CN213186315U - Remote monitoring system for power transmission line - Google Patents

Abstract

The utility model discloses a remote monitoring system for transmission line, including wire pole and electric wire, the electric wire is connected on the surface of the wire pole, three corner post surface both sides end is equipped with the solar energy light board respectively, remove the orientation of setting the solar energy light board according to the orbit of sun motion, make the light harvesting mechanism can charge for the battery all day long, maintain the operation of camera, the inside operation part of monitoring system that is equipped with of dehumidification board, one side is equipped with the drying box inside the dehumidification board, the inside silica gel that is equipped with of drying box, silica gel itself has stronger adsorptivity, the moisture in the dehumidification board is adsorbed to silica gel, avoid the moisture in the air to corrode the part, the picture that the camera was shot compares the difference of two pictures through the picture contrast module, when discovering different places, the single chip microcomputer control orientation module is fixed a position, the information of fixing a position is transmitted to big dipper orientation, and the positioning data is transmitted to a monitoring system terminal, so that maintenance personnel can know the position of the error line at the fastest speed.

Description

Remote monitoring system for power transmission line

Technical Field

The utility model relates to a transmission line technical field specifically is a remote monitering system for transmission line.

Background

The transmission line is realized by using a transformer to boost the electric energy generated by the generator and then connecting the electric energy to the transmission line through control equipment such as a breaker and the like. The transmission lines are divided into overhead transmission lines and cable lines.

In the existing remote monitoring system of the power transmission line, a camera shoots a required power supply insufficiently, so that the system is easy to break down, moisture in a dehumidifying plate is heavy, parts are easy to corrode and operate, and the position of a fault line cannot be determined.

To the above problem, the utility model provides a remote monitering system for transmission line.

Disclosure of Invention

An object of the utility model is to provide a remote monitering system for transmission line has possessed the solar energy light panel and has dashed the electricity, avoids the function part to be corroded, and the accurate advantage of the circuit of makeing mistakes of location to the problem in the background art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a remote monitering system for transmission line, includes wire pole and electric wire, the connection of electric lines is on the wire pole surface, the wire pole includes go-between, line board, terminal, connecting rod, semi-ring spacer tube, the camera, the battery, dehumidification board and light collecting mechanism, the wire pole upper end surface is equipped with two go-between, the go-between side is equipped with the line board, line board top both sides are equipped with the terminal respectively, the wire pole top is equipped with the connecting rod, the inside both sides of semi-ring spacer tube are connected to connecting rod upper end both sides, camera swing joint is inside on the connecting rod top, semi-ring spacer tube top is equipped with the battery, the battery top is equipped with the.

Preferably, the dehumidification board includes that L shape moves the board, goes up the restriction piece, leads to the line hole, places the board, dry box, moisture absorption hole and silica gel, dehumidification board bottom one side is equipped with L shape and moves the board, L shape moves the board top and is equipped with the restriction piece, L shape moves board bottom one side and is equipped with the restriction piece down, lead to the line hole and run through dehumidification board bottom middle part, place board and dry box setting inside the dehumidification board, L shape moves the inside dry box that is equipped with of board bottom, dry box one side is equipped with places the board, the moisture absorption hole runs through dry box top, the inside silica gel that is equipped with of dry box.

Preferably, the board of placing includes the picture contrast module, information storage module, the singlechip, orientation module, digital information processing module, signal transmitter, big dipper positioning terminal and monitored control system terminal, it is equipped with the picture contrast module to place the board top, information storage module, the singlechip, orientation module, digital information processing module and signal transmitter, camera electric connection picture contrast module, picture contrast module electric connection information storage module, information storage module electric connection singlechip, singlechip one side electric connection orientation module, singlechip opposite side electric connection digital information processing module, digital information processing module electric connection signal transmitter, signal transmitter electric connection big dipper positioning terminal, big dipper positioning terminal electric connection monitored control system terminal.

Preferably, the type of the single chip microcomputer is YQ 5969.

Preferably, the light collecting mechanism comprises a triangular column, solar light panels, triangular transparent covers and oblique eaves, the solar light panels are arranged at two side ends of the triangular column respectively, the triangular transparent covers are arranged at the upper ends of the two groups of solar light panels, and the oblique eaves are arranged between two sides of the triangular transparent covers and the side ends of the dehumidifying board respectively.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a remote monitering system for transmission line, triangular prism surface both sides end are equipped with the solar light panel respectively, and two sets of solar light panels are towards east and west respectively, and the orientation that sets up the solar light panel is removed according to the orbit of solar motion for light harvesting mechanism can all charge for the battery all the day, maintains the operation of camera.

2. The utility model provides a remote monitering system for transmission line, the inside function part that is equipped with monitored control system of dehumidification inboard is equipped with dry box in dehumidification inboard one side, the inside silica gel that is equipped with of dry box, silica gel itself have stronger adsorptivity, and the inside moisture of dehumidification inboard is adsorbed to silica gel, avoids the moisture in the air to corrode the part.

