CN216810506U - A mounting structure for twisting type hyperboloid glass curtain wall - Google Patents

Abstract

The utility model belongs to the technical field of building curtain walls, and particularly relates to a mounting structure for a torsional hyperboloid glass curtain wall, which comprises a plurality of mounting units which are arranged in a staggered manner, wherein each mounting unit comprises a first keel and a second keel; the first keel and the second keel are connected with the building wall; the second keel and the first keel of the same mounting unit are arranged in a staggered manner; one surface of a gap between a first keel and a second keel of the same installation unit is plugged by an aluminum strip, and the other surface of the gap is plugged by a sealing rubber strip; the single glass curtain wall is arranged between the first keel and the second keel corresponding to the two adjacent installation units; the installed glass curtain walls are in a step shape. On the basis of meeting the use function requirements of the torsional hyperboloid glass curtain wall, the angle of the torsional hyperboloid glass curtain wall can be adjusted during installation, the straightness of a torsional curve can be well guaranteed, and the design and construction difficulty of the torsional hyperboloid shape is greatly reduced.

Description

A mounting structure for twisting type hyperboloid glass curtain wall

Technical Field

The utility model belongs to the technical field of building curtain walls, and particularly relates to a mounting structure for a torsional double-curved-surface glass curtain wall.

Background

With the development of the curtain wall industry, the appearance of special building designs is more and more, how to perfectly embody the design concept in construction and show beautiful shapes is a difficult problem in the curtain wall industry at present, particularly for a complex hyperboloid curtain wall structure, the conventional construction method of the existing single keel is difficult to meet the existing shape requirements, and the single keel cannot meet the twisting angle requirement of the curtain wall in practical implementation.

In conclusion, the utility model develops the double keels for the torsional double-curved-surface glass curtain wall so as to achieve the designed beautiful appearance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems and provides an installation structure for a torsional hyperboloid glass curtain wall.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

a mounting structure for a torsional hyperboloid glass curtain wall comprises a plurality of mounting units which are arranged in a staggered mode, wherein each mounting unit comprises a first keel and a second keel; the first keel and the second keel are connected with the building wall; the second keel and the first keel of the same mounting unit are arranged in a staggered manner; one surface of a gap between a first keel and a second keel of the same installation unit is plugged by an aluminum strip, and the other surface of the gap is plugged by a sealing rubber strip; the single glass curtain wall is arranged between the first keel and the second keel corresponding to the two adjacent installation units; the installed glass curtain walls are in a step shape.

Furthermore, still include the steel sheet of burying in the wall body in advance, the bottom of first fossil fragments, the bottom of second fossil fragments all are connected with the steel sheet.

Furthermore, the bottom of the first keel and the bottom of the second keel are connected with the steel plate through corner connectors; a right-angle surface of the first keel corresponding to the corner connector is connected with the steel plate in an attaching mode, and the other right-angle surface of the first keel is connected with the bottom of the first keel in an attaching mode; a right-angle face of the second keel corresponding to the corner connector is attached to the steel plate, and the other right-angle face is attached to the bottom of the second keel.

Furthermore, a third keel is arranged between the top of the first keel and the top of the second keel corresponding to the two adjacent mounting units.

Furthermore, the aluminum strip comprises a first connecting plate and two parallel second connecting plates, the first connecting plate is located between the two second connecting plates, and the two second connecting plates are respectively connected with the first keel and the second keel corresponding to the mounting unit.

Furthermore, angle steel is arranged between a second connecting plate and the corresponding first keel, a right-angle surface of the angle steel is in fit connection with the first keel, and the other right-angle surface of the angle steel is in fit connection with the second connecting plate; an angle steel is arranged between the other second connecting plate and the corresponding second keel, a right-angle surface of the angle steel is connected with the second keel in a fitting mode, and the other right-angle surface of the angle steel is connected with the second connecting plate in a fitting mode.

Furthermore, the heat preservation cotton is filled in an area defined by the first connecting plate and the two parallel second connecting plates.

Furthermore, the sealing rubber strip is an ethylene propylene diene monomer rubber strip.

Furthermore, an aluminum alloy auxiliary frame is arranged between the first keel and the second keel corresponding to the two adjacent mounting units, and the single glass curtain wall is mounted on the aluminum alloy auxiliary frame.

Further, first fossil fragments, second fossil fragments and third fossil fragments are the rectangle square tube.

Compared with the prior art, the utility model has the beneficial technical effects that:

(1) on the basis of meeting the use function requirements of the torsional hyperboloid glass curtain wall, the angle of the torsional hyperboloid glass curtain wall can be adjusted during installation, the straightness of a torsional curve can be well guaranteed, and the design and construction difficulty of the torsional hyperboloid shape is greatly reduced.

