CN105203880A - Power line emergency monitoring device and method based on Beidou - Google Patents

Abstract

The present invention relates to the technical field of power line monitoring. A Beidou-based power line emergency monitoring method of the present invention includes the following steps: step S101: power line data collection; step S102: power line data collection; step S103: Beidou satellite data transmission; step S104: Remote monitoring data acquisition. The present invention also includes a power line emergency monitoring device based on Beidou, including several power line data acquisition modules, the power line data acquisition module is connected to a server in communication, the server is connected to Beidou satellite in communication, and the Beidou satellite communicates with a remote monitoring server connect. After adopting the above method and structure, the present invention detects whether the power line is running normally through the current sensor and the voltage sensor arranged on the power line, and then sends the detected data to the mobile communication server, and then wirelessly transmits it to the remote monitoring server through the Beidou satellite, so that The entire power line can be monitored remotely to ensure that the power line is functioning properly.

Description

A Beidou-based power line emergency monitoring device and method

technical field

The invention relates to the technical field of power line monitoring, in particular to a Beidou-based power line emergency monitoring device and method.

Background technique

Electricity is one of the indispensable energy sources in people's daily life, especially as people's awareness of environmental protection increases, various energy sources, especially clean energy sources, such as nuclear energy and water energy, are converted into electrical energy and passed through power transmission lines Transmission to each electricity region and user. Therefore, the stability and reliability of the power transmission line work becomes very important.

At present, for power line faults, it is usually through each power supply station or substation to find out which area or which user finds that there is no power, and then send manpower to find the possible fault location of the power. After finding the location, determine the fault situation and carry out corresponding maintenance. . This kind of power failure confirmation method is often not very targeted. Since the maintenance personnel cannot know the cause of the failure in advance, they usually need to carry various troubleshooting devices, resulting in low maintenance efficiency.

Chinese invention patent application CN104902223A discloses a fault monitoring system for power lines, including: a monitoring center, a video acquisition device, an information processing device, and an information communication device. The video acquisition device, information processing device, and information communication device are relatively fixed on the power line On the road, the monitoring center is located far away from the video information of the power line, and transmits the video information to the information processing device, and the information processing device is used to process the video information collected by the video acquisition device, and transmit the processed video information through communication device and send it to the monitoring center.

Contents of the invention

The technical problem to be solved by the present invention is to provide a Beidou-based power line emergency monitoring device and method.

In order to solve the above-mentioned technical problems, a Beidou-based power line emergency monitoring method of the present invention includes the following steps,

Step S101: Power line data acquisition, collecting power line working data through the power line data acquisition module;

Step S102: summarizing the power line data, summarizing the power line working data collected by each power line data acquisition module to the server;

Step S103: Beidou satellite data transmission, the server remotely transmits the summarized power line working data to Beidou satellite;

Step S104: The remote monitoring data is obtained, and the Beidou satellite wirelessly transmits the received power line working data to the remote monitoring server.

Further, the server in the step S102 is a mobile communication server, and the power line data collection module remotely transmits the collected power line working data to the mobile communication server through the signal transmitting antenna.

In addition, the present invention also includes a power line emergency monitoring device based on Beidou, including several power line data acquisition modules, the power line data acquisition module is connected to a server by communication, the server is connected to Beidou satellite by communication, and the Beidou satellite is connected to the remote monitoring Server communication connection.

Further, the server is a mobile communication server, the power line data acquisition module is connected to the mobile communication server by wireless communication, and the mobile communication server is connected to the Beidou satellite by wireless communication.

Further, the power line data acquisition module includes a microprocessor and a current sensor and a voltage sensor arranged on the power line, the current sensor and the voltage sensor are connected to the input terminal of the microprocessor, and the output terminal of the microprocessor passes a signal The transmitting module is connected with the signal transmitting antenna.

Furthermore, an LED indicator light is also connected to the output end of the microprocessor.

After adopting the above method and structure, the present invention detects whether the power line is running normally through the current sensor and voltage sensor arranged on the power line, and then sends the detected data to the mobile communication server, and then wirelessly transmits it to the remote monitoring server through the Beidou satellite, so The entire power line can be monitored remotely to ensure that the power line is functioning properly.

Description of drawings

The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of a Beidou-based power line emergency monitoring method according to the present invention.

Fig. 2 is a structural block diagram of a Beidou-based power line emergency monitoring device according to the present invention.

