CN213904773U - 720-degree inner spherical immersion type display device - Google Patents
720-degree inner spherical immersion type display device Download PDFInfo
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- CN213904773U CN213904773U CN202022166042.6U CN202022166042U CN213904773U CN 213904773 U CN213904773 U CN 213904773U CN 202022166042 U CN202022166042 U CN 202022166042U CN 213904773 U CN213904773 U CN 213904773U
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Abstract
The utility model discloses a 720-degree inner spherical immersion type display device, which comprises an inner spherical frame structure, a plurality of display modules arranged on the frame structure, a signal receiving and transmitting module, a control module and a power supply module; the edges of adjacent display modules are spliced into 720 degrees; each display module is electrically connected with the control module through a signal transceiving module; each display module comprises a plurality of unit box bodies, and power supply ends of the unit box bodies are connected with the power supply module; and the display module is also provided with a transparent film viewing bridge. The utility model discloses a polyhedron picture fuses equipment is used for exporting each display module's image to control module and carries out the image fusion processing, and the seamless concatenation of sight institute and picture becomes a whole, brings good sight experience, and the structure is succinct, firm, the dismouting and the maintenance of being convenient for, and stability is strong, and the reliability is high.
Description
Technical Field
The utility model relates to a display device technical field, in particular to spherical immersive display device in 720 degrees.
Background
In recent years, immersive display items have become hot. The emerging artistic form combining multi-domain links is popular with the people by virtue of the amazing expression effect and the extraordinary experience brought to participants, and attracts high attention in the industry. The immersive exhibition is open and ubiquitous in China, and brings a casual experience for audiences. Artists have actively applied new technologies around to works, creating unprecedented immersive experiences, with more direct interaction and conversation between the works and participants.
In the existing immersive experience scene display application, the following disadvantages exist: most of the application display scenes are single, the display surface experienced by people in the so-called immersive scene is mostly composed of a single ground, peripheral wall surfaces, a ceiling or the ground, or a closed environment formed by splicing a plurality of pieces of combined hardware, even if the closed environment formed by splicing the surfaces is formed by splicing the independent surfaces, and the pictures of the surfaces are connected singly; the immersive experience of the space image quality formed by the single display surface and the rigid splicing can not generate perfect immersive experience feeling all the time. The problems that an immersive display scene experiences a single scene and pictures are not connected are solved. There is a need to develop a new immersive display scene experience apparatus. Accordingly, the prior art is deficient and needs improvement.
SUMMERY OF THE UTILITY MODEL
To the problem that prior art exists, the utility model provides a 720 spherical immersive display device in degree.
In order to achieve the above purpose, the utility model discloses technical scheme as follows:
a720-degree inner spherical immersion type display device comprises an inner spherical frame structure, a plurality of display modules arranged on the frame structure, a signal transceiving module, a control module and a power supply module; the edges of adjacent display modules are spliced into 720 degrees; each display module is electrically connected with the control module through a signal transceiving module; each display module comprises a plurality of unit box bodies, and power supply ends of the unit box bodies are connected with the power supply module; and the display module is also provided with a transparent film viewing bridge.
Further, a plurality of the display modules are equally divided on the inner spherical frame structure, and the plurality of display modules comprise: the display device comprises an A-surface display module, a B-surface display module, a C-surface display module, a D-surface display module, an E-surface display module and an F-surface display module; the frame structure comprises a plurality of arc-shaped frames which are parallel to the B-surface display module, and two sides of the unit box body of the A-surface display module, the C-surface display module, the D-surface display module, the E-surface display module and the F-surface display module are arranged on the two adjacent arc-shaped frames.
Furthermore, the arc-shaped frame where the B-side display module is located is provided with a plurality of longitudinal vertical rods, and two sides of the unit box body of the B-side display module are arranged on two adjacent longitudinal vertical rods and can be adjusted in front and back distance.
Further, the signal transceiving module includes: the system comprises polyhedral picture fusion equipment, a splicer and a plurality of signal sending cards; the output end of the control module is connected with polyhedral picture fusion equipment, the output end of the polyhedral picture fusion equipment is connected with a splicer, and the splicer is connected with a plurality of signal sending cards respectively; each display module is internally provided with a first receiving card, and each signal sending card is connected with a first receiving card.
Furthermore, the control module is a main control computer, the output end of the main control computer is connected with a sending card, and the sending card is also connected with an independent display card in the main control computer through a serial port line.
Further, the back of the unit box body is fixed on the inner side of the frame structure through bolts, the front of the unit box body is provided with an LED lamp module, the back of the unit box body is provided with two box body back doors, a power module, a second receiving card and a cooling fan are arranged in the box body, and ventilation openings are formed in the positions, corresponding to the cooling fan, of the box body back doors.
Furthermore, a transparent film viewing bridge is arranged on the ground display module.
Furthermore, set up AR on the transparent film watching bridge and experience control terminal, each display module still all experiences with AR and controls terminal electric connection
Further, the power supply module is selected from a power distribution cabinet.
