A type of beam and column stirrup classification hoisting cage to prevent scattering

By designing a beam and column stirrup classification hoisting cage with detachable connecting seats and adjustable uprights, the problem of fixed upright positions in existing technologies has been solved, enabling flexible stacking of stirrups of different specifications and improving space utilization.

CN224429950UActive Publication Date: 2026-06-30CHINA RAILWAY CONSTRUCTION ENGINEERING GROUP +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA RAILWAY CONSTRUCTION ENGINEERING GROUP
Filing Date
2025-07-03
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The fixed position of the uprights of the existing stirrup cages makes it impossible to effectively stack stirrups of different specifications, which can easily lead to wasted space or limited space.

Method used

Design a beam and column stirrup classification hoisting cage to prevent scattering. It adopts a detachable connecting seat and an adjustable upright structure. The detachable connecting seat and adjustable upright position can adapt to the stacking needs of stirrups of different specifications.

Benefits of technology

It enables flexible classification and stacking of stirrups of different specifications, improves space utilization, and avoids space waste and constraints.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of stirrup lifting tools, and in particular to a beam and column stirrup sorting and lifting cage to prevent scattering. It includes: a base comprising several bottom horizontal bars, each bottom horizontal bar having a bottom longitudinal bar connected to its end; side bars, the side bars being inclined and their bottom ends connected to the ends of the bottom longitudinal bars; a top bar connected to the top ends of two symmetrically arranged side bars on the same side, the top bar having a lifting lug; and a connecting seat detachably connected to two adjacent bottom horizontal bars, the connecting seat having a vertical bar fixedly connected to it; the top end of the vertical bar has a through hole for penetrating the top horizontal bar. The detachable connecting seat structure allows the vertical bars used for stacking beam and column stirrups to be selectively installed in different positions, enabling adjustment of the vertical bar position. This adjustability allows the lifting cage to better sort and stack stirrups, improving space utilization and avoiding space waste or limitations.
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Description

Technical Field

[0001] This utility model relates to the technical field of stirrup hoisting tools, and more specifically, to a beam and column stirrup classification hoisting cage to prevent scattering. Background Technology

[0002] A stirrup cage is a structure used in construction for hoisting stirrups. It can stack stirrups in sections and lift the stirrups together with the cage to prevent them from falling, thus ensuring construction safety and avoiding injury or damage to equipment from falling stirrups.

[0003] Patent CN220376114U discloses a stirrup cage anti-detachment device. It features several uprights that divide the internal space of the cage into sections for stirrup stacking. A horizontal bar and uprights are nested together, with a pin on the left side of the horizontal bar and a hook on the leftmost upright's opening forming a lock. Rotating the horizontal bar engages the pin, securing the cage and preventing it from detaching from its track or falling from a height. However, this anti-detachment device uses fixed positions for the uprights used to stack the stirrups. When the stirrups to be stacked are large, fixed positions are inconvenient for stacking, and cannot effectively accommodate large stirrups. Furthermore, stirrups used in construction often come in various specifications, making it difficult to stack different specifications effectively with fixed positions, potentially leading to wasted space or space constraints preventing proper stirrup stacking. Utility Model Content

[0004] To overcome the shortcomings mentioned above, this utility model aims to provide a beam and column stirrup classification and hoisting cage to prevent scattering.

[0005] A beam and column stirrup classification and hoisting cage for preventing scattering, comprising:

[0006] The base includes several bottom crossbars, and the ends of each bottom crossbar are connected to bottom longitudinal bars;

[0007] Side rods, which are arranged at an angle and whose bottom ends are connected to the end of the bottom longitudinal rod;

[0008] A top rod is connected to the top of two side rods that are symmetrically arranged on the same side, and a lifting lug is connected to the top rod;

[0009] And a connecting seat that can be detachably connected to two adjacent bottom crossbars, wherein a vertical rod is fixedly connected to the connecting seat; the top end of the vertical rod is provided with a through hole for passing through the top crossbar.

[0010] Furthermore, a branch pipe is provided on the lower end face of the bottom longitudinal rod.

[0011] Furthermore, the bottom crossbar is provided with a number of first through holes, and two parallel first through holes on two adjacent bottom crossbars are used for detachably connecting the connecting seat.

[0012] Furthermore, the connecting seat can be selectively connected to the first through hole on two adjacent bottom crossbars;

[0013] The connecting seat is a portal frame. The top plate of the portal frame has second through holes at both ends, which are adapted to the two first through holes parallel to the two adjacent bottom crossbars. When two adjacent bottom crossbars are set as a group, the two upright side plates of the portal frame are located on both sides of the group structure, that is, the portal frame spans the group of bottom crossbars.

[0014] Furthermore, a top crossbar passes through the hole at the top of the upright, and a third through hole is provided at each end of the top crossbar for connecting the limiting bolt.

