KR20160043248A - Individual launching apparatus for simulation gaming firearms - Google Patents

Abstract

According to the present invention, disclosed is an individual launching apparatus of a simulation firearm for a survival game. A launching apparatus according to the present invention, in a bullet launching apparatus of a simulation firearm for a survival game using an infrared ray, comprises: a housing of a polygonal or cylindrical structure; a combining part which is installed at a rear of the housing, and is installed by being inserted into a gunbarrel of the firearm; a lens to give straightness of an infrared ray light source to a front of the housing; and a control device which controls to turn on an infrared ray lamp to radiate the infrared ray, in case an impact sound generated when the simulation firearm is fired is registered and managed, and then an impact sound generated by firing during the survival game is postulated as the previously registered impact sound. Therefore, the present invention has the effect of facilitating a survival game business, even though an expensive firearm for a mock battle, by realizing a laser launching device which can be combined to a random firearm. Also, the present invention has the effect of inducing vitalization of a game industry by grafting personal tendency and a survival game, since a person participating in the survival game can bring the simulation firearm for the survival game.

Description

[0001] INDIVIDUAL LAUNCHING APPARATUS FOR SIMULATION GAMING FIREARMS [0002]

More particularly, the present invention relates to a survival game apparatus, and more particularly, to a survival game apparatus which recognizes a trigger of a firearm by concluding a firearm of a random firearm, and then fires a laser beam corresponding to a fire based on a pre- To an independent launch device of a simulator for a survival game in which a survival game can be performed regardless of the type of simulator and without changing the structure of the simulator, .

In general, survival game is a survival game which is carried out in the same situation as holding enemy army and friendly army by possessing predetermined equipment. In recent years, a lot of equipment has been mobilized in such a survival game, and an interesting survival game is provided using a wireless communication device such as a Bluetooth terminal.

It has the advantage that it can solve the environmental pollution problem caused by many plastic BB guns that are less likely to be injured than when using a shotgun, consumed less than the burnt cost, have a longer range, and are fired and discarded. 1, a laser gun 100 for emitting a laser beam, an identification band 200A to be worn on the head, and a protection vest 200B to be worn on the upper body have a plurality of detection sensors 210 and 220 And a protection device 200 having a speaker 230 on one side of the protection vest 200B. The laser gun and protection device 200 includes at least one vibrator mounted on one side of the laser gun 100, And a protective vest 200B of the protective equipment 200 is provided with at least one vibrator for a protective equipment.

That is, the simulated combat vibration apparatus using the laser gun is roughly divided into the laser gun vibration apparatus 1 and the vibration apparatus 2 for the protective equipment, and the laser gun 10 and the protective vest 30A In order to obtain thrill and pleasure in the military simulation training and the survival game using the identification band 30B, a vibrator is provided to generate vibration.

The vibrating vane unit 1 for a laser gun is characterized in that the vibrating magazine 20 is coupled to the tubular coupling unit 11 of the laser gun 10 and the power line 22 branched from the power line 14 And is connected to the lower portion of the vibrating magazine 20 for use. When the user finishes the aiming and pulls the trigger 12, it transmits a firing signal to the control unit 13, and an operation signal is inputted to the power line 22 branched at this time, The vibrating magazine 20 is operated by the vibrator 21 provided in the vibrating magazine 20 to generate vibrations and the vibrating magazine 20 is controlled by the control of the vibrating magazine 20, A separate power supply auxiliary device is unnecessary by using a battery provided in the battery pack 13 so that it is easy to use.

The vibrating device 2 for the protective equipment may further include a vibration vest 30 having a plurality of detection sensors 34 for detecting the laser emitted from the launcher 15 of the laser gun 10 The vibrating vest 30 receives a shot signal and generates a shot sound through the speaker 230. At the same time, the vibrators 31A and 32A , 33A are operated.

However, the conventional laser gun for survival game configured in this way operates in conjunction with the simulated combat firearm, so that firearms must be modified or developed. In other words, in order to operate a survival game, it is necessary to purchase an expensive simulated combat firearm having a laser beam launching function.

Therefore, in the conventional survival game business, it is difficult to activate the survival game industry due to an excessive investment cost. As a result, it is expected to increase the activation of the survival game industry by mass production of the modularized independent launching device and the structure to be installed in individual firearms.

Korea Registered Utility Model 20-0396707, Date of Registration September 16, 2005, Designed as 'Vibration device for simulated combat using laser gun'

It is an object of the present invention to provide a laser launch device capable of being combined with a randomizer so that even if an expensive simulated combat firearm is not purchased, To provide an independent launch device for firearms.

