KR20120012352A - Shooting game gun using hall sensor and shooting gaem system using the same - Google Patents

Abstract

PURPOSE: A gun for a shooting game using a hall sensor and a system thereof are provided to prevent a malfunction of a connection at a contact point because a movement of a magnet is detected by a hall sensor in a sensor module and the percussion signal is transferred to a computer. CONSTITUTION: A gun for a shooting game(200) comprises a laser sensor module(210), a laser line(217), a sensor line(218), and a magnet(313). The laser sensor module is installed in the lower part of the frame(230) in one body. The laser line and sensor line are connected to the laser sensor module. The laser line and sensor line are extended to a grip handle's lower part of the gun for a shooting game and connected to the computer. The magnet is installed to the bottom surface of a slide. A hall sensor(213) of the laser sensor module detects a movement of the magnet according to a movement of the slide.

Description

SHOOT GAME GUN USING HALL SENSOR AND SHOOTING GAEM SYSTEM USING THE SAME}

The present invention relates to a shooting game gun and a shooting game system using a hall sensor, and more particularly, to pull the trigger (trigger) of the shooting game gun and at the same time the compressed air is supplied from the compressor so that the slide is moved back and forth, through The Hall sensor of the laser sensor module attached integrally to the bottom of the frame detects the movement of the magnetic attached to the bottom of the slide, and the trigger signal is transmitted to the computer device, so that a conventional mechanical or electric switch (such as a limit switch) is used. Compared to the shooting game gun, there is no fear of malfunction in contact connection and the function of the shooting game gun can be reliably performed without any damage to other internal devices of the shooting game gun. The gun and shooting game system for the shooting game using the Hall sensor All.

Various devices have been developed to enjoy various shooting games indoors. You can also enjoy shooting games with a firearm called Bibitan. Bibitan guns look like a real gun, with the difference that plastic bullets are fired instead of just real bullets. In other words, the plastic bullet is continuously mounted on the magazine to fire the gas charged in the magazine to launch the bibitan through the triggering device.

As a kind of gun used in shooting games, a shooting game gun (Hi-CAPA 5.1) 100 manufactured by Tokyo Marui Co., Ltd., a product released in Japan, has a large handle as shown in FIGS. 1 to 3. And a slide 20 including a frame 30, a magazine 40 mounted in the handle, a barrel 10, and the slide 20 is movable rearward. Reference numeral 11 denotes a cap. Reference numeral 52 is a slide stopper. In general, the shooting game gun 100 is provided with a trigger and a handle (part of the frame), the outer frame to form the overall appearance, including the barrel portion of the shooting game gun, the barrel portion and the upper portion of the handle portion in the outer frame An inner frame including a front and rear chassis, a trigger (trigger), a trigger bar, and a trigger bundle including a hammer, mounted in a handle of the outer frame and interlocked with an operation of a trigger of the inner frame; A magazine (also called a magazine) which is operated in contact with and is slidably mounted and mounted on an upper surface of the outer frame, and is instantaneously driven by the recoil spring and the recoil shaft that interlocks with the force from the magazine by the operation of the trigger. Cylinder and piston moving back and forth, the cylinder and the upper surface of the outer frame And a slide coupled to the piston to momentarily move back and forth together with the momentary movement of the cylinder and the piston. The detailed configuration and operation of the shooting game gun is described in detail in the manual of the above product, so a detailed description thereof will be omitted. The product is configured to continuously fire plastic bullets (non-bitan) mounted on the magazine by contacting the release valve of the magazine and the knocker simultaneously with the operation of the trigger.

This type of shotgun was not enough to be used in a real game, and if the triggering ability was improved, it would lead to human damage, and the danger of a safety accident existed.

In addition, the arcade shooting gun currently used in a PC game room or a game room is designed to match an object appearing on a video screen by firing a trigger of the shooting game gun to shoot a specific signal from the shooting game gun.

However, such a video game shooting game gun adopts a structure for firing a laser light instead of triggering a plastic bullet from a conventional shooting game gun, but there is a problem that a firearm is frequently damaged when the actual shooting game gun is operated.

An object of the present invention has been proposed to improve the problems in the prior art as described above, to provide a gun and shooting game system for a shooting game using a new type of hall sensor with improved durability and no failure.

