Material rack for communication tower

By introducing structures such as movable frames, support columns, and limiting blocks into the storage rack for communication towers, the problem of the placement plate being unable to move in the existing technology is solved, realizing stable positioning and rapid placement of the bearing plate, and improving efficiency and stability.

CN224336066UActive Publication Date: 2026-06-09

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-05-29
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing storage racks on communication towers have immovable placement panels, causing the support legs to obstruct the placement of materials and preventing the materials from being placed quickly.

Method used

A structure including a movable frame, support column, support plate, load-bearing component and limiting block is designed. By rotating the limiting block, the load-bearing plate is disengaged from the front side of the load-bearing plate, and the load-bearing plate is pulled forward to the desired position. The limiting block is then engaged in the positioning groove to achieve positioning, thus preventing the load-bearing plate from moving arbitrarily.

Benefits of technology

It achieves stable positioning of the support plate, facilitates rapid placement and movement of materials, improves efficiency, enhances the stability of the support plate, and prevents materials from falling from both sides.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224336066U_ABST
    Figure CN224336066U_ABST
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Abstract

This utility model relates to the field of communication tower technology, specifically disclosing a material storage rack for communication towers, including a movable frame. Support columns are connected to both sides of the top of the movable frame, and a support plate is connected to the other end of the top of the movable frame. A top plate is connected to the top of both the support columns and the support plate. Several load-bearing components are connected between the support columns and the support plate. Several rotating grooves are opened at one end of each support column, and a support shaft is connected to one end of the inner wall of each rotating groove. This utility model utilizes the cooperation of the support shaft, support block, limiting block, rotating groove, and load-bearing components. By rotating the limiting block to disengage it from the front of the load-bearing plate, engaging the locking groove, and pulling forward, the load-bearing plate is moved forward to the desired position. Rotating the limiting block again to engage it in the positioning groove completes the positioning of the load-bearing plate, preventing it from moving back and forth. Materials are then placed on the load-bearing plate, and the load-bearing plate is reset.
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Description

Technical Field

[0001] This utility model relates to the field of communication tower technology, specifically a material storage rack for communication towers. Background Technology

[0002] Communication towers consist of steel components such as the tower body, platform, lightning rod, ladder, and antenna support, and are treated with hot-dip galvanizing for corrosion protection. They are mainly used for the transmission and transmission of microwave, ultra-short wave, and wireless network signals. Shelves are needed during the placement of materials for communication towers.

[0003] Utility model patent application number 202321816492.2 relates to a storage rack, including four vertically arranged legs and multiple shelves spaced vertically between the legs. The shelves are rectangular and designed for placing items. Each shelf has two through holes on its left and right sides for the legs to pass through, allowing the shelves to be installed onto the legs. In use, the rack is placed on the ground, and items can be placed on each shelf. The shelves have identical structures, making them easy to manufacture. Installation is simple: the shelves are installed sequentially onto the legs at their corresponding heights. Compared to existing technologies, this provides a novel, user-friendly, space-saving, and low-cost storage rack.

[0004] However, the aforementioned device still has some drawbacks in practical use. The most obvious is that the material placement plate is fixed and cannot be moved. When placing materials on it, the support legs can easily obstruct the placement, making it difficult to complete the placement quickly. Therefore, to solve this problem, we propose a material storage rack for communication towers. Utility Model Content

[0005] The purpose of this utility model is to address the shortcomings of existing technologies by proposing a material storage rack for communication towers.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A material storage rack for communication towers includes a movable frame. Support columns are connected to both sides of the top of the movable frame, and a support plate is connected to the other end of the top of the movable frame. A top plate is connected to the top of the support columns and the support plate. Several load-bearing components are connected between the support columns and the support plate. Several rotating grooves are opened at one end of the support column. A support shaft is connected to one end of the inner wall of the rotating groove. A limiting block is rotatably fitted on the outside of the support shaft. Several support blocks are connected to the opposite side of the two support columns.

[0008] Preferably, shock absorbers are connected to the four corners of the bottom of the movable frame, and brake casters are connected to the bottom of the shock absorbers.

