KR101209427B1 - Indoor shooting game for improved safety and sensitivity - Google Patents

Abstract

According to the present invention, when a predetermined force is applied to the barrel while a plurality of barrels are rotated, the barrels can be idled to prevent the hand from being injured even when the user holds the barrel. The purpose of the present invention is to provide an indoor shooting enclosure with improved safety function and haptic function that allows users to feel more realistic through vibration. The configuration of the present invention for achieving this object is a mounting space is formed in the middle, the upper part is provided with a video reproducing apparatus for outputting a pre-input image, the lower body is provided with a sound system; A barrel holder installed on the bottom surface of the mounting space so as to be rotated horizontally and vertically within a predetermined range according to the size of the screen; A trigger device is provided at one side, and a plurality of barrels are installed on the other side so as to be rotatable to form a flower network, and rotation control means for idling the barrel without rotating the barrel when a predetermined external force is applied while rotating the barrel. Equipped barrel case; A control unit installed in the body to control the image material of the image reproducing apparatus, the control of the sound system and the rotation control means according to the reproduced image; Further comprising a floor vibrating plate or a vibration vest provided with a vibration generator to generate a vibration in accordance with the effect generation signal (for example, a fire generated in the proximity of the user, or an effect generation signal such as a corresponding fire or an explosion) from the control unit. It is characterized by that.

Description

Indoor firearms with improved safety and haptic features {INDOOR SHOOTING GAME FOR IMPROVED SAFETY AND SENSITIVITY}

The present invention relates to an indoor shooting enclosure having improved safety and haptic function, and when a predetermined external force is applied to the rotating barrel, a slip action occurs to protect the body and is uniform to the user according to the reproduced image. It relates to an indoor shooting enclosure, which makes it possible to feel more realistic by applying a shock.

In general, indoor firearms are classified into various types according to the type of model shooting machine. Among them, the model shooting machine, which is composed of a plurality of barrels such as a Balkan, rotates in order to increase the actual reality.

This conventional model shooting machine has the following problems.

First, the hand holding the barrel could be injured if the barrel was rotated during the game.

Secondly, the model shooting machine is usually manufactured so that the barrel can be rotated when the trigger device is pulled even when the game is not in the game. Therefore, even if the children are not in the game, the barrel is often pulled to the safety accident by pulling the barrel by hand.

Third, since the conventional model shooting machine simply fires, there is no response to the effect signal transmitted from the image, and thus the reality falls.

The present invention has been made in view of this point, when a predetermined force is applied to the barrel while a plurality of barrels are rotated so that the barrel can be idle to prevent the hand from being injured even if the user grabs the barrel, The purpose of the present invention is to provide an indoor shooting enclosure with improved safety function and haptic function that allows the user to feel more realistic through vibration in accordance with the effect signal displayed from the reproduced image.

Indoor shooting enclosure with improved safety and haptic function according to the present invention for achieving this purpose, the mounting space is formed in the middle, the upper part is provided with a video reproducing device for outputting the pre-input image, The body is provided with a sound system 130; A barrel holder installed on the bottom surface of the mounting space so as to be rotated horizontally and vertically within a predetermined range according to the size of the screen; A trigger device is provided on one side, and a plurality of barrels are installed on the other side so as to be rotatable to form a network, and a side barrel having a rotation control means; A control unit installed in the body to control the image control apparatus of the image reproducing apparatus, the control of the sound system and the rotation control means to match the reproduced image; And a floor vibrating plate installed in front of the body to generate vibrations according to a fire, a corresponding fire, and an effect signal generated by the explosion, which are formed at a location close to the user from the control unit, or the user can wear the effect. Vibration vest or vibration band is further provided with a vibration generator under the control of the control unit according to the signal; The rotation control means is connected to the actuator installed on the side of the barrel and the belt and the barrel and transfer the rotational force It includes a rotating means for the rotation control means, if there is a triggering action of the percussion device to rotate the barrel under the control of the control unit, so that if a certain amount of external force is applied to the rotating barrel, the barrel does not rotate It is characterized by controlling.

In particular, the barrel seat, the fixing plate fixed to the mounting space; Rotating plate is rotatably installed to the left and right fixed plate; A support plate fixed to the barrel; A pair of universal joints fixed between the rotating plate and the support plate; And a pair of stoppers fixed to the support plate to be positioned between the pair of universal joints.

In addition, the rotation control means, the actuator provided on the side of the barrel; Pulleys installed side by side with the actuator and the barrel; And a belt slidably installed between the pulleys. At this time, the belt is characterized in that made of silicon or rubber.

On the other hand, the indoor shooting enclosure improved safety and haptic function according to the present invention, characterized in that the laser sighting is further provided so that the barrel can be seen as a 3D glasses.

