Support hanger with anti-seismic structure
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MEIDE YACHANG (HEBI) PIPE IND CO LTD
- Filing Date
- 2025-09-05
- Publication Date
- 2026-06-26
Smart Images

Figure CN224414671U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of support and hanger technology, specifically a support and hanger with an anti-seismic structure. Background Technology
[0002] Supports and hangers are a collective term for brackets and hangers. They play a crucial role in various construction stages by bearing the weight of various components and their media, constraining and limiting unreasonable displacement of building components, and controlling component vibration. They are extremely important for the safe operation of building facilities. Supports and hangers are mainly used in electromechanical engineering facilities such as building water supply and drainage, fire protection, heating, ventilation, air conditioning, gas, heat, electricity, and communications.
[0003] For example, announcement number CN214699526U (titled "A Seismic-Resistant Prefabricated Support and Hanger for Shear Structures") includes a horizontal steel channel. A sleeve column is fixedly connected to one side of the lower surface of the horizontal steel channel. A connecting rod is movably connected to the middle of the lower surface of the sleeve column. A bottom steel channel is fixedly connected to the lower surface of the connecting rod. A first vertical steel channel is fixedly connected to one side of the upper surface of the horizontal steel channel. A fixing plate is fixedly connected to the upper surface of the first vertical steel channel. A second vertical steel channel is movably connected to the upper surface of the horizontal steel channel near the first vertical steel channel. A first fixing seat is movably connected to the top of the outer surface of the second vertical steel channel. The upper surface of the horizontal steel channel near the first vertical steel channel... A third vertical steel channel is movably connected to the other side of the channel. A second fixed seat is movably connected to the top of the outer surface of the third vertical steel channel. The three vertical steel channels form a triangular structure, which provides good fixation and seismic resistance, making it more stable and convenient to use. The fixing plate, the first fixed seat, and the second fixed seat are connected to the first, second, and third vertical steel channels via a rotating shaft. When the top surface is uneven, the installation angle can be adjusted according to the site conditions, thereby adjusting the direction of the support and hanger, facilitating installation, and providing good adaptability to use. This avoids safety hazards during the use of the support and hanger, thus preventing injury to people.
[0004] The aforementioned seismic bracing system is a portal frame structure that requires on-site assembly. It involves many parts and has complicated assembly and installation steps. Furthermore, achieving both lateral and longitudinal seismic resistance requires even more installation steps, which affects the efficiency of seismic bracing system installation and use. Therefore, we provide a seismic bracing system with a seismic-resistant structure. Utility Model Content
[0005] The purpose of this utility model is to provide a support bracket with an anti-seismic structure to solve the problem mentioned in the background art that the existing anti-seismic support brackets are portal frame structures that require on-site assembly during use, involve many parts, and have complicated assembly and installation steps. Furthermore, achieving bidirectional seismic resistance in both the lateral and longitudinal directions requires even more installation steps, which affects the efficiency of the installation and use of the anti-seismic support brackets.
[0006] To achieve the above objectives, the present invention provides the following technical solution: a support and hanger with an anti-seismic structure, including sleeve clamps, four sleeve clamps are provided, a first connector is provided above two adjacent sleeve clamps, and a first engagement component is integrally formed at the upper end of the first connector;
[0007] Also includes:
[0008] The second biting component is disposed at an obliquely above the first biting component, and the upper end of the second biting component is integrally formed with a second seat;
[0009] The bite joint is located inside the first bite component and the second bite component, and a first break-off bolt and a second break-off bolt are respectively provided on one side of the two bite joints;
[0010] A connecting steel pipe is positioned between the first and second engaging components, with both ends of the connecting steel pipe respectively connected to the engaging openings of the first and second engaging components.
[0011] The top frame is located at the top of the second connector, and expansion bolts are inserted through the mounting holes inside the top frame.
[0012] Preferably, each end of the sleeve clamp is integrally formed with an assembly edge block, and a butt bolt is provided between two adjacent assembly edge blocks. The first connector is connected to the two sleeve clamps through the butt bolt.
[0013] Preferably, through screw holes are provided at the positions where the first and second break-off bolts connect with the first and second engagement components, and the through screw holes are all connected to the engagement opening.
[0014] Preferably, a movable connecting shaft is provided at the connection position between the top connecting frame and the second connecting seat, and the top connecting frame is movably connected to the second connecting seat through the movable connecting shaft.
