CN116345691A

CN116345691A - Power equipment operation monitoring system

Info

Publication number: CN116345691A
Application number: CN202310345034.3A
Authority: CN
Inventors: 刘龙; 刘杰
Original assignee: Qingdao Xituo Technology Co ltd
Current assignee: Changsha Xiuneng Information Technology Co ltd
Priority date: 2023-04-03
Filing date: 2023-04-03
Publication date: 2023-06-27
Anticipated expiration: 2043-04-03
Also published as: CN116345691B; CN116345691B8

Abstract

The invention relates to the technical field of power equipment monitoring, in particular to a power equipment operation monitoring system. The power equipment operation monitoring system can scientifically and efficiently process equipment abnormality. The power equipment operation monitoring system comprises a data sampling module, a video monitoring module, a position acquisition module, an action execution module and the like; the video monitoring module is used for monitoring and recording operation pictures of the equipment, the position acquisition module is used for providing position information of the equipment, and the action execution module is arranged on a control panel of the related equipment and used for executing control instructions for the equipment. According to the invention, through the data storage module and the maintenance data of the power equipment recorded by the processing recording module, the history abnormality problem can be automatically treated when the equipment is abnormal, so that the loss caused by the equipment abnormality is reduced as soon as possible, and the workload of maintenance personnel is reduced.

Description

Power equipment operation monitoring system

Technical Field

The invention relates to the technical field of power equipment monitoring, in particular to a power equipment operation monitoring system.

Background

Common power equipment monitoring system generally carries out early warning suggestion to the power equipment of trouble of taking place to this loss that reduces the trouble and bring through monitoring the running state of power equipment, however current power equipment monitoring system only monitors and simple outage handles the running state of equipment, is difficult to more scientifically and efficiently handle various unusual of power equipment.

Disclosure of Invention

In order to overcome the defect that the existing power equipment monitoring system only monitors the running state of equipment and simply performs power-off treatment, and is difficult to more scientifically and efficiently treat various anomalies of the power equipment, the invention provides the power equipment running monitoring system capable of scientifically and efficiently treating the anomalies of the equipment.

The power equipment operation monitoring system comprises a data sampling module, a video monitoring module, a position acquisition module, an action execution module, a control center, an information processing module, a communication module and a data storage module; the system comprises a video monitoring module, a position acquisition module, an action execution module, a control center, an information processing module and a data storage module, wherein the video monitoring module is used for monitoring and recording operation pictures of equipment, the position acquisition module is used for providing position information of the equipment, the action execution module is arranged on a control panel of related equipment and used for executing control instructions on the equipment, the control center is used for processing data information of the modules and sending the control instructions, the information processing module is used for carrying out parameterization on the data of the equipment, the communication module is used for assisting the modules and the control center to transmit the data, and the data storage module is used for storing the operation data, the position information, the monitoring video information and a control instruction library of the equipment, wherein the operation data comprises normal operation data and abnormal operation data.

Preferably, the lightning detection device further comprises an environment monitoring module, wherein the environment monitoring module is used for monitoring the running environment of the device, the environment monitoring module comprises a temperature and humidity detection unit and a lightning detection unit, the temperature and humidity detection unit is used for detecting key components of the device and the temperature and humidity of the environment, and the lightning detection unit is used for detecting the time, duration, lightning stroke position, strength and times of lightning in thunderstorm weather.

Preferably, the system further comprises an early warning module, wherein the early warning module is used for sending out reminding information when equipment is or is about to fail, and the reminding information comprises a warning lamp, a display equipment and a network information.

Preferably, the system further comprises a processing recording module, wherein the processing recording module is used for recording the operation steps of processing the abnormality by maintenance personnel, storing the instruction sequence of the step into a control instruction library and associating the instruction sequence with a corresponding abnormality code, recording the video of the processing abnormality through the video monitoring module, and storing the recorded video into the data storage module.

Preferably, the method comprises the following steps:

s1, acquiring index parameters of normal operation of equipment, continuously acquiring operation data of the equipment, extracting the operation index parameters of the equipment, comparing the operation index parameters with the index parameters of the normal operation of the equipment in real time, calculating an abnormal duty ratio of the operation data in a preset time period, judging whether the abnormal duty ratio exceeds a threshold value, if so, marking the operation data as abnormal data and storing the abnormal data in an abnormal database, otherwise, continuously monitoring the operation data;

s2, converting the abnormal data of the equipment into abnormal code parameters, displaying the abnormal code parameters in the corresponding display equipment, and storing the abnormal code into a data storage module;

s3, searching whether a processing instruction corresponding to the abnormal code exists in the control instruction library, if so, sending the processing instruction to the action execution module and sending early warning information, otherwise, entering S4;

s4, acquiring priority and position information of the current abnormal equipment, generating a rush-repair route map and sending the rush-repair route map to a client of maintenance personnel.

