CN217883432U - Power optical cable fault positioning system based on Beidou short message communication - Google Patents

Abstract

The utility model discloses a power optical cable fault location system based on big dipper short message communication, include: the system comprises a solar power distribution controller, an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal; the solar energy power distribution system comprises an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal, wherein the optical cable monitoring front end, the temperature sensor, the wind sensor, the warning alarm lamp, the warning horn and the Beidou communication terminal are respectively connected with a solar energy power distribution controller, a Beidou positioning module and a Beidou communication module are arranged in the Beidou communication terminal in an integrated mode, and the Beidou communication module is connected with a background of an optical cable monitoring system server through an antenna. The utility model discloses both can accurately monitor the position of accident point when the occurence of failure, make maintenance personal can fix a position the fault point fast, know fault type and fault reason, can guarantee the timely report of fault data, meteorological data and positioning data through the satellite communication again.

Description

Power optical cable fault positioning system based on Beidou short message communication

Technical Field

The utility model relates to a communication optical cable technical field, in particular to power optical cable fault location system based on big dipper short message communication.

Background

The national power grid and electric power company establishes a special communication optical cable system to realize the functions of internal communication and the like, and the special communication optical cable system is an important infrastructure for ensuring the stable and reliable operation of an electric power system. The communication optical cable is laid along with the power grid line, so that the distribution area is wide, and the natural environment and the social environment are various. Some regions are remote deserts, some are deep mountains and canyons, some cross roads, and some often have strong winds. Thus, severe weather can cause damage to the communication lines, and an over-height vehicle can impact a broken optical cable above the road.

In the original optical cable communication abnormity alarming and positioning system, because the distance between monitoring devices in the system is long, when an abnormity occurs, the system can only know that an accident point is positioned in a range of dozens of kilometers, and the accident point cannot be quickly found, so that the communication system is in a disconnected state for a long time, and the safety of a power grid is influenced. Meanwhile, the position of the accident point is often located in a remote non-signal area, and the site cannot report and alarm in time, so that the monitoring center cannot acquire fault information in time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an electric power optical cable fault location system based on big dipper short message communication aims at realizing the accurate position of monitoring the fault point when breaking down, makes maintenance personal can fix a position the fault point fast, knows fault type and fault cause to guarantee timely the report of fault data, meteorological data and location data through the satellite communication.

In order to achieve the above object, the utility model provides a power optical cable fault location system based on short message communication of big dipper, include: the system comprises a solar power distribution controller, an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal;

the solar energy power distribution system comprises an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal, wherein the optical cable monitoring front end, the temperature sensor, the wind sensor, the warning alarm lamp, the warning horn and the Beidou communication terminal are respectively connected with a solar energy power distribution controller, a Beidou positioning module and a Beidou communication module are arranged in the Beidou communication terminal in an integrated mode, and the Beidou communication module is connected with a background of an optical cable monitoring system server through an antenna.

The utility model discloses a further technical scheme is, big dipper orientation module adopts ATGM336H-5N location chip.

The utility model discloses further technical scheme is, big dipper communication module adopts the FHM3838 chip.

The utility model discloses a further technical scheme is, optical cable monitoring front end includes radar and laser range finder.

The utility model discloses a further technical scheme is, the optical cable monitoring front end adopts STM32G070RBT6 singlechip.

The utility model discloses a further technical scheme is, solar energy distribution controller adopts STM32G070RBT6 main control singlechip.

The utility model discloses further technical scheme is, solar energy distribution controller built-in battery and with the solar charging circuit that the battery is connected.

The utility model discloses further technical scheme is, optical cable monitoring system server backstage includes big dipper commander, big dipper communication server and power server, wherein, big dipper commander, power server respectively with big dipper communication server connects, big dipper commander still pass through the antenna with big dipper communication terminal connects.

The utility model discloses electric power optical cable fault location system based on big dipper short message communication's beneficial effect is: the utility model discloses an above-mentioned technical scheme, include: the system comprises a solar power distribution controller, an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal; wherein, the optical cable monitoring front end, a weighing sensor and a temperature sensor, wind sensor, the warning alarm lamp, warning loudspeaker and big dipper communication terminal are connected with solar energy distribution controller respectively, the integration is provided with big dipper orientation module and big dipper communication module in the big dipper communication terminal, big dipper communication module passes through the antenna and is connected with optical cable monitoring system server backstage, both can accurately monitor the position of accident point when the occurence of failure, make maintenance personal can fix a position the fault point fast, know fault type and fault cause, can guarantee fault data through the satellite communication again, meteorological data and the timely report of positioning data.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a system architecture diagram of the preferred embodiment of the power optical cable fault location system based on the big dipper short message communication;

FIG. 2 is a block diagram of a cable monitoring system server backend;

fig. 3 is the utility model discloses electric power optical cable fault location system preferred embodiment's on-the-spot object schematic diagram based on big dipper short message communication.

