CN215581411U - Distribution network running state monitoring device - Google Patents

Abstract

The utility model relates to a power distribution network operation state monitoring device, and belongs to the technical field of power distribution network operation detection equipment. The power distribution network running state monitoring device comprises a base, a connecting clamping piece, an adjusting mechanism, a protective cover, a camera probe and a cleaning motor; a plurality of connecting clamping pieces are symmetrically arranged below the base; the base is provided with an adjusting mechanism; the top end of the adjusting mechanism is provided with a protective cover with an opening at the side edge; a camera probe is arranged in the protective cover through the rotating column; a soft cleaning layer is arranged on the inner wall of the protective cover around the camera probe; the rotating column is provided with a driven gear; a driving gear is arranged in the protective cover at one side of the driven gear through a cleaning motor. The power distribution network running state monitoring device is compact in structure and ingenious in design, solves the problems that an existing power distribution network running state monitoring device is lack of a self-cleaning function and low in adjustment efficiency, and is particularly suitable for being used for monitoring the running state of a power distribution network.

Description

Distribution network running state monitoring device

Technical Field

The utility model relates to a power distribution network operation state monitoring device, and belongs to the technical field of power distribution network operation detection equipment.

Background

In the field of power distribution network operation, people often use cameras to monitor the operation state of a power distribution network in the process of power distribution network operation. The monitoring device that current detection device was disclosed like the utility model patent of grant publication number CN 208687305U, it can satisfy the needs of distribution network operation monitoring to a certain extent, but it has following problem.

1. The existing monitoring device lacks a camera cleaning function, and the problem of monitoring quality reduction caused by camera dust covering can occur after the existing monitoring device is used for a period of time.

2. The existing monitoring device adopts the mode that the camera part is hinged on the base to assemble, after the existing monitoring device is installed, the existing monitoring device can only manually adjust the range of the camera part which can move at the hinged point, and the aim of adjusting the position of the camera can be achieved only by adjusting the position of the base in the other direction. There are problems in that the adjustment procedure is complicated and the adjustment efficiency is low.

Therefore, there is a need to develop a new monitoring device to solve the above problems existing in the existing power distribution network operation state monitoring device.

Disclosure of Invention

The utility model aims to: the utility model provides a compact structure, design benefit to solve current distribution network running state monitoring devices and lack the distribution network running state monitoring devices of "self-cleaning function" and "adjustment inefficiency" problem.

The technical scheme of the utility model is as follows:

a power distribution network running state monitoring device comprises a base, a connecting clamping piece, an adjusting mechanism, a protective cover, a camera probe and a cleaning motor; the method is characterized in that: a plurality of connecting clamping pieces are symmetrically arranged below the base; the base is provided with an adjusting mechanism; the top end of the adjusting mechanism is provided with a protective cover with an opening at the side edge; a camera probe is arranged in the protective cover through the rotating column; a soft cleaning layer is arranged on the inner wall of the protective cover around the camera probe; the rotating column is provided with a driven gear; a driving gear is arranged in the protective cover at one side of the driven gear through a cleaning motor; the driving gear is meshed with the driven gear.

The adjusting mechanism comprises a half gear disc A, a half gear disc B, a driving gear A, a driving gear B, a vertical plate A, a vertical plate B and a supporting column; a half gear disc A is movably arranged on the base through a vertical plate A and a rotating pin; a driving gear A is arranged on the base on one side of the half gear disc A through a motor; the driving gear A is meshed with the half gear disc A; the half gear disc A is movably provided with a half gear disc B through a vertical plate B and a rotating pin; the half gear disc B and the half gear disc A are arranged in a cross shape; a driving gear B is arranged on the half gear disc A on one side of the half gear disc B through a motor; the driving gear B is meshed with the half gear disc B; a support column is fixedly arranged on the half gear plate B; the protective cover is fixedly arranged on the supporting column.

The connecting clamping piece comprises a pressing plate, a locking nut, a pressing fork and a connecting screw rod; the base is movably provided with a connecting screw rod; one end of the connecting screw rod is connected with a locking nut in a threaded manner; the other end of the connecting screw rod is fixedly provided with a pressing fork; one end of the compression fork is provided with a pressure plate through two groups of symmetrically arranged bolts.

The utility model has the advantages that:

this distribution network running state monitoring devices, compact structure, design benefit can multi-angle automatic adjustment camera probe's position, and have the function of clean camera probe camera lens, have solved current distribution network running state monitoring devices from this and have lacked "self-cleaning function" and the problem of "adjustment inefficiency", are particularly suitable for the use of distribution network running state monitoring.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the structure in the direction B-B in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

fig. 5 is an enlarged schematic view of the structure at D in fig. 2.

