CN219864306U - Glass gallery bridge suspension theatre - Google Patents

Abstract

The utility model discloses a glass gallery bridge suspension theatre, which comprises: the house body is divided into a viewing area and a projection area; the viewing area is suspended, and: the screen body is arranged on all surfaces of the projection area in the room body; under the top projection view angle, the projection of the observation area is fully overlapped, semi-overlapped or not overlapped with the projection area; the size and shape of the front and rear projection objects are unchanged in the projection connection relation of any point of the observation area relative to any point or surface of the screen body; 1. the corridor bridge design is adopted: the viewing area is suspended in the air, so that the audience can watch the performance on the suspended corridor bridge. The design not only increases the participation and immersion of the audience, but also can provide more vivid and flexible viewing effect. In addition, the corridor bridge is made of transparent materials, and is convex and fully overlapped with a projection area under a top projection view angle, so that light refraction and interference can be reduced, and a viewing effect is improved.

Description

Glass gallery bridge suspension theatre

Technical Field

The utility model relates to the technical field of VR (virtual reality), in particular to a glass gallery bridge suspension theatre.

Background

The suspended theatre is a novel entertainment place, is basically constructed as a huge suspended structure, is internally provided with a plurality of high and new technologies such as holographic projection, 3D sound effect and the like, and can provide unique and immersive entertainment experience. The following is a detailed description of the background art for a suspended theatre:

first, one of the core technologies of the suspended theatre is the holographic projection technology. The holographic projection technology is a technology for projecting a 3D image into the air by using a laser or LED light source, and can present a vivid and three-dimensional image effect. In a suspended theatre, holographic projection technology can be used to present shows, performances, concerts, etc. to provide a more realistic experience for spectators.

Secondly, the suspended theatre also adopts a 3D sound effect technology. The 3D sound effect technology is a technology of stereoscopically representing sound, which allows viewers to feel a stereophonic effect, and adjusts the direction and position of sound according to scenes. In a suspension theatre, the 3D sound effect technology can transmit sound effects from different directions, so that a viewer can feel more real sound effect experience.

In summary, the suspended theatre is a novel entertainment venue which combines a plurality of high and new technologies together, including holographic projection technology, 3D sound effect technology, artificial intelligence technology, dynamic perception technology, virtual reality technology and the like. Application of these techniques may provide a more unique, immersive entertainment experience for the viewer.

However, the inventors have long worked and studied to find that, in the above conventional techniques, there are the following technical problems:

the viewing angle of the audience is limited and the show can only be viewed from a fixed location. This limits the experience for the audience and also limits the originality and flexibility of the performance. In addition, screens used in conventional techniques are typically of a fixed shape and size, which also places certain restrictions on the originality and effect of the performance. In addition, conventional audio and lighting systems often fail to provide adequate realism and comfort, affecting the experience of the audience.

Therefore, a glass gallery bridge suspension theatre is provided.

Disclosure of Invention

In view of the foregoing, embodiments of the present utility model wish to provide a glass gallery bridge suspended theatre to solve or alleviate the technical problem of limited viewing angle of spectators in the prior art, and at least provide a beneficial choice;

the technical scheme of the embodiment of the utility model is realized as follows:

a glass gallery bridge suspended theatre comprising:

the house body is divided into a viewing area and a projection area; the viewing area is suspended, and:

the screen body is arranged on all surfaces of the projection area in the room body;

under the top projection view angle, the projection of the observation area is fully overlapped, semi-overlapped or not overlapped with the projection area; the size and shape of the front and rear projection objects are unchanged in the projection connection relation of any point of the observation area relative to any point or surface of the screen body.

According to the above embodiment, wherein: the glass gallery bridge suspension theatre adopts the principle of orthographic projection, and achieves a vivid panoramic projection effect by arranging a projection area right in front of a viewing area. The observation area is suspended in the house body and is partially arranged on the screen body on all surfaces of the projection area in the house body so as to realize the projection effect. And under the top projection view angle, the projection of the observation area is fully overlapped, semi-overlapped or not overlapped with the projection area. The size and shape of the front and rear projection objects are unchanged in the projection connection relation of any point of the observation area relative to any point or surface of the screen body.

Wherein in one embodiment: the viewing area includes:

a corridor bridge for carrying a person, the corridor bridge being made of a transparent material;

and under the top projection view angle, the gallery bridge is fully overlapped with the projection area.

The gallery bridge is preferably made of toughened glass; the necessary steel bars and angle steel structure supporting frames are arranged; when in use, a user stands on the projection area and is fully projected on the corridor bridge from all directions of the projection area, so that the suspension theatre effect is realized.

