JP2017146579A - Video system and video method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a three-dimensional video having the three-dimensional video giving an impression close to nature or the three-dimensional video having a realistic sensation (reality).SOLUTION: A video system includes: a three-dimensional screen 1 softly supported by a ceiling or a frame using a string-shaped soft support member, covering an upper surface and a whole periphery or a substantially whole periphery side of an inner space, and formed with a translucent or semi-permeable and thin and soft sheet which is swung/micro-moved by the wind; one or a plurality of video devices 4 capable of projecting the content from the inside of the three-dimensional screen over the whole periphery or substantially the whole periphery of the three-dimensional screen 1; and a plurality of blower devices 5 provided at a skirt side or a lower side of the three-dimensional screen 1, generating a fluctuation or a micro-moving in the three-dimensional screen 1 by applying a breeze to the three-dimensional screen 1.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a video system and a video method.

  As a prior art, Japanese Patent Laid-Open No. 2005-228867 describes that “when a plurality of video cameras are used to shoot a panoramic image for a multi-screen such as a landscape, there is no doubling or missing portion of the image and there is no continuity between the screens. A multi-screen seamless panoramic video imaging apparatus is described (capturing video in which the image is maintained) (summary). Further, Patent Document 2 discloses that a natural landscape or the like is projected directly or indirectly using a projector by using a liquid in which a screen is filled in a water tank or the like, a flowing liquid, or a mist generated from a harmful liquid as a screen. In addition, a screen image system is described in which the projected image is made a fantastic image beauty by using the flow of liquid or shaking of fog (summary).

JP 9-197582 A JP 2014-21482 A

  In recent years, there has been a technique for creating a clear image space by projecting images on a huge screen using a plurality of projectors using a multi-screen image technology as disclosed in Patent Document 1. In general, realistic images can be expected to some extent by creating a large and wide range of images using a multi-screen. However, as natural phenomena, fluctuations caused by wind or the like, fine vibrations of the ground, and the like are assumed, and a technique that reproduces a situation closer to actual nature is desired rather than a simple inorganic image. Therefore, in Patent Document 2, an attempt is made to provide a fantastic image using the flow of liquid or the shaking of the mist, but the screen itself has a complicated structure for circulating water, However, it is difficult to apply to a wide range of three-dimensional images, only to apply to flat images.

In view of the above, it is an object of the present invention to provide a three-dimensional image and / or a three-dimensional image with a sense of realism that give a natural impression with a simple configuration and installation.

According to the first solution of the present invention,
A video system,
Using a flexible support member in the form of a string, it is suspended or suspended or flexibly supported by a ceiling or a frame or a column, covers the upper surface of the inner space and the entire peripheral side or almost the entire peripheral side, and is translucent or translucent And a three-dimensional screen formed of a thin and soft sheet that is shaken or slightly moved by the wind,
One or a plurality of video devices provided in an internal space of the stereoscopic screen and capable of projecting content from the inside of the stereoscopic screen over the entire circumference or substantially the entire circumference of the stereoscopic screen;
Provided on the hem side or lower side of the three-dimensional screen, the direction of the wind can be changed in a fixed direction or in accordance with a predetermined time / cycle and program set in advance, and / or the intensity of the wind can be fixed. Or, by making it variable according to a predetermined time / cycle or a program determined in advance, a fine wind is applied to the stereoscopic screen, thereby maintaining the shape of the stereoscopic screen and causing fluctuations or fine movements in the stereoscopic screen. A plurality of blowing devices to be
A video system is provided.

According to the second solution of the present invention,
A video method,
Using a flexible support member in the form of a string, it is suspended or suspended or flexibly supported by a ceiling or a frame or a column, covers the upper surface of the inner space and the entire peripheral side or almost the entire peripheral side, and is translucent or translucent And providing a three-dimensional screen formed of a thin and soft sheet that sways and slightly moves in the wind,
One or a plurality of video devices are provided in the interior space and / or outside of the stereoscopic screen, and the content is projected from the inside and / or outside of the stereoscopic screen over the entire circumference or substantially the entire circumference of the stereoscopic screen. ,
By using a plurality of blowers provided on the hem side or the lower side of the three-dimensional screen, the direction of the wind can be changed in a fixed direction or by a predetermined time / cycle or program set in advance, and / or By making the strength of the screen constant or variable according to a predetermined predetermined time / cycle or program, the shape of the three-dimensional screen can be maintained and the three-dimensional screen can be maintained by applying a slight wind to the three-dimensional screen. Cause fluctuations or tremors in the
A video method is provided.

