CN214006215U - High-strength anti-seismic aluminum composite plate - Google Patents
High-strength anti-seismic aluminum composite plate Download PDFInfo
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- CN214006215U CN214006215U CN202022809590.6U CN202022809590U CN214006215U CN 214006215 U CN214006215 U CN 214006215U CN 202022809590 U CN202022809590 U CN 202022809590U CN 214006215 U CN214006215 U CN 214006215U
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Abstract
The utility model discloses a high-strength anti-seismic aluminum composite board, the utility model discloses a high-strength anti-seismic aluminum composite board is by the panel, the base plate and fix the core between panel and base plate and constitute, in the adjacent aluminum composite board about when the installation, the first upper plate of the left first connecting piece of the aluminum composite board on the right side is pressed on the second upper plate of the second connecting plate on the aluminum composite board right side on the left side, use the bolt that the bolt passed first upper plate and second upper plate to perforate, thereby connect first upper plate and second upper plate on keel frame, because the bolt perforation of one of them of first upper plate and second upper plate is the cross bore, when aluminum composite board received external influence vibrations, the bolt can be in the cross bore relative movement, that is to say that the cross bore makes aluminum composite board have micro-scale removal space, thereby avoid adjacent aluminum plate to extrude each other and warp. And, the core material is arranged in the high-strength anti-seismic aluminum composite board, so that the strength of the aluminum composite board can be increased, the deformation is further prevented, and a certain heat preservation effect is achieved.
Description
Technical Field
The utility model relates to a high-strength anti-seismic aluminum composite board belongs to architectural decoration technical field.
Background
Because aluminum composite panel texture is light durable, has waterproof performance good, the difficult corruption, environmental protection pollution-free characteristics, widely uses in the architectural decoration technical field, and aluminum composite panel often is as the furred ceiling in interior decoration, often is as the curtain in outdoor decoration. The aluminum composite plate suspended ceiling in the prior art is easily affected by the outside world when in use, and the adjacent aluminum composite plates can be extruded and collided mutually, so that deformation can be caused. In addition, the aluminum composite plate is generally made of thin material and has low strength, which is also an important factor causing deformation.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-strength antidetonation aluminum composite panel for vibrations lead to the technical problem who warp easily when solving prior art's aluminum composite panel and using as the furred ceiling.
The utility model discloses a antidetonation aluminum composite panel that excels in adopts following technical scheme: a high-strength anti-seismic aluminum composite plate comprises a panel, wherein a base plate is arranged on the inner side of the panel, a core material is fixed between the base plate and the panel, four side edges of the panel are respectively provided with a 90-degree folded edge bent towards the inner side of the panel, the core material divides the space between the base plate and the panel into a plurality of cavities, the sum of the heights of the base plate and the core material is not more than the height of the folded edge, gaps are respectively arranged between the left side edge and the right side edge of the base plate and between the left folded edge and the right folded edge of the base plate, the front side edge and the rear side edge of the base plate are respectively in sealing connection, a first connecting piece is fixed between the left side edge and the left folded edge of the base plate, a second connecting piece is fixed between the right side edge and the right folded edge of the base plate, the first connecting piece comprises a first connecting plate connected to the upper parts of the base plate and the left folded edge, a first vertical plate fixedly attached to the inner side of the left folded edge and a first upper plate connected with the first connecting plate and positioned outside the left folded edge, first connecting plate and first upper plate all are parallel with the panel, the first riser is perpendicular with first connecting plate, the second connecting piece is including the fixed second riser of laminating in the inboard of right side hem, fixed connection is in second riser upper end and towards the inboard second upper plate of right side hem and the L shape connecting plate of sealing connection between base plate edge and panel, the second upper plate is parallel with the panel and is used for installing the first upper plate below on adjacent antidetonation aluminum composite panel that excels in, bolt perforation has all been seted up on first upper plate and the second upper plate, bolt perforation on first upper plate or the second upper plate is the cross bore of controlling the extension, first connecting piece and second connecting piece all are the welding between base plate and hem.
A first clamping sheet is arranged below the first upper plate, and the folded edge on the left side is used for being clamped between the first clamping sheet and the first vertical plate.
The right side of the second upper plate is connected with a second clamping sheet, and the folded edge on the right side is used for being clamped between the second clamping sheet and the second vertical plate.
When the clamping device is installed, a space is reserved between the adjacent first clamping sheet and the second clamping sheet.
The first connecting piece comprises a first bottom plate which is fixedly connected below the first vertical plate and is fixedly attached to the panel.
The second connecting piece includes the second bottom plate of fixed connection between second riser and L shape connecting piece, and the second bottom plate is fixed with the laminating of panel.
And buffer strips are arranged on the outer sides of the folded edges on the left side and the right side.
The buffer strip is an elastic rubber pad.
The core material is of a corrugated structure.
The core material is of a honeycomb structure.
