CN112272285A

CN112272285A - Intelligent operation and maintenance system, software equipment and device

Info

Publication number: CN112272285A
Application number: CN202011062498.6A
Authority: CN
Inventors: 李家阳; 张俊; 王潇; 蔡非; 向才贤; 沈超
Original assignee: Zhejiang Dingsheng Environmental Protection Technology Co ltd
Current assignee: Zhejiang Dingsheng Environmental Protection Technology Co ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-01-26
Anticipated expiration: 2040-09-30
Also published as: CN112272285B

Abstract

The invention provides an intelligent operation and maintenance system, software equipment and a device, wherein the system comprises: the monitoring equipment is arranged near the water service terminal and used for monitoring the environment and the running state of the water service terminal; the local control equipment is in communication connection with the monitoring equipment and is used for managing and controlling the monitoring equipment; the gateway equipment is electrically connected with the local control equipment; and the cloud server is connected with the local control equipment through the gateway equipment. The intelligent operation and maintenance monitoring system realizes real-time monitoring.

Description

Intelligent operation and maintenance system, software equipment and device

Technical Field

The invention relates to the technical field of monitoring, in particular to an intelligent operation and maintenance system, software equipment and a device.

Background

Currently, the water industry refers to an industrial chain consisting of raw water, water supply, water conservation, drainage, sewage treatment, water resource recycling and the like. The water affair industry is one of the most important urban basic service industries of all countries and regions in China and even the world, and daily production and life can not be realized by urban water supply.

With the development of the technology, various water affair terminals are arranged in each link of the water affair industry; therefore, the monitoring of the water service terminal is particularly important.

Disclosure of Invention

One of the purposes of the invention is to provide an intelligent operation and maintenance monitoring system, which realizes real-time monitoring.

The embodiment of the invention provides an intelligent operation and maintenance monitoring system, which comprises:

the monitoring equipment is arranged near the water service terminal and used for monitoring the environment and the running state of the water service terminal;

the local control equipment is in communication connection with the monitoring equipment and is used for managing and controlling the monitoring equipment;

the gateway equipment is electrically connected with the local control equipment;

and the cloud server is connected with the local control equipment through the gateway equipment.

Preferably, the monitoring device comprises: the device comprises a three-axis pan-tilt and a camera arranged on the three-axis pan-tilt;

the cloud server performs the following operations:

when a user enters a remote control interface of the monitoring equipment, the authority of the user is verified;

when the user has the remote control right of the monitoring equipment, the remote control interface is in an operable state; otherwise, the remote operation interface is in an inoperable state.

Preferably, the cloud server includes:

the user-defined accurate map module is used for receiving user-defined setting of a user on an accurate map interface;

the user-defined precision map module performs the following operations:

acquiring an accurate map template;

positioning the water affair terminal on the accurate map template to determine a positioning point; marking positioning points on the accurate map template in a first format;

receiving the operation that a user sets the selected positioning point as an intelligent point, and marking the intelligent point on the accurate map template in a second format when the positioning point is set as the intelligent point;

receiving management operation of a user on the intelligent point; the management operation includes: naming, adding description, adding picture, adding small video and adding voice;

wherein the first format is: displaying a preset icon in a first color at a position corresponding to the positioning point on the accurate map template;

the second format is: displaying a preset icon in a second color at a position corresponding to the intelligent point on the accurate map template and displaying state information of the water affair terminal corresponding to the intelligent point by using a preset suspension frame;

the state information includes:

when the water affair terminal runs well, displaying preset monitoring parameters of the water affair terminal or monitoring parameters of the water affair terminal selected by a user;

when the local control equipment of the water affair terminal has alarm output, displaying an alarm code and/or alarm information;

changing the display mode of the suspension frame according to the state information; and when the state information is that the local control equipment of the water affair terminal has alarm output, coloring the frame of the suspension frame with a prominent color.

