CN217630730U - Safe fixing system for metal wings on outer side of energy-saving glass curtain wall - Google Patents

Abstract

The utility model provides an energy-conserving glass curtain wall outside metal wing safety fixing system, including the aluminum alloy stand, the aluminum alloy stand is thermal-insulated bridge cut-off section bar, the medial extremity and the structure main part of aluminum alloy stand link firmly, the middle part both sides of aluminum alloy stand link firmly with the looks remote site of two adjacent aluminum alloy crossbeams through the fixed angle sign indicating number of crossbeam respectively, the lateral extremity of aluminum alloy stand links firmly through the medial extremity of aluminum alloy clamp plate with the metal wing, form two holding chambeies between aluminum alloy stand and the aluminum alloy clamp plate, two holding intracavity are inserted respectively to two adjacent cavity glass's looks remote site, the surface coating that corresponds the position with the aluminum alloy clamp plate among the cavity glass has black coating, install joint strip between cavity glass and aluminum alloy stand and the aluminum alloy clamp plate. The black coating, the sealing rubber strip and the aluminum alloy upright post are heat-insulating broken bridge sectional materials, so that the energy-saving and heat-preserving effect of the whole glass curtain wall is better.

Description

Safe fixing system for metal wings on outer side of energy-saving glass curtain wall

Technical Field

The utility model relates to an energy-conserving glass curtain wall outside metal wing safety fixing system belongs to building curtain wall technical field.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

Glass curtain walls are increasingly being used as a new form of building facade. The exposed frame glass curtain wall is characterized in that glass is embedded in a curtain wall component with four sides of an aluminum frame, and then the component is embedded on a cross beam, so that the cross beam is exposed and forms obvious distinction with the aluminum frame, and the exposed frame glass curtain wall is generally applied to markets and office buildings. In order to pursue beautiful and atmospheric decorative effects, the exposed frame part can be made into metal wings, but the installation and fixation difficulty is large due to the variable appearance, the traditional process can destroy the overall heat insulation performance of the glass curtain wall, and the metal wings which are generally long up and down in the super high-rise building are not installed smoothly, which is a technical problem to be solved urgently in the installation of the existing exposed frame glass curtain wall.

It should be noted that the above background description is only for the convenience of clear and complete description of the technical solutions in the present specification and for the understanding of those skilled in the art. These solutions are not considered to be known to those skilled in the art merely because they are set forth in the background section of this specification.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is exactly to prior art exist not enough, and provide an energy-conserving glass curtain wall outside metal wing safety fixing system, in this energy-conserving glass curtain wall outside metal wing safety fixing system, the position surface that corresponds in the cavity glass with the aluminum alloy clamp plate in crossing is whole to be blackened, the position of cavity glass and aluminum alloy clamp plate and aluminum alloy stand contact sets up joint strip, the aluminum alloy stand is thermal-insulated bridge cut-off section bar, makes whole glass curtain wall's energy-conserving heat preservation effect better.

The scheme is realized by the following technical measures: the utility model provides an energy-conserving glass curtain wall outside metal wing safety fixing system, it includes the aluminum alloy stand, the aluminum alloy stand is thermal-insulated bridge cut-off section bar, the medial extremity and the main structure fixed connection of aluminum alloy stand, the middle part both sides of aluminum alloy stand are respectively through the fixed angle sign indicating number of crossbeam and the looks remote site fixed connection of two adjacent aluminum alloy crossbeams, the medial extremity fixed connection of aluminum alloy clamp plate and metal wing is passed through to the outside end of aluminum alloy stand, form two holding chambeies between aluminum alloy stand and the aluminum alloy clamp plate, two adjacent cavity glass's the looks remote site inserts two holding intracavity respectively, and the surface coating that corresponds the position with the aluminum alloy clamp plate in the cavity glass has the black coating, install joint strip between cavity glass and aluminum alloy stand and the aluminum alloy clamp plate.

Preferably, the metal wings are provided with insertion grooves, and round steel bars are inserted into the insertion grooves on the two adjacent metal wings.

Preferably, the inside of aluminum alloy stand is provided with the channel-section steel, be provided with insulating cushion between the contact site of channel-section steel and aluminum alloy stand.

Preferably, the one end of the fixed angle sign indicating number of crossbeam and aluminum alloy crossbeam welding, the other end through wearing bolt assembly one and aluminum alloy stand fixed connection.

Preferably, the inner side end of the aluminum alloy upright post is fixedly connected with the structure main body through a main body connecting assembly.

Preferably, the outer side end of the metal wing is provided with a modeling metal wing, the middle parts of the opposite ends of the metal wing and the modeling metal wing are fixedly connected through screws, and the two sides of the opposite ends of the metal wing and the modeling metal wing are clamped.