[0015] Preferably, the two ends of the connecting steel pipe are respectively fixedly connected to the first engagement component and the second engagement component by a first break-off bolt and a second break-off bolt.
[0016] Preferably, two adjacent sleeve clamps are symmetrically distributed about the first connector, and the two adjacent sleeve clamps are assembled and connected by butt bolts.
[0017] Preferably, the first and second biting components are located on different horizontal lines at their biting positions at the two ends of the connecting steel pipe.
[0018] Compared with the prior art, the beneficial effects of this utility model are:
[0019] This utility model requires only three components: sleeve clamps, a first connector, and a second connector. It can achieve a system that simultaneously meets the requirements of lateral and longitudinal seismic resistance. For single lateral or single longitudinal seismic resistance, only one connecting steel pipe is used, and only four threads need to be tightened: the butt bolt, the first break bolt, the second break bolt, and the expansion bolt. For bidirectional lateral and longitudinal seismic resistance, two connecting steel pipes are used, and only eight threads need to be tightened. The installation efficiency is greatly improved, overcoming the problem that existing seismic bracing systems are portal frame structures that require on-site assembly, involve many parts, and have complicated assembly and installation steps. Furthermore, achieving bidirectional lateral and longitudinal seismic resistance requires even more installation steps, which affects the installation and use efficiency of seismic bracing systems. Attached Figure Description
[0020] Figure 1 This is a side view of the support and hanger structure with earthquake resistance of this utility model;
[0021] Figure 2 This is a bottom view of the support and hanger structure with earthquake resistance of this utility model;
[0022] Figure 3 This is a top view of the support and hanger structure with earthquake resistance of this utility model;
[0023] Figure 4 This is an enlarged schematic diagram of part A of the present invention;
[0024] In the diagram: 1. Sleeve clamp; 2. Assembly block; 3. Butt bolt; 4. First connector; 5. First interlocking component; 6. Connecting steel pipe; 7. First break-off bolt; 8. Second interlocking component; 9. Second break-off bolt; 10. Second connector; 11. Top frame; 12. Movable connecting shaft; 13. Expansion bolt; 14. Interlocking joint; 15. Through bolt hole. Detailed Implementation
[0025] 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.
[0026] Please see Figure 1-4 An embodiment of this utility model is provided: a support and hanger with an anti-seismic structure, including a sleeve clamp 1, four sleeve clamps 1 are provided, a first connector 4 is provided above two adjacent sleeve clamps 1, and a first interlocking component 5 is integrally formed at the upper end of the first connector 4.
[0027] Also includes:
[0028] The second biting component 8 is located diagonally above the first biting component 5, and the upper end of the second biting component 8 is integrally formed with a second connector 10.
[0029] The bite opening 14 is located inside the first bite component 5 and the second bite component 8, and a first break bolt 7 and a second break bolt 9 are respectively provided on one side of the two bite openings 14.
[0030] A connecting steel pipe 6 is positioned between the first biting component 5 and the second biting component 8, with both ends of the connecting steel pipe 6 respectively connected to the biting opening 14 located in the first biting component 5 and the second biting component 8.
[0031] The top frame 11 is located at the top of the second connector 10, and an expansion bolt 13 is inserted through the mounting hole inside the top frame 11.
[0032] In use, only three components are needed: sleeve clamp 1, first connector 4, and second connector 10. This system can simultaneously meet the requirements of lateral and longitudinal seismic resistance. For single lateral or single longitudinal seismic resistance, only one connecting steel pipe 6 needs to be tightened, which requires tightening four threads: butt bolt 3, first break-off bolt 7, second break-off bolt 9, and expansion bolt 13. For bidirectional lateral and longitudinal seismic resistance, two connecting steel pipes 6 are used, which also requires tightening eight threads. The installation efficiency is greatly improved. The first engagement component 5 and the second engagement component 8 are engaged with the two ends of the connecting steel pipe 6. The first break-off bolt 7 and the second break-off bolt 9 are used. When the required torque is reached, the head will fall off, which proves that the installation is in place. There is no need to judge based on experience. The installation is standardized and visual.
