WO2016099033A1 - 홀로그램 재생이 가능한 극장시스템 - Google Patents

홀로그램 재생이 가능한 극장시스템 Download PDF

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Publication number
WO2016099033A1
WO2016099033A1 PCT/KR2015/012129 KR2015012129W WO2016099033A1 WO 2016099033 A1 WO2016099033 A1 WO 2016099033A1 KR 2015012129 W KR2015012129 W KR 2015012129W WO 2016099033 A1 WO2016099033 A1 WO 2016099033A1
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WO
WIPO (PCT)
Prior art keywords
foil
hologram
stage
unit
theater system
Prior art date
Application number
PCT/KR2015/012129
Other languages
English (en)
French (fr)
Korean (ko)
Inventor
이수만
박준영
신원호
Original Assignee
주식회사 에스,엠,엔터테인먼트
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 주식회사 에스,엠,엔터테인먼트 filed Critical 주식회사 에스,엠,엔터테인먼트
Priority to JP2016564938A priority Critical patent/JP6267364B2/ja
Priority to CN201580001052.3A priority patent/CN105934719B/zh
Publication of WO2016099033A1 publication Critical patent/WO2016099033A1/ko

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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63JDEVICES FOR THEATRES, CIRCUSES, OR THE LIKE; CONJURING APPLIANCES OR THE LIKE
    • A63J1/00Stage arrangements
    • A63J1/02Scenery; Curtains; Other decorations; Means for moving same
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03HHOLOGRAPHIC PROCESSES OR APPARATUS
    • G03H1/00Holographic processes or apparatus using light, infrared or ultraviolet waves for obtaining holograms or for obtaining an image from them; Details peculiar thereto
    • G03H1/22Processes or apparatus for obtaining an optical image from holograms
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63JDEVICES FOR THEATRES, CIRCUSES, OR THE LIKE; CONJURING APPLIANCES OR THE LIKE
    • A63J5/00Auxiliaries for producing special effects on stages, or in circuses or arenas
    • A63J5/02Arrangements for making stage effects; Auxiliary stage appliances
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H3/00Buildings or groups of buildings for public or similar purposes; Institutions, e.g. infirmaries or prisons
    • E04H3/10Buildings or groups of buildings for public or similar purposes; Institutions, e.g. infirmaries or prisons for meetings, entertainments, or sports
    • E04H3/22Theatres; Concert halls; Studios for broadcasting, cinematography, television or similar purposes

Definitions

  • the present invention relates to a theater system capable of reproducing holograms, and more particularly, to a hologram reproducing unit capable of reproducing holographic images, and a stage capable of performing concerts, musicals, and the like, so that the stage can be moved before and after.
  • the hologram reproducing unit includes a projection unit emitting a holographic image; A reflection unit installed on the floor and reflecting an image emitted from the projection device to the top, the reflection unit including a reflection member capable of rolling; Reflecting the holographic image reflected from the reflecting member to the front of the stage, and the movable portion of the foil; including, to facilitate the change of the stage form according to the performance and the performance using the holographic image, the foil portion is reflected from the reflecting portion Foil that reflects the holographic image to the front of the stage, and a foil frame formed to surround the outside of the foil to support the foil in a taut state, so that the foil is always kept taut even during vertical movement.
  • the present invention relates to a theater system capable of reproducing holograms, which can prevent scratches and the like, and a tensile strength thereof, which prevents it from being maintained.
  • 3D image reproduction technology displays stereoscopic images so that viewers can feel 3D stereoscopic images with a sense of stereoscopic and realistic image, not a flat image.
  • methods for reproducing 3D stereoscopic images are stereoscopy and holography.
  • Many technologies are being researched and developed, such as holography and integrated imaging.
  • the holography method records (takes) the object three-dimensionally by using the coherence of light and reproduces the three-dimensional holographic image.
  • the reproduced hologram image is divided into distance and depth by light coherence, users can more realistically view the image than the existing image, and have recently been widely used in performances such as concerts and musicals.
  • a projector 110 is installed on a stage ceiling, and the projector 100 The front is provided with a mirror inclined constant.
  • the hologram image emitted from the projector 100 is reflected by the mirror 120 and is reflected by the reflector 130 installed on the floor of the stage, and proceeds toward the audience by the transparent foil 140 so that the audiences have a three-dimensional You can see the hologram image.
  • the performance system 100 using the conventional hologram image has to repeat the installation and removal of the equipment such as the reflector 130, transparent foil 140 in order to reproduce the hologram image, the person performing on the stage is the reflector You could't step on 130 and could't perform a normal performance.
  • the transparent foil 140 the holographic image is projected so that the viewer can see it, and the state in which the tension is pulled must be maintained.
  • the holographic image is not projected normally, resulting in abnormal images. Will be shown.
  • the conventional system 100 allows the transparent foil 140 to be removed in a rolled or folded form so that foreign matters or scratches are easily generated in the transparent foil 140, and the tensile force thereof is reduced to maintain a taut state. There was a problem.
