Climbing frame support device for a special-shaped building structure
By adjusting the lateral support arm and guide support frame, and combining the telescopic locking of the rear tie rod positioning assembly, the stability and safety issues of traditional climbing scaffolding on irregularly shaped buildings are solved, achieving efficient construction and installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA METALLURGICAL CONSTR (TIANJIN) CONSTR ENG CO LTD
- Filing Date
- 2025-04-30
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional climbing scaffolds cannot effectively fit and attach to irregularly shaped building structures, making it difficult to guarantee their stability and safety, thus affecting the construction progress.
The system employs a horizontal support arm in conjunction with a base installation. The guide support frame mechanism is rotatable and adjustable, and the rear tie rod positioning component is telescopic and adjustable. The overall structure can be adjusted and installed according to the inclination of the climbing frame, forming multi-point support.
It improved construction efficiency, reduced the amount of additional construction adjustments and modifications, and shortened the construction cycle.
Smart Images

Figure CN224338595U_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of building construction, and more specifically to a climbing frame support device for irregularly shaped building structures. Background Technology
[0002] In modern construction engineering, with the continuous innovation and diversification of architectural design, more and more irregularly shaped buildings are emerging. Traditional attached lifting scaffolding (climbing scaffolding) is mainly designed for conventional rectangular or regular-shaped building structures. It has certain limitations in terms of structural form, attachment method and lifting adjustment, making it difficult to directly apply to irregularly shaped buildings.
[0003] For irregularly shaped buildings, the exterior facade is irregular in shape, and the wall tilt angle and curvature vary greatly. Traditional climbing scaffolds cannot effectively fit and attach to the irregular building structure, making it difficult to guarantee the stability and safety of the climbing scaffold. Therefore, it is necessary to effectively fix the climbing scaffold support device during the construction of irregular building structures to ensure its stability after the limit installation. At the same time, it is necessary to make the installation and adjustment convenient and quick so as not to affect the construction progress.
[0004] Therefore, to solve the above problems, a climbing frame support device for irregular building structures is needed to solve the aforementioned production issues. Summary of the Invention
[0005] In view of this, the climbing formwork support device for irregular building structures in this technical solution forms a positioning support point by cooperating with the horizontal support arm and the base installation. The guide support frame mechanism can be rotated and adjusted relative to the horizontal support arm and is used to position and support the climbing formwork for irregular building structures. The rear tie rod positioning component can be telescopically adjusted and locked to the floor. The overall structure can be adjusted and installed according to the inclination of the climbing formwork, which reduces the amount of additional construction adjustments and modifications required due to special structures, improves construction efficiency, and shortens the construction cycle.
[0006] A climbing formwork support device for irregular building structures includes a base installed on the floor, a transverse support arm installed on the base, a guide support frame mechanism hinged to the front end of the transverse support arm, and a rear tie rod positioning assembly hinged to the rear end of the transverse support arm; the guide support frame mechanism can be rotated and adjusted relative to the transverse support arm and is used for positioning and supporting the climbing formwork, and the rear tie rod positioning assembly can be telescopically adjusted and locked to the floor.
[0007] Furthermore, the guide support frame mechanism includes a cantilever hinged to the front end of the transverse support arm, a front telescopic guide rod disposed between the cantilever and the transverse support arm, and a guide support frame assembly installed in conjunction with the cantilever. The telescopic adjustment of the front telescopic guide rod causes the cantilever to rotate relative to the transverse support arm.
[0008] Furthermore, the guide support frame assembly includes a guide frame fixedly connected to the end of the cantilever, a support arm disposed between the guide frame and the cantilever, and a top support telescopic frame rotatably mounted on the upper end of the support arm. The guide frame is used to guide the climbing frame installation, and the top support telescopic frame is telescopically adjustable and provides positioning support for the climbing frame.
[0009] Furthermore, the rear tie rod positioning assembly includes a rear telescopic tie rod and a rear tie rod positioning seat. One end of the rear telescopic tie rod is hinged to the rear end of the transverse support arm, and the other end of the rear telescopic tie rod is hinged to the rear tie rod positioning seat. The rear tie rod positioning seat is locked to the floor by a rear locking member.
