CN112994226A - Method and system for integrating electrical equipment monitoring diagrams - Google Patents

Abstract

The invention provides a method and a system for integrating electrical equipment monitoring diagrams, wherein the method comprises the following steps: the method comprises the steps that electrical equipment in the power distribution network is grouped in a user-defined mode, and each group of electrical equipment forms an independent monitoring interface; editing each group of electrical equipment monitoring interface diagrams, and generating a monitoring diagram of the electrical equipment according to the electrical equipment configuration monitoring information; acquiring real-time monitoring information of the electrical equipment, and transmitting the real-time monitoring information to a monitoring graph of the electrical equipment; and displaying real-time monitoring information of the electrical equipment in the monitoring graph. The method and the system for integrating the electrical equipment monitoring diagrams can classify or group the electrical equipment, form an independent monitoring interface for each group of electrical equipment, and switch the monitoring diagrams at any time, so that the monitoring becomes flexible, diversified and simplified.

Description

Method and system for integrating electrical equipment monitoring diagrams

Technical Field

The invention belongs to the technical field of power electrical equipment, and particularly relates to a method and a system for integrating a monitoring chart of electrical equipment.

Background

With the increase of electrical equipment in a power distribution system, higher requirements are provided for the stability and the safety of the power distribution system, and important electrical parameters such as voltage and current of the electrical equipment need to be monitored in real time in many scenes so as to conveniently judge the working condition of the electrical equipment.

The existing monitoring mode is to monitor and display a certain electrical parameter of all electrical equipment in a unified way. For example, monitoring the electricity consumption in a building displays the electricity consumption of all the electrical devices on a monitoring page, so as to visually know the electricity consumption of each electrical device. However, as the types and the number of the electrical devices increase, the content and the mode of monitoring also become complicated from single to complex, and besides the need to know a certain electrical parameter quantity of all the electrical devices, the need to know each electrical parameter quantity of a certain device and the comparison of the electrical parameter quantities among some electrical devices with higher relevance also puts higher demands on the content and the mode of monitoring.

In view of the above, the present invention discloses a method and system for integrating a monitoring graph of an electrical device to solve the above problems.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a method and a system for integrating electrical equipment monitoring graphs, which can achieve the purpose of comprehensively monitoring all parameters and information with higher relevance, namely parameters and information among electrical equipment divided into a group, so that the monitoring content is more comprehensive and efficient.

In order to achieve the above object, the present invention provides a method for integrating electrical equipment monitoring diagrams, which is used for monitoring relevant information of electrical equipment located in a power distribution network, and comprises the following steps: the method comprises the steps that electrical equipment in the power distribution network is grouped in a user-defined mode, and each group of electrical equipment forms an independent monitoring interface; editing each group of electrical equipment monitoring interface diagrams, and generating a monitoring diagram of the electrical equipment according to the electrical equipment configuration monitoring information; acquiring real-time monitoring information of the electrical equipment, and transmitting the real-time monitoring information to a monitoring graph of the electrical equipment; and displaying real-time monitoring information of the electrical equipment in the monitoring graph.

Preferably, the electrical devices in the power distribution network are grouped in a user-defined manner, and each group of electrical devices forms an independent monitoring interface, which means that a monitoring interface in at least one form of the following forms is formed: electrical diagram, location diagram, network diagram.

Further, editing each group of electrical device monitoring interface diagrams, configuring the electrical device information according to the content to be monitored, and generating the monitoring diagrams of the electrical devices, including: and adding the circuit diagram of the electrical equipment, the corresponding components and the parameters of the corresponding components according to the electrical equipment to be monitored, and generating the monitoring diagram of the electrical equipment.

Further, after the step of editing the monitoring interface of the electrical device, configuring a circuit diagram of the electrical device, a corresponding component, and monitoring data of the corresponding component to be monitored, and generating a monitoring diagram of the electrical device, the method further includes: and matching the electrical equipment with corresponding components to enable the electrical equipment and the components to form one-to-one correspondence.

