A reinforcing structure for a building construction structural engineering
By using adjustable-length reinforcing threaded rods and connecting components in building structures, the problem that fixed-length reinforcing threaded rods cannot adapt to diverse building environments is solved, achieving stable reinforcement and flexible adjustment of the structure.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SIHUI CONSTR GRP
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-23
AI Technical Summary
In existing building structural reinforcement projects, fixed-length threaded reinforcement rods are difficult to adapt to diverse building environments and needs, leading to structural instability.
The system employs an adjustable length first and second reinforcing threaded rod, and achieves distance adjustment and stable connection between the two through adjusting and connecting components, including the use of adjusting sleeves with forward and reverse threads, connecting rods, and springs.
It achieves flexible adjustment and stability of the reinforced structure, adapts to buildings of different heights, and improves the stability and versatility of the structure.
Smart Images

Figure CN224396108U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of building reinforcement, and in particular to a building structural reinforcement structure. Background Technology
[0002] A related technology, CN201880361U, describes a column reinforcement structure for buildings, comprising a reinforcing threaded rod and a positioning plate. The positioning plate has a central through-hole for a side mounting hole, into which a pre-embedded bolt is installed. A horizontal bolt is installed through a stabilizing hole, and a positioning nut is mounted on the horizontal bolt. An inner clamping plate is fixed to the end of the horizontal bolt, and the inner clamping plate is in contact with the surface of the column body. A support rod is rotatably mounted on the outer side of the positioning plate away from the reinforcing threaded rod, and the end of the support rod is rotatably connected to one end of a support plate. This column reinforcement structure, through its novel structural design, not only enables a rapid and stable connection between the cladding steel structure and the column, improving the tightness of the connection, but also enhances the connection between the column and the ground, and between the column and the ceiling. Furthermore, it integrates the upper and lower reinforcement structures, significantly increasing the overall structural strength of the column.
[0003] In the aforementioned technology for reinforcing building structures, the reinforcing threaded rods are of fixed length. While this method can achieve a certain level of fixation, in practical applications, due to the diversity of building environments and needs, fixed-length reinforcing threaded rods are difficult to meet the requirements of all scenarios. Utility Model Content
[0004] To address the issue that current building structure reinforcement structures use fixed-length threaded rods for connection and reinforcement, while this method achieves a certain level of fixation, it is difficult to meet the needs of all scenarios due to the diversity of building environments and requirements. Therefore, this application provides a building structure reinforcement structure.
[0005] The technical solution for a building structure reinforcement structure provided in this application is as follows: it includes a first reinforcing threaded rod, a second reinforcing threaded rod disposed opposite to the first reinforcing threaded rod, a base plate disposed at the other end of the first reinforcing threaded rod and the second reinforcing threaded rod respectively, an adjustment component for adjusting the length between the first reinforcing threaded rod and the second reinforcing threaded rod, and a connection component for connecting the first reinforcing threaded rod and the second reinforcing threaded rod.
[0006] By adopting the above technical solution, the first reinforcing threaded rod and the second reinforcing threaded rod are connected to both ends of the building structure through a base plate. By installing the first reinforcing threaded rod, the second reinforcing threaded rod arranged opposite to it, and the adjustment component in the building structure, the relative distance between the two can be adjusted according to the needs, which is suitable for building structures of different heights. During the adjustment process, the first reinforcing threaded rod and the second reinforcing threaded rod are connected by the connecting component to ensure the stability of the reinforced structure. This effectively avoids the structural instability caused by the fixed distance being unsuitable for buildings of different heights, and achieves efficient and stable reinforcement of the structure.
[0007] As a preferred embodiment, the adjustment assembly includes a first adjustment thread disposed at the end of the first reinforcing threaded rod away from the substrate, a second adjustment thread disposed at the end of the second reinforcing threaded rod away from the substrate, and an adjustment sleeve disposed on the outer periphery of the first and second adjustment threads and adapted thereto. The first adjustment thread is configured as a forward thread, the second adjustment thread is configured as a reverse thread, and the inner cavity of the adjustment sleeve is respectively provided with an internal thread adapted to the first and second adjustment threads.
