CN205050103U - Intelligence center control system of digital exhibition hall - Google Patents
Intelligence center control system of digital exhibition hall Download PDFInfo
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- CN205050103U CN205050103U CN201520810310.XU CN201520810310U CN205050103U CN 205050103 U CN205050103 U CN 205050103U CN 201520810310 U CN201520810310 U CN 201520810310U CN 205050103 U CN205050103 U CN 205050103U
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Abstract
The utility model discloses an intelligence center control system of digital exhibition hall, including the HDMI video matrix switch that fuses the mosaicing processing ware and connect rather than the input, DVI matrix switch, it is connected with the projector to fuse mosaicing processing ware output, the HDMI video matrix switch respectively with the player, the camera is connected, DVI matrix switch passes through VGA commentaries on classics DVI converter and is connected with desktop computer and notebook computer respectively, it still is connected with the switch to fuse the mosaicing processing ware, the switch input links to each other with SAC centralized control system host computer, SAC centralized control system host computer input shows the ware with touch screen display respectively, the keyboard, mouse links to each other, SAC centralized control system host computer is still through serial ports bus and HDMI video matrix switch, DVI matrix switch and projector connect. The utility model discloses can provide high graphics, not have the optics piece again, convenient operation, the function is various, and the flexibility is good, and display quality is high.
Description
Technical field
The utility model relates to image display technology field, particularly relates to a kind of digital museum intelligence central control system.
Background technology
Existing large screen display adopts following two kinds of modes to realize usually: the first is the rear-projection DLP (DigitalLightProcession using single high brightness to export, digital light process) projection light machine shields projection screen (as 100 cun before casing, 150 cun) on carry out projection and go out a complete display image, this method generally uses wide angle projection ray machine, but pixel is less, brightness is also difficult to ensure, the image ratio of large screen display picture is more smudgy clear, namely resolution is lower, generally can only be applied to the application scenarios of some viewing distances far away a little, the second adopts optics to fight recklessly the display packing connect, namely adopt multiple unit to show casing to carry out fighting recklessly connecing according to respective picture ratio, each unit display casing all carries a projection light machine, the image border of the projected picture of each projection light machine is mutually connected, get together closely between image, thus the display frame that formation one is complete, this implementation method can provide higher resolution for whole display giant-screen picture, due to the optical characteristics of Fresnel optical screen itself, the homogeneity making projection light machine project giant-screen light is improved, but in physical construction, there is optics piece during unit display casing superposition, although the raising of manufacturing process makes optics piece more and more less, but optics piece is still obvious under visual condition.
Therefore, can provide high resolving power, there is not again the large screen display method of optics piece is following trend of the times.
Utility model content
Because the above-mentioned defect of prior art, technical problem to be solved in the utility model is to provide a kind of digital museum intelligence central control system, can provide high-definition picture, there is not optics piece again, easy to operate, diverse in function, dirigibility is good, and display quality is high.
For achieving the above object, the utility model provides a kind of digital museum intelligence central control system, it is characterized in that: the HDMI video matrix switcher comprising anastomosing and splicing processor and be connected with its input end, DVI matrix switcher, described anastomosing and splicing processor output terminal is connected with projector, described HDMI video matrix switcher input end respectively with player, video camera connects, described DVI matrix switcher input end turns DVI converter by VGA and is connected with desktop computer and notebook computer respectively, described anastomosing and splicing processor is also connected with switch, described switch input end is connected with SAC centralized control system main frame, described SAC centralized control system main frame input end respectively with touch-screen display, keyboard, mouse is connected, described SAC centralized control system main frame is also by serial bus and HDMI video matrix switcher, DVI matrix switcher is connected with projector.
Above-mentioned one digital museum intelligence central control system, is characterized in that: described anastomosing and splicing processor is connected by HDMI bus with HDMI video matrix switcher.
