CN214429640U

CN214429640U - Monitoring device for optical cable line channel

Info

Publication number: CN214429640U
Application number: CN202120484174.5U
Authority: CN
Inventors: 郭瑜; 倪旭明; 胡航; 厉立锋; 邵航军; 邓方远; 张晖
Original assignee: Jinhua Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Jinhua Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2021-03-05
Filing date: 2021-03-05
Publication date: 2021-10-19
Anticipated expiration: 2031-03-05

Abstract

The utility model relates to a monitoring device for optical cable sweetgum fruit is said, including support and bottom plate, be equipped with laser emission end on the support, be equipped with the fluorescence target on the bottom plate, be equipped with the scale mark on the fluorescence target, still be equipped with the camera on the bottom plate, be connected with the PC on the camera; the utility model has the advantages that: the laser beam is emitted by the ultraviolet laser on the support, a detection light spot is generated on the laser beam fluorescence target, the inclination condition of a cable line channel is detected by detecting the centering condition of the detection light spot and a scale mark on the fluorescence target, the positions of the detection light spot and the scale mark are visually displayed on the PC in real time through the camera, the PC diagnoses and analyzes the inclination condition of a tower through received image information, hidden dangers can be found early in the cable line channel, hidden dangers are eliminated in time, faults are eliminated in time, the reliability of communication line operation is improved, operation maintenance personnel are reminded to reinforce the foundation, and tower falling accidents are prevented.

Description

Monitoring device for optical cable line channel

Technical Field

The utility model relates to a monitoring devices for optical cable sweetgum fruit passageway.

Background

Under the current promotion of the continuous development of the electric network automation construction, the application range of the 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 among all stations of a power grid system, thereby realizing the real-time communication of all stations, the normal operation of the electric network automation is ensured, the existing optical cables are all fixed through the installation of the communication iron tower, the communication iron tower is easy to incline, the inclination of the existing communication iron tower is observed by the naked eyes of line patrol personnel, and the small change is difficult to observe by the naked eyes of the line patrol personnel, therefore, the iron tower cannot be overhauled and maintained in time, and the iron tower collapse accident is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to reach the purpose just provide a monitoring devices for optical cable line passageway, the slope condition of acquireing optical cable line passageway that can be accurate improves the reliability of communication line operation.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: the utility model provides a monitoring devices for optical cable line passageway, includes support and bottom plate, and the support mounting is on the iron tower of electric power communication optical cable line, the bottom plate sets up subaerially at the level, be equipped with laser emission end on the support, be equipped with the fluorescence target on the bottom plate, laser emission end is to fluorescence target transmission laser beam and produce a detection light spot on the fluorescence target, be equipped with the scale mark on the fluorescence target, detect the slope condition of electric power communication optical cable line through the centering condition that detects light spot and scale mark, still be equipped with the camera on the bottom plate, be connected with the PC on the camera, receive the image information of camera and the trouble of analysis judgement optical cable line passageway through the PC.

Preferably, the support includes vertical portion and horizontal part, the horizontal part sets up the top at vertical portion, vertical portion sets up on the iron tower, be equipped with the screw rod that links to each other with the laser emission end on the horizontal part, be equipped with the nut on the screw rod, the nut sets up the upper end or/and the lower extreme at the horizontal part, is equipped with the slope sensor that links to each other with the laser emission end on the vertical portion.

Preferably, laser emission end includes controller, overcoat and ultraviolet laser, be equipped with the mounting hole with overcoat looks adaptation on the screw rod, ultraviolet laser passes through the overcoat and installs in the mounting hole, and the external diameter of overcoat equals the internal diameter of mounting hole, the controller includes input and output, the input links to each other with the slope sensor, the output links to each other with ultraviolet laser.

Preferably, the vertical part is provided with a locking assembly and is fixedly connected to the iron tower through the locking assembly.

Preferably, the locking assembly comprises a binding band and a locking plate, a strip-shaped hole for fixing the binding band is formed in the vertical portion, one end of the binding band is fixedly connected to the locking plate, the other end of the binding band penetrates through the strip-shaped hole and then is fixedly connected to the locking plate, the locking plate is arranged on the iron tower on one side opposite to the vertical portion, and a fixing adhesive tape for preventing the binding band from being separated is arranged on the locking plate.

Preferably, the fluorescent target comprises a target body and a fluorescent layer coated on the surface of the target body, and the target body is adhered to the bottom plate.

Preferably, the outer surface of the bracket is provided with a zinc coating.

Preferably, the bottom plate passes through bolt fixed connection and is subaerial at the level, be equipped with the stand of installation camera on the bottom plate, the top of stand still is equipped with the photovoltaic module who links to each other with the camera, the bottom of stand is equipped with the locating hole with bolt matched with, be equipped with the screw with the bolt butt on the stand.

