CN219675858U - Composite insulator bird pecking damage defect detection device - Google Patents
Composite insulator bird pecking damage defect detection device Download PDFInfo
- Publication number
- CN219675858U CN219675858U CN202320802716.8U CN202320802716U CN219675858U CN 219675858 U CN219675858 U CN 219675858U CN 202320802716 U CN202320802716 U CN 202320802716U CN 219675858 U CN219675858 U CN 219675858U
- Authority
- CN
- China
- Prior art keywords
- connecting plate
- composite insulator
- upper connecting
- detection device
- defect detection
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
- 239000012212 insulator Substances 0.000 title claims abstract description 59
- 239000002131 composite material Substances 0.000 title claims abstract description 54
- 230000007547 defect Effects 0.000 title claims abstract description 32
- 238000001514 detection method Methods 0.000 title claims abstract description 27
- 238000005096 rolling process Methods 0.000 claims abstract description 47
- 230000033001 locomotion Effects 0.000 claims abstract description 6
- 230000002093 peripheral effect Effects 0.000 claims description 9
- 230000000712 assembly Effects 0.000 claims description 7
- 238000000429 assembly Methods 0.000 claims description 7
- 230000000694 effects Effects 0.000 abstract description 7
- 238000000034 method Methods 0.000 description 9
- 238000009434 installation Methods 0.000 description 5
- 230000005540 biological transmission Effects 0.000 description 2
- 238000007689 inspection Methods 0.000 description 2
- 230000001154 acute effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 230000005684 electric field Effects 0.000 description 1
- 238000004880 explosion Methods 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 239000011435 rock Substances 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 229920002379 silicone rubber Polymers 0.000 description 1
Landscapes
- Investigating Materials By The Use Of Optical Means Adapted For Particular Applications (AREA)
Abstract
The utility model provides a composite insulator bird pecking damage defect detection device, includes the casing that is used for the cover to establish in the composite insulator outside, the casing is cylindricly, the casing includes two semi-cylinder bodies that the symmetry set up, two interconnect through joint subassembly between the semi-cylinder body, two semi-cylinder bodies surround and are formed with the cavity, the inside wall of casing is provided with the rolling subassembly along circumference, be provided with the camera that is used for detecting composite insulator on the rolling subassembly, the rolling subassembly is used for driving the camera and makes circular motion around the axis of casing. The design is convenient to use and good in detection effect.
Description
Technical Field
The utility model relates to the technical field of insulator defect detection, in particular to a composite insulator bird pecking damage defect detection device.
Background
The composite insulator is an important connecting part for ensuring insulation safety between an extra-high voltage circuit and a pole tower, and is mainly made of silicon rubber, so that local electric field distortion is easily caused by bird pecking damage, local field intensity is increased, corona and even air discharge phenomena can be generated, and great potential safety hazards are caused. Therefore, it is necessary to perform defect inspection on the composite insulator.
In actual operation and maintenance of the circuit, the method for inspecting defects of the composite insulator is mainly divided into: a method for manually inspecting insulator defects by means of a conventional inspection tool and a method for inspecting by capturing an image of an insulator by means of a photographing device. The traditional manual monitoring method is mainly used for detecting large defects such as insulator self-explosion, string falling and the like, and has the defects of bird pecking, difficult detection effect assurance and low detection efficiency; in the method for acquiring the insulator image by the photographing equipment, the unmanned aerial vehicle and the robot are generally used for acquiring the image, and the bird pecking defect of the composite insulator cannot be accurately detected due to the reasons of unfixed photographing angle of the unmanned aerial vehicle, multiple types of power transmission lines, multiple key points in the picture, poor photographing effect of key small parts, complex background of the power transmission line picture shot by the unmanned aerial vehicle and the like.
Disclosure of Invention
The utility model aims to overcome the defect and the problem of poor detection effect of bird pecking defects of a composite insulator in the prior art, and provides a device for detecting the defect of bird pecking damage of the composite insulator with good detection effect.