Another object of the present invention is to provide a simulator for a survival game capable of bringing a simulator for a survival game owned by an individual in participation in a survival game, Of independent launch devices.

It is a further object of the present invention to provide a method and apparatus for managing a firing vibration of a simulator by registering and managing a firing vibration during a firing of a simulator, And to provide an independent launch device of a simulation device for a survival game that can give a sense of reality of simulation battle.

According to an aspect of the present invention, there is provided an independent launch device for a simulator for a survival game, the device comprising: a housing having a polygonal or cylindrical structure; A coupling unit installed at a rear side of the housing to receive the firearm; A lens for imparting a directivity of the infrared light source to the front surface of the housing; And a control device for controlling the infrared lamp to emit the infrared ray when the generated sound generated by the triggering of the survival game is assumed to be a registered sound after registering and managing the sound generated during the triggering of the simulator .

According to a preferred embodiment of the present invention, a plurality of switches for registering the number of the hit sounds and setting the number of bullets to one side of the housing; And a display window for displaying the exhaustion number of bullets corresponding to the detection of the sound.

According to a preferred embodiment of the present invention, the coupling portion is formed along an outer circumferential surface of the housing, at least two branch bodies extending from the rear of the housing and tapering outwardly so that a longitudinal portion thereof has a predetermined curvature, A fastening screw is provided on the part; And a tightening knob which is fastened to the tightening thread to induce coupling between the firearm barrel and the branch body.

Further, the control device according to the preferred embodiment of the present invention controls the lighting of the infrared lamp by detecting occurrence of a hit sound for the firearm, after receiving the setting of the hit sound of the firearm and the setting of the number of bullets, A controller for subtracting a predetermined number of bullets corresponding to the number of occurrences of the hit sounds and outputting the result to a display device; A memory for registering and storing an acoustic signal corresponding to the hit sound and storing bullet number information set by a user; A microphone for recognizing an external sound signal for registration and detection of the sound; And an amplifying circuit for amplifying the output signal of the microphone to a predetermined level and providing the amplified signal to the controller.

In addition, the controller according to the embodiment of the present invention transmits the remaining number information of the bullet to the vibration device for the protection equipment and receives the survival information from the vibration device for the protection equipment according to the lifted or dead state of the user. Lt; / RTI > And the controller controls the operation of the infrared lamp according to the survival status information.

The independent launch device of the simulator for survival game proposed in the present invention realizes a survival game business even if an expensive simulated combat firearm is not purchased by implementing a laser launch device capable of being combined with a randomizer. In addition, when participating in the survival game, it is possible to carry a simulator for the survival game owned by the individual, so that the attraction of the individual and the survival game are combined, thereby inducing the activation of the game industry.

Further, in the present invention, the percussion oscillation during the triggering of the simulator is registered and managed, and the laser beam is fired in response to the registered percussion oscillation signal, and at the same time, a plurality of registered percussion sound corresponding to the percussion oscillation is output , And provides the effect of giving a sense of reality to the mock battle.

FIG. 1 is a diagram for explaining equipment and functions for a conventional survival game.
2 is a perspective view illustrating an independent launch device according to the present invention.
FIG. 3 is an exploded perspective view of FIG. 2. FIG.
4 is a perspective view showing the driving module of FIG.
5 is a block diagram for explaining functions of a control apparatus according to the present invention.
6 is an installation state diagram of an independent launch device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, the launching device for a survival game proposed in the present invention causes an infrared laser to fire in response to a striking sound of a firearm of a survival game. Here, the infrared laser means a light source that emits an infrared light source in a linear direction through a lens.

In addition, since the hit sound for the knob differs depending on the flow rate of the fire, according to the present invention, it is possible to exclude a mistake in recognizing fire firing by other noises by registering the hit sound of the firearm on which the launch device is mounted. Also, in the present invention, the operation of the nokes is recognized based on the sound of the hitting sound. However, in the case of a gas stream for a survival game, for example, a gas type firearm, it is possible to determine whether the nursing operation is based on the discharge state of the gas. That is, the gas sensor is mounted to recognize the operation state of the nursing key.

If BB is used, it is possible to recognize and determine the firing state of the BB bullet. If necessary, the operation state of the bullet can be recognized by using a predetermined pressure sensor. However, in the embodiment of the present invention, the operation state of the firearm is detected by recognizing the sound of the fire.

