CN111835083B - Power supply information monitoring system, method and device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a power information monitoring system, a method, a device, a computer device and a storage medium. The power supply information of various power sources in the power system is acquired by the power grid monitoring equipment through setting the power grid monitoring equipment, the server and the monitoring terminal, the power supply information of the various power sources is sent to the server and stored in a database of the server, the server is used for reading the various power supply information, the position information and the power supply type corresponding to the various power sources from the database and sending the various power supply information, the position information and the power supply type to the monitoring terminal, and the various power supply information and the corresponding power supply type are displayed on the corresponding position information on the map by the monitoring terminal. Compared with the traditional mode of monitoring and managing the related information of the power supply in the power system through a plurality of organizations, the scheme improves the monitoring efficiency of the power supply information in the power system by utilizing the synergistic effect of the power grid monitoring equipment, the server and the monitoring terminal.

Description

Power supply information monitoring system, method and device, computer equipment and storage medium

Technical Field

The present application relates to the field of power information processing technologies, and in particular, to a power information monitoring system, method, apparatus, computer device, and storage medium.

Background

In the power industry, power is usually provided to users through four stages of production, transmission, distribution and final use. In the process of transmitting and distributing electric power, a plurality of devices are generally needed to manage electric power information, particularly power supply information, in an electric power system, so that the task of managing the power supply information in the electric power system is very heavy, and a plurality of organizations are needed to be responsible for monitoring and managing the production, transmission and distribution activities of the electric power.

Therefore, the traditional method for monitoring the power supply information in the power system has the defect of low monitoring efficiency.

Disclosure of Invention

In view of the above, it is necessary to provide a power information monitoring system, a method, an apparatus, a computer device, and a storage medium capable of improving monitoring efficiency of power information.

A power information monitoring system, comprising: the system comprises power grid monitoring equipment, a server and a monitoring terminal;

the power grid monitoring equipment is used for acquiring power supply information of various power sources in a power system and sending the power supply information of the various power sources to the server so as to store the power supply information in a database of the server; the power supply information at least comprises position information of a power source and a power supply type;

the server is used for reading various power supply information, position information corresponding to each power source and the power supply type from the database and sending the various power supply information, the position information and the power supply type to a monitoring terminal;

and the monitoring terminal is used for displaying the various power supply information and the corresponding power supply types at corresponding positions on a map according to the position information.

In one embodiment, the server includes: a power supply information processing unit;

the server is specifically configured to read multiple types of power supply information from the database, convert the multiple types of power supply information into a graph form through the power supply information processing unit, and send the multiple types of power supply information in the graph form to the monitoring terminal;

the monitoring terminal is also used for displaying the various power supply information in a chart form.

In one embodiment, the grid monitoring device includes: the system comprises a video monitoring unit and an alarm unit;

the video monitoring unit is used for monitoring the running image of the power equipment corresponding to each power source;

and the alarm unit is used for sending alarm information when the power equipment in the running image is detected to be out of order.

In one embodiment, the grid monitoring device further includes: the power supply classification unit and the power monitoring unit;

the power classification unit is used for determining the corresponding power type of each power source;

the power monitoring unit is used for monitoring first operation information of a power grid where the power equipment is located in a main network, monitoring second operation information of a target transmission power grid of the power supply information in a distribution network, and respectively sending the first operation information and the second operation information to the alarm unit;

and the alarm unit is also used for sending alarm information when the first operation information or the second operation information is detected to be abnormal.

In one embodiment, the server includes: a joint adjusting unit and an adjusting unit;

the joint debugging unit is used for reading joint debugging information of the power equipment, and the joint debugging information is used for reminding a worker to perform joint debugging on the power equipment;

and the adjusting unit is used for upgrading the maintenance unit and the safety check unit of the power grid where the power equipment is located according to the fault information of the power equipment.

In one embodiment, the server further includes: a short message unit and a display unit;

the short message unit is used for sending power utilization information corresponding to the power equipment in the power distribution network to a user terminal in the power distribution network;

the display unit is used for sending the power supply price of the power equipment to the user terminal, and the user terminal is used for displaying the power supply price.

In one embodiment, the power source type includes at least one of a coal power source, a fire power source, a hydraulic power source, and a new energy source.

A power supply information monitoring method is applied to a server and comprises the following steps:

receiving power supply information of various power sources sent by power grid monitoring equipment; the power supply information at least comprises position information of a power source and a power supply type;

reading position information corresponding to each power source and the power type;

and sending the power supply information, the position information and the power supply type to a monitoring terminal, wherein the monitoring terminal is used for displaying the power supply information and the corresponding power supply type at the corresponding position on a map according to the position information.