According to the third solution of the present invention,
A video system,
Using a flexible support member in the form of a string, it is suspended or suspended or flexibly supported by a ceiling or a frame or a column, covers the upper surface of the inner space and the entire peripheral side or almost the entire peripheral side, and is translucent or translucent And a three-dimensional screen formed of a thin and soft sheet that is shaken or slightly moved by the wind,
One or a plurality of video devices provided outside the stereoscopic screen and capable of projecting content from outside the stereoscopic screen over the entire circumference or substantially the entire circumference of the stereoscopic screen;
Provided on the hem side or lower side of the three-dimensional screen, the direction of the wind can be changed in a fixed direction or in accordance with a predetermined time / cycle and program set in advance, and / or the intensity of the wind can be fixed. Or, by making it variable according to a predetermined time / cycle or a program determined in advance, a fine wind is applied to the stereoscopic screen, thereby maintaining the shape of the stereoscopic screen and causing fluctuations or fine movements in the stereoscopic screen. A plurality of blowing devices to be
A video system is provided.

According to the present invention, it is possible to provide a stereoscopic image that gives an impression close to nature and / or a stereoscopic image that has a sense of reality (reality) with a simple configuration and installation.

Explanatory drawing from the side surface direction of the three-dimensional screen of an imaging | video system. Explanatory drawing from the upper direction of the three-dimensional screen of an imaging | video system. Explanatory drawing from the side surface direction of the internal structure of the video system of 1st Embodiment. Explanatory drawing from the upper direction of the internal structure of the video system of 1st Embodiment. Explanatory drawing from the side surface direction of the internal structure of the modification 1 of an imaging device. Explanatory drawing from the upper direction of the internal structure of the modification 2 of an imaging | video apparatus. Explanatory drawing from the side surface direction of the internal structure of the video system of 2nd Embodiment. Explanatory drawing from the upper direction of the internal structure of the video system of 2nd Embodiment. Explanatory drawing from the side surface of the internal structure of the modification 1 of the video system of 2nd Embodiment. Explanatory drawing from the side surface direction of the internal structure of the modification 2 of the video system of 2nd Embodiment. Explanatory drawing from the upper direction of the internal structure of the modification 3 of the video system of 2nd Embodiment. Explanatory drawing from the side surface direction of the internal structure of the modification 4 of the video system of 2nd Embodiment. Explanatory drawing from the side surface direction of the internal structure of the modification 5 of the video system of 2nd Embodiment. Explanatory drawing from the side surface direction of the internal structure of the modification 6 of the video system of 2nd Embodiment.

A. Video system according to the first embodiment

FIG. 1 is an explanatory view from the side of the stereoscopic screen of the video system. FIG. 2 is an explanatory diagram from above of the stereoscopic screen of the video system.
Hereinafter, the three-dimensional screen 1 will be described with reference to the drawings.
The three-dimensional screen 1 has a three-dimensional shape that covers the upper surface of the space inside the cavity and the side surface of 360 degrees (entire circumference) with respect to the plane. This shape can be, for example, a mosquito net shape, a dome shape (such as an air dome), a hemisphere or a part of a sphere, an elliptical sphere or a part of an elliptical sphere. The size of the three-dimensional screen 1 can also be set to an appropriate size.
The three-dimensional screen 1 is rounded by, for example, joining and adhering a plurality of sheets (cells) by pasting (sticking) or the like, and forming a curved surface portion by adhering / joining lines on a curve. It is formed so as to secure a three-dimensional space (for example, a structure like a paper balloon may be referred to). In order to maintain the shape to some extent, a relatively thick frame-like sheet portion, a relatively hard frame-like sheet portion, or the like may be included. Further, the shape may be maintained using an appropriate frame.

