HYBRID GOLF SYSTEM USING MOVING SCREEN BOOTH

Description

TECHNICAL FIELD

The present invention relates to a hybrid golf system configured such that an approach shot is taken or a putt is made as real golf play on a real field when a virtual ball lands on or around a green during virtual golf play using a virtual golf simulation apparatus in a moving screen booth.

BACKGROUND ART

Recently, as the golf population has increased, a so-called screen golf system that allows golfers to practice golf and enjoy virtual rounds of golf using a virtual golf simulation system has emerged.

Such a screen golf system is a system in which a screen capable of displaying a virtual golf course is installed indoors, and when a golfer hits a golf ball toward the screen, the speed, direction, and the like of the golf ball are detected and the trajectory of the golf ball is displayed on the screen, and the system has been technologically evolving in terms of providing users with a realistic feeling of playing a round of golf on a real golf course, beyond the level of simply playing a game of golf indoors.

Conventional screen golf systems have limitations in providing users with the realism of playing a round of golf on a real golf course because a simulation image of a virtual golf course and the trajectory of a ball on the virtual golf course is realized only through the screen installed in front of the user hitting the ball.

In order to overcome this limitation, a so-called hybrid golf system that goes beyond the conventional screen golf systems and provides the same level of realism as playing a round of golf on a real golf course but can be realized in a much smaller space than the real golf course has emerged.

The hybrid golf system is a combination of a real field where real golf can be played and a screen golf system, wherein some of the golf play on a hole may be performed on a virtual golf course implemented by the screen golf system and the rest of the play may be performed as real golf on a real field.

For example, in the case of a par-4 hole, a tee shot and a second shot are taken through virtual golf simulation on the virtual golf course through the screen golf system, and a third shot may be taken and a putt may be made in the same manner as playing golf on a real golf course after a user moves to the real field.

Prior art documents related to the hybrid golf systems include KR10-2013-0030536, KR10-2012-0036155, KR10-2012-0036156, and KR10-2012-0009933.

As with the conventional screen golf system, the hybrid golf system also allows the user to play golf on a golf course consisting of multiple holes. That is, the user's golf play on a part of a hole is performed on the screen golf system, and the user's golf play on the remaining part of the hole is performed on the real field so that the user can play on a golf course that includes multiple holes by repeatedly going back and forth between the screen golf system and the real field.

For example, a user starts the 1st hole of a virtual golf course on the screen golf system, takes the 3rd shot, then moves to the real field to hole out with the 4th and 5th shots as field shots, and then moves back to the screen golf system to start the 2nd hole, plays a portion of the 2nd hole of the virtual golf course, then moves to the real field to play the remainder and hole out, and the play can be performed according to the hybrid golf system by repeatedly moving between the screen golf system and the real field.

However, the conventional hybrid golf system as described above has limitations in providing a realistic experience of playing golf by moving from hole to hole, as in playing golf on an actual golf course, because the player simply moves back and forth between the real field(an area where only approach shots or putting are possible) and the screen golf system, and the user's movement path from the screen golf system to the field is always the same.

PRIOR ART DOCUMENTS

Korean Patent Publication No. 10-2013-0030536

Korean Patent Publication No. 10-2012-0036155

Korean Patent Publication No. 10-2012-0036156

Korean Patent Publication No. 10-2012-0009933

DISCLOSURE

Technical Problem

It is an object of the present invention to provide a hybrid golf system using a screen booth where virtual golf play is performed using a virtual golf simulation device and an actual field where actual golf play such as an approach shot or putting is performed, wherein a golf course having a plurality of different holes is implemented by rotating or moving the screen booth where the virtual golf play is performed, thereby providing a realistic experience as if the user is playing golf in different holes while moving between each of the plurality of holes.

