CN111582657A - Intelligent community electricity utilization safety management system - Google Patents
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- CN111582657A CN111582657A CN202010297588.7A CN202010297588A CN111582657A CN 111582657 A CN111582657 A CN 111582657A CN 202010297588 A CN202010297588 A CN 202010297588A CN 111582657 A CN111582657 A CN 111582657A
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Abstract
The invention relates to the field of intelligent power distribution safety, and provides an intelligent community electricity utilization safety management system which comprises a login module, a GIS (geographic information System) inspection module, an electric energy quality analysis module and a progress monitoring module, wherein the GIS inspection module is used for monitoring the operation states of switches and equipment on a distribution line in a power distribution room through a GIS line layout or a single line diagram and generating electric energy quality parameters; the parameters comprise voltage, harmonic, frequency and load balance; progress monitoring module is used for monitoring maintenance personal's job schedule, according to outside instruction and unmanned aerial vehicle communication, acquires the picture that unmanned aerial vehicle patrolled and examined the shooting and sends intelligent power consumption interaction device terminal. According to the intelligent power distribution cell protection system, the intelligent power distribution cell is protected in multiple directions through the GIS polling module, the progress monitoring module, the monitoring task synchronization module, the remote monitoring module and the like, information can be obtained at the first time when a fault occurs, and further processing is further adopted.
Description
Technical Field
The invention relates to the field of intelligent power distribution safety, in particular to an intelligent community electricity utilization safety management system.
Background
Intelligent power distribution is a development trend of modern life, and more countries develop research on the intelligent power distribution. In the united states, research has been carried out in the aspect of intelligent power distribution and utilization, and power supply companies in the united states replace intelligent electric meters for citizens on a large scale in order to better realize intelligent power utilization management, so that more accurate, more reliable and high-real-time power distribution and utilization analysis data can be obtained. In 2008, bolde announced in colorado, usa, becomes the first smart grid city in the whole united states, and family users can interact with a power grid, know real-time electricity price and reasonably arrange electricity utilization; meanwhile, the power grid can also carry out real-time allocation of electric power according to actual conditions, and the power supply reliability is improved.
The existing intelligent electricity utilization cell is not perfect in the aspect of safety management of intelligent power distribution and cannot be processed in time when a fault occurs, so that the intelligent electricity utilization cell generates a large amount of energy consumption in the operation process.
Disclosure of Invention
The invention aims to solve the problem that the prior art cannot process the faults in time, and provides an intelligent community electricity utilization safety management system for achieving the purpose of timely processing the faults.
The invention adopts the technical scheme that the intelligent community electricity utilization safety management system comprises a login module, a GIS inspection module, an electric energy quality analysis module and a progress monitoring module,
the login module is used for setting employee identity, password and mobile phone number;
the GIS inspection module is used for monitoring the operating states of switches and equipment on a distribution line in a power distribution room through a GIS line edge layout or a single line diagram and generating power quality parameters; the parameters comprise voltage, harmonic, frequency and load balance;
the electric energy quality analysis module presets an abnormal numerical value interval of the electric energy quality parameters and divides the abnormal numerical value interval into fault levels; matching corresponding maintenance personnel information according to the grades; comparing the electric energy quality parameter generated by the GIS polling module with the abnormal numerical value interval of the electric energy quality parameter, and when the electric energy quality parameter generated by the GIS polling module is positioned in the abnormal numerical value interval, generating fault information by the electric energy quality analysis module and transmitting the fault information to the intelligent power utilization interactive equipment terminal; the fault information comprises fault positions, numbers of fault switches or equipment, the power quality parameters, the fault levels and the information of maintenance personnel;
the progress monitoring module is used for monitoring the working progress of maintenance personnel, communicating with the monitoring equipment according to an external instruction, acquiring a picture shot by the monitoring equipment and sending the picture to the intelligent power consumption interaction equipment terminal.
Preferably, the monitoring device is an unmanned aerial vehicle.
