KR101234277B1 - Simulation gaming firearms - Google Patents

Abstract

PURPOSE: A simulated firearm for a survival game is provided to simulate an actual firearm as firing signals are outputted after being delayed by a delay unit. CONSTITUTION: A simulated firearm for a survival game comprises a body unit, a percussion sensing unit, a vibration generating unit(40), a firing sensing unit(50), a firing unit, and a control unit. The percussion sensing unit is connected to a trigger of the body unit and senses the percussion state of the trigger. When the trigger is triggered, the percussion sensing unit transmits percussion signals. The vibration generating unit comprises a piston(41), a spring(43), a rotary gear(44), and a motor(47). The spring elastically supports one side of the piston. To return the spring, the rotary gear is coupled to protruded portions(42) of the piston. The motor drives the rotary gear. The firing sensing unit senses the movement of the piston to transmit firing signals. The firing unit is mounted on a muzzle of the body unit and fires output signals according to the firing signals. The control unit receives the firing signals and transfers the firing signals to the vibration generating unit.

Description

Survival Game Simulator {SIMULATION GAMING FIREARMS}

The present invention relates to a gun simulation system, and more particularly, in a personal simulator for firing an output signal for operating a survival game, the simulator is a main body portion having a shape similar to a gun and the main body portion A control unit installed inside to control the overall operation of the simulated firearm, a trigger detection unit connected to a trigger of the main unit to sense a trigger state and transmitting a trigger signal when the trigger is triggered, and an inside of the main unit It is composed of a spring seated on the piston connected to the piston, a rotary gear for pressing one side of the spring to return after compressing the spring, and a motor for driving the rotary gear, driving the motor in accordance with the trigger signal to the body portion Vibration generating unit for generating a vibration, a firing detection unit for transmitting a firing signal by detecting the movement of the piston, A distance setting unit mounted on a surface of the main body, the switch having a switch for selecting one of a plurality of distance adjustment modes, the distance setting unit providing distance control mode information to the control unit by selection of the switch, and the distance set by the distance setting unit; According to the present invention relates to a survival game simulation gun, characterized in that it comprises a delay unit for delaying the firing signal, and a firing unit mounted to the inner peripheral surface of the muzzle of the main body to emit an output signal according to the firing signal.

In general, a survival game is a survival game that holds certain equipment and separates enemy and allies in a real situation. Recently, a lot of equipment has been mobilized for such a survival game, and a more interesting survival game is provided using a wireless communication device such as a Bluetooth terminal.

In addition, in recent years, the military has been conducting realistic simulated combat training by introducing multiple integrated laser engagement systems (hereinafter referred to as Miles systems) to soldiers' training. The Miles system is equipped with a small arm transmitter (M16, K2, etc.) that fires a laser instead of a bullet into the rifle or machine gun barrel. It is a training method of judging whether or not to shoot by firing, and it was developed for the purpose of improving the combat ability of individual soldiers and the commanding ability of commanders since it is possible to engage in enemy training without actual killing.

In the conventional Miles system, a method of firing a light bomb, that is, a laser beam, is a method of emitting a laser beam by inserting a real dread bomb into the magazine and then firing the shot. Therefore, all operations are the same as when firing live bullets, except firing a dread bullet.

However, this method of firing a bomb has a problem that the cost of a bomb is greatly consumed in the case of a company or battalion training in view of the number of bombs consumed by individual soldiers despite the simplicity and accuracy of the operation.

On the contrary, the direct method of emitting laser light by pressing the switch protruding from the side of the projectile attached to the barrel has the advantage of not using the dread bullet, but it is different from the actual triggering of the firearm. In addition, since the single shot and the continuous shot cannot be performed separately, there is a drawback that the training effect is lowered because it is different from the actual situation.

In addition, since only the laser is fired, not the actual bullet during the simulated shooting, the shooting may not feel the physical effects such as shock, explosion, and flash that occur during the actual shooting. As a result, simulation shooting using a laser has a problem that a heterogeneous feeling is generated from operation of the gun.

Accordingly, the need for improvement has been increased so that the simulator used in the conventional survival game or Miles system can be operated as close as possible to the gun.

