A cable temporary support device for power engineering laying
By using a threaded adjustment rod and a magnetic connection structure, the problems of inaccurate horizontal adjustment of cable support devices and low efficiency of traditional fixing methods in power engineering are solved. This enables fast and accurate bracket fixing, reduces the risk of tipping over, and improves construction efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LIAOCHENG ELECTRIC POWER HUACHANG IND GENERAL CO
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-16
AI Technical Summary
Existing temporary cable support devices for power engineering cannot be precisely adjusted to a horizontal state. Uneven stress over a long period of time may cause the center of gravity of the support to shift, increasing the risk of tipping over. In addition, traditional fixing methods are inefficient.
It adopts a threaded adjustment rod and magnetic connection structure. The axial extension and retraction adjustment of the bracket is achieved through threaded engagement, and the magnetic attraction of the magnetic block and the spirit level is used to achieve quick and accurate horizontal fixation, avoiding the problems of misalignment and lack of tools caused by traditional screw fixation.
It enables rapid and precise leveling of the support structure, reduces the risk of tipping over, improves construction efficiency and accuracy, and simplifies the operation process.
Smart Images

Figure CN224367483U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of power engineering laying, specifically a temporary cable support device for power engineering laying. Background Technology
[0002] In power engineering construction, temporary cable support is a key link to ensure construction safety and efficiency. Whether it is the pulling of overhead cables, the laying of underground pipe corridors, or the wiring in substations, temporary devices are needed to fix the cables in specific positions to prevent them from dragging on the ground or getting tangled. Therefore, a temporary cable support device for power engineering laying is needed.
[0003] Existing temporary cable support devices for power engineering installations rely solely on visual inspection of the support's fit to the ground or the cable's sag direction to determine their horizontal status. This can lead to uneven stress over time, causing the support's center of gravity to shift and increasing the risk of tipping over. Furthermore, these devices are not easy to adjust to ground unevenness. Therefore, there is an urgent need for a new type of temporary cable support device for power engineering installations. Utility Model Content
[0004] Based on this, the purpose of this utility model is to provide a temporary support device for cable laying in power engineering, so as to solve the problem that the existing temporary support devices for cable laying in power engineering can only be judged by visually observing the fit between the support and the ground or the downward direction of the cable. The uneven force over a long period of time may cause the center of gravity of the support to shift, increasing the risk of tipping over, and it is not convenient to adjust the level according to the unevenness of the ground.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a temporary cable support device for power engineering laying, comprising a support bracket, a first rotating rod installed on the inner wall of the support bracket, a connecting rod installed on the outer wall of the first rotating rod, a second rotating rod installed at one end of the connecting rod, a connecting block installed on the outer wall of the second rotating rod, and an adjusting rod fixedly connected to the inner wall of the support bracket.
[0006] A third rotating rod is installed at one end of the support bracket. A support platform is installed on the outer wall of the third rotating rod. A first magnetic block is adhered to the inner wall of the support platform. A second magnetic block is attached to the outer wall of the first magnetic block. A spirit level is adhered to the outer wall of the second magnetic block. A cable sleeve is installed on the inner wall of the support platform.
[0007] Preferably, the connecting rod forms a rotating structure with the support bracket via a first rotating rod, and the inner wall of the connecting rod has an open design.
[0008] Preferably, the second rotating rod is movably connected to the connecting block, and the second rotating rod is arranged in a ring array on the inner wall of the connecting block.
[0009] Preferably, the adjusting rod is threadedly connected to the support bracket, and the outer wall of the adjusting rod is threaded.
[0010] Preferably, the inner wall of the support platform is in close contact with the outer wall of the first magnet, and the diameter of the inner wall of the support platform is larger than the diameter of the outer wall of the first magnet.
[0011] Preferably, the outer wall of the second magnetic block is in close contact with the outer wall of the level bubble, and the diameter of the outer wall of the second magnetic block is the same as the diameter of the outer wall of the level bubble.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] 1. This utility model uses a support bracket to adjust the adjusting rod via a threaded mechanism. The support bracket and the adjusting rod are connected by threads to form an adjustment unit. The corresponding connection part of the support bracket is provided with an internal threaded hole, and the rod body of the adjusting rod is machined with an external thread. The two achieve axial extension and retraction by rotating the adjusting rod. According to the tilt direction, the adjusting rod at the corresponding position is rotated. If the right support leg is suspended, the right adjusting rod is rotated clockwise to extend it downward until the support leg is firmly in contact with the ground. If the left support leg is sunk, the left adjusting rod is rotated counterclockwise to shorten it upward, raising the height of the left side of the bracket.