  • the transparent foil is always kept taut, while general performances such as concerts and musicals and concerts and musicals using holograms are possible, and both transparent foils, stages, and reflectors can be easily moved. It is necessary to introduce a theater system that enables the change of the stage form, and the necessity is further increased as the market expands the performance using the hologram image.
  • the present invention has been made to solve the above problems,
  • the present invention includes a hologram reproducing unit capable of reproducing holographic images, and stages capable of performing concerts, musicals, and the like, and allowing stages to be moved forward and backward, so that general performances and holographic images can be performed at the same size as a general performance hall. It is an object of the present invention to provide a theater system capable of reproducing holograms to enable all the used performances and to easily change the stage type according to the performances using general performances and holographic images.
  • the present invention provides a hologram reproduction including a projection unit for emitting a holographic image, a reflection unit installed on the floor and reflecting the image emitted from the projection device to the top, and a foil unit for reflecting the holographic image reflected from the reflection unit to the front of the stage.
  • the object of the present invention is to provide a theater system capable of hologram reproduction to smoothly reproduce the holographic image directed to the audience.
  • the present invention includes a foil portion which is formed to be inclined at an angle toward the front of the stage from the bottom to the upper side, so that the light toward the foil portion is partially reflected to the front of the stage and part is transmitted to the rear of the stage, thereby regenerating the hologram and the foil.
  • the goal is to provide a theater system that can reproduce holograms that allow performances on the backstage at the same time.
  • the present invention includes a foil moving part for moving the foil part up and down, so that the foil part can be moved upward when the hologram regenerator is not used, thereby moving the stage forward and easily raising the foil part upward.
  • the purpose is to provide a theater system capable of hologram reproduction, which enables general performances such as musicals and concerts.
  • the present invention includes a foil including a foil reflecting the holographic image reflected from the reflecting portion to the front of the stage, and a foil frame formed to surround the outside of the foil to support the foil in a taut state, even when the foil is moved up and down. It is an object of the present invention to provide a theater system capable of reproducing holograms, which can prevent the foreign matters, scratches, etc. from occurring in the foil, or the tension force, which prevents the tension from being maintained.
  • the present invention includes a tension control means that is installed between the foil and the foil frame to pull the foil, hologram playback to maintain the tension to pull the foil even if the foil is stretched by continuous use or surrounding environment
  • the aim is to provide a possible theater system.
  • the present invention includes a tension adjusting means including a fixing bar for fixing the foil, a connecting strap for connecting the fixing bar and the foil frame, and a locking device formed on the connecting strap so that the connecting strap is fixed while pulling the fixing bar. It is an object of the present invention to provide a theater system capable of reproducing holograms that allows the foil to be easily pulled by pulling the locking device.
  • the present invention includes a foil moving part including a guide part for guiding the movement of the foil part and a driving part for providing a driving force for moving the foil part, so that the foil part is damaged by making the movement of the foil part stable and easy. It is an object of the present invention to provide a theater system capable of reproducing holograms to prevent the damage and improve the ease of operation.
  • the present invention includes a guide unit including a pair of support frames which are supported on the floor and ceiling and formed up and down, and a pair of guide rails fixed along the support frame and formed along a path of the foil part, It is an object of the present invention to provide a theater system capable of reproducing a hologram that includes a guide roller which is formed to protrude outward and moves along a guide rail, so that the foil frame can be stably moved along the guide rail.
  • the present invention includes a guide rail which is formed to be inclined at a certain angle toward the front of the stage as the upper side from the bottom to a certain point, so that the foil part is inclined at a certain angle toward the front of the stage from the bottom to the upper side when the hologram regenerator is used. Therefore, the object of the present invention is to provide a theater system capable of reproducing holograms such that the hologram reproduction and the performance on the stage behind the foil can be performed simultaneously without using a separate device.
  • the present invention includes a drive wire connected to the top of the foil frame, and a drive unit installed on the ceiling and including a drive motor for winding or unwinding the drive wire to enable hologram reproduction to facilitate movement of the foil part.
  • the purpose is to provide a theater system.
  • the present invention includes a guide portion formed in one direction of the support frame in a left and right direction and including a rotation limiting member for limiting rotation of the driving wire, and the foil frame is seated on the floor in an inclined state by moving downward along the guide rail. It is an object of the present invention to provide a theater system capable of reproducing holograms that prevents the driving wires from moving forward and colliding with other structures such as support frames in the process.
  • the present invention includes a reflector formed on the floor and reflecting the holographic image emitted from the projection portion to the foil portion, and a reflector including a reflecting member rolling device for rotating the reflecting member so that the reflecting member performs on stage. It is an object of the present invention to provide a theater system capable of reproducing holograms so that the stage can be moved to the front side without contact with the reflective member when the hologram reproducing unit is not used.
  • the present invention includes a rear screen formed on the rear side of the stage, and a front screen formed on the front side of the stage, the front screen and the rear screen is formed to be moved up and down, the rear screen is lowered to the stage when using the hologram playback unit It is an object of the present invention to provide a theater system capable of reproducing holograms that enables the reproduction of holograms and performances on stage at the same time.