Prior Art Documents: Korean Patent No. 10-0584928 (Gun Model System), Korean Utility Model Publication No. 20-2347839 (Gun Model System)

The present invention has been made to solve the problems of the prior art as described above, in the personal simulator for firing an output signal for operating a survival game, the spring is mounted inside the main body portion connected to the piston, and the spring Composed of a rotary gear for pressing one side of the spring to return after compression, a motor for driving the rotary gear, a vibration generating unit for generating a vibration in the main body by driving the motor in accordance with the trigger signal, and the A firing detecting unit for detecting a motion and transmitting a firing signal, and a switch mounted on a surface of the main body and selecting one of a plurality of distance adjusting modes; Providing a distance setting unit and delaying the firing signal according to the distance set by the distance setting unit. It relates to survival gaming simulation firearm, characterized in that comprises the edge.

It is an object of the present invention to provide a structure of a Miles system capable of simulating the same or similar situation as a live shot without using a dread bullet.

According to the present invention, a firing shock similar to a real fire is generated by pulling a trigger in the same manner as a live bullet shooting, and having a distance setting unit for selecting one of the section distance adjustment modes and delayed firing of the firing signal by the delay unit. Another object is to provide a simulated firearm that is delayed by the time the bullet arrives and the firing signal is fired to faithfully simulate the true fire.

It is another object of the present invention to provide a simulated firearm structure similar to that of a firearm, while the electrical and mechanical modules are embedded therein to produce the above-described effect.

In order to achieve the above object, the present invention is a personal simulation firearm for firing an output signal for operating a survival game, the simulated firearm body portion 10 is configured in a similar shape to a gun and the main body portion A trigger detection unit 30 connected to the trigger to sense the triggering state of the trigger and transmitting a trigger signal when the trigger is triggered, and a protruding recess 42 parallel to the outer circumferential surface and inserted into the main body so as to be movable horizontally; A plurality of pistons 41 formed therein, a spring 43 for holding one side of the piston, a rotary gear 44 fastened to the protruding recess so as to return after the spring is compressed, and a motor for driving the rotary gear ( 47) is configured to drive the motor in accordance with the trigger signal to generate a vibration in the body portion 40, and to detect the movement of the piston to send a firing signal A firing unit 50, a firing unit 60 mounted to the muzzle of the main body unit for firing an output signal according to the firing signal, and installed inside the main body unit to receive a trigger signal from the trigger detecting unit and transfer the trigger signal to the vibration generating unit. Is configured to include a control unit 20, which is mounted on the surface of the main body, and has a distance control switch 71 for selecting one of a plurality of distance control mode, the distance control mode by the selection of the distance control switch It further comprises a distance setting unit 70 for providing information to the control unit, and a delay unit 80 for delaying the firing signal according to the distance set by the distance setting unit.

delete

In addition, a fire mode setting unit 90 is mounted on the surface of the main body, and provided with a fire mode switch 91 for selecting one of a plurality of fire modes, and providing fire mode information set by the selection of the switch to the controller. It is preferable that it is configured to include more.

In addition, it is preferably configured to include a residual coal display unit 100 for displaying information on the initial amount of ammunition provided to the simulator and the amount of remaining in the magazine.

According to the present invention as described above, in the personal simulator for firing an output signal for operating a survival game, a spring mounted on the inside of the main body portion is connected to the piston, and one side of the spring to return after compressing the spring It consists of a rotating gear and a motor for driving the rotary gear, a vibration generating unit for generating a vibration in the main body by driving the motor in accordance with the trigger signal, and for detecting the movement of the piston to send a firing signal A distance setting unit mounted on a surface of the main body unit and having a launch detecting unit, the switch configured to select one of a plurality of distance adjusting modes, and providing distance control mode information to the control unit by selection of the switch; Fear in a method configured to include a delay unit for delaying the firing signal according to the distance set by the setting unit There is not even an effect of providing a structure that can be the same or similar circumstances and simulate firing live ammunition if used.

