A construction engineering reinforcing structure

By using an adjustable ring frame structure and diagonal supports, the problem of poor adaptability and adjustability of traditional reinforcement structures is solved, enabling flexible adaptation and efficient reinforcement of round and square columns, thereby improving the stability of the building and construction efficiency.

CN224468857UActive Publication Date: 2026-07-07黄林盛 +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
黄林盛
Filing Date
2025-08-18
Publication Date
2026-07-07

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Abstract

This utility model discloses a building reinforcement structure, relating to the field of building engineering technology. It includes a first reinforcement ring frame, a second reinforcement ring frame positioned above the first, and inclined support legs on the outer wall of the first reinforcement ring frame. The first reinforcement ring frame includes a fixed arc plate, one end of which is provided with an adjusting arc plate, and the outer wall of the fixed arc plate is provided with a fastening and adjusting assembly. This utility model, through the connection of the fixed arc plate and the adjusting arc plate to form a ring frame structure, and through the combination of a right-angled groove and an arc-shaped surface, can simultaneously adapt to both square and cylindrical load-bearing columns, overcoming the limitation of traditional reinforcement structures that can only adapt to a single column shape. The inclined support legs can rotate and adjust within a 0-45° range, forming lateral stability support in conjunction with anti-slip support blocks. Vertical support screws achieve a rigid connection between the upper and lower ring frames through multiple sets of fastening sleeves, and at least three vertical support screws are evenly distributed, significantly improving the overall support strength.
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Description

Technical Field

[0001] This utility model relates to the field of building engineering technology, specifically to a building engineering reinforcement structure. Background Technology

[0002] Building construction engineering refers to the planning, surveying, design, construction, and completion of various technical tasks and the finished engineering entities, as well as the installation of supporting lines, pipelines, and equipment, for the construction, renovation, or expansion of buildings and ancillary structures and facilities.

[0003] In building construction, load-bearing columns (such as those in frame structures) are key components that transfer building loads, and their stability directly affects building safety. In actual construction, it is often necessary to reinforce load-bearing columns to cope with problems such as increased load, structural aging, or construction errors.

[0004] The existing load-bearing column reinforcement structure has the following defects:

[0005] Limited adaptability: Traditional reinforced ring frames are mostly fixed-size arc or square structures, which can only be adapted to load-bearing columns of a single shape (round or square). When both round and square columns exist in a building, multiple sizes of reinforcement parts need to be prepared, increasing construction costs and complexity.

[0006] Poor adjustability and installability: Traditional reinforcement structures mostly use welding or bolt rigid connection, which requires precise matching of dimensions during installation. If there is a deviation in the size of the load-bearing column, it is difficult to install. Moreover, it cannot be adjusted after installation. When the load or structural requirements change, it needs to be dismantled and rebuilt, resulting in high maintenance costs. Utility Model Content

[0007] To address the problems mentioned in the background art, the purpose of this utility model is to provide a building reinforcement structure that adapts to both round and square columns through an adjustable ring frame structure, forms a multi-dimensional stable system by combining diagonal and vertical supports, and has convenient installation and adjustment capabilities. At the same time, it achieves coordinated force sharing between load-bearing columns and beams, effectively improving the reinforcement effect and construction efficiency.

[0008] To achieve the above objectives, this utility model provides the following technical solution: a building reinforcement structure, including a reinforcement ring frame;

[0009] Reinforcing ring frame two is installed above reinforcing ring frame one;

[0010] An inclined support leg is installed on the outer wall of the reinforced ring frame;

[0011] The reinforcing ring frame includes a fixed arc plate, an adjusting arc plate is provided at one end of the fixed arc plate, and a fastening adjustment assembly is provided on the outer wall of the fixed arc plate. The fastening adjustment assembly is used to detachably fix the fixed arc plate and the adjusting arc plate. The fastening adjustment assembly includes a transverse threaded rod and a nut. Arc plate mounting ears are fixedly connected to both ends of the adjusting arc plate.

