Power and communication sharing type steel pipe pole

By designing a moving and clamping mechanism on the steel pipe pole, the position of the power transmission line can be flexibly adjusted and automatically clamped, solving the problem of fixing the installation position of the power transmission line and improving installation efficiency and safety.

CN224385035UActive Publication Date: 2026-06-19GUANGDONG TONGJIAN IND DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG TONGJIAN IND DEV CO LTD
Filing Date
2025-07-09
Publication Date
2026-06-19

Smart Images

  • Figure CN224385035U_ABST
    Figure CN224385035U_ABST
Patent Text Reader

Abstract

The utility model belongs to the field of steel pipe pole especially, a kind of electric power and communication sharing type steel pipe pole, to the existing power transmission line generally can only be installed in fixed position, it is inconvenient to adjust the installation position of power transmission line on crossbar due to installation environment, and in different fastener is generally needed to be used to different size power transmission line, so that staff is more cumbersome in aerial work problem, present and propose following scheme, it includes pole body, the outside of pole body is fixedly provided with two fixed frame by bolt, the side of two fixed frame far away is all fixedly connected with crossbar, two crossbar are all provided with the moving mechanism that is convenient to adjust the installation position of power transmission line, it is convenient to adjust its position according to the actual installation demand of power transmission line, improve the flexibility and efficiency of installation, realize the automatic clamping of clamping block to power transmission line, clamping process is simple and reliable, different size power transmission line can also be adapted.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of steel pipe pole technology, and in particular to a steel pipe pole for power and communication sharing. Background Technology

[0002] With the advent of the 5G era, in order to optimize the layout of 5G base stations and save land resources, it has become a development trend to install base station communication equipment using power steel pipe poles. The power and communication shared steel pipe pole is a multi-functional pole that integrates power transmission and communication facilities. Through a single pole structure, it can simultaneously support power transmission lines, communication base stations, monitoring equipment, etc., to achieve efficient integration of space resources.

[0003] However, the existing steel pipe poles have the following problems: the power transmission lines can generally only be installed in fixed positions, making it inconvenient to adjust the installation position of the power transmission lines on the crossbar according to the installation environment. Furthermore, different fasteners are generally required for power transmission lines of different sizes, making it more cumbersome for workers to work at heights. Utility Model Content

[0004] The purpose of this utility model is to solve the shortcomings of existing technologies, such as power transmission lines generally being installed in fixed positions, making it inconvenient to adjust the installation position of the power transmission lines on the crossbar according to the installation environment, and the need to use different fasteners for power transmission lines of different sizes, which makes high-altitude operations more cumbersome for workers. Therefore, this utility model proposes a power and communication shared steel pipe pole.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A power and communication sharing type steel pipe pole includes a pole body, two fixing frames are fixedly installed on the outer side of the pole body by bolts, and crossbars are fixedly connected to the opposite sides of the two fixing frames. Each of the two crossbars is provided with a moving mechanism to facilitate the adjustment of the installation position of the power transmission line, and the moving mechanism is provided with a clamping mechanism for installing and fixing the power transmission line.

[0007] In one possible design, the moving mechanism includes two top slots, two partitions, four moving blocks, multiple sliders, and four first-order sliding grooves. The two top slots are respectively located on the top of the two crossbars, the two partitions are respectively fixedly located at the center of the two top slots, the four first-order sliding grooves are respectively located on the inner walls of the two sides of the two top slots, the multiple sliders are respectively fixedly connected to the two sides of the four moving blocks and adapted to the first-order sliding grooves, and the multiple sliders are respectively slidably connected to the four first-order sliding grooves.

[0008] In one possible design, the clamping mechanism includes multiple movable plates, multiple clamping blocks, four movable slots, multiple sliding rods, multiple springs, and two central blocks. The four movable slots are respectively disposed on the top of the four movable blocks. The multiple movable plates are respectively slidably disposed inside the four movable slots. The four central blocks are respectively fixedly disposed at the center of the four movable slots. One end of each of the multiple sliding rods is fixedly connected to both sides of the four central blocks. The other end of each of the four sliding rods slides through one side of each of the multiple movable plates and is fixedly connected to the inner wall of the movable slot. The multiple springs are respectively sleeved on the multiple sliding rods. The two ends of each of the multiple springs are respectively fixedly connected to the side of the movable plates and the central blocks that are close to each other. The multiple clamping blocks are respectively fixedly disposed on one side of the movable plates for clamping and fixing the power transmission line.