In addition, the present invention has a firing shock similar to the actual fire is generated by pulling the trigger in the same manner as a live shot, and provided with a distance setting unit for selecting one of the distance adjustment mode for each section, the delayed firing signal is delayed by the delay unit, Delayed by the time the bullet hits in shooting, the firing signal is fired, which effectively provides a simulated firearm.

In addition, the present invention has the effect of providing a simulated firearm structure similar to that of a firearm while embedding electrical and mechanical modules therein to produce the above-described effect.

What has been described above is only one embodiment according to the present invention, and the present invention is not limited to the above-described embodiments, and the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a view showing the appearance of a simulated firearm according to the present invention.
2 is a schematic diagram illustrating the transmission of a signal according to the present invention.
3 is a state diagram showing a vibration generating unit according to the present invention.
Figure 4 is a state diagram showing a rotary gear according to the present invention.
5 is a state diagram showing the internal coupling of the vibration generating unit according to the present invention.
6 is a state diagram showing a retreat step according to the present invention.
7 is a state diagram showing an impact step according to the present invention.
8 is an enlarged view of the distance control switch of FIG. 1.
9 is an enlarged view of the shooting mode switch of FIG. 1.

Survival game simulation firearm of the present invention for achieving the above object, the main body 10 is configured in a similar shape to the gun, the control unit 20 for controlling the overall operation of the simulated firearm, and detects the triggered state of the trigger And a trigger detection unit 30 for transmitting a trigger signal, a vibration generating unit 40 for generating vibrations in the main body portion according to the trigger signal, a firing detection unit 50 for detecting the movement of the piston, and firing Including a firing unit 60 for firing an output signal according to the signal, when the output signal is incident on the sensing element mounted on the target, it means that the target is used in a survival game that simulates being hit.

Hereinafter, the configuration and operation of the "survival game simulation firearm" according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the appearance of a simulated firearm according to the present invention, Figure 2 is a schematic diagram showing the transmission of a signal according to the present invention, Figure 3 is a state diagram showing a vibration generating unit according to the present invention, Figure 4 is a present invention Figure 5 is a state diagram showing a rotary gear according to, Figure 5 is a state diagram showing the inner coupling of the vibration generating unit according to the present invention, Figure 6 is a state diagram showing a retreat step according to the present invention, Figure 7 8 is an enlarged view of the distance control switch of FIG. 1, and FIG. 9 is an enlarged view of the fire mode switch of FIG. 1.

The simulated firearm 1 according to the present invention includes a main body 10 having a shape similar to a firearm, a control unit 20 installed inside the main body to control the overall operation of the simulated firearm, and the main body portion. A trigger detection unit 30 connected to the trigger to sense the triggering state of the trigger and transmitting a trigger signal when the trigger is triggered, and a protruding recess 42 parallel to the outer circumferential surface and inserted into the main body so as to be movable horizontally; A plurality of pistons 41 formed therein, a spring 43 for holding one side of the piston 41, a rotary gear 44 fastened to the protruding recess so as to return after the spring is compressed, and for driving the rotary gears. A vibration generator 40 configured to generate a vibration in the main body by driving the motor according to the trigger signal, and a launch detector 50 for detecting a movement of the piston and transmitting a firing signal; Gun of the main body It is characterized in that it is configured to include a firing unit 60 is mounted on the inner peripheral surface for firing the output signal according to the firing signal.

First, as shown in Figure 1, the main body 10 is preferably made of a metal material and synthetic resin material similar to a gun such as M16, M60, K1, K2, K3, largely by detecting the operation of the trigger A trigger detection unit 30 for generating a trigger signal, a vibration generator 40 for generating vibrations by driving a motor according to the trigger signal, and a firing detection unit for detecting a movement of the vibration generator and transmitting a firing signal 50 and a firing unit 60 for firing an output signal according to the firing signal is installed inside the main body 10, wherein the trigger detecting unit 30 and the vibration generating unit 40 and It further comprises a control unit 20 for controlling the firing detection unit 50 and the firing unit 60 to control the overall operation of the simulator, the components are configured to be connected to each other by wire or wireless.