The material of the three-dimensional screen 1 is a translucent (translucent), thin, soft (soft) cloth or cloth-like sheet. As a characteristic of the material, because it is translucent (translucent), the image projected (projected) from the inside of the space can be viewed from the inside as well as from the outside, and it is shaken or slightly moved by the wind ( Including fine vibrations). The material is preferably durable and fine-grained that is not easily torn.
Examples of the material include cloth made of artificially produced silkworm thread, cloth made of artificially produced silkworm thread, silk, organza, thin and slightly transparent cloth, rayon, vinyl, polyethylene, etc. An appropriate material such as a chemical material, Japanese paper, a natural material such as nonwoven fabric, or a combination of a plurality of these materials can be used.
Note that the three-dimensional screen 1 may be provided with an opening, an entrance, a gap, or the like at an appropriate location so that, for example, a person or equipment can pass through the inside, or a part of the periphery covering the plane. It is good also as a structure which covers substantially the whole periphery, such as opening.

  As a method for installing the three-dimensional screen 1, for example, a plurality of support portions 11 provided on the inside or the outside of the surface of the three-dimensional screen 1 using a string-like flexible support member 2, a ceiling (or a frame or the like). 3) It can be flexibly supported by hanging or suspending. Here, the three-dimensional screen 1 is not fixed and is attached so as to sway, finely move, or vibrate (finely oscillate) in the wind. The string-like support member 2 may be an elastic elastic member such as an appropriate rubber such as a rubber thread, a rubber string, or a tape, in addition to a thread, string, or belt. In addition to the ceiling (or frame) 3, it may be supported by a column or the like installed on and / or beside the three-dimensional screen 1.

FIG. 3 is an explanatory diagram from the side direction of the internal configuration of the video system of the first embodiment. FIG. 4 is an explanatory view from above of the internal configuration of the video system of the first embodiment.
The video system includes a three-dimensional screen 1, a video device 4, a blower device 5, and a control device 6.

Hereinafter, the video apparatus 4 will be described.
The video device 4 is provided in a space inside the stereoscopic screen 1. By using one or a plurality of video devices 4, content is projected (projected) from the inside toward the stereoscopic screen 1. As the video device 4, a video device that can project content 360 degrees (entire circumference) in a plane or a video device that projects a part (substantially the entire circumference) may be used. In this embodiment, the content can be projected 360 degrees by using, for example, a fisheye lens or the like with one video apparatus 4. In addition, by providing a plurality of video devices 4, it is possible to project two or more contents on the screen by doubling them.

In this embodiment, the video apparatus 4 can be installed as appropriate using a column, a frame, or the like from a lower surface such as a floor surface. As will be described later, the video apparatus 4 may be appropriately installed such as supported from above by a ceiling or a frame.

Next, the blower 5 will be described.
In the present embodiment, a plurality of blower devices 5 are used, and a slight wind is applied to the three-dimensional screen 1 to cause the three-dimensional screen 1 to fluctuate or slightly move. The blower device 5 is provided, for example, on the hem side / lower side of the three-dimensional screen 1 and blows air upward. Further, the shape of the three-dimensional screen 1 can be secured by the air blown from the blower 5 (for example, like an air dome). Note that an appropriate number of blowers 5 can be provided. In this example, it is installed on both sides so as to sandwich the bottom of the three-dimensional screen 1, but not limited to this, only one of the inside or the outside may be provided, or the inside and the outside may be staggered depending on the position. You may make it provide suitably. In the example shown in the figure, the bottom of the three-dimensional screen 1 is separated from the floor surface or the like, but is supported with the floor surface or an appropriate support portion using an appropriate means such as a support member such as a string or a weight. You may be made to do.