In the figure: 1. a base; 2. connecting clamping pieces; 3. an adjustment mechanism; 4. a protective cover; 5. a spin column; 6. a camera probe; 7. a soft cleaning layer; 8. a driven gear; 9. cleaning the motor; 10. a driving gear; 11. a vertical plate A; 12. a half-gear disc A; 13. driving a gear A; 14. a vertical plate B; 15. a half-gear disc B; 16. driving the gear B; 17. a support pillar; 18. connecting a screw rod; 19. locking the nut; 20. a compression fork; 21. a bolt; 22. and (7) pressing a plate.

Detailed Description

The power distribution network running state monitoring device comprises a base 1, a connecting clamping piece 2, an adjusting mechanism 3, a protective cover 4, a camera probe 6 and a cleaning motor 9 (see the attached figures 1 and 2 in the specification).

A plurality of connecting clamping pieces 2 are symmetrically arranged below the base 1 (see the attached figures 1 and 2 in the specification); the connecting clamping piece 2 comprises a pressure plate 22, a locking nut 19, a pressing fork 20 and a connecting screw rod 18 (see the attached figure 4 in the specification).

The base 1 is movably provided with a connecting screw 18; one end of the connecting screw rod 18 is connected with a locking nut 19 through threads; the other end of the connecting screw rod 18 is fixedly provided with a pressing fork 20; one end of the pressing fork 20 is provided with a pressing plate 22 through two groups of symmetrically arranged bolts 21 (see the description and the attached figure 4). During assembly, the pressing fork 20 is connected with a fixed support on the power distribution network under the matching of the pressing plate 22 and the bolt 21; after the pressing fork 20 and the pressing plate 22 are fixedly connected with the fixing support columns on the power distribution network, the base 1 can be fixedly assembled with the fixing support columns on the power distribution network through the pressing fork 20 and the pressing plate 22 by tightening the locking nut 19.

The base 1 is provided with an adjusting mechanism 3 (see the attached figures 1 and 2 of the specification); the adjusting mechanism 3 comprises a half gear disc A12, a half gear disc B15, a driving gear A13, a driving gear B16, a vertical plate A11, a vertical plate B14 and a supporting column 17 (see the attached figures 1 and 2 in the specification).

A half gear disc A12 (refer to the attached figure 1 of the specification) is movably arranged on the base 1 through a vertical plate A11 and a rotating pin; a driving gear A13 is arranged on the base 1 at one side of the half gear disk A12 through a motor; the driving gear A13 is in meshed connection with the half gear plate A12. When the motor drives the driving gear A13 to rotate, the driving gear A13 can drive the half gear disc A12 to move back and forth around the rotating pin.

A half gear disc B15 is movably arranged on the half gear disc A12 through a vertical plate B14 and a rotating pin; (see the description accompanying figures 1 and 2). A half gear disk A12 at one side of the half gear disk B15 is provided with a driving gear B16 through a motor; the driving gear B16 is in meshed connection with the half gear plate B15; when the motor drives the driving gear B16 to rotate, the half gear plate B15 can be driven to rotate back and forth around the rotating pin.

Half-gear dish B15 is "cross form" setting with half-gear dish A12, so sets up half-gear dish B15 and the aim at of half-gear dish A12: so that in operation, half-wheel a12 can rotate back and forth in the transverse direction, while half-wheel B15 can rotate back and forth in the longitudinal direction; therefore, the position of the camera probe 6 can be adjusted in multiple directions by rotating the half gear disk A12 and the half gear disk B15 during operation.

A supporting column 17 is fixedly arranged on the half gear plate B15; the protective cover 4 with an opening at the side edge is fixedly arranged on the supporting column 17. A camera probe 6 is arranged in the protective cover 4 through a rotating column 5 (see the attached figure 3 in the specification); when the rotary column 5 rotates, the camera probe 6 can be driven to synchronously rotate.

The rotating column 5 is provided with a driven gear 8; a driving gear 10 is arranged in the protective cover 4 at one side of the driven gear 8 through a cleaning motor 9; the driving gear 10 is meshed with the driven gear 8 (see the description and the attached figure 3). When the cleaning motor 9 drives the driving gear 10 to rotate, the driving gear 10 can drive the rotary column 5 and the camera probe 6 to synchronously rotate through the driven gear 8.