In order to achieve the above object, the technical solution of the present utility model is:
the utility model provides a composite insulator bird pecking damage defect detection device, includes the casing that is used for the cover to establish in the composite insulator outside, the casing is cylindricly, the casing includes two semi-cylinder bodies that the symmetry set up, two interconnect through joint subassembly between the semi-cylinder body, two semi-cylinder bodies surround and are formed with the cavity, the inside wall of casing is provided with the rolling subassembly along circumference, be provided with the camera that is used for detecting composite insulator on the rolling subassembly, the rolling subassembly is used for driving the camera and makes circular motion around the axis of casing.
The rolling assembly comprises rollers, a motor, an upper connecting plate and two half rails, wherein the two half rails are respectively connected to the two inner side walls of the half cylinders, the two half rails surround to form a main rail, the rollers are transversely arranged on the inner sides of the main rail, the outer peripheral surfaces of the rollers are attached to the inner bottom wall of the main rail, an upper sliding groove is formed in the upper side wall of the main rail along the circumferential direction, one side of the upper connecting plate is located in the upper sliding groove, the other side of the upper connecting plate passes through the upper sliding groove and then is located on the outer side of the main rail, the upper side of the upper connecting plate is provided with a camera, a connecting shaft is arranged at the center of the rollers, the output end of the motor is connected to the lower end of the connecting shaft, and the upper end of the connecting shaft is rotationally connected to the upper connecting plate.
The lateral wall of going up the spout has offered the spread groove along circumference, upward be provided with the connecting block in the spread groove, go up the connecting block connect in go up the connecting plate and be close to one side of going up the spout, go up the height of connecting block and be greater than go up the width of spout.
The lower side wall of the main track is provided with a lower sliding groove along the circumferential direction, a lower connecting plate is arranged in the lower sliding groove, one side of the lower connecting plate penetrates through the lower sliding groove and then is positioned on the outer side of the main track, the motor is connected to the lower side of the lower connecting plate, and the output end of the motor penetrates through the lower connecting plate and then is connected to the lower end of the connecting shaft.
The lateral wall of lower spout has offered down the spread groove along circumference, be provided with down the connecting block down in the spread groove, down the connecting block connect in one side that the connecting plate is close to down the spout down, the height of connecting block is greater than down the width of spout down.
The section of upper connecting plate is the U-shaped, a lateral part of upper connecting plate is located in the upper chute, the bottom of upper connecting plate is located the outside of main track, the rotation hole has been seted up along vertical direction to the bottom of upper connecting plate, the connecting axle pass through the rotation hole rotate connect in upper connecting plate, another lateral part of upper connecting plate is located the upside of main track, the camera connect in the upside of another lateral part of upper connecting plate.
The inner bottom wall of the main rail is provided with a rolling groove along the circumferential direction, the bottom wall of the rolling groove penetrates through the main rail and then is positioned in the shell, and the outer circumferential surface of the roller is attached to the bottom wall of the rolling groove.
The clamping assembly comprises a plurality of clamping plates, one sides of the clamping plates are connected to the side wall of the semi-cylinder body, elastic strips are arranged on the other sides of the clamping plates, one ends of the elastic strips, which are far away from the clamping plates, are provided with positioning blocks, the other side of the semi-cylinder body is provided with mounting grooves corresponding to the clamping plates one to one, the side wall of each mounting groove is provided with a through groove, the clamping plates and the elastic strips are located in the mounting grooves, and the positioning blocks are located in the through grooves.
The rolling components are arranged in a plurality, and the rolling components are connected to the inner side wall of the shell at intervals along the axial direction.
The outer peripheral face of casing is connected with the connecting rod, the connecting rod is kept away from the one end of casing is connected with the mounting bracket, the mounting bracket is the U-shaped, two lateral walls of mounting bracket have all been seted up and have been used for with shaft tower fixed connection's mounting hole.