A power supply information monitoring device is applied to a server, and the device comprises:

the receiving module is used for receiving power supply information of various power sources sent by the power grid monitoring equipment and storing the power supply information in the database; the power supply information at least comprises position information of a power source and a power supply type;

the reading module is used for reading the position information corresponding to each power source and the power type from the database;

and the sending module is used for sending the various power supply information, the position information and the power supply types to a monitoring terminal, and the monitoring terminal is used for displaying the various power supply information and the corresponding power supply types at corresponding positions on a map according to the position information.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the method described above when executing the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method.

The power supply information monitoring system, the power supply information monitoring method, the power supply information monitoring device, the computer equipment and the storage medium are arranged, the power supply information of multiple power sources in the power system is obtained by the power supply monitoring device through the power supply monitoring device, the power supply information of the multiple power sources is sent to the server and stored in a database of the server, the power supply information at least comprises the position information and the power supply type of the power sources, the server is used for reading the multiple power supply information, the position information and the power supply type corresponding to each power source from the database and sending the power supply information and the power supply type to the monitoring terminal, and the monitoring terminal is used for displaying the multiple power supply information and the corresponding power supply type on corresponding position information on a map. Compared with the traditional mode of monitoring and managing the related information of the power supply in the power system through a plurality of organizations, the scheme improves the monitoring efficiency of the power supply information in the power system by utilizing the synergistic effect of the power grid monitoring equipment, the server and the monitoring terminal.

Drawings

FIG. 1 is a schematic diagram of a power information monitoring system according to an embodiment;

FIG. 2 is a schematic diagram of a power classifying unit according to an embodiment;

FIG. 3 is a schematic diagram of another embodiment of a power monitoring system;

FIG. 4 is a flow diagram illustrating a method for monitoring power information in one embodiment;

FIG. 5 is a block diagram showing the structure of a power information monitoring apparatus according to an embodiment;

FIG. 6 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, as shown in fig. 1, there is provided a power information monitoring system, which may be implemented by several devices, and specifically, the system may include: a grid monitoring device 102, a server 104 and a monitoring terminal 106. The power grid monitoring device 102, the server 104, and the monitoring terminal 106 may be located at different positions in the power information monitoring system, and the number of the power grid monitoring device 102, the server 104, and the monitoring terminal 106 may be set according to an actual situation. The functions of the grid monitoring device 102, the server 104 and the monitoring terminal 106 may not be limited to the functions described in the specification, that is, the grid monitoring device 102, the server 104 and the monitoring terminal 106 may be used to implement other functions. The power information monitoring system may include the following specific contents:

the power grid monitoring device 102 is configured to acquire power source information of multiple power sources in the power system, and send the power source information of the multiple power sources to the server 104 to be stored in a database of the server 104; the power information at least includes the location information of the power source and the power type.

The power grid monitoring device 102 may be a device disposed at the location of the power source, and since there may be a plurality of power sources, the power grid monitoring device 102 may also be disposed in multiple numbers, or one power grid monitoring device 102 may perform monitoring management of each power source. The power system can be a system where power information needing to be monitored is located, the system can include power information of multiple power sources, wherein the power information at least includes position information and power types of the power sources, the multiple power sources can at least include various power plant information such as thermal power plants, gas electric fields, nuclear power plants, hydraulic power plants, pumped storage power stations and new energy sources, the power sources can produce different types of power sources, and the power sources can be arranged at different positions and can also be arranged at the same position. The power grid monitoring device 102 may obtain power source information of multiple power sources in the power system, and may also send the power source information of multiple power sources to the server 104, so as to store the power source information in the database of the server 104. Wherein, the power source information at least includes the location information of the power source and the power source type, the power source information includes the related information of the power source, for example, the power information may include the operating status of each unit in each plant, the real-time output of each plant, such as data for one point every 5 minutes, output per plant, power generation and hours of use, for example, the output, the power generation amount, and the number of hours of use of the power plant may be monitored monthly, and specifically, the location information of the power source may be the location information of the power equipment in the power source, the power source type may be the type of power generated by the power source, for example, at least one of a coal power source, a fire power source, a hydraulic power source and a new energy source, wherein the new energy can comprise at least one of wind power plant, photovoltaic, biomass, nuclear fusion and other energy sources; the server 104 may also count the installed power, the number of power plants, the output power, the power generation amount, the utilization hours, and the like of all power sources in the target area, for example, in a certain province according to the power source types, and the server 104 may be configured to store and process the various types of power source information.