[0012] In a preferred embodiment of this utility model, a fixed cross sleeve is fixedly connected to the outer arc surface of the fixed arc plate, the transverse threaded rod is fixedly connected to the inner wall of the fixed cross sleeve, the nut is threadedly sleeved on the outer wall of the transverse threaded rod, and one end of the transverse threaded rod movably passes through the mounting lug of the arc plate.

[0013] As a preferred embodiment of this utility model, the upper surface of the fixed arc plate is provided with an insertion hole, the inner wall of the insertion hole is movably penetrated by a vertical support screw, and the outer wall of the vertical support screw near the top end movably penetrates to the top of the reinforcing ring frame two.

[0014] As a preferred embodiment of this utility model, the outer wall of the vertical support screw is threaded with a fastening screw sleeve, the top end of the vertical support screw is fixedly connected to a receiving arc plate, and the top of the receiving arc plate is fixedly connected to a rubber pad.

[0015] As a preferred embodiment of this utility model, the two ends of the fixed horizontal sleeve are rotatably fitted with inclined support legs, and the bottom end of the inclined support legs is rotatably connected with an anti-slip support block.

[0016] As a preferred embodiment of this invention, gaskets are provided at both the upper and lower ends of the fixed arc plate.

[0017] As a preferred embodiment of this utility model, the arc plate mounting ear is provided with a through hole adapted to the transverse threaded rod, and the transverse threaded rod passes through the fixed cross sleeve and the arc plate mounting ear in sequence before being locked with the nut.

[0018] As a preferred embodiment of this utility model, the top of the reinforcing ring frame two is provided with a positioning hole for the vertical support screw to pass through, and the top end of the vertical support screw extends to the top of the reinforcing ring frame two and is connected to the receiving arc plate.

[0019] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0020] 1. This utility model uses a ring frame structure formed by the docking of a fixed arc plate and an adjustable arc plate. Through the combination of a right-angled groove and an arc surface, it can simultaneously adapt to both square and cylindrical load-bearing columns, thus solving the limitation of traditional reinforcement structures that can only adapt to a single column shape.

[0021] 2. This utility model features an inclined support leg that can rotate and adjust within a range of 0-45°, forming a laterally stable support in conjunction with an anti-slip support block; the vertical support screw achieves a rigid connection between the upper and lower ring frames through multiple sets of fastening screw sleeves, and at least three vertical support screws are evenly distributed, which greatly improves the overall support strength and avoids deformation or collapse caused by uneven force on the weighing column.

[0022] 3. This utility model enables quick assembly and disassembly of the fixed arc plate and the adjustable arc plate through the horizontal threaded rod and nut. The cooperation between the vertical support screw and the fastening screw sleeve can flexibly adjust the distance between the first and second reinforcing rings to meet the reinforcement needs of different heights, thus solving the problems of cumbersome installation and difficulty in adjustment of traditional welding or bolt-fixed structures.

[0023] 4. This utility model connects the arched plate to the roof beam, transferring the load of the roof beam to the load-bearing column through the vertical support screw, thereby achieving coordinated force sharing between the load-bearing column and the roof beam, avoiding structural damage caused by excessive local load, and improving the overall stability of the building. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the structure of this utility model;

[0025] Figure 2 This is a schematic diagram of the left-side structure of this utility model;

[0026] Figure 3 This is a top view of the structure of this utility model;

[0027] Figure 4 This is a schematic diagram of the reinforcing ring frame structure of this utility model.

[0028] In the diagram: 1. Reinforcing ring frame one; 2. Reinforcing ring frame two; 3. Receiving arc plate; 4. Vertical support screw; 5. Angled support leg; 6. Anti-slip support block; 7. Washer; 8. Fastening screw sleeve; 9. Fixed arc plate; 10. Fixed cross sleeve; 11. Horizontal threaded rod; 12. Adjusting arc plate; 13. Arc plate mounting ear; 14. Nut; 15. Insertion hole. Detailed Implementation

[0029] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0030] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.

[0031] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments.