Preferably, the cloud server includes:

the accurate map operation module is used for receiving the operation of a user on the displayed accurate map interface and displaying and executing the operation;

the accurate map operation module executes the following operations:

when a first operation that a user selects a positioning point or an intelligent point on an accurate map interface is received, entering a checking management interface of a water affair terminal corresponding to the positioning point or the intelligent point;

and when receiving a second operation of viewing the monitoring image of the water affair terminal corresponding to the positioning point or the intelligent point on the accurate map interface by the user, displaying the monitoring image of the pre-selected monitoring equipment and/or circularly displaying the monitoring image of each monitoring equipment in the water affair terminal by using a temporary display window suspended on the upper part of the accurate map interface.

Preferably, the cloud server further includes:

the accurate map display module is used for determining an initial display interface of the accurate map when a user logs in the accurate map interface;

the accurate map display module performs the following operations:

establishing an accurate map mapping space based on the accurate map;

partitioning the accurate map mapping space based on a preset rule to obtain an accurate map grid;

acquiring an intelligent point list correspondingly stored by a user;

mapping the intelligent points in the intelligent point list to an accurate map mapping space;

comparing the number of intelligent points in each accurate map grid, and taking the accurate map grid with the largest number as a display grid corresponding to the initial display interface;

connecting every two intelligent points in the display grid to obtain the occupied area of the intelligent points in the display grid;

when the occupied area is larger than or equal to a preset value, a preset selecting frame is used for moving and selecting in the occupied area, and when the number of the intelligent points selected in the selecting frame is the largest, the accurate map in the selecting frame is used as an accurate map of an initial display interface;

and when the occupied area is smaller than the preset value, the size of the preset selecting frame is adjusted based on the ratio of the occupied area to the preset value, the adjusted selecting frame is selected in the occupied area in a moving mode, and when the number of the intelligent points selected in the adjusted selecting frame is the largest, the adjusted accurate map in the selecting frame is used as the accurate map of the initial display interface.

Preferably, the monitoring device further comprises:

the pumping detection device is used for detecting the current, the voltage, the flow and the power of the pumping;

and the water quality detection device is used for detecting the water quality parameters of the water service terminal.

Preferably, the monitoring device further comprises: the microphone array is electrically connected with the local control equipment;

the local control device performs the following operations:

collecting environmental sound of the water service terminal through a microphone array;

analyzing the environmental sound to determine whether a target audio exists; when the target audio exists, positioning the sound source position of the target audio based on a sound source positioning technology;

controlling the three-axis pan-tilt to rotate so that the camera shoots an image of the sound source position;

uploading the image to a cloud server through gateway equipment;

wherein the target audio is audio corresponding to the abnormal state stored in the memory of the local control device.

Preferably, the local control device further performs the following operations:

a first image taken by a camera is acquired in real time,

determining state parameters of a three-axis pan-tilt head when a camera shoots a first image;

acquiring a historical image shot by a camera based on the state parameters;

comparing the first image with the historical image, determining an abnormal object in the first image, and displaying the abnormal object in a highlighted form when the first image is displayed;

displaying the abnormal object in a highlighted form, including:

drawing the outline of the abnormal object by a preset line, and/or indicating the abnormal object by an indicating arrow;

when receiving that a user clicks an area of an abnormal object in a first image, amplifying the abnormal object to a preset size; the preset size is such that the abnormal object occupies a preset area in the middle of the display screen.

The invention provides a live-action monitoring software device which is applied to any one cloud server and comprises the following components:

the instruction receiving unit is used for receiving an instruction sent by the live-action monitoring device to the cloud server;

the feedback receiving unit is used for receiving feedback data of the cloud server for the instruction response;

and the data sending unit is used for sending the feedback data to the real scene monitoring device.