  • the present invention includes a front screen to descend to the lower side when the normal video screening, the theater can be used for multi-purpose by screening the theater, video lectures, etc.
  • the purpose is to provide a system.
  • the present invention is implemented by the embodiment having the following configuration to achieve the above object.
  • the theater system capable of reproducing holograms includes a hologram reproducing unit capable of reproducing holographic images, and stages capable of performing concerts, musicals, and the like, before and after the stages. It is possible to move, it is characterized in that it is possible to perform both a general performance and a hologram image.
  • the hologram reproduction unit is a projection unit for emitting a hologram image, and installed on the floor to reflect the hologram image emitted from the projection unit to the top And a foil part for reflecting the hologram image reflected from the reflector to the front of the stage.
  • the foil portion is formed to be inclined at an angle toward the front of the stage from the bottom to the upper side, the hologram reflected on the foil portion Characterized in that the image is directed to the audience in front of the stage.
  • the hologram reproducing unit in a theater system capable of hologram reproduction according to the present invention, includes a foil moving unit for moving the foil portion up and down, when the hologram reproducing unit is not used. It is characterized in that to allow the foil portion to move upward.
  • the foil part surrounds the foil reflecting the hologram image reflected from the reflecting part to the front of the stage, and the outside of the foil. It is formed so as to include a foil frame to support the foil in a tensioned state, it characterized in that the foil is always maintained in the tensioned state.
  • the foil portion is provided between the foil and the foil frame includes a tension control means for pulling the foil It features.
  • the tension adjusting means in the theater system capable of reproducing holograms according to the present invention, includes a fixing bar fixing the foil, a connecting strap connecting the fixing bar and the foil frame, and the connection. It is formed on a strap characterized in that it comprises a locking device to be fixed in a state in which the connection strap pulled the fixing bar.
  • the foil moving part provides a guide part for guiding the movement of the foil part and a driving force for moving the foil part. It characterized in that it comprises a drive unit.
  • the guide portion is supported on the floor and the ceiling is formed up and down a pair of support frames, fixed to the support frame and It comprises a pair of guide rails formed along the movement path of the foil portion, the foil frame is characterized in that it comprises a guide roller which is formed to protrude outward to move along the guide rail.
  • the guide rail is formed to be inclined at an angle toward the front of the stage from the bottom to a certain point upward
  • the hologram playback unit In use, the foil portion is characterized in that it is inclined at a predetermined angle toward the front of the stage from the bottom to the upper side.
  • the drive unit and a drive wire connected to the upper end of the foil frame, and installed on the ceiling can wind or unwind the drive wire Characterized in that it comprises a drive motor.
  • the guide portion is formed in one direction of the support frame in a left and right direction to limit the rotational limiting member for limiting the rotation of the drive wire It is characterized by including.
  • the reflecting portion is formed on the bottom reflecting the holographic image emitted from the projection portion to the foil portion, and the reflecting member It characterized in that it comprises a reflecting member rolling device to rotate the roll.
  • a hologram playable theater system includes a rear screen formed on the rear side of the stage, and a front screen formed on the front side of the stage, wherein the front screen and the rear screen are It is formed to be movable up and down, and the rear screen is characterized in that to move down to the stage when using the hologram playback unit.
  • the front screen is to be lowered to the lower side during the screening of the general video, it is possible to screen the theater, video lectures, etc. It is done.
  • the present invention can obtain the following effects by the configuration, combination, and use relationship described above with the present embodiment.
  • the present invention includes a hologram reproducing unit capable of reproducing holographic images, and stages capable of performing concerts, musicals, and the like, and allowing stages to be moved forward and backward, so that general performances and holographic images can be performed at the same size as a general performance hall. It is possible to perform all the performances used, it is effective to change the stage form according to the performance using the general performance and hologram image.
  • the present invention provides a hologram reproduction including a projection unit for emitting a holographic image, a reflection unit installed on the floor and reflecting the image emitted from the projection device to the top, and a foil unit for reflecting the holographic image reflected from the reflection unit to the front of the stage. Including the wealth, there is an effect to smoothly reproduce the holographic image toward the audience.
  • the present invention includes a foil portion which is formed to be inclined at an angle toward the front of the stage from the bottom to the upper side, so that the light toward the foil portion is partially reflected to the front of the stage and part is transmitted to the rear of the stage, thereby regenerating the hologram and the foil. There is an effect that allows the performance on the backstage at the same time.
  • the present invention includes a foil moving part for moving the foil part up and down, so that the foil part can be moved upward when the hologram regenerator is not used, thereby moving the stage forward and easily raising the foil part upward. It is effective to perform general performances such as musicals and concerts.
  • the present invention includes a foil including a foil reflecting the holographic image reflected from the reflecting portion to the front of the stage, and a foil frame formed to surround the outside of the foil to support the foil in a taut state, even when the foil is moved up and down.