Compared with the prior art, the utility model has the beneficial effects that:
1. according to the device for detecting the bird pecking damage defect of the composite insulator, the two half cylinders are moved to the outside of the composite insulator to be detected, then the two half cylinders are connected with each other through the clamping assembly to form the relatively closed shell, the camera is arranged in the shell, the image of the composite insulator is acquired by adopting the camera, so that the condition of bird pecking damage is processed according to the image at a later stage, the camera is used for shooting the composite insulator in a narrow space, the defect of shooting the composite insulator due to other external factors can be avoided, meanwhile, the camera can rotate for 360 degrees in the shell through the rolling assembly, the problem that the shooting angle of the camera is not fixed in the prior art is solved, the two half cylinders can be disassembled after shooting, and the camera is directly spliced into a whole through the clamping assembly when detecting the next composite insulator, so that the device is convenient to use. Therefore, the utility model has convenient use and good detection effect.
2. According to the composite insulator bird pecking damage defect detection device, the main track is arranged in the shell, the motor is adopted to drive the roller to roll in the main track, so that the camera is driven to rotate 360 degrees around the axis of the shell, meanwhile, the upper connecting plate is adopted to separate the rotation of the roller from the camera, the camera is prevented from rotating around the axis of the camera under the drive of the roller, the shooting point of the camera is always located on the central axis, and the shooting process is stable; by arranging the rolling groove, the contact area of the roller is increased, so that the roller rotation process is more stable; through setting up connecting block and lower connecting block, can avoid at the rotation in-process, radial movement appears in upper connecting plate and lower connecting plate, leads to gyro wheel and rolling groove's diapire separation to make the camera unable circumference rotate. Therefore, the utility model has good detection effect and stable working process.
3. According to the bird pecking damage defect detection device for the composite insulator, the elastic strips and the positioning blocks are adopted, when the two half cylinders are spliced, the elastic strips and the clamping plates are pressed to enable the elastic strips and the clamping plates to be arranged in the mounting grooves, then the elastic strips are loosened, the elastic strips are reset, the positioning blocks are positioned in the through grooves to enable the two half cylinders to be fixedly connected, when the two half cylinders are required to be disassembled, the elastic strips are deformed only by pressing the positioning blocks, the positioning blocks are moved into the mounting grooves, and then the half cylinders can be disassembled from the other half cylinder by pulling the half cylinders, so that the installation and the disassembly are convenient; through setting up connecting rod and mounting bracket, when two semi-cylinder bodies splice on the composite insulator, can be connected through the support of mounting bracket and shaft tower, make whole device fix, can avoid the device to appear removing, rock etc. condition. Therefore, the utility model has high reliability and convenient installation and disassembly.
Drawings
Fig. 1 is a schematic structural view of the present utility model.
Fig. 2 is a schematic structural view of a half cylinder in the present utility model.
FIG. 3 is a schematic cross-sectional view of a half cylinder of the present utility model.
Fig. 4 is an enlarged schematic view at a in fig. 3.
Fig. 5 is a schematic structural view of another half cylinder in the present utility model.
Fig. 6 is an enlarged schematic view at B in fig. 5.
FIG. 7 is a schematic cross-sectional view of a half cylinder, clamping assembly of the present utility model.
Fig. 8 is an enlarged schematic view at C in fig. 7.
Fig. 9 is a schematic cross-sectional view of a half cylinder, rolling assembly of the present utility model.
In the figure: the device comprises a shell 1, a semi-cylinder 11, a mounting groove 12, a through groove 13, a cavity 2, a rolling assembly 3, a main rail 31, a semi-rail 311, an upper sliding groove 312, an upper connecting groove 313, a lower sliding groove 314, a lower connecting groove 315, a roller 32, an upper connecting plate 33, a rotating hole 331, a motor 34, a lower connecting plate 35, a connecting shaft 36, an upper connecting block 37, a lower connecting block 38, a rolling groove 39, a clamping assembly 4, a clamping plate 41, an elastic strip 42, a positioning block 43, a camera 5, a connecting rod 6, a mounting frame 7 and a mounting hole 8.
Detailed Description
The utility model is described in further detail below with reference to the accompanying drawings and detailed description.
