1. An integrated monitoring system, comprising: the information enhancement screen and the driving control screen are respectively in communication connection with the main operation screen;

the driving control screen is used for responding to the driving operation task selected by the user in the screen and sending the driving operation task to the main operation screen;

the main operation screen comprises a plurality of operation function interfaces of transverse and deep levels and is used for inquiring the first linkage relation mapping table and determining a linkage display path matched with the driving operation task when the driving operation task is received; acquiring a target operation function interface matched with the linkage display path for screen display, and sending first interface display content in the target operation function interface to an information enhancement screen;

and the information enhancement screen is used for inquiring the second linkage relation mapping table when first interface display content in the target operation function interface is received, and acquiring associated display content matched with the first interface display content for screen display.

2. The integrated monitoring system of claim 1, further comprising: the system comprises at least one monitoring hanging screen, a main operation screen and a plurality of monitoring hanging screens, wherein each monitoring hanging screen is in communication connection with the main operation screen;

the main operation screen is further used for: responding to monitoring configuration information input by a user in a monitoring hanging screen configuration interface, determining monitoring picture acquisition equipment respectively corresponding to at least one target monitoring hanging screen, and sending equipment identification corresponding to the monitoring picture acquisition equipment to each target monitoring hanging screen;

and the monitoring hanging screen is used for acquiring a monitoring picture from the matched monitoring picture acquisition equipment according to the received equipment identification and displaying the monitoring picture on the screen.

3. The integrated monitoring system according to claim 2, wherein the information enhancing screen, the driving control screen and each of the monitoring hanging screens establish communication connection with the main operation screen through a WebSocket protocol.

4. A multi-screen interaction method based on an integrated monitoring system, which is applied to the integrated monitoring system according to any one of claims 1-3, wherein the method comprises the following steps:

responding to a driving operation task selected by a user in a screen through a driving control screen, and sending the driving operation task to a main operation screen;

through the main operation screen, when a driving operation task is received, inquiring a first linkage relation mapping table, and determining a linkage display path matched with the driving operation task; the main operation screen comprises a plurality of operation function interfaces with horizontal and depth levels;

acquiring a target operation function interface matched with the linkage display path through the main operation screen to perform screen display, and sending first interface display content in the target operation function interface to an information enhancement screen;

and through the information enhancement screen, when first interface display content in the target operation function interface is received, querying a second linkage relation mapping table, and acquiring associated display content matched with the first interface display content for screen display.

5. The method of claim 4, further comprising:

through a main operation screen, responding to monitoring configuration information input by a user in a monitoring hanging screen configuration interface, determining monitoring picture acquisition equipment respectively corresponding to at least one target monitoring hanging screen, and sending equipment identification corresponding to the monitoring picture acquisition equipment to each target monitoring hanging screen;

and acquiring a monitoring picture from the matched monitoring picture acquisition equipment for screen display through the monitoring hanging screen according to the received equipment identification.

6. The method of claim 4, wherein the driving operational tasks include timing operational tasks;

through the drive control screen, respond to the drive operation task that the user selected in the screen, send the drive operation task to main operation screen, specifically include:

receiving a timing operation task list input by a user through a driving control screen, wherein the timing operation task in the timing task list is associated with timing trigger time;

generating a first generation task matched with a target timing operation task for screen display when timing trigger time for timing to the target timing operation task is detected through a driving control screen;

and responding to the first agency task selected by the user in the screen by driving the control screen, and sending the target timing operation task to the main operation screen.

7. The method of claim 4, wherein the driving operational task includes real-time alert information;

through the drive control screen, respond to the drive operation task that the user selected in the screen, send the drive operation task to main operation screen, specifically include:

generating a second generation task matched with the real-time alarm information for screen display when receiving the real-time alarm information sent by the monitoring equipment in the monitoring area through the driving control screen;

and responding to the second generation task selected by the user in the screen by driving the control screen, and sending the real-time alarm information to the main operation screen.