Technical Solution

In accordance with an aspect of the present invention, the above and other objects can be accomplished by the provision of a hybrid golf system using a moving screen booth comprising: a field including a green and provided so that a user play actual golf; a screen booth provided on one side of the field and equipped with a screen golf device so that a screen golf play can be performed on a virtual golf course; and a booth moving device that moves or rotates the screen booth on the field so that the view of the field from inside of the screen booth can be different for each hole of the virtual golf course.

Preferably, the hybrid golf system further comprises a screen shutter on which the virtual golf course and virtual golf simulation images are projected within the screen booth, wherein the screen shutter is provided to open and close the side of the screen booth facing the field, so that the virtual golf play is switched to field play by opening the screen shutter.

Preferably, a booth moving rail is provided under the screen booth, and the screen booth is configured to move along the booth moving rail by the booth moving device.

In accordance with another aspect of the present invention, there is provided a hybrid golf system using a moving screen booth comprising: a field provided so that a user play actual golf; a plurality of screen booths, each provided at a plurality of different positions on the field and each equipped with a screen golf device to play screen golf on a virtual golf course; a booth moving device provided in each of the plurality of screen booths to move or rotate each corresponding screen booth; and a booth moving controller that controls the booth moving device of each of the plurality of screen booths to move or rotate each of the plurality of screen booths to implement a plurality of holes constituting the virtual golf course.

Preferably, the field includes a field area including at least one green corresponding to each of the plurality of screen booths, wherein each of the plurality of screen booths is configured to correspond and connect to each of the field areas to move or rotate with respect to corresponding field area.

Preferably, a booth moving rail is provided under each of the screen booths, so that each of the screen booths move along the corresponding booth moving rail by each of the booth moving devices, and wherein the booth moving controller controls each booth moving device corresponding to each of the plurality of screen booths so that the position of each of the plurality of screen booths on the corresponding booth moving rail is changed, thereby implementing each of the plurality of holes constituting the virtual golf course.

Advantageous Effects

The hybrid golf system using a moving screen booth according to the present invention has an advantageous effect that in a hybrid golf system using a screen booth where virtual golf play is performed using a virtual golf simulation device and an actual field where actual golf play such as an approach shot or putting is performed, a golf course having a plurality of different holes is implemented by rotating or moving the screen booth where the virtual golf play is performed, thereby providing a realistic experience as if the user is playing golf in different holes while moving between each of the plurality of holes.

DESCRIPTION OF DRAWINGS

FIG. 1 shows the configuration of a hybrid golf system using a moving screen booth according to an embodiment of the present invention.

FIG. 2 illustrates a view (a) showing a user playing virtual golf while watching an image projected on a screen shutter inside the screen booth shown in FIG. 1, and a view (b) showing a screen shutter driver opening the screen shutter when field play starts during the virtual golf play inside the screen booth.

FIG. 3 is a block diagram showing a control system of the hybrid golf system using the moving screen booth according to an embodiment of the present invention.

FIG. 4 illustrates a view (a) showing an example of the hybrid golf system using the moving screen booth according to an embodiment of the present invention configured to allow the screen booth to move on an field, and a view (b) showing a case where the screen booth is moved in the state shown in the view (a) to produce different holes according to different field views.

FIG. 5 shows the configuration of the hybrid golf system using the moving screen booth according to another embodiment of the present invention.

FIGS. 6 to 8 show examples of implementing 9 holes using the hybrid golf system according to the embodiment shown in FIG. 5.

BEST MODE

A hybrid golf system using a moving screen booth according to the present invention will be described in detail with reference to the drawings.

First, the construction of the hybrid golf system using the moving screen booth according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3.

FIG. 1 shows the configuration of a hybrid golf system using a moving screen booth according to an embodiment of the present invention. FIG. 2(a) is a view showing a user playing virtual golf while watching an image projected on a screen shutter inside the screen booth shown in FIG. 1, and FIG. 2(b) is a view showing a screen shutter driver opening the screen shutter when field play starts during the virtual golf play inside the screen booth. FIG. 3 is a block diagram showing a control system of the hybrid golf system using the moving screen booth according to an embodiment of the present invention.