The invention also provides a real-scene monitoring device, which is applied to any one of the intelligent operation and maintenance monitoring systems and is used for being in communication connection with the cloud server, generating a corresponding instruction according to the operation of a user, sending the instruction to the cloud server and receiving feedback data of the cloud server for the instruction response;

the method comprises the following steps: the device comprises a processor, a touch screen, a camera and a wireless communication module;

the processor is respectively electrically connected with the touch screen, the camera and the wireless communication module;

when the touch screen displays an accurate map interface, a processor generates a first operation instruction when a user clicks a response area corresponding to a positioning point or an intelligent point on the touch screen once; the first operation instruction corresponds to a first operation of selecting a positioning point or an intelligent point on the accurate map interface by a user;

when the touch screen displays an accurate map interface, the processor generates a second operation instruction when a user presses a response area corresponding to a positioning point or an intelligent point on the touch screen and slides upwards; the second operation instruction corresponds to a second operation of the user for viewing the monitoring image of the water affair terminal corresponding to the positioning point or the intelligent point on the accurate map interface;

when the touch screen displays the accurate map interface, and the temporary display window displays the monitoring images of the monitoring equipment selected in advance and/or circularly displays the monitoring images of each monitoring equipment in the water affair terminal on the upper portion of the accurate map interface, and when a user clicks an area outside the temporary display window of the accurate map interface, the processor generates a third operation instruction corresponding to a third operation of quitting viewing the monitoring image of the water affair terminal corresponding to the locating point or the intelligent point, and when the user clicks the area of the temporary display window, the processor generates a fourth operation instruction corresponding to a fourth operation of amplifying and displaying the display image corresponding to the user clicking area.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic diagram of an intelligent operation and maintenance monitoring system according to an embodiment of the present invention;

FIG. 2 is a diagram of a real-world monitoring software device according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a real-scene monitoring device according to an embodiment of the present invention.

In the figure:

1. monitoring equipment; 2. a local control device; 3. a gateway device; 4. a cloud server; 11. an instruction receiving unit; 12. a feedback receiving unit; 13. a data transmitting unit; 31. a processor; 32. a touch screen; 33. a camera; 34. a wireless communication module.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

An embodiment of the present invention provides an intelligent operation and maintenance monitoring system, as shown in fig. 1, including:

the monitoring equipment 1 is arranged near the water service terminal and used for monitoring the environment and the running state of the water service terminal;

the local control equipment 2 is in communication connection with the monitoring equipment 1 and is used for managing and controlling the monitoring equipment 1;

a gateway device 3 electrically connected to the local control device 2;

and the cloud server 4 is connected with the local control equipment 2 through the gateway equipment 3.

The working principle and the beneficial effects of the technical scheme are as follows:

a monitoring device 1 is arranged near or on the water service terminal to monitor the environment and the running state of the water service terminal, and the monitoring device 1 can be a camera device, a detection device and the like; the local control device 2 controls the monitoring device 1 and obtains parameters detected by the monitoring device 1 or a shot image; the detected parameters or the shot images are sent to a cloud server 4 through a gateway device 3; the management operation and maintenance personnel of the water affair terminal can monitor the corresponding water affair terminal in real time by logging in the cloud server 4. The local control device 2 is set for one water service terminal, that is, the local control device 2 and the water service terminal are set in a one-to-one correspondence manner, all the water service terminals are managed on the cloud server 4, and the local control device 2 corresponding to the water service terminal is used as a distinguishing identifier.

In one embodiment, the monitoring device 1 comprises: the device comprises a three-axis pan-tilt and a camera arranged on the three-axis pan-tilt;

the cloud server 4 performs the following operations:

when a user enters a remote control interface of the monitoring device 1, the authority of the user is verified;

when the user has the remote control right of the monitoring device 1, the remote control interface is in an operable state; otherwise, the remote operation interface is in an inoperable state.

the camera can shoot in all directions without dead angles through the three-axis pan-tilt, fixed-point shooting can be carried out under the control of operation and maintenance personnel (users), the focal length of the camera can be adjusted, and local amplification shooting can be realized; the operation authority of the user is verified, and the safety of the shooting operation of the camera is guaranteed; one camera and the corresponding three-axis pan-tilt head only allow one user to have remote operation permission at the same time; the camera and the corresponding three-axis pan-tilt head are prevented from receiving a plurality of operation instructions and being irradiated into the error of the program of the camera.