  • the present invention includes a tension adjusting means that can be installed between the foil and the foil frame to pull the foil, there is an effect to maintain the tension by pulling the foil even if the foil is stretched by continuous use or the surrounding environment. .
  • the present invention includes a tension adjusting means including a fixing bar for fixing the foil, a connecting strap for connecting the fixing bar and the foil frame, and a locking device formed on the connecting strap so that the connecting strap is fixed while pulling the fixing bar. By pulling the locking device, the foil can be easily pulled out.
  • the present invention includes a foil moving part including a guide part for guiding the movement of the foil part and a driving part for providing a driving force for moving the foil part, so that the foil part is damaged by making the movement of the foil part stable and easy. It is effective to prevent and improve the ease of operation.
  • the present invention includes a guide unit including a pair of support frames which are supported on the floor and ceiling and formed up and down, and a pair of guide rails fixed along the support frame and formed along a path of the foil part,
  • the guide roller is formed to protrude outward and moves along the guide rail, so that the foil frame can be stably moved along the guide rail.
  • the present invention includes a guide rail which is formed to be inclined at a certain angle toward the front of the stage as the upper side from the bottom to a certain point, so that the foil part is inclined at a certain angle toward the front of the stage from the bottom to the upper side when the hologram regenerator is used.
  • the present invention has an effect of facilitating the movement of the foil part, including a drive wire connected to the top of the foil frame, and a drive unit installed on the ceiling and including a drive motor for winding or unwinding the drive wire.
  • the present invention includes a guide portion formed in one direction of the support frame in a left and right direction and including a rotation limiting member for limiting rotation of the driving wire, and the foil frame is seated on the floor in an inclined state by moving downward along the guide rail. In the process of driving the drive wire to the front side is prevented from colliding with other structures such as the support frame.
  • the present invention includes a reflector formed on the floor and reflecting the holographic image emitted from the projection portion to the foil portion, and a reflector including a reflecting member rolling device for rotating the reflecting member so that the reflecting member performs on stage.
  • the present invention includes a rear screen formed on the rear side of the stage, and a front screen formed on the front side of the stage, the front screen and the rear screen is formed to be moved up and down, the rear screen is lowered to the stage when using the hologram playback unit There is an effect that it is possible to simultaneously play the hologram and perform on stage.
  • the present invention has an effect of maximizing profits by enabling a multi-purpose use by including a front screen to descend to the lower side when the general video screening, the theater, video lectures and the like.
  • FIG. 1 is a block diagram of a performance system using a conventional three-dimensional image
  • FIG. 2 is a block diagram of a theater system according to an embodiment of the present invention.
  • FIG. 3 is a plan view of a theater system according to an embodiment of the present invention.
  • FIG. 4 is a reference view of the foil part of FIG. 2 viewed from the front;
  • FIG. 5 is a perspective view showing the tension adjusting means of the foil portion of FIG.
  • FIG. 6 is a cross-sectional view showing the configuration of the foil moving unit of FIG.
  • FIG. 7 is a cross-sectional view illustrating a configuration of the reflector of FIG. 2.
  • FIG. 8 is a plan view of the reflector of FIG. 2;
  • FIG. 9 is a cross-sectional view illustrating a configuration of a projection unit of FIG. 2.
  • FIG. 10 is a rear view of the projection unit of FIG. 2
  • FIG. 11 is a front view of the stage of FIG.
  • FIG. 12 is a side view of the stage of FIG.
  • FIG. 13 is a plan view of the lower support part and the driving part of FIG. 11;
  • FIG. 14 is a reference diagram showing another example of use of the theater system according to an embodiment of the present invention.
  • a theater system capable of reproducing holograms includes a hologram reproducing unit 1 capable of reproducing a holographic image, a concert, a musical, or the like. It includes a possible stage (3), and a front screen (5) and a rear screen (7) which is installed to be able to move up and down in front and rear of the stage (3).
  • the theater system can perform both concerts, musicals and the like using hologram images, and general concerts and musicals without hologram images, and the like, movies, video lectures, etc. using the front screen 5. Screenings should also be possible.
  • the rollable reflector 15 the stage 3 capable of moving back and forth, the front screen 5 and the rear screen 7, which can be described later, can be easily It allows you to change the form and to maintain and manage the system.
  • the b direction of FIG. 2 is referred to as the front of the stage
  • the a direction of FIG. 2 is referred to as the rear of the stage
  • the c direction is referred to as the upper side and the d direction as the lower side.
  • the hologram reproducing unit 1 is configured to provide a holographic image to an audience, a projection unit 17 emitting a hologram image, and a reflection unit 15 reflecting the hologram image emitted from the projection unit 17 upward. And a foil part 11 for reflecting the hologram image reflected from the reflector 15 toward the front of the stage, and a foil moving part 13 for moving the foil part 11 up and down. When the regeneration unit 1 is not used, the foil unit 11 can be easily moved upward.
  • the hologram reproducing unit 1 causes the hologram image emitted from the projection unit 17 to be reflected upward by the reflecting unit 15 installed on the bottom B, and the hologram reflected by the reflecting unit 15.