[0008] By adopting the above technical solution, an adjusting sleeve is fitted onto the first adjusting thread and the second adjusting thread. The first adjusting thread is a forward thread, and the second adjusting thread is a reverse thread. The inner cavity of the adjusting sleeve is equipped with internal threads adapted to both. When the adjusting sleeve is rotated, the first adjusting thread, matching the thread of the adjusting sleeve's inner cavity, moves in one direction, while the second adjusting thread, moving in the opposite direction, causes the adjusting sleeve to move in the opposite direction. This design allows for precise, bidirectional, double-helix adjustment between the first and second reinforcing threaded rods by rotating the adjusting sleeve. This effectively adjusts the relative position between the first and second reinforcing threaded rods, providing stable support and adjustment functions to meet various application scenarios.
[0009] As a preferred embodiment, the outer periphery of the adjusting screw sleeve is provided with an anti-slip sleeve, and the anti-slip sleeve is made of rubber.
[0010] By adopting the above technical solution, the adjusting screw sleeve, with its anti-slip sleeve on its outer periphery and made of rubber, effectively improves the operator's grip stability, making adjustment more convenient.
[0011] As a preferred embodiment, the connecting assembly includes a connecting rod fixedly disposed at the end of the first reinforcing threaded rod away from the base plate, a connecting spring disposed on the outer periphery of the connecting rod, and a sliding groove disposed at one end of the second reinforcing threaded rod and adapted to the connecting rod, wherein the outer diameter of the connecting spring is smaller than the inner diameter of the adjusting sleeve.
[0012] By adopting the above technical solution, when the adjusting sleeve adjusts the relative distance between the first reinforcing threaded rod and the second reinforcing threaded rod, interference with the position of the connecting spring is avoided.
[0013] As a preferred embodiment, one end of the connecting spring is fixedly connected to one end of the connecting rod relative to the first reinforcing threaded rod, and the other end of the connecting spring is fixedly connected to one end of the second reinforcing threaded rod relative to the connecting rod.
[0014] By adopting the above technical solution, the connecting rod fixedly installed at the end of the first reinforcing threaded rod engages with the sliding groove on the second reinforcing threaded rod, and a connecting spring sleeved on the outside of the connecting rod is used. When the distance between the first and second reinforcing threaded rods changes, the connecting rod can move horizontally in the sliding groove, while the connecting spring maintains the tension between the two through its own elasticity. This effectively ensures the stability of the first and second reinforcing threaded rods when reinforcing the house.
[0015] As a preferred embodiment, the system further includes a slider fixedly disposed at the end of the connecting rod away from the first reinforcing threaded rod, guide blocks fixedly disposed on both sides of the slider, and a guide groove disposed on the inner wall of the slide groove and adapted to the guide blocks.
[0016] By adopting the above technical solution, a slider is fixedly installed at the end of the connecting rod away from the first reinforcing threaded rod, and guide blocks are fixedly installed on both sides of the slider. Simultaneously, guide grooves adapted to the guide blocks are provided on the inner wall of the slide groove, achieving precise guidance of the horizontally moving connecting rod within the slide groove. The working principle is as follows: when the connecting rod moves in the slide groove, the slider moves accordingly, while the guide blocks on both sides of the slider slide within the guide grooves. Due to the complementary effect between the guide blocks and the guide grooves, the connecting rod always moves along a certain trajectory during its movement, thus achieving precise guidance of the connecting rod.