A soft cleaning layer 7 is arranged on the inner wall of the protective cover 4 around the camera probe 6 (see the attached figure 5 in the specification); when the camera probe 6 rotates to contact with the soft cleaning layer 7, the soft cleaning layer 7 can clean dust on the lens of the camera probe 6 in a wiping mode, and therefore the purpose of cleaning the camera probe 6 can be achieved.

All kinds of motors that use in this application are the motor of taking the band-type brake function, so when the motor in this application stops motionless, it can automatic locking to lead to the emergence that guiding mechanism 3 can not the design problem when having avoided its free motion.

When the position of the camera probe 6 needs to be adjusted during operation, the power distribution network operation state monitoring device starts the driving gear A13 to drive the half gear disc A12 to rotate around the rotating pin. When the half gear disc A12 drives the half gear disc B15, the support column 17 and the cleaning camera probe 6 to move to the proper transverse position, the action is stopped. Then the motor drives a half gear disc B15 to rotate through a driving gear B16; the half gear disc B15 drives the support column 17 and the camera probe 6 to move to the proper longitudinal position and then stop acting. Therefore, the monitoring device can achieve the purpose of automatically adjusting the position of the camera probe 6.

When the monitoring quality is reduced due to the fact that the lens of the camera probe 6 is covered with dust, the cleaning motor 9 drives the driving gear 10; the driving gear 10 drives the rotating column 5 and the camera probe 6 to synchronously rotate 180 degrees through the driven gear 8, and then the rotating column and the camera probe are reversely reset; when the camera probe 6 rotates to contact with the soft cleaning layer 7 in the process, the soft cleaning layer 7 can clean dust on the lens of the camera probe 6 in a wiping mode, so that the aim of cleaning the camera probe 6 can be fulfilled.

This distribution network running state monitoring devices, compact structure, design benefit can 6 positions of multi-angle automatic adjustment camera probe, and have the function of clean camera probe 6 camera lens, have solved current distribution network running state monitoring devices from this and have lacked "self-cleaning function" and the problem of "adjustment inefficiency", are particularly suitable for the use of distribution network running state monitoring.

Claims (3)

1. A power distribution network running state monitoring device comprises a base (1), a connecting clamping piece (2), an adjusting mechanism (3), a protective cover (4), a camera probe (6) and a cleaning motor (9); the method is characterized in that: a plurality of connecting clamping pieces (2) are symmetrically arranged below the base (1); the base (1) is provided with an adjusting mechanism (3); the top end of the adjusting mechanism (3) is provided with a protective cover (4) with an opening at the side edge; a camera probe (6) is arranged in the protective cover (4) through a rotating column (5); a soft cleaning layer (7) is arranged on the inner wall of the protective cover (4) at the periphery of the camera probe (6); a driven gear (8) is arranged on the rotating column (5); a driving gear (10) is arranged in the protective cover (4) at one side of the driven gear (8) through a cleaning motor (9); the driving gear (10) is meshed with the driven gear (8).

2. The power distribution network operation state monitoring device according to claim 1, characterized in that: the adjusting mechanism (3) comprises a half gear disc A (12), a half gear disc B (15), a driving gear A (13), a driving gear B (16), a vertical plate A (11), a vertical plate B (14) and a supporting column (17); a half gear disc A (12) is movably arranged on the base (1) through a vertical plate A (11) and a rotating pin; a driving gear A (13) is arranged on the base (1) at one side of the half gear disc A (12) through a motor; the driving gear A (13) is meshed with the half gear disc A (12); a half gear disc B (15) is movably arranged on the half gear disc A (12) through a vertical plate B (14) and a rotating pin; the half gear disc B (15) and the half gear disc A (12) are arranged in a cross shape; a driving gear B (16) is arranged on the half gear disc A (12) at one side of the half gear disc B (15) through a motor; the driving gear B (16) is meshed with the half gear disc B (15); a supporting column (17) is fixedly arranged on the half gear plate B (15); the protective cover (4) is fixedly arranged on the supporting column (17).

3. The power distribution network operation state monitoring device according to claim 1, characterized in that: the connecting clamping piece (2) comprises a pressing plate (22), a locking nut (19), a pressing fork (20) and a connecting screw rod (18); a connecting screw rod (18) is movably arranged on the base (1); one end of the connecting screw rod (18) is connected with a locking nut (19) in a threaded manner; the other end of the connecting screw rod (18) is fixedly provided with a pressing fork (20); one end of the pressing fork (20) is provided with a pressing plate (22) through two groups of symmetrically arranged bolts (21).

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