8. The method according to claim 7, wherein after the target operation function interface matched with the linkage display path is acquired through the main operation screen for screen display, at least one of the following is further included:

receiving alarm processing operation input by a user aiming at the real-time alarm information through a main operation screen, generating at least one equipment control instruction, and sending each equipment control instruction to matched execution equipment;

receiving a maintenance work order input by a user in a maintenance work order distribution interface through a main operation screen, and sending the maintenance work order to a matched equipment maintenance party; and

and sending a matched alarm removing response to the drive control screen through the main operation screen when the real-time alarm information is detected to be removed from the alarm, so as to indicate the drive control screen to clear the second generation task.

9. The method of claim 4, further comprising:

responding to an interface jump instruction of a user through a main operation screen, acquiring a target jump operation function interface for screen display, and sending second interface display content in the target jump operation function interface to an information enhancement screen;

and inquiring the second linkage relation mapping table through the information enhancement screen when second interface display content in the target jump operation function interface is received, and acquiring the display content associated with the second interface display content for screen display.

10. The method of claim 4, wherein querying the second linkage relation mapping table through the information enhancement screen to obtain the display content associated with the display content of the first interface for screen display comprises:

identifying at least one monitoring entity in the display content of the first interface through an information enhancement screen;

inquiring a second linkage relation mapping table through an information enhancement screen to obtain a supplementary information type matched with each monitoring entity;

and inquiring to obtain associated display content matched with the type of the supplementary information through an information enhancement screen, and carrying out screen display on the associated display content.

Background

With the progress of society, in order to ensure that people can use various resources healthily and safely, supply equipment for each resource, such as a power supply system, an industrial control system, a network, and the like, needs to be monitored in real time.

The interaction mode of the existing integrated monitoring system is based on single screen or single interface design, and in the interaction process, the using operation logic of the integrated monitoring system is as follows: and the function menu and the intelligent subsystem enter a related function interface through automatically clicking the function menu and the intelligent subsystem to carry out related business activities. All operations, information display and acquisition are completed on a single screen or a single interface.

The interaction method of the existing integrated monitoring system enables information and operation interfaces required by the system in the using process to be folded in different function menus and limited by the display area constraint of a single screen, and parts of the interfaces are difficult to avoid overlarge information amount and cannot carry out integrated monitoring work on the integrated monitoring system timely, accurately and efficiently. In addition, the operational use logic of the existing integrated monitoring system causes an unordered state of daily work of the central control room attendant to a certain extent.

Disclosure of Invention

The embodiment of the invention provides an integrated monitoring system and a multi-screen interaction method based on the integrated monitoring system, which are used for quickly reaching a required operation interface in the integrated monitoring working process and efficiently acquiring comprehensive and complete auxiliary information, so that the monitoring work is orderly carried out.

In a first aspect, an embodiment of the present invention provides an integrated monitoring system, including: the information enhancement screen and the driving control screen are respectively in communication connection with the main operation screen;

the driving control screen is used for responding to the driving operation task selected by the user in the screen and sending the driving operation task to the main operation screen;

the main operation screen comprises a plurality of operation function interfaces of transverse and deep levels and is used for inquiring the first linkage relation mapping table and determining a linkage display path matched with the driving operation task when the driving operation task is received; acquiring a target operation function interface matched with the linkage display path for screen display, and sending first interface display content in the target operation function interface to an information enhancement screen;

and the information enhancement screen is used for inquiring the second linkage relation mapping table when first interface display content in the target operation function interface is received, and acquiring associated display content matched with the first interface display content for screen display.

In a second aspect, an embodiment of the present invention further provides a multi-screen interaction method based on an integrated monitoring system, where the method includes:

responding to a driving operation task selected by a user in a screen through a driving control screen, and sending the driving operation task to a main operation screen;

through the main operation screen, when a driving operation task is received, inquiring a first linkage relation mapping table, and determining a linkage display path matched with the driving operation task; the main operation screen comprises a plurality of operation function interfaces with horizontal and depth levels;

acquiring a target operation function interface matched with the linkage display path through the main operation screen to perform screen display, and sending first interface display content in the target operation function interface to an information enhancement screen;

and through the information enhancement screen, when first interface display content in the target operation function interface is received, querying a second linkage relation mapping table, and acquiring associated display content matched with the first interface display content for screen display.

