Quick-release type aluminum alloy formwork buckle structure

The design of the quick-release aluminum alloy template buckle structure solves the problem of low efficiency caused by the independent installation of the molding rod, realizes the rapid assembly and disassembly of the molding rod, and improves the production efficiency of concrete slabs.

CN224326033UActive Publication Date: 2026-06-05ANHUI TONGJI CONSTR GRP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI TONGJI CONSTR GRP
Filing Date
2025-05-13
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing molding rods in the templates are independent of each other, resulting in slow installation and disassembly of the molding rods, which affects the production efficiency of concrete slabs.

Method used

The quick-release aluminum alloy template buckle structure is adopted. The installation of the molding rod is realized by the cooperation of the buckle plate on the left end plate and the buckle box. The lifting rod inserted into the buckle box by the buckle plate is staggered with the horizontal groove to realize the overall installation and locking of the molding rod.

Benefits of technology

This significantly improves the installation efficiency of the molding rods, enabling rapid assembly and disassembly of the molding rods and enhancing the production efficiency of concrete slabs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a quick detach type aluminum alloy template buckle structure belongs to template technical field. A quick detach type aluminum alloy template buckle structure, including lower mould plate, upper mould plate, lower mould plate can constitute with upper mould plate shaping cavity, be provided with shaping through -hole in lower mould plate, upper mould plate, insert the plastic type pole in shaping through -hole, the plastic type pole is inserted in the shaping through -hole, the lower mould plate outside is provided with left end plate, left mounting seat, right end plate, right mounting seat, left mounting seat is covered on the thin pole of plastic type pole one side, right mounting seat is installed on right end plate, and right mounting seat is connected with plastic type pole, the left end plate, right end plate all are provided with the clamping plate on, and the lower mould plate, upper mould plate are provided with the buckle box that cooperates with clamping plate. The utility model provides a quick detach type aluminum alloy template buckle structure, compares to the installation of plastic type pole one one, and the plastic type pole is combined together and carries out integral installation, can improve the installation efficiency of plastic type pole greatly.
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Description

Technical Field

[0001] This utility model belongs to the field of template technology, specifically relating to a quick-release aluminum alloy template buckle structure. Background Technology

[0002] Aluminum alloy formwork is a new generation of formwork system that emerged after wooden and steel formwork. Designed modularly and extruded using specialized equipment, aluminum alloy formwork can be freely combined to suit different structural dimensions. The design, development, and application of aluminum formwork represent a significant advancement in the construction industry. Its use has greatly improved the construction efficiency of building projects.

[0003] Concrete is poured into a formwork and, after shaping, forms a concrete slab. To reduce concrete input, most concrete slabs have multiple rows of through holes in the center. To ensure these through holes form along with the concrete slab, multiple horizontally distributed through holes are created in the formwork. Shaping rods are inserted into these through holes, and after concrete pouring, these rods shape the through holes within the slab. However, in existing formwork, the shaping rods are independent, requiring individual installation during assembly. This results in slow installation and disassembly of the shaping rods, impacting the production efficiency of the concrete slab. Therefore, this application proposes a quick-release aluminum alloy formwork clip structure. Utility Model Content

[0004] The purpose of this utility model is to provide a quick-release aluminum alloy template buckle structure to solve the problem mentioned in the background art that the molding rods in the existing templates are independent of each other. When assembling the molding rods, each molding rod needs to be installed one by one, which results in a slow speed of installation and disassembly of the molding rods and affects the production efficiency of concrete slabs.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a quick-release aluminum alloy template buckle structure, including a lower template and an upper template, the lower template and the upper template can form a shaping cavity, and both the lower template and the upper template are provided with shaping through holes, into which shaping rods are inserted;

[0006] The lower template is provided with a left end plate, a left mounting seat, a right end plate, and a right mounting seat on its outer side. The left mounting seat is fitted onto a thin rod on one side of the molding rod.

[0007] A right mounting seat is installed on the right end plate, and the right mounting seat is sleeved with the plastic rod.

[0008] Both the left and right end plates are equipped with a locking plate, and the lower and upper templates are equipped with a buckle box that cooperates with the locking plate. The locking plate is equipped with a lifting rod and a lifting groove, and the lifting rod and the lifting groove can move up and down relative to each other.

[0009] The buckle box is provided with a vertical groove and a horizontal groove, and the vertical groove and the horizontal groove are connected.

[0010] The left end plates, which are distributed vertically, are connected by bolts, and the right end plates, which are also distributed vertically, are connected by bolts.

[0011] Preferably, the top of the upper template is provided with a pouring port, which is connected to the molding cavity.