[0014] 2. This utility model uses a support platform to ensure a tight fit between the first magnetic block and the support platform. The support platform, serving as the installation reference component, has a smoothed surface. The first magnetic block is firmly bonded to the preset position on the support platform using high-strength industrial adhesive. The contact surfaces are seamless and secure, not only withstanding the weight of the bubble level and minor vibrations but also preventing displacement of the first magnetic block due to long-term use. This provides a stable foundation for subsequent magnetic connections. The bottom of the bubble level's outer shell is also fixed to a second magnetic block using adhesive. The size and magnetic pole direction of the second magnetic block match those of the first magnetic block. When installing the bubble level, simply align the second magnetic block with the first magnetic block, and they will automatically attract and adhere due to magnetic force, achieving immediate stability. The rapid assembly requires no tools. The installer simply holds the bubble level and places the side with the second magnet close to the first magnet on the support platform. The magnetic attraction is sufficient to fix the device in place. Even first-time users can easily complete the process, avoiding delays caused by misalignment or lack of tools when using traditional screw fixation. After the bubble level is installed, the air bubble inside will move with the tilt of the device. The installer can directly observe the position of the air bubble and quickly determine whether the device is level. This method is intuitive and highly accurate, avoiding subjective misjudgment. Attached Figure Description
[0015] Figure 1 This is a perspective view of the present utility model;
[0016] Figure 2 This is a structural schematic diagram of the present invention viewed from a height and disassembled.
[0017] Figure 3 This is a structural schematic diagram of the support bracket part of this utility model;
[0018] Figure 4 This utility model Figure 2 Enlarged structural diagram of section A in the middle.
[0019] In the diagram: 1. Support bracket; 2. First rotating rod; 3. Connecting rod; 4. Second rotating rod; 5. Connecting block; 6. Adjusting rod; 7. Third rotating rod; 8. Support platform; 9. First magnetic block; 10. Second magnetic block; 11. Spirit level; 12. Cable sleeve. Detailed Implementation
[0020] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.
[0021] The embodiments of this utility model will be described below based on its overall structure.
[0022] Please see Figure 1-4 A temporary cable support device for power engineering laying includes a support bracket 1. A first rotating rod 2 is installed on the inner wall of the support bracket 1, and a connecting rod 3 is installed on the outer wall of the first rotating rod 2. The connecting rod 3 forms a rotating structure with the support bracket 1 through the first rotating rod 2, and the inner wall of the connecting rod 3 is designed with an opening. A second rotating rod 4 is installed at one end of the connecting rod 3, and a connecting block 5 is installed on the outer wall of the second rotating rod 4. The second rotating rod 4 is movably connected to the connecting block 5, and the second rotating rod 4 is arranged in a ring array on the inner wall of the connecting block 5. An adjusting rod 6 is fixedly connected to the inner wall of the support bracket 1, and the adjusting rod 6 is threadedly connected to the support bracket 1. The outer wall of the rod 6 is threaded. The support bracket 1 is used to adjust the rod 6. The support bracket 1 and the rod 6 are threaded to form an adjustment unit. The corresponding connection part of the support bracket 1 is provided with an internal threaded hole. The rod body of the rod 6 is machined with an external thread. The two achieve axial extension and retraction by rotating the rod 6. According to the tilt direction, the corresponding position of the rod 6 is rotated. If the right support leg is suspended, the right adjustment rod 6 is rotated clockwise to extend it downward until the support leg is firmly in contact with the ground. If the left support leg is sunk, the left adjustment rod 6 is rotated counterclockwise to shorten it upward and raise the height of the left side of the support.