In addition, the base having a predetermined size; Vibration absorbing members are respectively installed on the seat surface formed in each corner portion of the base; A vibration plate installed to be spaced apart from the base by a predetermined interval with the support of the vibration absorbing member; And a driving motor installed at the center of the diaphragm so that the eccentric cam provided on the rotating shaft is positioned between the base and the diaphragm to generate vibration while rotating under the control of the controller.

According to the indoor shooting enclosure improved safety and haptic function of the present invention has the following effects.

First, even if you hold a rotating barrel, the barrel does not turn can prevent the hand from being injured. Therefore, even children and infants can be used safely, thereby increasing safety.

Second, the user can enjoy a more realistic game by applying the vibration to the image played on the floor for the game.

Third, since the left and right rotation ranges and the vertical rotation ranges of the barrel can be limited within a predetermined range, it is possible to configure a size suitable for the size of the screen on which the image is reproduced in constructing a flower network.

Fourth, when the video is played back as a 3D video by providing a 3D glasses to view the 3D video, and by further equipped with a radar sight to check the target through the 3D glasses, you can enjoy a more realistic game.

Figure 1a is a front view for explaining the configuration of the indoor shooting enclosure according to the present invention.
Figure 1b is a side view for explaining the configuration of the indoor fire enclosure according to the present invention.
Figure 2a is a side view for showing the combined state of the barrel and the barrel according to the present invention.
Figure 2b is a front view for showing the combined state of the barrel and the barrel according to the present invention.
Figure 3 is a view for showing an example of the floor vibration plate according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

(Configuration)

Figure 1a is a front view for explaining the configuration of the indoor shooter according to the present invention, Figure 1b is a side view for explaining the configuration of the indoor shooter according to the present invention. Here, reference numeral "S" denotes a screen on which an image output from the image reproducing apparatus is illuminated.

Indoor shooting machine according to the present invention, the body 100 is installed to face the screen (S), the barrel bar 300 installed on the body 100, the barrel bar 300 within a predetermined range In the left and right rotation and up and down rotational barrel support for supporting 200 and a control unit 400 for controlling them. In particular, the barrel 300 is further provided with a rotation control means 330 so as not to cause injury to the hand even if the hand holding a plurality of rotating barrel barrel 320.

The body 100 is a kind of frame, the mounting space 110 is formed in the middle portion so that the barrel bar 300 can be installed. In addition, an image reproducing apparatus 120 is installed at an upper portion, and a sound system 130 is mounted at a lower portion thereof.

In particular, the mounting space 110 is formed in a form in which the front and rear surfaces are open so that the barrel barrel 300 is formed long therebetween.

In addition, the image reproducing apparatus 120 inputs a pre-programmed image or a pre-programmed image according to the game content, and scans the image input by the control of the controller 400 to the screen S. FIG. The image reproducing apparatus 120 may output an image using a single camera, but it is preferable to output a 3D image for a more realistic image output. This 3D image is made of a conventional technique using two cameras 121 and 122. The image reproducing apparatus 120 further includes an effect detection camera 123. The effect detection camera 123 is used to detect the effect applied to the user of the game machine from the screen (S). Here, the "effect applied to the user" refers to an attacking action that is applied to the user from the target, such as a situation in which the shooting game responds to the user or when an explosion sound explodes around the user. The effect signal detected by the effect detection camera is transmitted to the controller 400.

The sound system 130 is controlled by the controller 400 together with the image reproducing apparatus 120, and outputs sound in accordance with the output image. In this case, the output sound is pre-programmed and stored according to the image input to the image reproducing apparatus 120. In addition, the sound system 130 is provided to the control unit 400 and used to express the above-described "effect applied to the user".

The barrel barrel 200 is installed in the mounting space 110 is configured so that the barrel barrel 300 is rotated left and right and up and down within a predetermined range. This barrel seat 200 is to limit the vertical and horizontal angles so that the barrel 300 can move only within the range to fit the size of the screen (S).

This will be described in more detail with reference to FIGS. 2A and 2B as follows. Figure 2a is a side view for showing the coupling state of the barrel and the barrel according to the present invention, Figure 2b is a front view showing the coupling state of the barrel and the barrel according to the present invention.

The barrel pedestal 200 is fixed to the mounting space 110, the fixed plate 210, the rotating plate 220 is rotated to the fixed plate 210 and fixed to the bottom of the barrel 300 The support plate 230 is included. At this time, the rotation plate 220 is preferably limited to the angle of rotation so as to set the fixed angle to the fixed plate 210, that is, the barrel bar 300 does not deviate from the left and right width of the screen (S). This angle limitation can be implemented by forming a stopper (not shown) on the stationary plate 210 and causing the rotation plate 220 to be hung on the stopper.