[0010] Furthermore, there are multiple bases, and the multiple bases are evenly distributed along the length of the horizontal support arm at the lower end of the horizontal support arm. The horizontal support arm is installed in conjunction with the bases and locked to the floor by vertical locking components.
[0011] Furthermore, a supporting angle steel is provided between the cantilever and the guide frame.
[0012] The beneficial effects of this invention are:
[0013] This technical solution provides a climbing formwork support device for irregular building structures. Through the horizontal support arm and base installation, a positioning support point is formed. The guide support frame mechanism can rotate and adjust relative to the horizontal support arm and is used to position and support the climbing formwork for irregular building structures. The rear tie rod positioning component can be telescopically adjusted and locked to the floor. The overall structure can be adjusted and installed according to the inclination of the climbing formwork, reducing the amount of additional construction adjustments and modifications required due to special structures, improving construction efficiency, and shortening the construction cycle. Attached Figure Description
[0014] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0015] Figure 1 This is a schematic diagram of the overall structure of the present invention;
[0016] Figure 2 This is a schematic diagram of the overall installation and construction of the present invention. Detailed Implementation
[0017] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2 This is a schematic diagram of the overall installation and construction of the present invention; as shown in the figure, a climbing formwork support device for irregular building structures includes a base 11 installed on the floor 12, a transverse support arm 10 installed on the base 11, a guide support frame mechanism hinged to the front end of the transverse support arm 10, and a rear end hinged to the rear end of the transverse support arm 10 (i.e., front and rear). Figure 1The rear tie rod positioning assembly (in the left and right directions) is provided; the guide support frame mechanism can be rotated and adjusted relative to the transverse support arm 10 and is used for positioning and supporting the climbing frame; the rear tie rod positioning assembly can be telescopically adjusted and locked to the floor 12; the climbing frame support device for irregular building structures in this technical solution forms a positioning support point by cooperating with the transverse support arm and the base 11. The guide support frame mechanism can be rotated and adjusted relative to the transverse support arm and is used for positioning and supporting the climbing frame for irregular building structures. The rear tie rod positioning assembly can be telescopically adjusted and locked to the floor. The overall structure can be adjusted and installed according to the inclination of the climbing frame, which reduces the amount of additional construction adjustments and modifications required due to special structures, improves construction efficiency, and shortens the construction cycle.
[0018] In this embodiment, the guide support frame mechanism includes a cantilever 8 hinged to the front end of the transverse support arm 10, a front telescopic guide rod 9 disposed between the cantilever 8 and the transverse support arm 10, and a guide support frame assembly installed in conjunction with the cantilever 8. The telescopic adjustment of the front telescopic guide rod 9 drives the cantilever 8 to rotate relative to the transverse support arm 10. The transverse support arm 10 and the cantilever 8 can be made of I-beams or other steel structures, serving as support anchors for the main structure. The two ends of the front telescopic guide rod 9 (which can be an existing hydraulic telescopic rod or other telescopic rod structure) are respectively hinged to the transverse support arm 10 and the cantilever 8. The telescopic adjustment of the front telescopic guide rod 9 can realize the rotation angle adjustment of the cantilever 8 relative to the transverse support arm 10.
[0019] In this embodiment, the guide support frame assembly includes a guide frame 4 fixedly connected to the end of the cantilever 8, a support arm 6 disposed between the guide frame 4 and the cantilever 8, and a top support telescopic frame 3 rotatably mounted on the upper end of the support arm 6. The guide frame cooperates with the climbing frame for guidance and installation. The top support telescopic frame 3 (which can adopt an existing telescopic rod structure) is telescopically adjustable and provides positioning support for the climbing frame 1. The climbing frame 1 is installed with the guide rail 2, and the guide frame 4 is fixedly installed with the front end of the cantilever 8. The guide frame 4 is used to guide and limit the installation of the guide rail 2. The top support telescopic frame 3 at the upper end of the support arm 6 can be rotated and adjusted relative to the support arm 6, and it can also be telescopically adjusted. After the top support telescopic frame 3 is telescopically adjusted to a suitable position, it cooperates with the guide rail 2 for support and installation. Through the structure of the guide frame 4 and the top support telescopic frame 3, multi-point support is formed for the guide rail 2 and the climbing frame 1, ensuring its installation stability.