3. The utility model provides a remote monitering system for transmission line, the picture that the camera was shot passes through the difference of two pictures of picture contrast module contrast, when discovering different departments, single chip microcomputer control orientation module fixes a position, passes through signal transmitter transmission with the information of location and gives big dipper positioning terminal, transmits the locating data for the monitored control system terminal, makes the maintenance personal learn the position of the circuit of makeing mistakes the fastest.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the light collecting mechanism of the present invention;

FIG. 3 is a schematic diagram of the structure of the dehumidifying plate of the present invention;

fig. 4 is a block diagram of the present invention.

In the figure: 1. a utility pole; 11. a connecting ring; 12. a line board; 13. a wire post; 14. a connecting rod; 15. a semi-ring partition pipe; 16. a camera; 17. a storage battery; 18. a dehumidification plate; 181. an L-shaped moving plate; 182. an upper limit block; 183. a lower limiting block; 184. a through hole; 185. placing the plate; 1851. a picture comparison module; 1852. an information storage module; 1853. a single chip microcomputer; 1854. a positioning module; 1855. a digital information processing module; 1856. a signal transmitter; 1857. a Beidou positioning terminal; 1858. monitoring a system terminal; 186. drying the box; 187. a moisture-absorbing aperture; 188. silica gel; 19. a light collecting mechanism; 191. a triangular column; 192. a solar light panel; 193. a triangular transparent cover; 194. oblique eaves; 2. an electric wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, a remote monitoring system for a power transmission line includes a utility pole 1 and a wire 2, the wire 2 is connected to the surface of the utility pole 1, the utility pole 1 includes a connection ring 11, a wire plate 12, a wire post 13, a connection rod 14, a semi-ring partition tube 15, a camera 16, a storage battery 17, a dehumidifying plate 18 and a light collecting mechanism 19, the upper end surface of the utility pole 1 is provided with two connection rings 11, the wire plate 12 is arranged at the side end of the connection ring 11, the wire post 13 is respectively arranged at two sides of the top end of the wire plate 12, the connection rod 14 is arranged at the top end of the utility pole 1, two sides of the upper end of the connection rod 14 are connected to two sides inside the semi-ring partition tube 15, the camera 16 is movably connected inside the top end of the connection rod 14.

Referring to fig. 2, the light collecting mechanism 19 includes a triangular pillar 191, solar light panels 192, triangular transparent covers 193 and oblique eaves 194, the solar light panels 192 are respectively disposed at two side ends of the triangular pillar 191, the triangular transparent covers 193 are disposed at the upper ends of the two groups of solar light panels 192, the oblique eaves 194 are respectively disposed between two sides of the triangular transparent covers 193 and the side ends of the dehumidifying plate 18, the solar light panels 192 are respectively disposed at two side ends of the surface of the triangular pillar 191, the two groups of solar light panels 192 face the east and the west, and the orientation of the solar light panels 192 is set according to the track of the sun movement, so that the light collecting mechanism 19 can charge the storage battery 17 all day, and the operation of the.

Referring to fig. 3, the dehumidifying plate 18 includes an L-shaped moving plate 181, an upper limit block 182, a lower limit block 183, a wire passing hole 184, a placing plate 185, a drying box 186, a moisture absorbing hole 187 and silica gel 188, the L-shaped moving plate 181 is disposed on one side of the bottom end of the dehumidifying plate 18, the upper limit block 182 is disposed on the top end of the L-shaped moving plate 181, the lower limit block 183 is disposed on one side of the bottom end of the L-shaped moving plate 181, the wire passing hole 184 penetrates through the middle portion of the bottom end of the dehumidifying plate 18, the placing plate 185 and the drying box 186 are disposed inside the dehumidifying plate 18, the drying box 186 is disposed inside the bottom end of the L-shaped moving plate 181, the placing plate 185 is disposed on one side of the drying box 186, the moisture absorbing hole 187 penetrates through the top end of the drying box 186, the silica gel 188 is disposed inside the dehumidifying plate 18, the drying box 186 is disposed on one side of the dehumidifying plate 18, the silica gel 188 is disposed inside, and moisture in the air is prevented from corroding the parts.

Referring to fig. 4, the placing board 185 includes a picture comparison module 1851, an information storage module 1852, a single chip microcomputer 1853, a positioning module 1854, a digital information processing module 1855, a signal transmitter 1856, a beidou positioning terminal 1857 and a monitoring system terminal 1858, the picture comparison module 1851, the information storage module 1852, the single chip microcomputer 1853, the positioning module 1854, the digital information processing module 1855 and the signal transmitter 1856 are disposed at the top end of the placing board 185, the camera 16 is electrically connected to the picture comparison module 1851, image comparison module 1851 electric connection information storage module 1852, information storage module 1852 electric connection singlechip 1853, singlechip 1853 one side electric connection locating module 1854, singlechip 1853 opposite side electric connection digital information processing module 1855, digital information processing module 1855 electric connection signal transmitter 1856, signal transmitter 1856 electric connection big dipper location terminal 1857, big dipper location terminal 1857 electric connection monitored control system terminal 1858. The model of singlechip 1853 is YQ5969, and the picture that camera 16 was shot passes through the difference of two pictures of picture contrast module 1851 contrast, and when discovering different places, singlechip 1853 control orientation module 1854 fixes a position, and the information that will fix a position passes through signal transmitter 1856 and transmits for big dipper positioning terminal 1857, gives monitored control system terminal 1858 with the locating data transmission, makes the maintainer learn the position of the circuit of makeing mistakes most fast.