  • the image is reflected by the foil 111 to be described later of the foil part 11 which is formed to be inclined forward from the bottom B by a predetermined angle, thereby providing a holographic image to the viewer.
  • Some of the light reflects, and some of the light is refracted and transmitted. Therefore, the light passing through the foil 111 is directed toward the rear screen 7 at the rear, so that the foil 111 and the rear screen 7 are separated from each other. It is possible to provide a realistic three-dimensional image in harmony with the background or the performances of the actors formed in the. Providing the hologram image using the optical properties of the foil 111 is already known, and thus the detailed description thereof will be omitted.
  • the hologram reproducing unit 1 is not visible on the stage 3 through the foil moving unit 13 in the case of performances such as general musicals or concerts that do not use the hologram image, and the stage 3
  • the stage 3 By moving the to secure a wide stage space, it is easy to be dedicated to the stage form. Therefore, it is possible to minimize the damage of the foil 111, the reflective member 151, and the like, which are difficult to manage, to enable smooth reproduction of the holographic image, and to facilitate management and maintenance.
  • the foil part 11 is configured to reflect the hologram image reflected from the reflector 13 so that the viewer can see it, and reflects the hologram image reflected from the reflector 13 toward the front of the stage 3.
  • a foil frame 113 to surround the outside of the foil 111 to support the foil 111 in a taut state, so that the foil 111 is always kept in a taut state.
  • it may be installed between the foil 111 and the foil frame 113 may include a tension adjusting means 115 that can pull the foil 111. Detailed description thereof will be described later.
  • the foil portion 11 is formed to be inclined at a predetermined angle toward the front of the stage from the bottom toward the upper side, it is preferable to direct the hologram image reflected by the foil 111 toward the audience in front of the stage,
  • the angle formed by the part 11 with the floor B is set to allow the viewer to see the holographic image well in consideration of the position of the projector 171 and the seating area, which will be described later, but to achieve an angle of about 45 °. desirable.
  • the foil portion 11 is moved up and down by the foil moving portion 13, when not using the hologram playback unit 1 is moved to the upper side invisible from the audience to the musical on the stage (3) General performances such as concerts and concerts can be performed.
  • the foil 111 is a configuration that reflects the holographic image reflected from the reflector 13 to the front of the stage (3), it is preferable that a transparent film having a predetermined thickness is applied, as described above Reflecting, the remaining part of the light has an optical characteristic to be refracted and transmitted. Therefore, the actor and the background between the foil 111 and the rear screen 7 are combined with the hologram image projected on the foil 111, thereby allowing a fantastic and realistic stereoscopic image to be viewed. Since the hologram image is provided to the audience by the reflection of light by the foil 111, the foil 111 should always be in a taut state, and foreign matters or scratches should not occur.
  • the foil 111 is fixed to the foil frame 113 so that the foil 111 is moved in a state that is always kept taut, and the tension adjusting means 115 is disposed between the foil 111 and the foil frame 113.
  • the foil frame 113 is formed so as to surround the foil 111 as shown in Figure 4 so that the foil 111 is always kept taut even during movement, it is preferably formed of a truss structure.
  • the foil 111 is fixed to the foil frame 113 to maintain a taut unfolded state, and the foil frame 113 is moved up and down by the foil moving part 13 so as not to use a hologram image. Even when performing a general performance, the foil frame 113 is raised upward so that the foil 111 is not damaged.
  • the tension adjusting means 115 is formed between the foil 111 and the foil frame 113 so that the foil 111 can maintain a taut state in any environment.
  • the guide roller 113a is formed to protrude to both sides of the lower side of the foil frame 113, as shown in Figure 4 and 6, it is preferably formed to be rotatable.
  • the guide roller 113a is inserted into the guide rail 131b of the guide part 131 to be described later, and moves along the guide rail 131b formed to be inclined at an angle from the bottom B.
  • the foil part 11 is inclined at an angle from the bottom to the front. The reason why the foil part 11 should be inclined forward from the floor is as described above.
  • the tension control means 115 is formed between the foil 111 and the foil frame 113, as shown in Figures 4 to 5 in such a configuration that the foil 111 can always maintain a taut state, As shown in FIG. 5, a plurality of connecting straps connecting the fixing bar 115a and the fixing bar 115a and the foil frame 113 to hold and fix the foil 111 on the upper and lower sides of the foil 111. 115b, a locking device 115c formed on the connection strap 115b to allow the connection strap 115b to be fixed while pulling the fixing bar 115a.
  • the fixing bar 115a allows the foil 111 to be inserted into an inner space to hold and hold the foil 111, and a connection strap 115b is connected to the foil frame 113 to connect the fixing bar 115a. To be fixed to the foil frame 113.
  • the fixing bar 115a is fixed by the locking device 115c in the pulled state by the connecting strap 115b so that the foil 111 may be maintained in a taut state.