Further, matching the electrical device with a corresponding component means that: and binding the unique identification ID between the component and the electrical equipment to acquire the monitoring information of the component as the monitoring information of the electrical equipment.

Further, acquiring the real-time monitoring information of the electrical device, and transmitting the real-time monitoring information to the monitoring graph of the electrical device means: and accessing the real-time data interface of the electrical equipment at regular time, acquiring the real-time data of the electrical equipment, and transmitting the real-time data to the monitoring chart of the electrical equipment.

Preferably, the monitoring information includes at least one of: basic electrical parameters, protection information, load information, adaptive information.

A system for integrating electrical equipment monitoring graphs for monitoring information about electrical equipment located in an electrical distribution network, comprising: the system comprises a definition unit, a monitoring unit and a control unit, wherein the definition unit carries out user-defined grouping on electrical equipment in the power distribution network, and each group of electrical equipment forms an independent monitoring interface; the editing unit is used for editing each group of electrical equipment monitoring interface diagrams and generating the monitoring diagrams of the electrical equipment according to the electrical equipment configuration monitoring information; the acquisition unit is used for acquiring real-time monitoring information of the electrical equipment and transmitting the real-time monitoring information to a monitoring graph of the electrical equipment; and the display unit is used for displaying the real-time monitoring information of the electrical equipment in the monitoring graph.

Further, the editing unit edits each group of electrical equipment monitoring interface diagrams, configures the electrical equipment information according to the content to be monitored, and generates the monitoring diagrams of the electrical equipment, including: and the adding unit is used for adding the circuit diagram of the electrical equipment, the corresponding component and the data of the corresponding component according to the electrical equipment needing to be monitored, and generating the monitoring diagram of the electrical equipment.

Further, the method also comprises the following steps: and the matching unit is used for matching the electrical equipment with the corresponding component so as to acquire the monitoring information of the component and transmit the monitoring information to the monitoring graph of the electrical equipment.

Further, the monitoring system further comprises an access unit, which is used for accessing the real-time data interface of the electrical equipment at regular time, acquiring the real-time data of the electrical equipment, and transmitting the real-time data to the monitoring diagram of the electrical equipment.

The method and the system for integrating the monitoring chart of the electrical equipment have the advantages that: the method and the system for integrating the electrical equipment monitoring diagrams can classify or group the electrical equipment, form an independent monitoring interface for each group of electrical equipment, and can also independently select components or distribution lines to be monitored according to each group of installed electrical equipment after the electrical equipment is grouped, acquire monitoring information of the components in real time, display monitoring contents in a data or graphic intuitive mode, facilitate monitoring personnel to know the connection relation of the on-site electrical equipment, switch the monitoring diagrams at any time, add or delete the electrical equipment to be monitored according to actual conditions, and enable monitoring to be flexible, diversified and simplified. Make things convenient for monitoring personnel to know on-the-spot electrical equipment's relation of connection and distribution lines, the topological structure of more definite display distribution lines can be more accurate moreover judge that equipment has the position of non-failure and accurate positioning failure equipment.

Drawings

Fig. 1 is a flowchart of a method for providing a monitoring diagram of an integrated electrical device according to an embodiment of the present invention;

fig. 2 is a flowchart of a method for monitoring an integrated electrical device according to a second embodiment of the present invention;

fig. 3 is a system structure diagram of a monitoring diagram of an integrated electrical device according to a third embodiment of the present invention;

fig. 4 is a schematic diagram of a monitoring diagram of an integrated electrical device according to an embodiment of the present invention;

fig. 5 is a schematic view of a monitoring diagram of an integrated electrical device according to a second embodiment of the present invention;

fig. 6 is a schematic view of a monitoring diagram of an integrated electrical device according to a second embodiment of the present invention;

fig. 7 is a schematic view of a monitoring diagram of an integrated electrical device according to a second embodiment of the present invention.