In one embodiment, the cloud server 4 includes:

the user-defined precision map module performs the following operations:

acquiring an accurate map template;

wherein the first format is: displaying a preset icon in a first color (for example, green) at a position corresponding to the positioning point on the accurate map template;

the second format is: displaying a preset icon in a second color (such as yellow) at a position corresponding to the intelligent point on the accurate map template, and displaying state information of the water affair terminal corresponding to the intelligent point by using a preset suspension frame;

the state information includes:

when the local control equipment 2 of the water service terminal has alarm output, displaying an alarm code and/or alarm information;

changing the display mode of the suspension frame according to the state information; when the state information is that the local control device 2 of the water service terminal has an alarm output, the border of the frame is painted in a prominent color (e.g., red).

the system can load an accurate map, can accurately position the equipment terminal, can call third-party navigation software to accurately reach a positioning point, and can also use built-in navigation to plan a route. The system can add 'intelligent points' manually, and can name, add description, add pictures, videos and voices to the 'intelligent points'. The pictures and small videos can be added from the local place or the camera can be called to shoot on the spot. When adding "wisdom point", the system can automatic record acquisition time, longitude and latitude and position information. And the intelligent points can be modified and added subsequently by adding and editing. The intelligent points can be loaded on a map, and the distribution condition and the relative position of each intelligent point can be seen clearly. The system can back up the 'smart point' to the cloud server, can synchronously back up on different terminal devices, and can also share the 'smart point' with friends, so that the opposite side can see the 'smart point'.

The accurate map interface is a preset starting interface for logging in the cloud server 4 by operation and maintenance personnel; each water affair terminal controlled by the cloud server 4 is displayed on the accurate map interface, and is displayed on the map in a positioning point mode on the accurate map interface; the user can set the positioning point facility as an intelligent point, generally set a water affair terminal in charge of the user as the intelligent point, and the intelligent point and the positioning point are obviously different in display, so that operation and maintenance personnel can find the intelligent point at a glance; and the intelligent point also displays the state information of the corresponding water affair terminal on an accurate map interface, so that operation and maintenance personnel can conveniently manage the water affair terminal. In addition, when the water affair terminal gives an alarm, the display information and the display state of the state information frame can be directly seen, and great convenience is brought to monitoring of a user.

In one embodiment, the cloud server 4 includes:

the accurate map operation module executes the following operations:

when receiving a second operation of a user for checking the monitoring image of the water affair terminal corresponding to the positioning point or the intelligent point on the accurate map interface, displaying the monitoring image of the pre-selected monitoring equipment 1 on a temporary display window suspended at the upper part of the accurate map interface and/or circularly displaying the monitoring image of each monitoring equipment 1 in the water affair terminal.

the operation and maintenance personnel enter a checking management interface of the corresponding water affair terminal by clicking the positioning point to check and manage the operation parameters of the water affair terminal and the camera equipment arranged at the water affair terminal; the screen can be directly viewed and monitored in the accurate map interface, so that operation and maintenance personnel can conveniently check the screen, and the monitoring efficiency of the operation and maintenance personnel is improved. In addition, when the water affair terminal is in the maintenance state, the positioning point corresponding to the accurate map interface is in a grey inoperable state.

In one embodiment, the cloud server 4 further includes:

the accurate map display module performs the following operations:

establishing an accurate map mapping space based on the accurate map;

acquiring an intelligent point list correspondingly stored by a user;

through the determination of the initial display interface, the accurate map interface is displayed at the position which the user wants, and operations of translating the map, amplifying the map and the like of the user on the accurate map are omitted. Adjusting the size of a preset election frame based on the ratio of the occupied area to a preset value; the adjustment is mainly to narrow the selection frame, so that the final initial display interface contains as many intelligent points as possible.

In one embodiment, the monitoring device 1 further comprises:

monitoring the running condition of a pump in the water service terminal through a pump detection device, and specifically detecting current, voltage, flow, power and the like; water quality parameters in the water service terminal are monitored through a water quality monitoring device, and the water quality parameters comprise a PH value, a conductivity value, turbidity and the like.