The reference numbers illustrate:

a solar power distribution controller 10; a cable monitoring front end 20; a temperature sensor 30; a wind sensor 40; a warning alarm lamp 50; a warning horn 60; a Beidou communication terminal 70; a big dipper commander 80; a Beidou communication server 90; the power server 100.

The realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides a one set of complete communication optical cable system fault location solution, concretely relates to electric power optical cable fault location system based on big dipper short message communication, the utility model discloses both can accurately monitor the position of accident point when the occurence of failure, make maintenance personal can fix a position the fault point fast, know fault type and fault reason, can guarantee the timely report of fault data, meteorological data and positioning data through the satellite communication again. The utility model discloses an optical cable initiative defense mode can avoid optical cable circuit danger through pedestrian and vehicle on the mode such as reputation warning road.

Specifically, as shown in fig. 1 to 3, the utility model discloses power optical cable fault location system preferred embodiment based on big dipper short message communication includes: solar energy distribution controller 10, optical cable monitoring front end 20, temperature sensor 30, wind sensor 40, warning alarm lamp 50, warning loudspeaker 60 and big dipper communication terminal 70.

Wherein, optical cable monitoring front end 20, temperature sensor 30, wind sensor 40, warning alarm lamp 50, warning loudspeaker 60 and big dipper communication terminal 70 are connected with solar energy distribution controller 10 respectively, and big dipper communication terminal 70 internal integration is provided with big dipper orientation module and big dipper communication module, and big dipper communication module passes through the antenna and is connected with the optical cable monitoring system server backstage.

In this embodiment, the big dipper orientation module adopts well branch of academic or vocational study dimension ATGM336H-5N location chip, and big dipper communication module adopts FHM3838 chip, and optical cable monitoring front end 20 adopts STM32G070RBT6 singlechip, and solar energy distribution controller 10 adopts STM32G070RBT6 master control singlechip.

The optical cable monitoring front end 20 adopts radar and laser range finders for calculating whether the distance of the optical cable to the ground changes or not, so that whether the optical cable has serious droop abnormality or not is judged, and the phenomenon that a vehicle passing by the optical cable is broken is avoided. And meanwhile, whether other objects are close to the optical cable or not is monitored, and then the optical cable is damaged by collision.

In this embodiment, the solar power distribution controller 10 includes a battery and a solar charging circuit connected to the battery.

The background of the optical cable monitoring system server comprises a Beidou commander 80, a Beidou communication server 90 and a power server 100, wherein the Beidou commander 80 and the power server 100 are respectively connected with the Beidou communication server 90, and the Beidou commander 80 is further connected with the Beidou communication terminal 70 through an antenna.

Following right the utility model discloses electric power optical cable fault location system's based on big dipper short message communication theory of operation explains.

The utility model discloses an aim at utilize big dipper short message communication to accomplish the influence of monitoring outside climatic environment to the optical cable to and whether the optical cable is crooked flagging and whether have other unmanned aerial vehicle object collision early warning, and report fault data, meteorological data and positioning data in time, make maintenance personal can fix a position the fault point fast, know fault type and failure reason.

Fig. 1 to fig. 3 show the utility model discloses electric power optical cable fault location system's component parts based on big dipper short message communication, including optical cable monitoring front end 20 (contain radar, laser rangefinder and be close to early warning function), solar energy distribution controller 10 (contain solar charging, power management, communication management function), temperature sensor 30, wind sensor 40, warning loudspeaker 60, warning alarm lamp 50 and big dipper communication terminal 70 parts such as.