Detailed Description

The method and system for integrated electrical device monitoring diagram of the present invention are described in detail below with reference to the accompanying drawings.

Example one

Fig. 1 is a flowchart of a method for monitoring a diagram of an integrated electrical device according to an embodiment of the present invention. Referring to fig. 1, the method for integrating an electrical equipment monitoring diagram according to the present invention is used for monitoring information related to electrical equipment located in a power distribution network, and includes the following steps:

s101, carrying out user-defined grouping on the electrical equipment in the power distribution network, wherein each group of electrical equipment forms an independent monitoring interface; s102, editing each group of electrical equipment monitoring interface diagrams, and generating the monitoring diagrams of the electrical equipment according to the electrical equipment configuration monitoring information; s103, acquiring real-time monitoring information of the electrical equipment, and transmitting the real-time monitoring information to a monitoring graph of the electrical equipment; and S104, displaying the real-time monitoring information of the electrical equipment in the monitoring graph.

Specifically, in the step S101, after the monitoring interfaces of the electrical devices in the upper computer or the APP are opened, all the electrical devices in the power distribution network may be grouped by user-defined, so that each group of electrical devices forms an independent monitoring interface. The self-defined grouping refers to grouping the electrical equipment according to the mutual correlation, mutual positions or network conditions of the electrical equipment, and certainly, the grouping can be performed in other modes according to the actual field. For example, when grouping electrical devices according to their positional relationships, the electrical devices connected in a certain area or a certain circuit are generally grouped into one group, and then the electrical devices are displayed in the form of a topological graph, a tree graph, or a hierarchical graph.

Fig. 4 is a schematic view of an integrated electrical device monitoring diagram provided in an embodiment of the present invention, and referring to fig. 4, in an embodiment of the present invention, electrical devices in a power distribution network are grouped according to an electrical diagram, a location diagram, and a network diagram, and then are arranged according to a topological form, and the electrical devices in the electrical diagram, the location diagram, and the network diagram may be edited, and if a certain electrical device is needed, the electrical device may be edited and added, or if a certain electrical device is not needed, the electrical device may be deleted. The electrical devices may be represented by icons or symbols, the names of which may also be modified as desired.

Specifically, in step S102, after entering each group of electrical equipment individual monitoring interfaces, editing is performed, information to be monitored is selected in the electrical equipment interfaces, and an icon or a graphic linked with the monitoring information is added, so that a monitoring graph of the electrical equipment is generated.

Specifically, in step S103, the information of the electrical device in the monitoring diagram and the information of the electrical device in the actual field are in one-to-one correspondence, the real-time data of the field electrical device, wherein in order to obtain the real-time data of the field electrical device, a timing access needs to be set in this embodiment to the real-time data interface of the electrical device, obtain the real-time data of the electrical device, transmit the real-time data to the monitoring diagram of the electrical device, and upload the real-time data to the monitoring diagram of the host computer or the software APP through the network. .

Specifically, in step S104, real-time monitoring information of the electrical device is displayed in a monitoring diagram of the upper computer or the software APP in a digital or graphic manner, where the monitoring information at least includes at least one of basic electrical parameters, protection information, load information, and adaptive information.

The method of the present invention for integrating the monitoring diagrams of electrical devices will be described by taking the current monitoring of the loop of a distribution box in a building as an example. When the loop current of the distribution box needs to be monitored, a monitoring interface graph in an upper computer or a software APP is opened, all electrical equipment in the distribution box can be subjected to user-defined grouping, a grouping monitoring interface of the distribution box is selected, an editing button is clicked, an icon of the distribution box is added, the icon of the distribution box is clicked again, a current icon or a symbol is selected, and the current monitoring graph of the distribution box is generated in a distribution box option in an electrical equipment topological graph of the monitoring interface. And then, the distribution boxes in the monitoring graph correspond to the distribution boxes in the actual site one by one, real-time data of the current in the distribution boxes in the site are obtained, uploaded to the monitoring graph of the host computer or the software APP, and displayed in a digital or graphic form, so that the change of the current of the distribution boxes can be reflected visually.