Preferably, the camera is connected with the PC through an NB-IOT network.

To sum up, the utility model has the advantages that: the laser beam is emitted by the ultraviolet laser on the bracket, the laser beam fluorescence target generates a detection light spot, the inclination condition of the optical cable line channel is detected by detecting the centering condition of the detection light spot and the scale marks on the fluorescence target, if the optical cable line channel is not influenced by external force, the detection light spot is positioned on the scale marks of the fluorescence target, when the optical cable line channel is inclined by the external force, the detection light spot can deviate to one side of the scale marks, the inclination condition of the optical cable line channel can be accurately mastered by detecting the change of the position of the light spot, the positions of the detection light spot and the scale marks are visually displayed on the PC in real time by the camera, the PC diagnoses and analyzes the inclination condition of the iron tower through the received image information, can find hidden dangers early on the optical cable line channel, eliminate the hidden dangers in time and eliminate faults in time, so as to improve the operation reliability of the communication line, can be according to the development trend of slope monitoring data, in time carry out multiple mode preliminary alarm to the iron tower slope situation that exceeds standard, guide to overhaul and maintain, remind operation maintainer to consolidate the ground, prevent the tower collapse occurence of failure, because green laser emission laser beam has good insulating ability, the monitoring under the electrified condition has been realized, finally, the fluorescence target that will be equipped with the scale mark sets up on the bottom plate, because the bottom plate is fixed on level ground, can guarantee the levelness of bottom plate, ensure the centering nature of scale mark, when the iron tower takes place the slope, can ensure the fixity of scale mark all the time, do not receive the influence of iron tower slope, improve monitoring quality.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

fig. 1 is a schematic structural diagram of a monitoring device for an optical cable line channel according to the present invention;

FIG. 2 is a schematic structural view of the laser emitting end of the present invention mounted on the bracket;

FIG. 3 is a schematic structural view of a fluorescent target according to the present invention;

fig. 4 is a partially enlarged view of a in fig. 1.

Reference numerals:

the device comprises a support 1, a vertical part 11, a horizontal part 12, a screw rod 13, a nut 14, an inclination sensor 15, a mounting hole 16, a strip-shaped hole 17, a bottom plate 2, a bolt 21, a column 22, a photovoltaic module 23, a positioning hole 24, a screw 25, a laser emitting end 3, a controller 31, a jacket 32, an ultraviolet laser 33, a fluorescent target 4, a detection light spot 40, a scale mark 41, a safety section 42, an early warning section 43, a target body 44, a fluorescent layer 45, a camera 5, a PC 6, a locking module 7, a binding band 71, a locking plate 72, a fixed adhesive tape 73, a horizontal ground 8 and a steel tower 9.

Detailed Description

As shown in fig. 1, 2, 3, and 4, a monitoring device for an optical cable line channel includes a support 1 and a bottom plate 2, the support 1 is installed on an iron tower 9 of an electric power communication optical cable line, the bottom plate 2 is installed on a horizontal ground, a laser emission end 3 is provided on the support 1, a fluorescent target 4 is provided on the bottom plate 2, the laser emission end 3 emits a laser beam to the fluorescent target 4 and generates a detection light spot 40 on the fluorescent target 4, a scale mark 41 is provided on the fluorescent target 4, the inclination of the electric power communication optical cable line is detected by detecting the centering condition of the detection light spot 40 and the scale mark 41, a camera 5 is further provided on the bottom plate 2, the camera 5 is connected with a PC 6, and the PC 6 receives image information of the camera 5 to analyze and judge the fault of the optical cable line channel.

The laser beam is emitted by the ultraviolet laser 33 on the bracket 1, the laser beam fluorescence target 4 generates a detection light spot 40, the inclination condition of the optical cable line channel is detected by the centering condition of the detection light spot 40 and the scale mark 41 on the fluorescence target 4, if the optical cable line channel is not influenced by external force, the detection light spot 40 is positioned on the scale mark 41 of the fluorescence target 4, the scale mark 41 comprises a safety section 42 and an early warning section 3, the scale mark 41 in the embodiment is circular, when the optical cable line channel is inclined by the external force, the detection light spot 40 can be shifted to one side of the scale mark 41, the inclination condition of the optical cable line channel can be accurately mastered by the change of the position of the detection light spot 40, the positions of the detection light spot 40 and the scale mark 41 are intuitively displayed on the PC 6 in real time by the camera 5, the PC 6 diagnoses and analyzes the inclination condition of the iron tower 9 by the received image information, the hidden danger can be found early in the optical cable road channel, the hidden danger can be eliminated in time, the fault can be eliminated in time, the reliability of the operation of the communication line can be improved, the multiple-mode pre-alarm can be timely carried out on the inclination condition of the overproof iron tower 9 according to the development trend of the inclination monitoring data, the overhaul and the maintenance are guided, the operation maintenance personnel are reminded to reinforce the foundation, the occurrence of tower collapse accidents is prevented, the laser beam emitted by the green laser 33 has good insulating capacity, the monitoring under the electrified condition is realized, finally, the fluorescent target 4 provided with the scale mark 41 is arranged on the bottom plate 2, the levelness of the bottom plate 2 can be ensured due to the fact that the bottom plate 2 is fixed on the horizontal ground, the centering performance of the scale mark 41 is ensured, when the iron tower 9 is inclined, the fixity of the scale mark 41 can be always ensured, the influence of the inclination of the iron tower 9 is avoided, and the monitoring quality is improved.