According to a preferred embodiment of the present invention for achieving the above object,

A display device, an input device, an output device, a power supply unit, a shooting game gun, a camera device, and a computer device storing a game operating program are provided. The shooting game gun is composed of a frame, a slide, a barrel, and a magazine. And a gun for the shooting game provided with an infrared laser launcher for emitting infrared rays to the front of the display device, a compressor for instantaneously supplying air during the operation of the shooting game gun, and being fired from the shooting game gun to the display device. In the shooting game system comprising a camera device for detecting the infrared reflected by the computer device including a game operating program for sensing the progress of the game program implemented in the display device and controlling the game progress,

The shooting game gun

 A laser sensor module integrally provided under the frame,

 A laser line and a sensor line connected to the laser sensor module and extending below the handle portion of the frame of the shooting game gun and connected to the computer device;

 It is made, including a magnetic, mounted on the bottom of the slide,

 The laser sensor module is characterized in that it comprises a Hall sensor for detecting the movement of the magnetic in accordance with the movement of the slide,

When the start signal is input through the input device, the laser sensor module of the shooting game gun is operated by the control signal of the computer device. When the trigger of the shooting game gun is pulled, the air compressor is operated to slide the slide. Is moved and accordingly the Hall sensor of the laser sensor module is operated to provide a shooting game system characterized in that the trigger signal of the shooting game gun is transmitted to the computer device.

According to another aspect of the present invention,

An outer frame having a trigger and a handle (part of the frame) to form the overall appearance, including the barrel portion of the shooting game gun, mounted on the barrel portion and the handle portion in the outer frame, the front and rear chassis parts; , An inner frame including a trigger (trigger), a trigger bar, a hammer including a hammer, and a magazine (also called a magazine) mounted in a handle of the outer frame and operated in contact with a knocker in conjunction with an operation of a trigger of the inner frame. And a cylinder and piston slidably mounted on an upper surface of the outer frame and momentarily moved back and forth by a force from the magazine by the operation of the trigger and a recoil spring and a recoil shaft interlocked thereto. The upper surface of the cylinder and the piston is coupled to the cylinder and the blood In the shooting game composed of a total, including the slides, which instantly moves back and forth in conjunction with the instantaneous forward and backward movement of the tone,

 A laser sensor module integrally provided under the frame,

 One end is respectively connected to the laser sensor module, the other end is a laser line and a sensor line respectively connected to the computer device,

 The magnetic sensor is mounted on the bottom surface of the slide but is mounted at a position set to correspond to the position of the laser sensor module. The laser sensor module includes a hall sensor sensing a movement of the magnetic according to the movement of the slide. Characterized in that made,

It is installed embedded in the bullet mounting portion of the magazine and exposed to the side of the handle portion of the frame of the shooting game gun is integrally installed to the side of the laser sensor module, it extends downward of the magazine and is connected to the computer device A gun for a shooting game using a Hall sensor is provided.

Preferably,

The laser sensor module

Circuit boards for processing signals,

A laser firing device installed on the circuit board to launch the laser to the front;

Hall sensor for outputting a signal by detecting the movement of the magnetic,

And packaging means for integrally packaging the devices to form an outer body of the laser sensor module.

Also preferably,

The laser line and the sensor line are each connected to a laser launch device and a hall sensor.

As described above, according to the shooting game gun using the Hall sensor according to the present invention, while pulling the trigger (trigger) of the shooting game gun, the compressed air is supplied from the compressor to move the slide back and forth, thereby through the slide bottom The Hall sensor of the laser sensor module attached to the bottom of the frame is sensed by the movement of the attached magnetic, and the trigger signal is transmitted to the computer device, compared to the conventional gun for a shooting game using a mechanical switch (such as a limit switch). There is no fear of malfunction in the contact connection, and it is possible to reliably perform the function of the shooting game gun without damaging other internal devices of the shooting game gun, thereby improving durability and solving the fear of failure.

In addition, the signal is fired precisely toward the hitting point, and at the same time, there is an effect that can feel a sense of reality by causing a vibration like a shooting game gun.

In addition, there is an effect that can be triggered and at the same time give the feeling of shooting like a real gun.

In addition, according to the present invention, there is no problem in operating only the small air of the existing air supply device, there is no failure or failure due to the air supply, there is an effect that the operation is good even by supplying only a small air (that is, at least the air supply amount).

In addition, according to the present invention, since the trigger signal generation system using a Hall sensor, the device using the principle that operates when the sensor (hall sensor) and the electromagnet (magnetic) is attached or spaced, the stability of the device is a mechanical or electrical (contact point) Compared to the operation method), there is almost no failure, thereby improving durability and increasing convenience.

1 to 3 is a schematic exploded perspective view and a front view of a conventional non-tan bullet shooting game gun.
4 is a schematic front view of a shooting game gun using a hall sensor according to the present invention.
5 to 8 is a schematic perspective view of a shooting game gun using a hall sensor according to the present invention.
9 is a schematic block diagram of a shooting game system including a shooting game gun using a hall sensor according to the present invention.
10 is a schematic operation flowchart of a shooting game system including a shooting game gun using a hall sensor according to the present invention.

Hereinafter, a gun and shooting game system for a shooting game using a hall sensor according to the present invention will be described in detail with reference to the accompanying drawings.

Since the technical principle of the hall sensor is general, a detailed description thereof will be omitted.