Referring to fig. 1 to 9, a composite insulator bird pecking damage defect detection device comprises a shell 1, wherein the shell 1 is sleeved outside the composite insulator, the shell 1 is cylindrical, the shell 1 comprises two symmetrically arranged half-cylinders 11, the two half-cylinders 11 are connected with each other through a clamping assembly 4, a cavity 2 is formed by surrounding the two half-cylinders 11, a rolling assembly 3 is arranged on the inner side wall of the shell 1 along the circumferential direction, a camera 5 for detecting the composite insulator is arranged on the rolling assembly 3, and the rolling assembly 3 is used for driving the camera 5 to do circular motion along the axis of the shell 1.
The rolling assembly 3 comprises a roller 32, a motor 34, an upper connecting plate 33 and two half rails 311, wherein the two half rails 311 are respectively connected to the inner side walls of the two half cylinders 11, the two half rails 311 are surrounded to form a main rail 31, the roller 32 is transversely arranged at the inner side of the main rail 31, the outer peripheral surface of the roller 32 is attached to the inner bottom wall of the main rail 31, an upper sliding groove 312 is formed in the upper side wall of the main rail 31 along the circumferential direction, one side of the upper connecting plate 33 is positioned in the upper sliding groove 312, the other side of the upper connecting plate 33 passes through the upper sliding groove 312 and then is positioned at the outer side of the main rail 31, the upper side of the upper connecting plate 33 is provided with a camera 5, a connecting shaft 36 is arranged at the center of the roller 32, the output end of the motor 34 is connected to the lower end of the connecting shaft 36, and the upper end of the connecting shaft 36 is rotationally connected to the upper connecting plate 33.
The side wall of the upper chute 312 is provided with an upper connecting groove 313 along the circumferential direction, an upper connecting block 37 is arranged in the upper connecting groove 313, the upper connecting block 37 is connected to one side of the upper connecting plate 33 close to the upper chute 312, and the height of the upper connecting block 37 is greater than the width of the upper chute 312.
The lower side wall of the main rail 31 is provided with a lower chute 314 along the circumferential direction, a lower connecting plate 35 is arranged in the lower chute 314, one side of the lower connecting plate 35 passes through the lower chute 314 and then is positioned at the outer side of the main rail 31, the motor 34 is connected to the lower side of the lower connecting plate 35, and the output end of the motor 34 passes through the lower connecting plate 35 and then is connected to the lower end of the connecting shaft 36.
The side wall of the lower chute 314 is provided with a lower connecting groove 315 along the circumferential direction, a lower connecting block 38 is arranged in the lower connecting groove 315, the lower connecting block 38 is connected to one side of the lower connecting plate 35 close to the lower chute 314, and the height of the lower connecting block 38 is greater than the width of the lower chute 314.
The cross-section of upper connecting plate 33 is the U-shaped, a lateral part of upper connecting plate 33 is located in upper spout 312, the bottom of upper connecting plate 33 is located the outside of main track 31, rotation hole 331 has been seted up along vertical direction to the bottom of upper connecting plate 33, connecting axle 36 pass through rotation hole 331 rotate connect in upper connecting plate 33, another lateral part of upper connecting plate 33 is located the upside of main track 31, camera 5 connect in the upside of another lateral part of upper connecting plate 33.
The inner bottom wall of the main rail 31 is provided with a rolling groove 39 along the circumferential direction, the bottom wall of the rolling groove 39 passes through the main rail 31 and is positioned in the housing 1, and the outer circumferential surface of the roller 32 is attached to the bottom wall of the rolling groove 39.
The clamping assembly 4 comprises a plurality of clamping plates 41, one sides of the clamping plates 41 are connected to the side wall of the half cylinder 11, elastic strips 42 are arranged on the other sides of the clamping plates 41, a positioning block 43 is arranged at one end, away from the clamping plates 41, of each elastic strip 42, mounting grooves 12 in one-to-one correspondence with the clamping plates 41 are formed in the side wall of the half cylinder 11, through grooves 13 are formed in the side wall of each mounting groove 12, the clamping plates 41 and the elastic strips 42 are located in the corresponding mounting grooves 12, and the positioning block 43 is located in each through groove 13.
