Modular scaffolding with diagonal braces

By incorporating modular design and standardized components into its self-supporting diagonal bracing scaffolding, the complexity and maintenance challenges of traditional scaffolding systems are resolved, enabling rapid installation, safe and efficient construction support, and adapting to various scenario requirements.

CN224468749UActive Publication Date: 2026-07-07CLP INT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CLP INT TECH CO LTD
Filing Date
2025-02-18
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional scaffolding systems are complex in structure, take a long time to assemble, are laborious to disassemble, are difficult to maintain, affect construction progress, and lack easy-to-maintain safety protection measures.

Method used

Design a modular scaffold with built-in diagonal bracing, using standardized components including a frame, support platform, auxiliary diagonal bracing, and climbing safety components. It is connected by positioning bolts to achieve rapid installation and disassembly, thereby enhancing structural stability and safety.

Benefits of technology

It improves construction safety and ease of operation, adapts to various construction scenarios, simplifies the maintenance process, enhances construction efficiency and overall structural stability, and reduces logistics costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the technical field of scaffold, disclose a kind of modular scaffold with inclined strut, including frame body and support platform, the support platform is set on the frame body, the frame body includes left frame body and right frame body, the left frame body and the right frame body are mirror image symmetry and form work area between, the support platform is located in the work area, the left frame body and the right frame body structure are same, the crawling protection piece and the edge protection piece of the application provide comprehensive safety protection measures, effectively prevent the accidental fall or article falling of operating personnel in the process of climbing and working, positioning bolt four and positioning bolt five ensure the firm connection between protection pole one and protection pole two and support column, the stability of entire protection system is strengthened, the utility model has the characteristics of strong practicability and easy to maintain.
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Description

Technical Field

[0001] This utility model relates to the field of scaffolding technology, specifically a modular scaffolding with built-in diagonal bracing. Background Technology

[0002] Scaffolding is an indispensable tool in construction, used to provide high-altitude work platforms and support structures. With the development of construction technology and the improvement of safety standards, scaffolding systems have undergone many changes and improvements. The earliest scaffolding was built using natural materials such as wood and bamboo, which were readily available and inexpensive, but had poor durability and stability. With the development of the steel industry, steel scaffolding gradually replaced traditional wooden scaffolding. Steel has higher strength and durability and can withstand greater loads. In order to further reduce weight and improve portability, aluminum alloys and other lightweight materials have been introduced into scaffolding systems.

[0003] Traditional scaffolding systems typically require multiple complex assembly steps, including frame construction, beam installation, and platform laying. Each step demands precise operation and is time-consuming. Furthermore, traditional scaffolding systems use welding or bolted connections, requiring the loosening of bolts or cutting of welds during disassembly, which is both time-consuming and labor-intensive. Due to the complex structure of traditional scaffolding systems, inspecting and replacing damaged parts becomes difficult, especially internal connectors and support structures. Once a fault occurs, the repair process is complex and time-consuming, potentially leading to work stoppages and impacting construction progress. Therefore, it is essential to design a modular scaffolding system with integrated diagonal bracing that is highly practical and easy to maintain. Utility Model Content

[0004] The purpose of this invention is to provide a modular scaffold with built-in diagonal bracing to solve the problems mentioned in the background art.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a modular scaffold with built-in diagonal bracing, comprising a frame body and a support platform, wherein the support platform is disposed on the frame body, the frame body comprising a left frame body and a right frame body, the left frame body and the right frame body being mirror-symmetrically arranged and forming a working area between them, the support platform being located within the working area, the left frame body and the right frame body having the same structure, the left frame body comprising a support column, a ladder crossbar, a moving wheel, and a positioning bolt, the support column being mirror-symmetrically arranged, a crossbar groove being provided on the opposite side of the support column, the ladder crossbar being fixedly installed in the corresponding crossbar groove by the positioning bolt, the ladder crossbar being arranged in a linear array along the height direction of the support column, the moving wheel being fixedly installed at the lower end of the support column, the support platform being attached to the ladder crossbar at the corresponding height, auxiliary diagonal bracing members being provided around the frame body for stable support of the frame body, and crawling protection members being provided on the side wall of the frame body, the crawling protection members being located below the support platform.