According to the above embodiment, wherein: in this embodiment, the viewing area comprises a transparent corridor bridge for carrying persons, which corridor bridge is made of tempered glass material and is provided with the necessary steel bars and angle steel structural support frames. When the system is used, a spectator stands on the corridor bridge, and the projection of the viewing area is fully projected on the corridor bridge from all directions, so that the suspension theatre effect is realized. And under the top projection view angle, the gallery bridge is fully overlapped with the projection area.

Wherein in one embodiment: the projection area comprises a screen body which is arranged on the inner side wall surface of the house body and used for playing visual effects. All the screen bodies surround the observation area to form a closed or semi-closed area.

According to the above embodiment, wherein: in this embodiment, the projection area includes a screen mounted on the interior sidewall surface of the housing for playing visual effects. All the screen bodies surround and form a closed or semi-closed area in the observation area so as to realize more realistic panoramic projection effect.

Wherein in one embodiment: the screen body is one of an LED screen, an OLED screen, a laser projection screen or an LCD screen.

According to the above embodiment, wherein: in this embodiment, the projection area adopts one of an LED screen, an OLED screen, a laser projection screen, or an LCD screen as a screen body for playing a visual effect. The screen bodies have different characteristics and application ranges and can be selected according to specific needs.

Wherein in one embodiment: the screen body is one of a spherical screen, an annular screen or a curved screen.

Such as using stereoscopic projection or panoramic video, spherical or ring screens are employed based on projection zone designs to provide more realistic effects.

According to the above embodiment, wherein: in this embodiment, the projection area adopts one of a spherical screen, a ring screen, or a curved screen as a screen body for playing the visual effect. The screen bodies have non-planar shapes, and can provide more realistic viewing effect.

Wherein in one embodiment: and under the top projection view angle, the gallery bridge is convex and is fully overlapped with the projection area.

From a projection perspective, the gallery of the viewing area should be centered in the projection area and should cover as much of the field of view of the entire projection area as possible to ensure that the viewer is fully immersed in the visual experience. When the house body is designed, the corridor bridge is convex and is fully overlapped with the projection area, so that light refraction and interference are reduced to the greatest extent.

According to the above embodiment, wherein: in this embodiment, the gallery bridge of the viewing area is convex and fully overlaps the projection area, the gallery bridge being centered in the projection area from the projection perspective and covering as much of the field of view of the entire projection area as possible.

Wherein in one embodiment: the viewing area further includes:

the platform is arranged behind the corridor bridge and used for carrying people;

the platform is designed as a shake-up platform, and a user who is not full-view can stand on the platform for shooting.

According to the above embodiment, wherein: in this embodiment, the viewing area includes not only a corridor bridge for carrying persons, but also a platform provided behind the corridor bridge. The platform is designed as a shake-up platform, and a user who is not full-view can stand on the platform to take a photograph.

Wherein in one embodiment: the inside of the house body is provided with:

and the functional component is used for regulating and controlling indoor temperature and volume.

According to the above embodiment, wherein: in this embodiment, a functional component for controlling the indoor temperature and volume is provided inside the house.

Wherein in one embodiment: the functional component comprises:

sound equipment uniformly arranged in the house;

the air conditioner and the air outlet are uniformly arranged in the room body.

The functional component further comprises:

an electric cabinet with a control panel is provided.

The electric cabinet is stored with control buttons of all electrical components in the house, a memory for storing video files and a controller for controlling.

According to the above embodiment, wherein: in this embodiment, the functional components include a sound box, an air conditioner, and an air outlet, which are uniformly installed in the house, and an electric cabinet provided with a control panel.

Compared with the prior art, the utility model has the beneficial effects that:

1. the corridor bridge design is adopted: the viewing area is suspended in the air, so that the audience can watch the performance on the suspended corridor bridge. The design not only increases the participation and immersion of the audience, but also can provide more vivid and flexible viewing effect. In addition, the corridor bridge is made of transparent materials, and is convex and fully overlapped with a projection area under a top projection view angle, so that light refraction and interference can be reduced, and a viewing effect is improved.

2. And a plurality of technical means such as a curved screen are adopted: the screen shape and size can be adjusted according to the performance needs to adapt to different performance creatives and requirements, and more vivid and flexible viewing effects are provided. In the aspect of functional components, equipment such as sound equipment, air conditioner, air outlet and the like which are uniformly arranged in a room body are adopted, and a comfortable film watching environment is provided for audiences, so that the comfort level and quality of film watching are improved.

