Gondola high outrigger brace conversion connection device

By using rectangular transition steel plates and П-shaped clamps on the high outriggers, the problem of inconvenient connection between the high outrigger scaffold diagonal brace and the square steel pipe was solved, thereby improving stability and flexibility and reducing construction costs.

CN224338606UActive Publication Date: 2026-06-09THE THIRD CONSTR ENG CO LTD OF CHINA CONSTR SECOND ENG BUREAU

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
THE THIRD CONSTR ENG CO LTD OF CHINA CONSTR SECOND ENG BUREAU
Filing Date
2025-06-10
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In the existing technology, the connection between the diagonal brace and the square steel pipe of the high outrigger suspended platform is inconvenient, resulting in insufficient stability. In addition, the welding and fixing has poor versatility, and the fastener connection cannot adapt to different working environments.

Method used

A rectangular transition steel plate is used and fixed to the high support leg with a П-shaped clamp. It is then fixed with threaded connection and nuts, combined with the fasteners at the ends of the steel pipe column and the diagonal brace, to achieve a flexible connection between the diagonal brace and the high support leg.

Benefits of technology

This achieves a stable connection between the diagonal bracing and the high outriggers, improving the safety and adjustment flexibility of the suspended platform and reducing construction costs.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

A high-support leg diagonal brace conversion connection device is disclosed. The device comprises a rectangular transition steel plate installed on the high support leg near the diagonal brace. Four symmetrical insertion holes are arranged at the four corners of the transition steel plate. Each of the top two and bottom two insertion holes is fitted with a П-shaped clamp, which is secured to the high support leg by threads, nuts / washers. A steel pipe column is welded to the transition steel plate near the diagonal brace. The steel pipe column is connected to one end of the diagonal brace via fasteners. The transition steel plate, clamps, nuts / washers, steel pipe column, and fasteners constitute the high-support leg diagonal brace conversion connection device. This utility model has a simple structure and is easy to manufacture. Using this utility model, a diagonal brace round steel pipe can be connected to any position on a square steel pipe high support leg, resulting in strong stability and anti-tipping ability of the high support leg. This device is flexible in adjustment, easy to maintain and disassemble, and reusable, reducing construction costs. It solves the problem of connecting the square steel pipe of the high support leg and the round steel pipe of the diagonal brace in non-standard suspended platforms.
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Description

Technical Field

[0001] This utility model relates to a rod connection structure, and in particular to a conversion connection device for the diagonal brace of the high support leg of a suspended basket. Background Technology

[0002] Modern building facades are becoming increasingly diverse, with designs becoming more unique and complex. Conventional suspended platforms are no longer sufficient to meet the practical needs of modern exterior wall construction. Therefore, various non-standard suspended platforms have emerged, with the high-leg suspended platform being one such example. The high leg of a high-leg suspended platform consists of two vertical square steel pipes. However, the stability of these two vertical high legs is insufficient, making them prone to swaying or even tipping over under external forces, posing a significant safety hazard. To ensure the safe use of the high-leg suspended platform, the high leg must be reinforced. A simple method for reinforcing the high leg is to install two diagonal braces made of round steel pipes between the two legs in a scissor-like configuration. In actual manufacturing, if the diagonal bracing round steel pipe is welded to the high-support leg square steel pipe, the welded diagonal bracing has poor versatility, is not conducive to adjustment and maintenance, and cannot adapt to different working environments. If a fastener is used, the fastener can only connect the two round steel pipes at the middle intersection. At the connection point between the diagonal bracing round steel pipe and the high-support leg square steel pipe, due to the different profiles and the existence of a gap equal to the diameter of the diagonal bracing, the fastener cannot connect the diagonal bracing round steel pipe and the high-support leg square steel pipe. Therefore, how to easily and quickly connect the diagonal bracing round steel pipe and the high-support leg square steel pipe is an urgent problem to be solved. Utility Model Content

[0003] The purpose of this utility model is to overcome the shortcomings of existing technologies and provide a simple structure, easy to manufacture, flexible to use and adjust, convenient to maintain and disassemble, which can connect diagonal bracing round steel pipes to any position of the high support leg of the square steel pipe, has strong stability and anti-tipping ability of the high support leg, and is reusable.