[0006] According to the above technical solution, the support platform includes a support plate, overlapping blocks, a movable support plate, a base plate, a support corner plate, and two positioning bolts. The overlapping blocks are symmetrically arranged on both sides of the support plate, and the overlapping blocks are movably overlapped on the upper ends of the corresponding ladder crossbars. The support plate has symmetrical through-holes for workers to enter above the support plate. The base plate is fixedly installed at the lower end of the crawling holes. The movable support plate is movably installed at the upper end of the crawling holes, and the upper surface of the movable support plate is flush with the upper surface of the support plate. The lower end of the movable support plate overlaps on the base plate. The support corner plate is fixedly installed between the support plate and the support column by the two positioning bolts. The side wall of the support platform is provided with edge protection components.

[0007] According to the above technical solution, the auxiliary diagonal brace includes a sleeve plate, three positioning bolts, a diagonal brace, a threaded sleeve, a threaded rod, a rocker arm, and an anti-slip plate. The sleeve plate and the support column are arranged in a one-to-one correspondence, and the sleeve plate is hollow. The sleeve plate is fixedly sleeved to the bottom of the support column by the three positioning bolts. The diagonal brace is fixedly installed at one end of the sleeve plate, and the threaded sleeve is fixedly installed at the end of the diagonal brace. The threaded rod is internally threaded to the threaded sleeve. The rocker arm is fixedly installed at the upper end of the threaded rod, and the anti-slip plate is fixedly installed at the lower end.

[0008] According to the above technical solution, the crawling protective component is located below the support plate. The crawling protective component includes a protective ring, a protective rod, a positioning head, and four positioning bolts. The protective rods are symmetrically arranged in pairs on the side wall of the protective ring. The positioning head is fixedly installed at the end of the protective rod. The positioning head is fixedly installed on the side away from the corresponding support column by the four positioning bolts.

[0009] According to the above technical solution, the edge protection components are arranged in a linear array along the height direction of the support column on both sides of the support platform. The edge protection components are located at the upper end of the crawling protection components. The edge protection components include a second protection rod, a second positioning head, and a fifth positioning bolt. The second positioning head is fixedly installed at both ends of the second protection rod. The second positioning head is fixedly installed on the side of the corresponding support column away from the support column by the fifth positioning bolt.

[0010] According to the above technical solution, the supporting plate and the ladder crossbar are set at the same height, and a misalignment groove is opened on the side of the supporting column away from the column. The misalignment groove is set in the middle of the adjacent crossbar groove, and the positioning bolt four and the positioning bolt five are respectively threaded into the corresponding misalignment groove.

[0011] Compared with the prior art, the beneficial effects achieved by this utility model are:

[0012] (1) Improve construction safety: Crawling protection and edge protection provide comprehensive safety protection measures, effectively preventing workers from falling accidentally or objects from falling during climbing and work. Positioning bolts four and five ensure a firm connection between guard rod one and guard rod two and the support column, enhancing the stability of the entire protection system. The anti-slip plate in the auxiliary diagonal brace increases the friction when in contact with the ground, preventing the frame from sliding and further improving the safety of the system.

[0013] (2) Enhanced ease of operation: Each component (such as support plate, overlapping block, guard bar, etc.) adopts a standardized design, which facilitates quick installation and disassembly, simplifies the on-site operation process, and the ladder crossbar and threaded rod can be adjusted in height by rotation to adapt to different terrains and construction needs, thus improving the flexibility of the system. The moving wheels give the scaffolding a certain degree of mobility, which facilitates rapid deployment and rearrangement on the construction site, thus improving work efficiency.

[0014] (3) Adaptable to various application scenarios: The support platform can be flexibly adjusted in height according to the operation requirements, and can provide good support for both high-altitude and low-altitude operations. It is suitable for various construction scenarios. Combined with other safety components (such as crawling protection components and edge protection components), it provides multi-level safety protection measures, which are suitable for complex construction site requirements. Depending on the actual working environment, the number and position of the protective ring, the first protective rod and the second protective rod can be flexibly configured to meet the needs of various complex construction sites.

[0015] (4) Improve overall structural stability: The diagonal brace is connected to the support column through the sleeve plate and extends to the ground to form multiple support points, which significantly enhances the stability of the overall frame. The auxiliary diagonal brace can increase the structure's resistance to lateral forces and prevent the risk of collapse caused by wind load or other external forces. The misalignment groove provides additional fixing points for positioning bolts four and five, avoiding conflicts with other structural components and ensuring the stability and safety of the protective components.

