A post-anchor anchoring system for a hanging basket of a continuous beam hanging basket construction

CN224395432UActive Publication Date: 2026-06-23POWERCHINA RAILWAY CONSTR +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
POWERCHINA RAILWAY CONSTR
Filing Date
2025-06-16
Publication Date
2026-06-23

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Abstract

The utility model discloses a kind of hanging basket post anchor anchoring systems of continuous beam hanging basket construction, including bearing structure and connecting structure.Bearing structure is composed of box, cross bar and inclined bar, and Y support is fixedly formed by cross bar and inclined bar.Connecting structure contains support frame and post anchor component, and support frame is arranged on cross bar, and is formed by first channel steel, second channel steel and middle reinforcing plate.Post anchor component includes anchor rod, upper limiting component and lower limiting component, and upper limiting component contains backing plate and upper nut, and lower limiting component contains limiting plate and lower nut.Box, cross bar and inclined bar form Y support, and Y support effectively supports hanging basket weight and construction load.The space between adjacent Y support is convenient for anchor rod to pass through.Support frame structure improves strength and stability.Double limiting of post anchor component prevents anchor rod from loosening or falling off.Backing plate and upper nut fix anchor rod top, and lower limiting component limits anchor rod to move in concrete beam, and improve the security and reliability of anchoring system.
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Description

Technical Field

[0001] This utility model relates to the field of continuous beam formwork construction, specifically to a formwork rear anchoring system for continuous beam formwork construction. Background Technology

[0002] The importance of the rear anchoring system for continuous beam formwork construction is self-evident. Like a loyal guardian, it silently shoulders the crucial responsibility of securing the formwork. Through a series of precise designs and complex constructions, this system firmly fixes the formwork in its predetermined position, ensuring its stability throughout the cantilever casting process. Whether facing strong winds, heavy rain, or other adverse external factors, the rear anchoring system, with its outstanding stability and reliability, effectively resists various impacts, preventing the formwork from swaying or shifting.

[0003] The rear anchoring system of a hanging basket typically consists of key components such as anchor bolts, anchor cables, and anchorages. These components undergo precision machining and rigorous testing to ensure optimal quality and performance. During construction, the rear anchoring system requires precise installation and commissioning to ensure its full functionality. Furthermore, construction personnel need to conduct regular inspections and maintenance to ensure long-term stable operation. It is these advanced technologies and strict management practices that enable the rear anchoring system to play a crucial role in the construction of continuous beam hanging baskets, providing a solid guarantee for the final quality and safety of the bridge structure.

[0004] In the construction of continuous beam formwork, the rear anchor system serves two purposes: first, to fix the formwork, ensuring it does not sway or shift during use; and second, to distribute the load of the formwork onto the existing concrete structure, thus ensuring construction safety. However, in the past, the rear anchor members of the formwork were located on both sides of the box girder. Installing and dismantling the rear anchor system required personnel to descend to the bottom of the outer flange of the continuous beam to retrieve the anchor bolts. Due to the limited location, this operation was inconvenient and dangerous, significantly impacting the efficiency of continuous beam formwork construction. Utility Model Content

[0005] The purpose of this utility model is to overcome the shortcomings of the existing technology and provide a rear anchoring system for continuous beam formwork construction. The Y-support formed by the box, crossbar, and diagonal braces in the load-bearing structure effectively supports the weight of the formwork and the load during construction, improving the stability and safety of the formwork. The double-limiting rear anchor assembly prevents the anchor rods from loosening or falling off during construction. Furthermore, the use of pads, upper nuts, and lower limit components ensures the anchor rods are fixed and prevents them from being pulled out due to excessive force, thereby improving the reliability and safety of the anchoring system.

[0006] The objective of this utility model is achieved through the following technical solution:

[0007] A hanging basket rear anchoring system for continuous beam hanging basket construction includes a load-bearing structure and a connecting structure; the load-bearing structure includes a box body, horizontal bars and diagonal bars, the horizontal bars and diagonal bars are fixed to form Y-braces, and the horizontal bars and diagonal bars are fixed at the ends of the box body; the Y-braces include at least two sets, and a through space is formed between adjacent Y-braces;

[0008] The connection structure includes a support frame and a rear anchor assembly. The support frame is mounted on a crossbar. The rear anchor assembly includes an anchor rod, an upper limit assembly, and a lower limit assembly. The upper limit assembly includes a pad and an upper nut, and the lower limit assembly includes a limit plate and a lower nut.

