CN113991864A - Electric power composite monitoring platform and method based on cloud arrangement technology - Google Patents

Abstract

The invention discloses an electric power composite monitoring platform and method based on a cloud arrangement technology, belonging to the technical field of electrical equipment monitoring, and comprising an area selection module, a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and repair module, a maintenance detection module and a log recording module, wherein the area selection module is respectively in communication connection with the temperature acquisition sensor and the current acquisition sensor, and the information integration module is respectively in communication connection with the temperature acquisition sensor, the current acquisition sensor and the fault analysis and repair module; the system can timely maintain the fault equipment, ensure the normal life of surrounding residents, improve the power supply efficiency, ensure the normal operation of each power transmission equipment, improve the fault processing efficiency, collect the information of the distribution equipment in a plurality of areas, improve the working efficiency of workers, collect the power information of the plurality of areas and improve the data collection efficiency.

Description

Electric power composite monitoring platform and method based on cloud arrangement technology

Technical Field

The invention relates to the technical field of electrical equipment monitoring, in particular to a power composite monitoring platform and method based on a cloud arrangement technology.

Background

The electric power monitoring platform consists of an on-line temperature monitoring device, an on-line arrester insulation monitoring device and an on-line breaker monitoring device, the system covers the monitoring of the insulation state parameters of main electrical equipment of the transformer substation, has more monitoring parameters and complete functions, can be flexibly configured and consists of one or more devices, and the system is integrated by an industrial personal computer and system integration software, integrating the dynamic parameters of each monitoring device, establishing a comprehensive database of the state of the substation equipment, the historical parameters of the equipment state are subjected to cross comparison, trend analysis and relative comparison, so that the preliminary diagnosis of the equipment state is realized, an open platform is provided for an expert diagnosis system, through a network, the remote/field state monitoring, diagnosis and evaluation of the existing equipment are realized, and the data processing amount of the electric power monitoring platform is increased along with the increase of the electricity consumption of residents; therefore, the invention provides a power composite monitoring platform and method based on the cloud arrangement technology;

through retrieval, the Chinese patent No. CN110531305A discloses an electric power abnormity monitoring system, a platform and a method thereof, and although the invention is more reliable and more efficient than the traditional electric power system abnormity monitoring mode, the invention cannot timely maintain fault equipment, thereby influencing the normal life of surrounding residents and reducing the power supply efficiency; in addition, the existing power composite monitoring platform and method based on the cloud arrangement technology cannot monitor and check a plurality of areas, and work efficiency of workers is reduced.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a power composite monitoring platform and a power composite monitoring method based on a cloud arrangement technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

a power composite monitoring platform based on a cloud arrangement technology comprises a region selection module, a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and repair module, a maintenance detection module and a log recording module;

the system comprises a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and detection module, a log recording module and a maintenance detection module, wherein the region selection module is in communication connection with the temperature acquisition sensor and the current acquisition sensor respectively, the information integration module is in communication connection with the temperature acquisition sensor, the current acquisition sensor and the fault analysis and repair module respectively, the fault analysis and detection module is in communication connection with the maintenance detection module and the log recording module respectively, and the maintenance detection module is in communication connection with the log recording module.

Further, the area selection module is used for analyzing and collecting the monitoring area selected by the staff, and the analyzing and collecting steps are as follows:

the method comprises the following steps: the method comprises the following steps that a worker inputs one or more required monitoring area domain names X through a region selection module;

step two: the area selection module is in communication connection with the GPS satellite, constructs a two-dimensional plane graph according to the GPS satellite transmission image, performs area division on the two-dimensional plane graph, and marks corresponding area names;

step three: and searching each area of the two-dimensional plane graph according to the X, segmenting and extracting the corresponding area, acquiring the information of the power transmission and distribution equipment in the area, constructing the corresponding power grid plane graph, and generating an acquisition instruction A and an acquisition instruction B.

Furthermore, the temperature acquisition sensor is used for receiving the acquisition instruction A, acquiring the temperature of each power transmission and distribution equipment in the corresponding area, and generating temperature data through data conversion processing;

the current acquisition sensor is used for receiving the acquisition instruction B, acquiring the transmission current of each power transmission and distribution device in the corresponding area, and generating current data through data conversion processing.

Further, the information integration module is used for receiving the temperature data and the current data and performing synchronous integration processing on the temperature data and the current data, and the specific steps of the synchronous integration are as follows:

step (1): marking each group of temperature data and current data to the corresponding position of the power grid plan;

step (2): the information integration module collects weather information and temperature information of corresponding areas and marks the weather information and the temperature information in a power grid plan;

and (3): and the system is in communication connection with the Internet, captures normal operation temperature information and current information of each power transmission and distribution device, and simultaneously automatically constructs a data comparison table to record captured data of each group.