(2) The inner side of a gap between two keels corresponding to the installation unit is provided with a cover adhesive tape, and the outer side of the gap is sealed by a waterproof aluminum strip, so that a waterproof effect is achieved.

Drawings

FIG. 1 is a view showing the structure of the present embodiment;

fig. 2 is a mounting structure diagram of the present embodiment.

In the figure, a first keel 1, a second keel 2, a third keel 3, an aluminum strip 4, a first connecting plate 41, a second connecting plate 42, a sealing rubber strip 5, a glass curtain wall 6, a corner connector 7, heat insulation cotton 8, angle steel 9 and an aluminum alloy 10 auxiliary frame are arranged.

Detailed Description

The utility model will be further described with reference to specific examples, but the scope of the utility model is not limited thereto.

As shown in fig. 2, the present embodiment includes a plurality of mounting units which are arranged in a staggered manner, and each mounting unit includes a first keel 1 and a second keel 2. The first keel 1 and the second keel 2 are connected with a building wall; the second keel 2 and the first keel 1 of the same installation unit are arranged in a staggered manner; one side of a gap between a first keel 1 and a second keel 2 of the same installation unit is sealed by an aluminum strip 4, and the other side of the gap is sealed by a sealing rubber strip 5; a single glass curtain wall 6 is arranged between the first keel 1 and the second keel 2 corresponding to the two adjacent installation units; the installed glass curtain walls 6 are in a step shape. When the curtain wall fixing device is used, the first keel 1 of one installation unit can be fixed with a building wall, then the dislocation distance between the second keel 2 and the first keel 1 is adjusted according to different torsion angles of the curtain wall, and the second keel 2 can be moved to one side close to the building facade wall or one side far away from the building facade wall; after the second fossil fragments 2 of above-mentioned installation unit are fixed to be accomplished, the first fossil fragments 1 of another installation unit and 2 parallel and level installations of above-mentioned second fossil fragments, twist reverse different angles according to the curtain afterwards and fix the second fossil fragments 2 of another unit. Therefore, on the basis of meeting the use function requirements of the torsional hyperboloid glass curtain wall 6, the angle is adjustable during installation, the straightness of a torsional curve can be well guaranteed, and the design and construction difficulty of the torsional hyperboloid shape is greatly reduced. In addition, this embodiment installation unit installation back that finishes, the space inboard between the two fossil fragments that the installation unit corresponds is equipped with the front cover adhesive tape, and the outside is sealed through waterproof aluminium strip 4, can reach water-proof effects.

For being connected with building wall for first fossil fragments 1, second fossil fragments 2, this embodiment still includes the steel sheet of burying in the wall body in advance, and the bottom of first fossil fragments 1, the bottom of second fossil fragments 2 all are connected with the steel sheet. Specifically, the bottom of the first keel 1 and the bottom of the second keel 2 are connected with the steel plate through corner connectors 7. A right-angle face that first fossil fragments 1 corresponds angle sign indicating number 7 passes through screw connection after laminating with the steel sheet, passes through screw connection after another right-angle face and the laminating of the bottom of first fossil fragments 1. A right-angle face of the second keel 2 corresponding to the angle code 7 is connected with the steel plate through screws after being attached, and the other right-angle face is connected with the bottom of the second keel 2 through screws after being attached. For the fastness of being connected between strengthening first fossil fragments 1 and the second fossil fragments 2, be located and be equipped with third fossil fragments 3 between the top of the first fossil fragments 1 that two adjacent installation units correspond and the top of second fossil fragments 2.

The aluminum strip 4 of this embodiment includes a first connecting plate 41 and two parallel second connecting plates 42, the first connecting plate 41 is located between the two second connecting plates 42, and the two second connecting plates 42 are respectively connected with the first keel 1 and the second keel 2 corresponding to the mounting unit. For being connected with first fossil fragments 1, second fossil fragments 2 for aluminum strip 4, be equipped with angle steel 9 between a second connecting plate 42 and the first fossil fragments 1 that correspond thereof, pass through bolted connection after angle steel 9's a right-angle face and the laminating of first fossil fragments 1, pass through bolted connection after another right-angle face and the laminating of second connecting plate 42. An angle steel 9 is arranged between the other second connecting plate 42 and the corresponding second keel 2, a right-angle surface of the angle steel 9 is connected with the second keel 2 through a bolt after being attached, and the other right-angle surface is connected with the second connecting plate 42 through a screw after being attached. The area enclosed by the first connecting plate 41 and the two parallel second connecting plates 42 is filled with heat insulation cotton 8.

The sealing rubber strip 5 of this embodiment is an ethylene propylene diene monomer rubber strip. An aluminum alloy auxiliary frame 10 is arranged between the first keel 1 and the second keel 2 corresponding to the two adjacent mounting units, and the single glass curtain wall 6 is mounted on the aluminum alloy auxiliary frame 10. First fossil fragments 1, second fossil fragments 2 and third fossil fragments 3 are the rectangle square tube.