  • the connecting strap 115b is configured to connect the fixing bar 115a and the foil frame 113, and may be formed in two parts as shown in FIG. 5, one side of which is the locking device 115c. Can be wound around the internal gear. Therefore, the gap between the foil frame 113 and the fixing bar 115a is adjusted according to the extent to which the connecting strap 115b is wound around the gear wheel inside the locking device 115c to fix the fixing bar 115a. To pull.
  • the locking device 115c may be configured as a ratchet including a cogwheel (not shown) that rotates in only one direction, and as described above, the connection strap 115b is configured to lock the locking device 115c. It is fixed in the state of being wound on the inner gear of the) so that the connection strap 115b is fixed in the pulled state of the fixing bar 115a, and the tension of the foil 111 decreases due to long use or environment In case of loss, the connecting strap 115b is further wound around the gear wheel of the locking device 115c to pull the fixing bar 115a so that the foil 111 can be maintained in a taut state again. Since the configuration inside the locking device 115c is a general configuration known as ratchet strap, a detailed description thereof will be omitted below.
  • the foil moving part 13 is configured to allow the foil part 11 to move up and down, and when the hologram image is to be reproduced using the hologram reproducing part 1, the foil moving part 13 is placed on the bottom of the foil part 11. B) to lower the foil portion 11 to allow the hologram image to be reproduced, and to perform a general performance such as a musical or a concert without using the hologram regenerator 1. By raising the stage (3) to move forward to allow a general performance such as musicals, concerts in a large stage space.
  • the foil moving part 13 includes a guide part 131 for guiding the movement of the foil part 11 and a driving part 133 for providing a driving force for moving the foil part 11.
  • the guide part 131 is configured to guide the movement of the foil part 11.
  • the guide part 131 is supported on the bottom B and the ceiling C, and is formed up and down.
  • a pair of guide rails 131b fixed to 131a and formed along a moving path of the foil part 11 are included.
  • the guide part 131 supports the reinforcing frame 131c that supports the guide rail 131b at a portion where the guide rail 131b is inclined at an angle from the bottom B as shown in FIG. 6. It may include, and including a rotation limiting member (131d) formed in the left and right direction at the lower end of the support frame (131a), so that the rotation of the drive wire 133a to be described later of the drive unit 133 is limited, Detailed description will be described later.
  • the support frame 131a is formed on both sides of the foil frame 113 in an up and down direction as shown in FIG. 4, and is formed of reinforcing bars supported and fixed to the bottom (B) and the ceiling (C), and The guide rail 131b is fixedly formed inside.
  • a rotation limiting member 131d is formed in a left and right direction so that the foil part 11 is moved downward along the guide rail 131b to be inclined at a predetermined angle from the bottom.
  • the driving wire 133 is caught by the rotational limiting member 131d so as not to rotate any more.
  • the guide rail 131b is formed to be fixed to the support frame 131a, and as shown in FIG. 6, the guide roller 113a is inserted and moved. Thus, the foil part 11 may be stably moved along the guide part 131.
  • the guide rail 131b is also formed to be inclined forward by a certain angle toward the upper side from the bottom as shown in FIG. 6. do.
  • the guide rail 131b is supported by the reinforcing frame 131c formed on the lower side to minimize the deformation or damage caused to the movement of the foil frame 113.
  • the reinforcing frame 131c is formed at a lower side of the guide rail 131b, that is, at a lower portion inclined at an angle from the bottom to support the guide rail 131b. It may be fixed to 131a and formed to have a truss structure. Therefore, as described above, the guide rail 131b can maintain the inclined shape continuously so that a stable hologram image can be reproduced through the foil 111.
  • the rotation limiting member 131d refers to a configuration such as a rod formed in a left and right direction at one point of the support frame 131a. As shown in FIG. 6, the rotation limiting member 131d is a portion inclined at a predetermined angle from the bottom in the process of the guide roller 113a of the foil frame 113 descending along the guide rail 131b. When the foil frame 113 is also inclined in the ⁇ direction, the driving wire 133a to be described later connected to the upper end of the foil frame 113 is caught by the rotation limiting member 131d so that it cannot be rotated any more. By doing so, the driving wire 133a may be prevented from being damaged by hitting another structure.
  • the driving wire 133a is configured to raise and lower the foil frame 113. When the driving wire 133a is damaged, the driving wire 133a does not normally move up and down the foil frame 113, or the driving wire 133a does not move. Since a large accident may occur due to being broken, it may be said that limiting the rotation of the driving wire 133a through the rotation limiting member 131d is essential.
  • the driving unit 133 is configured to provide a driving force for allowing the foil part 11 to move up and down along the guide part 131.
  • the foil part 11 is used when the hologram regenerating part 1 is used. Down to the bottom to be in contact with the floor to be inclined at a certain angle, when the hologram playback unit 1 is not in use, the foil part 11 is lifted upwards to move the stage 3 forward to widen, and General performances such as concerts, concerts, etc. can be performed. Therefore, it is possible to easily change the shape of the stage 3 by operating the drive unit 133 by electric transmission, without carrying out a separate device or work.
  • the driving unit 133 may be installed on the driving wire 133a connected to the upper end of the foil frame 113 and the ceiling C to wind or unwind the driving wire 133a.