Further, the fault analysis and repair module is used for receiving the data comparison table and performing analysis and repair, and the specific steps of the analysis and repair are as follows:

the first step is as follows: comparing each group of temperature data and current data in the power grid plan with corresponding data in the data comparison table respectively;

the second step is that: if the temperature data and the current data are higher than the corresponding data in the data comparison table, judging that the corresponding power transmission equipment operates abnormally;

the third step: and positioning the power transmission equipment with abnormal operation, feeding the coordinates back to the working personnel, automatically generating a repair scheme for repairing the equipment, and generating repair data.

Further, the maintenance detection module is used for detecting and analyzing the abnormal equipment repair condition, and the detection and analysis comprises the following specific steps:

s1: completing the repair of the abnormal equipment, continuously operating the abnormal equipment, and simultaneously monitoring the operation condition of the equipment in real time;

s2: recording the running time and temperature change of the equipment, and if the temperature rise process or the current transmission abnormal condition exists, feeding back the position of the equipment to corresponding maintenance personnel;

s3: detecting the maintenance condition of maintenance personnel, generating maintenance data at the same time, and sending the maintenance data to a log recording module;

the log recording module is used for receiving the maintenance data and the repair data, generating repair logs, recording the two sets of data respectively, and feeding the repair logs back to workers in real time to check.

A power composite monitoring method based on a cloud arrangement technology comprises the following specific steps:

(1) collecting data of corresponding areas, and performing data integration: the method comprises the following steps that a worker selects a name of a region to be monitored through a region selection module, the region selection module and the region name collect corresponding region information, a two-dimensional plane graph of the region information is built, information of power transmission and distribution equipment in the region is collected, and a corresponding power grid plane graph is built;

(2) and (3) fault detection and repair are carried out on each power transmission device: the information integration module marks the collected temperature data and current data to the corresponding position of the power grid plan, meanwhile, a data comparison table is automatically constructed to record normal operation temperature information and current information of the power transmission and distribution equipment, the fault analysis and repair module detects the operation condition of each group of power transmission and distribution equipment, and if abnormal equipment exists, a repair scheme is automatically generated and equipment is repaired;

(3) detecting and analyzing the repair condition of the power transmission equipment: and the repair detection module detects and analyzes the repair condition of the abnormal equipment, if the repair equipment is abnormal in subsequent operation, the coordinates of the equipment are fed back to corresponding maintenance personnel, meanwhile, the repair condition of the maintenance personnel is collected, and the log recording module records the repair condition of the equipment.

Compared with the prior art, the invention has the beneficial effects that:

1. the system is provided with a fault analysis and repair module, the fault analysis and repair module respectively compares each group of temperature data and current data in a power grid plane graph with corresponding data in a data comparison table, if the numerical values of the temperature data and the current data are higher than the corresponding data in the data comparison table, the abnormal operation of the corresponding power transmission equipment is judged, the fault analysis and repair module positions the power transmission equipment with the abnormal operation and feeds coordinates back to working personnel, a repair scheme is automatically generated for equipment repair, the power transmission equipment is secondarily detected by the fault analysis and repair module after the repair is finished, if the abnormal operation exists, the corresponding maintenance personnel are fed back for manual repair, the fault equipment can be timely maintained, the normal life of surrounding residents is ensured, the power supply efficiency is improved, and the normal operation of each power transmission equipment is ensured, the fault processing efficiency is improved;

2. compared with the prior art that only single area power data can be checked, the method has the advantages that one or more required monitoring area domain names X are input into the area selection module, the area selection module is in communication connection with the GPS satellite, the two-dimensional plane graph is constructed according to the GPS satellite transmission image, the area division is carried out on the two-dimensional plane graph, the corresponding area names are marked, meanwhile, each area of the two-dimensional plane graph is searched according to the X, the corresponding area is divided and extracted, the area power transmission and distribution equipment information is collected, the corresponding power grid plane graph is constructed at the same time, the information of the power distribution equipment in the multiple areas can be collected, the working efficiency of workers is improved, the power information in the multiple areas is collected, and the data collection efficiency is improved.

Drawings

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

Fig. 1 is a system block diagram of an electric power composite monitoring platform based on a cloud arrangement technology according to the present invention;

fig. 2 is a flow chart of a power composite monitoring method based on a cloud arrangement technology according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1, the power composite monitoring platform based on the cloud arrangement technology comprises a region selection module, a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and repair module, a maintenance detection module and a log recording module;

the system comprises a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and detection module, a log recording module and a maintenance detection module, wherein the region selection module is in communication connection with the temperature acquisition sensor and the current acquisition sensor respectively, the information integration module is in communication connection with the temperature acquisition sensor, the current acquisition sensor and the fault analysis and repair module respectively, the fault analysis and detection module is in communication connection with the maintenance detection module and the log recording module respectively, and the maintenance detection module is in communication connection with the log recording module.