As shown in FIG. 1, the hybrid golf system according to an embodiment of the present invention may be configured with an actual field 200 provided for the user to play golf in real and a screen booth 100 provided with a virtual golf simulation device for the user to play golf on a virtual golf course.

The screen booth 100 includes a construction related to a conventional screen golf system. Specifically, the screen booth 100 includes a virtual golf simulation device in which a virtual golf course image is projected on the front screen, when the user hits the ball on a swing stage 120 toward the screen, the sensing device senses the moving ball and a simulation image in which the virtual ball moves on the virtual golf course is provided.

The screen booth 100 may be provided in the form of a box or a booth with an entrance 110 on one side, and may be in a form in which all walls are closed or some of the walls may be open.

The screen booth 100 may be configured to include a screen shutter 300 on a wall facing the actual field 200.

The screen shutter 300 is an element that projects an image of a virtual golf course output by an image output device 420 (e.g., a beam projector, etc.) inside the screen booth 100 and a simulation image iVG on the virtual golf course.

The screen shutter 300 is configured to open and close a wall of the screen booth 100 facing the actual field 200.

Meanwhile, the actual field 200 may be configured to form a part of the entirety of a hole of the actual golf course, and may be formed to include a green 210 and a hole-cup 212 as shown in FIG. 1. Wherein the actual field 200 may be provided so that the user can approach and putt, including surrounding areas 220 such as a fairway, a rough, and a bunker around the green 210.

In the hybrid golf system according to an embodiment of the present invention, the user performs some golf play through the virtual golf course in the screen booth 100 and the rest of the golf play is performed in the actual field 200.

In the case of golf play on a par-4 hole, a virtual golf play is performed on the virtual golf course of the par 4 hole in the screen booth 100, and golf play on the remaining part of the par 4 hole is performed directly on the actual field 200. Wherein the virtual golf play is golf play in which the user takes a golf shot toward the screen shutter at the swing stage and the sensing device senses the hit ball and the simulation of a virtual ball corresponding to the hit ball performs.

For example, the tee shot and the second shot in the par 4 hole are played as the virtual golf play on the virtual golf course in the screen booth 100, and the third shot (approach shots) and putting can allow the user to move from the screen booth 100 to the actual field 200 and actually proceed with golf play on the actual field 200.

While the user plays virtual golf in the screen booth 100, if the user moves out through the door 110 of the screen booth 100 to the actual field 200 to play field, the user feels a sense of difference rather than a sense of realism, because there is a significant difference between the virtual golf course on the image and the actual field.

The hybrid golf system according to an embodiment of the present invention provides a means and method for minimizing the above-mentioned sense of difference and naturally converting from the virtual golf play in screen booth to the golf play in actual field.

That is, as shown in FIGS. 1 and 2, the screen shutter 300 is provided on a wall of the screen booth 100 facing the actual field 200. The screen shutter 300 plays the same role as a conventional screen by projecting an image by the image output device 420 in the screen booth 100 during virtual golf play. Then, when field play begins, the screen shutter 300 is opened to provide a view of the actual field 200 spread out in front of the user.

As shown in FIG. 2(a) and (b), a user who performs virtual golf play inside the screen booth 100 can naturally convert from the virtual golf course to the actual field as the field play begins and the screen shutter 300 opens while watching the image of the virtual golf course projected on the screen shutter 300. As a user, since the actual field can be viewed through the same view while watching the virtual golf course, a natural connection can be made without feeling different.

Wherein a controller 401 of the simulator 400 may control the screen shutter driver(not shown) so that the screen shutter driver may open the screen shutter 300.

As shown in FIGS. 1 to 3, the simulator 400 provided inside the screen booth 100 includes the controller 401, an image processor 402, and a data storage 403, and the controller 401 may be connected to the sensing device 410 and the screen shutter.

FIG. 2(a) shows that the user (P) plays virtual golf while looking at the image iVG projected on the screen shutter 300 inside the screen booth 100 shown in FIG. 1.