  Various appropriate devices can be used as the blower 5. For example, one or a plurality of air outlets, air pipes, or the like can be provided on the upper surface and / or the side surface of the air blower 5 to blow air upward. Further, the direction and strength may be set to be constant or variable depending on the direction and shape of the air outlet or the air pipe. Moreover, a fan, a fan, etc. can be used for the air blower 5, for example, Furthermore, you may use what attached the swing function. The direction of the wind may be a fixed direction, or may be provided with a direction control mechanism that changes the direction according to a predetermined time / period, a program, or the like. Further, the strength of the wind may be constant, or may be provided with a strength / weakness function that is variable according to a predetermined time / cycle, a program, or the like. In addition, the air blower 5 may be provided with a slit mechanism that rotates or moves, and may change the direction and / or strength of the air blowing.

  The control device 6 controls on / off of the video device 4, content switching / selection, etc., and controls on / off, strength, direction, pattern, etc. of the blower device 5. In this case, it may be controlled manually or automatically. The control device 6 can also control the blowing direction and strength of the blower 5 in accordance with (synchronously with) the video by the video device 4.

B. Modification of video equipment

Hereinafter, modified examples will be described. In the figure, the blower 5 and the control device 6 are omitted.
FIG. 5 shows an explanatory diagram from the side direction of the internal configuration of the first modification of the video apparatus.
In the first modification, the installation method of the video apparatus 4 is shown. As shown in the figure, the three-dimensional screen 1 is supported from above by a ceiling (or frame) 3, the three-dimensional screen 1 is supported from the ceiling (or frame) 3, and supported from the floor. For example, one or a plurality of video devices 4 may be installed as appropriate.

FIG. 6 is an explanatory view from above of the internal configuration of the second modification of the video apparatus.
In the second modification, a plurality of video devices 4 are provided, and each video device 4 projects, for example, an image of 120 degrees and a 360-degree image as a whole on the stereoscopic screen 1. The number of the video devices 4 and the projection range can be determined as appropriate. Such a multi-screen video technique is described in, for example, Patent Document 1 and the like.

C. Video system of second embodiment

FIG. 7 shows an explanatory diagram from the side direction of the internal configuration of the video system of the second embodiment.
FIG. 8 is an explanatory view from above of the internal configuration of the video system of the second embodiment.

In the video system of the second embodiment, as shown in the figure, another internal stereoscopic screen 101 is provided inside the stereoscopic screen 1 to form a double stereoscopic screen. Is. The shape and material of the internal stereoscopic screen 101 are the same as those of the stereoscopic screen 1. Further, as shown in the figure, the internal stereoscopic screen 101 can be provided only on the upper side of the stereoscopic screen 1 without the skirt extending to the floor surface. Note that the bottom of the internal three-dimensional screen 101 may extend to the floor or the like. As a method for installing the three-dimensional screen 101, for example, the support member 111 and the string-like support member 102 are used via a plurality of support portions 11 provided inside or outside the three-dimensional screen 1. The support member 102 can be supported on the ceiling (or frame or the like) 3 or the three-dimensional screen 1 by hanging or hanging. The support member 102 may share the one that supports the three-dimensional screen 1 on the ceiling (or frame or the like) 3 or may use a separate one. Even if the air is not blown by the blower 5 in particular, the inner three-dimensional screen 101 is shaken / finely moved by the support member 102 to transmit the vibration / fine movement of the three-dimensional screen 1. In addition, you may provide the ventilation apparatus 5 for blowing air on the internal three-dimensional screen 101 separately.
As shown in the figure, the video apparatus 4 may be provided between the stereoscopic screen 1 and the internal stereoscopic screen 101. In this case, the same content is projected on the stereoscopic screen 1 and the internal stereoscopic screen 101. Alternatively, separate content can be projected. Further, as in the first embodiment, the video device 4 may be appropriately disposed inside or near the center of both the stereoscopic screen 1 and the internal stereoscopic screen 101. In this case, The internal stereoscopic screen 101 can project the same content so as to be transmitted.
The three-dimensional screen 1, the video device 4, the blower 5, the control device 6, and others can be the same as those in the first embodiment.

FIG. 9 is an explanatory view from the side direction of the internal configuration of the first modification of the video system of the second embodiment.
In the first modification of the video system of the second embodiment, the video device 4 projects content over 360 degrees with respect to the horizontal plane (entire circumference), 180 degrees with respect to the vertical plane (upper part), or over 180 degrees. The video device 4 may be used, or a part of the video device 4 (substantially the entire circumference with respect to the horizontal plane and / or a predetermined range of 180 degrees or less with respect to the vertical plane) may be projected. May be used. For example, a fisheye lens or the like can be used for the video device 4.