[0004] The purpose of this utility model is achievable. This utility model's suspended platform high-leg diagonal brace conversion connection device includes a diagonal brace and traditional fasteners. The feature of this utility model's suspended platform high-leg diagonal brace conversion connection device is: a rectangular transition steel plate is set on the profile of the high-leg near the diagonal brace. Each of the four corners of the transition steel plate has a symmetrical insertion hole. Two upper insertion holes at the four corners share a P-shaped clamp, and the two lower insertion holes share another P-shaped clamp. Both ends of the clamps are threaded. The clamps are fixed to the high-leg by the threads and nuts / washers. A steel pipe column is welded to the side of the transition steel plate near the diagonal brace. The steel pipe column is connected to one end of the diagonal brace by fasteners. The transition steel plate, clamps, nuts / washers, steel pipe column, and fasteners constitute the high-leg diagonal brace conversion connection device.

[0005] This utility model relates to a high-support leg diagonal brace conversion connection device, wherein the steel pipe column is vertically welded to the center position of the plane of the conversion steel plate, and the axis of the steel pipe column is perpendicular to the axis of the high support leg.

[0006] The present invention relates to a high-support leg diagonal brace conversion connection device, wherein the conversion steel plate has a specification of 180*180*10mm, the diameter of the four corner holes is φ12mm, and the hole spacing is 120mm.

[0007] This utility model relates to a high-support leg diagonal brace conversion connection device, wherein the steel pipe column and the diagonal brace profile have the same specifications, are made of φ48mm round steel pipe, and the length of the steel pipe column is ≥150mm.

[0008] This utility model's high-outrigger diagonal brace conversion connection device differs from existing technologies in that it includes a rectangular transition steel plate positioned on the high outrigger near the diagonal brace. Four symmetrical insertion holes are arranged at the four corners of the transition steel plate. Each of the top two and bottom two insertion holes is fitted with a П-shaped clamp, secured to the high outrigger by threads, nuts / washers, and other fasteners. A steel pipe column is welded to the transition steel plate near the diagonal brace. The steel pipe column is connected to one end of the diagonal brace via fasteners. The transition steel plate, clamps, nuts / washers, steel pipe column, and fasteners constitute the high-outrigger diagonal brace conversion connection device. This utility model has a simple structure and is easy to manufacture. Using this utility model's high-outrigger diagonal brace conversion connection device, a diagonal brace round steel pipe can be connected to any position on a square steel pipe high outrigger. This device is flexible in adjustment, convenient in maintenance and disassembly, provides strong stability and anti-tipping capacity for the high outrigger, is reusable, and reduces construction costs. It solves the problem of connecting the square steel pipe of the high outrigger and the round steel pipe of the diagonal brace in non-standard suspended platforms.

[0009] The high-leg inclined brace conversion connection device of this utility model will be further described below with reference to the accompanying drawings. The accompanying drawings are only schematic illustrations of the basic structure of the invention, and therefore only show the structure relevant to the invention. Attached Figure Description

[0010] Figure 1 This is a schematic diagram of the installation of the high-support leg inclined brace conversion connection device of this utility model on the high-support leg.

[0011] Figure 2 for Figure 1 Detailed diagram I in the diagram.

[0012] Figure 3 for Figure 2 View A in the diagram.

[0013] Figure 4 for Figure 2 Section 1-1 in the diagram.

[0014] Figure 5This is a schematic diagram showing the usage status of a high-outrigger suspended platform equipped with a high-outrigger diagonal brace conversion connection device.