[0009] The support frame includes a first channel steel, a second channel steel, and a central reinforcing plate. The central reinforcing plate is used to connect the first channel steel and the second channel steel. The web of the first channel steel and the web of the second channel steel are connected by the central reinforcing plate. At least three central reinforcing plates are provided between the first channel steel and the second channel steel. A pad is provided on the support frame. The top of the anchor rod passes through the pad and is connected to the upper nut. The lower limiting assembly is provided inside the concrete beam. The limiting plate is located on the lower nut. The bottom of the anchor rod passes through the limiting plate and is connected to the lower nut.

[0010] The anchoring system primarily achieves stable support and fixation of the hanging basket through the coordinated work of the load-bearing structure and the connecting structure. The load-bearing structure consists of Y-braces composed of a box-shaped structure, horizontal bars, and diagonal bars. These components are fixed together to form a stable support frame. The Y-braces not only enhance the overall structural stability but also provide convenient passage for anchor bolts through the through-space formed between adjacent Y-braces.

[0011] The connecting structure serves to firmly connect the load-bearing structure to the concrete beam. The support frame consists of a first channel steel, a second channel steel, and a central reinforcing plate. The central reinforcing plate firmly connects the webs of the first and second channel steels, forming a stable support platform. A pad is installed on the support frame, and the top of the anchor rod passes through the pad and is secured with an upper nut to ensure the stability of the anchor rod's top.

[0012] Meanwhile, the lower limit component of the rear anchor assembly is set inside the concrete beam, with the limit plate located on the lower nut. The bottom of the anchor rod passes through the limit plate and connects to the lower nut. This arrangement not only restricts the vertical movement of the anchor rod but also provides additional support through the strength of the concrete beam, enhancing the stability and safety of the hanging basket.

[0013] During the construction of the hanging basket, the entire anchoring system works in concert. The load-bearing structure provides a stable support frame, while the connecting structure ensures a firm connection between the hanging basket and the concrete beam. This design allows the hanging basket to remain stable during construction, improving both safety and efficiency.

[0014] As a preferred embodiment, a side reinforcing plate is provided on the first channel steel, and the side reinforcing plate is welded to the flange and web of the first channel steel; a side reinforcing plate is provided on the second channel steel, and the side reinforcing plate is welded to the flange and web of the second channel steel.

[0015] As a preferred method, the interior of the box is equipped with several partitions.

[0016] As a preferred method, the crossbars are made of channel steel and the diagonal bars are made of angle steel.

[0017] As a preferred embodiment, the anchor bolt includes an upper anchor bolt and a lower anchor bolt, which are connected by a connector.

[0018] As a preferred method, at least two upper nuts are provided, at least one of which is an anti-slip nut; at least two lower nuts are provided.

[0019] As a preferred embodiment, the support frame is provided with a clamping structure, which includes a connecting plate, a support plate, a spring, and an adjusting box; two adjusting boxes are provided on both the first and second channel steels, and sliding grooves are provided on both the first and second channel steels, with the sliding grooves located at the bottom of the adjusting boxes; a spring is provided inside the adjusting box, with one end of the spring abutting against the rear of the adjusting box and the other end fixed to the support plate; the connecting plate is located below the support plate and fixed to the support plate; a clamping plate is provided below the connecting plate.

[0020] As a preferred method, the bottom of the regulating box is provided with a base plate, and the base plate is grooved to form a sliding groove.

[0021] As a preferred embodiment, the clamping plate includes a vertical part and an inclined part, the vertical part is fixed to the inclined part, and the top of the vertical part is fixedly connected to the connecting plate.

[0022] As a preferred method, a gasket is provided at the clamping plate.

[0023] This utility model has at least the following beneficial effects:

[0024] The Y-bracing, formed by the box-shaped structure, horizontal bars, and diagonal braces, effectively supports the weight of the formwork and the loads during construction, improving its stability and safety. The through-space formed between adjacent Y-bracings facilitates the passage of anchor bolts.

[0025] The support frame in the connecting structure, connected by the first channel steel, the second channel steel, and the central reinforcing plate, improves the strength and stability of the support frame, enabling it to withstand the load transmitted by the anchor bolts. The rear anchor assembly, with its upper and lower limit components, provides double restraint for the anchor bolts, effectively preventing loosening or detachment during construction and improving the reliability and safety of the anchoring system.