In addition, the barrel seat 200 is provided with a pair of universal joints (240a, 240b) so that the barrel barrel 300 can move up and down on the rotating plate (220). These universal joints 240a and 240b are installed in a direction parallel to the body 100 between the rotating plate 220 and the support plate 230.

In particular, the barrel pedestal 200 is further provided with a pair of stoppers (250a, 250b) to limit the vertical angle of the barrel barrel 300. These pair of stoppers (250a, 250b) is a pair of universal It is installed on the support plate 230 so as to be located between the joints 240a and 240b. The stoppers 250a and 250b thus installed limit the vertical angle of the barrel 300 by interference with the rotating plate 220. In a preferred embodiment of the present invention, the upper and lower limit angles of the barrel 300 is not to leave the image in consideration of the size of the image reflected on the screen (S).

The barrel barrel 300, as shown in Figures 2a and 2b, is equipped with a trigger device 310 on one side and the other side is equipped with a conventional barrel 320 is installed to be rotatable for a certain size of the flower arrangement. In particular, the side of the barrel 300 is provided with a rotation control means 330 for rotating the barrel 320 through the control of the control unit 400 when there is a triggering action through the trigger device 310.

The rotation control means 330 is the barrel 320 is responsible for rotation, in particular, when a predetermined pressure is applied to the barrel 320, the barrel 320 is slipped to prevent the rotation. The rotation control means 330 includes an actuator 331 installed on the side of the barrel 300, and a rotation means for rotating the barrel 320 by the driving of the actuator 331.

The actuator 331 can use a conventional motor.

The rotating means includes a pair of pulleys 332a and 332b installed in parallel with the actuator 331 and the barrel 320, and a belt 333 installed between the pulleys 332a and 332b. At this time, the belt 333 is loosely installed so that the pulleys 332a and 332b slip and are idle when a predetermined external force, for example, the strength of the child when the child grabs the barrel 320 is applied. In addition, the belt 333 is made of a silicon or rubber material so that the slip can be made well by the external force.

The controller 400 is installed in the body 100. In addition, the video reproducing apparatus 120 and the sound system 130 are controlled to output a predetermined image during game play. Of course, the image playback device 120 and the sound system 130 controls to operate for the interest while the game is not in progress. In addition, the controller 400 controls the rotation control means 330. The rotation control means 330 controls the actuator 331, and when the trigger is determined by the triggering device 310, the rotation control means 330 drives the actuator 331 during the triggering.

On the other hand, the indoor firearms improved safety and haptic function according to the present invention, the laser sighting mirror 340 is further provided in the barrel 30 to increase the accuracy of the aiming when playing 3D video. In particular, the laser collimator 340 preferably uses a laser that can be viewed as a 3D glasses worn for viewing 3D images reproduced in three dimensions, such as infrared rays or ultraviolet rays.

In addition, the indoor fire enclosure with improved safety and haptic function according to the present invention, the floor vibration plate so that the front of the body 100, preferably the user standing by the bottom of the floor to deliver the effect to the user by the effect signal 500 is further provided. Here, the effect generation signal is an attack made from the target toward the user from the image reproduced by the image reproducing apparatus 120, for example, a range of shots formed during a corresponding shot, a fireball formed around the user by shooting, and a grenade; In the case of the same explosion refers to a signal obtained through the control unit 400 when there is a user in the range. Then, the control unit 400 operates the floor vibration plate 500 by this effect generation signal. This effect generation signal is used in the same sense as the above-mentioned "effect applied to a user".

3 is a view showing an example of the floor vibration plate according to the present invention.

The bottom vibrating plate 500 includes a base 510, a diaphragm 530 installed at a predetermined interval on the base 510, and a driving motor 540 for applying vibration to the diaphragm 530. do.

In particular, the seat surface 511 is formed in each corner portion of the base 510 in a container shape. And, each of the seat surface 511 is provided with a vibration absorbing member 520, such as anti-vibration rubber, respectively, and supports the diaphragm 530 on top. At this time, the vibration absorbing member 520 is preferably formed to have a predetermined interval between the base 510 and the diaphragm 530.

In addition, the diaphragm 530 is provided with a mounting hole 531 at a position corresponding to the seat surface 511 at each corner portion, and the vibration absorbing member 520 is mounted to the mounting hole 531. In addition, an installation hole 532 is formed in the center of the diaphragm 530. The driving motor 540 is installed in the installation hole 532.

The driving motor 540 is installed such that the tip of the rotation shaft 541 is located between the base 510 and the diaphragm 530 through the installation hole 532. In particular, the rotation shaft 541 is provided with an eccentric cam 542 to further increase the vibration effect by the vibration caused by the eccentric rotation of the eccentric cam 542 when the drive motor 540 rotates. The drive motor 540 is to be controlled by the control unit 400.