In the figure: 1 is the power line data acquisition module, 2 is the mobile communication server, 3 is the Beidou satellite, 4 is the remote monitoring server

101 is a microprocessor, 102 is a current sensor, 103 is a voltage sensor, 104 is a signal transmitting module, 105 is a signal transmitting antenna, 106 is an LED indicator

Detailed ways

As shown in Figure 1, a Beidou-based power line emergency monitoring method of the present invention includes the following steps,

Step S101: Power line data acquisition, collecting power line working data through the power line data acquisition module;

Step S102: summarizing the power line data, summarizing the power line working data collected by each power line data acquisition module to the server;

Step S103: Beidou satellite data transmission, the server remotely transmits the summarized power line working data to Beidou satellite;

Step S104: The remote monitoring data is obtained, and the Beidou satellite wirelessly transmits the received power line working data to the remote monitoring server.

Further, the server in the step S102 is a mobile communication server, and the power line data collection module remotely transmits the collected power line working data to the mobile communication server through the signal transmitting antenna.

In addition, as shown in Figure 2, the present invention also includes a power line emergency monitoring device based on Beidou, including several power line data acquisition modules 1, the power line data acquisition module 1 is connected to a server in communication, and the server communicates with Beidou satellite 3 connected, the Beidou satellite 3 communicates with the remote monitoring server 4.

Further, the server is a mobile communication server 2, the power line data acquisition module 1 is connected to the mobile communication server 2 by wireless communication, and the mobile communication server 2 is connected to the Beidou satellite 3 by wireless communication.

Further, the power line data acquisition module includes a microprocessor 101 and a current sensor 102 and a voltage sensor 103 arranged on the power line, the current sensor 102 and the voltage sensor 103 are connected to the input end of the microprocessor 101, the microprocessor The output terminal of the processor 101 is connected to the signal transmitting antenna 105 through the signal transmitting module 104 .

Furthermore, an LED indicator light 106 is also connected to the output end of the microprocessor 101 . The present invention includes a current sensor 102 and a voltage sensor 103 arranged on the power line, the current sensor 102 and the voltage sensor 103 are connected to the input end of the microprocessor 101, and the output end of the microprocessor 101 is also connected to an LED indicator light 106 , which indicates that the powerline transmission is working properly with a blinking LED. If the LED indicator light 106 is not on, it means that the transmission of this section of the power line is abnormal, so that it can be convenient to confirm which section of the power line is abnormal during maintenance.

Although the specific embodiments of the present invention have been described above, those skilled in the art should understand that these are only examples, and various changes or modifications can be made to the embodiments without departing from the principle and essence of the invention. The scope is limited only by the appended claims.

Claims (6)

1. A power line emergency monitoring method based on Beidou, characterized in that, comprising the following steps, Step S101: Power line data acquisition, collecting power line working data through the power line data acquisition module; Step S102: summarizing the power line data, summarizing the power line working data collected by each power line data acquisition module to the server; Step S103: Beidou satellite data transmission, the server remotely transmits the summarized power line working data to Beidou satellite; Step S104: The remote monitoring data is obtained, and the Beidou satellite wirelessly transmits the received power line working data to the remote monitoring server. 2. A Beidou-based power line emergency monitoring method according to claim 1, characterized in that: in the step S102, the server is a mobile communication server, and the power line data acquisition module works on the collected power line through a signal transmitting antenna The data is transmitted remotely to the mobile communication server. 3. A power line emergency monitoring device based on Beidou, characterized in that: it includes several power line data acquisition modules, the power line data acquisition module is connected with server communication, the server is connected with Beidou satellite communication, and the Beidou satellite is connected with remote monitoring Server communication connection. 4. A Beidou-based power line emergency monitoring device according to claim 3, characterized in that: the server is a mobile communication server, the power line data collection module is wirelessly connected to the mobile communication server, and the mobile communication server Wireless communication connection with Beidou satellite. 5. A kind of power line emergency monitoring device based on Beidou according to claim 3, characterized in that: the power line data acquisition module includes a microprocessor and a current sensor and a voltage sensor arranged on the power line, the current sensor and The voltage sensor is connected with the input terminal of the microprocessor, and the output terminal of the microprocessor is connected with the signal transmitting antenna through the signal transmitting module. 6 . The Beidou-based power line emergency monitoring device according to claim 5 , wherein an LED indicator light is also connected to the output end of the microprocessor.