The sensing device 410 may be embodied as a camera-based device that senses a movement of at least one of a golf club and a ball according to a golf swing of a user. The sensing device 410 captures and collects images of the ball 1 moving as the user P on a swing stage 120 hits the ball placed on a golf mat 122 within the camera's angle of view, performs image processing and analysis on the collected image, calculates sensing information including flight parameters for the movement of the ball 1 and delivers sensing information to the controller 401.

A manipulation device (not shown) may be further provided as a means of manipulating the user to set the environment of the virtual golf simulation or to adjust the aiming during the virtual golf round process.

The data storage 403 stores all data necessary for the image implementation of the virtual golf simulation, and stores data on a virtual golf course implemented by visualizing an actual golf course and data on topographic information of the virtual golf course so that the virtual golf simulator provide data that can implement a virtual environment that allows a user to play a virtual golf round on a virtual golf course selected by the user.

The data storage 403 may be configured to store all kinds of data on the virtual golf course, or may be configured to receive and temporarily store various data on the virtual golf course from a server (not shown) through a network.

The image processor 402 performs data processing to implement an image related to the virtual golf course on the screen shutter using data on the virtual golf course stored in the data storage 403, and performs data processing so that the trajectory of the ball hit by the user is simulated on the virtual golf course.

The image information processed by the image processor 402 is projected onto the screen shutter 300 through the image output device 420 (e.g., a projector), allowing the user (P) to see the image iVG projected on the screen shutter 300.

The image processor 402 may be implemented as a modular component that performs an image processing function in one independent device, or as an independent device itself.

The controller 401 is in charge of control for all processes for virtual golf simulation. The controller 401 may perform operations and controls to simulate the movement of a virtual ball on a virtual golf course based on sensing information on the movement of the ball extracted according to the sensing result of the sensing device 410 and physics engine. Based on these operations and controls, the controller implements an image iVG in which the virtual ball is simulated on the virtual golf course according to the sensing result of the sensing device and the physics engine.

The controller 401 determines whether a requirement for beginning the field play in the actual field is satisfied in the virtual golf play process in the virtual golf course. If the controller 401 determines that the requirement for beginning the field play have been met, the screen shutter driver 310 can be controlled to open the screen shutter 300.

The user performs virtual golf play while watching the image iVG of the virtual golf course projected to the screen shutter 300 while the screen shutter 300 is closed as shown in FIG. 2(a). Then, the field play begins, and as shown in FIG. 2(b), the screen shutter 300 is opened and the actual field 200 appears in the open space, so that the virtual golf course can be naturally converted into the actual field.

In addition, the hybrid golf system using the moving screen booth according to an embodiment of the present invention includes a booth moving device 500 that moves (m) or rotates (r) the screen booth 100 in the actual field 200 as shown in FIGS. 1 and 3.

Although not shown in the drawing, the above-mentioned booth moving device 500 may be implemented as a mechanical device for rotating (r) the screen booth 100 or a mechanical device for moving (m) the screen booth 100, and such a booth moving device 500 may be implemented by being installed between the floor and the bottom of the screen booth 100.

Such a booth moving device 500 may be configured to be controlled by a booth moving controller 510 as shown in FIG. 3, or may be configured to be controlled by a controller 401 of a simulator 400.

The hybrid golf system using the moving screen booth according to an embodiment of the present invention is a system in which, during the virtual golf play process on a virtual golf course within the screen booth 100, some of the play is performed on a field 200 outside the screen booth 100. Accordingly, virtual golf play in the screen booth 100 and field play in the actual field are performed for each of a plurality of holes (e.g., 9 holes, 18 holes, etc.) that constitute the virtual golf course.

The hybrid golf system using the moving screen booth according to an embodiment of the present invention may produce different holes for each hole by moving, rotating, or moving and rotating the screen booth 100 for each hole, so that when a user moves from inside of the screen booth to the actual field, the screen shutter opens to change the view of the field from the screen booth.

