CN112911247B - Visual device of electric aerial optical cable line - Google Patents

Abstract

The invention relates to an electric overhead optical cable line visualization device, which comprises a bracket, a first camera, a second camera and a PC (personal computer), wherein a containing cavity is arranged on the bracket, a partition plate is arranged in the containing cavity, the partition plate divides the containing cavity into a first cavity and a second cavity, an installing head is arranged in the first cavity, the first camera is arranged at the front end of the installing head, the second camera is arranged at the bottom end of the installing head, an inclination sensor is also arranged on the bracket, a controller is arranged on the bracket, and the controller, the first camera and the second camera are all connected with the PC; the invention has the advantages that: the image information of the aerial optical cable, the image information of the ground and the inclination condition of the tower are simultaneously transmitted to the PC for analysis and judgment, when the tower has an inclination defect, the reason of the inclination can be accurately analyzed according to the image information, so that the maintenance scheme of the rapid system is improved, the maintenance efficiency is improved, an operator can remove the fault as soon as possible, and the reliability of the operation of the electric aerial optical cable line is improved.

Description

Electric power aerial optical cable line visualization device

Technical Field

The invention relates to a visualization device for an electric overhead optical cable line.

Background

Under the current promotion of the continuous development of electric network automation construction, the application range of optical fiber communication technology in the electric power industry gradually becomes wider and wider, the optical fiber communication technology is utilized to carry out optical cable line connection between each website of a power grid system, thereby realizing the real-time communication of each website, the normal operation of electric network automation is ensured, the existing optical cables are all fixed through the installation of a communication iron tower, the communication iron tower is easy to incline, the inclination of the existing communication iron tower is observed by an inspection staff with naked eyes, because the inspection staff hardly observes tiny changes through the naked eyes, therefore, the pole tower can not be timely overhauled and maintained, and the accident that the pole tower collapses is caused.

Disclosure of Invention

The invention aims to provide a visualization device for an electric overhead optical cable line, which can accurately analyze the reason of the inclination of a tower, realize the accurate and quick overhaul and maintenance of the tower and ensure the stable operation of the electric overhead optical cable line.

In order to solve the technical problems, the invention is realized by the following technical scheme: the power aerial optical cable line visualization device comprises a support, a first camera, a second camera and a PC, wherein a cavity is arranged on the support along the horizontal direction, a partition plate is arranged in the cavity and divides the cavity into a first cavity and a second cavity, an installation head is arranged in the first cavity, the first camera is arranged at the front end of the installation head and is used for collecting image information of an aerial optical cable, the second camera is arranged at the bottom end of the installation head and is used for collecting image information of the ground, an inclination sensor used for collecting the inclination of the support is further arranged on the support, a power supply is arranged in the second cavity, the first camera, the second camera and the inclination sensor are all connected with the power supply, a controller connected with the inclination sensor is arranged on the support, the controller, the first camera and the second camera are all connected with the PC, the first camera, the second camera and the inclination sensor are mounted on a tower of the electric overhead optical cable line along with the support.

Preferably, the mounting head is provided with a horizontal mounting hole and a vertical mounting hole, the first camera is mounted on the mounting head through the horizontal mounting hole, and the second camera is mounted on the mounting head through the vertical mounting hole.

Preferably, an infrared lamp and an LED white light lamp are further arranged on the mounting head, and a photosensitive resistor is further arranged on the support.

Preferably, the controller includes box body, lid, wireless measurement module, gateway and data transmission device, wireless measurement module and gateway all set up in the box body and all link to each other with power supply, wireless measurement module's one end links to each other with the slope sensor, wireless measurement module's the other end links to each other with the gateway, data transmission device sets up on the lid, the lid sets up on the box body, the box body sets up the top at the support, the gateway passes through data transmission device and links to each other with the PC.

Preferably, one end of the wireless measuring module is connected with the inclination sensor through a wire, a waterproof connector is arranged on the box body, and the wire is arranged in the waterproof connector.

Preferably, the support is further provided with an installation frame connected with the tower, and the inclination sensor is arranged on the installation frame.

Preferably, the mounting rack is further provided with a photovoltaic module connected with a power supply.