The utility model has the advantages that: the utility model discloses a antidetonation aluminum composite panel excels in when installation, the antidetonation aluminum composite panel that will excel in is fixed on keel frame, specifically splice together about each high-strength antidetonation aluminum composite panel, control in the adjacent aluminum composite panel, the first upper plate of the left first connecting piece of the aluminum composite panel on the right side is pressed on the second upper plate of the second connecting plate on the aluminum composite panel right side on the left side, use the bolt perforation that the bolt passed first upper plate and second upper plate, thereby connect first upper plate and second upper plate on keel frame, because the bolt perforation of one of them of first upper plate and second upper plate is the cross bore, when aluminum composite panel received external influence vibrations, the bolt can be in the cross bore relative movement, that is to say, the cross bore makes aluminum composite panel have micro-scale removal space, thereby avoid adjacent aluminum plate to extrude each other and warp. And, the core material is arranged in the high-strength anti-seismic aluminum composite board, so that the strength of the aluminum composite board can be increased, the deformation is further prevented, and a certain heat preservation effect is achieved.
Preferably, the buffer strips on the folding edges can prevent gaps from appearing after the aluminum composite plate is installed and prevent the folding edges from colliding with each other to generate deformation or sound.
Drawings
Fig. 1 is a schematic structural view of a high-strength anti-seismic aluminum composite panel according to an embodiment of the present invention;
fig. 2 is a partial view of the high-strength, earthquake-resistant aluminum composite panel of fig. 1 after installation.
In the figure: 1-panel, 2-base plate, 3-core material, 4-fold, 5-first connecting piece, 51-first connecting plate, 52-first vertical plate, 53-first upper plate, 54-first bottom plate, 55-first clamping sheet, 6-second connecting piece, 61-L-shaped connecting plate, 62-second vertical plate, 63-second upper plate, 64-second bottom plate, 65-second clamping sheet and 7-bolt through hole.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
The utility model relates to a high strength antidetonation aluminum composite panel structure of embodiment is as shown in fig. 1 to 2, the high strength antidetonation aluminum composite panel of this embodiment, including panel 1, panel 1 inboard is equipped with base plate 2, be fixed with core 3 between base plate 2 and the panel 1, four sides of panel 1 all have 90 hem 4 of bending to the panel inboard, core 3 separates the space between base plate 2 and the panel 1 for a plurality of cavity, the high sum of base plate 2 and core 3 is not more than the height of hem 4, the side has the clearance respectively about base plate 2 between two hem 4 about with, two hem 4 are sealing connection respectively around the side around and around base plate 2, be fixed with first connecting piece 5 between the left side of base plate 2 and the left hem, be fixed with second connecting piece 6 between the right side of base plate and the hem on right side, first connecting piece 5 is including connecting first connecting plate 51 on base plate 2 and left hem 4 upper portion, A first vertical plate 52 fixedly attached to the inner side of the left folded edge and a first upper plate 53 connected with the first connecting plate 51 and positioned outside the left folded edge, wherein the first connecting plate 51 and the first upper plate 53 are both parallel to the panel 1, the first vertical plate 52 is perpendicular to the first connecting plate 51, the second connecting piece 6 comprises a second vertical plate 62 fixedly attached to the inner side of the right folded edge, fixed connection is in second riser 62 upper end and towards inboard second upper plate 63 and the L shape connecting plate 61 of sealing connection between base plate 2 edge and panel 1 of right side hem, second upper plate 63 is parallel with panel 1 and is used for installing the first upper plate 53 below on the antidetonation aluminum composite panel that excels in adjacent, bolt perforation 7 has all been seted up on first upper plate 53 and the second upper plate 63, bolt perforation 7 on first upper plate 53 or the second upper plate 63 is for controlling the cross bore of extending, first connecting piece 5 and second connecting piece 6 all weld between base plate 2 and hem 4.
The first connecting piece 5 further comprises a first bottom plate 54 fixedly connected below the first vertical plate 52 and fixedly attached to the panel 1; a first engaging piece 55 is provided below the first upper plate 53, and a left folded edge is engaged between the first engaging piece 55 and the first vertical plate 52. The second connecting piece 6 further comprises a second bottom plate 64 fixedly connected between the second vertical plate 62 and the L-shaped connecting piece 61, the second bottom plate 64 is fixedly attached to the panel 1, the right side of the second upper plate 63 is connected with a second clamping piece 65, the folding edge on the right side is used for being clamped between the second clamping piece 65 and the second vertical plate 62, and during installation, an interval is reserved between the adjacent first clamping piece 55 and the second clamping piece 65.
And buffer strips (not shown in the attached drawing) are arranged on the outer sides of the folded edges on the left side and the right side, and the buffer strips are elastic rubber pads. The core material 3 used in this embodiment is of a corrugated structure. The core material can also be a honeycomb structure in other embodiments of the present invention.