FIG. 10 is an explanatory view from the side direction of the internal configuration of Modification 2 of the video system of the second embodiment.
In the second modification of the video system according to the second embodiment, the same video apparatus using a fish-eye lens as in the first modification is used, and the video apparatus 4out for projecting to the entire three-dimensional screen 1 and the internal three-dimensional screen are provided. 101 is provided with a video device 4in for projecting over the entire periphery, and a height difference between the video device 4out and the video device 4in is provided. The video device 4out can project over a wide range with respect to a plane perpendicular to the floor, while the video device 4in can project into a narrower range than the video device 4out, and images of the video device 4out and the video device 4in can mutually be as much as possible. It is good to arrange so as not to interfere (so as not to be hindered).
In the second modification, video devices 4in and 4out capable of projecting content at 360 degrees (whole circumference) with respect to the horizontal plane, 180 degrees (upper part) with respect to the vertical plane, or 180 degrees or more may be used. However, video devices 4in and 4out that project a part thereof (substantially the entire circumference with respect to the horizontal plane and / or a predetermined range of 180 degrees or less with respect to the vertical plane) may be used.

FIG. 11 is an explanatory view from above of the internal configuration of the third modification of the video system of the second embodiment.
In the third modification of the video system of the second embodiment, the plurality of video devices 4a are set to focus so as to project the stereoscopic screen 1, and the plurality of video devices 4b project the internal stereoscopic screen 101. The focus is set. In this case, for example, as the internal stereoscopic screen 101, a sheet having a coarseness such that images from a plurality of video devices 4a are partially projected and projected onto the stereoscopic screen 1 may be used. Further, in this example, the plurality of video devices 4a or 4b project images of 120 degrees, for example, and synthesize them by computer processing, so that a 360-degree image as a whole with respect to the horizontal plane is displayed on the stereoscopic screen 1. It is something that is reflected in. The number of video devices can be determined as appropriate.

FIG. 12 is an explanatory view from the side direction of the internal configuration of the modification 4 of the video system of the second embodiment.
In the modified example 4, in particular, the shape of the three-dimensional screen 1 is an appropriate shape such as a conical shape, an inverted bowl shape, a mountain shape, etc., and the skirt portion is widened to have an angle with respect to the vertical plane. is there. In this case, for example, the shape can be maintained by installing the bottom portion of the three-dimensional screen 1 on a floor or the like with a support member such as a string. The internal three-dimensional screen 101 can have an appropriate shape as described in the first embodiment.
In Modification 4, an image device using a fisheye lens or the like similar to that in Modification 1 is used, and an image is projected on the horizontal plane that is installed at or near the upper center of the outside of the screen for projection onto the three-dimensional screen 1. An apparatus 4out and an image apparatus 4in that is installed near the inner center for projecting onto the internal stereoscopic screen 101 and projects the entire circumference on a horizontal plane are provided. Note that the video devices 4in and 4out capable of projecting content at 360 degrees (entire circumference) with respect to the horizontal plane, 180 degrees (upper part) with respect to the vertical plane, or 180 degrees or more may be used. Video apparatuses 4in and 4out that project (substantially the entire circumference with respect to the horizontal plane and / or a predetermined range of 180 degrees or less with respect to the vertical plane) may be used.

FIG. 13 is an explanatory diagram from the side direction of the internal configuration of the modification 5 of the video system of the second embodiment.
In the modified example 5, the same configuration of the stereoscopic screen 1 and the internal stereoscopic screen 101 as in the modified example 4 is used. In the fifth modification, the image is projected onto the inner three-dimensional screen 101 using a plurality of video devices 4out installed inside the screen for projecting onto the three-dimensional screen 1 and the same video device such as a fisheye lens as in the first modification. 4in which is installed inside the screen and projects the entire periphery. A plurality of video devices 4out, for example, project each video constituting one video divided by 120 degrees, and synthesize each divided video by computer processing, so that a video of 360 degrees (all surroundings) as a whole Is projected on the three-dimensional screen 1. Here, a video device 4out or 4in capable of projecting content at 360 degrees (whole circumference) with respect to a horizontal plane, 180 degrees (upper part) with respect to a vertical plane, or 180 degrees or more may be used. A video device 4out or 4in that projects a portion (substantially the entire circumference with respect to the horizontal plane and / or a predetermined range of 180 degrees or less with respect to the vertical plane) may be used. The number of video devices can be determined as appropriate.

