A pre-burying device for material stacking support

By designing a detachable pre-embedded device, the problem of the bracket being integrated with the concrete base was solved, enabling the bracket to be reused and saving resources, simplifying the installation process, and adapting to various material stacking scenarios.

CN224468815UActive Publication Date: 2026-07-07YUNNAN ZHONGHANG CONSTRUCT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YUNNAN ZHONGHANG CONSTRUCT CO LTD
Filing Date
2025-08-12
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing technologies, the material stacking support is integrated with the concrete base and cannot be disassembled, resulting in the support being unusable and causing a waste of resources.

Method used

Design an embedded device including a strip mounting base, a fixed bracket, and a longitudinal bracket. The longitudinal bracket is detachably connected to the concrete base through a connection method using slots and elastic elements, allowing the longitudinal bracket to be moved and reused.

Benefits of technology

The longitudinal support can be detached and installed, which improves the utilization rate of the support and saves resources. Furthermore, the design of slots and elastic elements simplifies the installation process and adapts to the stacking needs of different materials.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a pre-embedded device for a material stacking support. Several concrete bases are cast in the ground. Each concrete base has a pre-embedded strip-shaped mounting seat along its length, with several mounting slots. Each fixed support includes a main plate and two auxiliary plates mounted perpendicularly to the main plate. Each end of the main plate has a first slot extending towards its center, with one first slot inserted into one mounting slot. The longitudinal support includes a first web and two first wing plates mounted perpendicularly to the first web. Each end of the first web has two second slots extending towards its center. The longitudinal support can be inserted into the fixed support through the second slots and the other first slot. In this device, the longitudinal support is detachably installed between the concrete base and the longitudinal support via a smaller fixed support, making the longitudinal support easy to move. The slot-based installation is simple and quick, improving the utilization rate of the longitudinal support.
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Description

Technical Field

[0001] This utility model relates to the field of construction and related technologies, and in particular to a pre-embedded device for a material stacking support. Background Technology

[0002] Currently, the storage of straight steel bars and coiled steel bars on construction sites involves first pouring multiple rows of concrete bases on a pre-planned ground surface. During the pouring process, supports are directly embedded in the concrete bases, making the supports and concrete bases a single unit. While this method can accommodate straight steel bars and coiled steel bars, the supports and concrete bases are not removable. When the straight steel bars and coiled steel bars are moved to other locations, the original supports and concrete bases become obsolete and need to be dismantled. Furthermore, supports need to be re-embedded in new locations, preventing the supports from being reused and resulting in resource waste. Utility Model Content

[0003] In view of this, and to solve the above problems, the purpose of this utility model is to provide a pre-embedded device for a material stacking support, comprising:

[0004] Strip mounting base, fixed bracket, longitudinal bracket;

[0005] A concrete base with several intervals is poured into the ground;

[0006] Each of the concrete bases is pre-embedded with a strip-shaped mounting seat along its length, and the strip-shaped mounting seat has several mounting grooves.

[0007] Each of the fixed brackets includes a main board and two sub-boards mounted perpendicularly to the main board. Each end of the main board is provided with a first slot extending toward the center of the main board, and a first slot is inserted into a mounting slot.

[0008] The longitudinal support includes a first web plate and two first wing plates installed perpendicular to the first web plate. The two ends of the first web plate are respectively provided with second slots extending toward the center of the first web plate.

[0009] The longitudinal support can be inserted into the fixed support through the second slot and another first slot.

[0010] In the aforementioned embedded device for a material stacking support, the main board is provided with a plurality of outwardly extending elastic elements, which are supported on the first wing plate.

[0011] In the aforementioned embedded device for a material stacking support, the main board is provided with a plurality of windows, and each window has an elastic element extending outward from its edge, the elastic element being supported on the first wing plate.

[0012] In the aforementioned embedded device for a material stacking support, a plurality of the elastic elements are symmetrically arranged on both sides of the main board.

[0013] In the aforementioned embedded device for a material stacking support, each of the sub-plates is provided with two third slots extending toward the concrete base, and the two third slots are symmetrically arranged on the sub-plates with the main plate as the center.

[0014] The aforementioned embedded device for a material stacking support further includes: a transverse support; the transverse support includes a second web plate and two second wing plates installed perpendicularly to the second web plate, with the two ends of the two second wing plates correspondingly inserted into the third slot.

[0015] In the aforementioned embedded device for a material stacking support, the length direction of the main plate is perpendicular to the length direction of the concrete base, and the length directions of the two auxiliary plates are parallel to the length direction of the concrete base.