The rolling assemblies 3 are arranged in a plurality, and the rolling assemblies 3 are connected to the inner side wall of the shell 1 at intervals along the axial direction.
The outer peripheral surface of the shell 1 is connected with a connecting rod 6, one end of the connecting rod 6, which is far away from the shell 1, is connected with a mounting frame 7, the mounting frame 7 is U-shaped, and mounting holes 8 which are used for being fixedly connected with a tower are formed in two side walls of the mounting frame 7.
The principle of the utility model is explained as follows:
in the utility model, the connecting rod 6 can be connected to the outer peripheral surface of the shell 1 in a circumferential rotation manner, and can also be connected to the outer peripheral surface of the shell 1 in an axial sliding manner, the included angle between the connecting rod 6 and the shell 1 and the included angle between the mounting frame 7 and the connecting rod 6 can be adjusted according to specific working conditions, for example, in a composite material tower disclosed in CN101672124B, the device can be sleeved on a composite insulator to be detected, at the moment, the included angle between the connecting rod 6 and the shell 1 is an acute angle, the connecting rod 6 points to the tower main body, the mounting frame 7 is clamped on the tower main body, and the device and the tower main body are fixedly connected by screwing in an insulating bolt. The camera 5 below is provided with cloud platform, and cloud platform built-in power and controller, and the power is connected with camera 5 and controller, and the server communication connection of controller and long-range mobile terminal, the structure and the relation of connection of camera 5, cloud platform and controller can consult the unmanned aerial vehicle equipment of patrolling and examining and unmanned aerial vehicle system that chinese patent CN208576726U disclosed, and camera 5 can adopt optical camera, infrared camera, if the inside darkness of device can set up lighting structure such as searchlight by camera 5. An insulating cover may be provided outside the motor 34, and the insulating cover is connected to the lower connection plate 35.
Before use, firstly, two half-cylinders 11 with corresponding sizes are selected according to the composite insulator to be detected, insulating materials are selected for each material of the device, holes with certain diameters are formed in the upper end face and the lower end face of each half-cylinder 11 so as to be in contact with umbrella covers of the composite insulator or fittings at the end parts of the composite insulator, before use, a motor 34, a roller 32, an upper connecting plate 33, a lower connecting plate 35, an upper connecting plate 37 and a lower connecting plate 38 penetrate from one side of one half-cylinder 11, then the two half-cylinders 11 are moved to the composite insulator to be detected, through pressing a positioning block 43, a clamping plate 41 and an elastic strip 42 penetrate into an installation groove 12, when the positioning block 43 is moved to a through groove 13, the elastic strip 42 is reset, the positioning block 43 is clamped in the through groove 13, then the installation frame 7 is connected with a pole tower structure in a matched mode, through screwing an insulating bolt into the installation hole 8, at the moment, the device is fixed, the device is opened through a remote control motor 34, the roller 32 rotates, the camera 5 is driven to rotate around the composite insulator for 360 degrees, an image is shot, the positioning block 34 is closed, the motor 43 is pulled, the half-cylinders 11 are pulled down, and then the other half-cylinders 11 are unscrewed, and the defect is detected, and the other half-cylinder 11 is removed, and the insulator is detected.
Example 1:
referring to fig. 1 to 9, a composite insulator bird pecking damage defect detection device comprises a shell 1, wherein the shell 1 is sleeved outside the composite insulator, the shell 1 is cylindrical, the shell 1 comprises two symmetrically arranged half-cylinders 11, the two half-cylinders 11 are connected with each other through a clamping assembly 4, a cavity 2 is formed by surrounding the two half-cylinders 11, a rolling assembly 3 is arranged on the inner side wall of the shell 1 along the circumferential direction, a camera 5 for detecting the composite insulator is arranged on the rolling assembly 3, and the rolling assembly 3 is used for driving the camera 5 to do circular motion around the axis of the shell 1.