[0015] Furthermore, several sleeves are arranged below the bottom crossbar. Correspondingly, the two upright side plates of the connecting seat are provided with a fourth through hole, which is adapted to the sleeve. The through rod passes through the fourth through hole and the sleeve to limit the position of the connecting seat.

[0016] Furthermore, a baffle is fixed to one end of the through rod; a fifth through hole is opened at the other end of the through rod, and a through bolt is used for limiting and preventing the through rod from falling off.

[0017] Furthermore, the bottom crossbar, bottom longitudinal bar, side bar, top bar, top crossbar, sleeve, and through bar are all made of square tubing.

[0018] Compared with the prior art, the beneficial effects of this utility model are:

[0019] This anti-scattering beam and column stirrup classification hoisting cage, through its detachable connecting seat structure, allows for the selective installation of the uprights used to stack the beam and column stirrups in different positions. The adjustable position of the uprights enables the hoisting cage to better classify and stack the stirrups, improve space utilization, and avoid space waste or limitations.

[0020] Furthermore, a sleeve is installed below the bottom crossbar and adapted to the fourth through hole of the connecting seat. This not only enables the adjustability of the connecting seat position but also enhances the structural stability of the base. By adjusting the position of the connecting seat, the position of the upright can be flexibly changed to accommodate the stacking requirements of stirrups for beams and columns of different sizes and specifications. Attached Figure Description

[0021] 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:

[0022] Figure 1 This is a schematic diagram of the overall structure of the beam and column stirrup classification hoisting cage in Example 1 to prevent scattering.

[0023] Figure 2 This is an exploded view of the beam and column stirrup classification hoisting cage used in Example 1 to prevent scattering.

[0024] Figure 3 This is a schematic diagram of the base, side rod, and top rod in Embodiment 1.

[0025] Figure 4 This is a schematic diagram of the connecting seat and the upright in Embodiment 1.

[0026] Figure 5 This is a schematic diagram of the overall structure of the beam and column stirrup classification hoisting cage for preventing scattering in Example 2.

[0027] Figure 6 This is an exploded view of the beam and column stirrup classification hoisting cage used in Example 2 to prevent scattering.

[0028] Figure 7 This is an exploded view of another perspective of the beam and column stirrup classification hoisting cage used in Example 2 to prevent scattering.

[0029] Figure 8 This is a schematic diagram of the connecting seat and the upright in Embodiment 2.

[0030] In the diagram: 1. Bottom crossbar; 11. First through hole; 12. Connecting plate; 13. Connecting pipe;

[0031] 2. Bottom longitudinal bar; 21. Branch pipe;

[0032] 3. Side bars;

[0033] 4. Top rod;

[0034] 5. Hanging lugs;

[0035] 6. Connecting seat; 61. Second through hole; 62. Fourth through hole;

[0036] 7. Upright pole; 71. Perforation;

[0037] 8. Top crossbar; 81. Third through hole; 82. Limit bolt;

[0038] 9. Sleeve;

[0039] 10. Through rod; 101. Baffle; 102. Fifth through hole. Detailed Implementation

[0040] 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.

[0041] Example 1:

[0042] like Figures 1-4 As shown, this embodiment provides a beam and column stirrup classification and hoisting cage to prevent scattering, including a base, side bars, top bars, and a connecting seat detachably connected to two adjacent bottom horizontal bars. The base includes several bottom horizontal bars 1, each with a bottom longitudinal bar 2 connected to its end. In this embodiment, the base includes four parallel bottom horizontal bars 1, each with a bottom longitudinal bar 2 fixed to both ends, i.e., two bottom longitudinal bars 2 are provided. Side bars 3 are also fixed to the ends of each bottom longitudinal bar 2. The side bars 3 are arranged at an angle, with their bottom ends connected to the ends of the bottom longitudinal bars 2. Two symmetrically arranged side bars 3 are connected to each bottom longitudinal bar 2, and a top bar 4 is connected to the top of these two side bars 3. A lifting lug 5 is connected to the top bar 4. A vertical bar 7 is fixed to the connecting seat 6; the top of the vertical bar 7 has a through hole 71 for penetrating the top horizontal bar 8. The inner contour of the through hole 71 matches the outer contour of the top horizontal bar 8.

[0043] In this embodiment, the lower end face of the bottom longitudinal rod 2 of the base is provided with branch pipes 21. Specifically, branch pipes 21 are fixedly connected to the lower end face of each end of the bottom longitudinal rod, and the four branch pipes 21 can support the entire hoisting cage, so that there is a certain distance between the entire hoisting cage and the ground.