[0016] In the aforementioned embedded device for a material stacking support, the corner of the first slot is arc-shaped from the top of the first slot toward the interior of the first slot.

[0017] In the aforementioned embedded device for a material stacking support, a crossbeam is also installed between adjacent longitudinal supports located on the same concrete base.

[0018] In the aforementioned embedded device for a material stacking support, the elastic element is arranged in an arc shape, extending upwards and outwards from the direction of the first web.

[0019] The positive effects of the above technical solution compared with the existing technology are:

[0020] (1) By applying this utility model, a pre-embedded device for material stacking support is provided. In this device, the longitudinal support and the concrete base are detachably installed through a small fixed support, which makes the longitudinal support easy to move. The slot installation is simple and quick, which improves the utilization rate of the longitudinal support and saves resources.

[0021] (2) By using the strip mounting base, the spacing between two adjacent fixed supports, horizontal supports and vertical supports can be easily adjusted, so as to make arbitrary adjustments according to the actual stacked materials, thus improving the usage scenarios. Attached Figure Description

[0022] Figure 1 This is an exploded view of a pre-embedded device for a material stacking support according to the present invention.

[0023] Figure 2 This is a schematic diagram of the fixed bracket in this utility model.

[0024] Figure 3 This is a schematic diagram of the longitudinal support in this utility model.

[0025] Figure 4 This is a schematic diagram of the elastic element supporting the first wing plate in this utility model.

[0026] Figure 5 This is a schematic diagram of the first embodiment of a pre-embedded device for a material stacking support according to the present invention.

[0027] Figure 6 This is a schematic diagram of a second embodiment of a pre-embedded device for a material stacking support according to the present invention.

[0028] Figure 7 This is a schematic diagram of a third embodiment of a pre-embedded device for a material stacking support according to the present invention.

[0029] 1. Concrete base; 2. Fixed bracket; 3. Longitudinal bracket; 4. Main board; 5. Sub-board; 6. First slot; 7. First web plate; 8. First wing plate; 9. Second slot; 10. Elastic element; 11. Third slot; 12. Transverse bracket; 13. Second web plate; 14. Second wing plate; 15. Gap; 16. Strip mounting base; 17. Mounting groove; 18. Protective sleeve. Detailed Implementation

[0030] The present invention will be further described below with reference to the accompanying drawings and specific embodiments, but this is not intended to limit the present invention.

[0031] The structures, proportions, and sizes illustrated in the accompanying drawings are solely for illustrative purposes and to aid those skilled in the art in understanding and reading the invention. They are not intended to limit the scope of the invention and therefore have no substantial technical significance. Any modifications to the structure, changes in proportions, or adjustments to size, provided they do not affect the effectiveness or purpose of the invention, should still fall within the scope of the technical content disclosed herein. Furthermore, the terms "upper," "lower," "left," "right," "middle," and "one" used in this specification are merely for clarity and not intended to limit the scope of the invention. Changes or adjustments to their relative relationships, without substantially altering the technical content, should also be considered within the scope of the invention.

[0032] like Figures 1 to 7 As shown, a preferred embodiment of a pre-embedded device for a material stacking support is illustrated, comprising: a strip mounting base 16, a fixed support 2, and a longitudinal support 3.

[0033] A concrete base 1 is formed by pouring concrete into the ground at several intervals; each concrete base 1 has a strip-shaped mounting seat 16 pre-embedded along its length, and the strip-shaped mounting seat 16 has several mounting slots 17; each fixed bracket 2 includes a main plate 4 and two auxiliary plates 5 installed perpendicularly to the main plate 4, and the two ends of the main plate 4 are respectively provided with first slots 6 extending towards the center of the main plate 4, and one of the first slots 6 of the fixed bracket 2 is inserted into a mounting slot 17; the longitudinal bracket 3 includes a first web plate 7 and two first wing plates 8 installed perpendicularly to the first web plate 7, and the two ends of the first web plate 7 are respectively provided with second slots 9 extending towards the center of the first web plate 7; the longitudinal bracket 3 can be inserted into the fixed bracket 2 through the second slot 9 and the other first slot 6.

[0034] In actual use, only at least two concrete bases 1 need to be formed, and strip-shaped mounting seats 16 are pre-embedded on each concrete base 1. Two fixed supports 2 are inserted into the mounting slots 17 of the strip-shaped mounting seats 16. The longitudinal support 3 and the strip-shaped mounting seats 16 of the concrete base 1 can be detachably connected through the fixed supports 2, so that the longitudinal support 3 and / or the concrete base 1 can be reused repeatedly, increasing the overall utilization rate. Moreover, the installation and disassembly of the longitudinal support 3 and the fixed supports 2 are simple, and construction personnel can complete the installation quickly.

