A monitoring device for power line operation and maintenance

By designing connection and auxiliary mechanisms, the space occupation problem of all-weather monitoring devices for power line operation and maintenance during transportation is solved, realizing convenient disassembly and stable connection, and is suitable for all-weather monitoring of power line operation and maintenance.

CN224470008UActive Publication Date: 2026-07-07

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-09-11
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing all-weather monitoring devices for power line maintenance are not detachable, resulting in them taking up a lot of space and being inconvenient to store during transport.

Method used

A connection mechanism including a monitoring unit and a support frame is designed. Through the combination of fixed columns, positioning blocks, insertion blocks, locking blocks, rotating blocks and auxiliary mechanisms, the monitoring unit and the support frame can be easily connected and separated. The stability and convenience of the connection are ensured by the cooperation of positioning grooves and torsion springs.

Benefits of technology

It achieves high efficiency and convenience in space utilization during the transportation of monitoring devices, ensures the stability and ease of disassembly of monitoring devices during connection, and is suitable for the all-weather monitoring needs of power line operation and maintenance.

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Abstract

The utility model provides a kind of monitoring device for electric power line operation and maintenance, it is related to the technical field of monitoring device for electric power line operation and maintenance, and it includes: monitoring mechanism, the monitoring mechanism includes monitoring body, the side surface of monitoring body is equipped with support frame, the connecting place of monitoring body and support frame is equipped with connecting mechanism, the connecting mechanism includes fixed column, one end of the fixed column is equipped with connecting block, the side surface of connecting block is fixedly connected with locating block.The utility model, by setting connecting mechanism, so that the monitoring body of monitoring mechanism and support frame can be conveniently connected and separated, so that there is no higher requirement for the storage space of running equipment when transferring monitoring mechanism, so that the storage and transfer of monitoring mechanism can be more convenient.
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Description

Technical Field

[0001] This utility model relates to the technical field of monitoring devices for power line operation and maintenance, and in particular to a monitoring device for power line operation and maintenance. Background Technology

[0002] Monitoring refers to the process of monitoring, observing, and controlling a specific object. The purpose is to obtain relevant information in a timely manner to ensure that the object is in a normal, safe, and efficient state, or to quickly detect and take appropriate measures when problems occur.

[0003] Existing all-weather monitoring systems for power line maintenance consist of monitoring components and support components, which are connected by support columns. This type of all-weather monitoring system is an integrated unit that cannot be disassembled. Consequently, transporting this all-weather monitoring system for power line maintenance occupies a large amount of space in the transport equipment and requires more storage space. Therefore, the inconvenience of using non-detachable all-weather monitoring systems is a problem. To address this, we provide a monitoring device for power line maintenance. Summary of the Invention

[0004] The purpose of this invention is to address the shortcomings of existing power line maintenance monitoring devices, which cannot be disassembled and transported, by providing a monitoring device for power line maintenance.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a monitoring device for power line operation and maintenance, comprising: a monitoring mechanism, the monitoring mechanism including a monitoring body, a support frame provided on one side of the monitoring body, a connecting mechanism provided at the connection between the monitoring body and the support frame, the connecting mechanism including a fixed column, a connecting block provided at one end of the fixed column, a positioning block fixedly connected to one side of the connecting block, two positioning blocks, an insert block fixedly connected to one side of the positioning block, a slot provided on the insert block, a locking block sleeved inside the insert block, the locking block rotatably connected to the insert block, a rotating block fixedly connected to one end of the locking block, the rotating block sleeved inside the fixed column, an auxiliary mechanism provided at one end of the fixed column, the auxiliary mechanism including a sleeve, a torsion spring provided on the inner side of the sleeve.

[0006] In a preferred embodiment, the fixed column is fixedly connected to the support frame, the connecting block is fixedly connected to the monitoring body, the rotating block is rotatably connected to the inner wall of the fixed column, a connecting rod is sleeved inside the fixed column, the connecting rod is rotatably connected to the fixed column, the connecting rod is fixedly connected to the rotating block, and a rotating groove that matches the connecting rod is provided on the fixed column.