[0044] In this embodiment, the base includes four parallel bottom horizontal bars 1 and two bottom vertical bars 2. Each bottom horizontal bar 1 has several first through holes 11, and two parallel first through holes 11 on adjacent bottom horizontal bars 1 are used for detachable connection of the connecting seat 6. Two adjacent bottom horizontal bars 1 are grouped together, that is, the base has two groups of bottom horizontal bar combinations, and a connecting plate 12 is connected between these two groups of bottom horizontal bar combinations to enhance the structural stability of the base. A connecting pipe 13 is also provided in each group of bottom horizontal bar combinations to enhance the stability of the base.

[0045] The connecting seat 6 can be selectively connected to the first through hole 11 on two adjacent bottom crossbars 1. The connecting seat 6 is a portal frame, and the top plate of the portal frame has second through holes 61 at both ends, which are adapted to the two parallel first through holes 11 on the two adjacent bottom crossbars 1. When the connecting seat 6 is installed on two adjacent bottom crossbars 1, the two upright side plates of the portal frame are located on both sides of the two bottom crossbars 1, that is, the portal frame spans the two bottom crossbars 1. The second through hole 61 of the connecting seat 6 coincides with the first through hole 11 of the bottom crossbar 1 below it. By using bolts to pass through and tighten, the connecting seat 6 can be selectively fixed on the bottom crossbar 1. This allows the connecting seat 6 to be fixed in a suitable position on the base according to the outline size of the beam and column stirrups, and allows for better classification and stacking of each pair of stirrups.

[0046] In this embodiment, a vertical rod 7 is fixedly connected to the connecting seat 6. A top horizontal rod 8 passes through a through hole 71 at the top of the vertical rod 7, wherein the through hole 71 is adapted to the outer contour of the top horizontal rod 8. A third through hole 81 is provided at both ends of the top horizontal rod 8 for connecting a limiting bolt 82. The length of the limiting bolt is greater than the diameter of the through hole. After the top horizontal rod 8 passes through the through hole 71 at the top of each vertical rod 7, it will not fall down along the through hole 71, thereby limiting the position of the stacked beam and column stirrups, which facilitates the movement or hoisting of the hoisting cage with the stacked beam and column stirrups.

[0047] In this embodiment, the bottom horizontal bar 1, bottom vertical bar 2, side bar 3, top bar 4, and top horizontal bar 8 are all made of square tubing.

[0048] The anti-scattering beam and column stirrup classification hoisting cage provided in this embodiment, through the detachable connecting seat 6 structure, allows the uprights 7 used for stacking beam and column stirrups to be selectively installed in different positions. The position of the uprights 7 can be adjusted, thus making it suitable for flexible classification and stacking of beam and column stirrups of different specifications on the hoisting cage, which is convenient for subsequent hoisting.

[0049] Its base consists of a bottom horizontal bar 1 and a bottom vertical bar 2, which, together with the side bars 3 and the top bar 4, form a stable frame structure. The top bar 4 is connected to lifting lugs 5 for hoisting the entire hoisting cage. Several first through holes on the bottom horizontal bar 1 form a selectively detachable connection with the connecting seat 6, thus allowing the installation position of the connecting seat to be adjusted according to different specifications of stirrups, adapting to the stacking requirements of stirrups of different sizes. The connecting seat 6 is a portal frame, with second through holes at both ends of its top plate, which are adapted to the first through holes 11 of the bottom horizontal bar 1, and connected by bolts that pass through and tighten. The connecting seat 6 is connected to uprights 7, which are used to insert the stirrups of beams and columns and to stack them. After stacking, the top horizontal bar 8 is passed through the through holes 71 at the top of each upright bar 7, and limiting bolts 82 are passed through the third through holes 81 at both ends of the top horizontal bar 8 to prevent the top horizontal bar 8 from falling along the through holes 71.

[0050] By adjusting the installation position of the connecting seat 6 on the bottom crossbar 1, the position of the upright 7 used for mounting and stacking the stirrups of beams and columns can be flexibly changed to adapt to the stacking requirements of stirrups of different specifications and profiles. This adjustability allows the hoisting cage to better classify and stack the stirrups, improve space utilization, and avoid space waste or restrictions.

[0051] The beam and column stirrup classification and hoisting cage provided in this embodiment has several first through holes 11 on the bottom horizontal bar 1. The connecting seat 6 can be selectively connected to the first through holes on two adjacent bottom horizontal bars 1, realizing the adjustability of the position of the upright 7. Therefore, the position of the connecting seat 6 can be flexibly adjusted according to the outline size of the beam and column stirrups, thereby fixing the upright 7 in a suitable position and better classifying and stacking the beam and column stirrups.

[0052] Example 2:

[0053] The difference from Embodiment 1 lies in the structure of the base. In this embodiment, as... Figures 5-8 As shown, several sleeves 9 are arranged below the bottom crossbar 1 of the base. Correspondingly, the two upright side plates of the portal frame of the connecting seat 6 are provided with a fourth through hole 62, which is adapted to the sleeve 9. The through rod 10 passes through the fourth through hole 62 and the sleeve 9 to limit the connecting seat 6.