The trigger detecting unit 30 is connected to the trigger of the main body 10 to detect the triggering state of the trigger, and is configured to send a trigger signal when the trigger is triggered, the trigger is generally the main body It is hinged so as to be rotatable on one side of the 10 and configured to rotate by the force that the user grasps the trigger with a finger, and the trigger detecting unit 30 generates a trigger signal that is an electrical signal by the rotation of the trigger. Generate and transmit the trigger signal to the control unit 20.

In addition, the trigger signal is generated by a switch which is hinged to be rotatable and coupled with an elastic material so as to come into contact with one side of the trigger on the side of the trigger that is forwardly burnt, so that the circuit is turned on / off. It may be configured to function easily by being configured, or may use a current generated by attaching a known thin piezoelectric element as a trigger signal.

3 to 7, the vibration generating unit 40 is provided with a guide groove 11 in the horizontal direction in the interior of the main body portion 10 to move horizontally in the guide groove 11 A piston 41 having a plurality of protrusion recesses 42 formed on the outer circumferential surface of the piston 41, a spring 43 holding the one side of the piston 41, and a rotation fastened to the protrusion recesses to return after the spring is compressed. Gear 44 and the motor 47 for driving the rotary gear is configured to drive the motor in accordance with the trigger signal to generate vibration in the body portion.

The piston 41 is stably formed of a metal material in the shape of a bolt of the gun so as to generate a vibration similar to the shock generated when the gun is fired, so that one side is open and the other side is opened. Is formed in a cylindrical shape having a wall is interpolated and installed to enable horizontal movement in the body portion 10, preferably a plurality of teeth formed in a horizontal sawtooth shape on one side of the lower portion to enable a smooth horizontal movement Two protruding recesses 42 are repeatedly provided.

One side of the spring 43 is inserted into and fixed to the open side of the piston 41, and the other side of the spring 43 is fixed to the rear wall of the guide groove 11 to support the piston 41 forward.

As shown in FIG. 4, the rotary gear 44 has at least one protrusion cam 45 and a traveling groove 46 formed on an outer circumferential surface thereof, so that the protrusion cam 45 is formed of the piston 41. Protruding cam is installed so as to engage with the protruding recess 42 provided in the lower portion, the piston 41 is carried forward by the spring 43 as the rotary gear 44 is rotated to engage with the protruding recess 42 It is moved backward by 45.

In addition, during the rotation of the rotary gear 44, the projection cam 45 is engaged with the protruding recess 42 so that the piston 41 moves backwards between the retraction step S1 and the projection cam 45. As the protrusion recess 42 is positioned in the traveling groove 46, which is a space, the piston 41, which is carried forward by the spring 43, is moved quickly to the front to vibrate the front wall of the guide groove 11. It is preferable that the impact step (S2) is generated so that it can occur repeatedly.

Therefore, the retraction step S1 and the impact step S2 occur while the rotary gear 44 is rotated one time, and the retraction step S1 and the impact step S2 are continuously performed according to the rotation of the rotary gear 44. Repeatedly generated vibration similar to the impact generated when the gun fired on the main body portion 10, the moving distance of the piston 41 is retracted depending on the number of the protrusion cam 45 is generated is generated Since the magnitude of the vibration caused by the impact is also different, it is preferable that the number of the protruding cams 45 is one to five.

Meanwhile, the motor 47 may use a known motor as a means for driving the rotary gear 44, and a driving force transmission means 48 such as a reduction gear and a worm gear provided with a different rotation speed depending on the installed position. ) Is further configured to transmit the driving force generated by the motor 47 to the rotary gear 44 through the driving force transmitting means 48 to drive the rotary gear 44 in one direction.

In addition, the motor 47 is preferably accommodated and installed inside the handle that the user grips with the trigger in the form of the main body 10 of the simulator.

Therefore, the vibration generating unit 40 receives the trigger signal transmitted by the trigger detecting unit 30 to transmit the motor drive signal by the control unit 20 so that the motor 47 in one direction by the motor drive signal. Driven, the motor 47 rotates the rotary gear 44 in one direction, the piston 41 engaged by the rotation of the rotary gear 44 is moved in the horizontal direction to retreat step (S1) and By repeatedly generating the impact step S2, it becomes possible to generate vibration in the main body portion 10.