FIG. 14 is an explanatory view from the side of the internal configuration of Modification 6 of the video system of the second embodiment.
In Modification 6, the same configuration of the stereoscopic screen 1 and the internal stereoscopic screen 101 as in Modification 4 is used. In the sixth modification, the entire periphery is projected on the inner three-dimensional screen 101 by using a plurality of video devices 4out and a video device such as a fish-eye lens similar to the first modification. A video device 4in installed on the inside of the screen. A plurality of video devices 4out, for example, project each video constituting one video divided by 120 degrees, and synthesize each divided video by computer processing, so that a video of 360 degrees (all surroundings) as a whole Is projected on the three-dimensional screen 1. Here, a video device 4out or 4in capable of projecting content at 360 degrees (whole circumference) with respect to a horizontal plane, 180 degrees (upper part) with respect to a vertical plane, or 180 degrees or more may be used. A video device 4out or 4in that projects a portion (substantially the entire circumference with respect to the horizontal plane and / or a predetermined range of 180 degrees or less with respect to the vertical plane) may be used. The number of video devices can be determined as appropriate.

D. Supplementary explanation of the first and second embodiments

(1) In the description of the first embodiment, “The three-dimensional screen 1 has a three-dimensional shape that covers the upper surface of the space inside the cavity and the side surface (360 degrees around the plane) with respect to the plane. Explained. With regard to this content, the shape of such a three-dimensional screen 1 is, for example, “mosquito net shape, dome shape (air dome, etc.), hemisphere or part of a sphere, elliptical sphere or part of an elliptical sphere. In addition to these, other suitable shapes such as a conical shape, an inverted bowl shape, and a mountain shape can also be included. The same applies to the internal stereoscopic screen 101 in the second embodiment. Note that the stereoscopic screen and the internal stereoscopic screen may be referred to as a stereoscopic screen and an internal stereoscopic screen, respectively.

(2) In the description of the first embodiment, as the video device 4, even if a video device capable of projecting content over 360 degrees (entire circumference) is used as a plane, a part thereof (substantially the entire circumference). A video device for projecting may be used. In this embodiment, it has been described that one video apparatus 4 can project content through 360 degrees by using, for example, a fisheye lens. More specifically, in the case of using one video apparatus 4 in advance, 360 degrees with respect to the horizontal plane (entire circumference), 180 degrees with respect to the vertical plane (upper part), or 180 degrees with respect to the vertical plane in advance. A video device capable of projecting content over a predetermined range may be used, or a part thereof (predetermined approximately 180 degrees or less with respect to a horizontal plane and / or a vertical plane) A video device that projects (range) may be used. The same applies to the video apparatus according to the second embodiment.
In the first and second embodiments, the setting method of the video device 4 has been described with reference to FIG. 5 and the description thereof, but one or more video devices 4 are connected to the stereoscopic screen 1 or the internal stereoscopic screen 101. The inner space and / or outside of the three-dimensional screen 1 or the inner three-dimensional screen 101 is arranged at an appropriate position on the entire space or the outer periphery of the three-dimensional screen 1 or the inner three-dimensional screen 101. It is possible to project appropriately from inside and / or outside.

(3) As an example of the material of the three-dimensional screen 1, “a cloth made of an artificially generated silk thread, a cloth made of an artificially produced silk thread" was cited. Regarding such yarns, in particular, artificially generated cocoon yarns or artificially synthesized cocoon yarns, etc., for example, strength / tension, thickness / thinness, component / chemical structure / chemical formula / molecular structure As for any of a plurality of characteristics / features / properties, etc., a yarn that is the same as or similar to a cocoon yarn or a yarn that simulates (or imitates) a cocoon yarn can be used. As other characteristics / features / properties, for example, color / transparency, surface condition, and the like may be included. The same applies to the material of the internal stereoscopic screen 101.