The method for integrating the electrical equipment monitoring diagrams can classify or group the electrical equipment, form an independent monitoring interface for each group of electrical equipment, display monitoring contents in a data or graphic visual mode, facilitate monitoring personnel to know the connection relation of the on-site electrical equipment, switch the monitoring diagrams at any time, and add or delete the electrical equipment to be monitored according to actual conditions, so that the monitoring becomes flexible, diversified and simplified.

Example two

Fig. 2 is a method for monitoring a diagram of an integrated electrical device according to a second embodiment of the present invention. Referring to fig. 2, the method for integrating an electrical equipment monitoring diagram according to the present invention is used for monitoring information related to electrical equipment located in a power distribution network, and includes the following steps:

s201, carrying out user-defined grouping on the electrical equipment in the power distribution network, wherein each group of electrical equipment forms an independent monitoring interface; s202, editing each group of electrical equipment monitoring interface diagrams, and generating the monitoring diagrams of the electrical equipment according to the electrical equipment configuration monitoring information; s203, adding a circuit diagram of the electrical equipment, corresponding components and parameters of the corresponding components according to the electrical equipment to be monitored, and generating a monitoring diagram of the electrical equipment; s204, matching the electrical equipment with the corresponding component; s205, acquiring monitoring information of the component, and transmitting the monitoring information to a monitoring diagram of the electrical equipment; s206, displaying the real-time monitoring information of the electrical equipment in the monitoring graph.

The step S201 in the second embodiment is the same as the step S101 in the first embodiment, and is not described herein again.

Specifically, in step S202, each group of electrical device monitoring interface diagrams are edited, and the monitoring diagrams of the electrical devices are generated according to the electrical device configuration monitoring information, wherein step S203 is further included, the editing is performed after entering each group of electrical device individual monitoring interfaces, the information to be monitored is selected in the electrical device interfaces, the circuit diagrams of the electrical devices, the corresponding components and the icons or the graphs corresponding to the parameters of the components are added according to the information to be monitored, and the monitoring diagrams of the electrical devices are generated.

Specifically, in step S204, matching the electrical device with the corresponding component specifically means binding the component and the electrical device with a unique identifier ID to obtain monitoring data of the component as monitoring data of the electrical device, and then transmitting the obtained monitoring data of the component to a monitoring graph of the electrical device. In order to obtain the real-time data of the field electrical equipment, a real-time data interface which is used for accessing the electrical equipment at regular time needs to be arranged in the embodiment, so that the real-time data of the electrical equipment is obtained, transmitted to the monitoring graph of the electrical equipment and uploaded to an upper computer or the monitoring graph of a software APP through a network. .

The second embodiment S205 is the same as the first embodiment S103, and the second embodiment S206 is the same as the first embodiment S104, and will not be described herein again.

The method of integrating the electrical equipment monitoring graph of the present aspect will now be described by taking the monitoring of electrical equipment power distribution circuits in certain areas of the Lankao area as an example. Referring to fig. 4, 5 and 6, opening a position diagram in a monitoring interface diagram in an upper computer or software APP, grouping all electrical devices in a power distribution network according to regions, and referring to fig. 5, grouping several positions to be monitored in a Lankao area according to the embodiment, wherein the positions are divided into a auditorium, a cultural communication center, a civil square, a focus and position memorial park and a focus and position school. And continuously subdividing the groups according to the positions to form an electrical equipment map structure chart according to the positions.

When the monitoring data of the meeting room in the focal position commemorative garden needs to be checked, the option of the meeting room can be opened, wherein a plurality of groups of loop information in the meeting room are displayed. And adding required component icons in the loop sub-options of the meeting room options, referring to fig. 6, adding dozens of items of information such as batteries, electric quantity, residual current, electric fire and the like, and generating a monitoring graph of the meeting room power distribution loop.