In summary, the most innovative part of the technology provided by the utility model is to adopt the gallery bridge design, which can provide more realistic and flexible viewing effect and increase participation and immersion of audience. In addition, by adopting a plurality of technical means such as a curved screen and the like, the viewing effect can be further improved. In the aspect of functional components, equipment such as sound equipment, air conditioner and air outlet are adopted, so that a comfortable viewing environment is provided for audience, and the quality and comfort level of viewing are further improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the present utility model from a perspective (with the roof structure removed);

FIG. 2 is a schematic view of the front view of the present utility model;

FIG. 3 is a schematic top view structure of the present utility model;

FIG. 4 is a schematic view of another perspective view of the present utility model with the roof structure removed;

FIG. 5 is a schematic view of another perspective view of the present utility model in perspective (with the roof structure removed);

FIG. 6 is a schematic view of the present utility model when the interior of the house is used;

FIG. 7 is a schematic view of the present utility model when the interior of the house is used;

reference numerals: 1. a house body; 2. a screen body; 3. a gallery bridge; 4. a platform; 5. functional components.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. This utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below;

it should be noted that the terms "first," "second," "symmetric," "array," and the like are used merely for distinguishing between description and location descriptions, and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of features indicated. Thus, a feature defining "first," "symmetry," or the like, may explicitly or implicitly include one or more such feature; also, where certain features are not limited in number by words such as "two," "three," etc., it should be noted that the feature likewise pertains to the explicit or implicit inclusion of one or more feature quantities;

in the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature; meanwhile, all axial descriptions such as X-axis, Y-axis, Z-axis, one end of X-axis, the other end of Y-axis, or the other end of Z-axis are based on a cartesian coordinate system.

In the present utility model, unless explicitly specified and limited otherwise, terms such as "mounted," "connected," "secured," and the like are to be construed broadly; for example, the connection can be fixed connection, detachable connection or integrated molding; the connection may be mechanical, direct, welded, indirect via an intermediate medium, internal communication between two elements, or interaction between two elements. The specific meaning of the terms described above in the present utility model will be understood by those skilled in the art from the specification and drawings in combination with specific cases.

In the prior art, the viewing angle of conventional suspended theatrical viewers is limited and shows can only be viewed from a fixed location. This limits the experience for the audience and also limits the originality and flexibility of the performance. In addition, screens used in conventional techniques are typically of a fixed shape and size, which also places certain restrictions on the originality and effect of the performance. In addition, the acoustic and lighting systems of the conventional art often fail to provide adequate realism and comfort, affecting the experience of the audience; for this reason, referring to fig. 1-5, the present utility model provides a technical solution to solve the above technical problems: a glass gallery bridge 3 suspended theatre comprising:

the house body 1 is internally divided into a viewing area and a projection area; the viewing area is suspended:

the screen body 2 is arranged on all surfaces of the projection area in the house body 1;

under the top projection view angle, the projection of the observation area is fully overlapped, semi-overlapped or not overlapped with the projection area; the size and shape of the front and rear projection objects are unchanged in the projection connection relation of any point of the observation area relative to any point or surface of the screen body 2.

In projection, the positional relationship between the viewing area and the projection area should satisfy the principle of orthographic projection. Orthographic projection refers to the perpendicular projection of light rays from a point or a plane onto another plane, which keeps the size and shape of the object unchanged before and after projection. Therefore, in the suspended theatre, if a realistic panoramic projection effect is to be achieved, it is necessary to arrange the projection area directly in front of the viewing area, and the size and shape of the screen should be matched with the position and angle of the viewing area to achieve the effect of orthographic projection.

Further: based on the principle of projection, when an object is projected onto another plane, the projection line needs to be ensured to be perpendicular to the plane, so that the size and shape of the object before and after projection can be kept unchanged. This projection line is called a vertical line, and the plane in which the vertical line lies is called a projection plane. When the distance between the projection surface and the projected object is d, the proportional relationship between the projection size and the projected object size is:

d/D

where D is the size of the object being projected.

In the suspended theatre, the audience's viewing position is designed to hang on the bridge 3 above the projection area, which is located directly in front of the audience. Because the position relation between the projection area and the observation area meets the principle of orthographic projection, when a viewer views projection from the corridor bridge 3, the viewer can see the real size and shape of the projected object, thereby achieving a realistic panoramic projection effect.

In addition, in order to ensure that the projection effect is more realistic, the size and shape of the screen should be matched to the position and angle of the viewing area. If the shape of the screen is not matched with the position of the viewing area, problems such as projection deformation and distortion can occur, and the viewing experience is affected. Therefore, in designing the projection area, it is necessary to determine the size and shape of the screen according to the position and angle of the viewing area to achieve the effect of orthographic projection.

In a flying theatre, the location of the viewing area is fixed relative to the position of the screen 2, that is, each point of the viewing area may be in projection connection with each point or face of the screen 2. Therefore, for any point of the viewing area, in the projection connection relation between the viewing area and any point or surface of the screen body 2, the size and shape of the front and rear projection objects should be kept unchanged, so as to ensure the reality of the viewing experience.