[0009] Preferably, the movable frame is internally connected to a base plate, and each of the four corners of the top of the movable frame is provided with an adjusting screw. The bottom thread of the adjusting screw passes through the movable frame and is movably connected to a positioning plate through a bearing.

[0010] Preferably, the load-bearing component includes two support beams, with both ends of the support beams connected to a support column and a support plate, respectively, and several limiting support frames connected to the top of the support beams and the top of the movable frame.

[0011] Preferably, the inner wall of the support beam is connected to a sliding rod, the outer side of the sliding rod is fitted with a sliding block, a bearing plate is connected to one side of the two sliding blocks opposite each other, and a moving groove is opened on both sides of the bearing plate.

[0012] Preferably, the support plate has several positioning grooves on both sides, and a snap-fit ​​groove is provided at one end of the bottom of the support plate. The positioning grooves are located at the top of the moving groove.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0014] This utility model utilizes the cooperation of a support shaft, support block, limiting block, rotating groove, and bearing component. By rotating the limiting block to disengage it from the front of the bearing plate, engaging the locking groove, and pulling it forward, the bearing plate is moved forward to the desired position. The limiting block is then rotated again to engage it in the positioning groove, thus completing the positioning of the bearing plate and preventing it from moving back and forth. Subsequently, materials are placed on the bearing plate, and the bearing plate is reset. Attached Figure Description

[0015] Figure 1 This is an isometric drawing of the structure of this utility model;

[0016] Figure 2 This is an isometric drawing showing the structural fit of the movable frame, support column, top plate, and support plate of this utility model.

[0017] Figure 3 This utility model Figure 2 Enlarged view of A in the middle;

[0018] Figure 4 This is an isometric drawing of the load-bearing component structure of this utility model;

[0019] Figure 5 This utility model Figure 4 A bottom view;

[0020] Figure 6 This utility model Figure 4 The left view.

[0021] In the diagram: 1. Brake caster wheel; 2. Moving frame; 3. Support column; 4. Load-bearing component; 41. Moving groove; 42. Positioning groove; 43. Support beam; 44. Load-bearing plate; 45. Sliding block; 46. Clip groove; 47. Sliding rod; 5. Limiting support frame; 6. Top plate; 7. Support plate; 8. Adjusting screw; 9. Shock absorber; 10. Base plate; 11. Positioning disc; 12. Support shaft; 13. Support block; 14. Limiting block; 15. Rotation groove. Detailed Implementation

[0022] 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.

[0023] Please see Figures 1-6 A material storage rack for communication towers includes a movable frame 2. Support columns 3 are connected to both sides of the top of the movable frame 2. Support plate 7 is connected to the other end of the top of the movable frame 2. The top of the support columns 3 and the support plate 7 are connected to a top plate 6. Several load-bearing components 4 are connected between the support columns 3 and the support plate 7. Several rotating grooves 15 are opened at one end of the support column 3. Support shaft 12 is connected to one end of the inner wall of the rotating groove 15. Limiting block 14 is rotatably sleeved on the outside of the support shaft 12. Several support blocks 13 are connected to the opposite side of the two support columns 3.

[0024] As a technical optimization of this utility model, shock absorbers 9 are connected to the four corners of the bottom of the movable frame 2, and brake casters 1 are connected to the bottom of the shock absorbers 9; the cooperation of the shock absorbers 9 and the brake casters 1 facilitates the transfer of the movable frame 2.

[0025] As a technical optimization of this utility model, the movable frame 2 is internally connected to a base plate 10, and each of the four corners of the top of the movable frame 2 is provided with an adjusting screw 8. The bottom thread of the adjusting screw 8 passes through the movable frame 2 and is movably connected to a positioning plate 11 through a bearing. The movable frame 2 can be easily positioned by the cooperation of the adjusting screw 8 and the positioning plate 11.

[0026] As a technical optimization of this utility model, the bearing component 4 includes two support beams 43. The two ends of the support beams 43 are connected to the support column 3 and the support plate 7 respectively. The top of the support beams 43 and the top of the movable frame 2 are connected to several limiting support frames 5. The top of the limiting support frames 5 are in contact with the top of the bearing plate 44 and the top plate 6 respectively, thereby supporting the bearing plate 44 and the top plate 6.