The components and the electrical equipment are bound by unique identification IDs, circuits matched with the components and the real-time data of the components in the electrical equipment are called, the real-time data are uploaded to a meeting room power distribution loop monitoring graph through a network, the real-time monitoring information of the meeting room power distribution loop is displayed in a digital or graphic mode, and as shown in a reference figure 7, after a residual current icon is clicked, the real-time data of residual current can be displayed.

The method for integrating the electrical equipment monitoring diagrams can automatically select the components or the distribution lines to be monitored according to each group of installed electrical equipment after the electrical equipment is grouped, acquire the monitoring information of the components in real time, display the monitoring content in a data or graphic mode, facilitate monitoring personnel to know the connection relation of the on-site electrical equipment and the distribution lines, switch the monitoring diagrams at any time, display the topological structure of the distribution lines more clearly, and judge whether the equipment has faults and accurately position the position of the faulty equipment.

EXAMPLE III

Fig. 3 is a system configuration diagram of an integrated electrical device monitoring diagram according to a third embodiment of the present invention. Referring to fig. 3, the system 300 for integrating electrical equipment monitoring diagrams according to the present invention comprises the following elements: a definition unit 301, an editing unit 302, an acquisition unit 303, and a display unit 304.

Specifically, the system 300 for integrating electrical equipment monitoring diagrams is used for monitoring relevant information of electrical equipment located in a power distribution network, and the system 300 for integrating electrical equipment monitoring diagrams is used for implementing the method for integrating electrical equipment monitoring diagrams in the first embodiment and the second embodiment.

Specifically, after an electrical device monitoring interface in an upper computer or an application APP is opened, the defining unit 301 performs user-defined grouping on electrical devices in the power distribution network, and each group of electrical devices forms an independent monitoring interface; the editing unit 302 edits each group of electrical equipment monitoring interfaces, and generates a monitoring graph of the electrical equipment according to the electrical equipment configuration monitoring information; the obtaining unit 303 obtains real-time monitoring information of the electrical device, and transmits the real-time monitoring information to a monitoring chart of the electrical device; the display unit 304 displays real-time monitoring information of the electrical equipment in the monitoring map;

further, an adding unit 305 and a matching unit 306 are included. The editing unit 302 edits each group of monitoring interfaces of the electrical devices, specifically, the adding unit 305 adds a circuit diagram, corresponding components and data of the corresponding components of the electrical devices according to the electrical devices to be monitored, and generates a monitoring diagram of the electrical devices; the matching unit 306 is configured to match the electrical device with a corresponding component, so as to obtain monitoring information of the component, and transmit the monitoring information to a monitoring diagram of the electrical device.

Further, the monitoring system further comprises an access unit 307, wherein the access unit 307 accesses the real-time data interface of the electrical equipment at regular time, acquires the real-time data of the electrical equipment, and transmits the real-time data to the monitoring chart of the electrical equipment.

The system for integrating the electrical equipment monitoring diagram provided by the invention can classify or group the electrical equipment, and each group of electrical equipment forms an independent monitoring interface, so that monitoring personnel can know the connection relation of the electrical equipment on site conveniently; the monitoring system can also automatically select the components to be monitored according to each group of installed electrical equipment, acquire monitoring information of the components in real time and display the monitoring information in a data or graph mode, so that monitoring personnel can conveniently realize real-time monitoring of the running state of the power distribution system through a multi-graph integration method, the monitoring becomes flexible, diversified and simplified, the topological structure of the power distribution line can be displayed more clearly, and the equipment can be judged to have no fault and accurately position the position of the faulty equipment.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention, and all such changes or substitutions are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (11)

1. A method of integrating electrical equipment monitoring graphs for monitoring information about electrical equipment located in a power distribution network, comprising the steps of:

the method comprises the steps that electrical equipment in the power distribution network is grouped in a user-defined mode, and each group of electrical equipment forms an independent monitoring interface;

editing each group of electrical equipment monitoring interface diagrams, and generating a monitoring diagram of the electrical equipment according to the electrical equipment configuration monitoring information;

acquiring real-time monitoring information of the electrical equipment, and transmitting the real-time monitoring information to a monitoring graph of the electrical equipment;

and displaying real-time monitoring information of the electrical equipment in the monitoring graph.

