CN218850464U - Automatic line inspection device for overhead power line - Google Patents

Abstract

The utility model provides an automatic line device that patrols of electric power overhead line relates to the automatic technical field of electric power fortune dimension, including solar energy continuation of journey subassembly, solar energy continuation of journey subassembly is provided with three groups, three groups of solar energy continuation of journey subassemblies are located three groups of integrated device's top respectively, three groups of integrated device's of group side fastening connection has the connection insulator spindle, three groups of integrated device's inside has all linked up overhead line, solar energy continuation of journey subassembly's bottom installation is provided with the drive and removes the subassembly, the left and right sides electricity of drive and remove the subassembly is connected with the output vibration subassembly and passes through under the mating action of output vibration subassembly, effectively reduce the voltage of DC power supply group through setting up the installation triode and be 5V through the switching structure, and then the vibrator structure that is convenient for to set up carries out external vibration to overhead line, effectively reduce overhead line and easily receive sleet weather influence, make the line surface cover have the snow deposit layer, and then lead to the problem that causes certain trouble to automatic line of patrolling.

Description

Automatic line inspection device for overhead power line

Technical Field

The utility model relates to an automatic technical field of electric power fortune dimension especially relates to an automatic line device that patrols of electric power overhead line.

Background

At present, the inspection work of the power line is mainly performed by manual on-site inspection, although the inspection form of manually controlling the unmanned aerial vehicle is already available, the current technology is still immature, a large amount of manpower and material resources are still required to be input, along with the development of power systems in China and the construction of high-voltage and extra-high-voltage power transmission lines, the mileage of the power transmission lines is longer and longer, and the reliable transmission of electric energy by the power transmission lines becomes the basic guarantee for the rapid development of economy in China and the guarantee of daily life of the nation. The distribution of transmission lines in China is wide, and a large amount of manpower, material resources and financial resources are invested by the power department every year to carry out regular line patrol work.

But at the automatic line in-process that patrols of specific power overhead line, easily receive sleet weather influence for the line surface covering has the overstock snow layer, and then patrols the line automatically and causes certain trouble, and on the line simultaneously, there are bird's sparrow gripping more, makes the surrounding layer to the circuit cause the damage, thereby probably leads to the life reduction of circuit.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving and having the automatic line in-process of patrolling of concrete power overhead line among the prior art, easily receive sleet weather influence for the line surface covering has the overstock snow layer, and then patrols the line automatically and causes certain trouble, on the line simultaneously, has bird's sparrow gripping more, makes the surrounding layer to the circuit cause the damage, thereby probably leads to the problem that the life of circuit reduces, and the automatic line device that patrols of electric power overhead line who proposes.

In order to realize the purpose, the utility model adopts the following technical scheme: an automatic line patrol device for an electric overhead line comprises three groups of solar cruising components, wherein the three groups of solar cruising components are respectively positioned at the top ends of three groups of integral devices, the side edges of the three groups of integral devices are fixedly connected with insulating rods, overhead lines are connected in the three groups of integral devices, a driving moving component is arranged at the bottom of the solar cruising component, the left side and the right side of the driving moving component are electrically connected with an output vibration component, and a D insulating material repair component is arranged at the top of the driving moving component;

the output vibration assembly comprises an installation chamber, a direct current power supply set is erected inside the installation chamber, a switching structure is electrically connected to the side edge of the direct current power supply set, four groups of output lines are electrically connected to the surface of the outer wall of the switching structure, and a vibrator structure is electrically connected to the other port of each of the four groups of output lines.

Preferably, the solar energy continuation of journey subassembly is including both sides solar panel, and both sides solar panel's top has the joint piece through bolt fastening installation, both sides solar panel's diapire surface fastening connection has four groups of connecting pieces.

Preferably, the four sets of connecting pieces have support rods in the surface fastening connection of the bottom wall, the bottom fastening adjustment of support rods is provided with a rotary joint seat, and an adjusting fastening screw is fastened and adjusted on one side of the outer wall of the rotary joint seat.

Preferably, the driving moving assembly comprises a driving motor, a bottom output shaft of the driving motor is in shaft-movable connection with a belt wheel structure, and a bottom shaft of the belt wheel structure is in shaft-movable connection with a driving wheel.

Preferably, the D insulation material repairing assembly comprises a D insulation material pressurizing chamber, two ends of the D insulation material pressurizing chamber are connected with sliding block structures in a sliding mode, the bottom end surface of the D insulation material pressurizing chamber is communicated with a spray head end, and a bottom side port of the spray head end is connected with the outer cladding of the overhead line in an attaching mode.