[0035] Based on the above, this utility model also has the following embodiments:

[0036] Furthermore, in a pre-embedded device for a material stacking support, the main board 4 is provided with a plurality of outwardly extending elastic elements 10, which are supported on the first wing plate 8. Specifically, when the longitudinal support 3 is inserted into the fixed support 2 along the first slot 6 and the second slot 9, the elastic elements 10 support the first wing plate 8 of the longitudinal support 3, further increasing the stability of the longitudinal support 3.

[0037] Furthermore, in a pre-embedded device for a material stacking support, the main board 4 is provided with several windows, and each window has an elastic element 10 extending outward from its edge, the elastic element 10 being supported on the first wing plate 8. Specifically, when the elastic element 10 is supported on the first wing plate 8, the presence of windows can increase the deformation distance of the elastic element 10.

[0038] Furthermore, in a pre-embedded device for a material stacking support, a plurality of elastic elements 10 are symmetrically arranged on both sides of the main board 4. Specifically, the elastic elements 10 arranged on both sides of the main board 4 can support the two first wing plates 8.

[0039] Furthermore, a pre-embedded device for a material stacking support is provided, wherein each sub-plate 5 is provided with two third slots 11 extending toward the concrete base 1, and the two third slots 11 are symmetrically arranged on the sub-plate 5 with the main plate 4 as the center.

[0040] Furthermore, a pre-embedded device for a material stacking support further includes: a transverse support 12; the transverse support 12 includes a second web plate 13 and two second wing plates 14 installed perpendicularly to the second web plate 13, with the two ends of the two second wing plates 14 correspondingly inserted into two third slots 11. Specifically, the transverse support 12 is also detachably installed on the fixed support 2, so that the transverse support 12 can also be reused.

[0041] Furthermore, a pre-embedded device for a material stacking support is provided, wherein the two ends of the transverse support 12 are also provided with slots extending towards the center, that is, the transverse support 12 and the longitudinal support 3 have the same structure and can be used interchangeably, so that the same support has two uses and its usability is increased.

[0042] Furthermore, an embedded device for a material stacking support is provided, wherein the length direction of the main plate 4 is perpendicular to the length direction of the concrete base 1, and the length directions of the two auxiliary plates 5 are parallel to the length direction of the concrete base 1.

[0043] Furthermore, in a pre-embedded device for a material stacking support, the corners of the first slot 6 are arc-shaped from the top of the first slot 6 towards the interior of the first slot 6. Specifically, the arc-shaped corners of the first slot 6 allow the longitudinal support 3 to be inserted into the first slot 6 along the arc-shaped corners, making insertion simpler and more convenient. The corners of the third slot 11 are also arc-shaped, similar to those of the first slot 6.

[0044] Furthermore, in a pre-embedded device for a material stacking support, the corners of the mounting groove 17 are also arc-shaped, so that when the first slot 6 is inserted into the mounting groove 17, it can be inserted along the arc-shaped corners, making insertion simpler and more convenient.

[0045] Furthermore, a pre-embedded device for a material stacking support has a strip-shaped mounting base 16 with several mounting slots 17, which can adjust the spacing between two adjacent fixed supports 4 according to the actual material stacking requirements, thereby changing the spacing between two adjacent horizontal supports 12 and / or vertical supports 3.

[0046] Furthermore, an embedded device for a material stacking support includes a crossbeam installed between adjacent longitudinal supports 3 located on the same concrete base 1. Specifically, a detachable crossbeam is provided between two adjacent longitudinal supports 3 on the same concrete base 1. The crossbeam can be installed at any height of the two longitudinal supports 3 by screws, allowing the device to have multiple placement methods. This not only allows the reinforcing bars to be placed on the transverse support 12 along the direction of the concrete base 1, but also to be placed on the crossbeam perpendicular to the direction of the concrete base 1.

[0047] Furthermore, in a pre-embedded device for a material stacking support, the elastic element 10 is arranged in an arc shape, extending upwards and outwards from the direction of the first web 7. Specifically, after the longitudinal support 3 is inserted into the fixed support 2, the elastic element 10 is supported on the first web 7 due to its elasticity.

[0048] Furthermore, the head of the elastic element 10 can extend into an arc shape towards the motherboard 4, so that the longitudinal support 3 can not only be easily inserted along the arc shape, but also easily removed along the original arc shape of the elastic element 10.