For example, as shown in FIG. 4(a) and (b), the screen booth may be moved for each hole to create holes that give different feelings.

FIG. 4(a) is a view showing an example of the hybrid golf system using the moving screen booth according to an embodiment of the present invention configured to allow the screen booth to move on an field, and FIG. 4(b) is a view showing a case where the screen booth is moved in the state shown in FIG. 4(a) to produce different holes according to different field views.

As shown in FIG. 4(a), the hybrid golf system using the moving screen booth according to an embodiment of the present invention may be configured to allow the screen booth 100 to move along the booth moving rail 600 on one side of the actual field 200 provided equipped with at least one green 211 and 212. That is, although not shown in the drawing, the booth moving device (not shown) equipped at the bottom of the screen booth 100 may be configured to move along the booth moving rail 600.

As shown in FIG. 4(b), for example, when the screen booth 100 is at the position of Ps1, the nth hole is played, when the screen booth is at the position of Ps2, the n+1th hole is played, and when the screen booth is at the position of Ps3, the n+2th hole is played, so that the field views FV1 and FV3 seen through the screen shutter 300 from inside of the screen booth 100 at each position are different, so that the user can feel the realism of playing in different holes.

Wherein the actual field 200 is provided with a plurality of greens (referred to by drawing number 211 as a first green and the reference to 212 as a second green) so that a different green may be set as a valid green at each position where the screen booth 100 moves and stops, thereby providing a different sense of realism whenever playing in each hole.

For example, as shown in FIG. 4(b), when the first green 211 is set as a valid green in the nth hole (the position of Ps1) and when the second green is set as a valid green in the n+2 hole (the position of Ps3), that is, when the screen booth moves, the valid green at each position of the screen booth is set differently, so that a plurality of holes may be produced. That is, a plurality of holes may be produced on a limited space.

As described above, if a plurality of screen booths are configured to move, respectively, in addition to the configuration in which one screen booth moves, more various holes may be produced. This is illustrated in FIG. 5.

As shown in FIG. 5, a hybrid golf system using a moving screen booth according to another embodiment of the present invention may be configured to include: an actual field 200 provided so that a user can play actual golf; a plurality of screen booths 101, 102 and 103 each equipped with a screen golf device at a plurality of different locations on the actual field 200 so that the user can play screen golf on a virtual golf course; each of the booth moving rails 610, 620 and 630 provided in each of the plurality of screen booths 101, 102 and 103 so that each screen booth can move; and a booth moving controller 550 that controls each of the plurality of screen booths 101, 102 and 103 to move to a preset location along each of the booth moving rails 610, 620 and 630 to implement a plurality of holes forming a virtual golf course.

As shown in FIG. 5, the actual field 200 may be configured to include field areas 201, 202, 203 including at least one green 211, 212, 213 corresponding to each of a plurality of screen booths 101, 102 and 103, so that it may be configured to be connected from each of the screen booths 101, 102 and 103 to each of the field areas 201, 202 and 203 corresponding to each screen booth.

In the embodiment shown in FIG. 5, a first field area 201, a second field area 202, and a third field area 203 are formed in the actual field 200, and a first green 211 may be formed in the first field area 201, a second green 212 may be formed in the second field area 202, and a third green 213 may be formed in the third field area 203, respectively.

And, the first field area 201 corresponds to the first screen booth 101 and the first booth moving rail 610, the second field area 202 corresponds to the second screen booth 102 and the second booth moving rail 620, and the third field area 203 corresponds to the third screen booth 103 and the third booth moving rail 630.

Each of the first to third screen booths 101, 102 and 103 is equipped with a booth moving device (not shown) so that each of the booth moving devices can move each of the screen booths on each of the booth moving rails 610, 620 and 630 under the control of the booth moving controller 550.