According to the technical scheme of the embodiment of the invention, the existing monitoring display interface based on single-screen multi-level display is disassembled into the interface display form of multi-screen linkage display on the driving control screen, the main operation screen and the information enhancement screen, so that the problem that the existing integrated monitoring system interaction method cannot timely, accurately and efficiently carry out integrated monitoring work on the integrated monitoring system is solved, and the effects of quickly reaching the required operation interface and efficiently acquiring comprehensive and complete auxiliary information in the integrated monitoring work process are realized; meanwhile, the monitoring display content can be triggered by the driving control screen to perform task triggering, and a more ordered interaction method can be provided for the central control on-duty personnel.

Drawings

Fig. 1 is a schematic structural diagram of an integrated monitoring system according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an integrated monitoring system according to a second embodiment of the present invention;

fig. 3 is a schematic space diagram of an integrated monitoring system to which the second embodiment of the present invention is applied;

FIG. 4 is a flowchart of a multi-screen interaction method based on an integrated monitoring system according to a third embodiment of the present invention;

FIG. 5 is a flowchart of a multi-screen interaction method based on an integrated monitoring system according to a fourth embodiment of the present invention;

fig. 6 is a flowchart of a multi-screen interaction method based on an integrated monitoring system in the fifth embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.

Example one

Fig. 1 is a schematic structural diagram of an integrated monitoring system according to an embodiment of the present invention, where this embodiment is applicable to a case of performing multi-screen interaction in an integrated monitoring working process, and the integrated monitoring system specifically includes: the information enhancement screen 130 and the driving control screen 110 are respectively in communication connection with the main operation screen 120;

a driving control panel 110 for transmitting a driving operation task to the main operation panel 120 in response to the driving operation task selected by the user in the screen;

the main operation screen 120 comprises a plurality of operation function interfaces in transverse and depth levels, and is used for inquiring the first linkage relation mapping table and determining a linkage display path matched with the driving operation task when the driving operation task is received; acquiring a target operation function interface matched with the linkage display path for screen display, and sending first interface display content in the target operation function interface to the information enhancement screen 130;

and the information enhancement screen 130 is configured to, when first interface display content in the target operation function interface is received, query the second linkage relation mapping table, obtain associated display content matched with the first interface display content, and perform screen display.

The driving operation task may refer to a planned operation task that is preset by a user and takes time as a trigger condition, for example: air conditioner on or off, lighting on or off, anti-theft arming or disarming, video monitoring polling and the like; it may also refer to an operation task using the event processing work item after the event response as a standard, for example: equipment failure alarm, operation parameter abnormity alarm, fire alarm or temperature over-standard alarm, etc. The present embodiment does not limit this.

The main operation screen is a main interface of system operation, and can realize the operation of functions such as equipment control operation, operation detection and check, alarm information check, maintenance work order distribution, system setting and the like.

The linkage may mean that when a related operation task occurs on one component in the system, the corresponding task change also occurs on the component related to the component. The linkage relationship also refers to the relationship between two linkage operation tasks. For example, if a new piece of alarm information is generated in the drive control screen and the sound-light alarm prompt is provided in the main operation screen, the generated alarm information and the sound-light alarm prompt are in a linkage relationship; or, if a reminder of a proxy is generated on the drive control screen (for example, an air conditioner task is turned on), and when the user selects to execute the proxy in the drive control screen, the main operation screen jumps to the operation function interface for controlling the air conditioner switch to display on the screen, and the selection of the proxy and the jumping of the matched operation function interface are in a linkage relationship.

Correspondingly, the first linkage relation mapping table records the mapping relation between the driving operation tasks in the driving operation screen and the linkage display paths of the set operation function interfaces in the main operation screen. Therefore, when the main operation screen receives the driving operation task sent by the driving operation screen, the linkage display path uniquely corresponding to the received driving operation task can be obtained by inquiring the first linkage relation mapping table, and the operation function interface corresponding to the linkage display path can be directly jumped to for linkage display in a plurality of operation function interfaces of transverse and deep levels, so that the effect of directly reaching the operation interface actually required by the user is realized, the time of manually searching the operation function interface required to be operated in the plurality of operation function interfaces included in the main operation screen by the user is reduced, and the operation efficiency of the user is improved.

