CN216353297U - Display screen system - Google Patents

Abstract

The application discloses display screen system belongs to and shows technical field. The display screen monitoring device is in network communication connection with the display screen bodies through the network switch respectively, and comprises a data receiving module, a data integration module and a screen body state display module; the data receiving module is used for receiving various monitoring data sent by each display screen body through a network; the data integration module is used for carrying out data integration processing on the various monitoring data received by the data receiving module so as to obtain the current running state of each display screen body; and the screen body state display module is used for displaying the current running state of each display screen body in real time. According to the technical scheme, the technical problems of long fault processing period and low efficiency of the LED display screen in the prior art can be effectively solved.

Description

Display screen system

Technical Field

The application relates to the technical field of display, in particular to a display screen system.

Background

The LED display screen is used as a core display terminal for intelligent information interaction and is widely applied to the fields of smart cities, home theaters and the like. However, as the LED display screen is continuously grounded, the problem of difficult operation and maintenance seriously troubles the operation and maintenance management department of users and various manufacturers. At the present stage, when the LED display screen device fails, the state of the display screen device needs to be confirmed on site and fed back to the superior management department step by step, thereby causing the problems of long fault processing period and low efficiency of the LED display screen.

SUMMERY OF THE UTILITY MODEL

The main objective of this application is to provide a display screen system, it aims at solving the technical problem that LED display screen fault handling cycle is long, efficiency is slow among the prior art.

In order to achieve the above object, the present application provides a display screen system, which includes a display screen monitoring device, a network switch and a plurality of display screen bodies, wherein the display screen monitoring device is respectively in network communication connection with the plurality of display screen bodies through the network switch, and the display screen monitoring device includes a data receiving module, a data integration module and a screen body state display module; the data receiving module is used for receiving various monitoring data sent by each display screen body through a network; the data integration module is used for performing data integration processing on various monitoring data received by the data receiving module to obtain the current running state of each display screen body; and the screen body state display module is used for displaying the current running state of each display screen body in real time.

Optionally, the types of the display screen body include a single display screen and an all-in-one display screen.

Optionally, the multiple kinds of monitoring data include any combination of screen body parameter information, sending card parameter information, optical parameter information, screen body topology structure diagram, receiving card parameter information, and fault alarm information.

Optionally, the screen body parameter information includes any combination of a screen body input source resolution, a screen body refresh rate, and a screen body type.

Optionally, the sending card parameter information includes any combination of a screen sending card version, an FPGA version of the screen sending card, an IP address of the screen sending card, and an MAC address of the screen sending card.

Optionally, the optical parameter information includes any combination of brightness of the screen volume, color temperature of the screen volume, Gamma value of the screen volume, chromatic value of the screen volume, and hue of the screen volume.

Optionally, the screen topology structure diagram records any combination of an actual routing connection manner of the screen, a work flow of each receiving card of the screen, and a running state of each receiving card of the screen.

Optionally, the card parameter receiving information includes module information carried by the receiving card and a position map of the module carried by the receiving card.

Optionally, the fault alarm information includes any combination of screen body voltage alarm information, screen body power alarm information, screen body humidity alarm information, screen body temperature alarm information, screen body sending card offline alarm information, screen body network port offline alarm information, screen body receiving card offline alarm information, and screen body module offline alarm information.

Optionally, the displaying the current running state of each display screen body in real time includes displaying any combination of a network health state of each display screen body in real time, an equipment health state of each display screen body in real time, and an energy efficiency state of each display screen body in real time.

The application provides a display screen system, it includes display screen supervisory equipment, network switch and a plurality of display screen body, and display screen supervisory equipment carries out network communication with a plurality of display screen bodies respectively through network switch and is connected, and display screen supervisory equipment includes data receiving module, data integration module and screen body state display module. During working, the display screen monitoring equipment of the display screen system can receive various monitoring data sent by each display screen body through the data receiving module, and then carry out data integration processing on the various monitoring data received by the data receiving module through the data integration module so as to obtain the current running state of each display screen body and then deliver the current running state to the screen body state display module for real-time display. Therefore, the display screen system can realize local operation and maintenance and multi-screen management capacity under the condition without an external network, and realize real-time display of the screen body states, so that operation and maintenance personnel can know the operation states of all the display screen bodies in real time, and can check any display screen body in time when the display screen body fails. Meanwhile, the display screen monitoring equipment of the display screen system can also be used as a cloud platform to provide a data source of a unit network point, so that other display screen bodies in the same local area network do not need to be accessed to an external network, and only need to be brought into the screen management in the display screen monitoring equipment, namely, the display screen monitoring equipment is used for accessing to the internet uniformly to upload data to the cloud platform, and a lot of internet resources are saved. The display screen monitoring equipment has an important bridge function, can serve as a function of a local server under the condition that an external network does not exist, and can serve as a bridge function for communicating a cloud platform and each display screen body while serving as a function of the local server under the condition that the external network exists. Therefore, the technical scheme can effectively solve the technical problems of long fault processing period and low efficiency of the LED display screen in the prior art.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a block diagram of a display screen system according to an embodiment of the present application.