And the server 104 is configured to read the multiple types of power information, the location information corresponding to each power source, and the power type from the database, and send the multiple types of power information, location information, and power type to the monitoring terminal 106.

The server 104 may be a device that receives, stores, and correspondingly processes the power information of the multiple power sources, and the server 104 may be composed of a single server or a server cluster formed by multiple servers. The server 104 may include a plurality of units, and may be configured to perform different processing on the multi-search power source information, or perform processing on other power related information in the power system. Specifically, the server 104 may have a database, where the database may store a plurality of types of power source information sent by the power grid monitoring device 102, and may also store location information and power source types corresponding to each power source in the power source information, and it should be noted that the database may also store other data, such as map data. After receiving and storing the power source information of the multiple power sources sent by the power grid monitoring device 102, the database 104 may read the power source information, the location information corresponding to each power source, and the power source type from the database, and send the power source information to the monitoring terminal 106. Before being sent to the monitoring terminal 106, the server 104 may also perform corresponding processing on the above-mentioned various kinds of power information, for example, performing digital processing on the power information.

And the monitoring terminal 106 is used for displaying various power supply information and corresponding power supply types on corresponding positions on a map according to the position information.

The monitoring terminals 106 may be terminal devices for monitoring and displaying the power information, there may be a plurality of monitoring terminals 106, each monitoring terminal 106 may process and display the power information sent by the server 104, and the monitoring terminals 106 may be, but are not limited to, a personal computer, a notebook computer, a smart phone, and a tablet computer. The monitoring terminal 106 may receive the multiple power information sent by the server 104, and display the multiple power information and the power types corresponding to the multiple power information on the corresponding positions on the map according to the position information corresponding to each power source, so that the combined display of the power information and the position information of the power sources may be realized, specifically, the monitoring terminal 106 may combine power plant grid equipment with regional geographic information, establish a spatial data model with integrated graphs and models, and more intuitively display the power plant grid topological relation and the operating state of the power plant power system. The map may be a map stored in the database of the server 106, the map may be a map formed by the locations of the power sources, or a map of the whole country or the whole world, and the monitoring terminal 106 may call the map to display the various power information and the regional geographic information corresponding to the power sources in a combined manner.

In the embodiment, by setting the power grid monitoring device, the server and the monitoring terminal, the power supply information of multiple power sources in the power system is acquired by using the power grid monitoring device, the power supply information of the multiple power sources is sent to the server and stored in the database of the server, wherein the power supply information at least comprises the position information and the power supply type of the power sources, the server is used for reading the multiple power supply information, the position information and the power supply type corresponding to each power source from the database and sending the multiple power supply information, the position information and the power supply type to the monitoring terminal, and the monitoring terminal is used for displaying the multiple power supply information and the corresponding power supply type on the corresponding position information on the map. Compared with the traditional mode of monitoring and managing the related information of the power supply in the power system through a plurality of organizations, the scheme improves the monitoring efficiency of the power supply information in the power system by utilizing the synergistic effect of the power grid monitoring equipment, the server and the monitoring terminal.

In one embodiment, the server 104 includes: a power supply information processing unit; the server 104 is specifically configured to read a plurality of power supply information from the database, convert the plurality of power supply information into a graph form through the power supply information processing unit, and send the plurality of power supply information in the graph form to the monitoring terminal 106; the monitoring terminal 106 is also used for displaying various power supply information in a form of a graph.

In this embodiment, the power information processing unit may be a unit located in the server 104, and the power information processing unit may be a unit for processing the above-mentioned various kinds of power information, and the unit may also be referred to as a power grid diagramming management unit. The server 104 may read a plurality of types of power information from the database, and since the received plurality of types of power information are not necessarily digital and are not necessarily in a standard, the server 104 may process the plurality of types of power information by using the power information processing unit, for example, the plurality of types of power information may be converted into a digital or graph form, and the plurality of types of power information in the digital or graph form may be transmitted to the monitoring terminal 106, the monitoring terminal 106 may receive the plurality of types of power information in the digital or graph form, and may display the plurality of types of power information in the digital or graph form, specifically, the monitoring terminal 106 may be provided with a window for displaying the power information, and the power information in the digital or graph form may be displayed through the window.

Through the embodiment, the server 104 can perform diagrammatizing processing on the power supply information by using the power supply information processing unit, and the power supply information can be displayed in an intuitive form, so that the monitoring efficiency of the power supply information in the power system can be improved.