[0026] The pad and upper nut allow for easy fixation of the anchor bolt top to the support frame, while ensuring the anchor bolt's verticality and stability. The limiting plate and lower nut in the lower limiting assembly restrict the anchor bolt's movement within the concrete beam, preventing it from being pulled out due to excessive force, further enhancing the safety of the anchoring system. Attached Figure Description

[0027] To reveal the technical details of the embodiments of this utility model, the accompanying drawings involved in the embodiments will be briefly described below. It should be emphasized that these drawings only present several embodiments of this utility model and should not be considered as defining the scope of the utility model. For those skilled in the art, other related drawings can still be derived based on these drawings without creative effort.

[0028] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0029] Figure 2 This is a schematic diagram of the side structure of this utility model;

[0030] Figure 3 This is a schematic diagram of the load-bearing structure of this utility model;

[0031] Figure 4 This is a partial structural diagram of the present invention;

[0032] Figure 5 This is a schematic diagram of the support frame structure;

[0033] Figure 6 This is a partial schematic diagram of the clamping structure;

[0034] Figure 7 This is a schematic diagram of the clamping structure installation;

[0035] In the diagram, 1-box body, 1.1-body, 1.2-fixing plate, 1.3-screw hole, 1.4-partition, 2-support frame, 2.1-first channel steel, 2.2-second channel steel, 2.3-central reinforcement plate, 2.4-side reinforcement plate, 3-crossbar, 4-rear anchor assembly, 4.1-pad plate, 4.2-upper nut, 4.3-anchor rod, 4.4-limiting plate, 4.5-lower nut, 5-diagonal bar, 6-lower support rod, 7-upper support rod, 8-concrete beam, 9-shield, 10-clamping plate, 11-slide groove, 12-spring, 13-connecting plate, 14-support plate, 15-adjustment box. Detailed Implementation

[0036] The technical solution of this utility model is described in further detail below with reference to the accompanying drawings, but the scope of protection of this utility model is not limited to the following description.

[0037] In the following description, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. However, it should be understood that the present disclosure is not limited to the specific forms shown herein. Rather, it should be understood to encompass various variations, equivalents, and / or alternatives to the embodiments of the present disclosure. In illustrating the drawings, the same reference numerals will be used to denote similar components.

[0038] In the various embodiments of this disclosure, the terms "first," "second," "the first," or "the second" are intended to modify different components and not to indicate order and / or importance, nor do they constitute a limitation on the respective components. For example, a first user equipment and a second user equipment represent different user equipments, although they both fall under the category of user equipment. Similarly, a first component may be named a second component, and a second component may be named a first component, without changing their essential attributes within the scope of this disclosure.

[0039] It should be clarified that while the following description provides detailed specific information to aid in a comprehensive understanding of the exemplary embodiments, those skilled in the art will recognize that the exemplary embodiments can be implemented even without these specific details. For example, the system may be illustrated using block diagrams to avoid excessive detail that could obscure the clarity of the example. In other cases, to maintain the clarity of the example, unnecessary details of well-known processes, structures, and techniques may be omitted.

[0040] like Figure 1 As shown, a hanging basket rear anchoring system for continuous beam hanging basket construction includes a load-bearing structure and a connecting structure; the load-bearing structure includes a box body 1, horizontal bars 3, and diagonal bars 5, with the horizontal bars 3 and diagonal bars 5 fixed to form a Y-bracing (e.g., Figure 2 and Figure 3 As shown), a crossbar 3 and a diagonal bar 5 are fixed at the end of the box body 1; the Y-support includes at least two sets, both of which are fixed to the end of the box body 1, and a through space is formed between adjacent Y-supports; the end of the diagonal bar 5 is fixed at the middle position of the crossbar 3.

[0041] The connection structure includes a support frame 2 and a rear anchor assembly 4. The support frame 2 is mounted on the crossbar 3. The rear anchor assembly 4 includes an anchor rod 4.3, an upper limit assembly and a lower limit assembly. The upper limit assembly includes a pad 4.1 and an upper nut 4.2. The lower limit assembly includes a limit plate 4.4 and a lower nut 4.5.

[0042] The support frame 2 includes a first channel steel 2.1, a second channel steel 2.2, and a central reinforcing plate 2.3 (see details). Figure 5The central reinforcing plate 2.3 is used to connect the first channel steel 2.1 and the second channel steel 2.2; the web of the first channel steel 2.1 and the web of the second channel steel 2.2 are connected by the central reinforcing plate 2.3; at least three central reinforcing plates 2.3 are provided between the first channel steel 2.1 and the second channel steel 2.2; the pad plate 4.1 is provided on the support frame 2, the top of the anchor rod 4.3 passes through the pad plate 4.1 and is connected to the upper nut 4.2, and the lower limit assembly is provided inside the concrete beam 8 (e.g., Figure 4 As shown, the limiting plate 4.4 is located on the lower nut 4.5, and the bottom of the anchor rod 4.3 passes through the limiting plate 4.4 and is connected to the lower nut 4.5.

