CN116191663B - A monitoring method and system based on power Internet of Things (IoT) devices - Google Patents

Abstract

The invention discloses a monitoring method and a monitoring system based on electric power Internet of things equipment, wherein the method comprises the steps of firstly setting up an electric power equipment monitoring platform, secondly installing monitoring equipment and signal receiving and transmitting equipment for monitoring electric power change on each electric power equipment, thirdly collecting monitoring data sent by each electric power equipment by the electric power equipment monitoring platform, sorting, analyzing and storing the monitoring data, fourthly, sending fault information and maintenance information which are judged to be in a fault state and required to be maintained to a mobile monitoring terminal in a short message mode based on an analysis result of the monitoring data by the electric power equipment monitoring platform, and fifthly, carrying out response adjustment on information received by personnel holding the mobile monitoring terminal. According to the invention, the working state of the power equipment is remotely monitored, the labor input of the power equipment monitoring is reduced, so that the monitoring of the power equipment is ensured to be normal, the problem of poor signal coverage in remote areas is solved, and the paving and the use of the power equipment are facilitated.

Description

Monitoring method and system based on electric power Internet of things equipment

Technical Field

The invention relates to the technical field of power monitoring, in particular to a monitoring method and system based on power internet of things equipment.

Background

The electric power internet of things is an application of the internet of things in a smart grid, is a result of development of information communication technology to a certain stage, effectively integrates communication infrastructure resources and electric power system infrastructure resources, improves informatization level of an electric power system, improves utilization efficiency of the existing infrastructure of the electric power system, provides important technical support for links such as power grid generation, power transmission, power transformation, power distribution and power utilization, and the like, and monitors operation requirements of various electric power equipment of an extrusion facility of the electric power system so as to ensure normal transmission and power variation.

The existing monitoring mode of the power equipment is divided into manual checking to distinguish the operation of the power equipment, the labor consumption is high, the monitoring cost is high, the efficiency is low, the safety problem can be caused by the contact between people and the power equipment in the checking process, in addition, the corresponding circuit is required to be paved by installing the wire monitoring equipment, the circuit cost and the circuit maintenance cost can be increased by the circuit paving, the monitoring cost is relatively high, the power equipment cannot be paved due to the influence of the environment, and the power equipment cannot be monitored effectively.

Disclosure of Invention

The invention aims to provide a monitoring method and a system based on electric power internet of things equipment so as to solve the problems.

In order to solve the background technical problem, the invention adopts the following technical scheme.

A monitoring method based on electric power Internet of things equipment comprises the following steps:

step one, building a power equipment monitoring platform;

Step two, installing monitoring equipment and signal receiving and transmitting equipment for monitoring power change on each power equipment;

Step three, the power equipment monitoring platform collects monitoring data sent by each power equipment, and carries out arrangement analysis and storage on the monitoring data;

Step four, based on the analysis result of the monitoring data by the power equipment monitoring platform, sending the fault information and the required maintenance information which are judged to be in the fault information to the mobile monitoring terminal in a short message mode;

And fifthly, the personnel with the mobile monitoring terminal receives information to make reaction adjustment.

As a further description of the above technical solution:

the power change in the second step includes but is not limited to current, voltage, power and short-circuit alarm, wherein the signal receiving and transmitting equipment is connected with the monitoring equipment, acquires the monitoring data of the monitoring equipment and performs data transmission with the power equipment monitoring platform in a wireless mode.

As a further description of the above technical solution:

The collection mode of the power equipment monitoring platform in the third step is divided into two situations:

The first scenario, the power equipment monitoring platform can be directly connected with the signal receiving and transmitting equipment through the wireless base station, so that the power data monitored by the signal receiving and transmitting monitoring equipment can be directly collected;

And if the power equipment monitoring platform does not receive the data of the signal receiving and transmitting equipment, judging that the power equipment and the signal receiving and transmitting equipment provided with the signal receiving and transmitting equipment are out of order, and performing the fourth and fifth steps.

As a further description of the above technical solution:

in the second scenario, the power equipment monitoring platform cannot receive the data of the signal receiving and transmitting equipment and is divided into two conditions:

The method comprises the steps that firstly, under the condition of environmental influence, a signal cannot be directly sent to an electric equipment monitoring platform, so that data cannot be exchanged, a signal receiving and transmitting device does not receive feedback signals of the electric equipment monitoring platform, monitoring data of the monitoring device are uploaded to nearby signal receiving and transmitting devices nearby, and the nearby signal receiving and transmitting devices capable of normally exchanging data with the electric equipment monitoring platform transmit the data;

and in the second condition, the monitoring equipment and the signal receiving and transmitting equipment have faults, the signal receiving and transmitting equipment cannot exchange data with the power equipment monitoring platform, and the nearby signal receiving and transmitting equipment cannot receive the data of the signal receiving and transmitting equipment.