The first interface display content in the target operation function interface specifically refers to the content displayed in real time in the target operation function interface after the main operation screen automatically jumps to the target operation function interface for screen display. For example, if the target operation function interface is an on-off control interface for an air conditioner, interface display contents in the target operation function interface are a simplified diagram of each air conditioner in the monitoring area and an on-off control key for each air conditioner. If the target operation function interface is an alarm information display interface, the interface display content in the alarm information display interface is a plan view marked with alarm positions in an alarm area, and detailed alarm information (such as alarm types, alarm equipment accounts and parameter values for generating alarms) is displayed through an alarm information panel.

The information enhancement screen is generally used for providing auxiliary information supplement enhancement needed by decision making and building space information of an operation object in the use process of the main operation screen, and can be embodied in a three-dimensional visualization mode. In other words, the interface display content in the information enhancement screen is the enhancement or refinement of the interface display content in the main operation screen, so as to assist the user in making an assistant decision by combining the interface display content in the information enhancement screen in the process of using the main operation screen for operation control. That is, the interface display content in the information enhancement screen is linked with the interface display content in the main operation screen, and is associated display content which is dynamically updated along with the change of the interface display content in the main operation screen.

Correspondingly, the second linkage relation mapping table records the mapping relation between the interface display content in the main operation screen and the interface display content in the information enhancement screen. Therefore, when the information enhancement screen receives the first interface display content sent by the main operation screen, the second linkage relation mapping table can be inquired to obtain the associated display content uniquely corresponding to the first interface display content, and the associated display content is directly displayed in the information enhancement screen.

For example, if the first interface display content is a plan view of the alarm region with the alarm position marked therein, the associated display content may be information such as a three-dimensional model in the alarm region, a video frame in the alarm region, and operation parameters of various devices (e.g., air conditioners) serving the space. By combining the associated display content in the information enhancement screen, a user can make a decision on the alarm information in the main operation screen by combining more information, so that the decision accuracy and the user operation efficiency are improved.

According to the technical scheme of the embodiment of the invention, the existing monitoring display interface based on single-screen multi-level display is disassembled into the interface display form of multi-screen linkage display on the driving control screen, the main operation screen and the information enhancement screen, so that the problem that the existing integrated monitoring system interaction method cannot timely, accurately and efficiently carry out integrated monitoring work on the integrated monitoring system is solved, and the effects of quickly reaching the required operation interface and efficiently acquiring comprehensive and complete auxiliary information in the integrated monitoring work process are realized; meanwhile, the monitoring display content can be triggered by the driving control screen to perform task triggering, and a more ordered interaction method can be provided for the central control on-duty personnel.

Example two

Fig. 2 is a schematic structural diagram of an integrated monitoring system in a second embodiment of the present invention, which is a further addition to the above technical solutions. As shown in fig. 2, the method specifically includes: drive control panel 110, main operating panel 120, information enhancement panel 130, and at least one monitor hitch panel 140.

The system further comprises: and each monitoring hanging screen 140 is in communication connection with the main operation screen 120.

The main operation screen 120 is further configured to: in response to the monitoring configuration information input by the user in the configuration interface of monitoring hook screen 140, monitoring picture collecting devices respectively corresponding to at least one target monitoring hook screen 140 are determined, and a device identifier corresponding to the monitoring picture collecting device is sent to each target monitoring hook screen 140.

And the monitoring hanging screen 140 is used for acquiring a monitoring picture from the matched monitoring picture acquisition equipment according to the received equipment identifier and displaying the monitoring picture on a screen.

The monitoring configuration information is specifically configuration information for configuring a mapping relationship between the monitoring hooking screen and the monitoring picture acquisition equipment in the monitoring area, that is, the monitoring configuration information can configure the monitoring picture required to be displayed by each monitoring hooking screen, so that the monitoring picture of the key monitoring area is pulled out to the monitoring hooking screen 140 and is tiled with the main operation screen.