[0020] In this embodiment, the rear pull rod positioning assembly includes a rear telescopic pull rod 14 and a rear pull rod positioning seat 15. One end of the rear telescopic pull rod 14 is hinged to the rear end of the transverse support arm 10, and the other end of the rear telescopic pull rod 14 is hinged to the rear pull rod positioning seat 15. The rear pull rod positioning seat 15 is locked to the floor 12 by a rear locking member 16. The rear telescopic pull rod 14 is telescopically adjustable to facilitate the selection and installation of positions between components. The front end of the rear telescopic pull rod 14 is hinged to the transverse support arm 10, and the rear end of the rear telescopic pull rod 14 is hinged to the rear pull rod positioning seat 15. The rear pull rod positioning seat 15 is fixed to the floor 12 by the locking member 16, forming effective support for the overall structure and improving its overall stability.
[0021] In this embodiment, there are multiple bases 11, which are evenly distributed along the length of the horizontal support arm at its lower end. The horizontal support arm 10 is installed in conjunction with the bases 11 and locked to the floor by vertical locking members 13. Multiple bases 11 can be arranged according to the length of the horizontal support arm, and the height of the bases 11 can be selected according to different construction requirements. The vertical locking members 13 pass through the horizontal support arm 10, the bases 11, and the floor and lock them in place to ensure stable and reliable installation.
[0022] In this embodiment, a supporting angle steel 7 is provided to connect the cantilever 8 and the guide frame 4. The supporting angle steel 7 is installed at the lower end of its contact surface to improve the structural strength. A fall arrestor 5 (an existing fall arrestor can be used) is installed on the side of the supporting arm 6 to ensure safety during use.
[0023] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to limit it. Although the present invention 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 solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all such modifications or substitutions should be covered within the scope of the claims of the present invention.
Claims
1. A climbing frame support device for irregularly shaped building structures, characterized in that: It includes a base installed on the floor, a horizontal support arm installed on the base, a guide support frame mechanism hinged to the front end of the horizontal support arm, and a rear tie rod positioning assembly hinged to the rear end of the horizontal support arm; the guide support frame mechanism can be rotated and adjusted relative to the horizontal support arm and is used for positioning and supporting the climbing frame, and the rear tie rod positioning assembly can be telescopically adjusted and locked to the floor.
2. The climbing frame support device for irregular building structures according to claim 1, characterized in that: The guide support frame mechanism includes a cantilever hinged to the front end of the transverse support arm, a front telescopic guide rod disposed between the cantilever and the transverse support arm, and a guide support frame assembly installed in conjunction with the cantilever. The telescopic adjustment of the front telescopic guide rod causes the cantilever to rotate relative to the transverse support arm.
3. The climbing frame support device for irregular building structures according to claim 2, characterized in that: The guide support frame assembly includes a guide frame fixedly connected to the end of the cantilever, a support arm disposed between the guide frame and the cantilever, and a top support telescopic frame rotatably mounted on the upper end of the support arm. The guide frame is used to guide the climbing frame installation, and the top support telescopic frame is adjustable and provides positioning support for the climbing frame.
4. The climbing frame support device for irregular building structures according to claim 1, characterized in that: The rear tie rod positioning assembly includes a rear telescopic tie rod and a rear tie rod positioning seat. One end of the rear telescopic tie rod is hinged to the rear end of the transverse support arm, and the other end of the rear telescopic tie rod is hinged to the rear tie rod positioning seat. The rear tie rod positioning seat is locked to the floor by a rear locking member.
5. The climbing form support device for irregular building structures according to claim 1, characterized in that: The base consists of multiple bases, which are evenly distributed along the length of the horizontal support arm at the lower end of the horizontal support arm. The horizontal support arm is installed in conjunction with the base and locked to the floor by a vertical locking device.
6. The climbing frame support device for irregular building structures according to claim 3, characterized in that: A supporting angle steel is provided between the cantilever and the guide frame.