In addition, the firing detection unit 50 is installed on the front wall of the guide groove 11, the front end of the piston 41 to move in a horizontal direction inside the guide groove 11 to impact the front wall to detect Send a firing signal.

As a method of generating the firing signal, a contact switch is installed in which a circuit is completed by the front end of the piston 41 impacting the front wall of the guide groove 11 similarly to the method of generating the trigger signal. Alternatively, the current generated by attaching a well-known thin piezoelectric element may be used as a firing signal, and by installing various types of known sensors, the piston 41 may be sensed when it is impacted forward.

In addition, the firing unit 60 is preferably configured to be mounted to the muzzle of the main body 10 so as to be similar to a firearm so as to emit an output signal according to the firing signal transmitted from the firing detection unit 50, If necessary, it may be attached to the side of the barrel or the main body portion 10.

The output signal is configured to emit power through a lens to the infrared signal generated from the infrared LED module installed in the interior of the firing unit 60 is supplied with power by a battery accommodated in the butt of the main body 10. Preferably, a laser light composed of 16-bit or 42-bit pulse waves used in conventional survival games may be emitted.

On the other hand, the speed of bullets fired from the gun is different depending on the length of the barrel and the type of bullets, but the general speed of NATO bullets of the widely used M16 gun is known to be 945m / s. That is, in the shooting of the gun, the time difference between the firing of the bullet and the reaching of the bullet is generated as the distance from the target increases, but the firing signal emitted from the firing unit 60 used in the simulator is generated by the infrared LED module. Infrared signal or laser light is used, and the firing signal is reached at the same time as the firing, and a slight difference occurs with the shooting of the gun, which causes the immersion of the user.

Accordingly, as shown in FIG. 8, the survival game simulation firearm 1 according to the present invention has a distance control switch 71 mounted on the surface of the main body 10 and selecting one of a plurality of distance adjustment modes. And a distance setting unit 70 for providing distance control mode information to the controller by selecting the distance adjustment switch 71 and a delay unit 80 for delaying the firing signal according to the distance set by the distance setting unit. It is preferably configured to include.

The distance setting unit 70 has a distance control switch 71 to the outside of the main body so that the user or the host can select the step by distance, such as 50m, 100m, 250m, 500m and 1000m according to the width of the game site where the survival game is made And the selection value of the selected stepped distance is sent to the control unit 20.

In addition, the delay unit 80 is set in advance by calculating the respective arrival time of the bullet reaching the step-by-step distance of the distance control switch 71 to the firing signal sent from the firing detection unit 50 of the step by step Delayed by the arrival time to transmit the delayed firing signal to the firing unit 60.

Therefore, the simulated firearm according to the present invention has an effect of providing a user with an environment similar to the shooting of a firearm by delaying the firing signal by substituting the speed of the bullet reaching the target in the shooting of the firearm.

In addition, as shown in FIG. 9, a fire mode switch 91 is mounted on the surface of the main body 10 and selects one of a plurality of fire modes, and the fire mode switch 91 is selected for selection. It is preferable to include a shooting mode setting unit 90 for providing the shooting mode information set by the control unit 20.

The firing mode is an automatic mode for firing the entire bullet loaded in the magazine with a single trigger when firing a bullet, an automatic mode for firing three shots with a single trigger, a single shot mode and an accidental shot. Refers to a lock mode for preventing firing, and in a firearm, a method of mechanically controlling the operation of the bolt and the gas pipe, but in the present invention, the program logic of the controller 20 according to the selection of the fire mode switch 91 formed in the shape between adjustments. The difference is that it is set to.

Since the shooting mode setting unit 90 has different trigger pulling times according to shooting habits for each user, if the trigger signal generated by pulling the trigger drives the motor 47 to continuously rotate the rotating gear 44 to fire. If the signal is generated continuously, the output signal is repeatedly generated to simulate the machine gun, which is different from the firing of a rifle that is actually used as a personalizer such as the M16 to K2.