[0027] As a technical optimization of this utility model, the inner wall of the support beam 43 is connected to a sliding rod 47, and a sliding block 45 is sleeved on the outside of the sliding rod 47. A bearing plate 44 is connected to one side of the two sliding blocks 45 facing each other. A moving groove 41 is opened on both sides of the bearing plate 44. The moving groove 41 and the support block 13 are used in conjunction. The support block 13 is used to support the bearing plate 44, thereby improving the stability of the bearing plate 44.

[0028] As a technical optimization of this utility model, a plurality of positioning grooves 42 are provided on both sides of the support plate 44, and a buckle groove 46 is provided at one end of the bottom of the support plate 44. The positioning grooves 42 are located at the top of the moving groove 41. The positioning grooves 42 are used in conjunction with the limiting block 14. Through the cooperation of the positioning grooves 42 and the limiting block 14, the support plate 44 can be limited to prevent the support plate 44 from moving arbitrarily.

[0029] In use, the limiting block 14 is rotated to disengage it from the front of the support plate 44, the latching groove 46 is engaged, and the support plate 44 is pulled forward to the desired position. The limiting block 14 is then rotated again to engage it in the positioning groove 42, thus positioning the support plate 44 and preventing it from moving back and forth, thereby improving its stability. Materials are then placed on the support plate 44. Rotating the limiting block 14 to disengage it from the positioning groove 42 and pushing the support plate 44 backward to reset it, followed by rotating the limiting block 14 again to the front of the support plate 44, completes its positioning. When the material rack needs to be moved, it can be pushed; the shock absorber 9 provides shock absorption. The limiting support frame 5 supports the support plate 44 and the top plate 6, and also limits the materials placed on the support plate 44, preventing them from falling from the sides.

[0030] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and inventive concept of this utility model, should be included within the scope of protection of this utility model.

Claims

1. A material storage rack for communication towers, comprising a movable frame (2), characterized in that: The top of the movable frame (2) is connected to two sides of a support column (3), and the other end of the top of the movable frame (2) is connected to a support plate (7). The top of the support column (3) and the support plate (7) are connected to a top plate (6). Several load-bearing components (4) are connected between the support column (3) and the support plate (7). Several rotating grooves (15) are opened at one end of the support column (3). A support shaft (12) is connected to one end of the inner wall of the rotating groove (15). A limiting block (14) is rotatably sleeved on the outside of the support shaft (12). Several support blocks (13) are connected to the opposite side of the two support columns (3).

2. The material storage rack for communication towers according to claim 1, characterized in that: Shock absorbers (9) are connected to the four corners of the bottom of the movable frame (2), and brake casters (1) are connected to the bottom of the shock absorbers (9).

3. The material storage rack for communication towers according to claim 1, characterized in that: The movable frame (2) is internally connected to a base plate (10), and each of the four corners of the top of the movable frame (2) is provided with an adjusting screw (8). The bottom thread of the adjusting screw (8) passes through the movable frame (2) and is movably connected to a positioning plate (11) through a bearing.

4. The material storage rack for communication towers according to claim 1, characterized in that: The load-bearing component (4) includes two support beams (43), the two ends of which are connected to the support column (3) and the support plate (7) respectively. Several limiting support frames (5) are connected to the top of the support beam (43) and the top of the moving frame (2).

5. A material storage rack for communication towers according to claim 4, characterized in that: The inner wall of the support beam (43) is connected to a sliding rod (47), and a sliding block (45) is sleeved on the outside of the sliding rod (47). A bearing plate (44) is connected to one side of the two sliding blocks (45) opposite to each other. A moving groove (41) is opened on both sides of the bearing plate (44).

6. A material storage rack for communication towers according to claim 5, characterized in that: The support plate (44) has several positioning grooves (42) on both sides, and a snap groove (46) is provided at one end of the bottom of the support plate (44). The positioning groove (42) is located at the top of the moving groove (41).