The region selection module is used for analyzing and collecting the monitoring region selected by the staff.

Specifically, a worker inputs one or more required monitoring area domain names X through a region selection module, the region selection module is in communication connection with a GPS satellite, a two-dimensional plane graph is constructed according to a GPS satellite transmission image, the two-dimensional plane graph is divided into regions and marked with corresponding region names, meanwhile, each region of the two-dimensional plane graph is searched according to the X, the corresponding region is divided and extracted, information of power transmission and distribution equipment in the region is collected, a corresponding power grid plane graph is constructed at the same time, and a collection instruction A and a collection instruction B are generated.

The temperature acquisition sensor is used for receiving the acquisition instruction A, acquiring the temperature of each power transmission and distribution device in the corresponding area, and generating temperature data through data conversion processing, and the current acquisition sensor is used for receiving the acquisition instruction B, acquiring the transmission current of each power transmission and distribution device in the corresponding area, and generating current data through data conversion processing.

It should be further explained that the temperature acquisition sensor and the current acquisition sensor periodically acquire the temperature and the magnitude of the transmission current of each power transmission and distribution equipment in the relevant area according to the acquisition time input by the staff.

The information integration module is used for receiving the temperature data and the current data and performing synchronous integration processing on the temperature data and the current data.

Specifically, firstly, the information integration module marks all groups of temperature data and current data to the corresponding positions of the power grid plane graph, meanwhile, the information integration module collects weather information and temperature information of the corresponding areas and marks the weather information and the temperature information in the power grid plane graph, after the marking is completed, the system is in communication connection with the internet through the information integration module, captures normal operation temperature information and current information of all power transmission and distribution equipment, and meanwhile automatically constructs a data comparison table to record all the groups of captured data.

And the fault analysis and repair module is used for receiving the data comparison table and carrying out analysis and repair.

Specifically, the fault analysis and repair module compares each group of temperature data and current data in the power grid plane graph with corresponding data in the data comparison table respectively, if the numerical values of the temperature data and the current data are higher than the corresponding data in the data comparison table, it is judged that the corresponding power transmission equipment operates abnormally, the fault analysis and repair module positions the power transmission equipment which operates abnormally and feeds coordinates back to a worker, and meanwhile, a repair scheme is automatically generated to repair the equipment, and repair data are generated.

And the maintenance detection module is used for detecting and analyzing the abnormal equipment repairing condition.

Specifically, when the abnormal equipment is repaired, the power transmission equipment continues to operate, the operation condition of the equipment is monitored in real time, the operation time and the temperature change of the equipment are recorded, if the temperature rise process or the current transmission abnormal condition exists, the position of the equipment is fed back to corresponding maintenance personnel, the maintenance condition of the maintenance personnel is detected, meanwhile, maintenance data are generated, and the maintenance data are sent to the log recording module.

It should be further noted that when the maintenance detection module detects that the power transmission equipment still has an abnormal operation, the maintenance detection module feeds back the maintenance personnel closest to the power transmission equipment, and collects and records the information of the maintenance personnel.

Example 2

Referring to fig. 1, a power composite monitoring method based on a cloud arrangement technology specifically discloses a monitoring method, which specifically includes:

firstly, a worker selects a name of a region to be monitored through a region selection module, the region selection module and the region name collect corresponding region information, a two-dimensional plane graph of the region information is built, information of power transmission and distribution equipment in the region is collected, and a corresponding power grid plane graph is built.

Secondly, fault detection and repair are carried out on each power transmission device: the information integration module marks the collected temperature data and current data to the corresponding position of the power grid plan, meanwhile, a data comparison table is automatically built to record normal operation temperature information and current information of the power transmission and distribution equipment, the fault analysis and repair module detects the operation condition of each group of power transmission and distribution equipment, and if abnormal equipment exists, a repair scheme is automatically generated and equipment is repaired.

And finally, detecting and analyzing the repair condition of the power transmission equipment: and the repair detection module detects and analyzes the repair condition of the abnormal equipment, if the repair equipment is abnormal in subsequent operation, the coordinates of the equipment are fed back to corresponding maintenance personnel, meanwhile, the repair condition of the maintenance personnel is collected, and the log recording module records the repair condition of the equipment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. A power composite monitoring platform based on a cloud arrangement technology is characterized by comprising a region selection module, a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and repair module, a maintenance detection module and a log recording module;

the system comprises a temperature acquisition sensor, a current acquisition sensor, an information integration module, a fault analysis and detection module, a log recording module and a maintenance detection module, wherein the region selection module is in communication connection with the temperature acquisition sensor and the current acquisition sensor respectively, the information integration module is in communication connection with the temperature acquisition sensor, the current acquisition sensor and the fault analysis and repair module respectively, the fault analysis and detection module is in communication connection with the maintenance detection module and the log recording module respectively, and the maintenance detection module is in communication connection with the log recording module.