The necessity and meaning of this design is that the viewer can see the real scene and picture only while keeping the projected object size and shape unchanged, thus being more immersed in the viewing experience. If the size and shape of the projected object changes, the viewer will feel the scene unrealistic and distorted, thereby affecting the viewing effect. Therefore, in the design of the suspended theatre, the positional relationship between the viewing area and the projection area is designed according to the principle of projection, so as to ensure that the size and shape of the projection object are unchanged.

Exemplary: in a suspended theatre, the distance between the position of the viewing area and the position of the screen body 2 is D, the size of the screen body 2 is D, and the projection area is P, so that according to the principle of projection, the following can be obtained:

P＝d/D

wherein P is the size of the projection area, D is the distance between the viewing area and the screen 2, and D is the size of the screen 2.

Assuming that a point a of the viewing area needs to be connected with a point B of the screen 2 in a projection manner, the following can be obtained according to the principle of projection:

AB’/AB＝d/D

where AB' is the projection position of the point a on the projection plane, and AB is the position of the point a on the screen 2.

Since AB is a fixed point on the screen body 2 and D are also fixed, AB' is also fixed, i.e. the projection position of point a on the projection surface is fixed. Therefore, the size and shape of the front-rear projection object are unchanged in the projection connection relation of any point of the observation area with respect to any point or plane of the screen body 2.

Through the deduction, the necessity and meaning of the design can be further proved, namely in the design of the suspension theatre, the position relation between the observation area and the projection area must be designed according to the principle of projection so as to ensure that the size and the shape of the projection object are unchanged, thereby improving the observation experience of audience.

In the scheme, the method comprises the following steps: the glass corridor bridge 3 is suspended in the theatre by adopting the principle of orthographic projection, and achieves a vivid panoramic projection effect by arranging a projection area right in front of a viewing area. The viewing area is suspended in the house body 1 and is partially arranged on the screen body 2 on all sides of the projection area in the house body 1 so as to realize the projection effect. Under the top projection view angle, the projection of the observation area is fully overlapped, semi-overlapped or not overlapped with the projection area. The size and shape of the front and rear projection objects are unchanged in the projection connection relation of any point of the observation area relative to any point or surface of the screen body 2.

Specific: the suspended theatre is designed by adopting the principle of orthographic projection. In orthographic projection, light rays emitted from a point or a plane are perpendicularly projected onto another plane, and the size and shape of the object can be kept unchanged before and after projection. In the suspended theatre, the effect of orthographic projection is achieved by arranging the projection area right in front of the viewing area and matching the size and shape of the screen with the viewing area. The suspended design of the viewing area also ensures that the vision of the audience is not blocked by other objects, thereby better experiencing panoramic projection effect.

It can be appreciated that in this embodiment, the suspended theatre utilizes the principle of orthographic projection to achieve a realistic panoramic projection effect. The floating design of the viewing area ensures that the viewer can view the projection on the screen 2 from any angle, without concern for interference from other objects. In addition, the design of the watching area and the projection area of the suspended theatre ensures that the size and shape of the objects before and after projection are unchanged, thereby improving the fidelity of watching experience. In general, the suspension theatre fully considers the projection principle and audience experience in the design, and brings more vivid and panoramic viewing experience for the audience.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the viewing area includes:

a corridor bridge 3 for carrying persons, the corridor bridge 3 being made of a transparent material;

the gallery bridge 3 is fully superimposed with the projection area at the top projection view.

The gallery bridge 3 is preferably made of toughened glass; the necessary steel bars and angle steel structure supporting frames are arranged; when in use, a user stands on the projection area and is fully projected on the corridor bridge 3 from all directions of the projection area, so as to realize the effect of the suspension theatre.

In the scheme, the method comprises the following steps: in this embodiment, the viewing area comprises a transparent corridor bridge 3 for carrying persons, which corridor bridge 3 is made of tempered glass material and is provided with the necessary steel bars and angle steel structural support frames. When the system is used, a spectator stands on the corridor bridge 3, and projection of a viewing area is fully projected on the corridor bridge 3 from all directions, so that the suspension theatre effect is realized. The gallery bridge 3 is fully superimposed with the projection area at the top projection view.

Specific: in this embodiment, the audience is able to realize the flying theatre effect by standing on the transparent corridor bridge 3 and projecting the viewing area all around onto the corridor bridge 3. Because the corridor bridge 3 is made of transparent toughened glass, a viewer can enjoy surrounding beautiful scenery while watching the video, and the interestingness and the ornamental value of the video are improved.

