CN114157792B

CN114157792B - Insulating on-line monitoring device of power equipment

Info

Publication number: CN114157792B
Application number: CN202111490343.7A
Authority: CN
Inventors: 马克维; 李彦清; 陈婷婷; 赵克成
Original assignee: Anhui Qingyuan Electric Technology Co ltd
Current assignee: Anhui Qingyuan Electric Technology Co ltd
Priority date: 2021-12-08
Filing date: 2021-12-08
Publication date: 2024-05-24
Anticipated expiration: 2041-12-08
Also published as: CN114157792A

Abstract

The invention relates to an insulating on-line monitoring device of electric equipment, which relates to the technical field of monitoring equipment, and comprises a universal seat, a supporting plate and monitoring equipment, wherein the supporting plate is connected with one side of the universal seat in a shaft mode, the monitoring equipment is arranged on the supporting plate, a cleaning box is arranged on the supporting plate in parallel with the monitoring equipment, a rotating shaft is connected on the vertical central axis of the supporting plate, which is positioned on the monitoring equipment and the cleaning box, and a linkage mechanism in transmission connection with the rotating shaft is arranged on the cleaning box; according to the invention, the cleaning box and the monitoring equipment are arranged on the same supporting plate side by side, and meanwhile, when the cleaning box is started to work, the driving linkage mechanism drives the rotating shaft to rotate, so that the cleaning box moves to the outer side of the monitoring equipment in a directional manner to synchronously realize cleaning and dust removal, the dust accumulation of the monitoring equipment is prevented from affecting the shooting process of the monitoring equipment, and long-term and effective online monitoring of the power equipment is further ensured.

Description

Insulating on-line monitoring device of power equipment

Technical Field

The invention belongs to the technical field of monitoring equipment, and particularly relates to an insulating on-line monitoring device for power equipment.

Background

With the development of the power transmission system to the ultra-high voltage and large capacity direction, the realization of fault prediction and diagnosis of the high-voltage power grid becomes important by monitoring the insulation performance of the power equipment in real time;

the monitoring device is arranged on the large-sized power equipment to ensure that the state monitoring is carried out on the insulation performance of the power equipment when the power equipment is in operation, so that the operation state of the equipment can be timely and accurately mastered, and the safe, reliable and economic operation of the equipment is ensured;

However, the existing monitoring equipment lacks a corresponding automatic cleaning structure, when the monitoring equipment is used for a long time, the lens of the monitoring equipment can adsorb more dust due to static electricity and the like, dust accumulation easily influences the shooting process of the monitoring equipment, and further long-term effective online monitoring of the power equipment is difficult to ensure.

Disclosure of Invention

The invention aims to solve the problems and provide the insulating on-line monitoring device for the power equipment, which has a simple structure and reasonable design.

The invention realizes the above purpose through the following technical scheme:

the utility model provides an insulating on-line monitoring device of power equipment, includes universal seat, the backup pad of coupling in universal seat one side and locates the supervisory equipment on the backup pad, be equipped with the cleaning box that sets up side by side with supervisory equipment on the backup pad, the backup pad is located the perpendicular axis of supervisory equipment and cleaning box and has the pivot to be connected with the pivot, be equipped with the link gear that is connected with the pivot phase transmission on the cleaning box;

When the cleaning box is opened to work, the driving linkage mechanism drives the rotating shaft to rotate, so that the cleaning box moves to the outer side of the monitoring equipment in a directional manner to synchronously realize cleaning operation.

As a further optimization scheme of the invention, the cleaning box comprises an outer shell body which is opened towards one side of the supporting plate, a sliding cavity which is communicated with the outer shell body, an electrostatic cleaning head which is eccentrically arranged in the outer shell body, and a driving motor which is arranged at the center of the outer shell body and connected with the electrostatic cleaning head, wherein a movable seat is movably arranged in the sliding cavity, and a plug rod which is movably inserted into the movable seat is arranged outside the electrostatic cleaning head.

As a further optimization scheme of the invention, the electrostatic cleaning head comprises a base connected with a driving shaft of a driving motor and a movable cover movably embedded on the base, wherein a through groove is formed in the movable cover, an adsorbing body is arranged on the through groove, a wiring terminal contacted with the adsorbing body is clamped on the inner side of the movable cover, a plurality of spring dust collection electrodes are uniformly arranged on the wiring terminal, and an electrostatic generator connected with the spring dust collection electrodes is arranged in the base.