In addition, a vibration vest or a vibration band may be used as another method for improving such a haptic function. The vibration vest or the vibration band is worn by the user directly, and a plurality of vibration generators are installed therein.

The vibration generator uses a thing manufactured by a commonly used technique, and operates wired and wirelessly under the control of the controller 400. That is, when the effect generating signal is present as described above, the control unit 400 operates the vibration generator in response to the user wearing the vibration vest or the vibration band to feel it.

Finally, the vibration vest and the vibration band may be used with the bottom vibration plate 500.

As described above, the present invention can prevent safety accidents by preventing the barrel 320 from rotating while the rotation control means 330 is slip-rotating when holding the rotating barrel 320 by hand, the bottom vibration plate and vibrations. Vest, through the vibration band has an effect that can be reproduced more realistically by using the vibration generated by the effect signal to the user.

100: body 110: mounting space
120: video playback device 121, 122: camera
123: Effect detection camera 130: Sound system
200: barrel seat 210: fixed plate
220: rotating plate 230: support plate
240a, 240b: Universal joint 250a, 250b: Stopper
300: barrel case 310: triggering device
320: barrel 330: rotation control means
331: Actuator 332a, 332b: Pulley
333: Pulley 340: Laser sight
400 control unit 500 floor vibration plate
510: base 511: seat
520: vibration absorbing member 530: diaphragm
531: mounting hole 532: mounting hole
540: drive motor 541: rotation axis
542: Eccentric Cam

Claims (6)

A mounting space 110 is formed in the middle, an image reproducing apparatus 120 for outputting a pre-input image is installed at an upper portion thereof, and a body 100 having a sound system 130 at a lower portion thereof;
A barrel barrel 200 installed on the bottom surface of the mounting space 110 and rotatably installed up and down within a predetermined range according to the size of the screen S;
A trigger device 310 is provided at one side, and a plurality of barrels 320 are installed on the other side so as to be rotatable to form a flower network, and a barrel barrel 300 having a rotation control means 330 at the side thereof;
A control unit 400 installed on the body 100 to control the sound system 130 and the rotation control means 330 to fit the image material of the image reproducing apparatus 120 and the reproduced image; And
From the control unit 400, the floor vibration plate 500, which is installed in front of the body 100 to generate a vibration according to the fire, the corresponding fire, and the effect signal generated by the explosion formed in the proximity of the user, or the user A vibration vest or a vibration band provided with a vibration generator under the control of the control unit 400 according to the effect generation signal to be worn is further provided.
The rotation control means 330 rotates the barrel 320 under the control of the controller 400 if there is a triggering action of the triggering device 310, and if the barrel 320 being rotated has a predetermined external force from outside, When applied to the barrel 320, the safety and haptic indoors improved fire control, characterized in that the control does not rotate.
The method of claim 1,
The barrel seat 200,
A fixed plate 210 fixed to the mounting space 110;
Rotating plate 220 is rotatably installed to the left and right on the fixed plate 210;
A support plate 230 fixed to the barrel 300;
A pair of universal joints 240a and 240b fixed between the rotation plate 220 and the support plate 230; And
Indoor shooter with improved safety and haptic features, including; a pair of stoppers (250a, 250b) fixed to the support plate 230 to be located between the pair of universal joints (240a, 240b) . The method of claim 1,
The rotation control means 330,
An actuator 331 installed at a side of the barrel 300;
Pulleys 332a and 332b installed in parallel with the actuator 331 and the barrel 320; And
Indoor safety belt and the safety function, characterized in that it comprises a; 333 is installed between the pulleys (332a, 332b) to be slippery. The method of claim 3, wherein
The belt 333 is an indoor shooting enclosure with improved safety and haptic features, characterized in that made of silicon or rubber. The method according to any one of claims 1 to 4,
Indoor shooter improved safety and haptic, characterized in that the laser collimator 340 is further provided so that the barrel 3 can be seen as a 3D glasses. The method of claim 1,
The bottom vibration plate 500,
A base 510 having a predetermined size;
Vibration absorbing members 520 respectively installed on the seat surfaces 511 formed at each corner portion of the base 510;
A diaphragm 530 which is supported by the vibration absorbing member 520 and is spaced apart from the base 510 by a predetermined interval; And
An eccentric cam 542 provided on the rotating shaft 541 is installed in the center of the diaphragm 530 so as to be located between the base 510 and the diaphragm 530 and rotates under the control of the controller 400. Driving motor 540 for generating a; safety function and a sensational function, including the indoor shooting enclosure improved.

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