Those skilled in the art can choose to further configure one or more monitoring hook screens 140 on the basis of the embodiments of the present invention according to actual usage requirements, connect with the main operation screen 120, and set or change the monitoring screen displayed in each monitoring hook screen 140 by the main operation screen 120.

Correspondingly, the monitoring hanging screen can hang and tile the system or video monitoring picture needing important monitoring with an independent screen, so that important monitoring information resides in the visual field range of the central control attendant, and the important monitoring information can be directly acquired.

Optionally, the information enhanced screen 130, the driving control screen 110, and each of the monitor hook screens 140 establish a communication connection with the main operation screen 120 through a WebSocket protocol, respectively.

The WebSocket protocol is a network communication protocol that uses a TCP connection for bidirectional communication. The concurrency capability of the traditional http request is realized by simultaneously initiating a plurality of TCP connections to access the server, so that the concurrency number is limited by the number of concurrent connections allowed by the browser. And the WebSocket allows us to simultaneously and concurrently send a plurality of requests on one ws connection, namely after the A request is sent, the A response does not arrive, and the B request can be continuously sent. Due to the slow start characteristic of TCP, the new connection speed needs time, and the handshake loss of the connection per se greatly improves the efficiency of the characteristic of the WebSocke protocol.

According to the technical scheme of the embodiment, wireless or wired connection is established among the drive control screen, the main operation screen, the information enhancement screen and the monitoring hanging screen, so that the problem that the existing integrated monitoring system interaction method cannot timely, accurately and efficiently carry out integrated monitoring work on the integrated monitoring system is solved, the effects of quickly reaching a required operation interface and efficiently acquiring comprehensive and complete auxiliary information in the integrated monitoring work process are achieved, and a more ordered interaction method is provided for central control duty personnel.

By way of example and not limitation, fig. 3 illustrates a schematic spatial diagram of an integrated monitoring system to which the second embodiment of the present invention is applicable. As shown in fig. 3, different types of display contents in the integrated monitoring system are tiled on different screens for parallel display, so that a user can obtain multiple monitoring display contents of different types at one time, and the monitoring display contents are used comprehensively, thereby realizing efficient monitoring processing.

On the basis of the above embodiments, the components in the system may be optionally configured as follows:

driving the control panel: the hardware is an Android system tablet computer, and the software is based on an APP program developed by an Android system. A main operation screen: the hardware adopts a PC display, and the software is an EXE program developed based on a Windows system and H5 or a Unity3D technical platform.

The information enhancement screen: the hardware adopts an LED spliced large screen or is additionally provided with an extended display device such as a PC display; the software is an EXE program developed based on a Windows system and H5 or a Unity3D technical platform.

The monitoring articulates the screen: the hardware adopts an LED spliced large screen or is additionally provided with an extended display device such as a PC display; the software is an EXE program developed based on a Windows system and H5 or a Unity3D technical platform, or an intelligent subsystem software program, or only displays a video monitoring camera picture without software.

The configuration has the advantages that the cooperative work among the parts can be better completed, the effects of quickly reaching a required operation interface and efficiently acquiring comprehensive and complete auxiliary information in the integrated monitoring working process can be realized, and the work can be developed orderly.

EXAMPLE III

Fig. 4 is a flowchart of a multi-screen interaction method based on an integrated monitoring system in a third embodiment of the present invention. The embodiment can be used for the condition of multi-screen multi-interface linkage display in an integrated monitoring system, and the method can be executed by the integrated monitoring system in the embodiment of the invention. The method specifically comprises the following steps:

and S310, responding to the driving operation task selected by the user in the screen through the driving control screen, and sending the driving operation task to the main operation screen.