In one embodiment, the monitoring device 1 further comprises: a microphone array electrically connected to the local control device 2;

the local control device 2 performs the following operations:

uploading the image to a cloud server 4 through a gateway device 3;

wherein the target audio is the audio of the corresponding abnormal state stored in the memory of the local control device 2.

abnormal state detection is realized through the matching of a microphone array and a camera device (a camera and a three-axis pan-tilt), and an abnormal state image is shot; the abnormal state includes: animals and pedestrians fall into water carelessly; abnormal ringing of the device; object striking devices, etc.; the water service terminal is prevented from being damaged manually or accidentally. After the image is uploaded to the cloud server 4, the cloud server 4 sends information and the image corresponding to the abnormal state to the operation and maintenance personnel. Analyzing the environmental sound comprises separating a sound source and separating sound; comparing the separated sound with the target audio; the target audio is pre-stored locally in the memory of the control device.

In one embodiment, the local control device 2 also performs the following operations:

a first image taken by a camera is acquired in real time,

acquiring a historical image shot by a camera based on the state parameters;

displaying the abnormal object in a highlighted form, including:

determining an abnormal object through comparison between the current image and the historical image, and highlighting the abnormal object so that operation and maintenance personnel can visually observe the abnormality; and when the operation and maintenance personnel click the area of the abnormal object, the abnormal object is directly amplified to the preset size, so that the operation and maintenance personnel can conveniently confirm the details of the abnormal object, and the monitoring efficiency of the operation and maintenance personnel is improved.

In one embodiment, the cloud server 4 further performs the following operations:

constructing a three-dimensional model according to a concrete result of the water affair terminal; and identifying each parameter of the water affair terminal on the three-dimensional model, and labeling the abnormal parameter in a prominent mode.

and the operation and maintenance personnel can monitor the water affair terminal more intuitively in a way of marking the three-dimensional model.

The invention provides a live-action monitoring software device, as shown in fig. 2, applied to any one of the cloud servers 4, including:

the instruction receiving unit 11 is configured to receive an instruction sent by the live-action monitoring device to the cloud server 4;

a feedback receiving unit 12, configured to receive feedback data of the cloud server 4 for the instruction response;

and a data sending unit 13, configured to send feedback data to the live-action monitoring apparatus.

the data interaction between the live-action monitoring device and the cloud server 4 is realized through live-action monitoring software equipment, and a foundation is provided for operation and maintenance personnel to monitor the operation and the surrounding environment of the water service terminal by adopting an intelligent operation and maintenance monitoring system.

The invention further provides a real-scene monitoring device, as shown in fig. 3, which is applied to any one of the above intelligent operation and maintenance monitoring systems, and is used for being in communication connection with the cloud server 4, generating a corresponding instruction according to the operation of a user, sending the instruction to the cloud server 4, and receiving feedback data of the cloud server 4 for the instruction response;

the method comprises the following steps: the system comprises a processor 31, a touch screen 32, a camera 33 and a wireless communication module 34;

the processor 31 is electrically connected with the touch screen 32, the camera 33 and the wireless communication module 34 respectively;

when the touch screen 32 displays an accurate map interface, and a user clicks a response area corresponding to a positioning point or an intelligent point on the touch screen 32 once, the processor 31 generates a first operation instruction; the first operation instruction corresponds to a first operation of selecting a positioning point or an intelligent point on the accurate map interface by a user;

when the touch screen 32 displays the accurate map interface, and the user presses and holds a response area corresponding to a positioning point or an intelligent point on the touch screen 32 and slides upwards, the processor 31 generates a second operation instruction; the second operation instruction corresponds to a second operation of the user for viewing the monitoring image of the water affair terminal corresponding to the positioning point or the intelligent point on the accurate map interface;

when the touch screen 32 displays the accurate map interface and the monitoring images of the monitoring devices 1 selected in advance and/or the monitoring images of the monitoring devices 1 in the water affair terminal are displayed on the upper portion of the accurate map interface through the temporary display window, and a user clicks an area outside the temporary display window of the accurate map interface, the processor 31 generates a third operation instruction corresponding to a third operation of quitting viewing the monitoring images of the water affair terminal corresponding to the positioning point or the intelligent point, and when the user clicks the area of the temporary display window, the processor 31 generates a fourth operation instruction corresponding to a fourth operation of magnifying and displaying the display images corresponding to the user clicked area.