[0032] Secondly, this utility model is described in detail with reference to the schematic diagrams. When describing the embodiments of this utility model, for ease of explanation, the cross-sectional views illustrating the device structure may be partially enlarged, not adhering to the usual scale. Furthermore, the schematic diagrams are merely examples and should not limit the scope of protection of this utility model. In addition, actual manufacturing should include the three-dimensional spatial dimensions of length, width, and depth.

[0033] Example 1

[0034] Reference Figure 1-4 This is the first embodiment of the present utility model, which provides a building engineering reinforcement structure, including a reinforcement ring frame 1;

[0035] Reinforcing ring 2 is installed above reinforcing ring 1;

[0036] The inclined support leg 5 is installed on the outer wall of the reinforced ring frame 1;

[0037] The reinforcing ring frame 1 includes a fixed arc plate 9, with an adjusting arc plate 12 at one end. A fastening adjustment assembly is provided on the outer wall of the fixed arc plate 9, used to detachably connect the fixed arc plate 9 and the adjusting arc plate 12. The fastening adjustment assembly includes a transverse threaded rod 11 and a nut 14. Arc plate mounting ears 13 are fixedly connected to both ends of the adjusting arc plate 12. A fixed transverse sleeve 10 is fixedly connected to the outer arc surface of the fixed arc plate 9. The transverse threaded rod 11 is fixedly connected to the inner wall of the fixed transverse sleeve 10, and the nut 14 is threaded onto the outer wall of the transverse threaded rod 11. One end of the transverse threaded rod 11 movably passes through the arc plate mounting ear 13.

[0038] Specifically, the ring frame structure formed by the connection of the fixed arc plate 9 and the adjusting arc plate 12, through the combination of the right-angle groove and the arc surface, can simultaneously adapt to both square and cylindrical load-bearing columns, thus solving the limitation of traditional reinforcement structures that can only adapt to a single column shape.

[0039] Example 2

[0040] The second embodiment of this utility model provides a technical solution: the upper surface of the fixed arc plate 9 is provided with an insertion hole 15, the inner wall of the insertion hole 15 is movably penetrated by a vertical support screw 4, and the outer wall of the vertical support screw 4 near the top end is movably penetrated to the top of the reinforcing ring frame 2.

[0041] The outer wall of the vertical support screw 4 is threaded with a fastening screw sleeve 8, and the top of the vertical support screw 4 is fixedly connected to a receiving arc plate 3, and the top of the receiving arc plate 3 is fixedly connected to a rubber pad.

[0042] The two ends of the fixed horizontal sleeve 10 are rotatably connected to inclined support legs 5, and the bottom end of the inclined support legs 5 is rotatably connected to an anti-slip support block 6.

[0043] Gaskets 7 are provided at both the upper and lower ends of the fixed arc plate 9.

[0044] The arc plate mounting lug 13 has a through hole adapted to the transverse threaded rod 11. The transverse threaded rod 11 passes through the fixed cross sleeve 10 and the arc plate mounting lug 13 in sequence and is then locked with the nut 14. The top of the reinforcing ring frame 2 has a positioning hole for the vertical support screw 4 to pass through. The top of the vertical support screw 4 extends to the top of the reinforcing ring frame 2 and connects with the receiving arc plate 3.

[0045] Specifically, the inclined support leg 5 can rotate and adjust within a range of 0-45°, forming a laterally stable support in conjunction with the anti-slip support block 6; the vertical support screw 4 achieves a rigid connection between the upper and lower ring frames through multiple sets of fastening sleeves 8, and at least three vertical support screws 4 are evenly distributed, significantly improving the overall support strength and avoiding deformation or collapse caused by uneven stress on the weighing column. The horizontal threaded rod 11 and nut 14 enable quick assembly and disassembly of the fixed arc plate 9 and the adjusting arc plate 12. The cooperation between the vertical support screw 4 and the fastening sleeve 8 allows for flexible adjustment of the spacing between the first and second reinforcement ring frames 1 and 2, adapting to reinforcement needs at different heights, and solving the problems of cumbersome installation and difficulty in adjustment of traditional welded or bolted fixed structures.