[0009] In one possible design, the clamping surfaces of the plurality of clamping blocks are provided with rubber pads and insulating layers, and the insulating layers are all made of tempered glass.

[0010] In one possible design, both sides of the multiple movable plates are fixedly connected to a fixing plate to facilitate fixing the movable plates, and the multiple fixing plates are provided with fixing holes to facilitate fixing to the crossbar by bolts.

[0011] In one possible design, two drain holes are provided on both sides of the four movable blocks to facilitate the discharge of rainwater from the movable trough, and two drain holes are provided on the two crossbars to facilitate the discharge of rainwater from the top trough.

[0012] In one possible design, the bottom of the rod is fixedly connected to an mounting plate that facilitates the installation and fixation of the steel pipe rod, and the mounting plate has multiple mounting holes.

[0013] In this application, the pole body serves as the main supporting structure of the entire steel pipe pole. Leveraging the properties of high-strength steel pipe material, it provides a stable load-bearing foundation for the entire device. During installation, the mounting plate, fixedly connected to the bottom of the pole body, is placed on a pre-prepared foundation. Bolts are used to pass through the mounting holes to achieve a stable connection between the pole body and the foundation. When the installation position of the transmission line needs to be adjusted, the moving block is pushed, and the sliding strip slides along the first sliding groove, allowing the moving block to move on the crossbar, meeting the installation and fixing requirements of transmission lines at different positions. In its natural state, the spring force keeps the moving plate on both sides of the central block. When the transmission line needs to be installed, it is placed between the clamping blocks. Under the action of the spring force, the moving plate moves the clamping blocks towards the central block. This clamping mechanism secures and fixes the power transmission lines, facilitating the clamping, fixing, and installation of power transmission lines of different sizes. The rubber pads and insulating layer (tempered glass) on the clamping surface of the clamping block increase the stability and safety of the clamping, providing insulation and preventing leakage. Fixing holes are provided on the fixing plates fixedly connected to both sides of the moving plate. After the moving plate moves to the appropriate position and the spring stabilizes, bolts are passed through the fixing holes to fix the fixing plates to the crossbar, thus securing the moving plate and the power transmission lines. In rainy weather, the No. 2 drainage holes on both sides of the moving block and the No. 1 drainage hole on the crossbar allow rainwater to drain out when it enters the moving trough and the top trough, ensuring the equipment remains dry and operates normally.

[0014] The beneficial effects of this utility model are as follows:

[0015] In this invention, the design of the moving mechanism allows the moving block to move flexibly on the crossbar, facilitating position adjustment according to the actual installation requirements of the transmission line, thus improving installation flexibility and efficiency. The clamping mechanism utilizes the spring force to automatically clamp the transmission line, ensuring a simple and reliable clamping process that can accommodate transmission lines of different sizes. The rubber pads on the clamping surface of the clamping block increase friction with the transmission line, enhancing clamping stability. The insulating layer (tempered glass) provides excellent insulation, effectively preventing electrical leakage from harming personnel and equipment, ensuring safe operation. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0017] Figure 2 This is an enlarged schematic diagram of a partial structure of the present invention;

[0018] Figure 3 This is an exploded view of the installation structure of this utility model;

[0019] Figure 4 This is an exploded view of the clamping structure of this utility model.