As shown in FIG. 5, the first screen booth 101 is equipped with a first screen shutter 301, and when the first screen shutter 301 is opened, the first screen booth 101 can be connected to the first field area 201 and the first green 211. The second screen booth 102 is equipped with a second screen shutter 302, and when the second screen shutter 302 is opened, the second screen booth 102 can be connected to the second field area 202 and the second green 212. The third screen booth 103 is equipped with a third screen shutter 303, and when the third screen shutter 303 is opened, the third screen booth 103 can be connected to the third field section 203 and the third green 213.

In the embodiment shown in FIG. 5, the screen golf devices provided in the first to third screen booths 101, 102 and 103 are interconnected with each other, so that, for example, if a user plays the 1st hole in the first screen booth 101 and the first field area 201 and then moves to the second screen booth 102, the screen golf device of the second screen booth 102 may process the 2nd hole on a virtual golf course, and if the user plays the 2nd hole in the second field area 202 and then moves to the third screen booth 103, the screen golf device of the third screen booth 103 may play the 3rd hole on the virtual golf course.

The booth moving controller 550 may be configured to receive information on the progress of a golf round from the controller of the screen golf device in each screen booth and determines a position to which the corresponding screen booth will move when the next hole is played following the currently played hole. The booth moving controller may control the corresponding screen booth to move to the determined position when the current hole is completed. In this way, the booth moving controller may implement a plurality of holes by controlling the movement of each screen booth.

In the embodiment shown in FIG. 5, the hybrid golf system according to the present invention can implement a golf course of 9 holes or more by using 3 screen booths and 3 field areas. FIGS. 6 to 8 show examples of implementing 9 holes by using the hybrid golf system according to the embodiment shown in FIG. 5.

As shown in the embodiments shown in FIGS. 6 to 8, the first screen booth 101 may be preset so as to be positioned at three points Ps1-1, Ps1-2 and Ps1-3 on the first booth moving rail 610, the second screen booth 102 may be preset so as to be positioned at three points Ps2-1, Ps2-2 and Ps2-3 on the second booth moving rail 620, and the third screen booth 103 may be preset so as to be positioned at three points Ps3-1, Ps3-2 and Ps3-3 on the third booth moving rail 630.

As shown in FIGS. 6 to 8, the first screen booth 101 and the first field area 201 may be configured to form a pair, the second screen booth 102 and the second field area 202 may be configured to form a pair, and the third screen booth 103 and the third field area 203 may be configured to form a pair. Accordingly, a path that the user(s) can easily move in the following order can be formed: first screen booth 101→first screen shutter 301→first field area 201→second screen booth 102→second screen shutter 302→second field area 202→third screen booth 103→third screen shutter 303→third field area 203.

FIG. 6 shows a case where the 1st to 3rd holes are performed without moving each screen booth.

As shown in FIG. 6, the user(s) starts the 1st hole on the virtual golf course in the first screen booth 101 at the Ps1-1 position, and when the field play at the 1 st hole starts, the first screen shutter 301 is opened, the play can be performed on the first field area 201, and the play at the 1st hole can be completed by playing on the first field area 201.

After completing the 1st hole on the first field area 201, the user(s) enters the second screen booth 102 at the adjacent Ps2-1 position, and starts the 2nd hole on the virtual golf course, and when the field play at the 2nd hole starts, the second screen shutter 302 is opened, the play can be performed on the second field area 202, and the play at the 2nd hole can be completed by playing on the second field area 202.

After completing the 2nd hole on the second field area 202, the user(s) enters the third screen booth 103 at the adjacent Ps3-1 position to start the 3rd hole on the virtual golf course, and when the field play at the 3rd hole starts, the third screen shutter 303 is opened, the play can be performed on the third field area 203, and the play at the 3rd hole can be completed by playing on the third field area 203.

As described above, after the play from the 1st hole to the 3rd hole is completed, the user(s) can move back to the first screen booth 101 to proceed with the play in the 4th hole. At this time, the booth moving controller, as shown in FIG. 7, controls the booth moving device of the first screen booth 101 to move along the first booth moving rail 610 to the position of Ps1-2, controls the booth moving device of the second screen booth 102 to move along the second booth moving rail 620 to the position of Ps2-2, and controls the booth moving device of the third screen booth 103 to move along the third booth moving rail 630 to the position of Ps3-2.