  • the drive motor 133b is included.
  • the driving wire 133a is connected to the upper sides of both sides of the foil frame 113 to lift and lower the foil frame 113, and the other side is connected to the driving motor 133b to transmit driving force. Receive. Since the driving wire 133a supports the foil part 11 stably while supporting the weight of the foil part 11, steel wires having a predetermined strength or the like may be applied, but are not necessarily limited thereto. In addition, the driving wire 133a is prevented from being damaged by hitting other structures as the rotation is limited by the rotation limiting member 131d as described above.
  • the driving motor 133b is connected to the driving wire 133a to wind or unwind the driving wire 133a.
  • the driving motor 133b is installed on the ceiling C and can be operated wirelessly or wired. As described above, when the hologram playback unit 1 is used, the foil frame 113 is lowered, and when the hologram playback unit 1 is not used, the foil frame 113 is upper side. Raise it up.
  • the driving motor 133b may be formed on each of the driving wires 133a connected to the upper ends of both sides of the foil frame 113, but is shown in FIG. 4 for stable shankdong of the foil frame 113. As described above, it is preferable that only one is installed at the center of the ceiling C and both driving wires 133a are connected to one driving motor 133b.
  • the reflector 15 is formed on the bottom B to reflect the hologram image emitted from the projector 17 to the foil 111, and is emitted from the projector 171, which will be described later, of the projector 17.
  • the reflective member 151 is formed to be in close contact with the bottom B, so that the hologram image emitted from the projector 171 to be described later is reflected onto the foil 111. It may be formed as a reflective screen. However, the present invention is not limited thereto, and various materials capable of reflecting the holographic image may be applied.
  • the reflective member 151 is formed to be rollable by the reflective member rolling device 153.
  • the reflective member 151 is removed from the bottom (B) by being rolled up to the rotating rod (151a) formed on the front side of the theater system, as shown in Figure 7 the space in which the reflective member 151 is removed
  • the stage (3) moves forward to ensure a sufficient space for a concert, a musical or the like to be performed. Accordingly, the reflective member rolling device 153 is operated to remove the reflective member 151 from the bottom B, and the stage 3 is also moved forward by the drive motor 351, which will be described later. Can be changed.
  • the reflective member rolling device 153 is configured to roll the reflective member 151, precisely the rotating rod 151a, so that the reflective member 151 can be rolled, and a general motor capable of generating a rotational force is applied. Can be.
  • the reflective member rolling device 153 is formed in the front and rear one by one as shown in Figure 7 to 8 so that the rotation of the reflective member 151 can be made smoothly, the reflection formed on the rear side
  • a plurality of connecting gears 155 may be connected to the member rolling device 153 by a chain or a belt such that the rotational force of the reflective member rolling device 153 may be evenly transmitted to the reflective member 151. Therefore, the reflective member 151 can be stably rolled on the rotating rod 151a without being damaged.
  • the projection unit 17 is configured to emit a holographic image, and includes a projector 171 for emitting a holographic image as shown in FIGS. 9 to 10, and a projector frame 173 on which the projector 171 is installed. do.
  • the projection part 17 is formed on the front side of the foil part 11 so that the image emitted from the projector 171 can be reflected by the reflecting member 151 to face the foil 111.
  • the projector 171 is configured to emit a hologram image, so that a plurality of projectors may be formed on the projector frame 173, thereby producing various stereoscopic effects using the hologram image.
  • the projector 171 is mounted on the mounting frame 173b to be described later of the projector frame 173, the projector 171 is a known configuration that can emit a hologram image, a detailed description thereof will be omitted.
  • the projector frame 173 is formed so that the projector 171 can be mounted, and is reflected by the reflective member 151 to the foil 111 formed to be inclined at an angle from the bottom B to the front. It is preferable to be formed on the front side of the foil frame 113 so that the hologram image is displayed. However, the present invention is not limited thereto, and the projector frame 173 may be formed at various positions where the hologram image is reflected on the foil 111 and can be viewed by the audience. As shown in FIG. 10, the projector frame 173 is formed between a pair of vertical frames 173a formed vertically from the bottom B on both sides and the vertical frame 173a so that the projector 171 is formed. It includes a mounting frame 173b to be mounted. In addition, the projector frame 173 may be additionally provided with other cameras (171a), lighting, etc. for irradiating toward the rear screen (7).
  • the stage 3 is a configuration in which a singer or actors perform when performing a concert, a musical, or the like, or additional backgrounds may be installed.
  • FIG. 2 the stage 3 is pushed backwards, and a reflective member 151 is formed therein, and the foil part 11 descends to the bottom B to play a holographic image.
  • the reflective member 151 is rolled up by the reflective member rolling device 153 and wound around the rotating rod 151a as shown in FIG. It is removed from (B), and the stage 3 moves forward to have a large stage space.
  • a wide stage is formed for performing general performances such as concerts and musicals.
  • the rear screen 7 is formed on the stage 3 so that light is reflected to match the hologram image with the reproduction of the hologram image so that the performances of actors and other backgrounds can be seen. Allow it to unfold.