[0020] In the diagram: 1. Rod; 2. Mounting plate; 3. Fixing frame; 4. Crossbar; 5. Top groove; 6. Partition plate; 7. No. 1 sliding groove; 8. Sliding strip; 9. No. 1 drain hole; 10. Moving groove; 11. Moving plate; 12. Clamping block; 13. Insulation layer; 14. Sliding rod; 15. Spring; 16. Middle block; 17. Fixing plate; 18. Fixing hole; 19. Moving block; 20. No. 2 drain hole. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Example

[0022] Reference Figures 1-4 A steel pipe pole includes a pole body 1, a fixing frame 3, a crossbar 4, a moving mechanism, and a clamping mechanism. The pole body 1, as the main support structure of the entire steel pipe pole, is made of high-strength steel pipe material to ensure sufficient load-bearing capacity and stability. An mounting plate 2 is fixedly connected to the bottom of the pole body 1. The mounting plate 2 has multiple mounting holes. During installation, the mounting plate 2 is placed on a pre-prepared foundation, and the pole body 1 is firmly fixed to the foundation by bolts through the mounting holes, completing the initial installation of the steel pipe pole. On the outside of the pole body 1, two fixing frames 3 are fixedly installed by bolts. The two fixing frames 3 are symmetrically distributed on both sides of the pole body 1. A crossbar 4 is fixedly connected to the side of the two fixing frames 3 that is far apart from each other. The crossbar 4 is made of steel pipe material that matches the pole body 1 and is firmly connected to the fixing frames 3 by welding or bolting, providing an installation platform for the subsequent moving mechanism and clamping mechanism.

[0023] The specific structure of the moving mechanism is as follows: Top grooves 5 are respectively provided on the top of the two crossbars 4. The top grooves 5 are elongated groove structures, and their dimensions are designed according to actual needs. Partitions 6 are fixedly installed at the center of the two top grooves 5, dividing the top grooves 5 into two relatively independent areas, facilitating the subsequent arrangement of the moving blocks 19. First sliding grooves 7 are respectively provided on the inner walls of both sides of the two top grooves 5. First sliding grooves 7 are elongated sliding groove structures used to guide the sliding of the moving blocks 19. The moving mechanism also includes four moving blocks 19. Multiple sliding strips 8 are fixedly connected to both sides of each moving block 19. The dimensions of the sliding strips 8 are adapted to the first sliding groove 7. During installation, the four moving blocks 19 are placed in the two top grooves 5 respectively, so that the sliding strips 8 correspond to the first sliding groove 7. Then, the moving blocks 19 are pushed, causing the sliding strips 8 to slide along the first sliding groove 7, thereby realizing the movement of the moving blocks 19 on the crossbars 4, facilitating the installation and fixing of the power transmission lines at different positions.

[0024] The specific structure of the clamping mechanism is as follows: A movable groove 10 is provided on the top of each of the four movable blocks 19. The movable groove 10 is a long, narrow groove structure used to accommodate the movable plates 11. Multiple movable plates 11 are slidably disposed inside the four movable grooves 10. A central block 16 is fixedly disposed at the center of each of the four movable grooves 10. The central block 16 is a square block structure. One end of multiple sliding rods 14 is fixedly connected to both sides of the four central blocks 16, and the other end slides through one side of each of the multiple movable plates 11 and is fixedly connected to the inner wall of the movable groove 10. Multiple springs 15 are respectively sleeved... On multiple sliding rods 14, the two ends of springs 15 are fixedly connected to the side of the moving plate 11 and the middle block 16 respectively. In the natural state, the elastic force of springs 15 keeps the moving plate 11 on both sides of the middle block 16. Multiple clamping blocks 12 are fixedly installed on one side of the moving plate 11 for clamping and fixing the power transmission line. In order to increase the stability and safety of clamping, rubber pads and insulating layers 13 are provided on the clamping surfaces of multiple clamping blocks 12. The insulating layer 13 is made of tempered glass, which can not only provide insulation, but also prevent leakage from causing harm to personnel and equipment.

[0025] This application can be used in the field of power and communication sharing type installation poles, as well as in other fields applicable to this application. Example

[0026] refer to Figures 1-4 Based on the improvement of Embodiment 1, a power and communication shared steel pipe pole is provided, comprising:

[0027] To facilitate the fixing of the movable plate 11, fixing plates 17 are fixedly connected to both sides of the multiple movable plates 11. The fixing plates 17 are flat structures with fixing holes 18. When the movable plate 11 is moved to the appropriate position, the fixing plates 17 are fixedly connected to the crossbar 4 by bolts passing through the fixing holes 18, thereby fixing the movable plate 11 and fixing the power transmission line.