It can be appreciated that in this embodiment, the gallery bridge 3 of this embodiment is made of tempered glass, which has high strength and transparency, and also has good characteristics of wind resistance, shock resistance and impact resistance, so that the safety of the audience is ensured. In addition, the user stands on the transparent corridor bridge 3 to watch the projection, so that more lifelike visual experience can be obtained, and the ornamental interest of the audience is increased. In general, the embodiment realizes the suspension theatre effect by adopting the transparent corridor bridge 3 made of toughened glass, gives attention to the vision and safety requirements of spectators, and improves the fidelity of the film watching experience.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the projection area comprises a screen body 2 which is arranged on the inner side wall surface of the room body 1 and used for playing visual effects. All the panels 2 (2) surround the viewing area forming a closed or semi-closed area.

In the scheme, the method comprises the following steps: in this embodiment, the projection area includes a screen 2 for playing visual effects mounted on the inner side wall surface of the house 1. All the screen bodies 2 surround the observation area to form a closed or semi-closed area so as to realize more realistic panoramic projection effect.

Specific: in this embodiment, the screen 2 in the projection area surrounds the viewing area forming a closed or semi-closed area. By arranging all the screen bodies 2 together, a closed or semi-closed space can be formed, so that the projection effect can cover the whole viewing area sufficiently. The spectator can obtain a realistic panoramic projection effect by watching the images on the screen.

It will be appreciated that in this embodiment, the screen 2 provides a more realistic panoramic projection for the viewer by surrounding the viewing area forming a closed or semi-closed area. In the process of playing the visual effect, the screen body 2 can improve the viewing experience of the audience in a high-definition display effect, colorful pictures and other modes, and simultaneously provides richer visual elements for the audience. By surrounding the area where the seal or semi-seal is formed, the vision of the audience can be completely covered by the projection, thereby improving the fidelity of the viewing. In general, this embodiment provides a more realistic, panoramic viewing experience for the viewer by surrounding the screen 2 to form a closed or semi-closed area in the viewing area.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the screen body 2 is one of an LED screen, an OLED screen, a laser projection screen or an LCD screen.

In the scheme, the method comprises the following steps: in this embodiment, the projection area adopts one of an LED screen, an OLED screen, a laser projection screen, or an LCD screen as the screen body 2 for playing the visual effect. The screen bodies 2 have different characteristics and application ranges and can be selected according to specific needs.

Specific: in this embodiment, the projection area employs different types of screen 2 as means for playing visual effects. The LED screen, OLED screen, laser projection screen or LCD screen etc. screen bodies 2 all have their own characteristics and principles. For example, the LED screen can provide high brightness, high contrast, and a wide viewing angle range by using a light emitting diode as a display unit; the OLED screen adopts an organic luminescent material as a display unit, and has the characteristics of high response speed, high color saturation and the like; the laser projection screen adopts a laser light source as a display source, and has the characteristics of high brightness, high contrast, wide color gamut and the like; the LCD screen adopts the liquid crystal display technology, and has the advantages of high response speed, low energy consumption and the like.

It will be appreciated that in this embodiment, different types of panels 2, such as LED panels, OLED panels, laser projection panels, or LCD panels, may be used, and may be selected according to actual requirements. The different types of screen bodies 2 have respective characteristics and advantages, can meet different viewing requirements, and improve the viewing experience of audiences.

The LED screen has the characteristics of high brightness, high contrast, wide viewing angle range and the like, and is suitable for an environment with higher indoor brightness;

the OLED screen has the characteristics of high response speed, high color saturation and the like, and is suitable for occasions needing to display details and high color reproducibility;

the laser projection screen has the characteristics of high brightness, high contrast, wide color gamut and the like, and is suitable for large places and occasions needing long-distance projection;

the LCD screen has the advantages of high response speed, low energy consumption and the like, and is suitable for occasions needing long-time operation, energy conservation and environmental protection. In general, this embodiment can provide a more diversified viewing experience by selecting different types of screen 2, meeting different viewing requirements.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the screen body 2 is one of a spherical screen, an annular screen or a curved screen.

Such as using stereoscopic projection or panoramic video, spherical or ring screens are employed based on projection zone designs to provide more realistic effects.

In the scheme, the method comprises the following steps: in this embodiment, the projection area adopts one of a spherical screen, a ring screen, or a curved screen as the screen body 2 for playing the visual effect. These panels 2 have a non-planar shape, which can provide a more realistic viewing effect.

Specific: in this embodiment, the projection area employs a non-planar screen such as a spherical screen, a ring-shaped screen, or a curved screen as a means for playing visual effects. These screens have non-planar shapes that can provide a more realistic viewing effect. For example, a spherical screen may cover the viewing area on a sphere surface, providing an omnidirectional projection effect; the annular screen can cover the observation area on an annular screen to provide a surrounding projection effect; the curved screen can cover the viewing area on a curved surface to provide a more natural visual effect.

It will be appreciated that in this embodiment, a non-planar screen such as a spherical screen, a toroidal screen, or a curved screen may be used to provide a more realistic viewing effect. These screens can overlay the projection effect on a non-planar surface of the viewing area so that the viewer can perceive a more realistic projection effect.