[0017] In summary, this application includes the following beneficial technical effects:
[0018] 1. By setting a first reinforcing threaded rod and a second reinforcing threaded rod arranged opposite to it, and installing a base plate at the other end of each, the distance between the first reinforcing threaded rod and the second reinforcing threaded rod can be flexibly adjusted by means of an adjustment component, thereby adapting to building structures of different heights;
[0019] 2. The connecting components ensure a tight connection between the two during adjustment, effectively improving the stability of the reinforced structure. This solves the problem that traditional fixed-spacing reinforced structures cannot adapt to the needs of various building heights, achieving a balance between flexible structural adjustment and stable reinforcement, and greatly enhancing the versatility and safety of the application. Attached Figure Description
[0020] Figure 1 This is a structural schematic diagram of the overall structure of the building structural reinforcement project in this application;
[0021] Figure 2 This is a schematic diagram of a half-section view of the adjusting screw sleeve in the reinforcement structure of the building structure engineering of this application;
[0022] Figure 3 This is a structural schematic diagram of the connecting components in the reinforcement structure of the building structure engineering of this application;
[0023] Figure 4 This is a structural schematic diagram of the assembly of the connecting components and guide blocks in the reinforcement structure of the building structure engineering of this application;
[0024] Figure 5 It is the reinforcement structure of the building structure engineering in this application. Figure 3 A structural schematic diagram of the enlarged view at point A.
[0025] Explanation of reference numerals in the attached drawings: 1. First reinforcing threaded rod; 11. First adjusting thread; 2. Second reinforcing threaded rod; 21. Second adjusting thread; 22. Slide groove; 221. Guide groove; 3. Base plate; 4. Adjusting sleeve; 5. Connecting rod; 51. Connecting spring; 52. Sliding block; 521. Guide block. Detailed Implementation
[0026] The present application will be further described in detail below with reference to the accompanying drawings.
[0027] refer to Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 5This application discloses a reinforcement structure for building structures. It includes a first reinforcing threaded rod 1, a second reinforcing threaded rod 2 opposite to the first reinforcing threaded rod 1, a base plate 3 respectively disposed at the other end of the first and second reinforcing threaded rods 1 and 2, an adjustment component for adjusting the length between the first and second reinforcing threaded rods 1 and 2, and a connecting component for connecting the first and second reinforcing threaded rods 1 and 2. In this invention, the first and second reinforcing threaded rods 1 and 2 are connected to both ends of the building structure via the base plate 3. By installing the first reinforcing threaded rod 1, the second reinforcing threaded rod 2 opposite to it, and the adjustment component in the building structure, the relative distance between them can be adjusted according to needs, making it suitable for building structures of different heights. During the adjustment process, the first and second reinforcing threaded rods 1 and 2 are connected by the connecting component, ensuring the stability of the reinforcement structure and effectively avoiding structural instability caused by a fixed distance being unsuitable for buildings of different heights, thus achieving efficient and stable reinforcement of the structure.
[0028] Please refer to the details. Figure 2 , Figure 3 and Figure 4 The system includes a first reinforcing threaded rod 1, a second reinforcing threaded rod 2 disposed opposite to the first reinforcing threaded rod 1, a base plate 3 disposed at the other ends of the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2 respectively, an adjustment assembly for adjusting the length between the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2, and a connecting assembly for connecting the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2; wherein, the adjustment assembly includes a first adjustment thread 11 disposed at the end of the first reinforcing threaded rod 1 away from the base plate 3, and a second adjustment thread 2 disposed at the end of the second reinforcing threaded rod 2 away from the base plate 3. 1. An adjusting sleeve 4 adapted to the outer periphery of the first adjusting thread 11 and the second adjusting thread 21. The first adjusting thread 11 is a forward thread and the second adjusting thread 21 is a reverse thread. The inner cavity of the adjusting sleeve 4 is respectively provided with internal threads adapted to the first adjusting thread 11 and the second adjusting thread 21. The adjusting sleeve 4 is fitted onto the first adjusting thread 11 and the second adjusting thread 21, wherein the first adjusting thread 11 is a forward thread and the second adjusting thread 21 is a reverse thread, and the inner cavity of the adjusting sleeve 4 is respectively equipped with internal threads adapted to both.