[0046] Example 3

[0047] The third embodiment of this utility model provides a technical solution: the rotatable connection between the inclined support leg 5 and the fixed cross sleeve 10 is achieved by a shaft pin, with snap rings at both ends of the shaft pin to ensure smooth rotation and prevent it from falling off. The rotation angle of 0-45° needs to be constrained by a limiting block, which is welded to the outer wall of the fixed cross sleeve 10.

[0048] Working principle:

[0049] The structural reinforcement process for this building project is as follows:

[0050] The reinforced ring frame 1 consists of two symmetrically distributed fixed arc plates 9. In use, the two fixed arc plates 9 are first attached to the outer wall of the weighing column. The two fixed arc plates 9 are connected by adjusting the arc plate 12 to form a ring frame structure. The arc plate mounting ears 13 at both ends of the adjusting arc plate 12 are fitted into the transverse threaded rods 11 on the fixed cross sleeves 10 on the outer wall of the fixed arc plate 9. Then, the nuts 14 are tightened to make the fixed arc plate 9 and the adjusting arc plate 12 align to form a right-angle groove at the ring frame joint suitable for square or cylindrical weighing columns. The arc part is suitable for square columns; the arc part is suitable for cylindrical columns.

[0051] The two ends of the fixed horizontal sleeve 10 are rotatably connected to the inclined support leg 5, and the inclined support leg 5 is extended outward to an angle of 0-45°. The anti-slip support block 6 at its bottom end abuts against the ground, providing lateral stability support for the reinforced ring frame 1.

[0052] The second reinforcing ring 2 is sleeved above the first reinforcing ring 1. The vertical support screw 4 passes through the positioning hole of the second reinforcing ring 2 and the insertion hole 15 on the fixed arc plate 9 in the first reinforcing ring 1. At least three sets of insertion holes 15 are opened on each fixed arc plate 9, corresponding to at least three vertical support screws 4. A set of fastening screw sleeves 8 are installed on the vertical support screw 4 between the first reinforcing ring 1 and the second reinforcing ring 2. Another set of fastening screw sleeves 8 is sleeved on the bottom end of the vertical support screw 4. The fixed support of the first reinforcing ring 1 and the second reinforcing ring 2 is achieved by locking the two sets of fastening screw sleeves 8.

[0053] The receiving arc plate 3 at the top of the vertical support screw 4 abuts against the bottom of the roof beam. The rubber pad at the top can buffer the pressure and prevent the roof beam from wearing out, ultimately forming a coordinated reinforcement support for the load-bearing column and the roof beam.

[0054] In summary, the ring frame structure formed by the connection of the fixed arc plate 9 and the adjusting arc plate 12, through the combination of the right-angle groove and the arc surface, can simultaneously adapt to both square and cylindrical load-bearing columns, thus overcoming the limitation of traditional reinforcement structures that can only adapt to a single column shape.

[0055] The vertical support screw, fastening sleeve, nut, and horizontal threaded rod used in this application can be additionally equipped with protective measures of common knowledge in this technical field under different usage environments, including but not limited to the following methods, such as protective covers for equipment protection, dustproof nets for equipment dust prevention, and sealing components or waterproof coatings for equipment waterproofing, which are commonly used by those skilled in the art.

[0056] It should be noted that the vertical support screw, fastening screw sleeve, nut and horizontal threaded rod are existing devices or equipment, or devices or equipment that can be implemented by existing technology. The power supply, connection method, usage method, power source, fixing method, installation method, control method and other methods of the equipment, as well as the materials of each accessory and the selection of various parameters are common knowledge to those skilled in the art, and therefore will not be described in detail in this application document.