As a further optimization scheme of the invention, the dust collecting assembly for collecting dust is further arranged outside the cleaning box, and specifically comprises a dust collecting fan arranged outside the cleaning box, a dust collecting nozzle arranged at a suction port of the dust collecting fan and penetrating into the outer shell, and a dust collecting barrel arranged at the bottom of the dust collecting fan.

As a further optimization scheme of the invention, the bottom of the dust collection fan opposite to the supporting plate and the supporting plate is provided with a matched photoelectric switch for triggering the dust collection fan to start dust collection.

As a further optimization scheme of the invention, the linkage mechanism comprises a transmission chamber arranged on the cleaning box, a first transmission gear and a second transmission gear which are connected in the transmission chamber in a shaft way, a driving gear meshed with the first transmission gear and a driven gear meshed with the second transmission gear, wherein the driving gear is arranged on a driving shaft of the driving motor, the driven gear is arranged on a rotating shaft, the inner side wall of the transmission chamber is provided with a sliding rail, a sliding seat is in sliding fit with the sliding rail, two ends of the sliding seat are respectively provided with a first transmission rack and a second transmission rack meshed with the first transmission gear and the second transmission gear, the number of teeth of the first transmission gear, the number of teeth of the second transmission gear, the number of teeth of the driving gear and the number of teeth of the driven gear are the same, and the diameters of the driving gear and the diameters of the driven gear are respectively smaller than those of the first transmission gear and the second transmission gear.

As a further optimization scheme of the invention, the number of teeth of the first transmission rack and the second transmission rack is 1/12-1/6 of the number of teeth of the first transmission gear and the second transmission gear respectively.

As a further optimization scheme of the invention, the monitoring equipment comprises a monitoring host arranged on the supporting plate, a control box arranged on the monitoring host, a battery box and a wireless transceiver, wherein the battery box is arranged on the monitoring host and is electrically connected with the control box, and the monitoring host is in communication connection with the total monitoring platform through the wireless transceiver.

The invention has the beneficial effects that:

According to the invention, the cleaning box and the monitoring equipment are arranged on the same supporting plate side by side, and meanwhile, when the cleaning box is started to work, the driving linkage mechanism drives the rotating shaft to rotate, so that the cleaning box moves to the outer side of the monitoring equipment in a directional manner to synchronously realize cleaning and dust removal, the dust accumulation of the monitoring equipment is prevented from affecting the shooting process of the monitoring equipment, and long-term and effective online monitoring of the power equipment is further ensured.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a top view provided by the present invention;

FIG. 3 is a schematic view of the internal structure of the cleaning cartridge provided by the present invention;

FIG. 4 is a schematic view of the internal structure of the linkage mechanism provided by the present invention;

FIG. 5 is a schematic view of the internal structure of an electrostatic cleaning head according to the present invention;

In the figure: 1. a support plate; 2. monitoring equipment; 21. monitoring a host; 22. a control box; 23. a battery case; 24. a wireless transceiver; 3. a universal seat; 4. a cleaning box; 41. an outer housing; 42. a sliding chamber; 43. an electrostatic cleaning head; 431. a base; 432. a movable cover; 433. an adsorbent; 434. a terminal; 435. a spring dust collection electrode; 436. an electrostatic generator; 44. a movable seat; 45. a rod; 46. a driving motor; 5. a linkage mechanism; 51. a transmission chamber; 52. a drive gear; 53. a first transmission gear; 54. a slide rail; 55. a slide; 56. a driven gear; 57. a second transmission gear; 58. a first drive rack; 59. a second drive rack; 6. a rotating shaft; 7. a dust collection fan; 8. a dust suction nozzle; 9. a dust collection cylinder; 10. an optoelectronic switch.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings, wherein it is to be understood that the following detailed description is for the purpose of further illustrating the application only and is not to be construed as limiting the scope of the application, as various insubstantial modifications and adaptations of the application to those skilled in the art can be made in light of the foregoing disclosure.