[0029] Please refer to the details. Figure 2 and Figure 3When the adjusting sleeve 4 is rotated, the first adjusting thread 11 matches the thread inside the adjusting sleeve 4, causing it to move in one direction. The second adjusting thread 21, however, moves in the opposite direction, causing the adjusting sleeve 4 to move in the opposite direction. This design allows for precise, bidirectional, double-helix adjustment between the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2 by rotating the adjusting sleeve 4. This effectively adjusts the relative position between the first and second reinforcing threaded rods 1 and 2, providing stable support and adjustment capabilities to meet various application scenarios.
[0030] Please refer to the details. Figure 1 and Figure 2 To facilitate adjustment of the adjusting screw sleeve 4, an anti-slip sleeve is provided on the outer periphery of the adjusting screw sleeve 4. The anti-slip sleeve is made of rubber. By providing an anti-slip sleeve on its outer periphery and using rubber material, the adjusting screw sleeve 4 effectively improves the operator's grip stability and makes adjustment more convenient.
[0031] Please refer to the details. Figure 3 , Figure 4 and Figure 5 The connecting assembly includes a connecting rod 5 fixedly disposed at the end of the first reinforcing threaded rod 1 away from the base plate 3, a connecting spring 51 disposed on the outer periphery of the connecting rod 5, and a sliding groove 22 disposed at one end of the second reinforcing threaded rod 2 that is adapted to the connecting rod 5. The outer diameter of the connecting spring 51 is smaller than the inner diameter of the adjusting sleeve 4. When the adjusting sleeve 4 adjusts the relative distance between the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2, it avoids positional interference with the connecting spring 51.
[0032] Please refer to the details. Figure 3 One end of the connecting spring 51 is fixedly connected to one end of the connecting rod 5 relative to the first reinforcing threaded rod 1, and the other end of the connecting spring 51 is fixedly connected to one end of the second reinforcing threaded rod 2 relative to the connecting rod 5. By cooperating with the sliding groove 22 on the connecting rod 5 fixedly set at the end of the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2, and by utilizing the connecting spring 51 sleeved on the outside of the connecting rod 5, when the distance between the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2 changes, the connecting rod 5 can move horizontally in the sliding groove 22, while the connecting spring 51 maintains the tension between the two through its own elasticity, thereby effectively ensuring the stability of the house when the first reinforcing threaded rod 1 and the second reinforcing threaded rod 2 reinforce it.
[0033] Please refer to the details. Figure 4 and Figure 5To guide the connecting rod 5 during its movement, the system includes a slider 52 fixedly disposed at the end of the connecting rod 5 away from the first reinforcing threaded rod 1, guide blocks 521 fixedly disposed on both sides of the slider 52, and guide grooves 221 disposed on the inner wall of the slide groove 22 that are adapted to the guide blocks 521. By fixing the slider 52 at the end of the connecting rod 5 away from the first reinforcing threaded rod 1, and fixing the guide blocks 521 on both sides of the slider 52, while providing guide grooves 221 on the inner wall of the slide groove 22 that are adapted to the guide blocks 521, the system achieves precise guidance of the horizontally moving connecting rod 5 in the slide groove 22. The working principle is as follows: when the connecting rod 5 moves in the slide groove 22, the slider 52 moves accordingly, while the guide blocks 521 on both sides of the slider 52 slide within the guide grooves 221. Due to the complementary effect between the guide blocks 521 and the guide grooves 221, the connecting rod 5 always moves along a certain trajectory during its movement, thereby achieving precise guidance of the connecting rod 5.