[0016] (5) Improve work efficiency: Due to its ease of installation and dismantling, this scaffolding system can be quickly deployed or removed without affecting other construction activities, thus improving overall construction efficiency. The components are carefully designed in size and shape to facilitate stacking and transportation, thereby improving space utilization efficiency and reducing logistics costs. The ladder crossbars are arranged linearly along the height of the support columns, forming a stable climbing path and providing stable gripping points and stepping points, ensuring the safety and efficient climbing of workers.

[0017] (6) Easy to replace and repair: The standardized design makes the components easy to replace and repair, reducing maintenance costs and time. Attached Figure Description

[0018] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0019] Figure 1 This is a first perspective view of the present invention;

[0020] Figure 2 This is a second perspective view of the present invention;

[0021] Figure 3 This is a third perspective view of the present invention;

[0022] Figure 4 This is a fourth perspective view of the present invention;

[0023] Figure 5 This is a partial three-dimensional schematic diagram of the present invention;

[0024] Figure 6 This is a utility model Figure 1 Enlarged view of point A in the middle;

[0025] In the diagram: 1-Frame body, 11-Left frame body, 111-Support column, 112-Climbing ladder crossbar, 113-Moving wheel, 114-Positioning bolt one, 12-Right frame body, 2-Support platform, 21-Support plate, 211-Crawling opening, 22-Overlap block, 23-Modible support plate, 24-Base plate, 25-Support corner plate, 26-Positioning bolt two, 3-Crossbar groove, 4-Auxiliary diagonal brace, 41-Socket plate, 42-Positioning bolt three, 43-Diagonal brace, 44-Threaded sleeve, 45-Threaded rod, 46-Rocker arm, 47-Anti-slip plate, 5-Crawling protection component, 51-Protective ring, 52-Protective rod one, 53-Positioning head one, 54-Positioning bolt four, 6-Edge protection component, 61-Protective rod two, 62-Positioning head two, 63-Positioning bolt five, 7-Misalignment groove. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0027] Please see Figure 1-6 This utility model provides a technical solution: a modular scaffold with built-in diagonal bracing, comprising a frame body 1 and a support platform 2. The support platform 2 is disposed on the frame body 1. The frame body 1 includes a left frame body 11 and a right frame body 12, which are mirror-symmetrically arranged and form a working area between them. The support platform 2 is located within the working area. The left frame body 11 and the right frame body 12 have the same structure. The left frame body 11 includes a support column 111, a ladder crossbar 112, a moving wheel 113, and a positioning bolt 114. The support column 111 is mirror-symmetrically arranged. A horizontal column groove 3 is provided on one side opposite to the support column 111. The ladder horizontal column 112 is fixedly installed in the corresponding horizontal column groove 3 by the positioning bolt 114. The ladder horizontal columns 112 are arranged in a linear array along the height direction of the support column 111. The moving wheel 113 is fixedly installed at the lower end of the support column 111. The support platform 2 is attached to the ladder horizontal column 112 at the corresponding height. The frame body 1 is provided with auxiliary diagonal bracing 4 around its perimeter for stable support. The side wall of the frame body 1 is provided with crawling protection 5, which is located below the support platform 2.

[0028] This application mainly consists of a frame 1, a support platform 2, auxiliary diagonal braces 4, and climbing safety components 5. The frame 1 is composed of a left frame 11 and a right frame 12, which are arranged in a mirror-symmetrical manner, forming a working area in the middle for placing the support platform 2. This not only provides sufficient working space but also ensures the stability of the structure. The support columns 111 are the main load-bearing parts of the scaffolding, arranged in a mirror-symmetrical manner, and have horizontal column grooves 3 on opposite sides for fixing the ladder horizontal columns 112. This allows the ladder horizontal columns 112 to be linearly arranged along the height direction of the support columns 111, forming a stable climbing path. As part of the climbing path, the ladder horizontal columns 112 provide stable gripping points and stepping points, ensuring the safety of workers. The support platform 2 can be erected at different heights according to work requirements. The ladder crossbeam 112 means that it can flexibly adapt to various construction scenarios, and can provide good support for both high-altitude and low-altitude operations. The movable wheels 113 are fixedly installed at the lower end of the support column 111, giving the entire scaffolding a certain degree of mobility, which is conducive to rapid deployment and rearrangement on the construction site and improves work efficiency. The movable wheels 113 can be the existing model with brake wheels. Auxiliary diagonal braces 4 are provided around the perimeter to provide additional stability support for the frame 1. The auxiliary diagonal braces 4 can increase the structure's lateral force resistance and prevent the risk of collapse caused by wind loads or other external forces. The crawling protection device 5 located below the support platform 2 provides additional safety protection for workers during the climbing process, reduces the risk of accidental slippage, and helps to ensure the safety of workers at height.