The support 1 comprises a vertical part 11 and a horizontal part 12, the horizontal part 12 is arranged at the top end of the vertical part 11, the vertical part 11 is arranged on the iron tower 9, the horizontal part 12 is provided with a screw 13 connected with the laser emission end 3, the screw 13 is provided with a nut 14, the nut 14 is arranged at the upper end or/and the lower end of the horizontal part 12, the vertical part 11 is provided with an inclination sensor 15 connected with the laser emission end 3, the support 1 is arranged into the vertical part 11 and the horizontal part 12, the stability of the laser emission end 3 after installation can be ensured, the screw 13 can realize the height adjustment of the laser emission end 3 on the support 1 to adapt to different application environments, secondly, the nut 14 is arranged to ensure the fixed quality of the screw 13, the inclination sensor 15 is arranged to detect the inclination data of the iron tower 9 in real time, when the data detected by the inclination sensor 15 does not accord with the set value, the working instruction can be sent to the laser emitting end 3, so that the inclined state can be shot by the camera 5 in time and uploaded to the PC 6 for analysis and judgment, and the iron tower 9 can be maintained and repaired in time.

The laser emitting end 3 comprises a controller 31, an outer sleeve 32 and an ultraviolet laser 33, the screw 13 is provided with a mounting hole 16 matched with the outer sleeve 32, the ultraviolet laser 33 is mounted in the mounting hole 16 through the outer sleeve 32, and the outer diameter of the outer casing 32 is equal to the inner diameter of the mounting hole 16, the controller 31 includes an input terminal and an output terminal, the input end is connected with the inclination sensor 15, the output end is connected with the ultraviolet laser 33, the fixing quality of the ultraviolet laser 33 can be improved, the radial movement and the axial shaking of the ultraviolet laser 33 in the screw 13 can be prevented in the using process, the detection effect is improved, the controller 31 is arranged, when the signal detected by the inclination sensor 15 is not consistent with the set numerical value, can generate a control instruction to the controller 31, and the controller 31 controls the ultraviolet laser 33 to work after receiving the instruction, so that the detected image information can be transmitted to the PC 6 in time.

The locking assembly 7 is arranged on the vertical part 11, the vertical part 11 is fixedly connected to the iron tower 9 through the locking assembly 7, the installation process of the vertical part 11 and the iron tower 9 can be simplified, the vertical part 11 in the embodiment can be fastened to the iron tower 9 through screws or bolts, the locking assembly 7 can adapt to different installation environments, the fixing quality of the vertical part 11 is improved, the locking assembly 7 comprises a binding band 71 and a locking plate 72, the vertical part 11 is provided with a strip-shaped hole 17 for fixing the binding band 71, one end of the binding band 71 is fixedly connected to the locking plate 72, the other end of the binding band 71 passes through the strip-shaped hole 17 and then is fixedly connected to the locking plate 72, the locking plate 72 is arranged on the iron tower 9 on the side opposite to the vertical part 11, the fixing adhesive band 73 for preventing the binding band 71 from separating is arranged on the locking plate 72, the locking assembly 7 is arranged into the binding band 71 and the locking plate 72, and the locking plate 72 can increase the contact area of the whole locking assembly 7 on the iron tower 9, the installation and the disassembly of the binding band 71 are convenient, the fixing quality of the vertical part 11 can be improved, the separation of the binding band 71 can be prevented by arranging the fixing adhesive tape 73, and the fixing quality of the binding band 71 is improved.

Fluorescence target 4 includes target body 44 and the coating at the fluorescent layer 45 on target body 44 surface, target body 44 pastes on bottom plate 2, can realize that target body 44 is accurate fixes on bottom plate 2, improves fixed quality, and fluorescent layer 45's setting is convenient for acquire the position that detects light spot 40, the detection effect of being convenient for, the surface of support is equipped with the galvanizing coat, can prevent the oxidation of support, improves the life of support.