In one embodiment, the grid monitoring device 102 includes: the system comprises a video monitoring unit and an alarm unit; the video monitoring unit is used for monitoring the running image of the power equipment corresponding to each power source; and the alarm unit is used for sending alarm information when the power equipment in the running image is detected to be out of order.

In this embodiment, the power grid monitoring device 102 may be the device for monitoring power information in the power system, and may include multiple units, such as a video monitoring unit and an alarm unit, where the video monitoring unit may be a unit for performing video image monitoring on related devices in the power system, specifically, one or more image capturing devices may be set at each power plant power grid site, and the video monitoring unit may monitor the power plant power grid site by receiving images sent by the image capturing devices at the site, that is, the video monitoring unit may be used to monitor operation images of power devices corresponding to each power source, such as operation images of power devices corresponding to power sources such as thermal power, water, electricity, and wind power, respectively.

The alarm unit may be a unit for performing fault alarm, which may be disposed in the power grid monitoring device 102, and may be connected to the video monitoring unit, and may detect an operation image of the power device in the video monitoring unit, and when it is detected that the power device in the operation image has a fault, the alarm unit may also send alarm information when encountering other dangerous situations, such as a power grid fault, and the like, where the alarm information may include a location or a device where the fault occurs, a reason of the fault, and the like, so that a relevant worker may process and eliminate the fault or the danger according to the alarm information.

Through the embodiment, the power grid monitoring device 102 can monitor and alarm the power equipment in the power system through the video monitoring unit and the alarm unit, so that the monitoring efficiency and the safety of the power equipment in the power system can be improved.

In one embodiment, the grid monitoring device 102 further includes: the power supply classification unit and the power monitoring unit; the power supply classification unit is used for determining the corresponding power supply type of each power source; the power monitoring unit is used for monitoring first operation information of a power grid where the power equipment is located in a main network, monitoring second operation information of a target transmission power grid of power supply information in a distribution network, and respectively sending the first operation information and the second operation information to the alarm unit; and the alarm unit is also used for sending alarm information when detecting that the first operation information or the second operation information is abnormal.

In this embodiment, the power grid monitoring device 102 may further include the power classification unit and the power monitoring unit, where the power classification unit may be a unit for identifying and classifying received power information, and the power monitoring unit may be a unit for monitoring power transmission in the power system.

As shown in fig. 2, fig. 2 is a schematic structural diagram of a power classifying unit in an embodiment. The power classifying unit may further include a power situation sensing unit, which may be configured to sense and classify the received power information, and specifically, the power classifying unit may receive and distinguish basic information of a thermal power plant of the thermal power operation integrated monitoring system, basic information of a small hydropower station of the small hydropower station management system, basic information and real-time water level information of a hydropower station of the local power grid water regulation automation system, basic information of new energy of the local power grid new energy power prediction system, real-time output information of the EMS energy management system, and basic information of a power supply of the energy-saving power generation scheduling technology system, installed capacity, generated energy, unit operation state, and the like, so that the server 104 may perform corresponding processing according to the classified power information.

The power monitoring unit may be configured to monitor power transmission in the power system, the power monitoring unit may include a main network system and a distribution network system, the power monitoring unit may monitor first operation information of a power grid where the power device in the power system is located in the main network, the target for monitoring the power supply information in the distribution network transmits second operation information of the power grid, specifically, the power monitoring unit can monitor the power grid inside the power plant in the power system through the main network system, monitor the power grid transmitted out by the power plant through the distribution network system, thereby obtaining corresponding operation information, the power monitoring unit can also send the first and second operation information to the alarm unit, when the alarm unit monitors that the first operation information and the second operation information are abnormal, corresponding alarm information can be sent out, so that a worker can process the abnormality. The main network may be a main network for power transmission of a power supply enterprise, and refers to a network from above a power distribution network to a power plant, and generally refers to a power transmission network of 110KV or more.

Through the embodiment, the power grid monitoring device 102 can distinguish the types of the power information through the power classification unit, and monitor the power grid of the power system through the power monitoring unit, so that the monitoring efficiency of the power information of the power system can be improved.

In one embodiment, the server 104 includes: a joint adjusting unit and an adjusting unit; the joint debugging unit is used for reading joint debugging information of the power equipment, and the joint debugging information is used for reminding a worker to perform joint debugging on the power equipment; and the adjusting unit is used for upgrading the maintenance unit and the safety check unit of the power grid where the power equipment is located according to the fault information of the power equipment.