The rolling assembly 3 comprises a roller 32, a motor 34, an upper connecting plate 33 and two half rails 311, wherein the two half rails 311 are respectively connected to the inner side walls of the two half cylinders 11, the two half rails 311 are surrounded to form a main rail 31, the roller 32 is transversely arranged at the inner side of the main rail 31, the outer peripheral surface of the roller 32 is attached to the inner bottom wall of the main rail 31, an upper sliding groove 312 is formed in the upper side wall of the main rail 31 along the circumferential direction, one side of the upper connecting plate 33 is positioned in the upper sliding groove 312, the other side of the upper connecting plate 33 passes through the upper sliding groove 312 and then is positioned at the outer side of the main rail 31, the upper side of the upper connecting plate 33 is provided with a camera 5, a connecting shaft 36 is arranged at the center of the roller 32, the output end of the motor 34 is connected to the lower end of the connecting shaft 36, and the upper end of the connecting shaft 36 is rotationally connected to the upper connecting plate 33.
The lower side wall of the main rail 31 is provided with a lower chute 314 along the circumferential direction, a lower connecting plate 35 is arranged in the lower chute 314, one side of the lower connecting plate 35 passes through the lower chute 314 and then is positioned at the outer side of the main rail 31, the motor 34 is connected to the lower side of the lower connecting plate 35, and the output end of the motor 34 passes through the lower connecting plate 35 and then is connected to the lower end of the connecting shaft 36.
The cross-section of upper connecting plate 33 is the U-shaped, a lateral part of upper connecting plate 33 is located in upper spout 312, the bottom of upper connecting plate 33 is located the outside of main track 31, rotation hole 331 has been seted up along vertical direction to the bottom of upper connecting plate 33, connecting axle 36 pass through rotation hole 331 rotate connect in upper connecting plate 33, another lateral part of upper connecting plate 33 is located the upside of main track 31, camera 5 connect in the upside of another lateral part of upper connecting plate 33.
The inner bottom wall of the main rail 31 is provided with a rolling groove 39 along the circumferential direction, the bottom wall of the rolling groove 39 passes through the main rail 31 and is positioned in the housing 1, and the outer circumferential surface of the roller 32 is attached to the bottom wall of the rolling groove 39.
The clamping assembly 4 comprises a plurality of clamping plates 41, one sides of the clamping plates 41 are connected to the side wall of the half cylinder 11, elastic strips 42 are arranged on the other sides of the clamping plates 41, a positioning block 43 is arranged at one end, away from the clamping plates 41, of each elastic strip 42, mounting grooves 12 in one-to-one correspondence with the clamping plates 41 are formed in the side wall of the half cylinder 11, through grooves 13 are formed in the side wall of each mounting groove 12, the clamping plates 41 and the elastic strips 42 are located in the corresponding mounting grooves 12, and the positioning block 43 is located in each through groove 13.
Example 2:
the basic content is the same as in example 1, except that:
referring to fig. 4, an upper connection groove 313 is formed in the sidewall of the upper chute 312 along the circumferential direction, an upper connection block 37 is disposed in the upper connection groove 313, the upper connection block 37 is connected to one side of the upper connection plate 33 near the upper chute 312, and the height of the upper connection block 37 is greater than the width of the upper chute 312. The side wall of the lower chute 314 is provided with a lower connecting groove 315 along the circumferential direction, a lower connecting block 38 is arranged in the lower connecting groove 315, the lower connecting block 38 is connected to one side of the lower connecting plate 35 close to the lower chute 314, and the height of the lower connecting block 38 is greater than the width of the lower chute 314.
Example 3:
the basic content is the same as in example 1, except that:
referring to fig. 2 to 5, the rolling assemblies 3 are provided with 3, 3 rolling assemblies 3 are connected to the inner side wall of the shell 1 at intervals along the axial direction, each rolling assembly 3 is provided with a camera 5, and the 3 cameras 5 are arranged relative to two end parts and the middle part of the composite insulator. When the composite insulators are connected in series, the number of the rolling assemblies 3 can be set according to the number of the composite insulators in the specific composite insulators, and each camera 5 can pick up the image of each composite insulator.