Preferably, the intelligent community electricity utilization safety management system further comprises a monitoring task synchronization module, wherein the monitoring task synchronization module is connected with the GIS inspection module and is communicated with the unmanned aerial vehicle to plan the running state of the unmanned aerial vehicle relative to the fault position; the running state comprises a track point of the unmanned aerial vehicle, the flying height and the shooting angle.
Preferably, the monitoring task synchronization module allows the track point, the flying height and the shooting angle of the unmanned aerial vehicle to be changed.
Preferably, the safety management system for electricity utilization of the intelligent residential area further comprises a remote monitoring module, and the remote monitoring module is used for monitoring the temperature, humidity and operation conditions of the power distribution room.
Preferably, the threshold values of temperature and humidity are set in the system in advance; the remote monitoring module receives detection data of a temperature sensor and a humidity sensor which are arranged in a power distribution room; and when the detection data of the temperature sensor and the humidity sensor are larger than the threshold values of the temperature and the humidity, controlling the buzzer to give out an alarm sound.
Preferably, the remote monitoring module receives a video shot by an infrared camera arranged in the power distribution room; when the buzzer gives out an alarm sound, the remote monitoring module sends the video shot by the infrared camera to the intelligent electricity utilization interactive equipment terminal.
Preferably, the intelligent community electricity utilization safety management system further comprises a topology tracking module, wherein the topology tracking module is connected to the GIS inspection module; the GIS routing inspection module can position fault equipment on a distribution diagram or a single line diagram through a GIS line; and the topology tracking module simulates and displays the initial analysis result of the power failure range influenced by the fault positioning equipment on a GIS line along a layout or a single line diagram through line topology tracking.
Compared with the prior art, the invention has the beneficial effects that: according to the intelligent power distribution cell protection system, the intelligent power distribution cell is protected in multiple directions through the GIS polling module, the progress monitoring module, the monitoring task synchronization module, the remote monitoring module and the like, information can be obtained at the first time when a fault occurs, and further processing is further adopted.
Drawings
FIG. 1 is a diagram of the logical architecture of the present invention.
Fig. 2 is a diagram of the logical architecture of the remote monitoring module.
Detailed Description
The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.
As shown in fig. 1, this embodiment provides an intelligent residential district power consumption safety management system, which includes a login module, a GIS inspection module, a power quality analysis module, a progress monitoring module, a monitoring task synchronization module, a topology tracking module, and a remote monitoring module.
The login module is used for setting the identity, the password and the mobile phone number of a worker in the system. The GIS inspection module is used for monitoring the operating states of switches and equipment on a distribution line in a power distribution room through a GIS line edge layout or a single line diagram and generating power quality parameters; the parameters include voltage, harmonics, frequency, load balance.
The electric energy quality analysis module presets an abnormal numerical value interval of the electric energy quality parameters and divides the abnormal numerical value interval into fault levels; matching corresponding maintenance personnel information according to the grades; comparing the electric energy quality parameter generated by the GIS polling module with the abnormal numerical value interval of the electric energy quality parameter, and when the electric energy quality parameter generated by the GIS polling module is positioned in the abnormal numerical value interval, generating fault information by the electric energy quality analysis module and sending the fault information to an intelligent electricity consumption interaction equipment terminal with an automatic reminding function; the fault information comprises fault positions, numbers of fault switches or equipment, the power quality parameters, the fault levels and the information of maintenance personnel.
Progress monitoring module is used for monitoring maintenance personal's job schedule, according to outside instruction and supervisory equipment communication, supervisory equipment can be robot, unmanned aerial vehicle are patrolled and examined to intelligence, and the preferred unmanned aerial vehicle of this place. And the progress monitoring module acquires the picture shot by the unmanned aerial vehicle during inspection and sends the picture to the intelligent power consumption interaction equipment terminal. The monitoring task synchronization module is connected with the GIS inspection module and is communicated with the unmanned aerial vehicle, and a track point of the unmanned aerial vehicle at a fault position, corresponding flying height and corresponding shooting angle are planned; the unmanned aerial vehicle is allowed to change the track point, the corresponding flying height and the shooting angle.