The driving operation task can be real-time alarm information or a timing operation task. Correspondingly, the alarm module configured on each device in the monitoring area can be in communication connection with the drive control screen in advance, and when the alarm module generates real-time alarm information, the real-time alarm information can be directly sent to the drive control screen; in addition, a timing task of a proxy item can be added in the drive control screen, so that when the timing time of one timing operation task is counted, the drive control screen can correspondingly trigger the timing operation task.

Correspondingly, when the drive control screen receives a drive operation task or automatically triggers to generate a drive operation task, the drive control screen can display the drive operation task on the screen and can perform corresponding acousto-optic prompt, and when a user selects to execute the drive operation task, the drive operation task can be selected in the screen of the drive control screen to trigger the drive control screen to send the drive operation task to the main operation screen.

S320, inquiring a first linkage relation mapping table when a driving operation task is received through the main operation screen, and determining a linkage display path matched with the driving operation task; the main operation screen comprises a plurality of operation function interfaces in horizontal and deep levels.

S330, acquiring a target operation function interface matched with the linkage display path through the main operation screen to perform screen display, and sending the display content of a first interface in the target operation function interface to the information enhancement screen.

S340, inquiring the second linkage relation mapping table when the first interface display content in the target operation function interface is received through the information enhancement screen, and acquiring the associated display content matched with the first interface display content for screen display.

According to the technical scheme of the embodiment, the wireless or wired connection is established among the drive control screen, the main operation screen and the information enhancement screen, so that the problem that the existing integrated monitoring system interaction method cannot timely, accurately and efficiently carry out integrated monitoring work on the integrated monitoring system is solved, the effects of quickly reaching a required operation interface and efficiently acquiring comprehensive and complete auxiliary information in the integrated monitoring work process are achieved, and a more ordered interaction method is provided for central control duty personnel.

Furthermore, in order to perform screen display on the target jump operation function interface, more suitable interactive experience is provided for the central control duty personnel. In an optional embodiment, the method may further comprise:

responding to an interface jump instruction of a user through a main operation screen, acquiring a target jump operation function interface for screen display, and sending second interface display content in the target jump operation function interface to an information enhancement screen; and inquiring the second linkage relation mapping table through the information enhancement screen when second interface display content in the target jump operation function interface is received, and acquiring the display content associated with the second interface display content for screen display.

The second interface display content specifically refers to that after a user selects a target operation function interface which needs to be displayed currently after clicking operation is performed in a main operation screen, the main operation screen automatically jumps to the target operation function interface to perform screen display, and the content is displayed in the target operation function interface in real time.

In this alternative embodiment, a multi-screen interaction scheme different from the multi-screen linkage display triggered by the driving control screen is provided, and in this interaction scheme, linkage interaction is mainly achieved between the main operation screen and the information enhancement screen. That is, the user directly selects an operation function interface to be operated, that is, a target skip operation function interface, from the operation function interfaces including a plurality of horizontal and deep levels in the main operation screen. For example, when a user views a monitoring screen of a certain monitoring area, the user may directly click to view a monitoring display interface in the main operation screen to view the monitoring screen, and at this time, based on the mapping relationship between the interface display content in the main operation screen recorded by the second linkage relationship mapping table and the interface display content in the information enhancement screen, the linkage display content may be determined in the information enhancement screen, so as to supplement and enhance the content displayed in the main operation screen.

Example four

Fig. 5 is a flowchart of a multi-screen interaction method based on an integrated monitoring system in a fourth embodiment of the present invention. The present embodiment is added based on the above embodiments, and specifically includes: through a main operation screen, responding to monitoring configuration information input by a user in a monitoring hanging screen configuration interface, determining monitoring picture acquisition equipment respectively corresponding to at least one target monitoring hanging screen, and sending equipment identification corresponding to the monitoring picture acquisition equipment to each target monitoring hanging screen; and acquiring a monitoring picture from the matched monitoring picture acquisition equipment for screen display through the monitoring hanging screen according to the received equipment identification.

As shown in fig. 5, the method includes the following specific steps:

and S410, responding to the driving operation task selected by the user in the screen through the driving control screen, and sending the driving operation task to the main operation screen.