Meanwhile, since the launch device according to the present invention can be freely mounted on a plurality of types of survival machines, when the sound of the firearm is weak, it is possible to amplify and output the sound through the separate amplification circuit. That is, in the present invention, it is possible to further include an acoustic output device for a hit sound through the amplifier circuit.

FIG. 2 is a perspective view showing a launching apparatus proposed in the present invention. FIG. As shown in the figure, the launch device 200 includes a lens 203 for imparting a directivity of an infrared light source to a front surface of a housing 201 having a polygonal or cylindrical structure, registers a hit sound of the firearm, And a plurality of switches (211) for controlling the infrared light source to be lighted upon detection of the hitting sound, and for setting the number of loads and registering the hitting sound to one side of the housing (201) And a coupling part 221 installed at the rear of the housing 201 for coupling with the fire of the firearm is provided. The display part 209 has a display window 209 for displaying the number of burned bullets.

The engaging portion 221 is constituted by a mechanism for engaging with the flame gun string, thereby inducing a firm coupling or fastening between the gun string and the launch device 200. At least two branch bodies 213 extending from the rear of the housing 201 and inclined outward to have a predetermined curvature are formed along the outer circumferential surface of the housing 201, Tightening screw is provided at the first end of the screw. And a heat tightening knob 215 fastened to the first end fastening screw of the branch body 213 to induce a coupling between the fire body series and the branch body 213.

In the meantime, the joint 221 shown in the present invention performs the fastening between the gun body and the branch body 213 by the barrel knuckle 215. However, by the interference fit, A means such as fastening by a screw may be applied.

The lens 203 guides the infrared light source to travel a predetermined distance, and the effective range of the firearm can be set by controlling the refractive index of the lens 203 as much as the effective range is different according to the flow of the fire. Therefore, the lens 203 proposed in the present invention is fastened to the front of the housing 201 so as to be replaceable.

That is, a plurality of types of lenses 203 having different refractive indexes are used depending on the firearms so as to vary the effective range depending on the type of firearm. The lens locking knob 205 is integrally formed with a lens locking knob 205 for fixing the lens 203 so that the lens locking knob 205 is fastened to the front of the housing 201. Accordingly, the survival game manager increases the authenticity of the game by replacing the lens 203 in accordance with the type of firearm possessed or the type of firearm possessed by the game participant.

3 is an exploded perspective view showing the launch device according to the present invention.

The launch device 200 is mounted with a lens module 330 including a lens 203 and a lens locking knob 205 in front of the housing 201. Inside the housing 201, A PCB 301 mounted with a drive circuit element 303 for controlling the infrared lamp 305 in response to a hit sound and controlling the exhaustion state of a predetermined bullet, And a module body 307 on which a battery 309 is mounted. The driving module 320 is inserted into the housing 201 and then is fastened to the fastening screw portion 311 of the branch body 213 And a thermal knocking knob 215 coupled to the launching device 200 to induce coupling between the launching device 200 and the gun string.

Here, the battery 309 mounted on the driving module 320 can be miniaturized by using the cell battery. Further, the infrared lamp 305 is preferably an infrared LED.

Meanwhile, in the present invention, a speaker 313 may be attached to one end of the driving module 320 to reproduce an appropriate sound when the hit sound is generated. This is for a low-price firearm in which no bullet firing sound is generated according to the type of survival game firearm, and the bullet firing sound can be reproduced in correspondence to the kind of firearm, for example, a pistol, a long gun and a machine gun.

The speaker 313 is connected to the driving circuit element 303 and outputs a pre-registered firing sound under the control of the microcomputer. The housing 201 has a plurality of holes And a perforated hole 315 having a hole 315a. The perforation 315 is for emitting the sound source of the speaker 313 to the outside.

In this way, according to the present invention, the effective range corresponding to the firearm is defined through replacement of the lens module 330, and the playability of the survival game is enhanced by regenerating the unique firing sound according to the type of the firearm.

The switch 211 and the display window 209 described above are electrically connected to the PCB 301 through a connector and the control device of the driving circuit element 303 responds to the operation of the switch 211 Registering the hit sound, outputting the firing sound, and calculating and displaying the remaining bullets.

4 is a view illustrating a driving module 320 according to the present invention.

The driving module 320 includes a supporting panel 405 for supporting the PCB 301 from the rear and a module body 307 extending toward the rear of the supporting panel 405, A battery mounting groove 403 for accommodating the battery 309 is formed at one end of the module body 307 and the speaker 313 is installed at the other end. A microphone 401 for receiving a hit sound of the firearm is provided near the installation position of the battery 309. The signal received by the microphone 401 is supplied to the control circuit Device.