The antidetonation aluminum composite panel that excels in of this embodiment when the installation, the antidetonation aluminum composite panel that excels in is fixed on keel frame, specifically splice together about each high-strength antidetonation aluminum composite panel, control in the adjacent aluminum composite panel, the first upper plate of the left first connecting piece of the aluminum composite panel on the right side is pressed on the second upper plate of the second connecting plate on the aluminum composite panel right side on the left side, use the bolt to pass the bolt perforation of first upper plate and second upper plate, thereby connect first upper plate and second upper plate on keel frame, because the bolt perforation of one of them of first upper plate and second upper plate is the cross bore, when aluminum composite panel receives external influence vibrations, the bolt can be in the cross bore relative movement, that is to say the cross bore makes aluminum composite panel have micro-scale removal space, thereby avoid adjacent aluminum plate to extrude each other and warp. And, the core material is arranged in the high-strength anti-seismic aluminum composite board, so that the strength of the aluminum composite board can be increased, the deformation is further prevented, and a certain heat preservation effect is achieved. The buffer strips on the folding edges can prevent gaps from appearing after the aluminum composite board is installed and prevent the folding edges from colliding with each other to generate deformation or sound.
The basic principle and the main features of the present invention and the advantages of the present invention have been shown and described above, and the skilled person in this industry should understand that the present invention is not limited by the above embodiments, and does not depart from the spirit and scope of the present invention.
Claims (10)
1. The utility model provides a high-strength anti-seismic aluminum composite board, which comprises a panel and is characterized in that: the inner side of the panel is provided with a base plate, a core material is fixed between the base plate and the panel, four sides of the panel are respectively provided with a 90-degree folded edge bent towards the inner side of the panel, the core material divides the space between the base plate and the panel into a plurality of cavities, the sum of the heights of the base plate and the core material is not more than the height of the folded edge, gaps are respectively arranged between the left side edge and the right side edge of the base plate and between the left folded edge and the right folded edge of the base plate, the front side edge and the rear side edge of the base plate are respectively in sealing connection, a first connecting piece is fixed between the left side edge of the base plate and the left folded edge, the first connecting piece comprises a first connecting plate connected to the upper parts of the base plate and the left folded edge, a first vertical plate fixedly attached to the inner side of the left folded edge and a first upper plate connected with the first connecting plate and positioned outside the left folded edge, and the first connecting plate and the first upper plate are both parallel to the panel, first riser is perpendicular with first connecting plate, the second connecting piece is including the fixed second riser of laminating in the right side hem inboard, fixed connection is in second riser upper end and towards the inboard second upper plate of right side hem and the L shape connecting plate of sealing connection between base plate edge and panel, the second upper plate is parallel with the panel and is used for installing the first upper plate below on adjacent antidetonation aluminum composite panel that excels in, bolt perforation has all been seted up on first upper plate and the second upper plate, bolt perforation on first upper plate or the second upper plate is for controlling the cross bore of extension, first connecting piece and second connecting piece all are the welding between base plate and hem.
2. The high strength, earthquake resistant, aluminum composite panel of claim 1, wherein: a first clamping sheet is arranged below the first upper plate, and the folded edge on the left side is used for being clamped between the first clamping sheet and the first vertical plate.
3. The high strength, earthquake resistant, aluminum composite panel of claim 2, wherein: the right side of the second upper plate is connected with a second clamping sheet, and the folded edge on the right side is used for being clamped between the second clamping sheet and the second vertical plate.
4. The high strength, earthquake resistant, aluminum composite panel of claim 3, wherein: when the clamping device is installed, a space is reserved between the adjacent first clamping sheet and the second clamping sheet.
5. The high strength, earthquake resistant, aluminum composite panel of claim 1, wherein: the first connecting piece comprises a first bottom plate which is fixedly connected below the first vertical plate and is fixedly attached to the panel.
6. The high strength, earthquake resistant, aluminum composite panel of claim 1, wherein: the second connecting piece includes the second bottom plate of fixed connection between second riser and L shape connecting piece, and the second bottom plate is fixed with the laminating of panel.
7. The high strength, earthquake resistant, aluminum composite panel of claim 1, wherein: and buffer strips are arranged on the outer sides of the folded edges on the left side and the right side.
8. The high strength, earthquake resistant, aluminum composite panel of claim 7, wherein: the buffer strip is an elastic rubber pad.
9. The high strength, earthquake resistant, aluminum composite panel of claim 1, wherein: the core material is of a corrugated structure.
10. The high strength, earthquake resistant, aluminum composite panel of claim 1, wherein: the core material is of a honeycomb structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022809590.6U CN214006215U (en) | 2020-11-30 | 2020-11-30 | High-strength anti-seismic aluminum composite plate |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022809590.6U CN214006215U (en) | 2020-11-30 | 2020-11-30 | High-strength anti-seismic aluminum composite plate |
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| CN214006215U true CN214006215U (en) | 2021-08-20 |
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| CN202022809590.6U Active CN214006215U (en) | 2020-11-30 | 2020-11-30 | High-strength anti-seismic aluminum composite plate |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112392192A (en) * | 2020-11-30 | 2021-02-23 | 铭创(江苏)幕墙新材料有限公司 | High-strength anti-seismic aluminum composite board and manufacturing process |
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2020
- 2020-11-30 CN CN202022809590.6U patent/CN214006215U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112392192A (en) * | 2020-11-30 | 2021-02-23 | 铭创(江苏)幕墙新材料有限公司 | High-strength anti-seismic aluminum composite board and manufacturing process |
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