[0015] In the diagram: 1. Diagonal brace, 2. Fastener, 3. High support leg, 4. Adapter steel plate, 5. Clamp, 6. Nut / washer, 7. Steel pipe column. Detailed Implementation

[0016] like Figures 1-4 As shown, the present invention relates to a conversion connection device for the high outrigger of a suspended platform, comprising an inclined brace 1 and a conventional fastener 2. A rectangular transition steel plate 4 is provided on the surface of the high outrigger 3 adjacent to the inclined brace 1. A symmetrical insertion hole is provided at each of the four corners of the transition steel plate 4. Two upper insertion holes at the corners share a П-shaped clamp 5, and two lower insertion holes share another П-shaped clamp 5. Both ends of the clamp 5 are threaded. The clamp 5 is fixed to the high outrigger 3 by the threads and a nut / washer 6. A steel pipe column 7 is welded to the side of the transition steel plate 4 near the inclined brace 1. The steel pipe column 7 is connected to one end of the inclined brace 1 via the fastener 2. The transition steel plate 4, clamp 5, nut / washer 6, steel pipe column 7, and fastener 2 constitute the conversion connection device for the high outrigger inclined brace.

[0017] In this utility model of a high-support leg inclined brace conversion connection device, the steel pipe column 7 is vertically welded to the center position of the plane of the transition steel plate 4. The axis of the steel pipe column 7 is perpendicular to the axis of the high support leg 3.

[0018] In this utility model of a high-support leg diagonal brace conversion connection device, the adapter steel plate has a specification of 180*180*10mm, the diameter of the four corner insertion holes is φ12mm, and the hole spacing is 120mm.

[0019] In this utility model of high-support leg diagonal brace conversion connection device, the steel pipe column 7 and the diagonal brace 1 have the same profile specifications, are made of φ48mm round steel pipe, and the length of the steel pipe column 7 is ≥150mm.

[0020] See Figure 5 When using this invention, first, the adapter steel plate 4 is fixed to the high support leg 3 of the suspended platform using a П-shaped clamp 5, ensuring that the nut / washer 6 is tightened to securely connect the adapter steel plate 4 to the rear support leg 3. Then, the diagonal brace 1 is connected and locked to the steel pipe column 7 using fasteners 6, with the steel pipe column 7 used to limit and fix the diagonal brace 1. During the operation of the suspended platform, when the platform is subjected to external forces, the diagonal brace 1 can disperse and offset part of the external forces, thereby enhancing the lateral stability of the high support leg 3 and ensuring the safe operation of the suspended platform.

[0021] The above-described embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Any modifications and improvements made by those skilled in the art to the technical solutions of the present utility model without departing from the spirit of the present utility model should fall within the protection scope defined by the claims of the present utility model.

Claims

1. A conversion connection device for the high support leg of a suspended platform, comprising a diagonal brace (1) and a conventional fastener (2), characterized in that: A rectangular transition steel plate (4) is set on the profile of the high support leg (3) near the diagonal brace (1). A symmetrical insertion hole is set at each of the four corners of the transition steel plate (4). A П-shaped clamp (5) is installed in the two upper insertion holes at the four corners, and a П-shaped clamp (5) is installed in the two lower insertion holes. Both ends of the clamp (5) are threaded. The clamp (5) is fixed to the high support leg (3) by the thread and the nut / washer (6). A steel pipe column (7) is welded on the side of the transition steel plate (4) near the diagonal brace (1). The steel pipe column (7) is connected to one end of the diagonal brace (1) by the fastener (2). The transition steel plate (4), clamp (5), nut / washer (6), steel pipe column (7), and fastener (2) constitute the high support leg diagonal brace conversion connection device.

2. The high-support leg diagonal brace conversion connection device according to claim 1, characterized in that: The steel pipe column (7) is vertically welded to the center of the plane of the transition steel plate (4), and the axis of the steel pipe column (7) is perpendicular to the axis of the high support leg (3).

3. The high-support leg diagonal brace conversion connection device according to claim 1 or 2, characterized in that: The adapter steel plate (4) has a specification of 180*180*10mm, and the diameter of the four corner holes is φ12mm, and the hole spacing is 120mm.

4. The high-support leg diagonal brace conversion connection device according to claim 2, characterized in that: The steel pipe column (7) has the same profile specifications as the diagonal brace (1), and is made of φ48mm round steel pipe. The length of the steel pipe column (7) is ≥150mm.