[0054] In this embodiment, the base includes four parallel bottom horizontal bars 1, with bottom vertical bars 2 fixed to both ends of each bottom horizontal bar 1. Two adjacent bottom horizontal bars 1 are grouped together, meaning the base has two groups of bottom horizontal bar combinations. A connecting plate 12 connects these two groups of bottom horizontal bar combinations to enhance the structural stability of the base. In each group of bottom horizontal bar combinations, several sleeves 9 are arranged at the bottom, and the sleeves below the two groups of bottom horizontal bar combinations correspond one-to-one.

[0055] A baffle 101 is fixed to one end of the through rod 10. The outline of the baffle 101 is larger than the fourth through hole 62 to prevent the through rod 10 from falling off the sleeve 9 or the fourth through hole 62. A fifth through hole 102 is opened at the other end of the through rod 10, and a through bolt is used for limiting and preventing the through rod from falling off.

[0056] In this embodiment, the bottom horizontal bar 1, bottom vertical bar 2, side bar 3, top bar 4, top horizontal bar 8, sleeve 9, and through bar 10 are all made of square tubing.

[0057] The anti-scattering beam and column stirrup classification hoisting cage provided in this embodiment has a fourth through hole 62 on the upright side plate of the connecting seat 6, which is adapted to the sleeve 9 below the bottom horizontal bar 1. The sleeve 9 is a square tube, and the fourth through hole 62 is a square hole. The connecting seat is placed on top of the sleeve 9 in a suitable position, and the through rod 10 is inserted through the fourth through hole 62 and the sleeve 9 to limit the connection seat 6. The baffle 101 at one end of the through rod 10 can prevent the through rod from falling out of the sleeve 9 or the fourth through hole 62, and the bolt is inserted through the fifth through hole 102 at the other end for limiting.

[0058] A sleeve 10 is installed below the bottom horizontal bar 1 and is adapted to the fourth through hole 62 of the connecting seat 6. This not only enables the adjustability of the position of the connecting seat 6, but also enhances the structural stability of the base. By adjusting the position of the connecting seat 6, the position of the upright can be flexibly changed, thereby adapting to the stacking requirements of stirrups for beams and columns of different sizes and specifications.

[0059] 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 cage for classifying and hoisting beam and column stirrups to prevent scattering, characterized in that, include: The base includes several bottom crossbars (1), and the ends of each bottom crossbar (1) are connected to bottom longitudinal bars (2); Side rod (3), the side rod (3) is arranged at an angle, and its bottom end is connected to the end of the bottom longitudinal rod (2); A top rod (4) is connected to the top of two side rods (3) that are symmetrically arranged on the same side, and a lifting lug (5) is connected to the top rod (4); And a connecting seat (6) detachably connected to two adjacent bottom crossbars (1), on which a vertical rod (7) is fixed; the top end of the vertical rod (7) is provided with a through hole (71), which is used to pass through the top crossbar (8).

2. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 1, characterized in that, The lower end face of the bottom longitudinal rod (2) is provided with a branch pipe (21).

3. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 2, characterized in that, The bottom crossbar (1) is provided with a number of first through holes (11), and two parallel first through holes (11) on two adjacent bottom crossbars (1) are used to detachably connect the connecting seat (6).

4. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 3, characterized in that, The connecting seat (6) can be selectively connected to the first through hole (11) on two adjacent bottom crossbars (1); The connecting seat (6) is a portal frame, and the top plate of the portal frame is provided with second through holes (61) at both ends, which are adapted to the two first through holes (11) on the adjacent bottom crossbars (1).

5. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 4, characterized in that, The bottom horizontal bar (1), bottom vertical bar (2), side bar (3), top bar (4), and top horizontal bar (8) are all made of square tubing.

6. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 2, characterized in that, A top crossbar (8) is inserted through the through hole (71) at the top of the upright (7). The top crossbar (8) has a third through hole (81) at both ends for connecting the limiting bolt (82).

7. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 6, characterized in that, Several sleeves (9) are arranged below the bottom crossbar (1). Correspondingly, the two upright side plates of the connecting seat (6) are provided with a fourth through hole (62). The fourth through hole (62) is adapted to the sleeve (9). The through rod (10) passes through the fourth through hole (62) and the sleeve (9) to limit the connecting seat (6).

8. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 7, characterized in that, One end of the through rod (10) is fixedly connected to a baffle (101); the other end of the through rod (10) is provided with a fifth through hole (102), and a through bolt is used for limiting the position.

9. The anti-scattering beam and column stirrup classification and hoisting cage according to claim 8, characterized in that, The bottom horizontal bar (1), bottom vertical bar (2), side bar (3), top bar (4), top horizontal bar (8), sleeve (9), and through bar (10) are all made of square tubing.