For example, a spherical screen may provide an omnidirectional visual effect such that a viewer experiences an immersive viewing experience;

for example, the annular screen may provide a wrap-around projection effect such that a viewer perceives a sensation of being in the projection environment;

by way of example, curved screens may provide a more natural visual effect such that a viewer experiences a more realistic projection effect. In general, the embodiment provides more realistic and natural viewing effects for viewers by adopting a non-planar screen such as a spherical screen, a ring-shaped screen or a curved screen, and the like, thereby improving viewing experience.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the gallery bridge 3 is convex and fully overlaps the projection area in the top projection view.

From a projection perspective, the gallery 3 of the viewing area should be centered in the projection area and should cover as much of the field of view of the entire projection area as possible to ensure that the viewer is fully immersed in the visual experience. When the house 1 is designed, the gallery bridge 3 is convex and fully overlapped with the projection area, so that light refraction and interference are reduced to the greatest extent.

In the scheme, the method comprises the following steps: in this embodiment, the corridor bridge 3 of the viewing area is convex and fully overlaps the projection area, and the corridor bridge 3 is located in the center of the projection area as viewed from the projection perspective and covers the field of view of the entire projection area as much as possible.

Specific: in this embodiment, the gallery bridge 3 of the viewing area is convex and fully overlaps the projection area, mainly to reduce light refraction and interference, thereby improving the fidelity of the viewing experience. When light passes through the gallery 3, refraction and reflection phenomena occur, and if the shape and position of the gallery 3 are not appropriate, the projection effect and viewing experience may be affected. Therefore, when designing the house 1, the gallery bridge 3 with a convex shape should be adopted to fully overlap with the projection area and cover the field of view of the whole projection area as much as possible, so as to minimize light refraction and interference, and thus improve the fidelity of the viewing effect.

It will be appreciated that in this embodiment, the convex gallery 3 is used to fully overlap the projection area and to cover the field of view of the entire projection area as much as possible, so as to minimize light refraction and interference, and thereby improve the fidelity of the viewing effect. By designing the gallery bridge 3 to be convex and to be fully superimposed with the projection area, it can be made as integral as possible with the projection area, reducing unnecessary visual disturbances and enabling the viewer to be more immersed in the visual experience. The design can not only improve the viewing experience of the audience, but also improve the fidelity of the projection effect, so that the audience can more truly feel the projection effect. In a word, this embodiment through taking the form of convex gallery bridge 3 and projection district and all overlapping, furthest reduces light refraction and interference, has improved the fidelity of ornamental experience.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the viewing area further includes:

a platform 4 for carrying people arranged behind the corridor bridge 3;

the platform 4 is designed for shaking and clapping the platform 4, and a user who is not viewing a full image can stand on the platform 4 for photographing.

In the scheme, the method comprises the following steps: in this embodiment the viewing area comprises not only a corridor bridge 3 for carrying persons, but also a platform 4 provided behind the corridor bridge 3. The platform 4 is designed for shaking and clapping the platform 4, and a user who is not viewing a full image can stand on the platform 4 to take a photograph.

Specific: in this embodiment, the purpose of the platform 4 is to provide a shake-up platform 4 for non-full-view users in the viewing area, so that it can take pictures without disturbing the view. The location and design of the platform 4 should take into account the overall layout of the viewing area and the viewing experience of the viewer. In general, the platform 4 should be located behind the gallery bridge 3 and should be designed to shake the platform 4 so as not to interfere with other viewers viewing the film when taking a photograph.

It will be appreciated that in this embodiment, the platform 4 is designed to provide a shake-up platform 4 for non-full viewing users in the viewing area, so that it can take pictures without disturbing the viewing. The platform 4 should be designed to take into account the overall layout of the viewing area and the viewing experience of the viewer so that it does not interfere with other viewers viewing the video. By designing the platform 4 to shake the platform 4, a relatively stable photographing environment can be provided, so that a photographer can obtain a better photographing effect. Meanwhile, due to the design of the platform 4, the whole viewer in the viewing area can concentrate on viewing the video more, and the quality and experience of viewing the video are improved. In summary, in this embodiment, the platform 4 is designed to improve the overall functionality and fidelity of the viewing area, providing a better viewing experience for the viewer.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the inside of the house body 1 is provided with:

and a functional component 5 for regulating indoor temperature and volume.

In the scheme, the method comprises the following steps: in this embodiment, a functional unit 5 for controlling the indoor temperature and volume is provided inside the house 1.