[0029] Specifically, the support platform 2 includes a support plate 21, overlapping blocks 22, a movable support plate 23, a base plate 24, a support corner plate 25, and positioning bolts 26. The overlapping blocks 22 are symmetrically arranged on both sides of the support plate 21. The overlapping blocks 22 are movably overlapped on the upper end of the corresponding ladder cross column 112. The support plate 21 has symmetrical through-holes 211 for workers to enter above the support plate 21. The base plate 24 is fixedly installed at the lower end of the crawling hole 211. The movable support plate 23 is movably installed at the upper end of the crawling hole 211, and the upper end surface of the movable support plate 23 is flush with the upper end surface of the support plate 21. The lower end of the movable support plate 23 overlaps on the base plate 24. The support corner plate 25 is fixedly installed between the support plate 21 and the support column 111 by the positioning bolts 26. The side wall of the support platform 2 is provided with edge protection parts 6.

[0030] The support plate 21 serves as the main working platform, providing a flat and stable surface for workers to stand and operate. Climbing openings 211 are symmetrically provided on the support plate 21, facilitating workers' access to the support platform 2 from below. Overlapping blocks 22 are located symmetrically on both sides of the support plate 21 and movably overlap the upper ends of the corresponding ladder crossbars 112, allowing the support platform to be flexibly adjusted in height and securely fixed in the desired position. A movable support plate 23 is installed on the upper end of the climbing openings 211 and is adjustable. When workers enter through the climbing openings, the movable support plate 23 provides additional support. The support plate 24 is fixedly installed at the lower end of the crawling opening 211 to provide basic support for the movable support plate 23, ensuring its stability and load-bearing capacity. The support corner plate 25 is fixed between the support plate 21 and the support column 111 by positioning bolts 26, further enhancing the overall structural stability of the support platform 2. The edge protection piece 6 is set on the side wall of the support platform 2 to provide necessary safety protection and prevent workers from falling accidentally or objects from falling. Each component (such as the support plate 21, the overlapping block 22, etc.) adopts a standardized design, which makes on-site assembly simple and quick, reducing complicated assembly steps.

[0031] Specifically, the auxiliary diagonal brace 4 includes a sleeve plate 41, a positioning bolt 42, a diagonal brace 43, a threaded sleeve 44, a threaded rod 45, a rocker arm 46, and an anti-slip plate 47. The sleeve plate 41 and the support column 111 are arranged in a one-to-one correspondence, and the sleeve plate 41 is hollow. The sleeve plate 41 is fixedly sleeved to the bottom of the support column 111 by the positioning bolt 42. The diagonal brace 43 is fixedly installed at one end of the sleeve plate 41, and the threaded sleeve 44 is fixedly installed at the end of the diagonal brace 43. The threaded rod 45 is internally threaded to the threaded sleeve 44. The rocker arm 46 is fixedly installed at the upper end of the threaded rod 45, and the anti-slip plate 47 is fixedly installed at the lower end.

[0032] Each support column 111 has a corresponding socket plate 41 at its bottom. This plate is hollow and can be fixedly sleeved to the bottom of the support column 111 by positioning bolts 3 and 42. The positioning bolts 3 and 42 are used to firmly fix the socket plate 41 to the bottom of the support column 111, ensuring the stability of the connection. One end of the diagonal brace 43 is fixedly installed on the socket plate 41, and the other end extends to the threaded sleeve 44, providing additional lateral support and enhancing the stability of the overall structure. The threaded sleeve 44 is fixedly installed at the end of the diagonal brace 43 and has internal threads for threaded connection with the threaded rod 45 to achieve length adjustment. 45 is inserted into the threaded sleeve 44 via a threaded connection. Its extension length can be adjusted by rotation, thereby fine-tuning the total length of the diagonal brace 43 to adapt to different terrains and support requirements. The rocker arm 46 is fixedly installed at the upper end of the threaded rod 45, allowing operators to manually rotate the threaded rod 45 to easily adjust the length of the diagonal brace 43. The anti-slip plate 47 is fixedly installed at the lower end of the threaded rod 45 to increase friction when in contact with the ground, preventing the frame 1 from sliding and further improving the stability of the system. Since all components adopt a standardized design, the auxiliary diagonal brace 4 can be installed and disassembled in a short time, improving construction efficiency.