In summary, the following steps: the utility model provides a remote monitering system for transmission line, the both sides end of triangular prism 191 surface is equipped with solar light panel 192 respectively, two sets of solar light panel 192 are towards east and west respectively, remove the orientation that sets up solar light panel 192 according to the orbit of sun motion, make light harvesting mechanism 19 all can charge for battery 17 all day long, maintain the operation of camera 16, the inside operation part that is equipped with monitoring system of dehumidification board 18, be equipped with drying box 186 in dehumidification board 18 inside one side, drying box 186 inside is equipped with silica gel 188, silica gel 188 itself has stronger adsorptivity, silica gel 188 adsorbs the inside moisture of dehumidification board 18, avoid the moisture in the air to corrode the part, the picture that camera 16 was taken passes through the difference of two pictures of picture comparison module 1851, when discovering different, singlechip 1853 control orientation module 1854 fixes a position, the information of fixing a position is launched for big dipper location terminal 1857 through signal transmitter 1856, the positioning data is transmitted to the monitoring system terminal 1858, so that the maintenance personnel can know the position of the error line most quickly.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A remote monitoring system for a power transmission line, comprising a utility pole (1) and a wire (2), wherein the wire (2) is connected to the surface of the utility pole (1), and is characterized in that: wire pole (1) is including go-between (11), line board (12), terminal (13), connecting rod (14), semi-ring partition pipe (15), camera (16), battery (17), dehumidification board (18) and light collecting mechanism (19), wire pole (1) upper end surface is equipped with two go-between (11), go-between (11) side is equipped with line board (12), line board (12) top both sides are equipped with terminal (13) respectively, wire pole (1) top is equipped with connecting rod (14), the inside both sides of semi-ring partition pipe (15) are connected to connecting rod (14) upper end both sides, camera (16) swing joint is inside connecting rod (14) top, semi-ring partition pipe (15) top is equipped with battery (17), battery (17) top is equipped with dehumidification board (18), dehumidification board (18) top is equipped with light collecting mechanism (19).

2. The remote monitoring system for the power transmission line according to claim 1, wherein: the dehumidifying plate (18) comprises an L-shaped moving plate (181), an upper limit block (182), a lower limit block (183), a through hole (184), a placing plate (185), a drying box (186), a moisture absorption hole (187) and silica gel (188), wherein the L-shaped moving plate (181) is arranged on one side of the bottom end of the dehumidifying plate (18), the upper limit block (182) is arranged on the top end of the L-shaped moving plate (181), the lower limit block (183) is arranged on one side of the bottom end of the L-shaped moving plate (181), the through hole (184) penetrates through the middle of the bottom end of the dehumidifying plate (18), the placing plate (185) and the drying box (186) are arranged inside the dehumidifying plate (18), the drying box (186) is arranged inside the bottom end of the L-shaped moving plate (181), the placing plate (185) is arranged on one side of the drying box (186), the moisture absorption hole (187) penetrates through the top end of the drying box (.

3. A remote monitoring system for an electric transmission line according to claim 2, characterized in that: the placing board (185) comprises a picture comparison module (1851), an information storage module (1852), a single chip microcomputer (1853), a positioning module (1854), a digital information processing module (1855), a signal emitter (1856), a Beidou positioning terminal (1857) and a monitoring system terminal (1858), the picture comparison module (1851), the information storage module (1852), the single chip microcomputer (1853), the positioning module (1854), the digital information processing module (1855) and the signal emitter (1856) are arranged at the top end of the placing board (185), a camera (16) is electrically connected with the picture comparison module (1851), the picture comparison module (1851) is electrically connected with the information storage module (1852), the information storage module (1852) is electrically connected with the single chip microcomputer (1853), one side of the single chip microcomputer (1853) is electrically connected with the positioning module (1854), the other side of the single chip microcomputer (1853) is electrically connected with the digital information processing module (, digital information processing module (1855) electric connection signal transmitter (1856), signal transmitter (1856) electric connection big dipper location terminal (1857), big dipper location terminal (1857) electric connection monitored control system terminal (1858).

4. A remote monitoring system for an electric transmission line according to claim 3, characterized in that: the type of the singlechip (1853) is YQ 5969.

5. The remote monitoring system for the power transmission line according to claim 1, wherein: the light collecting mechanism (19) comprises a triangular column (191), solar light panels (192), triangular transparent covers (193) and oblique eaves (194), the solar light panels (192) are arranged at two side ends of the triangular column (191), the triangular transparent covers (193) are arranged at the upper ends of the two groups of solar light panels (192), and the oblique eaves (194) are arranged between two sides of the triangular transparent covers (193) and the side ends of the dehumidifying plates (18).

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