Detailed Description

The following further describes embodiments of the present application with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present application, but the present application is not limited thereto. In addition, the technical features mentioned in the embodiments of the present application described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, an embodiment of the present application provides a display screen system 1, where the display screen system 1 includes a display screen monitoring device 110, a network switch 120, and a plurality of display screen bodies 130, the display screen monitoring device 110 is respectively in network communication connection with the plurality of display screen bodies 130 through the network switch 120, and the display screen monitoring device 110 includes a data receiving module 111, a data integration module 112, and a screen body state display module 113. The data receiving module 111 is configured to receive various monitoring data sent by each display screen body 130 through a network. The data integration module 112 is configured to perform data integration processing on the multiple monitoring data received by the data receiving module 111 to obtain a current operation state of each display screen body 130. The screen state display module 113 is configured to display a current operation state of each display screen 130 in real time.

In the present embodiment, as shown in fig. 1, the types of the display screen body 130 include a single display screen and an all-in-one display screen. That is, the plurality of display screen bodies 130 may be all single display screens, may also be all-in-one display screens, may also be both single display screens and all-in-one display screens. The all-in-one display screen is a multi-card one-screen display, that is, one display screen body 130 includes a plurality of sending cards. In order to facilitate the display screen monitoring device 110 to better distinguish between two situations of multi-screen and multi-card one-screen, the front end of the display screen system 1 registers and sends the card to the display screen body 130 according to the screen group policy, and the display screen monitoring device 110 receives the screen group information and brings the current display screen body 130 into the screen body management queue, and manages the running state of each display screen body 130 by taking the screen body as a unit.

In some examples, the aforementioned various monitoring data includes any combination of screen body parameter information, sending card parameter information, optical parameter information, screen body topology map, receiving card parameter information, and fault alarm information. The screen parameter information is used to display general parameters of the display screen 130, and may specifically include any combination of screen input source resolution, screen refresh rate, and screen type. The sending card parameter information is used for displaying some parameter information related to the sending card, and specifically may include any combination of a screen sending card version, an FPGA version of the screen sending card, an IP address of the screen sending card, and an MAC address of the screen sending card. The optical parameter information is used to display some information of the screen adjustment value of the display screen volume 130, including any combination of the brightness of the screen volume, the color temperature of the screen volume, the Gamma value of the screen volume, the chromatic value of the screen volume, and the hue of the screen volume. The screen body topological structure chart records any combination of the actual wiring connection mode of the screen body, the work flow of each receiving card of the screen body and the running state of each receiving card of the screen body, can restore the real wiring connection mode of the display screen body 130, and enables a user to visually check the work flow and the running state of each receiving card of the display screen body 130. If the specific receiving card parameters are to be checked, the receiving card parameter information is entered, and the receiving card parameter information may specifically include information of a module carried by the receiving card and a position map of the module carried by the receiving card. The fault alarm information is mainly information generated after fault diagnosis, and the fault diagnosis is mainly to inquire historical data to analyze the generation of problems and generate maintenance logs when the problems are solved. The fault alarm information may specifically include any combination of screen body voltage alarm information, screen body power alarm information, screen body humidity alarm information, screen body temperature alarm information, screen body sending card offline alarm information, screen body network port offline alarm information, screen body receiving card offline alarm information, and screen body module offline alarm information.

In some examples, the data integration module 112 performs data integration processing on the multiple monitoring data received by the data receiving module 111 to obtain a current operation state of each display screen body 130, and then the current operation state is displayed in real time by the screen body state displaying module 113, which may specifically include any combination of displaying a network health state of each display screen body 130 in real time, displaying an equipment health state of each display screen body 130 in real time, and displaying an energy efficiency state of each display screen body 130 in real time. When the network health status of each display screen 130 is displayed in real time, in order to visually display the real-time network health status of all the display screen 130 managed, the intensity of the network information can be displayed in a graph mode, the information such as the amount of used traffic can be accumulated, and the number of the display screen 130 in the current display screen system can be displayed, including the number of registered screens, the number of online screens, and the number of offline screens. The online rate of the current screen body, the online rate of the sending card, the online rate of the network port, the online rate of the receiving card and the online rate of the module can be displayed, and the online rates can be visually presented on the interface in a ring diagram mode. When the health status of each display screen body 130 is displayed in real time, the fault type and the alarm level of each display screen body 130 can be visually presented in a list manner. When the energy efficiency state of each display screen body 130 is displayed in real time, the energy efficiency state can be specifically displayed in long-time operation and maintenance, and the loss condition, the actual and expected electricity saving amount, the electricity saving rate and other conditions of each display screen body 130 can be mastered. In this way, the display screen monitoring device 110 of the display screen system 1 can implement a multi-screen monitoring function, a failure alarm diagnosis function, and an energy efficiency integrated management function.

