A non-standard size processing structure for aluminum formwork on floor slabs
By using wooden connecting corner molds and sheet metal to fix non-standard dimensions of aluminum formwork, the difficulty of demolding the gap between the floor aluminum formwork and the beam side aluminum formwork was solved, and a convenient demolding process was achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA WATER CONSERVANCY & HYDROPOWER NO 9 ENG BUREAU CO LTD
- Filing Date
- 2025-08-07
- Publication Date
- 2026-07-03
AI Technical Summary
In existing technologies, when the aluminum formwork for the floor slab and the aluminum formwork for the beam side are vertically overlapped, gaps are likely to appear at non-standard dimensions, making it difficult to dismantle the formwork later.
Wooden corner molds are used to make plane contact with the aluminum beam side molds and floor molds. The end gaps are covered with sheet metal, and the molds are removed by prying the back of the sheet metal, thus solving the problem of overlapping angle aluminum plates.
It enables a convenient demolding process, avoiding the demolding difficulties caused by the overlapping of angle aluminum plates.
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Figure CN224452259U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a non-standard size processing structure for aluminum formwork on floors, belonging to the field of building aluminum formwork technology. Background Technology
[0002] When installing aluminum formwork for buildings, the floor aluminum formwork and the beam side aluminum formwork have a vertical overlap. When the standard-sized aluminum formwork is installed at a non-standard size, gaps will appear between the floor aluminum formwork and the beam side aluminum formwork.
[0003] Existing techniques for handling vertical overlap gaps are described in Chinese Patent Publication No. CN214834702U. Although two angle aluminum plates can be used to overlap the vertically overlapping floor aluminum formwork and beam side aluminum formwork, and then the angle aluminum plates are overlapped at an angle and connected by a fixed semi-ring, the angle aluminum plates overlap at an angle and fit together tightly, which is not conducive to later demolding. Summary of the Invention
[0004] To solve the above-mentioned technical problems, this utility model provides a non-standard size processing structure for aluminum formwork on floors.
[0005] This utility model is achieved through the following technical solution.
[0006] This utility model provides a non-standard size processing structure for aluminum formwork on floors, comprising:
[0007] The aluminum formwork on the beam side and the aluminum formwork on the floor have overlapping gaps;
[0008] The connecting corner mold is located within the lap gap and makes contact with the aluminum formwork on the beam side and the aluminum formwork on the floor through a plane.
[0009] The aluminum formwork on the beam side and the aluminum formwork on the floor are aluminum metal formwork.
[0010] The connecting corner mold is made of wood; the connecting corner mold is in plane contact with the beam side aluminum mold and the floor aluminum mold.
[0011] The top of the connecting corner mold has a horizontal mold surface that is flush with the floor aluminum mold, and the side of the connecting corner mold has a vertical mold surface that is flush with the beam side aluminum mold, with the vertical mold surface perpendicular to the horizontal mold surface.
[0012] The connecting corner molds are two spaced apart, with an end gap between the ends of the two connecting corner molds; it also includes sheet metal covering the end gap.
[0013] The two ends of the sheet metal are glued and fixed to the beam side aluminum mold and the floor aluminum mold through an adhesive layer; the sheet metal presses the two connecting corner molds into the overlap gap between the beam side aluminum mold and the floor aluminum mold.
[0014] The beneficial effect of this utility model is that by using the end gap of the two connecting corner molds on the back of the sheet metal as a pry opening, the two connecting corner molds can be pushed open to both sides to dismantle the mold, thus solving the problem that the two aluminum corner plates are too tightly joined at their bevels to facilitate subsequent mold dismantling. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the structure of this utility model;
[0016] In the diagram: 1-Floor aluminum formwork; 2-Beam side aluminum formwork; 3-Connecting corner formwork; 31-Horizontal formwork surface; 32-Vertical formwork surface; 33-End gap; 34-Sloping surface; 4-Sheet metal. Detailed Implementation
[0017] The technical solution of this utility model is further described below, but the scope of protection is not limited to what is described.
[0018] like Figure 1 As shown.
[0019] This application discloses a non-standard size processing structure for aluminum formwork on floor slabs, comprising:
[0020] The floor aluminum formwork 1 is in a horizontal position, and the beam-side aluminum formwork 2 is in a vertical position, with an overlap gap between the beam-side aluminum formwork 2 and the floor aluminum formwork 1. Both the beam-side aluminum formwork 2 and the floor aluminum formwork 1 are aluminum metal molds.
[0021] It also includes a wooden connecting corner mold 3, which is located within the overlap gap and is in contact with the beam-side aluminum mold 2 and the floor aluminum mold 1 through a plane; the horizontal mold surface 31 at the top of the connecting corner mold 3 is flush with the floor aluminum mold 1, the vertical mold surface 32 on the side of the connecting corner mold 3 is flush with the beam-side aluminum mold 2, and the vertical mold surface 32 is perpendicular to the horizontal mold surface 31.
[0022] The connecting corner molds 3 are two spaced apart, with an end gap 33 between the ends of the two connecting corner molds 3; it also includes a sheet metal 4 covering the end gap 33, and the two ends of the sheet metal 4 are glued and fixed to the beam side aluminum mold 2 and the floor aluminum mold 1 by an adhesive layer; the sheet metal 4 presses the two connecting corner molds 3 into the overlap gap between the beam side aluminum mold 2 and the floor aluminum mold 1.
[0023] During demolding, the two connecting corner molds 3 are pried open by using the end gap 33 at the end of the two connecting corner molds 3 on the back of the sheet metal 4. This solves the problem that the two corner aluminum plates are too tightly joined at their bevels, which is not conducive to demolding later.
[0024] The back of the connecting corner mold 3 is a sloping surface 34, which connects the back surfaces of the beam-side aluminum mold 2 and the floor aluminum mold 1.
Claims
1. A floor aluminum mold non-standard size processing structure, characterized in that, include: The beam side aluminum formwork (2) and the floor aluminum formwork (1) have an overlapping gap; The connecting corner mold (3) is located within the lap gap and is in plane contact with the beam side aluminum mold (2) and the floor aluminum mold (1); The connecting corner molds (3) are two spaced apart, with an end gap (33) between the ends of the two connecting corner molds (3); it also includes a sheet metal (4) covering the end gap (33).
2. The non-stocking floor system of claim 1, wherein: The beam-side aluminum mold (2) and the floor aluminum mold (1) are aluminum metal molds.
3. The non-stocking floor system of claim 1, wherein: The connecting corner mold (3) is made of wood; the connecting corner mold (3) is in contact with the beam side aluminum mold (2) and the floor aluminum mold (1) through a plane.
4. The non-stocking floor system of claim 3, wherein: The top of the connecting corner mold (3) has a horizontal mold surface (31) that is flush with the floor aluminum mold (1), and the side of the connecting corner mold (3) has a vertical mold surface (32) that is flush with the beam side aluminum mold (2). The vertical mold surface (32) is perpendicular to the horizontal mold surface (31).
5. The non-stocking floor system of claim 1, wherein: The two ends of the sheet metal (4) are glued and fixed to the beam side aluminum mold (2) and the floor aluminum mold (1) by adhesive layer; the sheet metal (4) presses the two connecting corner molds (3) into the overlap gap between the beam side aluminum mold (2) and the floor aluminum mold (1).