In this embodiment, the server 104 may further include an associated adjusting unit and an adjusting unit, where the associated adjusting unit may be a unit for performing associated adjustment reminding, and the adjusting unit may be a unit for upgrading. The joint debugging unit can read joint debugging information of the power equipment in the power System, and can remind a worker to perform joint debugging on the power equipment according to the joint debugging information, specifically, the joint debugging unit can be accessed to an Online Charging System (OCS), can be accessed to a joint debugging process, steps and methods for explanation, can know that a scheduling automation worker is familiar with each link of power plant access joint debugging, and helps the scheduling automation worker to perform power plant joint debugging.

The adjusting unit can upgrade the maintenance unit and the safety check unit of the power grid where the power equipment is located according to the fault information of the power equipment, specifically, the adjusting unit can adjust the power grid of the power plant to adapt to market environment development, upgrade, maintain, optimize, arrange and the safety check unit, and improve maintenance plan intelligent arrangement level.

Through this embodiment, the server 104 can utilize the joint debugging unit and the adjusting unit to test and maintain the power system, thereby improving the stability of the power system.

In one embodiment, the server 104 further includes: a short message unit and a display unit; the short message unit is used for sending power utilization information corresponding to the power equipment in the distribution network to the user terminal in the distribution network; and the display unit is used for sending the power supply price of the power equipment to the user terminal, and the user terminal is used for displaying the power supply price.

In this embodiment, the server 104 may include a short message unit and a display unit, and the short message unit and the display unit may be respectively in data communication with the user terminal. The short message unit can be a unit for sending short messages to the user terminal; the presentation unit may be a unit for transmitting presentation information to the user terminal. The short message unit can also be called as a power grid short message platform; the display unit may also be referred to as a grid marketing platform. The short message unit can send the electricity utilization information corresponding to the power equipment in the distribution network to the user terminal in the distribution network. The distribution network can be a power network which receives electric energy from a power transmission network or a regional power plant, distributes the electric energy to various users on site through distribution facilities or distributes the electric energy to various users step by step according to voltage, and is composed of overhead lines, cables, towers, distribution transformers, isolating switches, reactive compensators, auxiliary facilities and the like, and plays a role in distributing the electric energy in the power network. The display unit may send the power supply price of the power device to the user terminal, so that the user terminal displays the power supply price, for example, displays the power supply price of a power plant. Wherein the user terminal may be a terminal device of a consumer in the power system.

Through the embodiment, the server 104 can perform data communication with the user terminal by using the short message unit and the display unit, so that the transparency of the power supply information in the power system is improved.

In one embodiment, as shown in fig. 3, fig. 3 is a schematic structural diagram of a power supply monitoring system in another embodiment. The system may include a grid monitoring device 102, a server 104, and a monitoring terminal 106. The power grid monitoring device 102 may include a video monitoring unit, an alarm unit, a power classification unit, a main network system, a distribution network system, and a power situation awareness unit. Wherein the power situation awareness unit may belong to the power classification unit. The power grid monitoring device 102 can monitor the power grid site of the power plant in real time through the video monitoring unit, alarm signals are sent out through the alarm unit according to dangers and power grid faults monitored by the power grid monitoring device 102, output voltages of different sites are distinguished through the power classification unit and the power situation perception unit, namely different types of power supplies are identified, different power supply types, a main network and a distribution network system can provide corresponding information for a power classification unit body in parallel, the power grid inside the power plant is monitored through the main network system, and the power grid conveyed outwards by the power grid of the power plant is monitored through the distribution network system.

The server 104 may include a database, a grid charting management unit, a data transmission processing unit, a digital grid platform, and the like. The data transmission processing unit may include an access scheduling OCS (online charging system), i.e. a joint scheduling unit, and a data unit of a regulation system, i.e. a regulation unit; the digital power grid platform can comprise a power grid marketing platform, namely a display unit, and a power grid short message platform, namely a short message unit. The server 104 may read various power information sent by the power grid monitoring device 102 from the database, perform digital and graphical processing by using the power grid graphical management unit, and send the digital and graphical processed power information to the monitoring terminal 106 based on the webGIS map; the server 104 can also utilize an access scheduling OCS to access a joint debugging process and a step method for explanation, utilize a data unit of a regulation system to regulate the power grid adaptive development of a power plant, upgrade a maintenance optimization arrangement and safety check unit, and improve the intelligent arrangement level of a maintenance plan, and during the joint debugging and the regulation, a data transmission processing unit can utilize a background data management unit to read related information from a database for joint debugging and regulation; the server 104 may also display the power supply price of the power plant by using a power grid marketing platform, and send power consumption information to a user of the distribution network system by using a power grid short message platform, for example, send power consumption information of corresponding power equipment to a user terminal in the distribution network system.