[0033] Specifically, the crawling protective component 5 is located below the support plate 21. The crawling protective component 5 includes a protective ring 51, a protective rod 52, a positioning head 53, and a positioning bolt 54. The protective rods 52 are symmetrically arranged in pairs on the side wall of the protective ring 51. The positioning head 53 is fixedly installed at the end of the protective rod 52. The positioning head 53 is fixedly installed on the side away from the corresponding support column 111 by the positioning bolt 54.

[0034] The protective ring 51 and the protective rod 52 together form a closed protective area, effectively preventing workers from falling accidentally during climbing and greatly increasing their safety. The fixing method of the positioning head 53 and the positioning bolt 54 ensures that the connection between the protective rod 52 and the support column 111 is firm and reliable, enhancing the stability of the entire protective system. The protective rod 52 and the positioning head 53 adopt a standardized design, which facilitates quick installation and disassembly, improving on-site operation efficiency. The number and position of the protective ring 51 and the protective rod 52 can be flexibly configured according to different actual working environments to meet various complex construction site requirements.

[0035] Specifically, the edge protection components 6 are arranged in a linear array along the height direction of the support column 111 on both sides of the support platform 2. The edge protection components 6 are located at the upper end of the crawling protection component 5. The edge protection component 6 includes a second protection rod 61, a second positioning head 62, and a fifth positioning bolt 63. The second positioning head 62 is fixedly installed at both ends of the second protection rod 61. The second positioning head 62 is fixedly installed on the side of the corresponding support column 111 away from the support column 111 by the fifth positioning bolt 63.

[0036] The second guard rod 61 is installed along both sides of the support platform 2 to form a continuous protective barrier, effectively preventing workers from accidentally falling or objects from falling during work. The connection between the second guard rod 61 and the support column 111 is ensured to be firm and reliable through the fixing method of the second positioning head 62 and the fifth positioning bolt 63, which enhances the stability of the entire protection system. The edge protection parts 6 are arranged in a linear array along the height direction of the support column 111 to ensure consistent protection throughout the entire height range, which is suitable for work needs at different heights. The second guard rod 61 and the second positioning head 62 adopt a standardized design, which facilitates quick installation and disassembly and improves on-site operation efficiency.

[0037] Specifically, the support plate 21 and the ladder cross column 112 are set at the same height, and the support column 111 is provided with a misalignment groove 7 on the side away from it. The misalignment groove 7 is set in the middle of the adjacent cross column groove 3. The positioning bolt 4 54 and the positioning bolt 5 63 are respectively threaded into the corresponding misalignment groove 7.

[0038] The misalignment groove 7 is opened on the side away from the support column 111 and is located between the adjacent horizontal column grooves 3. Its main function is to provide additional fixing points for positioning bolts 4 54 and 5 63, avoid conflicts with other structural components, provide multiple fixing points, ensure that the installation position of the protective components is more flexible and diversified, and ensure the stability and safety of the protective rod 1 52 and the protective rod 2 61.

[0039] Working principle: The installation steps of this device are as follows:

[0040] S1, Construction of Frame 1: The left frame 11 and the right frame 12 are set up in a mirror symmetrical manner to form a working area. The support column 111 fixes the ladder column 112 through the horizontal column groove 3 to form a stable climbing path. The moving wheels 113 give the scaffolding mobility, which is convenient for rapid deployment and rearrangement on the construction site.

[0041] S2, Installation of support platform 2: The support plate 21 is movably connected to the ladder cross column 112 of the corresponding height through the overlapping block 22. The base plate 24 and the movable support plate 23 ensure the flatness and safety of the support platform 2. The support corner plate 25 is fixed between the support plate 21 and the support column 111 by the positioning bolt 26 to enhance the overall structural stability.

[0042] S3, Installation of auxiliary diagonal bracing 4: The sleeve plate 41 is fixed to the bottom of the support column 111 by positioning bolts 42, the diagonal bracing rod 43 and the threaded rod 45 provide additional lateral support, and the anti-slip plate 47 increases the friction when in contact with the ground to prevent the frame 1 from sliding.

[0043] S4, Installation of Climbing Protective Component 5 and Edge Protective Component 6: The protective ring 51 and the first protective rod 52 are combined together to provide safety during the climbing process. The second protective rod 61 is set along both sides of the support platform 2 to form a continuous protective barrier to prevent workers from accidentally falling or objects from falling during the work process.