[0043] The load-bearing structure consists of a box body 1, horizontal bars 3, and diagonal bars 5. The horizontal bars 3 and diagonal bars 5 are fixed to form Y-braces, enhancing the stability of the structure. These Y-braces are evenly distributed at the ends of the box body 1, and the through space formed between adjacent Y-braces allows anchor rods 4.3 to pass through. This embodiment emphasizes symmetry; that is, it sets up two Y-braces, with the anchor rod 4.3 allowed to pass through the middle of the two Y-braces. This ensures, to a certain extent, the uniformity of force on the Y-braces and also the uniformity of force on the box body 1, from the anchor rod 4.3 to the support frame 2 and then from the support frame 2 to the Y-braces.

[0044] The support frame 2 in the connecting structure consists of a first channel steel 2.1, a second channel steel 2.2, and a central reinforcing plate 2.3. The central reinforcing plate 2.3 connects the webs of the first channel steel 2.1 and the second channel steel 2.2, ensuring the strength and rigidity of the support frame 2. The use of at least three central reinforcing plates 2.3 further enhances the stability of the support frame 2.

[0045] The top of the anchor rod 4.3 passes through the pad 4.1 and connects with the upper nut 4.2, thus fixing the anchor rod 4.3 on the support frame 2. At the same time, the lower limit assembly is set inside the concrete beam 8, and the bottom of the anchor rod 4.3 passes through the limit plate 4.4 and connects with the lower nut 4.5, ensuring the stability of the anchor rod 4.3 in the concrete beam 8.

[0046] During operation, the design of the horizontal bar 3 and the diagonal bar 5 enables the structure to withstand the loads during construction, ensuring the safety and stability of the construction. At the same time, the upper and lower limit design of the rear anchor assembly 4 effectively prevents the anchor rod 4.3 from loosening and falling off during the stress process, further improving the stability of the structure.

[0047] In summary, the post-anchoring system for continuous beam formwork construction has advantages such as structural stability, safety and reliability, and convenient construction. It is suitable for various continuous beam formwork construction scenarios and provides strong protection for safety and quality during the construction process.

[0048] In a preferred embodiment, a side reinforcing plate 2.4 is provided on the first channel steel 2.1, and the side reinforcing plate 2.4 is welded to the flange and web of the first channel steel 2.1; a side reinforcing plate 2.4 is provided on the second channel steel 2.2, and the side reinforcing plate 2.4 is welded to the flange and web of the second channel steel 2.2. By providing side reinforcing plates 2.4 on the channel steel and welding them, the structural strength and stability of the channel steel can be significantly improved, thereby enhancing the load-bearing capacity and deformation resistance of the entire structure.

[0049] In a preferred embodiment, reference Figure 1 The housing 1 includes a main body 1.1 and a fixing plate 1.2 mounted on the main body 1.1. The fixing plate 1.2 has screw holes 1.3. In use, the main body 1.1 connects to the upper support rod 7 and the lower support rod 6. The upper support rod 7 is connected to the front of the main body 1.1, and the lower support plate is connected to the lower part of the main body 1.1. The connection is achieved by screwing a screw into the screw hole 1.3 of the fixing plate 1.2, passing through a pre-drilled hole in either the upper support rod 7 or the lower support rod 6, and tightening the end of the screw with a nut.

[0050] In a preferred embodiment, the interior of the housing 1 is provided with a plurality of partitions 1.4, which are used to strengthen the structure of the housing 1. The partitions 1.4 can effectively distribute the forces inside the housing 1, reduce local stress concentration, and improve the overall stability and load-bearing capacity of the housing 1.

[0051] In a preferred embodiment, the crossbar 3 is made of channel steel, and the diagonal bar 5 is made of angle steel. Using channel steel and angle steel as the materials for the crossbar 3 and diagonal bar 5 respectively can make full use of the mechanical properties of each material, improve the stability and load-bearing capacity of the structure, and at the same time ensure the lightweight and economical nature of the structure.

[0052] In a preferred embodiment, the anchor bolt 4.3 includes an upper anchor bolt 4.3 and a lower anchor bolt 4.3, which are connected by a connector. The connector can be a double-threaded sleeve, which is threadedly connected to both the upper and lower anchor bolts 4.3 for easy installation. The connector can be more than just a double-threaded sleeve; it can also be other connection structures, such as a snap-fit ​​structure.