Therefore, the trigger signal generated by pulling the trigger to prevent such a situation is driven by the motor 47 so that the retreat step and the impact step can be generated according to the setting of the fire mode setting unit 90 regardless of the duration It is preferably configured to generate a firing signal by rotating the rotary gear 44.

On the other hand, the distance control switch 71 and the shooting mode switch 91 is formed to protrude to the outside of the main body portion 10, is formed in the shape between the adjustment in the gun is selected to be rotated relative to one axis. Preferably, a push button and a status indicator lamp may be provided as necessary.

In addition, it is preferably configured to include a residual coal display unit for displaying information about the initial amount of ammunition provided to the simulated firearm and the amount of remaining in the magazine.

The xanthan display unit is generally displayed as an LED lamp which is provided side by side outside the magazine of the simulated firearm, the initial amount of ammunition and the number of magazines is set according to the progress of the initial survival game, the xanthan display unit output signal Is counted as the light is emitted and displayed by turning on / off the LED lamp.The magazine release button is provided to simulate the exchange of magazines.When the magazines are replaced, all the LED lamps are turned on to check the amount of residual coal from the outside. It is preferable to be configured to.

On the other hand, a light emitting lamp is provided on the outer circumferential surface of the muzzle of the simulated firearm and is lit when the output signal is fired to simulate a flame. It is desirable to be configured to provide a game environment similar to the shooting of a firearm.

As described above, the present invention provides a main body 10 having the same shape as a firearm, a control unit 20 for controlling the overall operation of the simulated firearm, and a trigger detecting unit for detecting a trigger state of a trigger and transmitting a trigger signal. 30, a vibration generating unit 40 for generating vibration in the main body portion according to the trigger signal, a firing detection unit 50 for detecting the movement of the piston, and a firing unit for firing an output signal according to the firing signal The present invention relates to a survival game simulator 100, including 60, which simulates that a target is hit when an output signal is incident on a sensing element mounted on a target, and a person skilled in the art does not depart from the spirit and scope of the present invention. In consideration of the description of the present invention it will be able to sufficiently change, conversion, substitution and replacement, not limited to the above-described embodiment.

100: Survival Game Simulator
10: main body
11: Home
20: control unit
30: trigger detection unit
40: vibration generating unit
41: piston
42: protrusion
43: spring
44: rotary gear
45: protrusion cam
46: Progress Home
47: motor
48: driving force transmission means
50: launch detection unit
60: launch unit
70: distance setting unit
71: distance control switch
80: delay unit
90: fire mode setting unit
91: fire mode switch

Claims (3)

In a personal simulator that fires an output signal to run a survival game,
The simulated firearm
A main body portion 10 configured in a shape similar to a firearm;
A trigger detection unit 30 connected to the trigger of the main body to sense a triggered state of the trigger and send a trigger signal when the trigger is triggered;
The piston 41 is inserted into the main body so as to be movable horizontally and formed with a plurality of protrusions 42 parallel to the outer circumferential surface, a spring 43 for holding one side of the piston, and a protrusion to return after the spring is compressed. A vibration generating part 40 including a rotary gear 44 coupled to a main portion and a motor 47 driving the rotary gear to drive the motor according to the trigger signal to generate vibration in the main body;
A fire detection unit (50) for detecting a movement of the piston and transmitting a fire signal;
A firing unit 60 mounted to the muzzle of the main body to emit an output signal according to a firing signal;
And a control unit 20 installed inside the main body to receive a trigger signal from the trigger detecting unit and transmit the trigger signal to the vibration generating unit.
A distance setting unit 70 mounted on a surface of the main body and provided with a distance adjustment switch 71 for selecting one of a plurality of distance adjustment modes, and providing distance control mode information to the controller by selecting the distance adjustment switch; );
And a delay unit (80) for delaying the firing signal according to the distance set by the distance setting unit.
delete The method of claim 1, further comprising a shooting mode switch 91 mounted on a surface of the main body and configured to select one of a plurality of shooting modes, and providing shooting mode information set by selection of the shooting mode switch to the controller. Survival game simulation firearm comprising a shooting mode setting unit (90).

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