Example 4:
the basic content is the same as in example 1, except that:
referring to fig. 1, the outer peripheral surface of the housing 1 is connected with a connecting rod 6, one end of the connecting rod 6, which is far away from the housing 1, is connected with a mounting frame 7, the mounting frame 7 is in a U shape, and two side walls of the mounting frame 7 are provided with mounting holes 8 which are fixedly connected with a pole tower.
Claims (10)
1. A composite insulator bird pecking damage defect detection device is characterized in that: including being used for the cover to establish casing (1) in the composite insulator outside, casing (1) is cylindricly, casing (1) are including half barrel (11) that two symmetries set up, two connect each other through joint subassembly (4) between half barrel (11), two half barrel (11) surround and are formed with cavity (2), the inside wall of casing (1) is provided with rolling subassembly (3) along the circumference, be provided with on rolling subassembly (3) and be used for detecting composite insulator's camera (5), rolling subassembly (3) are used for driving camera (5) and do circular motion around the axis of casing (1).
2. The composite insulator bird pecking damage defect detection device of claim 1, wherein: the rolling assembly (3) comprises rollers (32), motors (34), an upper connecting plate (33) and two half rails (311), wherein the two half rails (311) are respectively connected to the two inner side walls of the half cylinders (11), the two half rails (311) are surrounded to form a main rail (31), the rollers (32) are transversely arranged on the inner sides of the main rail (31), the outer peripheral surfaces of the rollers (32) are attached to the inner bottom wall of the main rail (31), an upper sliding groove (312) is formed in the upper side wall of the main rail (31) along the circumferential direction, one side of the upper connecting plate (33) is located in the upper sliding groove (312), the other side of the upper connecting plate (33) penetrates through the upper sliding groove (312) and then is located on the outer side of the main rail (31), the upper side of the upper connecting plate (33) is provided with a camera (5), the center of the rollers (32) is provided with a connecting shaft (36), the output end of the motors (34) is connected to the lower end of the connecting shaft (36), and the upper connecting plate (33) is connected to the upper connecting plate (36).
3. The composite insulator bird pecking damage defect detection device of claim 2, wherein: the side wall of the upper sliding groove (312) is provided with an upper connecting groove (313) along the circumferential direction, an upper connecting block (37) is arranged in the upper connecting groove (313), the upper connecting block (37) is connected to one side, close to the upper sliding groove (312), of the upper connecting plate (33), and the height of the upper connecting block (37) is larger than the width of the upper sliding groove (312).
4. The composite insulator bird pecking damage defect detection device of claim 2, wherein: lower spout (314) have been seted up along circumference to the lower lateral wall of main track (31), be provided with down connecting plate (35) in lower spout (314), one side of lower connecting plate (35) passes behind lower spout (314) be located the outside of main track (31), motor (34) connect in the downside of lower connecting plate (35), the output of motor (34) pass behind lower connecting plate (35) connect in the lower extreme of connecting axle (36).
5. The composite insulator bird pecking damage defect detection device of claim 4, wherein: the side wall of lower spout (314) has offered down spread groove (315) along circumference, be provided with down connecting block (38) in lower spread groove (315), down connecting block (38) connect in lower connecting plate (35) be close to one side of spout (314), the height of connecting block (38) is greater than the width of spout (314) down.
6. The composite insulator bird pecking damage defect detection device of claim 2, wherein: the section of upper connecting plate (33) is the U-shaped, one lateral part of upper connecting plate (33) is located in upper chute (312), the bottom of upper connecting plate (33) is located the outside of main track (31), rotation hole (331) have been seted up along vertical direction to the bottom of upper connecting plate (33), connecting axle (36) rotate through rotation hole (331) connect in upper connecting plate (33), the other lateral part of upper connecting plate (33) is located the upside of main track (31), camera (5) connect in the upside of the other lateral part of upper connecting plate (33).
7. The composite insulator bird pecking damage defect detection device of claim 2, wherein: the inner bottom wall of the main track (31) is provided with a rolling groove (39) along the circumferential direction, the bottom wall of the rolling groove (39) penetrates through the main track (31) and then is positioned in the shell (1), and the outer circumferential surface of the roller (32) is attached to the bottom wall of the rolling groove (39).