Specific: in this embodiment, the functional module 5 mainly plays a role in adjusting the indoor temperature and volume. In order to ensure the comfort and viewing effect of the viewing area, some appropriate functional components 5 should be installed inside the house 1 to adjust the indoor temperature and volume. For example, an air conditioning system, an audio system, and the like may be installed so that a viewer can maintain a comfortable indoor temperature and a proper volume while viewing a movie. In addition, the functional component 5 may also include other types of devices, such as lighting devices, air cleaners, etc., to improve the quality and comfort of viewing.

It will be appreciated that in this embodiment, the functional component 5 is primarily used to adjust the indoor temperature and volume to improve the comfort and quality of viewing. By installing the air conditioning system, the sound system and other equipment, a comfortable film watching environment can be provided for the audience, so that a film viewer can pay more attention to film watching, and the fidelity of film watching effect is improved. In addition, other types of equipment, such as lighting equipment, air purifiers and the like, can also improve the quality and the comfort level of the video, and provide a more comfortable, healthy and safe video watching environment for a video viewer. In summary, the functional component 5 in this embodiment has important functionality, and can provide a more comfortable and high-quality viewing environment for the viewer, and improve the fidelity and quality of the viewing.

In some embodiments of the present utility model, please refer to fig. 3-5 in combination: the functional component 5 comprises:

sound equipment uniformly arranged in the room body 1;

the air conditioner and the air outlet are uniformly arranged in the room body 1.

The functional component 5 further comprises:

an electric cabinet with a control panel is provided.

The electric cabinet is internally provided with control buttons of all electric elements in the house body 1, a memory for storing video files and a controller for controlling.

In the scheme, the method comprises the following steps: in this embodiment, the functional module 5 includes a sound box, an air conditioner, and an air outlet, which are uniformly installed in the house 1, and an electric cabinet provided with a control panel.

Specific: in this embodiment, a sound, an air conditioner, and an air outlet are main devices for adjusting the volume and temperature of the room. By being uniformly mounted within the housing 1, these devices can cover the entire viewing area, providing comfort to the viewer in terms of volume and temperature. Meanwhile, the electric cabinet is used as a control center of the equipment, stores control buttons of all electric elements, and is provided with a memory for storing video and audio files and a controller for controlling so as to provide more convenient control.

It will be appreciated that in this embodiment, the sound, air conditioner and air outlet are the main devices for adjusting indoor volume and temperature, which can provide a comfortable viewing environment and better viewing experience for the audience. By being uniformly mounted within the house 1, these devices can cover the entire viewing area, enabling the viewer to view in a comfortable environment. Meanwhile, the electric cabinet is used as a control center of the equipment, and can provide more convenient control. Through the control button of all electrical components of storage to be equipped with the memory of storage audio-visual file and be used for the controller of control, the electric cabinet can provide a simple, easy control panel, makes equipment such as sound equipment, air conditioner and air exit can be conveniently controlled to the viewer, further improves the comfort level and the quality of viewing. In summary, the functional component 5 in this embodiment can provide a more comfortable and high-quality viewing environment, and provide a better viewing experience for the viewer.

In the scheme, all electric elements of the whole device are powered by mains supply; specifically, the electric elements of the whole device are in conventional electrical connection with the commercial power output port through the relay, the transformer, the button panel and other devices, so that the energy supply requirements of all the electric elements of the device are met.

Summarizing, based on the defects of the conventional technology, the general solution principle and the scheme of the embodiment are as follows:

(1) Problem of restriction of viewing angle of audience: in the technology provided by the embodiment, the audience can stand on the gallery bridge 3 to hang in the air for watching, so that more lifelike watching experience is obtained. In addition, the spherical screen or the annular screen and other technologies provided by the embodiment can also enable the audience to watch the performance from different angles, so that the limitation of the viewing angle of the audience in the traditional technology is broken. The technology is realized by adopting a spherical screen or a ring screen and other multi-angle projection technologies, and can provide more viewing angles and choices, thereby enhancing the participation and immersion of the audience.

(2) Limiting problems of screen shape and size: in conventional suspended theatre technology, the screen is typically of a fixed shape and size, which can place certain restrictions on the originality and effect of the presentation. In the technology provided by the specific embodiment, the curved screen and other technologies are adopted, and the shape and the size of the screen can be adjusted according to the performance requirements so as to adapt to different performance creatives and requirements. The technology is realized by adopting a flexible curved surface screen and an adjustable screen size, can meet different performance requirements and creative, and provides more vivid and flexible viewing effect.

(3) Insufficient problems of sound and lighting systems: in conventional suspended theatre technology, sound and lighting systems often fail to provide adequate realism and comfort, affecting the experience of the audience. In the technology provided in this embodiment, the functional components 5 such as the sound, the air conditioner and the air outlet are uniformly installed in the room body 1, so that a more comfortable and high-quality viewing environment can be provided, and the participation and immersion of the audience are enhanced. The technology provides a comfortable viewing environment for the audience by uniformly installing equipment such as sound equipment, an air conditioner, an air outlet and the like, thereby improving the comfort and quality of viewing.