[0033] Please see Figure 1 The sleeve clamp 1 has integrally formed assembly edge blocks 2 at both ends, and a butt bolt 3 is provided between two adjacent assembly edge blocks 2. The first connector 4 is connected to the two sleeve clamps 1 through the butt bolt 3. The integrally formed assembly edge blocks 2 at both ends of the sleeve clamp 1 serve to facilitate the assembly and connection of the two sleeve clamps 1 with the butt bolt 3. Please refer to [link / reference]. Figure 4 A through-hole 15 is provided at the connection position of the first breakable bolt 7 and the second breakable bolt 9 with the first engaging component 5 and the second engaging component 8. The through-hole 15 communicates with the engaging opening 14. The through-hole 15 at the connection position of the first breakable bolt 7 and the second breakable bolt 9 with the first engaging component 5 and the second engaging component 8 facilitates the through-and-tightening movement of the first breakable bolt 7 and the second breakable bolt 9. (See also...) Figure 1 A movable connecting shaft 12 is provided at the connection position between the top connecting frame 11 and the second connecting seat 10. The top connecting frame 11 is movably connected to the second connecting seat 10 via the movable connecting shaft 12. The movable connecting shaft 12 at the connection position between the top connecting frame 11 and the second connecting seat 10 serves to movably connect the top connecting frame 11 and the second connecting seat 10. Please refer to [link / reference]. Figure 1The two ends of the connecting steel pipe 6 are respectively fixedly connected to the first engaging component 5 and the second engaging component 8 by the first break-off bolt 7 and the second break-off bolt 9. Please refer to [link / reference]. Figure 1 Two adjacent sleeve clamps 1 are symmetrically distributed about the first connector 4. Two adjacent sleeve clamps 1 are assembled and connected by butt bolts 3. Please refer to [link / reference]. Figure 1 The first biting component 5 and the second biting component 8 are located on different horizontal lines at the biting positions at both ends of the connecting steel pipe 6.
[0034] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
Claims
1. A support with an anti-seismic structure, including sleeve clamps (1), four sleeve clamps (1) are provided, and a first connector (4) is provided above two adjacent sleeve clamps (1), and a first interlocking component (5) is integrally formed at the upper end of the first connector (4). characterized in that Also includes: The second biting component (8) is located at an oblique position above the first biting component (5), and the upper end of the second biting component (8) is integrally formed with a second connector (10). The bite opening (14) is located inside the first bite component (5) and the second bite component (8), and a first break bolt (7) and a second break bolt (9) are respectively provided on one side of the two bite openings (14). A connecting steel pipe (6) is positioned between the first biting component (5) and the second biting component (8), with both ends of the connecting steel pipe (6) respectively connected to the biting openings (14) of the first biting component (5) and the second biting component (8); The top frame (11) is located at the top of the second connector (10), and an expansion bolt (13) is inserted through the mounting hole inside the top frame (11).
2. The support frame with an anti-seismic structure according to claim 1, characterized in that: The two ends of the sleeve clamp (1) are integrally formed with assembly edge blocks (2), and a butt bolt (3) is provided between two adjacent assembly edge blocks (2). The first connector (4) is connected to the two sleeve clamps (1) through the butt bolt (3).
3. A support frame with an anti-seismic structure according to claim 1, characterized in that: The first break bolt (7) and the second break bolt (9) are provided with through screw holes (15) at the positions where they connect with the first engagement component (5) and the second engagement component (8). The through screw holes (15) are all connected to the engagement opening (14).
4. A support frame with an anti-seismic structure according to claim 1, characterized in that: A movable connecting shaft (12) is provided at the connection position between the top connecting frame (11) and the second connecting seat (10), and the top connecting frame (11) is movably connected to the second connecting seat (10) through the movable connecting shaft (12).
5. A support frame with an anti-seismic structure according to claim 1, characterized in that: The two ends of the connecting steel pipe (6) are respectively connected to the first engagement component (5) and the second engagement component (8) by the first break bolt (7) and the second break bolt (9).
6. A support frame with an anti-seismic structure according to claim 2, characterized in that: The two adjacent sleeve clamps (1) are symmetrically distributed about the first connector (4), and the two adjacent sleeve clamps (1) are assembled and connected by butt bolts (3).
7. A support frame with an anti-seismic structure according to claim 1, characterized in that: The first biting component (5) and the second biting component (8) are located on different horizontal lines at the biting positions at both ends of the connecting steel pipe (6).