[0012] Preferably, the molding rod includes a thick rod and a thin rod, with the thick rod engaging with the molding through hole.

[0013] Preferably, there are two thin rods, and the two thin rods are located on both sides of the thick rod.

[0014] Preferably, a plurality of fixing pins are inserted into the left mounting base, and the fixing pins are inserted into the thin rod.

[0015] Preferably, the molding rod is provided with a left collar and a right collar. The left collar is sleeved on one of the thinner rods, with one end of the left collar abutting against the left mounting base and the other end of the left collar abutting against the side wall of the thicker rod. A first sealing ring is sleeved on the outside of the left collar, and the first sealing ring is in contact with the inner wall of the molding through hole.

[0016] Preferably, a second sealing ring is provided on the right collar.

[0017] Preferably, a slider is provided on one side of the lifting rod, the slider cooperates with the lifting groove, a spring is provided on the upper side of the slider, and the other end of the spring is connected to the lifting groove.

[0018] Preferably, there are two vertical slots and two horizontal slots, with the two vertical slots located at both ends of the buckle box.

[0019] Preferably, a mounting plate is installed on the left end plate, and at least two rows of hooks are installed on the mounting plate.

[0020] Beneficial effects:

[0021] This utility model provides a quick-release aluminum alloy template buckle structure. Multiple horizontally arranged molding rods are connected to the left end plate. During assembly, manipulating the left end plate moves the multiple molding rods, inserting them into the corresponding through holes. The right mounting base and other components on the right end plate cooperate to hold the molding rods in place. Both the left and right end plates have locking plates, and the lower and upper templates have buckle boxes that cooperate with the locking plates. In use, the locking plate is inserted into the buckle box, and the lifting rod in the locking plate enters the vertical groove along the horizontal groove. The lifting rod is offset from the horizontal groove, preventing the locking plate from being removed. This locks the positions of the left and right end plates with the lower and upper templates. Compared to installing the molding rods one by one, combining them together for overall installation significantly improves the installation efficiency. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the quick-release aluminum alloy template buckle structure in this utility model;

[0023] Figure 2 This is a side view of the present invention;

[0024] Figure 3 This utility model Figure 2 Enlarged structural diagram at point A;

[0025] Figure 4 This is a schematic diagram of the buckle box and the card plate in this utility model;

[0026] Figure 5 This is a schematic diagram of the structure of the left end plate and the right end plate in this utility model;

[0027] Figure 6 This is a schematic diagram of the structure of the plastic rod, left mounting base, and left collar in this utility model.

[0028] Explanation of reference numerals in the attached figures:

[0029] 1. Lower template; 2. Upper template; 3. Shaping through hole; 4. Shaping rod; 401. Thick rod; 402. Thin rod; 5. Left end plate; 6. Left mounting base; 7. Fixing pin; 8. Left collar; 9. Right end plate; 10. Clip box; 1001. Vertical groove; 1002. Horizontal groove; 11. Clip plate; 1101. Lifting rod; 1102. Sliding block; 1103. Spring; 12. Pouring port; 13. Hanging plate; 14. Hook. Detailed Implementation

[0030] The specific embodiments of this utility model are described in detail below, but it should be understood that the protection scope of this utility model is not limited to the specific embodiments.

[0031] like Figures 1-6 As shown in the figure, this utility model provides a quick-release aluminum alloy template buckle structure, including a lower template 1 and an upper template 2. The lower template 1 and the upper template 2 can form a molding cavity for concrete molding. After assembly, the lower template 1 and the upper template 2 serve to support and shape the concrete during pouring. Both the lower template 1 and the upper template 2 are made of aluminum alloy material, which is strong, corrosion-resistant, and lightweight.

[0032] To facilitate concrete pouring, a pouring port 12 is provided at the top of the upper formwork 2, and the pouring port 12 is connected to the molding cavity.

[0033] Concrete enters the molding cavity formed by the lower formwork 1 and the upper formwork 2 through the pouring port 12. The concrete forms a concrete slab in the molding cavity. In order to reduce the amount of concrete used, most concrete slabs have multiple rows of through holes in the middle. In order to make these through holes form together with the concrete slab, molding through holes 3 need to be set in both the lower formwork 1 and the upper formwork 2. Molding rods 4 are inserted into the molding through holes 3.

[0034] Specifically, the molding rod 4 includes a thick rod 401 and a thin rod 402. There are two thin rods 402, and the two thin rods 402 are located on both sides of the thick rod 401. The thick rod 401 is engaged with the molding through hole 3.

