A building construction climbing frame
The design of the steel structure support components and the top lifting components solves the problems of complicated installation and disassembly and poor stability of the construction climbing formwork, and realizes convenient construction operation and improved safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- THE THIRD CONSTR OF CHINA CONSTR EIGHTH ENG BUREAU
- Filing Date
- 2025-07-08
- Publication Date
- 2026-07-14
AI Technical Summary
The installation and dismantling of climbing scaffolds in construction involves a large amount of work, and the overall movement is troublesome. The stability of the suspended scaffold or lifting platform is poor, which affects construction efficiency and safety.
The design incorporates steel structure support components, a top lifting component, and a suspended platform, including four uprights, a top plate, a support frame, an X-frame, I-beams, and an electric hoist. The suspended platform is lifted by the electric hoist, and combined with a limit mechanism and a safety net, it improves stability and convenience.
This improved the stability of the suspended platform, simplified the installation, dismantling, and movement of the construction scaffolding, increased the working space, and enhanced construction efficiency and safety.
Smart Images

Figure CN224495736U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building construction technology, specifically to a building construction climbing formwork. Background Technology
[0002] Construction climbing scaffolding refers to a temporary working platform erected during building construction to facilitate high-altitude operations for construction workers. In practical applications, the appropriate type and parameters of climbing scaffolding must be selected based on factors such as the building structure, site conditions, and construction requirements to ensure smooth construction. Furthermore, the installation of construction climbing scaffolding must comply with relevant construction safety regulations to ensure both safety and efficiency.
[0003] The main components of a building construction climbing scaffold are steel pipe columns, crossbeams that support and fix the climbing scaffold, diagonal braces that connect the columns and crossbeams, ladders or electric lifts, etc. They are erected on the exterior of the building. Climbing scaffolds spliced from single steel pipes have lower costs but are laborious to install and troublesome to disassemble and move. On the other hand, the scaffolds with suspended platforms have poor stability during the lifting process and are only used for transporting building materials, which is not convenient for construction operations. Utility Model Content
[0004] This utility model provides a construction climbing formwork to solve the problems of large construction workload, troublesome overall movement, and poor stability of the suspended basket or lifting platform.
[0005] To solve the above problems, this utility model provides a building construction climbing scaffold, including two sets of steel structure support components, a top lifting component, and a suspended platform. The steel structure support components include four uprights and a top plate. The bottom of the uprights has a base plate and is fixed to the ground by screws. The uprights are fixed to the four corners below the top plate. Several support frames are arranged between the uprights from top to bottom. An X-shaped frame is arranged between two adjacent uprights and between the support frames. The top lifting component includes two I-beams. Reinforcing rods are arranged intersecting between the I-beams. The two ends of the I-beams are fixed to the top plate. Support blocks are provided on the I-beams. An electric hoist is arranged between the support blocks. The suspended platform includes a base plate. Square rods are provided at the four corners of the base plate. Cables are provided at the upper ends of the square rods. The cables extend upwards to the center of the base plate and are fixedly connected to the hooks of the electric hoists. A limiting mechanism is provided between the uprights and the suspended platform.
[0006] As an improvement, the X-frame consists of two different sizes, a wide side and a narrow side, located between the uprights.
[0007] As an improvement, a shelf is provided on one side and in the middle of the support frame, the shelf has no X-shaped frame on the outside, and the shelf is provided with a protective railing that surrounds it on three sides.
[0008] As an improvement, the bottom plate is provided with a groove, the groove is provided with a reinforcing grid, the bottom plate is provided with side protective nets on both sides and between the square bars, the bottom plate is provided with a front protective net and a mesh frame door is provided on the front protective net.
[0009] As an improvement, the limiting mechanism includes a T-shaped slide groove with an open bottom to allow the insertion of a T-shaped slider. The T-shaped slide groove is located on the side of the upright near the basket. The bottom plate is provided with T-shaped sliders on the side near the T-shaped slide groove and on the outer side of the upper end of the upright. The T-shaped sliders are located in the T-shaped slide groove and are slidably connected to the upright. The side of the T-shaped slider near the upright is provided with several ball bearings.
[0010] The advantages of this utility model are: 1. The square rod and the base plate are slidably connected to the uprights on the four sides, and the base plate can only move up and down during the rising process, which improves the overall stability of the suspended basket.
[0011] 2. The steel structure support components can be moved as a whole by disassembling the bottom after assembly, which is very practical. The lifting operation is carried out by the basket and electric hoist, which eliminates the need for workers to climb. The operation is convenient and the processing space is large. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the structure of this utility model.
[0013] Figure 2 This is a schematic diagram of the suspended basket structure of this utility model.
[0014] Figure 3 This is a schematic diagram of the square rod structure of this utility model.
[0015] As shown in the figure: 1. Steel structure support assembly; 2. Top lifting assembly; 3. Suspended basket; 4. Upright pole; 5. Top plate; 6. Support frame; 7. X-frame; 8. I-beam; 9. Reinforcing rod; 10. Support block; 11. Electric hoist; 12. Base plate; 13. Square pole; 14. Cable; 15. Storage platform; 16. Guardrail; 17. Groove; 18. Reinforcing grid; 19. Side protective net; 20. Front protective net; 21. Framed door; 22. T-shaped slide; 23. T-shaped slider; 24. Ball bearing. Detailed Implementation
[0016] The present invention will now be described in further detail with reference to the accompanying drawings.