  • the stage 3 includes a top plate 31 through which actors can climb, a lower support portion 33 supporting the top plate 31, and a stage 3 moving back and forth, as shown in FIGS. 11 to 13.
  • the drive unit 35 is included.
  • the upper plate 31 is configured to form an upper surface of the stage (3), a wide plate is formed so that the actors can go up to perform the performance or the background can be installed, the interior of the truss structure is formed so that the actor, the background Make sure to support them stably.
  • the lower support part 33 is formed at the lower side of the upper plate part 31 to support the upper plate part 31 and to allow the movement of the stage 3, and a lower support frame having a plurality formed in the front-rear direction. 331 and a plurality of connection frames 333 connecting each of the plurality of lower support frames 331.
  • a plurality of lower support frames 331 are formed at predetermined intervals below the upper plate part 31 so as to stably support the upper plate part 31, and the lower support frame 331.
  • Wheels 331a are formed at the bottom of the side to enable the movement of the stage 3.
  • a plurality of wheels 331a are formed at a lower side of the lower support frame 331 to allow the stage 3 to be stably supported and to be movable.
  • some of the wheels 331a which are formed to face each other of the lower support frame 331 are formed so that the shafts are connected to each other so that the driving force by the driving motor 351 to be described later of the driving unit 35 is transmitted. do.
  • the connecting frame 333 is configured to connect the plurality of lower support frames 331 formed in the front and rear direction therebetween, and a driving shaft 357 connecting the wheels 331a may be formed therein. .
  • the driving unit 35 is configured to provide a driving force to move the stage (3), the driving motor 351 is formed on the lower side of the upper plate 31 to generate a driving force, and the driving motor 351 A chain 353, a gear 355, and the like may be formed to transmit the driving force to the wheel 331a, and the wheels 331a, which are formed on different lower support frames 331 and face each other, are driven by the drive shaft 357. Allow driving force to be transmitted.
  • the driving motor 351 may be formed at the center side of the stage 3 as shown in FIG. 13, and is formed to be separated from the floor B by a predetermined height so that the movement of the stage 3 may be prevented.
  • the driving force generated by the drive motor 351 is the driving force is transmitted by the chain 353, gear 355, in particular bevel gears, so that the wheel 331a can rotate, as described above
  • the driving force is transmitted between the wheels 331a by the driving shaft 357 so as to rotate together.
  • the front screen 5 is formed so as to be movable in front of the foil part 11, and when the theater system is used for screening a movie, a video lecture, etc., the front screen 5 may be lowered as shown in FIG. 14. Make sure Therefore, by emitting an image to the front screen (5) to allow the audience to watch movies, lectures, etc., it is possible to use a variety of theater systems.
  • the front screen 5 may be suspended from the ceiling (C) wire, etc., and can be moved by the transmission device.
  • the rear screen 7 is formed at the rear side of the stage 3 as shown in FIG. 2, so that light passing through the foil 111 can be illuminated. Therefore, the viewer can see the hologram image reflected through the foil 111 and the actors and backgrounds located between the foil 111 and the rear screen 7, and the hologram image and the actual actors and backgrounds You can watch fantastic and realistic performances.
  • the rear screen 7 may also be formed to be movable up and down. When performing a general concert, a musical or the like without using the hologram playback unit 1, the rear screen 7 is raised upward. This allows the use of a wide stage (3).
  • the rear screen 7 may be connected to the wires of the ceiling C, like the front screen 5, and may be moved by a transmission device.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Holo Graphy (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Multimedia (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
PCT/KR2015/012129 2014-12-18 2015-11-11 홀로그램 재생이 가능한 극장시스템 WO2016099033A1 (ko)

Priority Applications (2)

Application Number Priority Date Filing Date Title
JP2016564938A JP6267364B2 (ja) 2014-12-18 2015-11-11 ホログラム再生が可能な劇場システム
CN201580001052.3A CN105934719B (zh) 2014-12-18 2015-11-11 可显示全息图的剧场系统

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KR1020140183087A KR101560991B1 (ko) 2014-12-18 2014-12-18 홀로그램 재생이 가능한 극장시스템
KR10-2014-0183087 2014-12-18

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KR101858248B1 (ko) * 2016-09-23 2018-05-15 주식회사 홀로티브글로벌 홀로그램 공연과 라이브 공연이 가능한 가변형 무대장치
KR102030552B1 (ko) 2019-03-25 2019-10-10 송효섭 홀로그램 영상 기반 인터랙티브 극장 공연 시스템

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KR200264991Y1 (ko) * 2001-11-16 2002-02-20 최진영 무대설비
KR20100035219A (ko) * 2008-09-26 2010-04-05 (주)시공사 무동력 변각장치를 구비한 천정 음향반사판
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KR101560991B1 (ko) 2015-10-16
CN105934719B (zh) 2019-04-19
CN105934719A (zh) 2016-09-07
JP6267364B2 (ja) 2018-01-24

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