As shown in FIG. 7, the user(s) starts the 4th hole on the virtual golf course in the first screen booth 101 located at the Ps1-2 position, and when the field play at the 4th hole starts, the first screen shutter 301 is opened. The user(s) can perform field golf play on the first field area 201, and the 4th hole can be completed by hole-in on the first field area.

After completing the 4th hole on the first field area 201, the user(s) enters the second screen booth 102 located at the Ps2-2 position adjacent from the first field area, and starts the 5th hole on the virtual golf course in the second screen booth. When the field play at the 5th hole starts, the second screen shutter 302 is opened. The user(s) can perform field golf play on the second field area 202, and the 5th hole can be completed by hole-in on the second field area.

After completing the 5th hole on the second field area 202, the user(s) enters the third screen booth 103 located at the Ps3-2 position adjacent from the second field area, and starts the 6th hole on the virtual golf course in the third screen booth. When the field play at the 6th hole starts, the third screen shutter 303 is opened. The user(s) can perform field golf play on the third field area 203, and the 6th hole can be completed by hole-in on the third field area.

As described above, after play from the 4th hole to the 6th hole is completed, the user(s) can move back to the first screen booth 101 to play golf at the 7th hole. At this time, as shown in FIG. 8, in order to proceed with the play from the 7th hole to the 9th hole, the booth moving controller may control the booth moving device of the first screen booth 101 to move the first screen booth along the first booth moving rail 610 to the Ps1-3 position. The booth moving controller may control the booth moving device of the second screen booth 102 to move the second screen booth along the second booth moving rail 620 to the Ps2-3 position. And, the booth moving controller may control the booth moving device of the third screen booth 103 to move the third screen booth along the third booth moving rail 630 to the Ps3-3 position.

As shown in FIG. 8, the user(s) starts the 7th hole on the virtual golf course in the first screen booth 101 located at the Ps1-3 position, and when the field play at the 7th hole starts, the first screen shutter 301 is opened. The user(s) can perform field golf play on the first field area 201, and the 7th hole can be completed by hole-in on the first field area.

After completing the 7th hole on the first field area 201, the user(s) enters the second screen booth 102 located at the Ps2-3 position adjacent from the first field area, and starts the 8th hole on the virtual golf course in the second screen booth. When the field play at the 8th hole starts, the second screen shutter 302 is opened. The user(s) can perform field golf play on the second field area 202, and the 8th hole can be completed by hole-in on the second field area.

After completing the 8th hole on the second field area 202, the user(s) enters the third screen booth 103 located at the Ps3-3 position adjacent from the second field area, and starts the 9th hole on the virtual golf course in the third screen booth. When the field play at the 9th hole starts, the third screen shutter 303 is opened. The user(s) can perform field golf play on the third field area 203, and the 9th hole can be completed by hole-in on the third field area.

As described above, play in each hole from 1st hole to 9th hole may be performed by moving the plurality of screen booths to different positions, so that users can feel the reality of playing in different holes similar to playing a round of golf in an actual 9-hole golf course.

In this way, not only 9 holes but also 18 holes can be implemented, and it is possible to implement more holes with different shapes and paths.

As described above, the hybrid golf system using a moving screen booth according to the present invention has an advantageous effect that in the hybrid golf system using the screen booth where virtual golf play is performed using the virtual golf simulation device and the actual field where actual golf play such as an approach shot or putting is performed, a golf course having a plurality of different holes is implemented by rotating or moving the screen booth where the virtual golf play is performed, thereby providing a realistic experience as if the user is playing golf in different holes while moving between each of the plurality of holes.

INDUSTRIAL APPLICABILITY

A hybrid golf system using a moving screen booth according to the present invention can be used in industries related to golf and in the so-called screen golf industry that allows users to enjoy playing golf based on a virtual golf simulation.