape as the loading handle of a shot-gun,
The triggering device is formed such that a user of the trigger portion 300 performs a driving operation in which the latching jaw 410 of the loading latch 400 is moved downward by pulling the trigger portion 300 with a finger, Is returned to its original position by the spring incorporated in the trigger 300 and the loading claw 400,
The torsion springs incorporated in the trigger unit 300 and the loading cage 400 each incorporate a torsion spring to condense the torsional tension caused by the shaft movement of the trigger unit 300 and the loading corset 400, A compression spring or a tension spring is used,
A recoil module 100 that is retracted together with a loading projection 110 connected to the loading handle 200 by a loading grip 200 that is retracted by a user's hand and retracted, The loading jaw 410 of the loading claw 400 is moved downward by the user pulling the trigger portion 300 with the fingers to move the locking module 100 ) Of the spring guide bar (12) is released and the triggering of the rebound module (100) is triggered by the spring elastic force of the spring guide bar (12). delete The method according to claim 1,
Wherein the recoil module (100) is made of a metal material or a synthetic resin material having a high density, and can give a large rebound to the user at the time of triggering. delete

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