The control unit analyzes the signal input from the microphone 401 to determine whether or not the sound is extremely similar to or matches the previously registered hit sound, and then subtracts the remaining bullet or outputs a preset launch sound according to the determination result.

Since the microphone 401 has a very high sensitivity efficiency, it can be mounted on the PCB 301 in addition to the module body 307. That is, it is a matter of course that the mounting position of the microphone 401 may be any position, and the battery 309 may also be a cell type battery.

Fig. 5 is a configuration diagram for explaining the function of the control device constituting the driving circuit element 303 according to the present invention.

As shown in the figure, after receiving the setting of the hit sound of the firearm and the setting of the bullet number from the switch 211, the control unit controls the lighting of the infrared lamp 305 by sensing the occurrence of the hit sound to the firearm, A controller 501 for subtracting the predetermined number of bullets corresponding to the number of times of the generated sound and outputting the result to the display device 507, A memory 505 for storing information on the number of bullets, a microphone 401 for recognizing an external sound signal for registering and detecting the sound, and a microprocessor 401 for amplifying the output signal of the microphone 401 to a predetermined level, And an amplifying circuit 503 for providing the amplified signal to the amplifier 501.

On the other hand, according to the present invention, the reality of the survival game can be improved by reproducing the launch sound corresponding to the firearm. As described above, the sound output sound of the firearm is output when the sound is generated. The memory 505 registers and stores the sound of the fire according to the type of the firearm. The controller 501 controls the switch And a speaker 313 and a driver 511 are connected to the output port of the controller 501 for outputting the firing sound.

In addition, the controller 501 shown in the present invention communicates with a vibration device for a protection device for a survival game to notify the remaining number of the current bullet, or when it is determined that the game is 'dead' Can be stopped.

Accordingly, the controller 501 provides the remaining number of bullets to the vibration device for the protective equipment, and the communication module 509 for receiving the survival state information according to the lifted or dead state of the user from the vibration device for the protection device, And the controller 501 controls the operation of the launch device 200 according to the survival status information.

The communication module 509 may be any of a Zigbee communication and a Bluetooth communication based on a unique ID as a short distance communication.

As shown in FIG. 6, the launching apparatus 200 configured as described above draws in the opening surface of the branch body 213 through a muzzle (muzzle) of the firearm. The branch body 213 has a diameter enough to allow the general flame of the flame to flow sufficiently. When the branch body 213 appropriately enters the flame through the flame retarder, the flame- To perform the connection between the branch body 213 and the gun string.

The branch body 213 is inclined outwardly and the thermal coupling knob 215 is rotated along the tightening screw portion 311 of the branch body 213 so that the branch body 213 having the inner diameter . Thus, the branch body 213 is press-fastened on the outer circumferential surface of the juncture.

Thereafter, the user sets the bullet corresponding to the firearm through the switch 211 according to the rule of the survival game. The controller 501 sets the bullet setting in the bullet setting mode, and the set bullet loading information is displayed through the display element 507. The display device 507 may be an LCD panel, an FND device, or the like, and may display an amount of bullet load using LEDs as needed.

In addition, the user registers a hit sound for the firearm, and the controller 501 enters the hit tone registration mode to store the hit sound information. In the state where the launch device 200 is installed, the user performs triggering of the firearm, and stores and registers the hit sound generated in the trigger in the memory 505.

That is, the controller 501 amplifies the hit sound inputted through the microphone 401 to a signal of a predetermined level through the amplifying circuit 503, and registers the amplified sound by a digital signal through an analog-to-digital converter (ADC) . Here, the digital signal of the registered hit sound is set and registered in the memory 505 as the signal size and frequency information.

Then, when the survival game is started and the firearm of the firearm is triggered by the user, the controller 501 receives the sound generated in the triggering process through the microphone 401. The controller 501 converts a signal of the currently inputted input sound into a digital signal, and then analyzes the signal size and frequency of the corresponding sound.

The controller 501 compares the analysis result with the previously registered sound signals to determine that the trigger has occurred from the corresponding firearm if the similarity, for example, the signal size is equal to or more than 90% and the frequency is equal to or greater than 90%.

Accordingly, when the controller 501 determines that the trigger has been triggered from the corresponding firearm, the controller 501 controls the infrared lamp 305 to light up, and counts the number of the remaining remaining bullets through the display element 507 Display. When the controller 501 determines that the remaining bullets have been exhausted through the continuous survival game, the controller 501 displays the bullet exhausting state with the display device 507 and turns off the infrared lamp 305 in the following triggering state .