[0028] To prevent rainwater from accumulating in the moving trough 10 and the top trough 5 and affecting the normal operation of the equipment, a second drain hole 20 is provided on both sides of the four moving blocks 19, and a first drain hole 9 is provided on each of the two crossbars 4. When rainwater enters the moving trough 10 and the top trough 5, the rainwater can be discharged through the second drain hole 20 and the first drain hole 9 to ensure the dryness and normal operation of the equipment.

[0029] The accompanying drawings in this application are for illustrative purposes only. The dimensions and shapes of the components shown are not actual limitations but are merely schematic representations. In actual implementation, the components can be reasonably configured and adjusted according to specific needs and actual conditions.

[0030] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A shared power and communication steel pipe pole, characterized in that, The rod (1) includes a pole body (1), on the outside of which two fixing frames (3) are fixedly installed by bolts. A crossbar (4) is fixedly connected to the side of the two fixing frames (3) that are far apart from each other. A moving mechanism is provided on each of the two crossbars (4) to facilitate the adjustment of the installation position of the power transmission line. A clamping mechanism for installing and fixing the power transmission line is provided on the moving mechanism.

2. The power and communication shared steel pipe pole according to claim 1, characterized in that, The moving mechanism includes two top grooves (5), two partitions (6), four moving blocks (19), multiple slide bars (8), and four first slide grooves (7). The two top grooves (5) are respectively set on the top of the two crossbars (4). The two partitions (6) are respectively fixedly set at the center of the two top grooves (5). The four first slide grooves (7) are respectively set on the inner walls of the two sides of the two top grooves (5). The multiple slide bars (8) are respectively fixedly connected to the two sides of the four moving blocks (19) and adapted to the first slide grooves (7). The multiple slide bars (8) are respectively slidably connected to the four first slide grooves (7).

3. The power and communication shared steel pipe pole according to claim 1, characterized in that, The clamping mechanism includes multiple movable plates (11), multiple clamping blocks (12), four movable slots (10), multiple sliding rods (14), multiple springs (15), and two central blocks (16). The four movable slots (10) are respectively disposed on the top of the four movable blocks (19). The multiple movable plates (11) are respectively slidably disposed inside the four movable slots (10). The four central blocks (16) are respectively fixedly disposed at the center of the four movable slots (10). One end of each of the multiple sliding rods (14) is respectively connected to... The two sides of the four middle blocks (16) are fixedly connected, and the other ends of the four slide rods (14) slide through one side of the multiple moving plates (11) and are fixedly connected to the inner wall of the moving groove (10). The multiple springs (15) are respectively sleeved on the multiple slide rods (14), and the two ends of the multiple springs (15) are respectively fixedly connected to the side of the moving plate (11) and the middle block (16) that are close to each other. The multiple clamping blocks (12) are respectively fixedly set on one side of the moving plate (11) for clamping and fixing the power transmission line.

4. A power and communication shared steel pipe pole according to claim 3, characterized in that, Each of the clamping blocks (12) has a rubber pad and an insulating layer (13) on its clamping surface, and the insulating layer (13) is made of tempered glass.

5. A power and communication shared steel pipe pole according to claim 3, characterized in that, Both sides of the multiple movable plates (11) are fixedly connected to a fixing plate (17) for easy fixing of the movable plates (11), and the multiple fixing plates (17) are provided with fixing holes (18) for easy fixing to the crossbar (4) by bolts.

6. A power and communication shared steel pipe pole according to claim 2, characterized in that, The four movable blocks (19) are provided with second drain holes (20) on both sides to facilitate the discharge of rainwater from the movable trough (10), and the two crossbars (4) are provided with first drain holes (9) to facilitate the discharge of rainwater from the top trough (5).

7. A power and communication shared steel pipe pole according to claim 1, characterized in that, The bottom of the rod (1) is fixedly connected to an installation plate (2) for easy installation and fixing of the steel pipe rod, and the installation plate (2) has multiple installation holes.