The technical features of the above-described embodiments may be combined in any manner, and for brevity, all of the possible combinations of the technical features of the above-described embodiments may not be described, however, they should be considered as the scope of the present description as long as there is no contradiction between the combinations of the technical features.

Examples

In order to make the above-described embodiments of the present utility model more comprehensible, embodiments accompanied with the present utility model are described in detail by way of example. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, so that the utility model is not limited to the embodiments disclosed below.

The present embodiment is based on the relevant principles described in the above detailed description, where exemplary applications are:

s1, enabling audiences to enter a suspension theatre, and enabling the audiences to reach an entrance of a viewing area after security inspection and ticket checking.

S2, enabling the audience to enter the viewing area, and enabling the audience to walk on the suspended corridor bridge 3 according to the direction of the staff to enter the viewing area.

S3, the audience walks to the center of the corridor bridge 3, can see the curved surface screen in front of the corridor bridge, and plays high-tech performances in the projection area.

S4, the audience can freely walk on the gallery bridge 3, and also can sit on the convex surface of the gallery bridge 3 to watch the performance. The sound effect of the performance is played through the sound equipment uniformly distributed in the house body 1, so that the audience can feel vivid surround sound.

And S5, in the performance process, the audience can use the control panel to adjust parameters such as volume, brightness and the like so as to obtain more comfortable and personalized film watching experience.

And S6, after the performance is finished, the audience can walk back to the entrance of the movie area from the corridor bridge 3 according to the direction of the staff and orderly leave the suspended theatre.

As can be seen from this scenario, using the techniques provided by the present embodiments, viewing a high-tech show in a suspended theatre has the following advantages:

(1) The audience can freely walk on the suspended corridor bridge 3, and can watch the performance from different angles, thereby increasing the participation and immersion of the audience.

(2) By adopting the curved surface screen and other technologies, more vivid and flexible viewing effect can be provided, and the immersion of the audience is further increased.

(4) The adoption of the control panel and other functional components 5 can provide more comfortable and personalized viewing experience, so that the audience can obtain more control and autonomy in the viewing process.

In summary, using the provided technology, viewing high-tech shows in a suspension theatre can provide a more realistic, comfortable and personalized viewing experience with high innovativeness and practicability.

The above examples merely illustrate embodiments of the utility model that are specific and detailed for the relevant practical applications, but are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A glass gallery bridge suspension theatre comprising:

the house comprises a house body (1), wherein the house body (1) is internally divided into a viewing area and a projection area; the viewing area is suspended, and:

a screen body (2) which is arranged on all surfaces of the projection area in the house body (1);

under the top projection view angle, the projection of the observation area is fully overlapped, semi-overlapped or not overlapped with the projection area;

the size and shape of the front and rear projection objects are unchanged in the projection connection relation of any point of the observation area relative to any point or surface of the screen body (2).

2. The glass gallery bridge suspension theatre of claim 1, wherein: the viewing area includes:

a gallery bridge (3) for carrying people, the gallery bridge (3) being made of a transparent material;

and under the top projection view angle, the gallery bridge (3) is fully overlapped with the projection area.

3. The glass gallery bridge suspension theatre of claim 2, wherein: the projection area comprises a screen body (2) which is arranged on the inner side wall surface of the house body (1) and used for playing visual effects, and all the screen bodies (2) surround the area which forms a closed or semi-closed area in the observation area.

4. A glass gallery bridge suspension theatre according to claim 3, characterized in that: the screen body (2) is one of an LED screen, an OLED screen, a laser projection screen or an LCD screen.

5. The glass gallery bridge suspension theatre of claim 4, wherein: the screen body (2) is one of a spherical screen, an annular screen or a curved screen.

6. The glass gallery bridge suspension theatre of any one of claims 2-5, wherein: and under the top projection view angle, the gallery bridge (3) is in a convex shape and is fully overlapped with the projection area.

7. The glass gallery bridge suspension theatre of claim 6, wherein: the viewing area further includes:

and the platform (4) is arranged behind the gallery bridge (3) and used for carrying people.

8. The glass gallery bridge suspension theatre of claim 6, wherein: the inside of the house body (1) is provided with:

and the functional component (5) is used for regulating and controlling indoor temperature and volume.

9. The glass gallery bridge suspension theatre of claim 8, wherein: the functional component (5) comprises:

sound equipment uniformly arranged in the room body (1);

the air conditioner and the air outlet are uniformly arranged in the room body (1).

10. The glass gallery bridge suspension theatre of claim 9, wherein: the functional component (5) further comprises:

an electric cabinet with a control panel is provided.