The display screen system in the embodiment of the application comprises display screen monitoring equipment, a network switch and a plurality of display screen bodies, wherein the display screen monitoring equipment is in network communication connection with the display screen bodies through the network switch, and the display screen monitoring equipment comprises a data receiving module, a data integration module and a screen body state display module. During working, the display screen monitoring equipment of the display screen system can receive various monitoring data sent by each display screen body through the data receiving module, and then carry out data integration processing on the various monitoring data received by the data receiving module through the data integration module so as to obtain the current running state of each display screen body and then deliver the current running state to the screen body state display module for real-time display. Therefore, the display screen system can realize local operation and maintenance and multi-screen management capacity under the condition without an external network, and realize real-time display of the screen body states, so that operation and maintenance personnel can know the operation states of all the display screen bodies in real time, and can check any display screen body in time when the display screen body fails. Meanwhile, the display screen monitoring equipment of the display screen system can also be used as a cloud platform to provide a data source of a unit network point, so that other display screen bodies in the same local area network do not need to be accessed to an external network, and only need to be brought into the screen management in the display screen monitoring equipment, namely, the display screen monitoring equipment is used for accessing to the internet uniformly to upload data to the cloud platform, and a lot of internet resources are saved. The display screen monitoring equipment has an important bridge function, can serve as a function of a local server under the condition that an external network does not exist, and can serve as a bridge function for communicating a cloud platform and each display screen body while serving as a function of the local server under the condition that the external network exists. Therefore, the technical scheme can effectively solve the technical problems of long fault processing period and low efficiency of the LED display screen in the prior art.

The embodiments of the present application have been described in detail with reference to the accompanying drawings, but the present application is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made herein without departing from the principles and spirit of the application, and the scope of the application is to be accorded the full scope of the claims.

Claims (10)

1. A display screen system is characterized by comprising display screen monitoring equipment, a network switch and a plurality of display screen bodies, wherein the display screen monitoring equipment is in network communication connection with the display screen bodies through the network switch respectively, and comprises a data receiving module, a data integration module and a screen body state display module; wherein,

the data receiving module is used for receiving various monitoring data sent by each display screen body through a network;

the data integration module is used for performing data integration processing on various monitoring data received by the data receiving module to obtain the current running state of each display screen body;

and the screen body state display module is used for displaying the current running state of each display screen body in real time.

2. The display screen system of claim 1, wherein the types of display screen bodies comprise a single display screen and an all-in-one display screen.

3. The display screen system of claim 2, wherein the plurality of monitoring data includes any combination of screen body parameter information, sending card parameter information, optical parameter information, screen body topology map, receiving card parameter information, and fault alarm information.

4. The display screen system of claim 3, wherein the screen volume parameter information comprises any combination of screen volume input source resolution, screen volume refresh rate, and screen volume type.

5. The display screen system of claim 3, wherein the sending card parameter information comprises any combination of a screen body sending card version, an FPGA version of a screen body sending card, an IP address of a screen body sending card, and a MAC address of a screen body sending card.

6. The display screen system of claim 3, wherein the optical parameter information comprises any combination of a brightness of the screen volume, a color temperature of the screen volume, a Gamma value of the screen volume, a chromaticity value of the screen volume, and a hue of the screen volume.

7. The display screen system of claim 3, wherein the screen body topology structure diagram records any combination of an actual routing connection manner of the screen body, a workflow of each receiving card of the screen body, and an operation state of each receiving card of the screen body.

8. The display screen system of claim 3, wherein the card parameter information includes information about a module loaded by the receiving card and a position map of the module loaded by the receiving card.

9. The display screen system of claim 3, wherein the fault alarm information comprises any combination of screen body voltage alarm information, screen body power alarm information, screen body humidity alarm information, screen body temperature alarm information, screen body sending card offline alarm information, screen body network port offline alarm information, screen body receiving card offline alarm information, and screen body module offline alarm information.

10. The display screen system of any one of claims 1-9, wherein the real-time display of the current operating state of each display screen body comprises any combination of real-time display of a network health state of each display screen body, real-time display of an equipment health state of each display screen body, and real-time display of an energy efficiency state of each display screen body.

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