The monitoring terminal 106 may include a power distribution display unit, and may receive various digital and graphical processed power information and a webGIS map sent by the server 104, the monitoring terminal 106 is provided with a window for displaying power statistics information, and may display the processed power information in the window, and may combine power plant grid equipment information and regional geographic information based on the webGIS map, to establish a spatial data model with integrated graphics and models, so as to more intuitively display the power plant grid topological relation and the operating state of the power plant electric power system, for example, according to the type, installed capacity, region, and the like of the power plant. In addition, the staff can also query and count the detailed information of the power supply point in the monitoring terminal 106, and can check the operation information of the power plant, including the unit operation state, the real-time processing, the power generation amount and the like.

Through this embodiment, power information monitoring system realizes the combination show to power information and regional information through setting up electric wire netting supervisory equipment, server and monitor terminal to and the operation control of the power equipment that a plurality of power sources correspond, thereby can realize improving the effect of the monitoring efficiency of power information among the power system.

The power supply information monitoring method provided by the application can be applied to the system shown in fig. 1.

In one embodiment, as shown in fig. 4, a power information monitoring method is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:

step S202, receiving power supply information of various power sources sent by the power grid monitoring equipment 102 and storing the power supply information in a database; the power information at least includes the location information of the power source and the power type.

The power grid monitoring device 102 may be a device disposed at the location of the power source, and since there may be a plurality of power sources, the power grid monitoring device 102 may also be disposed in multiple numbers, or one power grid monitoring device 102 may perform monitoring management of each power source. The power system can be a system where power information needing to be monitored is located, the system can include power information of multiple power sources, wherein the power information at least includes position information and power types of the power sources, the multiple power sources can at least include various power plant information such as thermal power plants, gas electric fields, nuclear power plants, hydraulic power plants, pumped storage power stations and new energy sources, the power sources can produce different types of power sources, and the power sources can be arranged at different positions and can also be arranged at the same position. The power grid monitoring device 102 may obtain power source information of multiple power sources in the power system, and may also send the power source information of multiple power sources to the server 104, so as to store the power source information in the database of the server 104. The power source information may include at least location information of a power source and a power source type, specifically, the location information of the power source may be location information of a power device in the power source, and the power source type may be a type of power generated by the power source, for example, at least one of a coal power source, a thermal power source, a hydraulic power source, and a new energy source, where the new energy source may include at least one of a wind farm, a photovoltaic, a biomass, and nuclear fusion; server 104 may be used to store and process the various types of power information described above.

Step S204, the position information and the power type corresponding to each power source are read from the database.

The server 104 may be a device that receives, stores, and correspondingly processes the power information of the multiple power sources, and the server 104 may be composed of a single server or a server cluster formed by multiple servers. The server 104 may include a plurality of units, and may be configured to perform different processing on the multi-search power source information, or perform processing on other power related information in the power system. Specifically, the server 104 may have a database, where the database may store a plurality of types of power source information sent by the power grid monitoring device 102, and may also store location information and power source types corresponding to each power source in the power source information, and it should be noted that the database may also store other data, such as map data.

Step S206, the various power information, the position information and the power types are sent to the monitoring terminal 106, and the monitoring terminal 106 is used for displaying the various power information and the corresponding power types on the corresponding positions on the map according to the position information.

After receiving and storing the power source information of the multiple power sources sent by the power grid monitoring device 102, the database 104 may read the power source information, the location information corresponding to each power source, and the power source type from the database, and send the power source information to the monitoring terminal 106. Before being sent to the monitoring terminal 106, the server 104 may also perform corresponding processing on the above-mentioned various kinds of power information, for example, performing digital processing on the power information.

The monitoring terminals 106 may be terminal devices for monitoring and displaying the power information, there may be a plurality of monitoring terminals 106, each monitoring terminal 106 may process and display the power information sent by the server 104, and the monitoring terminals 106 may be, but are not limited to, a personal computer, a notebook computer, a smart phone, and a tablet computer. The monitoring terminal 106 may receive the multiple power information sent by the server 104, and display the multiple power information and the power types corresponding to the multiple power information on the corresponding positions on the map according to the position information corresponding to each power source, so that the combined display of the power information and the position information of the power sources may be realized, specifically, the monitoring terminal 106 may combine power plant grid equipment with regional geographic information, establish a spatial data model with integrated graphs and models, and more intuitively display the power plant grid topological relation and the operating state of the power plant power system. The map may be a map stored in the database of the server 106, the map may be a map formed by the locations of the power sources, or a map of the whole country or the whole world, and the monitoring terminal 106 may call the map to display the various power information and the regional geographic information corresponding to the power sources in a combined manner.