The remote monitoring module is used for monitoring the temperature and the humidity of the power distribution room and the operation condition of the equipment. The topology tracking module and the GIS inspection module are matched to predict and position the initial analysis result of the power failure range influenced by the fault equipment. When the GIS inspection module positions the fault equipment through the edge layout or the single line diagram, the topology tracking module performs circuit topology tracking, and the initial analysis result of the power failure range influenced by the positioned fault equipment is displayed in a GIS circuit edge layout or single line diagram simulation mode.
As shown in fig. 2, the remote monitoring module is connected to a temperature sensor, a humidity sensor, a buzzer and an infrared camera which are arranged in the power distribution room. The temperature sensor is used for detecting the temperature of the power distribution room. The humidity sensor is used for detecting the humidity of the power distribution room. The buzzer is used for making a sound to remind people to pay attention. The infrared camera is used for shooting conditions in the power distribution room. The intelligent power distribution management system sets temperature and humidity threshold values in the system in advance; the remote monitoring module receives detection data of a temperature sensor and a humidity sensor which are arranged in a power distribution room; and when the detection data of the temperature sensor and the humidity sensor are larger than the threshold values of the temperature and the humidity, controlling the buzzer to give out an alarm sound. When the buzzer gives out an alarm sound, the remote monitoring module sends the video shot by the infrared camera to the intelligent electricity utilization interactive equipment terminal.
When the system works, after a staff member logs in, a cell needing to be checked is selected through the GIS inspection module, a line edge layout or a single line diagram in the cell is displayed after the staff member enters the cell, power distribution equipment and a switch can be seen on the line edge layout or the single line diagram, meanwhile, preset power distribution detection equipment can be seen on the GIS map, when the staff member moves to the equipment, main power quality parameters monitored by the equipment can be displayed in a small popup window mode, power quality parameters are generated in the main power quality parameters, if a transformer can see the instant power of the transformer, if the switch is on, the current on-off state and the specific reading of split-phase current can be seen. When the electric energy quality parameters generated by the GIS inspection module are located in a preset abnormal numerical value interval, the electric energy quality analysis module generates fault information and sends the fault information to the intelligent electricity utilization interactive equipment terminal. The intelligent power consumption interactive device terminal can automatically remind maintenance personnel to carry out maintenance work in the first time.
Maintenance personal during operation, progress monitoring module obtains unmanned aerial vehicle and patrols and examines the picture of shooing and send intelligent power consumption interactive device terminal according to external instruction and unmanned aerial vehicle communication to this control maintenance personal's work progress. When the unmanned aerial vehicle runs, the monitoring task synchronization module is connected with the GIS inspection module and is communicated with the unmanned aerial vehicle, and a track point of the unmanned aerial vehicle relative to a fault position, corresponding flying height and a corresponding shooting angle are planned; the unmanned aerial vehicle is allowed to change the track point, the corresponding flying height and the shooting angle.
In addition, when the GIS routing inspection module locates the fault equipment through the GIS line edge layout or the single line diagram, the topology tracking module displays the initial analysis result of the power failure range influenced by the located fault equipment in the GIS line edge layout or the single line diagram through line topology tracking.
When the detection data of the temperature sensor and the humidity sensor are larger than the threshold values of the temperature and the humidity, the buzzer gives out an alarm sound; when the buzzer gives out an alarm sound, the remote monitoring module sends the video shot by the infrared camera to the intelligent electricity utilization interactive equipment terminal.
It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.