Preferably, the external part of the overhead line is embedded and connected with a clamping seat, a line placing groove is formed in the central surface of the clamping seat in a penetrating mode, and the internal signal of the installation chamber is connected with a signal output end.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. the utility model discloses in, under the mating reaction through output vibration subassembly, effectively through the switching structure with the voltage of DC power supply package reduce to 5V through setting up the installation triode, and then the vibrator structure that is convenient for set up carries out external vibration to overhead line, effectively reduces overhead line and easily receives sleet weather effect for the circuit surface covers there is the overstock snow layer, and then patrols the line to the automation and leads to the fact certain troublesome problem.

2. The utility model discloses in, under the subassembly effect of continuing a journey through solar energy, the continuation of a journey nature of the integrated device of being convenient for improves, reduce and cause the not enough problem of power supply at long-time operation in-process, and under the cooperation effect of 3D insulating material restoration subassembly, be convenient for make the integrated device carry out the preparation of patrolling the line on the overhead line, be convenient for reduce the bird gripping, make the surrounding layer to the circuit cause the damage, thereby probably lead to the problem that the life of circuit reduces, effectively carry out 3D insulating material's spraying to the overhead line surrounding layer and cover.

Drawings

Fig. 1 is a plurality of schematic three-dimensional structures of an automatic line inspection device for an overhead power line of the utility model;

fig. 2 is a schematic diagram of a single three-dimensional structure of an automatic line inspection device for an overhead power line of the utility model;

fig. 3 is a schematic diagram showing a three-dimensional structure separation of an automatic line patrol device for an overhead power line;

fig. 4 is the utility model provides an automatic line device that patrols of electric power overhead line looks sideways at spatial structure schematic diagram.

Illustration of the drawings: 1. a solar cruising component; 11. a solar panel; 12. a joining member; 13. a connecting member; 14. a support bar; 15. rotating the connecting seat; 16. adjusting the fastening screw; 2. an overhead line; 3. connecting an insulating rod; 4. driving the moving assembly; 41. a drive motor; 42. a pulley structure; 43. a drive wheel; 5. an output vibration assembly; 51. an installation chamber; 52. a DC power pack; 53. a switching structure; 54. an output line; 55. a vibrator structure; 6. a 3D insulation repair assembly; 61. a 3D insulating material pressurization chamber; 62. a sliding block structure; 63. a nozzle end; 7. a clamping seat; 8. a line placement groove; 9. and a signal output terminal.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the present invention is not limited to the limitations of the specific embodiments of the present disclosure.

Example 1

As shown in fig. 1-4, the utility model provides a technical solution: an automatic line patrol device for an electric overhead line comprises three groups of solar cruising components 1, wherein the three groups of solar cruising components 1 are respectively positioned at the top ends of three groups of integrated devices, the side edges of the three groups of integrated devices are fixedly connected with insulating rods 3, overhead lines 2 are connected in the three groups of integrated devices, a driving moving component 4 is arranged at the bottom of the solar cruising component 1, output vibration components 5 are electrically connected to the left side and the right side of the driving moving component 4, and a 3D insulating material repair component 6 is arranged at the top of the driving moving component 4; the output vibration component 5 comprises a mounting chamber 51, a direct current power supply group 52 is mounted inside the mounting chamber 51 in a spanning manner, a switching structure 53 is electrically connected to the side edge of the direct current power supply group 52, four groups of output lines 54 are electrically connected to the outer wall surface of the switching structure 53, and a vibrator structure 55 is electrically connected to the other end of each of the four groups of output lines 54.

In the embodiment, three groups of solar cruising components 1 are arranged, the three groups of solar cruising components 1 are respectively positioned at the top ends of three groups of integrated devices, the three groups of integrated devices can be kept balanced outside an overhead line 2 by connecting insulating rods 3, the overhead line 2 is connected in the three groups of integrated devices, a driving moving component 4 is arranged at the bottom of the solar cruising component 1, the left side and the right side of the driving moving component 4 are electrically connected with output vibration components 5, the solar cruising component 1 is electrically connected with the output vibration components 5, and a 3D insulating material repairing component 6 is arranged at the top of the driving moving component 4; output vibration subassembly 5 is including installation room 51, installation room 51 is located the both sides of integrated device respectively, under the effect of the DC power supply group 52 of the inside erection installation of installation room 51, switching structure 53 at the electric connection of DC power supply group 52 side, reduce DC power supply group 52's voltage to 5V through setting up the installation triode through switching structure 53, and then under the effect of four groups of output line 54 of being convenient for through switching structure 53 outer wall surface electricity connection, make four groups of output line 54 of another port electricity vibrator structure 55 of connecting carry out external vibration to overhead line 2, effectively reduce overhead line 2 and easily receive sleet weather effect, make the circuit surface cover have the layer of pushing snow, and then lead to the fact certain troublesome problem to automatic patrolling line.