2. The method for integrating the electrical equipment monitoring diagrams according to claim 1, wherein the electrical equipment in the power distribution network is grouped in a customized manner, and each group of electrical equipment forms an independent monitoring interface, which means that the monitoring interface in at least one form of the following forms is formed: electrical diagram, location diagram, network diagram.

3. The method for integrating electrical equipment monitoring diagrams according to claim 1, wherein the editing of each group of electrical equipment monitoring interface diagrams, configuring the electrical equipment information according to the content to be monitored, and generating the monitoring diagrams of the electrical equipment comprises: and adding the circuit diagram of the electrical equipment, the corresponding components and the parameters of the corresponding components according to the electrical equipment to be monitored, and generating the monitoring diagram of the electrical equipment.

4. The method for integrating the monitoring diagrams of the electrical equipment according to claim 3, wherein after the step of editing the monitoring interface of the electrical equipment, and generating the monitoring diagram of the electrical equipment according to the configuration circuit diagram of the electrical equipment to be monitored, the corresponding component and the monitoring data of the corresponding component, the method further comprises: and matching the electrical equipment with corresponding components to enable the electrical equipment and the components to form one-to-one correspondence.

5. The method for integrating the monitoring diagrams of the electrical equipment according to claim 4, wherein matching the electrical equipment with the corresponding components means: and binding the unique identification ID between the component and the electrical equipment to acquire the monitoring information of the component as the monitoring information of the electrical equipment.

6. The method for integrating the monitoring chart of the electrical equipment according to claim 1, wherein the step of acquiring the real-time monitoring information of the electrical equipment and transmitting the real-time monitoring information to the monitoring chart of the electrical equipment comprises the following steps: and accessing the real-time data interface of the electrical equipment at regular time, acquiring the real-time data of the electrical equipment, and transmitting the real-time data to the monitoring chart of the electrical equipment.

7. Method of integrating monitoring graphs of electrical devices according to claims 1-6, characterized in that said monitoring information comprises at least one of the following: basic electrical parameters, protection information, load information, adaptive information.

8. A system for integrating electrical equipment monitoring graphs for monitoring information associated with electrical equipment located in a power distribution network, comprising:

the system comprises a definition unit, a monitoring unit and a control unit, wherein the definition unit carries out user-defined grouping on electrical equipment in the power distribution network, and each group of electrical equipment forms an independent monitoring interface;

the editing unit is used for editing each group of electrical equipment monitoring interface diagrams and generating the monitoring diagrams of the electrical equipment according to the electrical equipment configuration monitoring information;

the acquisition unit is used for acquiring real-time monitoring information of the electrical equipment and transmitting the real-time monitoring information to a monitoring graph of the electrical equipment;

and the display unit is used for displaying the real-time monitoring information of the electrical equipment in the monitoring graph.

9. The system of claim 8, wherein the editing unit edits each set of electrical device monitoring interface diagrams, configures the electrical device information according to the content to be monitored, and generates the monitoring diagram of the electrical device, and the system comprises: and the adding unit is used for adding the circuit diagram of the electrical equipment, the corresponding component and the data of the corresponding component according to the electrical equipment needing to be monitored, and generating the monitoring diagram of the electrical equipment.

10. The system of integrating electrical device monitoring maps of claim 9, further comprising: and the matching unit is used for matching the electrical equipment with the corresponding component so as to acquire the monitoring information of the component and transmit the monitoring information to the monitoring graph of the electrical equipment.

11. The system for integrating the monitoring chart of the electrical equipment as claimed in claim 8, further comprising an access unit for accessing the real-time data interface of the electrical equipment at regular time, acquiring the real-time data of the electrical equipment and transmitting the real-time data to the monitoring chart of the electrical equipment.

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