Example 1

Referring to fig. 1-2 of the specification, the embodiment provides an insulation on-line monitoring device for electric equipment, which comprises a universal seat 3, a supporting plate 1 connected with one side of the universal seat 3 in a shaft way and a monitoring device 2 arranged on the supporting plate 1, wherein a cleaning box 4 arranged side by side with the monitoring device 2 is arranged on the supporting plate 1, a rotating shaft 6 is connected with the vertical central axis of the monitoring device 2 and the cleaning box 4 in a shaft way, and a linkage mechanism 5 connected with the rotating shaft 6 in a transmission way is arranged on the cleaning box 4;

The monitoring device 2 comprises a monitoring host 21 arranged on the supporting plate 1, a control box 22 arranged on the monitoring host 21, a battery box 23 arranged on the monitoring host 21 and electrically connected with the control box 22, and a wireless transceiver 24, wherein the monitoring host 21 is in communication connection with a total monitoring platform through the wireless transceiver 24, the monitoring host 21 is a monitoring camera in the prior art and is fixed on a large-scale power device through a universal base 3, and the monitoring host 21 monitors the insulation state of the power device in real time and uploads the insulation state to the total monitoring platform through the wireless transceiver 24 so as to realize real-time online monitoring of the insulation state of the power device;

Referring to fig. 3 of the specification, the cleaning box 4 includes an outer casing 41 opened toward one side of the supporting plate 1, a sliding cavity 42 communicated with the outer casing 41, an electrostatic cleaning head 43 eccentrically disposed in the outer casing 41, and a driving motor 46 disposed at the center of the outer casing 41 and connected with the electrostatic cleaning head 43, a movable seat 44 is movably disposed in the sliding cavity 42, and a plug rod 45 movably inserted into the movable seat 44 is disposed on the outer side of the electrostatic cleaning head 43.

Referring to fig. 4 of the specification, the linkage mechanism 5 includes a driving chamber 51 disposed on the cleaning box 4, a first driving gear 53 and a second driving gear 57 axially connected in the driving chamber 51, a driving gear 52 meshed with the first driving gear 53, and a driven gear 56 meshed with the second driving gear 57, the driving gear 52 is disposed on a driving shaft of the driving motor 46, the driven gears and 56 are disposed on the rotating shaft 6, a sliding rail 54 is disposed on an inner side wall of the driving chamber 51, a sliding seat 55 is slidingly fitted on the sliding rail 54, a first driving rack 58 and a second driving rack 59 meshed with the first driving gear 53 and the second driving gear 57 are disposed at two ends of the sliding seat 55, the number of teeth of the first driving gear 53, the number of teeth of the second driving gear 57, the number of teeth of the driving gear 52, and the driven gear 56 are the same, and diameters of the driving gear 52 and the driven gear 56 are smaller than those of the first driving gear 53 and the second driving gear 57, respectively.

The number of teeth of the first transmission rack 58 and the second transmission rack 59 is 1/12-1/6 of the number of teeth of the first transmission gear 53 and the second transmission gear 57, respectively.

The specific operation process is that when the driving motor 46 is started, the driving linkage mechanism 5 drives the rotating shaft 6 to rotate, so that the cleaning box 4 moves to the outside of the monitoring device 2 in a directional manner, specifically

Firstly, according to the included angle between the central line of the monitoring equipment 2 and the cleaning box and the rotating shaft 6, the number of teeth of the first transmission rack 58 and the second transmission rack 59 is set to be compared with the number of teeth of the first transmission gear 53 and the second transmission gear 57, for example, the included angle between the central line of the monitoring equipment 2 and the cleaning box and the central line of the rotating shaft 6 is 60 degrees, and the number of teeth of the first transmission rack 58 and the second transmission rack 59 is 1/6 of the number of teeth of the first transmission gear 53 and the second transmission gear 57 respectively;

Subsequently, the driving motor 46 drives the driving gear 52 inside the driving chamber 51 to rotate and simultaneously drives the first driving gear 53 to rotate, so that a first driving rack 58 which is arranged on the sliding seat 55 and meshed with the first driving gear 53 is meshed with the first driving gear, the sliding seat 55 is horizontally moved for a certain distance along the sliding rail 54, the sliding seat 55 horizontally slides for a certain distance to stop due to the limit of the number of teeth of the first driving rack 58, meanwhile, a second driving rack 59 which is arranged at the other end of the sliding seat 55 contacts with and is meshed with the second driving gear 57, after the second driving gear 57 rotates, a driven gear 56 which is meshed with the second driving gear 57 correspondingly rotates, and the driven gear 56 is arranged on the rotating shaft 6, so that the cleaning box 4 connected with the driving chamber 51 is driven to rotate to the outer side of the monitoring device 2 at a fixed angle after the rotating shaft 6 rotates;