As a further description of the above technical solution:

And in the third step, the arrangement and analysis mode of the monitoring data by the power equipment monitoring platform is that a data field is formed by setting a maximum threshold value and a minimum threshold value according to the data of the normal working state of the power equipment, the monitoring data and the data field are compared, and whether the working state of the power equipment is normal is judged by judging the exceeding part and the exceeding time length of the data.

As a further description of the above technical solution:

the reaction adjustment in the fifth step is divided into:

notifying maintenance personnel to maintain and maintain in time;

sending an instruction to interrupt the operation of the power equipment;

An instruction is sent to reduce the operating power of the electrical device.

The invention also provides the following technical scheme:

a monitoring system based on electric power Internet of things equipment is used for realizing the monitoring method based on the electric power Internet of things equipment, and comprises the following steps:

The power equipment monitoring equipment is used for being installed on the power equipment and monitoring and collecting power data of the operation of the power equipment;

the signal receiving and transmitting module is used for connecting the power equipment monitoring equipment and uploading the monitoring data to the power monitoring data acquisition module;

the power monitoring data acquisition module is used for receiving monitoring data of the power equipment;

the data processing module is used for receiving the collected monitoring data collected by the power monitoring data collection module and analyzing and sorting the monitoring data;

the data storage module is used for storing the monitored data which is processed by the data processing module as backup;

The data comparison module is used for comparing the monitored data processed by the data processing module with normal operation data of normal power equipment and judging whether the monitored data of the power equipment are normal or not;

And the short message sending module is used for sending the data information which is judged to be the fault data information and the data information which needs to be maintained to the mobile monitoring terminal.

As a further description of the above technical solution:

The system also comprises a verification module for sending verification information, and verifying the identity of the signal receiving and transmitting module through the power monitoring data acquisition module and the signal receiving and transmitting module.

Compared with the prior art, the invention has the advantages that:

(1) According to the scheme, the working state of the power equipment is remotely monitored, the manpower input of the power equipment monitoring is reduced, the wireless mode is adopted, the problem that a wired line is complicated in construction can be avoided, the monitoring cost is reduced, the monitoring data can be obtained in real time or timely, and the maintenance work is convenient to maintain

(2) According to the scheme, the wireless remote monitoring faults are divided into two types, the problem of false alarm and false alarm of data can be avoided according to the two conditions, and meanwhile, the problem of poor signal is given to give a reasonable alternative mode to ensure the normal monitoring of the power equipment, solve the problem of poor signal coverage in remote areas and facilitate the laying and use of the power equipment.

Drawings

FIG. 1 is a schematic flow chart of a monitoring method of the present invention;

FIG. 2 is a schematic diagram of a monitoring data collection process according to the present invention;

FIG. 3 is a schematic diagram of 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 accompanying drawings in the embodiments of the present invention;

Referring to fig. 1 to 3, in the present invention, a monitoring method based on an electric power internet of things device includes:

Firstly, a power equipment monitoring platform is built, operation data of each power equipment can be received and processed, the working state of the power equipment is given, and monitoring staff can conveniently maintain or repair the power equipment on the basis; the method comprises the steps of installing monitoring equipment and signal receiving equipment for monitoring power change on each electric equipment, monitoring operation data of the electric equipment through the monitoring equipment, sending the collected monitoring data to an electric equipment monitoring platform through the signal receiving equipment, collecting the monitoring data sent by each electric equipment through the electric equipment monitoring platform, sorting, analyzing and storing the monitoring data, analyzing the operation state of the electric equipment through the electric equipment monitoring platform based on the collected monitoring data, sending failure information and maintenance information required to be judged to the mobile monitoring terminal in a short message mode based on an analysis result of the monitoring data through the electric equipment monitoring platform, and reacting and adjusting personnel holding the mobile monitoring terminal.

According to the invention, communication infrastructure resources and power system infrastructure resources are effectively integrated, the informatization level of the power system is improved, the running state of each power device can be monitored remotely, and appropriate response is made to the monitoring information, so that the normal running of the power device is ensured, the use safety of the power device is improved, the informatization degree is high, the labor burden and safety for monitoring the power device are reduced, and the construction and use of the power device in remote areas are facilitated.

The power change in the second step comprises, but is not limited to, current, voltage, power and short-circuit alarm, wherein the signal receiving and transmitting equipment is connected with the monitoring equipment, acquires monitoring data of the monitoring equipment and performs data transmission with the power equipment monitoring platform in a wireless mode.