Preferably, the index parameter is parameterizable state and data during normal operation of the device.

Preferably, the method for prioritizing the devices is as follows: when one or more devices are abnormal, the priority of the devices is set according to the influence degree of the devices, the priority of the devices is determined preferentially according to the influence range of the devices, and the higher the priority of the devices with large influence range is, the higher the priority of the main devices in the combined device is, and the lower the priority of the auxiliary devices is.

Preferably, the client is a mobile phone or other devices with image display functions.

Preferably, the transmission mode of the communication module includes wired transmission and wireless network transmission.

The invention has the following advantages:

1. according to the invention, through the data storage module and the maintenance data of the power equipment recorded by the processing recording module, the history abnormality problem can be automatically treated when the equipment is abnormal, so that the loss caused by the equipment abnormality is reduced as soon as possible, and the workload of maintenance personnel is reduced.

2. According to the invention, the data storage module is arranged to backup the operation data of the equipment in time, so that the operation data of the equipment in an abnormal period can be rapidly obtained when the equipment is abnormal, the reason of the abnormality can be rapidly analyzed, and when a plurality of pieces of equipment are abnormal or have faults, the influence range of the abnormal equipment can be furthest reduced and the working efficiency of part of power equipment can be maintained by generating the rush repair route map according to the priority and the position information of the equipment.

Drawings

FIG. 1 is a block diagram of a power equipment operation monitoring system of the present invention;

fig. 2 is a schematic program flow chart of an operation monitoring system for an electrical device according to the present invention.

Detailed Description

The invention is further described below with reference to the drawings and examples.

An electric power equipment operation monitoring system is shown in fig. 1, and comprises a data sampling module, a video monitoring module, a position acquisition module, an action execution module, a control center, an information processing module, a communication module and a data storage module; the system comprises a video monitoring module, a position acquisition module, an action execution module, a control center and an information processing module, wherein the video monitoring module is used for monitoring and recording operation data of all equipment, the video monitoring module is used for monitoring and recording operation pictures of the equipment, the position acquisition module is used for providing position information of the equipment, the action execution module is arranged on a control panel of related equipment and used for executing control instructions on the equipment, the control center is used for processing data information of all modules and sending the control instructions, the information processing module is used for carrying out parameterization on the data of all the equipment, the communication module is used for assisting all the modules and the control center in transmitting the data, the transmission mode of the communication module is wireless network transmission, and the data storage module is used for storing the operation data, the position information, the monitoring video information and a control instruction library of all the equipment, wherein the operation data comprises normal operation data and abnormal operation data.

As a preferred scheme of this embodiment, the system further comprises an environment monitoring module, wherein the environment monitoring module is used for monitoring the running environment of the equipment, the environment monitoring module comprises a temperature and humidity detection unit and a lightning detection unit, the temperature and humidity detection unit is used for detecting the temperature and humidity of key components of the equipment and the environment, the lightning detection unit is used for detecting the time, duration, lightning stroke position, strength and times of lightning in thunderstorm weather, and according to the environment monitoring related parameters, abnormal codes and associated corresponding control instructions can be defined and stored in the data storage module.

The system comprises a device, and is characterized by further comprising an early warning module, wherein the early warning module is used for sending out reminding information when the device is in failure or is about to be in failure, the reminding information comprises a warning lamp for reminding, a display device for reminding and a network information for reminding, when the device is abnormal, the warning lamp is lightened on the device, an abnormal code is displayed on a display screen, and meanwhile, an abnormal short message of the device is sent out to a mobile phone of a maintainer.

Specifically, referring to fig. 2, the method comprises the following steps:

s1, acquiring index parameters of normal operation of equipment, wherein the index parameters comprise color, temperature, humidity, yield, frequency, speed, length, weight, density, current, voltage, impedance and the like, the selected index parameters in the embodiment are the temperature of main equipment, the operation data of the equipment are continuously collected, the operation index parameters of the equipment are extracted through an information processing module and are compared with the index parameters of normal operation of the equipment in real time, the abnormal occupation ratio of the operation data in a preset time period is calculated, whether the abnormal occupation ratio exceeds a threshold value is judged, if yes, the operation data are marked as abnormal data and are stored in an abnormal database, otherwise, the operation data are continuously monitored, in the embodiment, the preset time period is 10 minutes, the threshold value of the abnormal occupation ratio is 70%, and if the temperature of the main equipment exceeds the index temperature of normal operation for 7 minutes, the operation data in the time period are marked as abnormal data;

s2, converting the abnormal data of the equipment into abnormal code parameters and displaying the abnormal code parameters in the corresponding display equipment, storing the abnormal code into a data storage module, for example, representing and displaying the abnormal temperature TE on a display screen of the equipment, and storing the abnormal code into the data storage module;