Preferably, the data transmission device is in communication connection with the PC through an NB-IOT network.

Preferably, the first camera and the second camera are both in communication connection with the PC through an NB-IOT network.

In conclusion, the invention has the advantages that: the first camera and the second camera are arranged in the accommodating cavity of the bracket through the mounting head, the first camera can collect image information of the aerial optical cable in real time, the second camera can collect image information of the ground in real time, the inclination condition of a pole tower in the electric power aerial optical cable line is detected in real time through the inclination sensor arranged on the bracket, and the image information of the aerial optical cable, the image information of the ground and the inclination condition of the pole tower are transmitted to the PC for analysis and judgment, when the pole tower has an inclination defect, the reason of the inclination can be accurately analyzed according to the image information, so that a quick system maintenance scheme is realized, the overhaul efficiency is improved, potential safety hazards possibly existing in the pole tower, such as optical cable foreign matters or improper ground construction, can be found according to the image information, operators can remove faults as soon as possible, and the operation reliability of the electric power aerial optical cable line is improved, the running condition of the overhead cable line of electric power can be monitored in real time through the PC, secondly, the first camera and the second camera are arranged in the first cavity of the containing cavity through the mounting head, the first camera and the second camera can be enabled to form a whole with the mounting head, the mounting space of the whole mounting head in the first cavity is reduced, the structure of the whole support is optimized, finally, a power supply source is arranged in the second cavity, the continuity power supply of the first camera, the second camera and the inclination sensor can be guaranteed, and the continuity of information acquisition is guaranteed.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of an overhead electrical cable line visualization device according to the present invention;

FIG. 2 is a schematic diagram of the visualization device for the overhead power cable line according to the present invention;

fig. 3 is a schematic structural diagram of a controller according to the present invention.

Reference numerals:

the photovoltaic power generation system comprises a support 1, a 10 accommodating cavity, 11 partition plates, a 12 first cavity, a 13 second cavity, 14 photoresistors, a 15 mounting rack, a 16 photovoltaic module, a 2 first camera, a 3 second camera, a 4PC (personal computer), a 5 mounting head, a 51 horizontal mounting hole, a 52 vertical mounting hole, a 53 infrared lamp, a 54LED white light lamp, a 6 inclination sensor, a 7 power supply, an 8 controller, an 81 box body, a 82 cover body, an 83 wireless measurement module, a 84 gateway, an 85 data transmission device, 86 wires, 87 waterproof joints and 9 towers.

Detailed Description

As shown in fig. 1, 2 and 3, the electric aerial optical cable line visualization device includes a support 1, a first camera 2, a second camera 3 and a PC 4, a cavity 10 is provided on the support 1 along a horizontal direction, a partition board 11 is provided in the cavity 10, the cavity 10 is divided into a first cavity 12 and a second cavity 13 by the partition board 11, an installation head 5 is provided in the first cavity 12, the first camera 2 is provided at a front end of the installation head 5 for collecting image information of an aerial optical cable, the second camera 3 is provided at a bottom end of the installation head 5 for collecting image information of the ground, the support 1 is further provided with an inclination sensor 6 for collecting inclination of the support 1, a power supply 7 is provided in the second cavity 13, the first camera 2, the second camera 3 and the inclination sensor 6 are all connected to the power supply 7, the support 1 is provided with a controller 8 connected to the inclination sensor 6, the controller 8, the first camera 2 and the second camera 3 are all connected with the PC 4, and the first camera 2, the second camera 3 and the inclination sensor 6 are installed on a tower 9 of the electric overhead optical cable line along with the support 1.

