CN214006170U - Hyperboloid aluminum plate curtain wall - Google Patents

Abstract

The utility model discloses a hyperboloid aluminum plate curtain wall, including hyperboloid aluminum plate, hyperboloid aluminum plate includes the panel and connects respectively at four sides of panel and to the bending edge of panel internal surface bending, panel internal surface is fixed with the strengthening rib, can increase aluminum plate's intensity, the strengthening rib is the angular form structure that the cross-section is L shape, one side laminating of strengthening rib is at the panel, the opposite side is perpendicular with the panel, the bending edge of the panel left and right sides is connected with L shape hangers respectively, one side fixed laminating of L shape hangers is on the inboard of bending edge, the opposite side of L shape hangers is perpendicular with bending edge and towards the panel outside, and set up the connecting piece perforation, the bending edge of panel upside has the hanging edge of bending downwards, the bending edge of panel downside has the couple, the couple includes the hook portion of buckling towards the panel surface, in the upper and lower adjacent hyperboloid aluminum plate, the hanging edge on next hyperboloid aluminum plate upper portion inserts in the couple of last hyperboloid aluminum plate lower part, when the device is installed, the device only needs to be fixed at the position of the hanging lug.

Description

Hyperboloid aluminum plate curtain wall

Technical Field

The utility model relates to a hyperboloid aluminum curtain wall belongs to building outer wall and decorates technical field.

Background

The aluminum plate is an environment-friendly and pollution-free curtain wall material, has the characteristics of light dead weight, good fireproof performance, good weather resistance and ageing resistance, and is widely used in the field of curtain wall materials. The double curved surface curtain wall made of aluminum plate has the characteristic of beautiful appearance, and is commonly used for outer wall decoration of high-grade office buildings and landmark buildings. The hyperboloid aluminum plate surface has the hyperboloid, leads to the processing technology complicated, in order to make aluminum plate can be easy processing go out the hyperboloid, can adopt the thickness that reduces panel usually, and the reduction of panel thickness will lead to curtain low strength, uses easy the deformation for a long time. When the double-curved-surface curtain wall is installed, the four folded edges of the double-curved-surface aluminum plate are usually installed on the keel frame through bolts, and the installation is complex.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple and high hyperboloid aluminum curtain wall of intensity of installation prior art relatively.

The utility model adopts the following technical scheme: a hyperboloid aluminum plate curtain wall comprises a hyperboloid aluminum plate with a hyperboloid surface, the hyperboloid aluminum plate comprises a panel and bending edges which are respectively connected with four side edges of the panel and bend towards the inner surface of the panel, the inner surface of the panel is fixed with a reinforcing rib which is an angular structure with an L-shaped section, one side of the reinforcing rib is attached to the panel, the other side of the reinforcing rib is vertical to the panel, the bending edges at the left side and the right side of the panel are respectively connected with an L-shaped hanging lug, one side of the L-shaped hanging lug is fixedly attached to the inner side of the bending edge, the other side of the L-shaped hanging lug is perpendicular to the bending edge and faces the outer side of the panel, and is provided with a connecting piece through hole, the bent edge at the upper side of the panel is provided with a hanging edge bent downwards, the bent edge at the lower side of the panel is provided with a hook which comprises a hook part bent towards the outer surface of the panel and a hyperboloid aluminum plate which is adjacent up and down, and the hanging edge at the upper part of the next hyperboloid aluminum plate is inserted into the hook at the lower part of the previous hyperboloid aluminum plate.

Preferably, the first bolts are welded on the bending edges on the left side edge and the right side edge of the panel, and the L-shaped hangers are attached to one side of the bending edge and fixed through the first bolts.

Preferably, the second bolt is welded on the inner side of the panel, and the reinforcing rib is attached to one side of the panel and fixedly connected with the second bolt.

Preferably, the hooks are uniformly distributed on the bent edge of the side edge of the lower part of the panel at intervals. The plurality of hooks enable the connection of the upper and lower hyperboloid aluminum plates to be more stable.

Preferably, the hanging edge is integrally connected to the bent edge of the side edge of the upper part of the panel, and the hook is integrally connected to the bent edge of the side edge of the lower part of the panel. The hanging edge, the hook and the bending edge are integrally formed, and the processing is simple and convenient.

Preferably, the reinforcing ribs and the L-shaped hanging lugs are made of the same material as the panel.

Preferably, the connecting piece through hole is a long hole extending left and right on the L-shaped hanging lug. When the aluminum plates are mutually extruded under stress, the long holes enable the aluminum plates to be slightly displaced left and right, so that the stress is eliminated, and the deformation is prevented.

Preferably, the hook comprises a first vertical plate connected with a bending edge on the lower side of the panel, a transverse plate connected with the first vertical plate and a second vertical plate connected to the transverse plate, the transverse plate and the bending edge are arranged at intervals, the second vertical plate and the first vertical plate are arranged at intervals, and the space surrounded by the second vertical plate, the transverse plate and the first vertical plate forms a hook part of the hook.