According to the invention, aiming at the monitoring of the data of each item of the operation of the power equipment, the signal receiving and transmitting equipment uploads the monitoring data to the power equipment monitoring platform in a wireless mode to realize the effect of remote monitoring, thereby meeting the monitoring requirement.

The collection mode of the power equipment monitoring platform in the third step is divided into two situations:

The first scenario, the power equipment monitoring platform can be directly connected with the signal receiving and transmitting equipment through the wireless base station, so that the power data monitored by the signal receiving and transmitting monitoring equipment can be directly collected;

And if the power equipment monitoring platform does not receive the data of the signal receiving and transmitting equipment, judging that the power equipment and the signal receiving and transmitting equipment provided with the signal receiving and transmitting equipment are out of order, and performing the fourth and fifth steps.

According to different situations, the power equipment monitoring platform can make different reactions, so that the situation that monitoring data corresponding to the signal receiving and transmitting equipment cannot be received is correctly dealt with, and the judgment accuracy is improved.

The situation two that the power equipment monitoring platform can not receive the data of the signal receiving and transmitting equipment is divided into two conditions:

The method comprises the steps that firstly, under the condition of environmental influence, a signal cannot be directly sent to an electric equipment monitoring platform, so that data cannot be exchanged, a signal receiving and transmitting device does not receive feedback signals of the electric equipment monitoring platform, monitoring data of the monitoring device are uploaded to nearby signal receiving and transmitting devices nearby, and the nearby signal receiving and transmitting devices capable of normally exchanging data with the electric equipment monitoring platform transmit the data;

and in the second condition, the monitoring equipment and the signal receiving and transmitting equipment have faults, the signal receiving and transmitting equipment cannot exchange data with the power equipment monitoring platform, and the nearby signal receiving and transmitting equipment cannot receive the data of the signal receiving and transmitting equipment.

The invention can be divided into two cases that the monitoring platform of the electric power equipment can not receive the monitoring data of the corresponding signal receiving and transmitting equipment, one case is the interruption of remote signal transmission caused by the influence of the environment, and the other case is the interruption of signal transmission caused by the damage of the monitoring equipment and the equipment in the signal receiving and transmitting equipment, wherein the two cases represent two results, the problem of data misinformation can be avoided according to the two cases, and meanwhile, a reasonable alternative mode can be given based on the first case, so that the monitoring of the electric power equipment is ensured to be normal, the problem of poor signal coverage in remote areas is solved, and the paving and the use of the electric power equipment are convenient.

The method comprises the steps of a third step of arranging and analyzing monitoring data by the power equipment monitoring platform, wherein a maximum threshold value and a minimum threshold value are set to form a data field according to data of normal working states of the power equipment, the monitoring data and the data field are compared, and whether the working states of the power equipment are normal is judged by judging the exceeding part and the exceeding time length of the data.

According to the invention, the monitored normal working data of the power equipment is analyzed and compared according to the normal working data of the power equipment, so that the working state of the power equipment can be conveniently judged, and the maintenance and repair work of the power equipment are facilitated.

Wherein, the reaction adjustment in the fifth step is divided into:

notifying maintenance personnel to maintain and maintain in time;

sending an instruction to interrupt the operation of the power equipment;

An instruction is sent to reduce the operating power of the electrical device.

According to the invention, monitoring personnel can timely and correctly process the power equipment fault problem, and the loss of power and power equipment is reduced.

Referring to fig. 1 to 3, the present invention further provides a monitoring system based on an electric power internet of things device, configured to implement the above monitoring method based on the electric power internet of things device, where the monitoring method includes:

The power equipment monitoring equipment is used for being installed on the power equipment and monitoring and collecting power data of the operation of the power equipment;

the signal receiving and transmitting module is used for connecting the power equipment monitoring equipment and uploading the monitoring data to the power monitoring data acquisition module;

the power monitoring data acquisition module is used for receiving monitoring data of the power equipment;

the data processing module is used for receiving the collected monitoring data collected by the power monitoring data collection module and analyzing and sorting the monitoring data;

the data storage module is used for storing the monitored data which is processed by the data processing module as backup;

The data comparison module is used for comparing the monitored data processed by the data processing module with normal operation data of normal power equipment and judging whether the monitored data of the power equipment are normal or not;

And the short message sending module is used for sending the data information which is judged to be the fault data information and the data information which needs to be maintained to the mobile monitoring terminal.

According to the invention, the power equipment monitoring equipment and the signal receiving and transmitting module can acquire the operation data of the power equipment in real time or timely, the monitored operation data are processed by the data processing module and are stored by the data storage module so as to be convenient to retrieve, meanwhile, the data comparison module compares the data fields of the monitoring data and the normal operation data of the power equipment, the state of the power equipment is judged, and then a monitoring person is informed in time by the short message sending module, so that timely maintenance work is provided, and further expansion of loss is avoided.