The first camera 2 and the second camera 3 are arranged in the containing cavity 10 of the support 1 through the mounting head 5, the first camera 2 can collect image information of the aerial optical cable in real time, the second camera 3 can collect image information of the ground in real time, the inclination condition of a tower in an electric aerial optical cable line is detected in real time through the inclination sensor 6 arranged on the support 1, and the image information of the aerial optical cable, the image information of the ground and the inclination condition of the tower are transmitted to the PC 4 for analysis and judgment, when the tower has an inclination defect, the reason of the inclination can be accurately analyzed according to the image information, so that a quick system maintenance scheme is realized, the overhauling efficiency is improved, potential safety hazards possibly existing on the tower can be found according to the image information, such as foreign matters of the aerial optical cable or improper construction on the ground, and an operator can eliminate the fault as soon as possible, thereby improve the reliability of electric power aerial optical cable line operation, also can be through the real-time operational aspect of electric power aerial optical cable line of monitoring of PC, secondly, set up first camera 2 and second camera 3 in the first cavity 12 that holds chamber 10 through installation head 5, enable first camera 2 and second camera 3 and installation head 5 to form a whole, the installation space of whole installation head 5 in first cavity 12 has been reduced, thereby the structure of whole support 1 has been optimized, finally, set up power supply 7 in second cavity 13, can guarantee the continuity power supply of first camera 2, second camera 3 and tilt sensor 6, guarantee the continuity of information acquisition.

The mounting head 5 is provided with a horizontal mounting hole 51 and a vertical mounting hole 52, the first camera 2 is mounted on the mounting head 5 through the horizontal mounting hole 51, the second camera 3 is mounted on the mounting head 5 through the vertical mounting hole 52, the first camera 2 and the second camera 3 can be mounted on the mounting head 5 independently, the mounting structure of the whole mounting head 5 in the first cavity 12 is simplified, the mounting head 5 is convenient to mount and dismount, the mounting head 5 is further provided with an infrared lamp 53 and an LED white light 54, the bracket 1 is further provided with a photosensitive resistor 14, the infrared lamp 53 and the LED white light 54 can be turned on in time in a non-light environment, the cameras can keep the continuity of collection at night, the photosensitive resistor 14 can be arranged to realize the quick turning-on of the infrared lamp 53 and the LED white light 54, and specifically, the infrared lamp 53 and the LED white light 54 are respectively connected with the power supply 7 through connecting wires, the connecting wire is provided with a control switch, and the control switch is connected with the photoresistor 14.

The controller 8 comprises a box body 81, a cover body 82, a wireless measuring module 83, a gateway 84 and a data transmission device 85, wherein the wireless measuring module 83 and the gateway 84 are both arranged in the box body 81 and are connected with a power supply 7, one end of the wireless measuring module 83 is connected with the inclination sensor 6, the other end of the wireless measuring module 83 is connected with the gateway 84, the data transmission device 85 is arranged on the cover body 82, the cover body 82 is arranged on the box body 81, the box body 81 is arranged at the top end of the bracket 1, the gateway 84 is connected with the PC 4 through the data transmission device 85, the controller 8 is arranged into the box body 81, the cover body 82, the wireless measuring module 83, the gateway 84 and the data transmission device 85, the inclination signals output by the inclination sensor 6 are collected in real time through the wireless measuring module 83, and the collected data are received and stored through the gateway 84, the data transmission device 85 transmits data to the PC 4, the reliability of data transmission is ensured, secondly, the wireless measurement module 83 and the gateway 84 are arranged in the box body 81, the installation structure of the whole controller 8 can be simplified, the installation space of the whole bracket 1 is optimized, the data transmission device 85 is arranged on the cover body 82, the data transmission device 85 can be arranged in the box body 81 or outside the box body 81 according to the actual installation requirements, different installation requirements are met, one end of the wireless measurement module 83 is connected with the inclination sensor 6 through a wire 86, the box body 81 is provided with a waterproof connector 87, the wire 86 is arranged in the waterproof connector 87, the waterproof connector 87 is arranged to prevent rainwater from entering the equipment from a through hole, the service life is prolonged, the wireless measurement module 83 is internally provided with a connecting circuit, the connecting circuit is arranged in a full-bridge mode, the connecting circuit is connected with four inclination sensors 6, the four inclination sensors 6 can be installed at different positions of the support 1, so that electric signals output by the four inclination sensors 6 can be collected simultaneously, and the detection quality is improved.