[0044] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0045] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A modular scaffold with built-in diagonal bracing, comprising a frame (1) and a support platform (2), characterized in that: The support platform (2) is mounted on the frame body (1). The frame body (1) includes a left frame body (11) and a right frame body (12). The left frame body (11) and the right frame body (12) are arranged in a mirror symmetrical manner and form a working area between them. The support platform (2) is located in the working area. The left frame body (11) and the right frame body (12) have the same structure. The left frame body (11) includes a support column (111), a ladder crossbar (112), a moving wheel (113), and a positioning bolt (114). The support column (111) is arranged in a mirror symmetrical manner, and a crossbar groove is opened on the opposite side of the support column (111). (3) The ladder crossbar (112) is fixedly installed in the corresponding crossbar groove (3) by the positioning bolt (114). The ladder crossbar (112) is arranged in a linear array along the height direction of the support column (111). The moving wheel (113) is fixedly installed at the lower end of the support column (111). The support platform (2) is attached to the ladder crossbar (112) at the corresponding height. The frame body (1) is provided with auxiliary diagonal bracing (4) around its perimeter for stable support of the frame body (1). The side wall of the frame body (1) is provided with crawling protection (5). The crawling protection (5) is located below the support platform (2).

2. The modular scaffolding with integrated diagonal bracing according to claim 1, characterized in that: The support platform (2) includes a support plate (21), overlapping blocks (22), a movable support plate (23), a base plate (24), a support corner plate (25), and positioning bolts (26). The overlapping blocks (22) are symmetrically arranged on both sides of the support plate (21). The overlapping blocks (22) are movably overlapped on the upper end of the corresponding ladder crossbar (112). The support plate (21) is symmetrically provided with crawling openings (211) for workers to enter above the support plate (21). The base plate (24) is symmetrically provided with crawling openings (211) for workers to enter above the support plate (21). 4) The movable support plate (23) is fixedly installed at the lower end of the crawling opening (211), and the upper end of the movable support plate (23) is flush with the upper end of the support plate (21). The lower end of the movable support plate (23) overlaps the base plate (24). The support corner plate (25) is fixed between the support plate (21) and the support column (111) by the second positioning bolt (26). The side wall of the support platform (2) is provided with edge protection parts (6).

3. A modular scaffold with integrated diagonal bracing as described in claim 1, characterized in that: The auxiliary diagonal brace (4) includes a sleeve plate (41), a positioning bolt (42), a diagonal brace (43), a threaded sleeve (44), a threaded rod (45), a rocker arm (46), and an anti-slip plate (47). The sleeve plate (41) and the support column (111) are arranged in a one-to-one correspondence, and the sleeve plate (41) is hollow. The sleeve plate (41) is fixedly sleeved to the bottom of the support column (111) by the positioning bolt (42). The diagonal brace (43) is fixedly installed at one end of the sleeve plate (41), and the threaded sleeve (44) is fixedly installed at the end of the diagonal brace (43). The threaded rod (45) is internally threaded to the threaded sleeve (44). The rocker arm (46) is fixedly installed at the upper end of the threaded rod (45), and the anti-slip plate (47) is fixedly installed at the lower end.

4. A modular scaffold with integrated diagonal bracing as described in claim 2, characterized in that: The crawling protection component (5) is located below the support plate (21). The crawling protection component (5) includes a protective ring (51), a first protective rod (52), a first positioning head (53), and four positioning bolts (54). The first protective rods (52) are symmetrically arranged in pairs on the side wall of the protective ring (51). The first positioning head (53) is fixedly installed at the end of the first protective rod (52). The first positioning head (53) is fixedly installed on the side away from the corresponding support column (111) by the four positioning bolts (54).

5. A modular scaffold with integrated diagonal bracing as described in claim 4, characterized in that: The edge protection component (6) is arranged in a linear array along the height direction of the support column (111) on both sides of the support platform (2). The edge protection component (6) is located at the upper end of the crawling protection component (5). The edge protection component (6) includes a second protection rod (61), a second positioning head (62), and a fifth positioning bolt (63). The second positioning head (62) is fixedly installed at both ends of the second protection rod (61). The second positioning head (62) is fixedly installed on the side of the corresponding support column (111) away from the support column (111) by the fifth positioning bolt (63).

6. A modular scaffold with integrated diagonal bracing as described in claim 5, characterized in that: The support plate (21) and the ladder cross column (112) are set at the same height. The support column (111) is provided with a misalignment groove (7) on the side away from the support column. The misalignment groove (7) is set in the middle of the adjacent cross column groove (3). The positioning bolt four (54) and the positioning bolt five (63) are respectively threaded into the corresponding misalignment groove (7).