The system also comprises a verification module for sending verification information, and verifying the identity of the signal receiving and transmitting module through the power monitoring data acquisition module and the signal receiving and transmitting module.

In the invention, the verification module can send verification information and authorization information to the signal receiving and transmitting module through the power monitoring data acquisition module, so as to obtain the power equipment data corresponding to the signal receiving and transmitting module or other power equipment data for generation.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims (6)

1. A monitoring method based on power Internet of Things (IoT) devices, characterized in that it includes: Step 1: Establish a power equipment monitoring platform; Step 2: Install monitoring equipment and signal transceiver equipment on each power device to monitor power changes; Step 3: The power equipment monitoring platform collects the monitoring data sent by each power device, and organizes, analyzes and saves the monitoring data; Step 4: Based on the analysis results of the monitoring data from the power equipment monitoring platform, identify the fault information and the maintenance information required and send them to the mobile monitoring terminal via SMS. Step 5: Personnel holding mobile monitoring terminals respond and adjust upon receiving the information; The data collection method of the power equipment monitoring platform in step three is divided into two scenarios: Scenario 1: If the power equipment monitoring platform can be directly connected to the signal transceiver equipment via a wireless base station, then it can directly collect the power data monitored by the signal transceiver monitoring equipment. Scenario 2: The power equipment monitoring platform cannot receive data from the signal transceiver. If it receives data from other signal transceivers after waiting for ten seconds, it will continue monitoring normally. If it does not receive data from any signal transceiver after ten seconds, it will determine that the power equipment equipped with the signal transceiver and the signal transceiver itself are faulty, and proceed to steps four and five. In Scenario 2, the inability of the power equipment monitoring platform to receive signal transceiver data falls into two categories: Scenario 1: Due to environmental factors, the signal cannot be directly sent to the power equipment monitoring platform, resulting in the inability to exchange data. The signal transceiver does not receive feedback signals from the power equipment monitoring platform. Instead, the signal transceiver uploads the monitoring data of the monitoring equipment to a nearby signal transceiver, which is then sent by the nearby signal transceiver that can normally exchange data with the power equipment monitoring platform. Scenario 2: One of the monitoring equipment or the signal transceiver equipment malfunctions, and the signal transceiver equipment is unable to exchange data with the power equipment monitoring platform, and nearby signal transceivers are also unable to receive data from the faulty equipment. 2. The monitoring method based on power Internet of Things (IoT) devices according to claim 1, characterized in that: the power changes in step two include, but are not limited to, current, voltage, power, and short-circuit alarms, wherein the signal transceiver is connected to the monitoring device, acquires the monitoring data of the monitoring device, and transmits the data wirelessly to the power equipment monitoring platform. 3. The monitoring method based on power Internet of Things devices according to claim 1, characterized in that: the power equipment monitoring platform in step three organizes and analyzes the monitoring data by setting a maximum threshold and a minimum threshold to form a data domain based on the data of the normal working state of the power equipment, comparing the monitoring data with the data domain, and judging whether the working state of the power equipment is normal by judging the data exceeding the limit and the duration of the exceedance. 4. The monitoring method based on power Internet of Things (IoT) devices according to claim 1, characterized in that: the reaction adjustment in step five is divided into: Notify maintenance personnel to carry out timely repairs and maintenance; Send a command to interrupt the operation of the power equipment; Send a command to reduce the operating power of the electrical equipment. 5. A monitoring system based on power Internet of Things (IoT) devices, characterized in that it is used to implement the monitoring method based on power IoT devices as described in any one of claims 1-4; comprising: Power equipment monitoring equipment is used to install on power equipment and monitor and collect power data of the power equipment operation; The signal transceiver module is used to connect to the power equipment monitoring equipment and upload the monitoring data to the power monitoring data acquisition module; The power monitoring data acquisition module is used to receive monitoring data from power equipment. The data processing module is used to receive the monitoring data collected and summarized by the power monitoring data acquisition module, and to analyze and organize the monitoring data. The data storage module is used to store the monitoring data processed by the data processing module as a backup. The data comparison module is used to compare the monitoring data processed by the data processing module with the normal operating data of normal power equipment to determine whether the monitoring data of the power equipment is normal. The SMS sending module is used to send faulty data and data that needs maintenance to the mobile monitoring terminal. 6. A monitoring system based on power Internet of Things (IoT) devices according to claim 5, characterized in that: it further includes a verification module for sending verification information to verify the identity of the signal transceiver module through the power monitoring data acquisition module and the signal transceiver module.