[0023] Please see Figure 1-4A temporary cable support device for power engineering laying includes a support bracket 1 with a third rotating rod 7 installed at one end. A support platform 8 is installed on the outer wall of the third rotating rod 7. A first magnetic block 9 is adhered to the inner wall of the support platform 8, and the inner wall of the support platform 8 is in close contact with the outer wall of the first magnetic block 9. The diameter of the inner wall of the support platform 8 is larger than the diameter of the outer wall of the first magnetic block 9. A second magnetic block 10 is adhered to the outer wall of the first magnetic block 9, and a spirit level 11 is adhered to the outer wall of the second magnetic block 10. The outer wall of the second magnetic block 10 is in close contact with the outer wall of the spirit level 11, and the diameter of the outer wall of the second magnetic block 10 is the same as the diameter of the outer wall of the spirit level 11. A cable sleeve 12 is installed on the inner wall of the support platform 8. The support platform 8 supports the first magnetic block 9. For a tight fit, the support platform 8, serving as the installation reference component, has a smoothed surface. The first magnetic block 9 is firmly bonded to the preset position on the support platform 8 using high-strength industrial adhesive. The contact surfaces are seamless and secure, not only withstanding the weight of the bubble level 11 and minor vibrations but also preventing displacement of the first magnetic block 9 over long-term use, providing a stable foundation for subsequent magnetic connections. The bottom of the bubble level 11's outer shell is also fixed with a second magnetic block 10 using adhesive. The size and magnetic pole direction of the second magnetic block 10 match those of the first magnetic block 9. When installing the bubble level 11, simply align the second magnetic block 10 with the first magnetic block 9, and the two will automatically adhere due to magnetic force, achieving immediate stability upon placement. The rapid assembly requires no tools. The construction personnel only need to hold the bubble level 11 and bring the side with the second magnet 10 close to the first magnet 9 on the support platform 8. The magnetic attraction will complete the fixation. Even first-time operators can easily complete the operation, avoiding the delays caused by misalignment or lack of tools when fixing with screws. After the bubble level 11 is installed, the bubbles inside it will move with the tilt direction of the device. The construction personnel can directly observe the position of the bubbles with the naked eye and quickly judge whether the device is level. This method is intuitive and highly accurate, avoiding subjective misjudgment.
[0024] Working principle: When in use, take out the device and place it in the designated position. Push the connecting block 5, which will cause the connecting rod 3 to open the support bracket 1. Adhere and fix the support platform 8 to the first magnetic block 9, and adhere and fix the second magnetic block 10 to the level bubble 11. Magnetically fix the support platform 8 to the level bubble 11. Place the cable on the inner wall of the cable sleeve 12. Adjust the level bubble 11 according to its tilt position. Finally, rotate the support bracket 1 to adjust the adjusting rod 6 to support the cable. This completes the use of the device. The contents not described in detail in this manual are existing technologies known to those skilled in the art.
[0025] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A temporary cable support device for power engineering laying, comprising a support bracket (1), characterized in that: The inner wall of the support bracket (1) is equipped with a first rotating rod (2), the outer wall of the first rotating rod (2) is equipped with a connecting rod (3), one end of the connecting rod (3) is equipped with a second rotating rod (4), the outer wall of the second rotating rod (4) is equipped with a connecting block (5), and the inner wall of the support bracket (1) is fixedly connected with an adjusting rod (6). A third rotating rod (7) is installed at one end of the support bracket (1). A support platform (8) is installed on the outer wall of the third rotating rod (7). A first magnetic block (9) is bonded to the inner wall of the support platform (8). A second magnetic block (10) is attached to the outer wall of the first magnetic block (9). A spirit level (11) is bonded to the outer wall of the second magnetic block (10). A cable sleeve (12) is installed on the inner wall of the support platform (8).
2. The temporary cable support device for power engineering laying according to claim 1, characterized in that: The connecting rod (3) forms a rotating structure with the support bracket (1) through the first rotating rod (2), and the inner wall of the connecting rod (3) is designed with an opening.
3. The temporary cable support device for power engineering laying according to claim 1, characterized in that: The second rotating rod (4) is movably connected to the connecting block (5), and the second rotating rod (4) is arranged in a ring array on the inner wall of the connecting block (5).
4. A temporary cable support device for power engineering laying according to claim 1, characterized in that: The adjusting rod (6) is threadedly connected to the support bracket (1), and the outer wall of the adjusting rod (6) is threaded.
5. A temporary cable support device for power engineering laying according to claim 1, characterized in that: The inner wall of the support platform (8) is closely fitted with the outer wall of the first magnetic block (9), and the inner wall diameter of the support platform (8) is larger than the outer wall diameter of the first magnetic block (9).
6. A temporary cable support device for power engineering laying according to claim 1, characterized in that: The outer wall of the second magnetic block (10) is in close contact with the outer wall of the level bubble (11), and the outer wall diameter of the second magnetic block (10) is the same as the outer wall diameter of the level bubble (11).