The bottom plate 2 is fixedly connected to a horizontal ground 8 through bolts 21, the bottom plate 2 is provided with a stand column 22 for mounting the camera 5, the top end of the stand column 22 is further provided with a photovoltaic assembly 23 connected with the camera 5, the stand column 22 is arranged to realize rapid mounting and fixing of the camera 5, in order to adapt to different application environments, the stand column 22 in the embodiment can be arranged to be a lifting structure, or the height of the stand column 22 on the bottom plate 2 can be adjusted, the photovoltaic assembly 23 is arranged to realize continuous work of the camera 5 and ensure the continuity of image acquisition, the structure of the photovoltaic assembly 23 is the prior art, detailed description is not provided in the embodiment, secondly, the bottom end of the stand column is provided with a positioning hole 24 matched with the bolt, the stand column is provided with a screw 25 abutted to the bolt, the bolt can be sealed in the stand column, the damage of the bolt is reduced, and the fixing quality of the bottom plate is improved, the camera 5 is connected with the PC 6 through the NB-IOT network, and the NB-IOT network has the characteristics of low power consumption, wide coverage and large connection, so that the image information shot by the camera 5 can be rapidly transmitted to the PC 6, the camera 5 can be simultaneously connected with a plurality of PCs 6, and the reliability of receiving the image information is ensured.

The above description is only for the specific embodiment of the present invention, but the technical features of the present invention are not limited thereto, and any person skilled in the art can make changes or modifications within the scope of the present invention.

Claims

1. A monitoring device for a fiber optic cable line channel, comprising: including support and bottom plate, the support mounting is on the iron tower of power communication optical cable line, the bottom plate sets up subaerially at the level, be equipped with laser emission end on the support, be equipped with the fluorescence target on the bottom plate, laser emission end is to fluorescence target transmission laser beam and produce a detection light spot on the fluorescence target, be equipped with the scale mark on the fluorescence target, detect the slope condition of power communication optical cable line through the centering condition of detecting light spot and scale mark, be equipped with the camera on the bottom plate, be connected with the PC on the camera, the image information that the camera was gathered passes through the PC and receives and the analysis of optical cable line passageway trouble judges.

2. A monitoring device for a fiber optic cable line channel as claimed in claim 1, wherein: the support comprises a vertical part and a horizontal part, the horizontal part is arranged at the top end of the vertical part, the vertical part is arranged on the iron tower, a screw rod connected with the laser emission end is arranged on the horizontal part, a nut is arranged on the screw rod and is arranged at the upper end or/and the lower end of the horizontal part, and an inclination sensor connected with the laser emission end is arranged on the vertical part.

3. A monitoring device for a fiber optic cable line channel as claimed in claim 2, wherein: the laser emission end includes controller, overcoat and ultraviolet laser ware, be equipped with the mounting hole with overcoat looks adaptation on the screw rod, ultraviolet laser ware passes through the overcoat and installs in the mounting hole, and the external diameter of overcoat equals the internal diameter of mounting hole, the controller includes input and output, the input links to each other with the slope sensor, the output links to each other with ultraviolet laser ware.

4. A monitoring device for a fiber optic cable line channel as claimed in claim 2, wherein: and the vertical part is provided with a locking assembly and is fixedly connected to the iron tower through the locking assembly.

5. A monitoring device for a fibre optic cable line channel according to claim 4, wherein: the locking assembly comprises a binding band and a locking plate, a strip-shaped hole for fixing the binding band is formed in the vertical portion, one end of the binding band is fixedly connected to the locking plate, the other end of the binding band penetrates through the strip-shaped hole and then is fixedly connected to the locking plate, the locking plate is arranged on the iron tower on one side opposite to the vertical portion, and a fixing adhesive tape for preventing the binding band from being separated is arranged on the locking plate.

6. A monitoring device for a fiber optic cable line channel as claimed in claim 1, wherein: the fluorescent target comprises a target body and a fluorescent layer coated on the surface of the target body, and the target body is adhered to the bottom plate.

7. A monitoring device for a fiber optic cable line channel as claimed in claim 1, wherein: and a zinc coating is arranged on the outer surface of the bracket.

8. A monitoring device for a fiber optic cable line channel as claimed in claim 7, wherein: the bottom plate passes through bolt fixed connection and subaerial at the level, be equipped with the stand of installation camera on the bottom plate, the top of stand still is equipped with the photovoltaic module who links to each other with the camera, the bottom of stand is equipped with the locating hole with bolt matched with, be equipped with the screw with the bolt butt on the stand.

9. A monitoring device for a fiber optic cable line channel as claimed in claim 8, wherein: the camera is connected with the PC through an NB-IOT network.