Further, in order to make the content of the driving operation task more complete, in an optional embodiment, the driving operation task may include a timing operation task;

correspondingly, the driving operation task is sent to the main operation screen by the driving control screen in response to the driving operation task selected by the user in the screen, and the method specifically includes:

receiving a timing operation task list input by a user through a driving control screen, wherein the timing operation task in the timing task list is associated with timing trigger time; generating a first generation task matched with a target timing operation task for screen display when timing trigger time for timing to the target timing operation task is detected through a driving control screen; and responding to the first agency task selected by the user in the screen by driving the control screen, and sending the target timing operation task to the main operation screen.

The first generation task may refer to a related task matched with the target timing operation task, for example, the target timing operation task performs video monitoring round robin every 1 hour, and when the timing time of one video monitoring task is counted, the form is generated as follows: "current delegate task: the video monitors the first generation task of the round robin "and provides the first generation task to the user for selection by the user. The present embodiment does not limit this.

S420, inquiring a first linkage relation mapping table when a driving operation task is received through the main operation screen, and determining a linkage display path matched with the driving operation task; the main operation screen comprises a plurality of operation function interfaces in horizontal and deep levels.

And S430, acquiring a target operation function interface matched with the linkage display path through the main operation screen to perform screen display, and sending the display content of a first interface in the target operation function interface to the information enhancement screen.

S440, through the information enhancement screen, when first interface display content in the target operation function interface is received, querying a second linkage relation mapping table, and acquiring associated display content matched with the first interface display content for screen display.

S450, through the main operation screen, responding to monitoring configuration information input by a user in a monitoring hanging screen configuration interface, determining monitoring picture acquisition equipment respectively corresponding to at least one target monitoring hanging screen, and sending equipment identification corresponding to the monitoring picture acquisition equipment to each target monitoring hanging screen.

And S460, acquiring a monitoring picture from the matched monitoring picture acquisition equipment for screen display according to the received equipment identification through the monitoring hanging screen.

According to the technical scheme of the embodiment, wireless or wired connection is established among the drive control screen, the main operation screen, the information enhancement screen and the monitoring hanging screen, so that the problem that the existing integrated monitoring system interaction method cannot timely, accurately and efficiently carry out integrated monitoring work on the integrated monitoring system is solved, the effects of quickly reaching a required operation interface and efficiently acquiring comprehensive and complete auxiliary information in the integrated monitoring work process are achieved, and a more ordered interaction method is provided for central control duty personnel.

EXAMPLE five

Fig. 6 is a flowchart of a multi-screen interaction method based on an integrated monitoring system in the fifth embodiment of the present invention. The embodiment is refined based on the above embodiment, specifically, the step of refining, by sending a driving operation task to a main operation screen through a driving control screen in response to the driving operation task selected by a user in a screen, specifically includes: generating a second generation task matched with the real-time alarm information for screen display when receiving the real-time alarm information sent by the monitoring equipment in the monitoring area through the driving control screen; and responding to the second generation task selected by the user in the screen by driving the control screen, and sending the real-time alarm information to the main operation screen.

As shown in fig. 6, the method includes the following specific steps:

and S510, generating a second generation task matched with the real-time alarm information for screen display when the real-time alarm information sent by the monitoring equipment in the monitoring area is received through the driving control screen.

The second generation task generally refers to an operation task which is provided for a user through a driving control screen and is possibly completed in the next step after alarm equipment in a monitoring area generates alarm information, for example, when fire alarm information occurs, the second generation task displayed by the driving control screen may be: "a proxy task: and (5) fire alarm information is to be processed. The present embodiment does not limit this.

S520, responding to the second generation task selected by the user in the screen through the driving control screen, and sending the real-time alarm information to a main operation screen.

S530, acquiring a target operation function interface matched with the linkage display path through the main operation screen to display the screen, and sending the display content of a first interface in the target operation function interface to the information enhancement screen.

Optionally, querying the second linkage relation mapping table through the information enhancement screen, and acquiring the display content associated with the display content of the first interface for screen display, where the acquiring may include:

identifying at least one monitoring entity in the display content of the first interface through an information enhancement screen; inquiring a second linkage relation mapping table through an information enhancement screen to obtain a supplementary information type matched with each monitoring entity; and inquiring to obtain associated display content matched with the type of the supplementary information through an information enhancement screen, and carrying out screen display on the associated display content.