[0035] In order to seal and fix the connection between the molding rod 4 and the molding through hole 3 and to integrate the multiple molding rods 4 in the horizontal row, a left end plate 5, a left mounting seat 6, a left collar 8, a right end plate 9, a right mounting seat, and a right collar are provided on the outside of the lower template 1. The left mounting seat 6 is fitted onto the thin rod 402 on one side of the molding rod 4. It should be noted that several fixing pins 7 are inserted into the left mounting seat 6 and are inserted into the thin rod 402.

[0036] Specifically, the left collar 8 is fitted onto one of the thin rods 402, with one end of the left collar 8 abutting against the left mounting seat 6 and the other end of the left collar 8 abutting against the side wall of the thick rod 401. A first sealing ring is fitted on the outer side of the left collar 8, and the first sealing ring fits against the inner wall of the shaped through hole 3.

[0037] More specifically, a right mounting seat is installed on the right end plate 9. The right mounting seat is sleeved with the molding rod 4, and the right mounting seat abuts against the end of the molding rod 4 away from the left mounting seat 6. A second sealing ring is provided on the right collar. The left collar 8 and the right collar are located on both sides of the molding rod 4, and a first sealing ring and a second sealing ring are respectively installed on the left collar 8 and the right collar. The first sealing ring and the second sealing ring respectively cooperate with the two molding through holes 3, which can seal the position where the molding rod 4 is connected to the molding through holes 3, and prevent concrete from leaking from the molding through holes 3.

[0038] To facilitate faster connection between the left end plate 5, right end plate 9 and the lower template 1 and upper template 2, a retaining plate 11 is provided on both the left end plate 5 and right end plate 9. A snap-fit ​​box 10 that cooperates with the retaining plate 11 is provided on the lower template 1 and upper template 2. A lifting rod 1101 and a lifting groove are provided inside the retaining plate 11. The lifting rod 1101 and the lifting groove can move up and down relative to each other. It should be noted that a slider 1102 is provided on one side of the lifting rod 1101. The slider 1102 cooperates with the lifting groove. A spring 1103 is provided on the upper side of the slider 1102. The other end of the spring 1103 is connected to the lifting groove.

[0039] Specifically, the buckle box 10 is provided with a vertical groove 1001 and a horizontal groove 1002. The vertical groove 1001 and the horizontal groove 1002 are connected. The length of the vertical groove 1001 is less than the length of the lifting groove. The horizontal groove 1002 is within the range of the lifting groove. There are two vertical grooves 1001 and two horizontal grooves 1002. The two vertical grooves 1001 are located at the two ends of the buckle box 10 respectively.

[0040] Multiple horizontally arranged molding rods 4 are connected to the left end plate 5. During assembly, manipulating the left end plate 5 moves the multiple molding rods 4, inserting them into the corresponding molding through holes 3. The right mounting base and other components on the right end plate 9 cooperate to hold the molding rods 4 in place. Both the left and right end plates 5 and 9 are equipped with retaining plates 11, while the lower template 1 and upper template 2 are equipped with snap-fit ​​boxes 10 that mate with the retaining plates 11. In use, the retaining plates 11 are inserted into... Inside the snap-fit ​​box 10, the lifting rod 1101 in the snap plate 11 enters the vertical groove 1001 along the horizontal groove 1002. The lifting rod 1101 and the horizontal groove 1002 are staggered vertically, and the snap plate 11 inserted into the snap-fit ​​box 10 cannot be moved out, thus completing the locking work between the left end plate 5, the right end plate 9, the lower template 1, and the upper template 2. Compared with the installation of the molding rods 4 one by one, combining the molding rods 4 together and installing them as a whole can greatly improve the installation efficiency of the molding rods 4. The upper and lower distributed left end plates 5 and the upper and lower distributed right end plates 9 are connected by multiple bolts, completing the assembly work between the lower template 1 and the upper template 2.

[0041] To achieve the connection between the left end plate 5, the right end plate 9 and the lower template 1 and the upper template 2, the upper and lower left end plates 5 are connected by bolts, and the upper and lower right end plates 9 are connected by bolts.

[0042] Specifically, a mounting plate 13 is installed on the left end plate 5, and at least two rows of hooks 14 are installed on the mounting plate 13. The hooks 14 cooperate with hoisting equipment such as cranes to allow the assembled plastic rods 4 to move synchronously, making the assembly of the plastic rods 4 more convenient.