In the power supply information monitoring method, through setting the power grid monitoring equipment, the server and the monitoring terminal, the power supply information of various power sources in the power system is obtained by the power grid monitoring equipment, the power supply information of the various power sources is sent to the server and stored in a database of the server, wherein the power supply information at least comprises the position information and the power supply type of the power sources, the server is used for reading the various power supply information, the position information and the power supply type corresponding to each power source from the database and sending the various power supply information, the position information and the power supply type to the monitoring terminal, and the monitoring terminal is used for displaying the various power supply information and the corresponding power supply type on the corresponding position information on a map. Compared with the traditional mode of monitoring and managing the related information of the power supply in the power system through a plurality of organizations, the scheme improves the monitoring efficiency of the power supply information in the power system by utilizing the synergistic effect of the power grid monitoring equipment, the server and the monitoring terminal.

It should be understood that, although the steps in the flowchart of fig. 4 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in fig. 4 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

In one embodiment, as shown in fig. 5, there is provided a power information monitoring apparatus including: a receiving module 502, a reading module 504, and a sending module 506, wherein:

the receiving module 502 is configured to receive power source information of multiple power sources sent by the power grid monitoring device and store the power source information in a database; the power information at least includes the location information of the power source and the power type.

The reading module 504 is configured to read the location information and the power type corresponding to each power source from the database.

A sending module 506, configured to send the multiple power information, the location information, and the power type to a monitoring terminal, where the monitoring terminal is configured to display the multiple power information and the corresponding power type at a corresponding location on a map according to the location information.

For specific limitations of the power information monitoring apparatus, reference may be made to the above limitations of the power information monitoring method, which are not described herein again. All or part of each module in the power supply information monitoring device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 6. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing data such as power supply information. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a power information monitoring method.

Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, which includes a memory and a processor, wherein the memory stores a computer program, and the processor implements the power information monitoring method when executing the computer program.

In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored, which when executed by a processor implements the above-described power information monitoring method.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A power information monitoring system, comprising: the system comprises power grid monitoring equipment, a server and a monitoring terminal;

the power grid monitoring equipment is used for acquiring various power supply information of various power sources in a power system, and sending the various power supply information of the various power sources to the server so as to store the power supply information in a database of the server; wherein the grid monitoring device is arranged at the position of the power source; the power grid monitoring device comprises: the power supply monitoring device comprises a power supply classification unit, a power monitoring unit and an alarm unit; the power classification unit is used for determining the corresponding power type of each power source; the power monitoring unit is used for monitoring first operation information of a power grid where power equipment in the power system is located in a main network, monitoring second operation information of a target transmission power grid of the various power supply information in a distribution network, and respectively sending the first operation information and the second operation information to the alarm unit; the alarm unit is further used for sending alarm information when the first operation information or the second operation information is detected to be abnormal; the multiple kinds of power supply information comprise position information of power sources, power supply types, operation states of all units in the power sources and output of all the power sources; the power source comprises at least one of a thermal power plant, a gas power plant, a nuclear power plant, a hydraulic power plant, a pumped storage power plant and a new energy power plant; the power type comprises at least one of a coal power source, a thermal power source, a hydraulic power source and new energy; the main network represents an internal power grid of a power plant in the power system, and the distribution network represents a power grid which is conveyed outwards by the power plant power grid;

the server is used for reading the various power supply information from the database and sending the various power supply information to the monitoring terminal;

the monitoring terminal is used for displaying the various power supply information containing the corresponding power supply types at corresponding positions on a map according to the position information of the power source in the various power supply information;

the server, comprising: a joint adjusting unit and an adjusting unit; the joint debugging unit is used for reading joint debugging information of the power equipment, and the joint debugging information is used for reminding a worker to perform joint debugging on the power equipment; and the adjusting unit is used for upgrading the maintenance unit and the safety check unit of the power grid where the power equipment is located according to the fault information of the power equipment.

2. The system of claim 1, wherein the server further comprises: a power supply information processing unit;

the server is specifically configured to read multiple types of power supply information from the database, convert the multiple types of power supply information into a graph form through the power supply information processing unit, and send the multiple types of power supply information in the graph form to the monitoring terminal;

the monitoring terminal is also used for displaying the various power supply information in a chart form.