the operation and maintenance personnel use the real scene monitoring device to monitor the water service terminal, and the operation comprises the following steps: and selecting a corresponding water affair terminal through the accurate map interface, entering a viewing management interface of the water affair terminal, and performing parameter query and real-time video viewing management. The camera 33 is used for taking pictures and obtaining evidence after operation and maintenance personnel arrive at the water service terminal site after the water service terminal is abnormal, and the built-in program of the live-action monitoring device directly sends the pictures to the cloud server 4. The processor 31 generates different operation instructions for different operations of the operation and maintenance personnel on the touch screen 32, which is convenient for the operation of the monitoring screen and the switching of the monitoring objects of the operation and maintenance personnel.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. An intelligent operation and maintenance monitoring system, comprising:

the monitoring equipment (1) is arranged near the water service terminal and is used for monitoring the environment and the running state of the water service terminal;

the local control equipment (2) is in communication connection with the monitoring equipment (1) and is used for managing and controlling the monitoring equipment (1);

a gateway device (3) electrically connected to the local control device (2);

and the cloud server (4) is connected with the local control equipment (2) through the gateway equipment (3).

2. The intelligent operation and maintenance monitoring system according to claim 1, wherein the monitoring device (1) comprises: the device comprises a three-axis pan-tilt and a camera arranged on the three-axis pan-tilt;

the cloud server (4) performs the following operations:

when a user enters a remote control interface of the monitoring device (1), the authority of the user is verified;

when the user has the remote control authority of the monitoring device (1), the remote control interface is in an operable state; otherwise, the remote operation interface is in an inoperable state.

3. The intelligent operation and maintenance monitoring system according to claim 1, wherein the cloud server (4) comprises:

the user-defined precision map module executes the following operations:

acquiring an accurate map template;

positioning the water affair terminal on the accurate map template to determine a positioning point; marking the positioning point on the accurate map template in a first format;

receiving an operation that a user sets the selected positioning point as an intelligent point, and when the positioning point is set as the intelligent point, marking the intelligent point on the accurate map template in a second format;

receiving the management operation of a user on the intelligent point; the management operation comprises: naming, adding description, adding picture, adding small video and adding voice;

the state information includes:

when the water service terminal runs well, displaying preset monitoring parameters of the water service terminal or monitoring parameters of the water service terminal selected by a user;

when the local control equipment (2) of the water affair terminal has alarm output, displaying an alarm code and/or alarm information;

changing the display mode of the suspension frame according to the state information; and when the state information is that the local control equipment (2) of the water service terminal outputs an alarm, coloring the frame of the suspension frame by a prominent color.

4. The intelligent operation and maintenance monitoring system according to claim 3, wherein the cloud server (4) comprises:

the accurate map operation module executes the following operations:

when a first operation that a user selects the positioning point or the intelligent point on the accurate map interface is received, entering a viewing management interface of the water affair terminal corresponding to the positioning point or the intelligent point;

and when receiving a second operation of viewing the monitoring image of the water affair terminal corresponding to the positioning point or the intelligent point on the accurate map interface, displaying the monitoring image of the monitoring equipment (1) selected in advance by using a temporary display window suspended at the upper part of the accurate map interface and/or circularly displaying the monitoring image of each monitoring equipment (1) in the water affair terminal.