The monitoring entity generally refers to an entity which is actually monitored and exists in the display content of the first interface displayed in the main operation screen. The supplemental information type generally refers to other data or device parameters related to the monitoring entity.

For example, after the main operation screen receives the real-time alarm information sent by the driving control screen, the main operation screen displays a plan view including an alarm floor in the first interface display content in the corresponding target operation function interface, at this time, the identified monitoring entity is the alarm floor (for example, the X-th floor of the XX building), and the acquired type of the supplementary information is the three-dimensional view of the alarm floor and the operation parameters of various devices included in the alarm floor. At this time, the three-dimensional map data of the alarm floor and the operation parameter data of various devices included in the alarm floor can be specifically acquired in an online pulling or local acquisition mode and displayed as the associated display content on the screen of the information enhanced screen.

Optionally, after the target operation function interface matched with the linkage display path is acquired through the main operation screen and displayed on the screen, at least one of the following items is further included:

receiving alarm processing operation input by a user aiming at the real-time alarm information through a main operation screen, generating at least one equipment control instruction, and sending each equipment control instruction to matched execution equipment;

receiving a maintenance work order input by a user in a maintenance work order distribution interface through a main operation screen, and sending the maintenance work order to a matched equipment maintenance party; and

and sending a matched alarm removing response to the drive control screen through the main operation screen when the real-time alarm information is detected to be removed from the alarm, so as to indicate the drive control screen to clear the second generation task.

In a specific example, after the ambient temperature alarms, the driving control screen generates a new alarm message and provides an audible and visual alarm prompt on the main operation screen to cancel the task; after the driving control screen clicks the alarm information, the main operation screen calls an alarm floor plan and marks alarm information point positions to embody alarm positions; displaying detailed alarm information such as an alarm type, an alarm equipment ledger and a parameter value for generating alarm through an alarm information panel; meanwhile, the information enhancement screen calls a three-dimensional model of the alarm space and pushes information such as video pictures of the alarm space, air-conditioning equipment serving the space, equipment operation parameters and the like.

A user checks the main operation screen and the information enhancement screen in a linkage manner, and if the air conditioning equipment is not started, the on-off and parameter setting of the equipment can be realized on the main operation screen; if the information enhancement screen knows that the air conditioner is normally turned on or off and the air conditioner operation parameters are normal, the space load can be preliminarily judged to be large, extra air conditioning equipment needs to be turned on for support, and the operation is realized on the main operation screen; if the ambient temperature is still late and cannot be recovered to normal, a maintenance work order can be dispatched through the main operation screen, a field technician is dispatched to check and maintain, and the position information of the personnel closest to the alarm point position is obtained through the three-dimensional model of the information enhancement screen, so that the order is dispatched accurately. Finally, after the environment temperature is processed to be recovered to be normal, the alarm item is completed on the drive control screen, and the alarm information can be manually or automatically filed for later use in calling historical information.

And S540, inquiring the second linkage relation mapping table when the first interface display content in the target operation function interface is received through the information enhancement screen, and acquiring the associated display content matched with the first interface display content for screen display.

And S550, responding to monitoring configuration information input by a user in a monitoring hanging screen configuration interface through the main operation screen, determining monitoring picture acquisition equipment respectively corresponding to at least one target monitoring hanging screen, and sending equipment identifiers corresponding to the monitoring picture acquisition equipment to each target monitoring hanging screen.

And S560, acquiring a monitoring picture from the matched monitoring picture acquisition equipment for screen display according to the received equipment identification through the monitoring hanging screen.

According to the technical scheme, the problem that real-time alarming cannot be timely and accurately performed by an existing interaction method of the integrated monitoring system is solved by adding the real-time alarming information in the driving operation task, and the effects that the alarming information is displayed in real time in the working process of the integrated monitoring system and is correspondingly processed aiming at the alarming information are achieved.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.