s3, searching whether a processing instruction corresponding to the abnormal code exists in the control instruction library, if so, sending the processing instruction to the action execution module and sending early warning information, otherwise, entering S4; for example, in this embodiment, the monitored index parameter is the temperature of the main device, when the temperature of the main device is too high, the processing method is to reduce the temperature, and the maintainer generally adjusts the speed control to reduce the production speed of the device or enhances the heat dissipation efficiency of the device by enhancing refrigeration, so that the action instruction of the speed control and the action instruction of enhancing refrigeration are stored in advance as the processing instruction of the temperature anomaly code, and when the device has the anomaly with the code TE, the processing instruction is executed by the action execution module, so as to reduce the workload of the maintainer.

S4, setting the priority of the equipment according to the influence degree of the equipment, determining the priority of the equipment according to the influence range of the equipment preferentially, wherein the higher the priority of the equipment with a large influence range is, the higher the priority of the main equipment is in the combined equipment, the lower the priority of the auxiliary equipment is, the aim of reducing the negative influence of the equipment as low as possible is to acquire the priority and the position information of the current abnormal equipment, generating a rush repair route map and sending the rush repair route map to a client of maintenance personnel, wherein the client is a mobile phone, and the maintenance personnel can quickly position the position of the abnormal equipment through the route map and is also applicable to new maintenance personnel unfamiliar with the route and the equipment position.

As another preferable scheme of the embodiment, the system further comprises a processing recording module, wherein the processing recording module is used for recording the operation steps of processing the abnormality by the maintainer, storing the instruction sequence of the step into a control instruction library and correlating with the corresponding abnormality code, recording the video for processing the abnormality through the video monitoring module, and storing the recorded video into the data storage module, so that each abnormal processing instruction can be stored, when the equipment sends out the same abnormal problem again, the corresponding operation can be automatically executed through the control center according to the processing instruction corresponding to the abnormality code, thereby reducing the workload of the maintainer, and simultaneously, for a new maintainer, the method for learning the abnormal processing through consulting the recorded abnormal processing video is also provided.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The power equipment operation monitoring system is characterized by comprising a data sampling module, a video monitoring module, a position acquisition module, an action execution module, a control center, an information processing module, a communication module and a data storage module; the system comprises a video monitoring module, a position acquisition module, an action execution module, a control center, an information processing module and a data storage module, wherein the video monitoring module is used for monitoring and recording operation pictures of equipment, the position acquisition module is used for providing position information of the equipment, the action execution module is arranged on a control panel of related equipment and used for executing control instructions on the equipment, the control center is used for processing data information of the modules and sending the control instructions, the information processing module is used for carrying out parameterization on the data of the equipment, the communication module is used for assisting the modules and the control center to transmit the data, and the data storage module is used for storing the operation data, the position information, the monitoring video information and a control instruction library of the equipment, wherein the operation data comprises normal operation data and abnormal operation data.

2. The power equipment operation monitoring system according to claim 1, further comprising an environment monitoring module, wherein the environment monitoring module is used for monitoring the operation environment of the equipment, the environment monitoring module comprises a temperature and humidity detection unit and a lightning detection unit, the temperature and humidity detection unit is used for detecting key components of the equipment and the temperature and humidity of the environment, and the lightning detection unit is used for detecting the time, duration, lightning stroke position, strength and times of lightning in thunderstorm weather.

3. The power equipment operation monitoring system according to claim 2, further comprising an early warning module, wherein the early warning module is configured to send out a warning message when the equipment is in or about to fail, and the warning message comprises a warning lamp warning, a display equipment warning and a network message warning.

4. A power equipment operation monitoring system according to claim 3, further comprising a processing recording module, wherein the processing recording module is used for recording an operation step of processing abnormality by a maintainer, storing an instruction sequence of the step into a control instruction library and associating the instruction sequence with a corresponding abnormality code, recording a video of the processing abnormality through the video monitoring module, and storing the recorded video into the data storage module.

5. The power plant operation monitoring system of claim 4, comprising the steps of:

6. The system of claim 4, wherein the index parameter is parameterizable status and data during normal operation of the device.

7. The power equipment operation monitoring system according to claim 4, wherein the method for prioritizing the equipment is as follows: when one or more devices are abnormal, the priority of the devices is set according to the influence degree of the devices, the priority of the devices is determined preferentially according to the influence range of the devices, and the higher the priority of the devices with large influence range is, the higher the priority of the main devices in the combined device is, and the lower the priority of the auxiliary devices is.

8. The power equipment operation monitoring system according to claim 4, wherein the client is a mobile phone or other equipment with an image display function.

9. The power equipment operation monitoring system according to claim 1, wherein the transmission mode of the communication module includes wired transmission and wireless network transmission.