Adopt the technical scheme of the utility model, following beneficial effect has: the utility model discloses a polyhedron picture fuses equipment is used for exporting six display module's image to control module and carries out the image fusion processing to make the image that shows on six display module be the image that links up, rather than independent image separately. The stereoscopic film can enter the immersive space from the side opening of the cubic frame structure, the sight and the picture are seamlessly spliced into a whole, and good film watching experience is brought. The utility model discloses the structure is succinct, firm, the dismouting and the maintenance of being convenient for, and stability is strong, and the reliability is high.
Drawings
Fig. 1 is an axial view of the present invention;
FIG. 2 is an enlarged view of the arcuate frame;
FIG. 3 is a schematic view of the position of the film viewing bridge;
FIG. 4 is a schematic diagram of the power supply system of the present invention;
fig. 5 is a schematic diagram of signal transceiving of a single display module according to the present invention;
fig. 6 is a schematic structural diagram of the whole signal transceiver module;
FIG. 7 is a top view of the control terminal in the viewing area;
FIG. 8 is an axial view of the viewing area manipulation terminal;
FIG. 9 is a schematic diagram of a control terminal (or control interface) showing a 6-plane display module before movement;
fig. 10 is a schematic diagram of the mobile 6-plane display module displayed on the control terminal (or control interface).
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments.
Referring to fig. 1 to 10, the utility model provides a spherical display device in 720 degrees, including enclosing into spherical frame construction in 720 degrees, six faces in the inboard of whole frame construction are equipped with a display module respectively, and adjacent display module's edge splices each other.
As an embodiment, the 720-degree inner spherical frame structure is in the form of an opening on one side; the six display modules comprise an A-surface display module 22, a B-surface display module 23, a C-surface display module 24, a D-surface display module 21, an E-surface display module 25 and an F-surface display module 26; the frame structure enters from an opening on one side of the 720-degree inner spherical frame structure, faces the B-plane display module 23, and is provided with an A-plane display module 22 and a C-plane display module 24 on two sides, an F-plane display module 26 under feet and an E-plane display module 25 at the top of head; the F-plane display module 26 is provided with a transparent film viewing bridge 3.
The frame structure comprises a plurality of arc-shaped frames 11 which are arranged in parallel to a B-surface display module 23, and two sides of a unit box body 201 of an A-surface display module 22, a C-surface display module 24, a D-surface display module 21, an E-surface display module 25 and an F-surface display module 26 are respectively arranged on two adjacent arc-shaped frames 11 through bolts; the installation mode of the arc-shaped frames 11 shares the weight of each unit box body on the two adjacent arc-shaped frames 11, and the two adjacent arc-shaped frames 11 are connected through the unit box body 201.
A plurality of longitudinal vertical rods are arranged on the arc-shaped frame 11 where the B-side display module 23 is located, and two sides of the unit box 201 of the B-side display module 23 are respectively arranged on two adjacent longitudinal vertical rods through bolts; the back of the unit box 201 module is fixed on the inner side of the frame structure through bolts, and the front of the unit box 201 is provided with an LED lamp module.
It should be noted that the extending surfaces of the side of the LED lamp module on the a-side display module 22 and the C-side display module 24 are respectively connected to two adjacent surfaces of the B-side display module 23; the extending surfaces above the LED lamp modules on the B-surface display module 23, the A-surface display module 22 and the C-surface display module 24 are respectively connected with three adjacent surfaces of the top surface display module 25; the extending surfaces below the LED lamp modules on the B-surface display module 23, the A-surface display module 22 and the C-surface display module 24 are respectively connected with three adjacent surfaces of the F-surface display module 26; the extension surfaces below the LED lamp modules on the D-surface display module 21, the A-surface display module 22 and the C-surface display module 24 are respectively connected with three adjacent surfaces of the F-surface display module 26; due to the structural design, a viewer standing on the transparent viewing bridge 3 can not see the connecting gaps among the display modules, and meanwhile, the terminal (or the control interface) can be controlled to experience the interchange of various scenes and the interaction of various AR scenes, so that the display bridge has better viewing experience.
The back of the unit box body 201 is provided with a box body back door, and after two sides of the back of the unit box body 201 are installed on the frame structure through bolts, the box body back door can still be flexibly opened and closed, so that the inside of the unit box body 201 can be conveniently overhauled; a positioning column is arranged above the unit box body 201, a corresponding positioning hole is arranged below the unit box body 201, and the upper unit box body 201 and the lower unit box body 201 are positioned through the positioning column and the positioning hole, so that the unit box bodies 201 in the display module are smoothly installed; a power supply module, a second receiving card and a cooling fan are arranged in the box body, and corresponding wiring ports are formed in the side wall of the box body; after the unit box bodies 201 in a certain display module are spliced, the power supply module, the second receiving card and the cooling fan in each unit box body 201 are respectively connected through cables, and it is worth integrating that the cables pass through the wires from the side walls of the unit box bodies 201, so that the attractiveness of the appearance of the rear surface of the display module is guaranteed, and potential safety hazards caused by the exposure of the cables can be reduced; a ventilation opening is formed in the position, corresponding to the heat dissipation fan, of the rear door of the box body; and a shutter is arranged on the rear door of the box body and used for ventilating and radiating the box body units, so that independent radiation of each unit box body 201 is realized.