Preferably, the distance between the bending edges of the double-curved-surface aluminum plates adjacent to each other at the left and right sides is equal to the distance between the bending edges of the double-curved-surface aluminum plates adjacent to each other at the upper and lower sides. Therefore, the widths of the transverse gap and the vertical gap after the curtain wall is installed can be ensured to be equal, and the whole curtain wall is more attractive.

Preferably, a sealant or a sealing strip is filled between the adjacent double-curved-surface aluminum plates. The sealing performance and the integrity of the curtain wall can be ensured, and the corrosion at the joint of the double-curved-surface aluminum plate is prevented.

The utility model has the advantages that: when the double-curved-surface aluminum plate curtain wall is installed, two sides of each double-curved-surface aluminum plate are fixed on a curtain wall keel frame according to the position of each double-curved-surface aluminum plate, specifically, one side of each L-shaped lug with a connecting piece perforation is fixed on the keel frame, and the L-shaped lugs are fixedly connected with the keel frame through bolts; when the upper and lower adjacent hyperboloid aluminum plates are connected, the hook at the lower part of the previous hyperboloid aluminum plate is hooked in the hanging edge at the upper part of the next hyperboloid aluminum plate, so that the upper and lower hyperboloid aluminum plates are hooked together. After the double-curved-surface aluminum plates are fixed on the curtain wall keel frame, sealant or sealing strips are filled between the adjacent double-curved-surface aluminum plates to complete the installation work of the curtain wall. Because the utility model discloses when the installation, two hyperboloid aluminum plates adjacent from top to bottom articulate together, only need carry out the bolt fastening in hyperboloid aluminum plate both sides, have simplified hyperboloid aluminum plate curtain's installation process greatly. The reinforcing ribs are fixed on the inner surface of the double-curved-surface aluminum plate, so that the strength of the aluminum plate is greatly increased under the condition that the thickness of the aluminum plate is not increased, and the aluminum plate is not easy to deform in use, thereby improving the strength of the curtain wall and prolonging the service life of the curtain wall.

Drawings

Fig. 1 is a schematic structural view of a double-curved-surface aluminum plate curtain wall according to the present invention;

fig. 2 is a partial sectional view of a hyperboloid aluminum plate of the hyperboloid aluminum plate curtain wall of the present invention at a joint;

fig. 3 is a schematic structural view of the L-shaped hanger in fig. 1.

In the figure: 1-panel, 2-bent edge, 21-hanging plate, 22-hook, 221-first vertical plate, 222-transverse plate, 223-second vertical plate, 3-reinforcing rib, 4-L-shaped hanging lug, 41-connecting piece through hole, 5-first bolt and 6-second bolt.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The utility model provides a hyperboloid aluminum plate curtain of embodiment, including the hyperboloid aluminum plate that the surface has the hyperboloid, as shown in figure 1, hyperboloid aluminum plate includes panel 1 and connects respectively at four sides of panel 1 and to the curved edge 2 of panel 1 internal surface bending, panel 1 internal surface is fixed with strengthening rib 3, strengthening rib 3 is the angular form structure that the cross-section is L shape, and one side laminating of strengthening rib 3 is at the panel, and the opposite side of strengthening rib 3 is perpendicular with the panel, be connected with L shape hangers 4 respectively on the curved edge 2 of panel 1 left and right sides, one side of L shape hangers 4 is fixed to laminate on the inboard of curved edge 2, and the opposite side of L shape hangers 4 is perpendicular with curved edge 2 and towards the panel 1 outside to seted up connecting piece perforation 41, have the hem 21 of bending downwards on the curved edge 2 of panel 1 upside, have couple 22 on the curved edge 2 of panel 1 downside, the hook 22 includes a hook portion bent toward the outer surface of the panel 1, and as shown in fig. 3, of the hyperboloid aluminum plates adjacent up and down, a hanging edge 21 at the upper portion of the next hyperboloid aluminum plate is inserted into the hook 22 at the lower portion of the previous hyperboloid aluminum plate. The hooks 22 are uniformly distributed on the bending edge 2 of the lower side edge of the panel 1 at intervals. The hanging edge 21 is integrally connected to the bending edge 2 on the side edge of the upper portion of the panel 1, and the hook 22 is integrally connected to the bending edge 2 on the side edge of the lower portion of the panel 1.

All welded on the limit 2 of bending on two sides about panel 1 has first bolt 5, and L shape hangers 4 laminating is fixed through first bolt 5 in one side on the limit 2 of bending. As shown in fig. 3, the L-shaped hanging lug 4 is of an angular structure, and the connecting member through hole 41 is a long hole extending left and right on the L-shaped hanging lug. When the aluminum plates are mutually extruded under stress, the long holes enable the aluminum plates to be slightly displaced left and right, so that the stress is eliminated, and the deformation is prevented.

The inboard welding of panel 1 has second bolt 6, the laminating of strengthening rib 3 is in one side and second bolt 6 fixed connection of panel. The material of strengthening rib and L shape hangers all is the same with the panel.