[0043] In summary, this utility model embodiment provides a quick-release aluminum alloy template buckle structure. Multiple horizontally arranged molding rods 4 are connected to the left end plate 5. During assembly of the molding rods 4, manipulating the left end plate 5 moves the multiple molding rods 4, inserting them into the corresponding molding through holes 3. The right mounting base and other components on the right end plate 9 cooperate to hold the molding rods 4 in place. Both the left end plate 5 and the right end plate 9 are equipped with locking plates 11, and the lower template 1 and upper template 2 are equipped with buckle boxes 1 that cooperate with the locking plates 11. 0. When in use, insert the card plate 11 into the buckle box 10. The lifting rod 1101 in the card plate 11 enters the vertical groove 1001 along the horizontal groove 1002. The lifting rod 1101 and the horizontal groove 1002 are staggered vertically. The card plate 11 inserted into the buckle box 10 cannot be moved out, thus completing the locking work between the left end plate 5, the right end plate 9 and the lower template 1 and the upper template 2. Compared with the installation of the shaping rods 4 one by one, combining the shaping rods 4 together and installing them as a whole can greatly improve the installation efficiency of the shaping rods 4.

[0044] The above-disclosed embodiments are only a few specific examples of the present utility model. However, the embodiments of the present utility model are not limited thereto. Any variations that can be conceived by those skilled in the art should fall within the protection scope of the present utility model.

Claims

1. A quick-release aluminum alloy template buckle structure, comprising a lower template (1) and an upper template (2), wherein the lower template (1) and the upper template (2) can form a shaping cavity, characterized in that, Both the lower template (1) and the upper template (2) are provided with shaping through holes (3), and shaping rods (4) are inserted into the shaping through holes (3); The lower template (1) is provided with a left end plate (5), a left mounting seat (6), a right end plate (9), and a right mounting seat on the outside. The left mounting seat (6) is fitted onto a thin rod (402) on one side of the plastic rod (4). A right mounting seat is installed on the right end plate (9), and the right mounting seat is sleeved with the plastic rod (4); The left end plate (5) and the right end plate (9) are each provided with a card plate (11), and the lower template (1) and the upper template (2) are provided with a buckle box (10) that cooperates with the card plate (11). The card plate (11) is provided with a lifting rod (1101) and a lifting groove. The lifting rod (1101) and the lifting groove can move up and down relative to each other. The buckle box (10) is provided with a vertical groove (1001) and a horizontal groove (1002), and the vertical groove (1001) and the horizontal groove (1002) are connected. The left end plates (5) distributed vertically are connected by bolts, and the right end plates (9) distributed vertically are connected by bolts.

2. The quick-release aluminum alloy template buckle structure as described in claim 1, characterized in that, The top of the upper template (2) is provided with a pouring port (12), which is connected to the molding cavity.

3. The quick-release aluminum alloy template buckle structure as described in claim 1, characterized in that, The molding rod (4) includes a thick rod (401) and a thin rod (402), with the thick rod (401) fitting into the molding through hole (3).

4. The quick-release aluminum alloy template buckle structure as described in claim 3, characterized in that, Two thin rods (402) are provided, and the two thin rods (402) are located on both sides of the thick rod (401).

5. The quick-release aluminum alloy template buckle structure as described in claim 4, characterized in that, Several fixing pins (7) are inserted into the left mounting base (6), and the fixing pins (7) are inserted into the thin rod (402).

6. The quick-release aluminum alloy template buckle structure as described in claim 1, characterized in that, A left collar (8) and a right collar are provided at the molding rod (4). The left collar (8) is fitted on one of the thin rods (402), and one end of the left collar (8) abuts against the left mounting seat (6), while the other end of the left collar (8) abuts against the side wall of the thick rod (401). A first sealing ring is fitted on the outside of the left collar (8), and the first sealing ring fits against the inner wall of the molding through hole (3).

7. The quick-release aluminum alloy template buckle structure as described in claim 6, characterized in that, A second sealing ring is provided on the right collar.

8. The quick-release aluminum alloy template buckle structure as described in claim 1, characterized in that, A slider (1102) is provided on one side of the lifting rod (1101). The slider (1102) cooperates with the lifting groove. A spring (1103) is provided on the upper side of the slider (1102). The other end of the spring (1103) is connected to the lifting groove.

9. The quick-release aluminum alloy template buckle structure as described in claim 1, characterized in that, Two vertical slots (1001) and two horizontal slots (1002) are provided, and the two vertical slots (1001) are located at both ends of the buckle box (10).

10. The quick-release aluminum alloy template buckle structure as described in claim 1, characterized in that, A mounting plate (13) is installed on the left end plate (5), and at least two rows of hooks (14) are installed on the mounting plate (13).