[0053] In a preferred embodiment, at least two upper nuts 4.2 are provided, at least one of which is a non-slip nut; at least two lower nuts 4.5 are provided. Providing multiple nuts can increase the reliability of the connection, and the use of non-slip nuts can prevent the nuts 4.5 from loosening under vibration or load, thereby ensuring the stability of the structural connection.

[0054] In a preferred embodiment, such as Figure 6 and Figure 7As shown, the support frame 2 is equipped with a clamping structure, which includes a connecting plate 13, a support plate 14, a spring 12, and an adjusting box 15. Two adjusting boxes 15 are each installed on the first channel steel 2.1 and the second channel steel 2.2. Each of the first channel steel 2.1 and the second channel steel 2.2 has a sliding groove 11 located at the bottom of the adjusting box 15. A spring 12 is installed inside the adjusting box 15, with one end abutting against the rear of the adjusting box 15 and the other end fixed to the support plate 14. The connecting plate 13 is located below the support plate 14 and fixed to it. A clamping plate 10 is installed below the connecting plate 13. The clamping structure design allows for flexible adjustment of the support frame 2. The application of the spring 12 provides a certain buffering effect, enhancing the adaptability and stability of the structure. Furthermore, the clamping plate 10 is used to clamp the crossbar 3, which is made of channel steel. The clamping plate 10 clamps the flange of the channel steel, preventing the support frame 2 from falling and enhancing the stability of the support frame 2 installation.

[0055] The clamping structure mainly consists of a connecting plate 13, a support plate 14, a spring 12, and an adjusting box 15. Two adjusting boxes 15 are installed on both the first channel steel 2.1 and the second channel steel 2.2. Additionally, these two channel steels also have sliding grooves 11 located at the bottom of the adjusting boxes 15. A spring 12 is installed inside the adjusting box 15, with one end of the spring 12 pressed against the rear wall of the adjusting box 15 and the other end fixedly connected to the support plate 14. The connecting plate 13 is fixed below the support plate 14, and a clamping plate 10 is installed below the connecting plate 13. The main function of the clamping plate 10 is to clamp the crossbar 3. The clamping plate 10 can tightly clamp the wing plates of the channel steel, effectively preventing the support frame 2 from falling during use, greatly enhancing the stability and safety of the support frame 2 installation. During use, the wing plates of the crossbar 3 can be firmly clamped by the four clamping plates 10 and the springs 12.

[0056] In a preferred embodiment, the bottom of the adjustment box 15 is provided with a base plate, and the base plate is grooved to form a sliding groove 11, and the entire base plate is U-shaped. The design of the U-shaped base plate and the sliding groove 11 allows for easy adjustment while providing sufficient support area. The connecting plate 13 can slide on the base plate, and the top of the clamping plate 10 can slide within the sliding groove 11, which ensures smooth sliding and prevents the connecting plate 13 from falling off.

[0057] In a preferred embodiment, the clamping plate 10 includes a vertical portion and an inclined portion, the vertical portion being fixed to the inclined portion, and the top of the vertical portion being fixedly connected to the connecting plate 13. The design of the vertical and inclined portions of the clamping plate 10 can better adapt to the support requirements at different angles, especially the inclined flanges of the channel steel, thereby improving the adaptability and stability of the clamping structure.

[0058] In a preferred embodiment, a gasket 9 is provided at the clamping plate 10. The gasket 9 is a rubber gasket 9 and is fixed to the clamping plate 10. The rubber gasket 9 has a certain buffering and shock absorption function, which can reduce the friction and wear between the clamping plate 10 and the connecting parts. In addition, the rubber gasket 9 can also increase its friction with the crossbar 3 and extend the service life of the equipment.

[0059] This invention provides a rear anchoring system for continuous beam formwork construction. The main body is located at the rear of the box girder 1, with horizontal bars 3 and diagonal bars 5 located on both sides of the box girder 1 and welded together as a whole. A support frame 2 is placed at the top of the horizontal bar 3. The lower (half) part of the rear anchor rod 4.3 is pre-embedded in concrete, and the upper and lower parts of the rear anchor rod 4.3 are connected by a connector. All surfaces of the horizontal bar 3 that are in contact with the box girder 1 are welded; the lower half of the rear anchor rod 4.3 is embedded inside the web of the continuous beam. This invention solves the problems caused by the inconvenience of installing and removing the rear anchor rod 4.3 in existing formwork construction, the high risk of personnel operation, and other related issues.