[0049] Furthermore, a pre-embedded device for a material stacking support also includes a protective sleeve 18, which can be fitted onto the end of the longitudinal support 3 to provide safety protection.

[0050] Furthermore, an embedded device for a material stacking support is provided in this embodiment. This device can be used to stack straight steel bars, coiled steel bars, etc. before construction, steel bars, tiles, etc. after construction, as well as other commonly used construction materials.

[0051] Therefore, this device has four embodiments:

[0052] Example 1: Please refer to the following for details. Figure 5 As shown, only the longitudinal support 3 is installed in this device. The material is placed on the concrete base 1 along the Y-axis direction, and the longitudinal support 3 can block the material.

[0053] Example 2: Please refer to the following for details. Figure 6 As shown, only the horizontal support 12 is installed in this device. The material is placed on the concrete base 1 along the Y-axis direction, and the horizontal support 12 can block the material.

[0054] Example 3: Please refer to the following for details. Figure 7 As shown, this device is equipped with a longitudinal support 3 and a transverse support 12, which combines Embodiment 1 and Embodiment 2, so that different types of materials can be stacked along the Y-axis.

[0055] Example 4: Based on Example 3, a crossbeam is installed, mainly for placing multiple layers of materials at the same time.

[0056] Furthermore, the minimum number of concrete bases 1 in this device is two, but the actual number can be set to three, four, etc., depending on the usage; the minimum number of longitudinal supports is four, but the actual number can be set to six, eight, etc., depending on the usage; the minimum number of transverse supports is two, but the actual number can be set to three, four, etc., depending on the usage. If crossbeams are provided, the minimum number of crossbeams is two, and the number of crossbeams varies with the longitudinal supports 3, and can also be set to four, six, etc.

[0057] The above description is only a preferred embodiment of the present utility model and does not limit the implementation method and protection scope of the present utility model. Those skilled in the art should realize that all solutions obtained by equivalent substitutions and obvious changes made based on the description and illustrations of the present utility model should be included within the protection scope of the present utility model.

Claims

1. An embedded device for a material stacking support, characterized in that, include: Strip mounting base, fixed bracket, longitudinal bracket; A concrete base with several intervals is poured into the ground; Each of the concrete bases is pre-embedded with a strip-shaped mounting seat along its length, and the strip-shaped mounting seat has several mounting grooves. Each of the fixed brackets includes a main board and two sub-boards mounted perpendicularly to the main board. Each end of the main board is provided with a first slot extending toward the center of the main board, and a first slot is inserted into a mounting slot. The longitudinal support includes a first web plate and two first wing plates installed perpendicular to the first web plate. The two ends of the first web plate are respectively provided with second slots extending toward the center of the first web plate. The longitudinal support can be inserted into the fixed support through the second slot and another first slot.

2. The embedded device for a material stacking support according to claim 1, characterized in that, The main board is provided with a plurality of outwardly extending elastic elements, which are supported on the first wing plate.

3. The embedded device for a material stacking support according to claim 1, characterized in that, The motherboard has several windows, and each window has an elastic element extending outward from its edge, which is supported by the first wing plate.

4. A pre-embedded device for a material stacking support according to claim 2 or 3, characterized in that, Several of the aforementioned elastic elements are symmetrically arranged on both sides of the main board.

5. The embedded device for a material stacking support according to claim 1, characterized in that, Each of the sub-plates is provided with two third slots extending toward the concrete base, and the two third slots are symmetrically arranged on the sub-plate with the main plate as the center.

6. The embedded device for a material stacking support according to claim 5, characterized in that, Also includes: A transverse support; the transverse support includes a second web plate and two second wing plates installed perpendicularly to the second web plate, with the two ends of the two second wing plates correspondingly inserted into the two third slots.

7. The embedded device for a material stacking support according to claim 1, characterized in that, The length direction of the main plate is perpendicular to the length direction of the concrete base, and the length directions of the two auxiliary plates are parallel to the length direction of the concrete base.

8. The embedded device for a material stacking support according to claim 1, characterized in that, The corners of the first slot are arc-shaped from the top of the first slot toward the interior of the first slot.

9. The embedded device for a material stacking support according to claim 1, characterized in that, A crossbeam is also installed between adjacent longitudinal supports located on the same concrete base.

10. A pre-embedded device for a material stacking support according to claim 2 or 3, characterized in that, The elastic element is arranged in an arc shape, extending upwards and outwards from the direction of the first web.