Example 2

As shown in fig. 1-4, the solar energy cruising component 1 includes two side solar panels 11, connecting pieces 12 are fastened and installed on the tops of the two side solar panels 11 through bolts, four sets of connecting pieces 13 are fastened and connected on the surfaces of the bottom walls of the two side solar panels 11, supporting rods 14 are fastened and connected on the surfaces of the bottom walls of the four sets of connecting pieces 13, a rotary connecting seat 15 is fastened and adjusted on the bottom end of each supporting rod 14, an adjusting fastening screw 16 is fastened and adjusted on one side of the outer wall of the rotary connecting seat 15, the driving moving component 4 includes a driving motor 41, a bottom end output shaft of the driving motor 41 is connected with a belt pulley structure 42 in a shaft-moving manner, a bottom end of the belt pulley structure 42 is connected with a driving wheel 43,3D insulating material repairing component 6, which includes a 3D insulating material pressurizing chamber 61,3D insulating material pressurizing chamber 61, two ends of the sliding block structure 3763 zxft 63 insulating material pressurizing chamber 61 are connected in a shaft-moving manner, a bottom end of the insulating material pressurizing chamber 61 is connected with a spraying end 63, a bottom end of the insulating material pressurizing chamber 63 is connected with an outer cladding layer of the overhead line 2 in a joint manner, a clamping seat 7 is connected with the exterior of the overhead line, a central surface of the clamping seat 7 is provided with an interior signal output end 51, and a signal output end 51.

In this embodiment, the solar energy cruising component 1 comprises two side solar panels 11, the two side solar panels 11 are fastened and installed by the joint 12, the installation angle of the two side solar panels 11 is acute, the problem of accumulation caused by rain and snow falling on the top wall surfaces of the two side solar panels 11 is effectively reduced, four groups of connecting pieces 13 are fastened and connected on the bottom wall surfaces of the two side solar panels 11, the supporting rods 14 are fastened and connected on the bottom wall surfaces of the four groups of connecting pieces 13, the two side solar panels 11 are conveniently detached and installed by the rotary joint 15 fastened and adjusted at the bottom ends of the supporting rods 14 under the action of the adjusting fastening screw 16 fastened and adjusted on one side of the outer wall of the rotary joint 15, the driving moving component 4 comprises a driving motor 41, and the belt pulley structure 42 axially connected with the output shaft at the bottom end of the driving motor 41 is operated by the driving motor 41, and then drive the pulley structure 42 bottom shaft to move the connected drive wheel 43 to operate, and then facilitate the whole device to roll on the side of the outer wall of the overhead line 2, and then to patrol the overhead line 2, the 3D insulating material repair assembly 6 includes the 3D insulating material pressure chamber 61, under the effect of the sliding block structure 62 which is connected with the two ends of the 3D insulating material pressure chamber 61 in a sliding way, facilitate the whole structure to be dismantled, fill the 3D insulating material pressure chamber 61 with the 3D insulating material, under the cooperation of the 3D insulating material pressure chamber 61 and the nozzle end 63 which is communicated with the bottom surface of the 3D insulating material pressure chamber 61, it is convenient to reduce the bird's grip, and cause the damage to the outer cladding of the line, thereby possibly leading to the problem of the reduction of the service life of the line, effectively carry out the 3D insulating material spraying covering to the outer cladding of the overhead line 2, the bottom side port of nozzle end 63 and overhead line 2's surrounding layer are laminated mutually and are connected, run through the circuit standing groove 8 mating reaction of seting up on the grip slipper 7 and the grip slipper 7 central surface that overhead line 2 outside gomphosis is connected under, erect the installation with overhead line 2, under the signal output part 9 effect of installation room 51 internal signal connection, the staff of being convenient for carries out signal transmission control to signal output part 9 through the controller on ground.