[0007] In a preferred embodiment, the sleeve is fitted onto the outer surface of the fixed post, the sleeve is rotatably connected to the fixed post, and the torsion spring is fitted onto the outer surface of the fixed post.

[0008] In a preferred embodiment, the two ends of the torsion spring are respectively fixedly connected to the outer surface of the fixing post and the inner wall of the sleeve. A connecting piece is sleeved on the outer surface of the fixing post, and the connecting piece is fixedly connected to the fixing post.

[0009] In a preferred embodiment, a second connecting piece is fitted onto the outer surface of the sleeve, the second connecting piece being fixedly connected to the sleeve and the connecting rod.

[0010] In a preferred embodiment, an embedded block is fitted inside the connecting piece one, and the embedded block is rotatably connected to the connecting piece one.

[0011] In a preferred embodiment, the embedded block is fixedly connected to the connecting piece two, and a screw block is fixedly connected to the outer surface of the sleeve.

[0012] Compared with the prior art, the advantages and positive effects of this utility model are as follows: By setting a connecting mechanism, the monitoring body and support frame of the monitoring mechanism can be easily connected and separated. Therefore, when the monitoring mechanism is transferred, there is no high requirement for the storage space of the operating equipment, making the storage and transfer of the monitoring mechanism more convenient. By setting a positioning block and opening a positioning groove inside the fixed column that matches the positioning block, the insertion block can be positioned and installed under the action of the positioning block, so that the position of the insertion block when entering the fixed column can be kept appropriate. By setting an auxiliary mechanism, which can be used in conjunction with the connecting mechanism, the connecting rod in the connecting mechanism can be rotated and moved, thereby adjusting the position of the locking block and the rotating block. Attached Figure Description

[0013] Figure 1 A perspective view of a power line operation and maintenance monitoring device provided by this utility model.

[0014] Figure 2 This is a schematic diagram showing the disassembled state of a power line operation and maintenance monitoring device provided by this utility model.

[0015] Figure 3 This is a split diagram of the connection mechanism of a power line operation and maintenance monitoring device provided by this utility model.

[0016] Figure 4 This utility model provides a schematic diagram of the card block installation for a power line operation and maintenance monitoring device.

[0017] Figure 5This utility model provides a schematic diagram of the installation of a rotating block for a power line operation and maintenance monitoring device.

[0018] Figure 6 A schematic diagram of the torsion spring installation for a power line operation and maintenance monitoring device provided by this utility model.

[0019] Legend: 1. Monitoring mechanism; 2. Connecting mechanism; 3. Auxiliary mechanism; 11. Monitoring body; 12. Support frame; 21. Fixed column; 22. Connecting block; 23. Positioning block; 24. Inserting block; 25. Slot; 26. Locking block; 27. Rotating block; 28. Connecting rod; 29. ​​Rotating groove; 31. Sleeve; 32. Torsion spring; 33. Connecting piece one; 34. Connecting piece two; 35. Embedding block; 36. Tightening block. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] Example 1

[0022] like Figures 1-6 As shown, this utility model provides a technical solution: a monitoring device for power line operation and maintenance, comprising: a monitoring mechanism 1, the monitoring mechanism 1 including a monitoring body 11, a support frame 12 provided on one side of the monitoring body 11, a connecting mechanism 2 provided at the connection between the monitoring body 11 and the support frame 12, the connecting mechanism 2 including a fixing column 21, a connecting block 22 provided at one end of the fixing column 21, a positioning block 23 fixedly connected to one side of the connecting block 22, the number of positioning blocks 23 being two, an insert block 24 fixedly connected to one side of the positioning block 23, a slot 25 provided on the insert block 24, and a locking block 26 sleeved inside the insert block 24. The locking block 26 is rotatably connected to the insert block 24. One end of the locking block 26 is fixedly connected to the rotating block 27. The rotating block 27 is sleeved inside the fixing post 21. One end of the fixing post 21 is provided with an auxiliary mechanism 3. The auxiliary mechanism 3 includes a sleeve 31. The inner side of the sleeve 31 is provided with a torsion spring 32. The fixing post 21 is fixedly connected to the support frame 12. The connecting block 22 is fixedly connected to the monitoring body 11. The rotating block 27 is rotatably connected to the inner wall of the fixing post 21. A connecting rod 28 is sleeved inside the fixing post 21. The connecting rod 28 is rotatably connected to the fixing post 21. The connecting rod 28 is fixedly connected to the rotating block 27. The fixing post 21 is provided with a rotating groove 29 that fits with the connecting rod 28.