Claims (8)
1. An intelligent community electricity utilization safety management system is characterized by comprising a login module, a GIS inspection module, an electric energy quality analysis module and a progress monitoring module,
the login module is used for setting employee identity, password and mobile phone number;
the GIS inspection module is used for monitoring the operating states of switches and equipment on a distribution line in a power distribution room through a GIS line edge layout or a single line diagram and generating power quality parameters; the parameters comprise voltage, harmonic, frequency and load balance;
the electric energy quality analysis module presets an abnormal numerical value interval of the electric energy quality parameters and divides the abnormal numerical value interval into fault levels; matching corresponding maintenance personnel information according to the fault level; comparing the electric energy quality parameter generated by the GIS polling module with the abnormal numerical value interval of the electric energy quality parameter, and when the electric energy quality parameter generated by the GIS polling module is positioned in the abnormal numerical value interval, generating fault information by the electric energy quality analysis module and sending the fault information to an intelligent electricity consumption interaction equipment terminal with an automatic reminding function; the fault information comprises fault positions, numbers of fault switches or equipment, the power quality parameters, the fault levels and the information of maintenance personnel;
the progress monitoring module is used for monitoring the working progress of maintenance personnel, communicating with the monitoring equipment according to an external instruction, acquiring a picture shot by the monitoring equipment and sending the picture to the intelligent power consumption interaction equipment terminal.
2. The system according to claim 1, wherein the monitoring device is an unmanned aerial vehicle.
3. The intelligent community electricity safety management system according to claim 2, further comprising a monitoring task synchronization module, wherein the monitoring task synchronization module is connected with the GIS inspection module and is in communication with the unmanned aerial vehicle to plan the operation state of the unmanned aerial vehicle relative to the fault position; the running state comprises a track point of the unmanned aerial vehicle, the flying height and the shooting angle.
4. The intelligent community electricity safety management system according to claim 3, wherein the monitoring task synchronization module allows the change of the track point, the flying height and the shooting angle of the unmanned aerial vehicle.
5. The intelligent community electricity safety management system according to claim 1, further comprising a remote monitoring module, wherein the remote monitoring module is used for monitoring the temperature, humidity and operation conditions of the power distribution room.
6. The intelligent community electricity safety management system according to claim 5, wherein the threshold values of temperature and humidity are set in the system in advance; the remote monitoring module receives detection data of a temperature sensor and a humidity sensor which are arranged in a power distribution room; and when the detection data of the temperature sensor and the humidity sensor are larger than the threshold values of the temperature and the humidity, the buzzer gives out an alarm sound.
7. The intelligent community electricity safety management system according to claim 5, wherein the remote monitoring module receives a video shot by an infrared camera arranged in the power distribution room; when the buzzer gives out an alarm sound, the remote monitoring module sends the video shot by the infrared camera to the intelligent electricity utilization interactive equipment terminal.
8. The intelligent community electricity safety management system according to claim 1, further comprising a topology tracking module, wherein the topology tracking module is connected to the GIS inspection module; when the GIS inspection module positions the fault equipment along the layout or the single line diagram through the GIS circuit, the topology tracking module simulates and displays the initial analysis result of the power failure range influenced by the positioned fault equipment on the GIS circuit along the layout or the single line diagram through the circuit topology tracking.
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CN202010297588.7A CN111582657A (en) | 2020-04-16 | 2020-04-16 | Intelligent community electricity utilization safety management system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114048346A (en) * | 2021-10-09 | 2022-02-15 | 大庆恒驰电气有限公司 | GIS-based safety production integrated management and control platform and method |
CN114062843A (en) * | 2021-11-11 | 2022-02-18 | 广东卓维网络有限公司 | Power utilization fault inspection method and system |
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2020
- 2020-04-16 CN CN202010297588.7A patent/CN111582657A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114048346A (en) * | 2021-10-09 | 2022-02-15 | 大庆恒驰电气有限公司 | GIS-based safety production integrated management and control platform and method |
CN114048346B (en) * | 2021-10-09 | 2022-07-26 | 大庆恒驰电气有限公司 | GIS-based safety production integrated management and control platform and method |
CN114062843A (en) * | 2021-11-11 | 2022-02-18 | 广东卓维网络有限公司 | Power utilization fault inspection method and system |
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