The six display modules are electrically connected with a control module through signal transceiving modules respectively; each display module comprises a plurality of unit box bodies 201, and the power supply end of each unit box body 201 is connected to a power distribution cabinet through a wire; the switch board is the complete equipment of equipment such as concentrated installation switch, instrument, and its main effect is categorised configuration power, with display module's distribution centralized management, still disposes this circuit protection equipment in the switch board, and when the circuit goes wrong, these circuit protection equipment can in time outage, guarantee to reduce the loss to minimum.
The signal transceiving module includes: the device comprises polyhedral picture fusion equipment, a splicer and six signal sending cards; the output end of the control module is connected with polyhedral picture fusion equipment, the output end of the polyhedral picture fusion equipment is connected with splicers, and the splicers are respectively connected with signal sending cards of six surfaces; a first receiving card is arranged in each display module, and the signal transmitting cards of the six surfaces are respectively in network connection with the first receiving cards in the six display modules; the polyhedral picture fusion device is used for carrying out image fusion processing on the images output to the six display modules by the control module, so that the images displayed on the six display modules are coherent images instead of independent images.
As an embodiment, the control module is a main control computer, the output end of the main control computer is connected to a sending card through a high-definition digital signal line, and the sending card is also connected with an independent display card of the main control computer through a serial port line; the control module can be connected with a single display module through a network, and the sending card can be directly connected with the first receiving card in the display module through a network cable, so that single-screen display control is realized.
To sum up, the utility model provides a spherical immersive display device in 720 degrees contains spherical display module in A face display module, B face display module, C face display module, D face display module, E face display module and the six of F face display module, be equipped with transparent sight shadow bridge on the F face display module (see shadow district set up one control terminal (or control the interface) control terminal and every face and pass through near field communication and be connected). In entering the immersive space from the side opening of interior spherical frame structure, sight and picture seamless concatenation become a whole, bring good sight experience. The utility model discloses the structure is succinct, firm, the dismouting and the maintenance of being convenient for, and stability is strong, and the reliability is high.
The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.
Claims (7)
1. A720-degree inner spherical immersion type display device is characterized by comprising an inner spherical frame structure, a plurality of display modules arranged on the frame structure, a signal transceiving module, a control module and a power supply module; the edges of adjacent display modules are spliced into 720 degrees; each display module is electrically connected with the control module through a signal transceiving module; each display module comprises a plurality of unit box bodies, and power supply ends of the unit box bodies are connected with the power supply module; the display module is also provided with a transparent film watching bridge; the transparent film watching bridge is also provided with an AR experience control terminal, and each display module is also electrically connected with the AR experience control terminal; the display modules comprise an F-surface display module, and the transparent film watching bridge is arranged on the F-surface display module.
2. The 720 degree intra-spherical immersive display device of claim 1, wherein a plurality of said display modules are equally spaced on an intra-spherical frame structure, the plurality of display modules further comprising: the display device comprises an A-side display module, a B-side display module, a C-side display module, a D-side display module and an E-side display module; the frame structure comprises a plurality of arc-shaped frames which are parallel to the B-surface display module, and two sides of the unit box body of the A-surface display module, the C-surface display module, the D-surface display module, the E-surface display module and the F-surface display module are arranged on the two adjacent arc-shaped frames.
3. The 720-degree inward spherical immersive display device of claim 2, wherein the arc-shaped frame of the B-side display module is provided with a plurality of longitudinal vertical rods, and two sides of the unit box of the B-side display module are provided with two adjacent longitudinal vertical rods, and the front and back distances of the unit box can be adjusted.
4. The 720-degree intra-spherical immersive display device of claim 1, wherein the signal transceiving module comprises: the system comprises polyhedral picture fusion equipment, a splicer and a plurality of signal sending cards; the output end of the control module is connected with polyhedral picture fusion equipment, the output end of the polyhedral picture fusion equipment is connected with a splicer, and the splicer is connected with a plurality of signal sending cards respectively; each display module is internally provided with a first receiving card, and each signal sending card is connected with a first receiving card.
5. The spherical immersive display device of claim 1, wherein the control module is a host computer, an output of the host computer is connected to a transmitter card, and the transmitter card is further connected to a separate display card in the host computer via a serial line.
6. The 720-degree inward spherical immersive display device of claim 1, wherein the back surface of the unit box is fixed to the inside of the frame structure through bolts, the front surface of the unit box is provided with the LED lamp module, the back surface of the unit box is provided with two box back doors, the box is provided with the power module, the second receiving card and the heat dissipation fan, and the box back doors are provided with ventilation openings at positions corresponding to the heat dissipation fan.
7. The 720-degree intra-spherical immersive display device of claim 1, wherein the power supply modules are selected from power distribution cabinets.
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CN202022166042.6U CN213904773U (en) | 2020-09-27 | 2020-09-27 | 720-degree inner spherical immersion type display device |
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CN202022166042.6U CN213904773U (en) | 2020-09-27 | 2020-09-27 | 720-degree inner spherical immersion type display device |
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