The using process of the embodiment specifically comprises the following steps:

firstly, adjusting the dislocation spacing distance of the installation units according to different angles of curtain wall torsion, and simultaneously adjusting the dislocation spacing distance of a first keel 1 and a second keel 2 of the same installation unit according to different angles of curtain wall torsion;

then, the first keel 1 is connected with the pre-buried steel plate through an angle connector 7, and the second keel 2 is connected with the pre-buried steel plate through the angle connector 7; and the top of the first keel 1 and the top of the second keel 2 corresponding to two adjacent mounting units are connected through the third keel 3.

Then, two surfaces of a gap between a first keel 1 and a second keel 2 of the same installation unit are respectively sealed by ethylene propylene diene monomer adhesive tapes and aluminum strips 4, so that the first keel 1 and the second keel 2 of the installation unit are integrated;

and finally, an aluminum alloy auxiliary frame 10 is arranged between the first keel 1 and the second keel 2 corresponding to the two adjacent mounting units, and the single glass curtain wall 6 is arranged on the aluminum alloy auxiliary frame 10.

While the embodiments of the present invention have been described in detail, it will be apparent to those skilled in the art that variations may be made in the embodiments without departing from the spirit of the utility model, and such variations are to be considered within the scope of the utility model.

Claims (10)

1. The utility model provides a mounting structure for torsional type hyperboloid glass curtain wall which characterized in that:

the device comprises a plurality of mounting units which are arranged in a staggered mode, wherein each mounting unit comprises a first keel and a second keel;

the first keel and the second keel are connected with the building wall; the second keel and the first keel of the same installation unit are arranged in a staggered mode; one surface of a gap between a first keel and a second keel of the same installation unit is plugged by an aluminum strip, and the other surface of the gap is plugged by a sealing rubber strip; the single glass curtain wall is arranged between the first keel and the second keel corresponding to the two adjacent installation units; the installed glass curtain walls are in a step shape.

2. The mounting structure for a twisted hyperboloid glass curtain wall as claimed in claim 1, wherein: still include the steel sheet of burying in the wall body in advance, the bottom of first fossil fragments, the bottom of second fossil fragments all are connected with the steel sheet.

3. The mounting structure for a twisted hyperboloid glass curtain wall as claimed in claim 2, wherein: the bottom of the first keel and the bottom of the second keel are connected with the steel plate through corner connectors; a right-angle surface of the first keel corresponding to the corner connector is in fit connection with the steel plate, and the other right-angle surface is in fit connection with the bottom of the first keel; a right-angle face of the second keel corresponding to the corner connector is attached to the steel plate, and the other right-angle face is attached to the bottom of the second keel.

4. The mounting structure for a twisted hyperboloid glass curtain wall as claimed in claim 1, wherein: and a third keel is arranged between the top of the first keel and the top of the second keel corresponding to the two adjacent mounting units.

5. The mounting structure for a torsional hyperboloid glass curtain wall as defined in claim 1, wherein: the aluminum strip comprises a first connecting plate and two parallel second connecting plates, the first connecting plate is located between the two second connecting plates, and the two second connecting plates are connected with the first keel and the second keel corresponding to the mounting unit respectively.

6. The mounting structure for a torsional hyperboloid glass curtain wall as defined in claim 5, wherein: an angle steel is arranged between a second connecting plate and the corresponding first keel, a right-angle surface of the angle steel is connected with the first keel in an attaching mode, and the other right-angle surface of the angle steel is connected with the second connecting plate in an attaching mode; an angle steel is arranged between the other second connecting plate and the corresponding second keel, a right-angle surface of the angle steel is connected with the second keel in a fitting mode, and the other right-angle surface of the angle steel is connected with the second connecting plate in a fitting mode.

7. The mounting structure for a twisted hyperboloid glass curtain wall as claimed in claim 6, wherein: the area that first connecting plate and two second connecting plates that are parallel to each other enclose packs the heat preservation cotton in.

8. The mounting structure for a twisted hyperboloid glass curtain wall as claimed in claim 1, wherein: the sealing rubber strip is an ethylene propylene diene monomer rubber strip.

9. The mounting structure for a twisted hyperboloid glass curtain wall as claimed in claim 1, wherein: an aluminum alloy auxiliary frame is arranged between the first keel and the second keel which correspond to the two adjacent mounting units, and the single glass curtain wall is mounted on the aluminum alloy auxiliary frame.

10. The mounting structure for a torsional hyperboloid glass curtain wall as defined in claim 4, wherein: first fossil fragments, second fossil fragments and third fossil fragments are the rectangle square tube.

Images