(4) In the second embodiment, a plurality of three-dimensional screens and internal three-dimensional screens may be provided in triplicate or more. In this case, a plurality of video devices may be provided corresponding to each of the stereoscopic screen and the internal stereoscopic screen, or one or a plurality of video images common to some of the stereoscopic screen and the internal stereoscopic screen. An apparatus may be provided.

E. Projection example Video software and content may be moving images or still images. For example, when projecting a video with a double three-dimensional structure such as a jellyfish, a flower, or a double rainbow, the video system of the first embodiment can also enjoy a three-dimensional video, and in particular, the second embodiment. If you use this video system, you can enjoy the appearance of double structures such as jellyfish, flowers, and double rainbow. In addition, by taking advantage of the shape and characteristics of the three-dimensional screen 1 or the double three-dimensional screen of the internal three-dimensional screen 101 and the internal three-dimensional screen 101, stadiums / stadiums such as buildings, houses, and the Colosseum, and various structures Can be observed from the outside of the stereoscopic screen 1 or the double stereoscopic screen of the internal stereoscopic screen 101 and the internal stereoscopic screen 101. In addition, an internal image such as an image inside these, an image in the mouth of an animal such as a dinosaur, a whale, etc. is projected, and the stereoscopic screen 1 or the internal stereoscopic screen 101 and the internal stereoscopic screen 101 2 It is also possible to observe from the inside of the heavy stereoscopic screen.

F. Effects of the present invention and / or this embodiment

According to this invention and / or this embodiment, there exist the following remarkable effects, for example.
-A simple dome-shaped “three-dimensional screen (3D screen)” can be constructed and installed easily.
・ Three-dimensional screen is thin and light, and can be shaken and tremored in various three-dimensional directions with a simple installation method. Reality closer to naturalness than conventional structures that produce flat or fixed shaking and tremor. Can be reproduced.
・ Three-dimensional screens are sheet-like and cloth-like, lightweight, and highly workable. For example, by cutting the sheet into an appropriate shape according to the object to be projected, various three-dimensional shapes can be obtained. A screen can be generated, and the versatility of video content (video target) is thereby increased.
-Since the three-dimensional screen is translucent (translucent), a three-dimensional image can be enjoyed from the outside of the three-dimensional screen. In addition to this, you can enter the interior space of the 3D screen and enjoy 3D images from the inside.
・ The video device has a method of projecting from the back side of the three-dimensional screen, and when viewing the video from the outside, the device / device etc. is exposed and the video is not disturbed, so it has a realistic realism. A stereoscopic image can be provided on a stereoscopic screen.
-By the double stereoscopic screen provided with the stereoscopic screen 1 and the internal stereoscopic screen 101, a deeper image can be enjoyed. The same content can be projected on the stereoscopic screen 1 and the internal stereoscopic screen 101, or separate contents can be projected.

DESCRIPTION OF SYMBOLS 1 Three-dimensional screen 101 Internal three-dimensional screen 2,102 Support member 11,111 Support part 3 Ceiling (or frame etc.)
4 Video device 5 Blower device 6 Control device

Claims (9)