[0017] Combined with appendix Figure 1The system includes two sets of steel structure support components 1, a top lifting component 2, and a suspended platform 3. The steel structure support component 1 includes four uprights 4 and a top plate 5. The uprights 4 are fixed to the four corners below the top plate 5. Several support frames 6 are arranged between the uprights 4 from top to bottom. An X-shaped frame 7 is provided between adjacent uprights 4 and between the support frames 6. The X-shaped frame 7 consists of two different sizes, a wide side and a narrow side, located between the uprights 4. The top lifting component 2 includes two I-beams 8, with reinforcement bars intersecting between them. The fixed rod 9, the two ends of the I-beam 8 are fixedly connected to the top plate 5 respectively, the I-beam 8 is provided with a support block 10, and the support block 10 is provided with an electric hoist 11. The electric hoist 11 serves as the driving force for lifting the suspended basket 3. The suspended basket 3 includes a base plate 12, and square rods 13 are provided at the four corners of the base plate 12. The upper end of the square rod 13 is provided with a cable 14, which extends upward to the center of the base plate 12 and is fixedly connected to the hook of the electric hoist 11. A limiting mechanism is provided between the upright rod 4 and the suspended basket 3.
[0018] A shelf 15 is provided on one side and in the middle of the support frame 6. The shelf 15 has no X-shaped frame 7 on the outside and is equipped with a three-sided protective railing 16. The shelf 15 is convenient for placing materials at a middle level.
[0019] Combined with appendix Figure 2 The base plate 12 has a groove 17 on its underside, and a reinforcing grid 18 is provided in the groove 17. Side protective nets 19 are provided on both sides of the base plate 12 and between the square rods 13. Front protective nets 20 are provided in front of the base plate 12 and between the square rods 13. A mesh frame door 21 is provided on the front protective net 20. The base plate 12 is supported and reinforced by the reinforcing grid 18 at the bottom. Construction workers can transfer materials or carry out construction work on the base plate 12.
[0020] Combined with appendix Figure 3 The limiting mechanism includes a T-shaped slide groove 22, which is located on the side of the upright 4 near the suspended basket 3. The bottom plate 12 is provided with T-shaped sliders 23 on the side near the T-shaped slide groove 22 and on the outer side of the upper end of the upright 4. The T-shaped sliders 23 are located in the T-shaped slide groove 22 and are slidably connected to the upright 4. The side of the T-shaped sliders 23 near the upright 4 is provided with several ball bearings 24. The square rod 13 and the bottom plate 12 are slidably connected to the uprights 4 on all four sides. The bottom plate 12 can only move up and down during the lifting process, which improves the overall stability of the suspended basket 3.
[0021] In specific implementation, the support frame, top plate, and uprights are connected sequentially. The T-shaped slider is inserted into the T-shaped groove and reinforced by the X-shaped frame. The I-beam is fixed between the top plates. The electric hoist is installed and fixed on the support block. The support block is fixedly connected to the I-beam. The cable is fixedly connected to the hook of the electric hoist. The mesh frame door is opened to transfer the material to the bottom plate. The electric hoist is started to lift and lower the basket.
[0022] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.
Claims
1. A construction climbing formwork, comprising two sets of steel structure support components (1), a top lifting component (2), and a suspended platform (3), characterized in that: The steel structure support assembly (1) includes four uprights (4) and a top plate (5). The uprights (4) are fixed to the four corners below the top plate (5). Several support frames (6) are arranged between the uprights (4) from top to bottom. An X-shaped frame (7) is arranged between two adjacent uprights (4) and between the support frames (6). The top lifting assembly (2) includes two I-beams (8). Reinforcing rods (9) are arranged intersecting between the I-beams (8). The two ends of the I-beams (8) are respectively connected to the top plate (5). The I-beam (8) is fixedly connected to a support block (10), and an electric hoist (11) is provided between the support blocks (10). The basket (3) includes a base plate (12), and square rods (13) are provided at the four corners of the base plate (12). A cable (14) is provided at the upper end of the square rod (13). The cable (14) extends upward to the center of the base plate (12) and is fixedly connected to the hook of the electric hoist (11). A limiting mechanism is provided between the upright (4) and the basket (3).
2. The climbing formwork for building construction according to claim 1, characterized in that: The X-shaped frame (7) consists of two different sizes, a wide side and a narrow side located between the uprights (4).
3. The climbing formwork for building construction according to claim 1, characterized in that: A shelf (15) is provided on one side and in the middle of the support frame (6). The shelf (15) has no X-shaped frame (7) on the outside and is provided with a protective railing (16) on three sides.
4. A climbing scaffold for building construction according to claim 1, characterized in that: The bottom plate (12) has a groove (17) on its underside, and a reinforcing grid (18) is provided in the groove (17). Side protective nets (19) are provided on both sides of the bottom plate (12) and between the square rods (13). Front protective nets (20) are provided in front of the bottom plate (12) and between the square rods (13). A mesh frame door (21) is provided on the front protective net (20).
5. A climbing scaffold for building construction according to claim 1, characterized in that: The limiting mechanism includes a T-shaped slide groove (22), which is located on the side of the upright (4) near the basket (3). The bottom plate (12) near the T-shaped slide groove (22) and the outer side of the upper end of the upright (4) are both provided with T-shaped sliders (23). The T-shaped sliders (23) are located in the T-shaped slide groove (22) and are slidably connected to the upright (4). The side of the T-shaped sliders (23) near the upright (4) is provided with several balls (24).