meanwhile, the driving motor 46 drives the electrostatic cleaning head 43 to rotate, because the electrostatic cleaning head 43 is eccentrically arranged on the outer shell 41, and the driving motor 46 is arranged at the outer center of the outer shell 41, when the driving motor 46 drives the connected electrostatic cleaning head 43 to rotate, the inserted link 45 at one end of the electrostatic cleaning head 43 is in sliding fit with the movable seat 44 movably arranged in the sliding cavity 42, in addition, the area swept by the electrostatic cleaning head 43 can just cover the whole outer shell 41, and when the cleaning box 4 moves to the outer side of the monitoring equipment 2 in an oriented manner, the cleaning box 4 just corresponds to the lens position of the monitoring equipment 2, so that dust removal on the lens of the monitoring equipment 2 is realized.

Example two

Referring to fig. 5 of the specification, on the basis of the first embodiment, the electrostatic cleaning head 43 includes a base 431 connected to a driving shaft of the driving motor 46, and a movable cover 432 movably fitted on the base 431, a through groove is formed on the movable cover 432, a adsorbing body 433 is formed on the through groove, a terminal 434 contacting with the adsorbing body 433 is clamped on an inner side of the movable cover 432, a plurality of spring dust collection electrodes 435 are uniformly arranged on the terminal 434, and an electrostatic generator 436 connected with the plurality of spring dust collection electrodes 435 is arranged in the base 431;

Specifically, the plurality of spring dust collection electrodes 435 are connected to the static generator 436, when the static generator 436 works, the plurality of spring dust collection electrodes 435 generate static electricity, the wiring terminal 434 is grounded, so that an electrostatic field is formed inside the base 431, when the driving motor 46 drives the base 431 to rotate, the adsorbing body 433 on the movable cover 432 contacts with the lens of the monitoring device 2 and dusts down dust, and under the action of the electrostatic field, the dust is firmly adsorbed on the adsorbing body 433, so that the cleaning effect is improved, the cleaned dust is also adsorbed and cannot be dispersed in the environment, in addition, the movable cover 432 can be movably arranged outside the base 431 through the plurality of spring dust collection electrodes 435, the distance between the cleaning box 4 and the lens of the monitoring device 2 can be effectively matched, and effective contact cleaning is ensured.

Example III

Referring to fig. 1 of the specification, on the basis of the second embodiment, the cleaning box 4 is further provided with a dust collecting assembly for collecting dust, and specifically includes a dust collecting fan 7 disposed at the outer side of the cleaning box 4, a dust collecting nozzle 8 disposed at a suction port of the dust collecting fan 7 and penetrating into the outer casing 41, and a dust collecting cylinder 9 mounted at the bottom of the dust collecting fan 7, and a photoelectric switch 10 matched with the dust collecting fan 7 is disposed on the support plate 1 and at the bottom of the dust collecting fan 7 opposite to the support plate for triggering the dust collecting fan 7 to start dust collecting operation.

Specifically, when the cleaning box 4 is opened to work, the driving linkage mechanism 5 drives the rotating shaft 6 to rotate, so that the cleaning box 4 moves to the outer side of the monitoring device 2 in a directional manner, because the supporting plate 1 and the bottom of the dust collection fan 7 opposite to the supporting plate are provided with the matched photoelectric switch 10, when the dust collection fan 7 on the cleaning box 4 moves along with the cleaning box, the photoelectric passage of the photoelectric switch 10 triggers the dust collection fan 7 to start dust collection work after breaking, when the electrostatic cleaning head 43 rotates in the outer shell 41 to clean the lens of the monitoring device 2, the dust absorbed on the electrostatic cleaning head 43 is sucked into the dust collection barrel 9 by the dust collection nozzle 8 by the suction force generated by the dust collection fan 7, so that the dust absorbed on the electrostatic cleaning head 43 can be collected intensively, and the lasting and effective cleaning effect of the electrostatic cleaning head 43 is ensured.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention.