A shooting game system using a shooting game gun using a hall sensor according to the present invention will be described.

9 to 10, a shooting game system using a shooting game gun using a hall sensor according to the present invention includes a display device 510, an input device 450, an output device 460, and a power supply unit 420. ), A shooting game gun 200, a camera device 430, and a computer device 440 in which a game operating program is stored.

The shooting game gun 200 includes a frame, a slide, a barrel, and a magazine (magazine) as in the prior art, and is provided with an infrared laser emitting device which emits infrared rays to the front of the display device 510.

The shooting game system further includes a compressor device 410 for supplying air at the time of operation of the shooting game gun 200.

The camera device 430 detects infrared rays emitted from the shooting game gun 200 and reflected by the display device 510.

The computer device 440 senses the progress of the game program implemented in the display device 510 and controls the progress of the game.

The laser line 217 and the sensor line (ie, the line connected with the hall sensor) 218 of the shooting game gun 200 are connected to the control box 470. The control box 470 is optional and may be embedded in the computer device 440.

It looks at the operation of the shooting game system according to the present invention. First, when the user presses the start button (not shown) in the input device 450 (S2), a signal is applied to the hall sensor and the laser module of the shooting game gun 200 (S4).

After the user pulls the trigger (trigger) of the shooting game gun 200 (S6), the air compressor 410 is operated (S8), and then the slider 220 is retracted (S10). At this time, the Hall sensor 213 of the laser sensor module 210 detects the movement of the magnetic 313 attached to the bottom of the slider 220 and transmits a sensing signal to the computer device 440 (S12).

The initial mounting position of the magnetic 313 is changeable, and may vary depending on the function setting of the hall sensor 213 of the laser sensor module 210. For example, the moving state can be set as the initial state, and the stopped state can be set as the initial state. That is, the hall sensor 213 may sense the movement of the magnetic 313 in the current state, or may detect that the current hall sensor 313 is installed at another position.

The shooting game gun 200 using the hall sensor according to the present invention, referring to Figures 4 to 8, the basic configuration is the same as the conventional shooting game gun, the other point is that the laser sensor module 210 is added.

That is, the shooting game gun 200 according to the present invention is

 Laser sensor module 210 and integrally provided in the lower frame 230,

 A laser line 217 and a sensor line 218 connected to the laser sensor module 210 and extending below the handle portion of the frame 230 of the shooting game gun and connected to the computer device;

 It comprises a magnetic 313, which is mounted on the bottom of the slide 220,

 The laser sensor module 210 is characterized in that it comprises a Hall sensor 213 for detecting the movement of the magnetic 313 according to the movement of the slide 220,

When the start signal is input through the input device 450, the laser sensor module 210 of the shooting game gun 200 is controlled by the control signal of the computer device 440, that is, within the laser sensor module 210. When the laser launching device 214 and the Hall sensor 213 are in operation, and the trigger of the shooting game gun 200 is pulled, the air compressor 410 is operated to move the slide 220 and thus the The hall sensor 213 of the laser sensor module 210 is operated so that the trigger signal of the shooting game gun 200 is transmitted to the computer device 440.

Shooting game gun 200 according to the present invention is

An outer frame having a trigger and a handle (part of the frame) to form the overall appearance, including the barrel portion of the shooting game gun, mounted on the barrel portion and the handle portion in the outer frame, the front and rear chassis parts; , An inner frame including a trigger (trigger), a trigger bar, a hammer including a hammer, and a magazine (also called a magazine) mounted in a handle of the outer frame and operated in contact with a knocker in conjunction with an operation of a trigger of the inner frame. And a cylinder and piston slidably mounted on an upper surface of the outer frame and momentarily moved back and forth by a force from the magazine by the operation of the trigger and a recoil spring and a recoil shaft interlocked thereto. The upper surface of the cylinder and the piston is coupled to the cylinder and the blood As a laser sensor module 210 for sensing the conventional shooting game gun 100 configured with the instantaneous forward and backward movement of the tones comprising a slide that moves forward and backward for a short period is provided integrally fixed,

A laser sensor module 210 integrally provided under the frame,

 One end is respectively connected to the laser sensor module 210, the other end is a laser line 217 and a sensor line 218, respectively, connected to the computer device 440,

 The magnetic sensor 313 is mounted on the bottom surface of the slide 220 and is mounted at a position corresponding to the mounting position of the hall sensor 213 of the laser sensor module 210. Is characterized in that for sensing the movement of the magnetic 313 according to the movement of the slide 220 through the Hall sensor 213,

The laser line 217 and the sensor line 218

Installed in the bullet mounting portion 242 of the magazine 240 is exposed to the hole 233 formed in the side of the handle portion of the frame 230 of the shooting game gun 200 to the laser sensor module 210 side It is integrally installed and extends below the magazine 240 to be connected to the computer device 440.