2. The power composite monitoring platform based on the cloud orchestration technology according to claim 1, wherein the area selection module is configured to analyze and collect monitoring areas selected by workers, and the analyzing and collecting specifically includes the following steps:

the method comprises the following steps: the method comprises the following steps that a worker inputs one or more required monitoring area domain names X through a region selection module;

step two: the area selection module is in communication connection with the GPS satellite, constructs a two-dimensional plane graph according to the GPS satellite transmission image, performs area division on the two-dimensional plane graph, and marks corresponding area names;

step three: and searching each area of the two-dimensional plane graph according to the X, segmenting and extracting the corresponding area, acquiring the information of the power transmission and distribution equipment in the area, constructing the corresponding power grid plane graph, and generating an acquisition instruction A and an acquisition instruction B.

3. The power composite monitoring platform based on the cloud orchestration technology according to claim 2, wherein the temperature acquisition sensor is configured to receive an acquisition instruction a, acquire temperatures of power transmission and distribution equipment in a corresponding area, and generate temperature data through data conversion processing;

the current acquisition sensor is used for receiving the acquisition instruction B, acquiring the transmission current of each power transmission and distribution device in the corresponding area, and generating current data through data conversion processing.

4. The power composite monitoring platform based on the cloud arrangement technology as claimed in claim 3, wherein the information integration module is configured to receive the temperature data and the current data and perform synchronous integration processing on the temperature data and the current data, and the specific steps of the synchronous integration are as follows:

step (1): marking each group of temperature data and current data to the corresponding position of the power grid plan;

step (2): the information integration module collects weather information and temperature information of corresponding areas and marks the weather information and the temperature information in a power grid plan;

and (3): and the system is in communication connection with the Internet, captures normal operation temperature information and current information of each power transmission and distribution device, and simultaneously automatically constructs a data comparison table to record captured data of each group.

5. The power composite monitoring platform based on the cloud orchestration technology according to claim 4, wherein the fault analysis and repair module is configured to receive the data comparison table and perform analysis and repair, and the specific steps of the analysis and repair are as follows:

the first step is as follows: comparing each group of temperature data and current data in the power grid plan with corresponding data in the data comparison table respectively;

the second step is that: if the temperature data and the current data are higher than the corresponding data in the data comparison table, judging that the corresponding power transmission equipment operates abnormally;

the third step: and positioning the power transmission equipment with abnormal operation, feeding the coordinates back to the working personnel, automatically generating a repair scheme for repairing the equipment, and generating repair data.

6. The power composite monitoring platform based on the cloud orchestration technology according to claim 1, wherein the maintenance detection module is configured to perform detection and analysis on abnormal device repair conditions, and the detection and analysis specifically includes the following steps:

s1: completing the repair of the abnormal equipment, continuously operating the abnormal equipment, and simultaneously monitoring the operation condition of the equipment in real time;

s2: recording the running time and temperature change of the equipment, and if the temperature rise process or the current transmission abnormal condition exists, feeding back the position of the equipment to corresponding maintenance personnel;

s3: detecting the maintenance condition of maintenance personnel, generating maintenance data at the same time, and sending the maintenance data to a log recording module;

the log recording module is used for receiving the maintenance data and the repair data, generating repair logs, recording the two sets of data respectively, and feeding the repair logs back to workers in real time to check.

7. A power composite monitoring method based on a cloud arrangement technology is characterized by comprising the following steps:

(1) collecting data of corresponding areas, and performing data integration: the method comprises the following steps that a worker selects a name of a region to be monitored through a region selection module, the region selection module and the region name collect corresponding region information, a two-dimensional plane graph of the region information is built, information of power transmission and distribution equipment in the region is collected, and a corresponding power grid plane graph is built;

(2) and (3) fault detection and repair are carried out on each power transmission device: the information integration module marks the collected temperature data and current data to the corresponding position of the power grid plan, meanwhile, a data comparison table is automatically constructed to record normal operation temperature information and current information of the power transmission and distribution equipment, the fault analysis and repair module detects the operation condition of each group of power transmission and distribution equipment, and if abnormal equipment exists, a repair scheme is automatically generated and equipment is repaired;

(3) detecting and analyzing the repair condition of the power transmission equipment: and the repair detection module detects and analyzes the repair condition of the abnormal equipment, if the repair equipment is abnormal in subsequent operation, the coordinates of the equipment are fed back to corresponding maintenance personnel, meanwhile, the repair condition of the maintenance personnel is collected, and the log recording module records the repair condition of the equipment.

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