Claims

1. The utility model provides an insulating on-line monitoring device of power equipment, includes universal seat (3), backup pad (1) of coupling in universal seat (3) one side and locates supervisory equipment (2) on backup pad (1), its characterized in that: the cleaning device is characterized in that a cleaning box (4) which is arranged side by side with the monitoring equipment (2) is arranged on the supporting plate (1), a rotating shaft (6) is connected onto the vertical central axis of the monitoring equipment (2) and the cleaning box (4) in a shaft way, and a linkage mechanism (5) which is in transmission connection with the rotating shaft (6) is arranged on the cleaning box (4);

When the cleaning box (4) is opened to work, the driving linkage mechanism (5) drives the rotating shaft (6) to rotate, so that the cleaning box (4) moves to the outer side of the monitoring equipment (2) in a directional manner to synchronously realize cleaning operation;

The cleaning box (4) comprises an outer shell (41) which is opened towards one side of the supporting plate (1), a sliding cavity (42) which is communicated with the outer shell (41), an electrostatic cleaning head (43) which is eccentrically arranged in the outer shell (41) and a driving motor (46) which is arranged at the center of the outer part of the outer shell (41) and connected with the electrostatic cleaning head (43), a movable seat (44) is movably arranged in the sliding cavity (42), a plug rod (45) which is movably inserted into the movable seat (44) is arranged outside the electrostatic cleaning head (43), and when the driving motor (46) drives the electrostatic cleaning head (43) which is connected to rotate, the plug rod (45) at one end of the electrostatic cleaning head (43) is in sliding fit with the movable seat (44) which is movably arranged in the sliding cavity (42);

The linkage mechanism (5) comprises a transmission chamber (51) arranged on the cleaning box (4), a first transmission gear (53) and a second transmission gear (57) which are connected in the transmission chamber (51) in a shaft way, a driving gear (52) meshed with the first transmission gear (53) and a driven gear (56) meshed with the second transmission gear (57), wherein the driving gear (52) is arranged on a driving shaft of the driving motor (46), the driven gear and the driven gear (56) are arranged on the rotating shaft (6), a sliding rail (54) is arranged on the inner side wall of the transmission chamber (51) and is in sliding fit with a sliding seat (55), a first transmission rack (58) and a second transmission rack (59) meshed with the first transmission gear (53) and the second transmission gear (57) are respectively arranged at two ends of the sliding seat (55), the diameters of the first transmission gear (53), the second transmission gear (57), the driving gear (52) and the driven gear (56) are the same, and the diameters of the driving gear (52) and the driven gear (56) are smaller than those of the first transmission gear (53) and the second transmission gear (57);

The number of teeth of the first transmission rack (58) and the second transmission rack (59) is 1/12-1/6 of the number of teeth of the first transmission gear (53) and the second transmission gear (57) respectively.

2. The on-line monitoring device for electrical equipment insulation according to claim 1, wherein: the static cleaning head (43) comprises a base (431) connected with a driving shaft of a driving motor (46) and a movable cover (432) movably embedded on the base (431), a through groove is formed in the movable cover (432), a adsorbing body (433) is arranged on the through groove, a wiring end (434) contacted with the adsorbing body (433) is clamped on the inner side of the movable cover (432), a plurality of spring dust collection electrodes (435) are uniformly arranged on the wiring end (434), and a static generator (436) connected with the spring dust collection electrodes (435) is arranged in the base (431).

3. The on-line monitoring device for electrical equipment insulation according to claim 1, wherein: the dust collection device is characterized in that a dust collection assembly used for collecting dust is further arranged outside the cleaning box (4), and the dust collection device specifically comprises a dust collection fan (7) arranged on the outer side of the cleaning box (4), a dust collection nozzle (8) arranged at a suction port of the dust collection fan (7) and penetrating into the outer shell (41) and a dust collection barrel (9) arranged at the bottom of the dust collection fan (7).

4. An electrical equipment insulation on-line monitoring device according to claim 3, characterized in that: the dust collection device is characterized in that a photoelectric switch (10) matched with the dust collection fan (7) is arranged on the support plate (1) and at the bottom of the dust collection fan (7) opposite to the support plate and used for triggering the dust collection fan (7) to start dust collection.

5. The on-line monitoring device for electrical equipment insulation according to claim 1, wherein: the monitoring equipment (2) comprises a monitoring host (21) arranged on the supporting plate (1), a control box (22) arranged on the setting and monitoring host (21), a battery box (23) and a wireless transceiver (24), wherein the battery box (23) is arranged on the monitoring host (21) and is electrically connected with the control box (22), and the monitoring host (21) is in communication connection with the total monitoring platform through the wireless transceiver (24).