Above-mentioned a kind of digital museum intelligence central control system based on wireless network, is characterized in that: described anastomosing and splicing processor is connected by DVI bus with DVI matrix switcher.
Above-mentioned one digital museum intelligence central control system, is characterized in that: described VGA is turned DVI converter and is connected by VGA bus with notebook computer with desktop computer.
Above-mentioned one digital museum intelligence central control system, is characterized in that: described anastomosing and splicing processor is connected by netting twine with switch.
Above-mentioned one digital museum intelligence central control system, is characterized in that: described SAC centralized control system main frame is connected by VGA bus and USB line with touch-screen display.
Above-mentioned one digital museum intelligence central control system, is characterized in that: described projector is multiple stage.
Above-mentioned one digital museum intelligence central control system, it is characterized in that: described anastomosing and splicing processor is SYF type fusion treatment device, support 8 road RGB and 16 road PAL/NTSC vision signal inputs, the image co-registration processor of the vision signal that video matrix sends can also be supported.
The beneficial effects of the utility model are:
1, the utility model customizes according to user's request; As: the resolution of 2*1 passage is 2048*768, the resolution of 3*1 passage is 3072*768, the resolution of 2*2 passage is 2048*2048, and can be customized to according to different demand, the special-shaped curtain of the different shapings such as annular, ball-type, ellipse, all can reach good display effect by SYF fusion treatment device;
2, the utility model display unit can show comprehensive multi-screen figure and real-time video window, support unlimited video window resize-window, and can show on border, can drag, mobile and adjustment size, diverse in function;
3, the utility model can obtain high-quality graphics performance, carries out seamless fusion, provides the picture quality of high-quality;
4, the utility model can process and show 4 tunnels, 8 tunnels, 16 road NTSC or PAL composite video signal, and dirigibility is good;
5, each unit excellent performance of the utility model employing, intermodule function joining is good.
Be described further below with reference to the technique effect of accompanying drawing to design of the present utility model, concrete structure and generation, to understand the purpose of this utility model, characteristic sum effect fully.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Embodiment
As shown in Figure 1, a kind of digital museum intelligence central control system, it is characterized in that: the HDMI video matrix switcher 11 comprising anastomosing and splicing processor 1 and be connected with its input end, DVI matrix switcher 12, described anastomosing and splicing processor 1 output terminal is connected with projector 13, described HDMI video matrix switcher 11 input end respectively with player 2, video camera 3 connects, described DVI matrix switcher 12 input end turns DVI converter 14 by VGA and is connected with desktop computer 4 and notebook computer 5 respectively, described anastomosing and splicing processor 1 is also connected with switch 10, described switch 10 input end is connected with SAC centralized control system main frame 9, described SAC centralized control system main frame 9 input end respectively with touch-screen display 6, keyboard 7, mouse 8 is connected, described SAC centralized control system main frame 9 is also by serial bus and HDMI video matrix switcher 11, DVI matrix switcher 12 is connected with projector 13.
In the present embodiment, described anastomosing and splicing processor 1 is connected by HDMI bus with HDMI video matrix switcher 11.
In the present embodiment, described anastomosing and splicing processor 1 is connected by DVI bus with DVI matrix switcher 12.
In the present embodiment, described VGA is turned DVI converter 14 and is connected by VGA bus with notebook computer 5 with desktop computer 4.
In the present embodiment, described anastomosing and splicing processor 1 is connected by netting twine with switch 10.
In the present embodiment, described SAC centralized control system main frame 9 is connected by VGA bus and USB line with touch-screen display 6.
In the present embodiment, described projector 13 is multiple stage.
In the present embodiment, described anastomosing and splicing processor 1 is SYF type fusion treatment device, supports 8 road RGB and 16 road PAL/NTSC vision signal inputs, can also support the image co-registration processor of the vision signal that video matrix sends.
Particularly, systems main parts function is in detail as follows:
1. external input equipment and signal
SYF fusion treatment device adopts QWERTY keyboard and 3 key mouses as the input media of periphery, user uses these peripheral hardwares to carry out the repertoire of setting operation system, enclose device in addition to these, SYF fusion treatment device can be connected to the LAN (Local Area Network) of standard, lan interfaces ensures that being connected to remote work station can obtain communication at a high speed and data transmission, this network interface also can be used for the interface of remote control signal, connects the RJ45 connector that LAN (Local Area Network) uses the compatible TCP/IP standard of 10M or 100M.Twisted-pair feeder is used to be to obtain optimum communication, the Wifi wireless network of standard 802.11b/g agreement also can being used to connect.
2. video input process
SYF fusion treatment device supports 8 road RGB and 16 road PAL/NTSC vision signal inputs, the vision signal that video matrix sends can also be supported, Dynamic Selection in multiple video input is made to become possibility, vision signal outputs to display unit by processor with multiwindow form, and any compression, process can not be carried out to signal, never have the situation such as distorted signals, loss, and the vision signal of display can cover, and multiple display unit can show fast, copies, moves, convergent-divergent, automatically to show, manually stretch, and can preserve, call display mode.
3.SYF fusion treatment device
SYF fusion treatment device adopts optimized allocation of computer, use IntelPentium processor-server and the public slot hardware system of industrial standard PCI, the controllable screen number of parametric controller, main memory size, HDD hard-disk capacity and network according to user need install, the use of standardized element and interface is to obtain best cost solution and increasing the service life as much as possible.Communicate by physical network or wireless network, any PC or notebook can be undertaken managing, operate and debugging by codon pair processor.
4. projection screen
This element is display unit, when system merges for projecting, customizes according to user's request; As: the resolution of 2*1 passage is 2048*768, the resolution of 3*1 passage is 3072*768, the resolution of 2*2 passage is 2048*2048, and can be customized to according to different demand, the special-shaped curtain of the different shapings such as annular, ball-type, ellipse, all can reach good display effect by SYF fusion treatment device;
Key property and the service of native system are as follows:
L display unit can show comprehensive multi-screen figure and real-time video window;
The screen that l processor can control from 2,4,8 or maximum 16;
The total resolution of l system is the sum of the resolution of the display unit used;
L can obtain high-quality graphics performance, carries out seamless fusion and merges;
L can process and show 4 tunnels, 8 tunnels, 16 road NTSC or PAL composite video signal;
The video window convergent-divergent that l is unlimited, and window can show on border, can drag, mobile and adjustment size;
The Video service that l is special is such as linearly widened, static grid function and local scale;
Intel's Duo Processor that l is up-to-date and the public slot of PCI allocation-E;
L adopts dual processor, two video card, dual power supply and multiple network;
The most effective cost of l, industrial standard part and standard interface;
L adopts 19 " chassis assembling.
In addition, the utility model also provides following good service:
1, overlay screen scope
The project organization of SYF fusion treatment device is optimized, can control large projection wall.Overlay screen scope option can improve figure display quality, and overlay screen scope option makes on projection wall border, reduces the puzzlement that body weight is brought, and overlapping display information can become possibility.
2, channel function
Channel function prevents CRT projector or display from starting shooting (no signal) for a long time, if stable image covers a certain fixing part for a long time, this effect can be realized, the motion that channel function provides whole one, picture small, this motion can not be seen by user, but stable information displaying can be prevented in same point, and user can whole parameters of designed channel function.
3, arbitrary video scaling
Video processing ensures whole color and fortune video of all living clearly is presented to wall, multiple video window can show the information of each video channel simultaneously selected, the size of these video windows can be random mitigation and amplification, not restriction, thus in projection wall, user can amplify any video window to any size, and even a video input signals can be amplified in whole projection wall.
4, linearly double
Synthetic video signal adopts interleaved mode broadcasting pictures, SYF fusion treatment device built-in linear doubler can provide bright-coloured video pictures or even active signal fast, adopts two kinds of different linear doublers to obtain high-quality, clear picture here.
5, dual processor
The user of SYF fusion treatment device system can select dual processor option to control the work of two processors and obtain high performance service, and dual processor can ensure good arrangement task stroke and obtain high performance control on large screen.
6, multiple network control
Use multiple network control can increase the performance of system and the reliability of controller, arranged parallel network and obtain larger treatment capacity and more data volume; Processor can realize controlled in wireless by WIFI in addition.
7, dual power supply
The configuration of dual power supply is to guarantee to the independent power supply of controller, even if a power supply damages, another power supply also can provide power supply to controller, can Switching power during the operation of system.
In sum, digital museum of the present utility model intelligence central control system has the incomparable superiority of other image display systems, and can provide high-definition picture, there is not optics piece again, easy to operate, diverse in function, dirigibility is good, and display quality is high.
More than describe preferred embodiment of the present utility model in detail.Should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without the need to creative work.Therefore, all technician in the art according to design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should by the determined protection domain of claims.
Claims (8)
1. a digital museum intelligence central control system, it is characterized in that: the HDMI video matrix switcher (11) comprising anastomosing and splicing processor (1) and be connected with its input end, DVI matrix switcher (12), described anastomosing and splicing processor (1) output terminal is connected with projector (13), described HDMI video matrix switcher (11) input end respectively with player (2), video camera (3) connects, described DVI matrix switcher (12) input end turns DVI converter (14) by VGA and is connected with desktop computer (4) and notebook computer (5) respectively, described anastomosing and splicing processor (1) is also connected with switch (10), described switch (10) input end is connected with SAC centralized control system main frame (9), described SAC centralized control system main frame (9) input end respectively with touch-screen display (6), keyboard (7), mouse (8) is connected, described SAC centralized control system main frame (9) is also by serial bus and HDMI video matrix switcher (11), DVI matrix switcher (12) is connected with projector (13).
2. a kind of digital museum as claimed in claim 1 intelligence central control system, is characterized in that: described anastomosing and splicing processor (1) is connected by HDMI bus with HDMI video matrix switcher (11).
3. a kind of digital museum as claimed in claim 1 intelligence central control system, is characterized in that: described anastomosing and splicing processor (1) is connected by DVI bus with DVI matrix switcher (12).
4. a kind of digital museum as claimed in claim 1 intelligence central control system, is characterized in that: described VGA is turned DVI converter (14) and is connected by VGA bus with notebook computer (5) with desktop computer (4).
5. a kind of digital museum as claimed in claim 1 intelligence central control system, is characterized in that: described anastomosing and splicing processor (1) is connected by netting twine with switch (10).
6. a kind of digital museum as claimed in claim 1 intelligence central control system, is characterized in that: described SAC centralized control system main frame (9) is connected by VGA bus and USB line with touch-screen display (6).
7. a kind of digital museum as claimed in claim 1 intelligence central control system, is characterized in that: described projector (13) is multiple stage.
8. a kind of digital museum as claimed in claim 1 intelligence central control system, it is characterized in that: described anastomosing and splicing processor (1) is SYF type fusion treatment device, support 8 road RGB and 16 road PAL/NTSC vision signal inputs, the image co-registration processor of the vision signal that video matrix sends can also be supported.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108566522A (en) * | 2018-03-28 | 2018-09-21 | 中国船舶重工集团公司第七0九研究所 | A kind of multi-channel video director system and method |
CN111831261A (en) * | 2020-07-14 | 2020-10-27 | 上海光点信息科技有限公司 | Multimedia interactive development system |
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2015
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108566522A (en) * | 2018-03-28 | 2018-09-21 | 中国船舶重工集团公司第七0九研究所 | A kind of multi-channel video director system and method |
CN111831261A (en) * | 2020-07-14 | 2020-10-27 | 上海光点信息科技有限公司 | Multimedia interactive development system |
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