The structure of two double curved surface aluminum plates adjacent from top to bottom at the junction is shown in fig. 2, the hook 22 comprises a first vertical plate 221 connected with the bending edge on the lower side of the panel 1, a horizontal plate 222 connected with the first vertical plate 221, and a second vertical plate 223 connected to the horizontal plate 222, the horizontal plate 222 is arranged at an interval with the bending edge, the second vertical plate 223 is arranged at an interval with the first vertical plate 221, and the space surrounded by the second vertical plate 223, the horizontal plate 222 and the first vertical plate 221 forms a hook part of the hook. And a sealant or a sealing strip is filled between the adjacent double-curved-surface aluminum plates, so that the sealing property and integrity of the curtain wall can be ensured, and the corrosion at the joint of the double-curved-surface aluminum plates is prevented.

The distance between the bent edges of the left and right adjacent hyperboloid aluminum plates close to each other is equal to the distance between the bent edges of the upper and lower adjacent hyperboloid aluminum plates close to each other. Therefore, the widths of the transverse gap and the vertical gap after the curtain wall is installed can be ensured to be equal, and the whole curtain wall is more attractive.

When the double-curved-surface aluminum plate curtain wall is installed, two sides of each double-curved-surface aluminum plate are fixed on a curtain wall keel frame according to the position of each double-curved-surface aluminum plate, specifically, one side of each L-shaped lug with a connecting piece through hole is fixed on the keel frame, and the L-shaped lugs are fixedly connected with the keel frame through bolts; when the upper and lower adjacent hyperboloid aluminum plates are connected, the hook at the lower part of the previous hyperboloid aluminum plate is hooked in the hanging edge at the upper part of the next hyperboloid aluminum plate, so that the upper and lower hyperboloid aluminum plates are hooked together. After the double-curved-surface aluminum plates are fixed on the curtain wall keel frame, sealant or sealing strips are filled between the adjacent double-curved-surface aluminum plates to complete the installation work of the curtain wall. Because the utility model discloses when the installation, two hyperboloid aluminum plates adjacent from top to bottom articulate together, only need carry out the bolt fastening in hyperboloid aluminum plate both sides, have simplified hyperboloid aluminum plate curtain's installation process greatly. The reinforcing ribs are fixed on the inner surface of the double-curved-surface aluminum plate, so that the strength of the aluminum plate is greatly increased under the condition that the thickness of the aluminum plate is not increased, and the aluminum plate is not easy to deform in use, thereby improving the strength of the curtain wall and prolonging the service life of the curtain wall.

The above embodiment is a preferred embodiment of the present invention, in other embodiments of the present invention, the L-shaped hanging lug may be welded on the bent edge, and the reinforcing rib may be welded on the inner surface of the plate.

The basic principles and the main features of the present invention and the advantages of the present invention have been shown and described above, and the present invention is not limited to the above embodiments, but may be modified in many ways. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (10)

1. The utility model provides a hyperboloid aluminum curtain wall, has the hyperboloid aluminum plate of hyperboloid including the surface, hyperboloid aluminum plate include the panel and connect respectively at four sides of panel and to the limit of bending of panel internal surface bending, its characterized in that: panel internal surface is fixed with the strengthening rib, and the strengthening rib is the angular structure of L shape for the cross-section, and one side laminating of strengthening rib is at the panel, and the opposite side and the panel of strengthening rib are perpendicular, the edge of bending of the panel left and right sides is connected with L shape hangers respectively, and the fixed laminating in one side of L shape hangers is on the inboard on the limit of bending, and the opposite side of L shape hangers is perpendicular and towards the panel outside with the limit of bending to seted up the connecting piece and perforated, the edge of bending of panel upside has the hem of bending downwards, the bending of panel downside is on the limit has the couple, and the couple includes the hook portion of buckling towards the panel surface, and in the adjacent hyperboloid aluminum plate from top to bottom, the hem on next hyperboloid aluminum plate upper portion inserts in the couple of last hyperboloid aluminum plate lower part.

2. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: first bolts are welded on the bending edges on the left side edge and the right side edge of the panel, and the L-shaped hangers are attached to one side of the bending edge and fixed through the first bolts.

3. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the inboard welding of panel has the second bolt, the strengthening rib laminating is in one side and second bolt fixed connection of panel.

4. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the hooks are uniformly distributed on the bent edge of the side edge of the lower part of the panel at intervals.

5. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the hanging edge is integrally connected to the bent edge of the side edge of the upper portion of the panel, and the hook is integrally connected to the bent edge of the side edge of the lower portion of the panel.

6. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the material of strengthening rib and L shape hangers all is the same with the panel.

7. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the connecting piece is perforated into a long hole which extends left and right on the L-shaped hanging lug.

8. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the couple includes the first riser of being connected with the limit of bending of panel downside, the diaphragm of being connected with the first riser and connect the second riser on the diaphragm, and the diaphragm sets up with the limit interval of bending, and the second riser sets up with the first riser interval, and second riser, diaphragm and the space in first riser besieged city form the hook portion of couple.

9. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: the distance between the bent edges of the left and right adjacent hyperboloid aluminum plates close to each other is equal to the distance between the bent edges of the upper and lower adjacent hyperboloid aluminum plates close to each other.

10. The hyperboloid aluminum sheet curtain wall of claim 1, wherein: and sealant or sealing strips are filled between the adjacent double-curved-surface aluminum plates.

Images