8. The composite insulator bird pecking damage defect detection device of claim 1, wherein: the clamping assembly (4) comprises a plurality of clamping plates (41), one sides of the clamping plates (41) are connected to one side wall of the semi-cylinder body (11), elastic strips (42) are arranged on the other sides of the clamping plates (41), one ends, far away from the clamping plates (41), of the elastic strips (42) are provided with positioning blocks (43), the other side wall of the semi-cylinder body (11) is provided with mounting grooves (12) in one-to-one correspondence with the clamping plates (41), the side wall of the mounting groove (12) is provided with through grooves (13), the clamping plates (41) and the elastic strips (42) are located in the mounting grooves (12), and the positioning blocks (43) are located in the through grooves (13).
9. The composite insulator bird pecking damage defect detection device of claim 1, wherein: the rolling assemblies (3) are arranged in a plurality, and the rolling assemblies (3) are connected to the inner side wall of the shell (1) at intervals along the axial direction.
10. The composite insulator bird pecking damage defect detection device of claim 1, wherein: the utility model discloses a tower, including casing (1), connecting rod (6) are kept away from the one end of casing (1) is connected with mounting bracket (7), mounting bracket (7) are the U-shaped, mounting hole (8) that are used for with shaft tower fixed connection are all seted up to two lateral walls of mounting bracket (7).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320802716.8U CN219675858U (en) | 2023-04-07 | 2023-04-07 | Composite insulator bird pecking damage defect detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320802716.8U CN219675858U (en) | 2023-04-07 | 2023-04-07 | Composite insulator bird pecking damage defect detection device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN219675858U true CN219675858U (en) | 2023-09-12 |
Family
ID=87892811
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202320802716.8U Active CN219675858U (en) | 2023-04-07 | 2023-04-07 | Composite insulator bird pecking damage defect detection device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN219675858U (en) |
-
2023
- 2023-04-07 CN CN202320802716.8U patent/CN219675858U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN112924463B (en) | Coal mine shaft inspection device and laser scanning defect detection method | |
CN110487817A (en) | A kind of mobile monitor station of ageing-resistant flame-proof power cable | |
CN107092251B (en) | The automatic station-keeping system and method for the unmanned inspection car of railway based on image recognition | |
CN113606437A (en) | All-weather inspection device for computer room | |
CN219675858U (en) | Composite insulator bird pecking damage defect detection device | |
CN112682641B (en) | Automatic inspection equipment and method for power distribution network | |
CN105610088A (en) | Automatic inspection device for power device | |
CN210957568U (en) | Visual control device of transmission cable inspection robot | |
CN211417873U (en) | Operating device for installing safety ring identification in electrified mode | |
CN111398303A (en) | Railway power supply insulator contamination online detection system | |
CN105680368A (en) | Infinite-endurance high-voltage line inspection aircraft | |
CN104410827A (en) | Video detecting device for detecting slide contact wire interface and application method of video detecting device | |
CN211718447U (en) | Insulation detection device for cable skin | |
CN113071671A (en) | Automatic unmanned aerial vehicle that patrols and examines with real-time dynamic control power equipment | |
CN113406090A (en) | Glass insulator crack extraction system and method | |
CN107069560B (en) | Power circuit maintenance device | |
CN106099744A (en) | Arch maintenance robot patrolled and examined by a kind of high tension cable | |
CN217705402U (en) | Bridge remote detection device based on digital technology | |
CN117767554A (en) | Electric power line inspection device | |
CN112040190A (en) | Novel security video monitoring equipment and analysis method | |
CN111220698A (en) | Device and method for detecting surface defects of shockproof hammer of power transmission line | |
CN220305174U (en) | Power transmission and transformation line detection device | |
KR20200027742A (en) | Apparatus for acquiring proximity diagnosis data of electric power equipment | |
CN221100561U (en) | Automatic flaw detection device for power transmission line | |
CN220647481U (en) | Communication engineering information perception transmission device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |