CN203405719U - Large-screen display system for electric power operation monitoring center - Google Patents
Large-screen display system for electric power operation monitoring center Download PDFInfo
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- CN203405719U CN203405719U CN201320526712.8U CN201320526712U CN203405719U CN 203405719 U CN203405719 U CN 203405719U CN 201320526712 U CN201320526712 U CN 201320526712U CN 203405719 U CN203405719 U CN 203405719U
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- 238000012544 monitoring process Methods 0.000 claims description 27
- 230000002452 interceptive effect Effects 0.000 claims description 26
- 230000000694 effects Effects 0.000 abstract description 4
- 230000003993 interaction Effects 0.000 abstract 2
- 230000002035 prolonged effect Effects 0.000 abstract 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
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Abstract
The utility model discloses a large-screen display system for an electric power operation monitoring center, and belongs to the electrical network field. The large-screen display system comprises a projector, a video matrix, a first graphic workstation, an electric power Intrannet local area network, a main screen control server, a main touch screen and an interaction host. The projector is connected with the video matrix, and the main screen control server is connected with the main touch screen. The large-screen display system also comprises a second graphic workstation, and the video matrix is connected with the first graphic workstation and the second graphic workstation. The first graphic workstation, the second graphic workstation, the interaction host and the main screen control server are connected with the electric power Intrannet local area network. The technical effect of the large-screen display system is that: the resolution of images on the main touch screen can be improved without the time that the system responds to control signals input from the main touch screen being prolonged.
Description
Technical field
The utility model relates to the large screen display system in a kind of electric power monitoring operation center in electrical network field.
Background technology
As shown in Figure 1, the current large screen display system in electric power monitoring operation center, comprise projector 1, video matrix 2, the first graphics workstation 31, electric power Intranet LAN (Local Area Network) 4, main screen Control Server 51, main touch-screen 61, and interactive main frame 7 and background server 8.Projector 1 connects video matrix 2, video matrix 2 connects the first graphics workstation 31, the first graphics workstation 31, main screen Control Server 51, interactive main frame 7 and background server 8 are connected by electric power Intranet LAN (Local Area Network) 4, and main screen Control Server 51 connects main touch-screen 61.Video matrix 2 is divided into two row four row totally eight projection module, be projection module A~H, each projection module connects the first graphics workstation 31 by a road DIV bus separately, and interactive main frame 7 is for controlling being communicated with and disconnection of eight road DIV buses between the first graphics workstation 31 and video matrix 2.The first graphics workstation 31 receives from the image in any number of projection module on video matrix 2 by DIV bus.And passing to main screen Control Server 51 by electric power Intranet LAN (Local Area Network) 4, main screen server 51 is presented at the image in any number of projection module on the video matrix of its reception 2 on main touch-screen 61.The effect of main touch-screen 61 is to receive external control signal and passes to interactive main frame 7, and interactive main frame 7 is controlled being communicated with and disconnection of eight road DIV buses between the first graphics workstations 31 and video matrix 2.
Such design, along with the expansion of electric power monitoring operation center by main touch-screen size in large screen display system, resolution for image on main touch-screen is had higher requirement, but the raising along with image resolution on main touch-screen, system extended the response time of the control signal of inputting from main touch-screen, and response speed is slack-off.
Utility model content
The purpose of this utility model is in order to overcome the deficiencies in the prior art, provide a kind of electric power monitoring operation center large screen display system, it can in resolution, not extend the response time of system to the control signal of inputting from main touch-screen at raising image on main touch-screen.
A kind of technical scheme that realizes above-mentioned purpose is: the large screen display system in a kind of electric power monitoring operation center, comprises projector, video matrix, the first graphics workstation, electric power Intranet LAN (Local Area Network), main screen Control Server, main touch-screen and interactive main frame; Described projector connects described video matrix, and described main screen Control Server connects described main touch-screen;
It also comprises second graph workstation, and described video matrix connects described the first graphics workstation and described second graph workstation simultaneously;
Described the first graphics workstation, described second graph workstation, described interactive main frame and described main screen Control Server are connected described electric power Intranet LAN (Local Area Network) simultaneously.
Further, this electric power monitoring operation center also comprises the first side screen Control Server, the second side screen Control Server, the first side touch-screen and the second side touch-screen with large screen display system; Described the first side touch-screen and described the second side touch-screen correspondence are positioned at the described main touch-screen left and right sides;
Described the first side screen Control Server is connected described electric power Intranet LAN (Local Area Network) with described the second side screen Control Server simultaneously;
Described the first side touch-screen connects described the first side screen Control Server; Described the second side touch-screen connects described the second side screen Control Server.
Further, between described main screen Control Server and described main touch-screen, between described the first side screen Control Server and described the first side touch-screen, between described the second side screen Control Server and described the second side touch-screen, all by VGA bus He Yi road, a road usb bus, connect.
Further, described the first graphics workstation, described second graph workstation, described interactive main frame, described main screen Control Server, described the first side screen Control Server and described the second side screen Control Server are all by electric power Intranet LAN (Local Area Network) described in gigabit twisted pair line connection.
Further, this electric power monitoring operation center also comprises background server with large screen display system, and described background server connects described electric power Intranet LAN (Local Area Network).
Further, between described video matrix and described the first graphics workstation, between described video matrix and described second graph workstation, all by maximum four road DIV buses, be connected.
Adopt the technical scheme of large screen display system for a kind of electric power monitoring operation of the present utility model center, increased the technical scheme of large screen display system for the electric power monitoring operation center of second graph workstation.Its technique effect is: it can in resolution, not extend the response time of system to the control signal of inputting from main touch-screen at raising image on main touch-screen.
Accompanying drawing explanation
Fig. 1 is the structural representation of large screen display system for a kind of electric power monitoring operation center of prior art.
The distribution plan of projection module on video matrix in large screen display system for Fig. 2 electric power monitoring operation center.
Fig. 3 is the structural representation of large screen display system for a kind of electric power monitoring operation of the present utility model center.
Embodiment
Refer to Fig. 2 and Fig. 3, inventor of the present utility model is in order to understand the technical solution of the utility model better, below by embodiment particularly, and is described in detail by reference to the accompanying drawings:
Refer to Fig. 3, the large screen display system in a kind of electric power monitoring operation center of the present utility model, comprise projector (barco) 1, video matrix 2, the first graphics workstation 31, second graph workstation 32, electric power Intranet LAN (Local Area Network) 4, main screen Control Server 51, the first side screen Control Server 52, the second side screen Control Server 53, main touch-screen 61, the first side touch-screen 62 and the second side touch-screen 63, and interactive main frame 7 and background server 8.Main touch-screen 61, the first side touch-screen 62 and the second side touch-screen 63 have formed electric power monitoring operation large-size screen monitors in large screen display system for center.
Projector 1 connects video matrix 2, and the image on projector 1 is projected on video matrix 2.Video matrix 2 is divided into two row four row, totally eight projection module, i.e. projection module A~H as shown in Figure 3.Video matrix 2 connects the first graphics workstation 31 and second graph workstation 32 simultaneously.
As shown in Figure 3, between video matrix 2 and the first graphics workstation 31, between video matrix 2 and second graph workstation 32, be all to connect by maximum four road DIV buses.Image in eight projection module on video matrix 2 is corresponding to a road DIV bus like this, passes to the first graphics workstation 31 or second graph workstation 32.Be that image in described eight projection module on video matrix 2 has taked the mode of transmitting along separate routes to pass to the first graphics workstation 31 or second graph workstation 32.
The first graphics workstation 31, second graph workstation 32, main screen Control Server 51, the first side screen Control Server 52, the second side screen Control Server 53, interactive main frame 7 and background server 8 are all by gigabit twisted pair line connection electric power Intranet LAN (Local Area Network) 4.
Main screen Control Server 51 connects main touch-screen 61, the first side screen Control Servers 52 and corresponding the first side touch-screen 62 and the second side touch-screen 63 that is positioned at main touch-screen 61 left and right sides that be connected of the second side screen Control Server 53.
Wherein, the effect of interactive main frame 7 is: the first, control the first graphics workstation 31, second graph workstation 32 being connected and disconnection by the DIV bus between DIV bus and each projection module in video matrix 2.The second, control being connected and disconnection of the first graphics workstation 31 and main screen Control Server 51.Control second graph workstation 32 and shield being connected and disconnection of Control Server 53 with main screen Control Server 51, the first side screen Control Server 52 or the second side.Above-mentioned operation can directly be carried out on interactive main frame 7.
Between main screen Control Server 51 and main touch-screen 61, between the first side screen Control Server 52 and the first side touch-screen 62, between the second side screen Control Server 53 and the second side touch-screen 63, all by VGA bus He Yi road, a road usb bus, connect.Wherein, VGA bus is lower row bus, the image that VGA bus receives main screen Control Server 51, the first side screen Control Server 52 and the second side screen Control Server 53, and correspondence is presented on main touch-screen 61, the first side touch-screen 62 and the second side touch-screen 63.
Usb bus is upper row bus, the control signal that main touch-screen 61 receives is by main screen Control Server 51, pass to interactive main frame 7, interactive main frame 7 is controlled the first graphics workstations 31 and second graph workstation 32 by being connected and disconnection between DIV bus and each projection module in video matrix 2; Control the first graphics workstation 31 by being connected and disconnection between electric power Intranet LAN (Local Area Network) 4 and main screen Control Server 51, control that second graph workstation 32 shields Control Server 52 by electric power Intranet LAN (Local Area Network) 4 with main screen Control Server 51, the first side or the second side is shielded being connected and disconnection between Control Server 53.
Control signal in the first side touch-screen 62 and the second side touch-screen 63 receptions, corresponding by the first side screen Control Server 52 and the second side screen Control Server 53, pass to interactive main frame 7, interactive main frame 7 is controlled second graph workstations 32 by being connected and disconnection between DIV bus and each projection module in video matrix 2; Control second graph workstation 32 and shield being connected and disconnection between Control Server 53 by electric power Intranet LAN (Local Area Network) 4 with main screen Control Server 51, the first side screen Control Server 52 or the second side.
By interactive main frame 7, realized the switching of carrying out image between main touch-screen 61, the first side touch-screen 62 and the second side touch-screen 63.
Such as, projection module A~C on video matrix 2 connects the first graphics workstation 31 by a road DIV bus separately, the first graphics workstation 31 is by electric power Intranet LAN (Local Area Network) 4, while being also communicated with being connected of main screen Control Server 51, on main touch-screen 61, shown the image on projection module A~C.If also will show the image on projection module D on main touch-screen 61, again by the DIV bus between projection module D and the first graphics workstation 1 on interactive main frame 7 connection video matrixs 2.If also will be on main touch-screen 61 image on projection module E and the image on projection module F on display video matrix 2, interactive main frame 7 is communicated with the DIV bus between projection module E and projection module F and second graph workstation 32 on video matrixs 2, and being connected between second graph workstation 32 and main screen Control Server 51.If will be by image transfer to the first side touch-screen 62 on the image on projection module E on main touch-screen 61 and projection module F, interactive main frame 7 disconnects being connected between second graph workstations 32 and main screen Control Server 51, is communicated with second graph workstation 32 and shields being connected between Control Server 52 with the first side.If also will be by image switching to the first side touch-screen 62 on projection module D, interactive main frame 7 disconnects the DIV bus between projection module D on the first graphics workstation 31 and video matrix 2, is communicated with the DIV bus between projection module D on second graph workstation 32 and video matrix 2.By interactive main frame 7, realized the first side touch-screen 62 of 21.5 inches of the main touch-screen 61 of 42 inches and both sides and the interlock between the second side touch-screen 63, avoided showing too much word and picture on main touch-screen 61.
Simultaneously, a kind of electric power monitoring operation of the present utility model center is with being also provided with background server 8 on large screen display system, and the parameter of 8 pairs of projector 1 of background server, video matrix 2, the first graphics workstation 31, second graph workstation 32, electric power Intranet LAN (Local Area Network) 4, main screen Control Server 51, the first side screen Control Server 52, the second side screen Control Server 53, main touch-screen 61, the first side touch-screen 62 and the second side touch-screen 63 arranges.
In this practicality, by having increased second graph workstation 32, so projector 1 can project higher-quality image on video matrix 2, thereby more high-resolution image is presented on the large-size screen monitors at electric power monitoring operation center.In the present embodiment, the first graphics workstation 31, second graph workstation 32 all adopt the main frame of HP Z800, are equipped with Matrox M9188 video card.Main screen Control Server 51, the first side screen Control Server 52, the second side screen Control Server 53 all adopt the main frame of Dell V260R-388, and interactive main frame 7 adopts the main frame of IBM x3650.In the utility model, on the main touch-screen 61 of 42 inches, the resolution 6400 * 1200 of image, and electric power monitoring operation center is only 10ms with large screen display system to the response time of the control signal from main touch-screen 61 inputs.Therefore the utility model is improving image on main touch-screen 61 in resolution, do not extend electric power monitoring operation center with large screen display system the response time to the control signal of inputting from main touch-screen 61.Guaranteed efficiency and the stability of large screen display system operation for whole electric power monitoring operation center.
Simultaneously, a kind of electric power monitoring operation of the present utility model center is with in large screen display system, between video matrix 2 and the first graphics workstation 31, the resolution of DIV bus is 1867 * 1500, and between video matrix 2 and second graph workstation 31, the resolution of DIV bus is 1400 * 1500.