[0057] It is important to note that the constructions and arrangements of this application shown in several different exemplary embodiments are merely illustrative. Although only a few embodiments are described in detail in this disclosure, those who consult this disclosure will readily understand that many modifications are possible (e.g., changes in the size, dimensions, structure, shape, and proportions of various elements, as well as parameter values ​​such as temperature, pressure, etc., installation arrangements, use of materials, color, orientation, etc.) without substantially departing from the novel teachings and advantages of the subject matter described in this application. For example, an element shown as integrally formed may be composed of multiple parts or elements, the position of elements may be inverted or otherwise altered, and the nature or number or position of discrete elements may be changed or altered. Therefore, all such modifications are intended to be included within the scope of this utility model. The order or sequence of any process or method steps may be changed or rearranged according to alternative embodiments. In the claims, any "device plus function" clause is intended to cover the structure described herein that performs the function, and not only structural equivalents but also equivalent structures. Other substitutions, modifications, alterations, and omissions may be made in the design, operation, and arrangement of the exemplary embodiments without departing from the scope of this utility model. Therefore, this invention is not limited to the specific embodiments, but extends to various modifications that still fall within the scope of the appended claims.

[0058] Furthermore, in order to provide a concise description of exemplary embodiments, not all features of actual embodiments (i.e., those features that are not relevant to the best mode of carrying out the present invention as currently considered, or those features that are not relevant to implementing the present invention) may be omitted.

[0059] It should be understood that numerous specific implementation decisions can be made during the development of any actual implementation method, and in any engineering or design project. Such development efforts may be complex and time-consuming, but for those of ordinary skill in the art who benefit from this disclosure, the development effort will be a routine work of design, manufacturing, and production without requiring much experimentation.

[0060] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.

Claims

1. A building reinforcement structure, characterized in that: Including reinforced ring frame 1 (1); Reinforcing ring frame 2 (2) is installed above reinforcing ring frame 1 (1); Inclined support leg (5) is installed on the outer wall of the reinforced ring frame (1); The reinforcing ring frame (1) includes a fixed arc plate (9), one end of which is provided with an adjusting arc plate (12). The outer wall of the fixed arc plate (9) is provided with a fastening adjustment assembly. The fastening adjustment assembly is used to detachably fix the fixed arc plate (9) and the adjusting arc plate (12). The fastening adjustment assembly includes a transverse threaded rod (11) and a nut (14). Both ends of the adjusting arc plate (12) are fixedly connected with arc plate mounting ears (13).

2. The building reinforcement structure according to claim 1, characterized in that: The outer arc surface of the fixed arc plate (9) is fixedly connected to a fixed cross sleeve (10), the transverse threaded rod (11) is fixedly connected to the inner wall of the fixed cross sleeve (10), the nut (14) is threaded onto the outer wall of the transverse threaded rod (11), and one end of the transverse threaded rod (11) movably passes through the arc plate mounting ear (13).

3. The building reinforcement structure according to claim 1, characterized in that: The upper surface of the fixed arc plate (9) is provided with a socket (15), and the inner wall of the socket (15) is movably penetrated by a vertical support screw (4). The outer wall of the vertical support screw (4) near the top end is movably penetrated to the top of the reinforcing ring frame two (2).

4. A building reinforcement structure according to claim 3, characterized in that: The outer wall of the vertical support screw (4) is threaded with a fastening screw sleeve (8), and the top of the vertical support screw (4) is fixedly connected with a receiving arc plate (3), and the top of the receiving arc plate (3) is fixedly connected with a rubber pad.

5. A building reinforcement structure according to claim 2, characterized in that: The two ends of the fixed horizontal sleeve (10) are rotatably connected to inclined support legs (5), and the bottom end of the inclined support legs (5) is rotatably connected to an anti-slip support block (6).

6. A building reinforcement structure according to claim 1, characterized in that: Gaskets (7) are provided at both the upper and lower ends of the fixed arc plate (9).

7. A building reinforcement structure according to claim 2, characterized in that: The arc plate mounting ear (13) has a through hole that matches the transverse threaded rod (11). The transverse threaded rod (11) passes through the fixed cross sleeve (10) and the arc plate mounting ear (13) in sequence and is then locked with the nut (14).

8. A building reinforcement structure according to claim 3, characterized in that: The top of the second reinforcing ring (2) is provided with a positioning hole for the vertical support screw (4) to pass through. The top of the vertical support screw (4) extends to the top of the second reinforcing ring (2) and is connected to the receiving arc plate (3).