Meanwhile, the controller 501 is connected to the communication module 509, and wirelessly transmits remaining bullet number information for the firearm to the vibration device for the protection equipment. The vibration device for the protective equipment includes a communication device for judging whether the user has been shot from the enemy army during the survival game as a protective equipment and for sending the remaining bullet number information of the firearm to the control system together with the sniper status.

In addition, the control system can be assumed to be a computer terminal that conducts a military simulation strategy, and monitors the current status of allied and enemy forces. Accordingly, the communication module 509 determines whether the user is shot, and disables the infrared lamp 305 when the controller 501 recognizes the snooze state through the communication module 509. That is, the operation of the launch device 200 is stopped so that the shooting is not performed.

The speaker 313, which has not been described, outputs the sound of the firearm by the controller 501, and is a device for applying to a firearm in which no sound is generated depending on the type of firearm. That is, when the survival game machine is a gas type, a fire sound of a firearm can be generated. However, in case of a fire type firearm, a firing sound is weak or does not occur.

In this case, the controller 505 may register the firing sound information for each firearm. When the user selects the firing sound information through the switch 211, the controller 501 detects the corresponding sound through the driver 511 And outputs the fire sound of the firearm to the speaker 313. Therefore, in the course of the game, the firing sound of the same firearm is outputted and realization of the game is realized.

200: launch device 201: housing
203: lens 205: lens clamping knob
209: display window 211: switch
213: Branch body 215: Thermal knob
301: PCB (PCB) 303: Driver circuit element
305: Infrared lamp 307: Module body
309: Battery 311: Pressure screw
313: speaker 320: drive module
330: Lens module 401: Microphone
403: Battery mounting groove 405: PCB support panel
501: controller 503: amplifier circuit
505: memory 507: display element
509: Communication module 511: Driver

Claims (8)

An apparatus for launching a simulator for a survival game using infrared rays,
A housing 201 of a polygonal or cylindrical structure;
An engaging portion 221 installed at the rear of the housing 201 to receive and install the firearm;
A lens 203 for imparting a directivity of the infrared light source to the front surface of the housing 201; And
And a control device for controlling the infrared lamp to emit the infrared ray when the generated sound generated by the triggering of the survival game is assumed to be the registered sound after registering and managing the sound generated during the triggering of the simulator Independent launch device of simulator for survival game characterized by. The method according to claim 1,
A plurality of switches 211 for registering the hit sounds and setting the number of shots in one side of the housing 201; And
And a display window (209) for displaying the number of exhausted bullets corresponding to the detection of the hit sound. The method according to claim 1,
At least two branch bodies 213 extending from the rear of the housing 201 and inclined outward to have a predetermined curvature are formed along the outer circumferential surface of the housing 201, A fastening screw is provided at the initial end of the body 213;
And a barrel knob (215) which is fastened to the tightening thread to guide the coupling between the firearm barrel and the branch body (213). The method according to claim 1,
The lens 203 is integrated with a lens locking knob 205 for fixing the lens 203;
Wherein the lens locking knob (205) is detachably attached to the front of the housing (201). The control apparatus according to claim 1,
And a control unit for controlling the lighting of the infrared lamp (305) by detecting the occurrence of a hit sound for the firearm, receiving a preset number of bullets A controller 501 for subtracting the number of outputs and outputting the result to the display element 507;
A memory (505) for registering and storing the sound wave signal corresponding to the hit sound and storing bullet number information set by the user;
A microphone 401 for recognizing an external sound signal for registration and detection of the hit sound; And
And an amplifying circuit (503) amplifying the output signal of the microphone (401) to a predetermined level and providing the amplified signal to the controller (501). 6. The method of claim 5,
The memory 505 registers and stores a sound corresponding to the kind of the firearm, and the controller 501 controls to output any selected sound when the sound is detected;
And a speaker (313) and a driver (511) for outputting the launch sound are connected to the output port of the controller (501). 6. The method of claim 5,
The controller 501 transmits the remaining number information of the bullet to the vibration device for the protection equipment and the communication module 509 for receiving the survival condition information according to the lifted or dead state of the user from the vibration device for the protection equipment ;
Wherein the controller (501) controls the operation of the infrared lamp (305) according to the survival status information. 8. The method of claim 7,
Wherein the communication module (509) is one of a Zigbee communication and a Bluetooth communication based on a unique ID as a local communication, and is applied to an independent launch device of a simulator for a survival game.

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