Those of ordinary skill in the art will be appreciated that, above embodiment is only for the utility model is described, and be not used as restriction of the present utility model, as long as within the scope of connotation of the present utility model, to the variation of the above embodiment, modification, all will drop within the scope of claims of the present utility model.
Claims (6)
1. the large screen display system in electric power monitoring operation center, comprises projector, video matrix, the first graphics workstation, electric power Intrannet LAN (Local Area Network), main screen Control Server, main touch-screen and interactive main frame; Described projector connects described video matrix, and described main screen Control Server connects described main touch-screen; It is characterized in that:
It also comprises second graph workstation, and described video matrix connects described the first graphics workstation and described second graph workstation simultaneously;
Described the first graphics workstation, described second graph workstation, described interactive main frame and described main screen Control Server are connected described electric power Intrannet LAN (Local Area Network) simultaneously.
2. the large screen display system in a kind of electric power monitoring operation center according to claim 1, is characterized in that: it also comprises the first side screen Control Server, the second side screen Control Server, the first side touch-screen and the second side touch-screen; Described the first side touch-screen and described the second side touch-screen correspondence are positioned at the described main touch-screen left and right sides;
Described the first side screen Control Server is connected described electric power Intrannet LAN (Local Area Network) with described the second side screen Control Server simultaneously;
Described the first side touch-screen connects described the first side screen Control Server; Described the second side touch-screen connects described the second side screen Control Server.
3. the large screen display system in a kind of electric power monitoring operation center according to claim 2, it is characterized in that: between described main screen Control Server and described main touch-screen, between described the first side screen Control Server and described the first side touch-screen, between described the second side screen Control Server and described the second side touch-screen, all by VGA bus He Yi road, a road usb bus, connect.
4. the large screen display system in a kind of electric power monitoring operation center according to claim 2, is characterized in that: described the first graphics workstation, described second graph workstation, described interactive main frame, described main screen Control Server, described the first side screen Control Server and described the second side screen Control Server are all by electric power Intrannet LAN (Local Area Network) described in gigabit twisted pair line connection.
5. according to the large screen display system in a kind of electric power monitoring operation center described in any one in claim 1 to 4, it is characterized in that: it also comprises background server, described background server connects described electric power Intrannet LAN (Local Area Network).
6. according to the large screen display system in a kind of electric power monitoring operation center described in any one in claim 1 to 4, it is characterized in that: between described video matrix and described the first graphics workstation, between described video matrix and described second graph workstation, all by maximum four road DIV buses, be connected.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320526712.8U CN203405719U (en) | 2013-08-27 | 2013-08-27 | Large-screen display system for electric power operation monitoring center |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201320526712.8U CN203405719U (en) | 2013-08-27 | 2013-08-27 | Large-screen display system for electric power operation monitoring center |
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| Publication Number | Publication Date |
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| CN203405719U true CN203405719U (en) | 2014-01-22 |
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| CN201320526712.8U Expired - Lifetime CN203405719U (en) | 2013-08-27 | 2013-08-27 | Large-screen display system for electric power operation monitoring center |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103439945A (en) * | 2013-08-27 | 2013-12-11 | 国家电网公司 | Large-size screen displaying system for power operation monitoring center |
| CN104540027A (en) * | 2014-12-19 | 2015-04-22 | 北京正文科技有限公司 | Multimedia display interaction control system under multi-screen environment |
| CN105205593A (en) * | 2015-09-08 | 2015-12-30 | 国家电网公司 | Team information integrated comprehensive display system |
-
2013
- 2013-08-27 CN CN201320526712.8U patent/CN203405719U/en not_active Expired - Lifetime
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103439945A (en) * | 2013-08-27 | 2013-12-11 | 国家电网公司 | Large-size screen displaying system for power operation monitoring center |
| CN103439945B (en) * | 2013-08-27 | 2016-04-13 | 国家电网公司 | The large screen display system of a kind of power operation Surveillance center |
| CN104540027A (en) * | 2014-12-19 | 2015-04-22 | 北京正文科技有限公司 | Multimedia display interaction control system under multi-screen environment |
| CN104540027B (en) * | 2014-12-19 | 2018-03-02 | 北京正文科技有限公司 | A kind of multimedia show intersection control routine under multiple screens environment |
| CN105205593A (en) * | 2015-09-08 | 2015-12-30 | 国家电网公司 | Team information integrated comprehensive display system |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20140122 Effective date of abandoning: 20160413 |
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| C25 | Abandonment of patent right or utility model to avoid double patenting |