[0060] The hanging basket rear anchoring system achieves load transfer through the combination of Y-shaped supports and box 1: During construction, the symmetrical Y-supports at the ends of box 1 evenly distribute the load to the concrete beam 8, and the anchor rods 4.3 pass through the gaps in the Y-supports and are rigidly connected to the support frame 2. The support frame 2 uses double channel steel and multi-layer reinforcing plates to form a high-strength frame. The top of the anchor rods 4.3 is locked at the upper end by anti-slip nut assembly, and the lower end is embedded in the beam by a limiting plate 4.4 and a multi-nut assembly to form bidirectional anchoring. The clamping mechanism uses spring 12 to help the clamping plate 10 engage with the flange of the crossbar 3, and the rubber gasket 9 enhances friction and vibration resistance, ensuring the dynamic stability of the support frame 2 and the load-bearing structure. The components work together to form a spatial force-bearing system, which not only ensures the safety of load transfer during hanging basket construction, but also enables rapid installation and adjustment through modular design.

[0061] Although the preferred embodiments of this utility model have been described in detail, those skilled in the art, upon understanding the basic inventive concept, may still make other changes and modifications to these embodiments. Therefore, the appended claims are intended to cover the preferred embodiments as well as all changes and modifications falling within the scope of this utility model. The above description is merely a preferred embodiment of this utility model and does not constitute a limitation thereof. It should be understood that any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A post-anchoring system for a hanging basket of a continuous beam hanging basket construction, characterized by: The bearing structure comprises a box, a cross bar and an inclined bar, the cross bar and the inclined bar are fixed to form a Y support, the Y support is fixed at the end of the box; The connecting structure comprises a support frame and a rear anchor assembly, the support frame is arranged on the cross bar; the rear anchor assembly comprises an anchor rod, an upper limiting assembly and a lower limiting assembly, the upper limiting assembly comprises a gasket plate and an upper nut, the lower limiting assembly comprises a limiting plate and a lower nut; The support frame comprises a first channel steel, a second channel steel and a middle reinforcing plate, the middle reinforcing plate is used for connecting the first channel steel and the second channel steel; the web of the first channel steel and the web of the second channel steel are connected through the middle reinforcing plate; at least three middle reinforcing plates are arranged between the first channel steel and the second channel steel; the gasket plate is arranged on the support frame, the top of the anchor rod passes through the gasket plate and is connected with the upper nut, the lower limiting assembly is arranged in the concrete beam, the limiting plate is located on the lower nut, and the bottom of the anchor rod passes through the limiting plate and is connected with the lower nut.

2. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 1, characterized in that: The first channel steel is provided with a side reinforcing plate, and the side reinforcing plate is welded with the flange plate and the web of the first channel steel; the second channel steel is provided with a side reinforcing plate, and the side reinforcing plate is welded with the flange plate and the web of the second channel steel.

3. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 1, characterized in that: The inside of the box is provided with a plurality of partitions.

4. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 1, characterized in that: The cross bar is made of channel steel, and the inclined bar is made of angle steel.

5. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 1, characterized in that: The anchor rod comprises an upper anchor rod and a lower anchor rod, and the upper anchor rod and the lower anchor rod are connected through a connector.

6. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 1, characterized in that: The upper nut is provided with at least two, and at least one of the upper nuts is an anti-skid nut; the lower nut is provided with at least two.

7. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 1, characterized in that: The support frame is provided with a clamping structure, the clamping structure comprises a connecting plate, a supporting plate, a spring and an adjusting box; the first channel steel and the second channel steel are each provided with two adjusting boxes, the first channel steel and the second channel steel are each provided with a sliding groove, and the sliding groove is located at the bottom of the adjusting box; the adjusting box is provided with a spring, one end of the spring abuts against the rear part of the adjusting box, and the other end is fixed with the supporting plate; the connecting plate is arranged below the supporting plate and is fixed with the supporting plate; the connecting plate is provided with a clamping plate below.

8. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 7, characterized in that: The bottom of the adjusting box is provided with a bottom plate, and the bottom plate is slotted into a sliding groove.

9. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to claim 7, characterized in that: The clamping plate comprises a vertical part and an inclined part, the vertical part and the inclined part are fixed, and the top of the vertical part is fixedly connected with the connecting plate.

10. The post-anchoring system for the hanging basket of the continuous beam hanging basket construction according to any one of claims 7-9, characterized in that: The clamping plate is provided with a gasket.