A video system,
Using a flexible support member in the form of a string, it is suspended or suspended or flexibly supported by a ceiling or a frame or a column, covers the upper surface of the inner space and the entire peripheral side or almost the entire peripheral side, and is translucent or translucent And a three-dimensional screen formed of a thin and soft sheet that is shaken or slightly moved by the wind,
One or a plurality of video devices provided in an internal space of the stereoscopic screen and capable of projecting content from the inside of the stereoscopic screen over the entire circumference or substantially the entire circumference of the stereoscopic screen;
Provided on the hem side or lower side of the three-dimensional screen, the direction of the wind can be changed in a fixed direction or in accordance with a predetermined time / cycle and program set in advance, and / or the intensity of the wind can be fixed. Or, by making it variable according to a predetermined time / cycle or a program determined in advance, a fine wind is applied to the stereoscopic screen, thereby maintaining the shape of the stereoscopic screen and causing fluctuations or fine movements in the stereoscopic screen. A plurality of blowing devices to be
Video system with
The video system according to claim 1,
It is provided in the interior space of the three-dimensional screen so as to be doubled with the three-dimensional screen, and is suspended or suspended or flexibly supported by the three-dimensional screen using a string-like flexible support member. An image system characterized by further comprising an internal three-dimensional screen that is formed of a thin and soft sheet that covers a space, is translucent or translucent, and is shaken or slightly moved by wind.
A video system,
Using a flexible support member in the form of a string, it is suspended or suspended or flexibly supported by a ceiling or a frame or a column, covers the upper surface of the inner space and the entire peripheral side or almost the entire peripheral side, and is translucent or translucent And a three-dimensional screen formed of a thin and soft sheet that is shaken or slightly moved by the wind,
One or a plurality of video devices provided outside the stereoscopic screen and capable of projecting content from outside the stereoscopic screen over the entire circumference or substantially the entire circumference of the stereoscopic screen;
Provided on the hem side or lower side of the three-dimensional screen, the direction of the wind can be changed in a fixed direction or in accordance with a predetermined time / cycle and program set in advance, and / or the intensity of the wind can be fixed. Or, by making it variable according to a predetermined time / cycle or a program determined in advance, a fine wind is applied to the stereoscopic screen, thereby maintaining the shape of the stereoscopic screen and causing fluctuations or fine movements in the stereoscopic screen. A plurality of blowing devices to be
Video system with
The video system according to claim 3,
It is provided in the interior space of the three-dimensional screen so as to be doubled with the three-dimensional screen, and is suspended or suspended or flexibly supported by the three-dimensional screen using a string-like flexible support member. An internal three-dimensional screen that is formed of a thin, soft sheet that covers a space, is translucent or translucent, and is swayed or slightly moved by the wind;
One or a plurality of other video devices provided inside the internal stereoscopic screen and capable of projecting content from the inside of the internal stereoscopic screen over the entire circumference or substantially the entire circumference of the internal stereoscopic screen;
A video system characterized by further comprising:
The video system according to any one of claims 1 to 4,
The three-dimensional screen has a mosquito net shape, a dome shape, a hemisphere or a part of a sphere, an elliptical sphere or a part of an elliptical sphere, a conical shape, an inverted bowl shape, or a mountain shape. Video system.
The video system according to any one of claims 1 to 5,
The material of the three-dimensional screen is a cloth made of artificially generated silk thread, a cloth made of artificially made silk thread, silk, organza, thin, slightly transparent cloth, rayon, vinyl, polyethylene A video system characterized in that it is other chemical material, Japanese paper, non-woven fabric, other natural material, or a combination of these.
The video system according to any one of claims 1 to 6,
A control device for controlling on / off or selection / switching of an image of the video device and / or wind intensity and / or direction by the blower;
A video system characterized by further comprising.
The video system according to claim 7,
The said control apparatus controls the image | video by the said video apparatus, and the wind by the said air blower synchronizing, and controls.
A video method,
Using a flexible support member in the form of a string, it is suspended or suspended or flexibly supported by a ceiling or a frame or a column, covers the upper surface of the inner space and the entire peripheral side or almost the entire peripheral side, and is translucent or translucent And providing a three-dimensional screen formed of a thin and soft sheet that sways and slightly moves in the wind,
One or a plurality of video devices are provided in the interior space and / or outside of the stereoscopic screen, and the content is projected from the inside and / or outside of the stereoscopic screen over the entire circumference or substantially the entire circumference of the stereoscopic screen. ,
By using a plurality of blowers provided on the hem side or the lower side of the three-dimensional screen, the direction of the wind can be changed in a fixed direction or by a predetermined time / cycle or program set in advance, and / or By making the strength of the screen constant or variable according to a predetermined predetermined time / cycle or program, the shape of the three-dimensional screen can be maintained and the three-dimensional screen can be maintained by applying a slight wind to the three-dimensional screen. Cause fluctuations or tremors in the
Video method.

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