3. The system of claim 1, wherein the grid monitoring device further comprises: a video monitoring unit;

the video monitoring unit is used for monitoring the running image of the power equipment corresponding to each power source;

and the alarm unit is used for sending alarm information when the power equipment in the running image is detected to be out of order.

4. The system of claim 1, wherein the new energy source comprises at least one of wind farm, photovoltaic, biomass, and nuclear fusion.

5. The system of claim 1, wherein the server further comprises: a short message unit and a display unit;

the short message unit is used for sending power utilization information corresponding to the power equipment in the power distribution network to a user terminal in the power distribution network;

the display unit is used for sending the power supply price of the power equipment to the user terminal, and the user terminal is used for displaying the power supply price.

6. A power supply information monitoring method is applied to a server, and the method comprises the following steps:

receiving various power supply information of various power sources in the power system sent by the power grid monitoring equipment and storing the power supply information in a database; wherein the grid monitoring device is arranged at the position of the power source; the power grid monitoring device comprises: the power supply monitoring device comprises a power supply classification unit, a power monitoring unit and an alarm unit; the power classification unit is used for determining the corresponding power type of each power source; the power monitoring unit is used for monitoring first operation information of a power grid where power equipment in the power system is located in a main network, monitoring second operation information of a target transmission power grid of the various power supply information in a distribution network, and respectively sending the first operation information and the second operation information to the alarm unit; the alarm unit is further used for sending alarm information when the first operation information or the second operation information is detected to be abnormal; the multiple kinds of power supply information comprise position information of power sources, power supply types, operation states of all units in the power sources and output of all the power sources; the power source comprises at least one of a thermal power plant, a gas power plant, a nuclear power plant, a hydraulic power plant, a pumped storage power plant and a new energy power plant; the power type comprises at least one of a coal power source, a thermal power source, a hydraulic power source and new energy; the main network represents an internal power grid of a power plant in the power system, and the distribution network represents a power grid which is conveyed outwards by the power plant power grid;

reading position information corresponding to each power source and the power type from the database;

the power supply information is sent to a monitoring terminal, and the monitoring terminal is used for displaying the power supply information containing the corresponding power supply type at the corresponding position on a map according to the position information of the power source in the power supply information;

the server, comprising: a joint adjusting unit and an adjusting unit; the joint debugging unit is used for reading joint debugging information of the power equipment, and the joint debugging information is used for reminding a worker to perform joint debugging on the power equipment; and the adjusting unit is used for upgrading the maintenance unit and the safety check unit of the power grid where the power equipment is located according to the fault information of the power equipment.

7. The method of claim 6, wherein the new energy source comprises at least one of wind farm, photovoltaic, biomass, and nuclear fusion.

8. A power information monitoring device is applied to a server, and the device comprises:

the receiving module is used for receiving various power supply information of various power sources in the power system sent by the power grid monitoring equipment and storing the power supply information in the database; wherein the grid monitoring device is arranged at the position of the power source; the power grid monitoring device comprises: the power supply monitoring device comprises a power supply classification unit, a power monitoring unit and an alarm unit; the power classification unit is used for determining the corresponding power type of each power source; the power monitoring unit is used for monitoring first operation information of a power grid where power equipment in the power system is located in a main network, monitoring second operation information of a target transmission power grid of the various power supply information in a distribution network, and respectively sending the first operation information and the second operation information to the alarm unit; the alarm unit is further used for sending alarm information when the first operation information or the second operation information is detected to be abnormal; the multiple kinds of power supply information comprise position information of power sources, power supply types, operation states of all units in the power sources and output of all the power sources; the power source comprises at least one of a thermal power plant, a gas power plant, a nuclear power plant, a hydraulic power plant, a pumped storage power plant and a new energy power plant; the power type comprises at least one of a coal power source, a thermal power source, a hydraulic power source and new energy; the main network represents an internal power grid of a power plant in the power system, and the distribution network represents a power grid which is conveyed outwards by the power plant power grid;

the reading module is used for reading the position information corresponding to each power source and the power type from the database;

the monitoring terminal is used for displaying the multiple power supply information containing the corresponding power supply types and the corresponding positions of the corresponding power supply types on a map according to the position information of the power source in the multiple power supply information;

the server, comprising: a joint adjusting unit and an adjusting unit; the joint debugging unit is used for reading joint debugging information of the power equipment, and the joint debugging information is used for reminding a worker to perform joint debugging on the power equipment; and the adjusting unit is used for upgrading the maintenance unit and the safety check unit of the power grid where the power equipment is located according to the fault information of the power equipment.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of claim 6.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method as claimed in claim 6.

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