The utility model discloses the theory of operation adopts radar and laser high accuracy range finding technique by optical cable monitoring front end 20, and optical cable monitoring front end 20 also is an independent data acquisition system, has the basic operation function of data of self, and control core adopts STM32G070RBT6 singlechip, and whether the distance to ground of accurate calculation changes to judge whether the optical cable exists serious flagging unusually, the vehicle that is passed by easily blows into the end. And meanwhile, whether other objects are close to the optical cable or not is monitored, and then the optical cable is damaged by collision. The optical cable monitoring front end 20 transmits related acquisition information to the solar power distribution controller 10, and a main control chip of the solar power distribution controller 10 adopts an STM32G070RBT6 main control single chip microcomputer. The solar power distribution controller 10 judges whether the current optical cable has an abnormal risk according to the collected data transmitted from the optical cable monitoring front end 20, immediately starts a local sound-light alarm if the current optical cable has the risk, and starts the warning horn 60 and the warning alarm lamp 50. Solar energy distribution controller 10 gathers current ambient temperature data and wind data through temperature sensor 30 and the wind sensor 40 of connecting, the optical cable abnormal data that unites the optical cable monitoring front end 20 collection, in addition the location position information of this equipment that big dipper short message communication terminal calculated out, upload to big dipper commander 80 through the big dipper communication module of big dipper communication terminal 70 built-in together, then upload to power server 100 through big dipper communication server 90, it looks over to provide backstage maintainer. The Beidou positioning module adopts Chinese micro ATGM336H-5N, and the high-precision Beidou positioning function can be realized. The big dipper communication module adopts the big dipper FHM3838 of compound control, adopts the maximum transmission power of 10W, can realize big dipper short message two-way communication function in any place that the satellite covered. The solar power distribution controller 10 does not need an external power supply, is internally provided with a storage battery and a solar charging technology, can be installed in any place without power supply in the field, and does not need to lay or reform an electric power supply circuit.

It can be understood that, the utility model discloses among the power optical cable fault location system based on big dipper short message communication, through cable junction between optical cable monitoring front end 20 and the solar control ware, this cable length is about 100 meters, and is longer, consequently, as an implementation mode, the utility model discloses can adopt thinner cable to connect to alleviate the weight of cable itself, as for temperature sensor 30, wind-force sensor 40, warning alarm lamp 50, warning loudspeaker 60, big dipper communication terminal 70 and solar energy distribution controller 10 adopt ordinary cable junction can.

The utility model discloses electric power optical cable fault location system based on big dipper short message communication's beneficial effect is: the utility model discloses an above-mentioned technical scheme, include: the system comprises a solar power distribution controller, an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal; wherein, the optical cable monitoring front end, a weighing sensor and a temperature sensor, wind sensor, the warning alarm lamp, warning loudspeaker and big dipper communication terminal are connected with solar energy distribution controller respectively, the integrated big dipper orientation module and the big dipper communication module of being provided with in the big dipper communication terminal, big dipper communication module passes through the antenna and is connected with optical cable monitoring system server backstage, both can accurately monitor the position of accident point when the occurence of failure, make maintenance personal can fix a position the fault point fast, know fault type and fault reason, can guarantee fault data through the satellite communication again, the timely report of meteorological data and positioning data.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (8)

1. The utility model provides an electric power optical cable fault location system based on big dipper short message communication which characterized in that includes: the system comprises a solar power distribution controller, an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal;

the solar energy power distribution system comprises an optical cable monitoring front end, a temperature sensor, a wind sensor, a warning alarm lamp, a warning horn and a Beidou communication terminal, wherein the optical cable monitoring front end, the temperature sensor, the wind sensor, the warning alarm lamp, the warning horn and the Beidou communication terminal are respectively connected with a solar energy power distribution controller, a Beidou positioning module and a Beidou communication module are arranged in the Beidou communication terminal in an integrated mode, and the Beidou communication module is connected with a background of an optical cable monitoring system server through an antenna.

2. The electric power optical cable fault positioning system based on Beidou short message communication according to claim 1, characterized in that the Beidou positioning module adopts ATGM336H-5N positioning chips.

3. The Beidou short message communication-based power optical cable fault location system according to claim 1, wherein the Beidou communication module adopts an FHM3838 chip.

4. The Beidou short message communication-based power optical cable fault location system according to claim 1, wherein the optical cable monitoring front end comprises a radar and a laser range finder.

5. The Beidou short message communication-based power optical cable fault positioning system according to claim 4, characterized in that an STM32G070RBT6 single chip microcomputer is adopted at the front end of the optical cable monitoring.

6. The Beidou short message communication-based power optical cable fault positioning system according to claim 1, wherein the solar power distribution controller adopts an STM32G070RBT6 main control single chip microcomputer.

7. The Beidou short message communication-based power optical cable fault location system according to claim 1, wherein a storage battery and a solar charging circuit connected with the storage battery are arranged in the solar power distribution controller.

8. The electric power optical cable fault positioning system based on Beidou short message communication as set forth in claim 1, characterized in that the optical cable monitoring system server background comprises a Beidou commander, a Beidou communication server and an electric power server, wherein the Beidou commander and the electric power server are respectively connected with the Beidou communication server, and the Beidou commander is further connected with the Beidou communication terminal through an antenna.

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