[0034] The implementation principle of a building structure reinforcement structure according to an embodiment of this application is as follows: In use, the first reinforcement threaded rod 1 and the second reinforcement threaded rod are connected to both ends of the building through the base plate 3. When the adjusting sleeve 4 is rotated, the first adjusting thread 11 will move in one direction because it matches the thread of the inner cavity of the adjusting sleeve 4, while the second adjusting thread 21 will move in the opposite direction because it is in the opposite direction. This design allows for precise bidirectional adjustment of the first and second reinforcing threaded rods 1 and 2 via a rotating adjusting sleeve 4. When the distance between the first and second reinforcing threaded rods 1 and 2 changes, the connecting rod 5 can move horizontally within the slide groove 22. The connecting spring 51 maintains tension between them through its elasticity, effectively ensuring the stability of the reinforcement of the building by the first and second reinforcing threaded rods 1 and 2. As the connecting rod 5 moves within the slide groove 22, the slider 52 moves accordingly, while the guide blocks 521 on both sides of the slider 52 slide within the guide groove 221. Due to the complementary effect between the guide blocks 521 and the guide groove 221, the connecting rod 5 always moves along a specific trajectory during its movement, thus achieving precise guidance of the connecting rod 5.
[0035] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A structural reinforcement structure for building construction, characterized in that: It includes a first reinforcing threaded rod (1), a second reinforcing threaded rod (2) disposed opposite to the first reinforcing threaded rod (1), a base plate (3) disposed at the other end of the first reinforcing threaded rod (1) and the second reinforcing threaded rod (2), an adjustment component for adjusting the length between the first reinforcing threaded rod (1) and the second reinforcing threaded rod (2), and a connection component for connecting the first reinforcing threaded rod (1) and the second reinforcing threaded rod (2).
2. The building structure reinforcement structure according to claim 1, characterized in that: The adjustment assembly includes a first adjustment thread (11) disposed at the end of the first reinforcing threaded rod (1) away from the base plate (3), a second adjustment thread (21) disposed at the end of the second reinforcing threaded rod (2) away from the base plate (3), and an adjustment sleeve (4) disposed on the outer periphery of the first adjustment thread (11) and the second adjustment thread (21) and adapted thereto.
3. The building structure reinforcement structure according to claim 2, characterized in that: The first adjusting thread (11) is configured as a forward thread, and the second adjusting thread (21) is configured as a reverse thread. The inner cavity of the adjusting sleeve (4) is respectively provided with internal threads that are compatible with the first adjusting thread (11) and the second adjusting thread (21).
4. The building structure reinforcement structure according to claim 3, characterized in that: The outer periphery of the adjusting screw sleeve (4) is provided with an anti-slip sleeve, which is made of rubber.
5. A building structure reinforcement structure according to claim 4, characterized in that: The connecting assembly includes a connecting rod (5) fixedly disposed at one end of the first reinforcing threaded rod (1) away from the base plate (3), a connecting spring (51) disposed on the outer periphery of the connecting rod (5), and a sliding groove (22) disposed at one end of the second reinforcing threaded rod (2) and adapted to the connecting rod (5). The outer diameter of the connecting spring (51) is smaller than the inner diameter of the adjusting sleeve (4).
6. A building structure reinforcement structure according to claim 5, characterized in that: One end of the connecting spring (51) is fixedly connected to one end of the connecting rod (5) relative to the first reinforcing threaded rod (1), and the other end of the connecting spring (51) is fixedly connected to one end of the second reinforcing threaded rod (2) relative to the connecting rod (5).
7. A building structure reinforcement structure according to claim 6, characterized in that: It also includes a slider (52) fixedly disposed on the end of the connecting rod (5) away from the first reinforcing threaded rod (1), guide blocks (521) fixedly disposed on both sides of the slider (52), and guide groove (221) disposed on the inner wall of the slide groove (22) and adapted to the guide blocks (521).
8. A building structure reinforcement structure according to claim 7, characterized in that: The inner wall of the guide block (521) is tangential to the inner cavity of the guide groove (221), and the guide groove (221) is arranged in the height direction of the slide groove (22).