5. The intelligent operation and maintenance monitoring system according to claim 3, wherein the cloud server (4) further comprises:

the accurate map display module performs the following operations:

establishing an accurate map mapping space based on the accurate map;

acquiring the intelligent point list correspondingly stored by the user;

mapping the intelligent point in the intelligent point list to the accurate map mapping space;

comparing the number of the intelligent points in each accurate map grid, and taking the accurate map grid with the largest number as a display grid corresponding to the initial display interface;

when the occupied area is larger than or equal to a preset value, a preset selecting frame is used for moving and selecting in the occupied area, and when the number of the intelligent points selected in the selecting frame is the largest, an accurate map in the selecting frame is used as an accurate map of an initial display interface;

when the occupied area is smaller than a preset value, the size of the preset marquee is adjusted based on the ratio of the occupied area to the preset value, the adjusted marquee is selected in the occupied area in a moving mode, and when the number of the intelligent points selected in the adjusted marquee is the largest, the adjusted accurate map in the marquee is used as the accurate map of the initial display interface.

6. The intelligent operation and maintenance monitoring system according to claim 1, wherein the monitoring device (1) further comprises:

7. The intelligent operation and maintenance monitoring system according to claim 2, wherein the monitoring device (1) further comprises: a microphone array electrically connected to the local control device (2);

the local control device (2) performs the following operations:

collecting environmental sound of the water affair terminal through the microphone array;

controlling the three-axis pan-tilt to rotate, so that the camera shoots an image of the sound source position;

uploading the image to the cloud server (4) through the gateway device (3);

wherein the target audio is an audio of a corresponding abnormal state stored in a memory of the local control device (2).

8. The intelligent operation and maintenance monitoring system according to claim 2, characterized in that the local control device (2) further performs the following operations:

acquiring a first image taken by the camera in real time,

determining state parameters of the three-axis pan-tilt head when the camera shoots the first image;

acquiring a historical image shot by the camera based on the state parameter;

the displaying the abnormal object in a highlighted form includes:

when receiving that a user clicks the area of the abnormal object in the first image, amplifying the abnormal object to a preset size; the preset size is a preset area of the middle of the display screen occupied by the abnormal object.

9. A live-action monitoring software device applied to the cloud server (4) of any one of claims 1 to 8, comprising:

the instruction receiving unit (11) is used for receiving an instruction sent by the live-action monitoring device to the cloud server (4);

a feedback receiving unit (12) for receiving feedback data of the cloud server (4) for the instruction response;

and the data sending unit (13) is used for sending the feedback data to the real scene monitoring device.

10. A live-action monitoring device applied to the intelligent operation and maintenance monitoring system according to any one of claims 1 to 8, and configured to be in communication connection with the cloud server (4), generate a corresponding instruction according to a user operation, send the instruction to the cloud server (4), and receive feedback data of a response of the cloud server (4) to the instruction;

the method comprises the following steps: the device comprises a processor (31), a touch screen (32), a camera (33) and a wireless communication module (34);

the processor (31) is electrically connected with the touch screen (32), the camera (33) and the wireless communication module (34) respectively;

when the touch screen (32) displays an accurate map interface, and a user clicks a response area corresponding to a positioning point or an intelligent point on the touch screen (32) once, the processor (31) generates a first operation instruction; the first operation instruction corresponds to a first operation of selecting the positioning point or the intelligent point on the precision map interface by a user;

when the touch screen (32) displays an accurate map interface, and a user presses and holds a response area corresponding to the positioning point or the intelligent point on the touch screen (32) and slides upwards, the processor (31) generates a second operation instruction; the second operation instruction corresponds to a second operation of the user for viewing the monitoring image of the water affair terminal corresponding to the positioning point or the intelligent point on an accurate map interface;

when the touch screen (32) displays a precision map interface and displays monitoring images of pre-selected monitoring equipment (1) on the upper portion of the precision map interface through a temporary display window and/or circularly displays the monitoring images of each monitoring equipment (1) in the water affair terminal, and a user clicks an area outside the temporary display window of the precision map interface, the processor (31) generates a third operation instruction corresponding to a third operation of quitting viewing the monitoring images of the water affair terminal corresponding to the positioning point or the intelligent point, and when the user clicks the area of the temporary display window, the processor (31) generates a fourth operation instruction corresponding to a fourth operation of magnifying and displaying the display images corresponding to the user clicked area.