The laser sensor module 210 is

A circuit board 212 for processing a signal,

A laser firing apparatus 214 installed on the circuit board 212 to launch the laser to the front;

Hall sensor 213 for detecting the movement of the magnetic 313 to output a signal,

And packaging means 219 for integrally packaging the devices to form an outer body of the laser sensor module. The packaging means 219 is molded of epoxy resin.

The laser line 217 and the sensor line 218 are connected to the laser launch device 214 and the hall sensor 213, respectively. The magnetic 313 is characterized in that it is installed in a position corresponding to the vertical perpendicular to the Hall sensor 213 (not limited to this, the magnetic 313 is to be installed in front of the other position, for example, the hall sensor 213) In this case, the Hall sensor 212 detects the movement of the magnetic 313 when the slide 220 is retracted. A hole is formed between the magnetic 313 and the Hall sensor 213 (on a vertical line facing each other). 219-1 is formed.

Reference numeral 252 denotes a conventional slide stopper, and reference numeral 254 denotes a screw for fixing the slide stopper.

Reference numeral 262 denotes a stopper for removing a conventional magazine, and reference 264 denotes a screw for fixing the magazine stopper.

Reference numeral 320 is a cover surrounding the laser line 217, the sensor line 218, and the compressor line 310, and the reference numeral 330 is a mounting part mounted below the frame handle of the shooting game gun 200.

200: gun for shooting games
210: laser sensor module
212: circuit board
213: Hall sensor
214: laser launcher
217: laser line
218: sensor line
219: packaging means
220: slide
240: magazine
313: magnetic

Claims (4)

A display device, an input device, an output device, a power supply unit, a shooting game gun, a camera device, and a computer device storing a game operating program are provided. The shooting game gun is composed of a frame, a slide, a barrel, and a magazine. And a gun for the shooting game provided with an infrared laser launcher for emitting infrared rays to the front of the display device, a compressor for instantaneously supplying air during the operation of the shooting game gun, and being fired from the shooting game gun to the display device. In the shooting game system comprising a camera device for sensing the infrared reflected by the computer device including a game operating program for sensing the progress of the game program implemented in the display device and control the game progress,
The shooting game gun
A laser sensor module integrally provided under the frame,
A laser line and a sensor line connected to the laser sensor module and extending below the handle portion of the frame of the shooting game gun and connected to the computer device;
It is made, including a magnetic, mounted on the bottom of the slide,
The laser sensor module is characterized in that it comprises a Hall sensor for detecting the movement of the magnetic in accordance with the movement of the slide,
When the start signal is input through the input device, the laser sensor module of the shooting game gun is operated by the control signal of the computer device. When the trigger of the shooting game gun is pulled, the air compressor is operated to slide the slide. Is moved and accordingly the hall sensor of the laser sensor module is operated so that the trigger signal of the shooting game gun is transmitted to the computer device. An outer frame having a trigger and a handle (part of the frame) to form the overall appearance, including the barrel portion of the shooting game gun, mounted on the barrel portion and the handle portion in the outer frame, the front and rear chassis parts; , An inner frame including a trigger (trigger), a trigger bar, a hammer including a hammer, and a magazine (also called a magazine) mounted in a handle of the outer frame and operated in contact with a knocker in conjunction with an operation of a trigger of the inner frame. And a cylinder and piston slidably mounted on an upper surface of the outer frame and momentarily moved back and forth by a force from the magazine by the operation of the trigger and a recoil spring and a recoil shaft interlocked thereto. The upper surface of the cylinder and the piston is coupled to the cylinder and the blood In the shooting game composed of a total, including the slides, which instantly moves back and forth in conjunction with the instantaneous forward and backward movement of the tone,
A laser sensor module integrally provided under the frame,
One end is respectively connected to the laser sensor module, the other end is a laser line and a sensor line respectively connected to the computer device,
The magnetic sensor is mounted on the bottom surface of the slide but is mounted at a position set to correspond to the position of the laser sensor module. The laser sensor module includes a hall sensor sensing a movement of the magnetic according to the movement of the slide. Characterized in that made,
It is installed embedded in the bullet mounting portion of the magazine and exposed to the side of the handle portion of the frame of the shooting game gun is integrally installed to the side of the laser sensor module, it extends downward of the magazine and is connected to the computer device Gun for shooting games using a Hall sensor. The method according to claim 1 or 2,
The laser sensor module
Circuit boards for processing signals,
A laser firing device installed on the circuit board to launch the laser to the front;
Hall sensor for outputting a signal by detecting the movement of the magnetic,
And a packaging means for integrally packaging the devices to form an outer body of the laser sensor module. The method according to claim 1 or 2,
The laser line and the sensor line is a shooting game gun using a hall sensor, characterized in that connected to the laser firing device and the hall sensor, respectively.

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