[0023] In this embodiment, by setting a positioning block 23 and having a positioning groove inside the fixing column 21 that matches the positioning block 23, the insertion block 24 can be positioned and installed under the action of the positioning block 23, so that the position of the insertion block 24 when it enters the fixing column 21 can be kept appropriate. At the same time, a slot 25 is opened on the insertion block 24, and the slot 25 matches the size of the slot 26, so that the slot 26 can rotate into the interior of the insertion block 24. When the slot 25 is stable, it can limit the insertion block 24, so that the insertion block 24 will not detach from the fixing column 21. Thus, the support frame 12 and the monitoring body 11 can be stably connected with the cooperation of the connecting mechanism 2. A rotating block 27 is set, and the rotating block 27 can contact the inner wall of the fixing column 21 and rotate and move inside the fixing column 21. Thus, the rotating block 27 can drive the slot 26 to rotate and move simultaneously under the action of the connecting rod 28, so that the slot 26 can detach from the insertion block 24.

[0024] Example 2

[0025] like Figures 1-6 As shown, sleeve 31 is fitted onto the outer surface of fixed post 21, and sleeve 31 is rotatably connected to fixed post 21. Torsion spring 32 is fitted onto the outer surface of fixed post 21, and both ends of torsion spring 32 are fixedly connected to the outer surface of fixed post 21 and the inner wall of sleeve 31, respectively. Connecting piece 1 33 is fitted onto the outer surface of fixed post 21, and connecting piece 1 33 is fixedly connected to fixed post 21. Connecting piece 2 34 is fitted onto the outer surface of sleeve 31, and connecting piece 2 34 is fixedly connected to sleeve 31 and connecting rod 28. Embedded block 35 is fitted inside connecting piece 1 33, and embedded block 35 is rotatably connected to connecting piece 1 33. Embedded block 35 is fixedly connected to connecting piece 2 34. Tightening block 36 is fixedly connected to the outer surface of sleeve 31.

[0026] In this embodiment, by setting an auxiliary mechanism 3, which can be used in conjunction with the connecting mechanism 2, the connecting rod 28 in the connecting mechanism 2 can be rotated and moved, thereby adjusting the position of the locking block 26 and the rotating block 27. A sleeve 31 is set, and when the sleeve 31 rotates, its inner wall can pull the torsion spring 32 to deform, thereby generating elastic force. When the torsion spring 32 returns to its original position, it can automatically reset the sleeve 31 and other components. An insert block 35 is set, and the insert block 35 can rotate inside the connecting piece 1 33. Thus, the connecting piece 2 34 and the insert block 35 can guide the sleeve 31, so that the rotation of the sleeve 31 can remain stable.

[0027] Working principle:

[0028] like Figures 1-6As shown, in use, the monitoring body 11 and the support frame 12 can be transported separately. When it is necessary to connect the two, the screw block 36 can be rotated, which drives the sleeve 31 to rotate. When the sleeve 31 rotates, it drives the connecting piece 2 34 to rotate. The connecting piece 2 34 drives the embedded block 35 to rotate in the annular groove opened inside the connecting piece 1 33. Thus, the sleeve 31 can rotate stably and pull the torsion spring 32 to deform, so that the torsion spring 32 generates elastic force. At the same time, when the sleeve 31 drives the connecting piece 2 34 to rotate, it also drives the connecting rod 28 to rotate in the rotation groove 29 opened on the fixed column 21. The connecting rod 28 can simultaneously drive the rotating block 27 and the locking block 26 inside the fixed column 21 until the connecting rod... 28 can no longer rotate. Then, the monitoring body 11 drives the connecting block 22 and positioning block 23 to move, so that the positioning block 23 and the insert block 24 can enter the interior of the fixed column 21. The positioning block 23 fits into the positioning groove opened in the fixed column 21. Thus, when the connecting block 22 is in contact with the fixed column 21, the insert block 24 can be in a suitable position inside the fixed column 21. Then, the screw block 36 is loosened, and the elastic force of the torsion spring 32 can be released instantly, and the sleeve 31, connecting rod 28, rotating block 27 and locking block 26 are automatically reset, so that the locking block 26 can be tightly locked into the locking groove 25 opened on the insert block 24. Thus, the monitoring body 11 and the support frame 12 can be in a stable connection state, so that the power line maintenance site can be monitored around the clock.

[0029] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.

Claims

1. A monitoring device for power line operation and maintenance, characterized in that, include: A monitoring mechanism (1) includes a monitoring body (11), a support frame (12) on one side of the monitoring body (11), a connecting mechanism (2) at the connection between the monitoring body (11) and the support frame (12), the connecting mechanism (2) including a fixing column (21), a connecting block (22) at one end of the fixing column (21), a positioning block (23) fixedly connected to one side of the connecting block (22), and two positioning blocks (23). A plug (24) is fixedly connected to the side. A slot (25) is provided on the plug (24). A locking block (26) is sleeved inside the plug (24). The locking block (26) is rotatably connected to the plug (24). A rotating block (27) is fixedly connected to one end of the locking block (26). The rotating block (27) is sleeved inside the fixed post (21). An auxiliary mechanism (3) is provided at one end of the fixed post (21). The auxiliary mechanism (3) includes a sleeve (31). A torsion spring (32) is provided on the inner side of the sleeve (31).

2. The power line operation and maintenance monitoring device according to claim 1, characterized in that: The fixed column (21) is fixedly connected to the support frame (12), the connecting block (22) is fixedly connected to the monitoring body (11), the rotating block (27) is rotatably connected to the inner wall of the fixed column (21), the fixed column (21) is fitted with a connecting rod (28), the connecting rod (28) is rotatably connected to the fixed column (21), the connecting rod (28) is fixedly connected to the rotating block (27), and the fixed column (21) is provided with a rotating groove (29) that matches the connecting rod (28).

3. The power line operation and maintenance monitoring device according to claim 1, characterized in that: The sleeve (31) is fitted onto the outer surface of the fixed post (21), the sleeve (31) is rotatably connected to the fixed post (21), and the torsion spring (32) is fitted onto the outer surface of the fixed post (21).

4. A monitoring device for power line operation and maintenance according to claim 3, characterized in that: The two ends of the torsion spring (32) are fixedly connected to the outer surface of the fixed post (21) and the inner wall of the sleeve (31), respectively. A connecting piece (33) is sleeved on the outer surface of the fixed post (21), and the connecting piece (33) is fixedly connected to the fixed post (21).

5. A monitoring device for power line operation and maintenance according to claim 4, characterized in that: The outer surface of the sleeve (31) is fitted with a connecting piece two (34), the connecting piece two (34) is fixedly connected to the sleeve (31), and the connecting piece two (34) is fixedly connected to the connecting rod (28).

6. A monitoring device for power line operation and maintenance according to claim 5, characterized in that: An embedded block (35) is fitted inside the connecting piece 1 (33), and the embedded block (35) is rotatably connected to the connecting piece 1 (33).

7. A monitoring device for power line operation and maintenance according to claim 6, characterized in that: The embedded block (35) is fixedly connected to the connecting piece 2 (34), and the outer surface of the sleeve (31) is fixedly connected to the screw block (36).