The support 1 is further provided with an installation frame 15 connected with a pole tower, the inclination sensor 6 is arranged on the installation frame 15, the installation frame in the embodiment is installed on the pole tower through a bolt assembly, the installation frame 15 can improve the fixing quality of the support 1, the installation frame 15 with different structures can be arranged according to actual installation requirements, the inclination sensor 6 is arranged on the installation frame 15, the detection precision of the inclination sensor 6 can be improved, the installation frame 15 is further provided with a photovoltaic module 16 connected with the power supply 7, the photovoltaic module 16 is arranged, when the power supply 7 is low-voltage, the power supply 7 can be charged in time, the continuous power supply of the power supply 7 is realized, the continuous work of the first camera 2, the second camera 3, the inclination sensor 6 and the controller 8 is ensured, and the photovoltaic module 16 is the prior art, so detailed description is not given in the embodiment, the data transmission device 85 is in communication connection with the PC 4 through an NB-IOT network, the first camera 2 and the second camera 3 are in communication connection with the PC 4 through the NB-IOT network, and the NB-IOT network has the advantages of being low in power consumption, wide in coverage and large in connection, so that information can be rapidly transmitted to the PC 4, and reliability of information receiving is guaranteed.

The above description is only an embodiment of the present invention, but the technical features of the present invention are not limited thereto, and any changes or modifications within the technical field of the present invention by those skilled in the art are covered by the present invention.

Claims (6)

1. Visual device of electric power optical cable circuit that makes somebody a mere figurehead, its characterized in that: comprises a bracket, a first camera, a second camera and a PC, wherein the bracket is provided with a cavity along the horizontal direction, a baffle plate is arranged in the containing cavity, the baffle plate divides the containing cavity into a first cavity and a second cavity, a mounting head is arranged in the first cavity, the first camera is arranged at the front end of the mounting head and used for collecting image information of the aerial optical cable, the second camera is arranged at the bottom end of the mounting head and used for collecting image information of the ground, the bracket is also provided with an inclination sensor for collecting the inclination of the bracket, the second cavity is internally provided with a power supply, the first camera, the second camera and the inclination sensor are all connected with a power supply, the bracket is provided with a controller connected with the inclination sensor, the controller, the first camera and the second camera are connected with a PC, and the first camera, the second camera and the tilt sensor are arranged on a tower of the overhead power cable line along with the bracket;

the method comprises the steps that a first camera collects image information of an overhead optical cable in real time, a second camera collects image information of the ground in real time, a tilt sensor detects the tilt condition of a tower in an electric overhead optical cable line in real time, a PC receives the image information of the overhead optical cable, the image information of the ground and the tilt condition of the tower at the same time and analyzes and judges the tilt condition, when the tower has a tilt defect, the PC can accurately analyze the tilt reason according to the image information and formulate a maintenance scheme, and finds potential safety hazards possibly existing in the tower according to the image information and monitors the real-time operation condition of the electric overhead optical cable line;

the mounting head is provided with a horizontal mounting hole and a vertical mounting hole, the first camera is mounted on the mounting head through the horizontal mounting hole, and the second camera is mounted on the mounting head through the vertical mounting hole;

the mounting head is also provided with an infrared lamp and an LED white light lamp, and the bracket is also provided with a photosensitive resistor;

the controller comprises a box body, a cover body, a wireless measuring module, a gateway and a data transmission device, wherein the wireless measuring module and the gateway are arranged in the box body and are connected with a power supply, one end of the wireless measuring module is connected with an inclination sensor, the other end of the wireless measuring module is connected with the gateway, the data transmission device is arranged on the cover body, the cover body is arranged on the box body, the box body is arranged on the top end of the support, and the gateway is connected with a PC (personal computer) machine through the data transmission device.

2. The overhead electrical cable line visualization device according to claim 1, wherein: one end of the wireless measuring module is connected with the inclination sensor through a wire, a waterproof joint is arranged on the box body, and the wire is arranged in the waterproof joint.

3. The overhead electrical cable line visualization device according to claim 1, wherein: the support is further provided with an installation frame connected with the tower, and the inclination sensor is arranged on the installation frame.

4. The overhead electrical cable line visualization device of claim 3, wherein: and the mounting frame is also provided with a photovoltaic module connected with a power supply.

5. The overhead electrical cable line visualization device according to claim 1, wherein: and the data transmission device is in communication connection with the PC through an NB-IOT network.

6. The overhead electrical cable line visualization device according to claim 1, wherein: and the first camera and the second camera are in communication connection with the PC through an NB-IOT network.

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