The working principle of the embodiment is as follows: when in use, firstly, under the matching action of the clamping seat 7 and the line placing groove 8, the overhead line 2 is erected and installed, then, the three integral devices are kept balanced outside the overhead line 2 through the connecting insulating rod 3, then, under the action of adjusting the fastening screw 16, the supporting rod 14 is fastened inside the rotary connecting seat 15, then, under the matching action of the connecting piece 13 and the connecting piece 12 in sequence, the solar panels 11 on the two sides are installed in an acute angle, the problem that rain and snow fall on the top wall surfaces of the solar panels 11 on the two sides to cause accumulation is effectively reduced, then, under the action of the driving motor 41, the belt pulley structure 42 is operated, the driving wheel 43 is further driven to operate, further, the integral devices are convenient to roll around the outer wall of the overhead line 2, further, the line patrol is carried out on the overhead line 2, and then under the action of the switching structure 53, make the voltage of direct current power supply group 52 reduce to 5V through setting up the installation triode, and then be convenient for under the effect through four groups of output line 54, make vibrator structure 55 carry out external vibration to overhead line 2, effectively reduce overhead line 2 and easily receive sleet weather influence, make the line surface cover have the layer of overstock snow, and then patrol the line to automatic and lead to the fact certain trouble problem, later at patrolling the line in-process, under the effect through signal output part 9, detect the surrounding layer of overhead line 2, and then under through 3D insulating material pressurized chamber 61 and nozzle end 63 mating reaction, be convenient for reduce bird's grip, make the surrounding layer to the line cause the damage, thereby probably lead to the problem that the life of line reduces, effectively carry out 3D insulating material's spraying to overhead line 2 surrounding layer and cover, the concrete implementation process finishes.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may use the above-mentioned technical contents to change or modify the equivalent embodiment into equivalent changes and apply to other fields, but any simple modification, equivalent change and modification made to the above embodiments according to the technical matters of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides an automatic line device that patrols of electric power overhead line which characterized in that: the solar energy cruising device comprises a solar energy cruising assembly (1), wherein the solar energy cruising assembly (1) is provided with three groups, the three groups of solar energy cruising assemblies (1) are respectively positioned at the top ends of three groups of integral devices, the side edges of the three groups of integral devices are fixedly connected with insulating rods (3), overhead lines (2) are connected in the three groups of integral devices, a driving moving assembly (4) is arranged at the bottom of the solar energy cruising assembly (1), the left side and the right side of the driving moving assembly (4) are electrically connected with output vibration assemblies (5), and a 3D insulating material repairing assembly (6) is arranged at the top of the driving moving assembly (4); the output vibration component (5) comprises an installation chamber (51), a direct current power supply set (52) is erected inside the installation chamber (51), the side edge of the direct current power supply set (52) is electrically connected with a switching structure (53), the outer wall surface of the switching structure (53) is electrically connected with four groups of output lines (54), and the other port of each output line (54) is electrically connected with a vibrator structure (55).

2. The automatic line patrol device for the overhead power line of the electric power according to claim 1, characterized in that: solar energy continuation of journey subassembly (1) is including both sides solar panel (11), both sides solar panel (11)'s top has link up piece (12) through bolt-up, both sides solar panel (11)'s diapire surface fastening connection has four groups connecting piece (13).

3. The automatic line patrol device for the overhead power line of the electric power according to claim 2, characterized in that: the four sets of the diapire surface fastening connection of connecting piece (13) has bracing piece (14), the bottom fastening of bracing piece (14) is adjusted and is installed rotatory joint seat (15), the outer wall one side fastening of rotatory joint seat (15) is adjusted and is had regulation fastening screw (16).

4. The automatic line patrol device for the overhead power line of the electric power according to claim 1, characterized in that: the driving moving assembly (4) comprises a driving motor (41), a bottom end output shaft of the driving motor (41) is in shaft-movable connection with a belt pulley structure (42), and a bottom end shaft of the belt pulley structure (42) is in shaft-movable connection with a driving wheel (43).

5. The automatic line inspection device for overhead power lines of claim 1, wherein: the 3D insulating material repairing assembly (6) comprises a 3D insulating material pressurizing chamber (61), sliding block structures (62) are connected to two ends of the 3D insulating material pressurizing chamber (61) in a sliding mode, the bottom end surface of the 3D insulating material pressurizing chamber (61) is communicated with a spraying head end (63), and a bottom side port of the spraying head end (63) is connected with an outer cladding of the overhead line (2) in a laminating mode.

6. The automatic line patrol device for the overhead power line of the electric power according to claim 1, characterized in that: the external embedded connection of overhead line (2) has grip slipper (7), the central surface of grip slipper (7) has run through and has seted up circuit standing groove (8), the internal signal of installation room (51) is connected with signal output part (9).

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