Preferably, the middle part of the outer side end of the modeling metal wing is provided with a lamp strip mounting groove.

Preferably, the main part coupling assembling includes that the postposition buries board and two angle steel connecting pieces, and two angle steel connecting pieces symmetry arrange in the both sides of aluminum alloy stand in, and the one end of two angle steel connecting pieces and aluminum alloy stand fixed connection, the other end respectively with the postposition both ends fixed connection who buries the board, postposition buries board and structure main part fixed connection.

Preferably, one end of each angle steel connecting piece is fixedly connected with the aluminum alloy upright post through a through bolt assembly II, the other end of each angle steel connecting piece is respectively welded and fixed with two ends of the rear embedded plate, and the rear embedded plate is fixedly connected with the structural main body through a bottom expanding type mechanical anchor bolt.

Preferably, flexible rubber gaskets are arranged between the aluminum alloy upright post and the angle steel connecting piece as well as between the aluminum alloy upright post and the beam fixing angle code;

a T-shaped mounting groove is formed in the middle of the outer side end of the aluminum alloy upright column, a machine-made screw is mounted in the T-shaped mounting groove, penetrates through the middle of the aluminum alloy pressing plate and is in threaded connection with a locking nut;

the aluminum alloy pressing plate is characterized in that two L-shaped wing plates which are symmetrically arranged are integrally formed on the outer side face of the aluminum alloy pressing plate, two connecting wing plates are integrally formed on the inner side end of the metal wing, one ends of the two L-shaped wing plates are fixedly connected with the two connecting wing plates through a third butt-penetrating bolt assembly, the other ends of the two L-shaped wing plates are in end face contact with the inner side end of the metal wing, and two sides of the aluminum alloy pressing plate are respectively connected with buckling covers in a buckling mode.

The utility model has the advantages that: in this energy-conserving glass curtain wall outside metal wing safety fixing system, the position surface that corresponds with the aluminum alloy clamp plate intersection in the cavity glass is whole to be blackened, and the position of cavity glass and aluminum alloy clamp plate and aluminum alloy stand contact sets up joint strip, and the aluminum alloy stand is thermal-insulated bridge cut-off section bar, and above-mentioned structural style makes whole glass curtain wall's energy-conserving heat preservation effect better. In addition, two adjacent metal wings are connected through round steel in a penetrating mode, and the problem that metal wings are not straight in the prior art is effectively solved. Therefore, compared with the prior art, the utility model has the substantive characteristics and the progress, and the beneficial effects of the implementation are also obvious.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an enlarged view of point a in fig. 1.

In the figure, 1-a structural body, 2-a bottom-expanding mechanical anchor bolt, 3-a rear embedded plate, 4-an aluminum alloy beam, 5-an angle steel connecting piece, 6-a channel steel, 7-a beam fixing angle code, 8-hollow glass, 9-an aluminum alloy pressing plate, 10-a metal wing, 11-a modeling metal wing, 12-a lamp strip mounting groove, 13-a screw, 14-a round steel, 15-a second penetrating bolt component, 16-an aluminum alloy upright post, 17-a machine-made screw, 18-a third penetrating bolt component, 19-a connecting wing plate, 20-an L-shaped wing plate, 21-a buckle cover, 22-a sealing rubber strip, 23-a first penetrating bolt component, 24-a flexible rubber gasket, 25-an insulating cushion block and 26-a black coating.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the following explains the present solution by way of specific embodiments and with reference to the accompanying drawings.

The utility model provides an energy-conserving glass curtain wall outside metal wing safety fixing system, it includes aluminum alloy stand 16, aluminum alloy stand 16 is thermal-insulated bridge cut-off section bar, for increasing structural strength, is provided with channel-section steel 6 in aluminum alloy stand 16's inside, because of channel-section steel 6 and aluminum alloy stand 16's material is different, be provided with insulating cushion 25 between the contact site of channel-section steel 6 and aluminum alloy stand 16. The inboard end and the 1 fixed connection of main structure body of aluminum alloy stand 16, particularly, the inboard end of aluminum alloy stand 16 passes through main part coupling assembling and 1 fixed connection of main structure body, main part coupling assembling includes rearmounted buried plate 3 and two angle steel connecting piece 5, and the both sides of aluminum alloy stand 16 are arranged in to two angle steel connecting piece 5 symmetries, because of aluminum alloy stand 16 is different with angle steel connecting piece 5's material, is provided with flexible rubber gasket 24 between aluminum alloy stand 16 and angle steel connecting piece 5, and the one end of two angle steel connecting piece 5 and 16 fixed connection of aluminum alloy stand, the other end respectively with rearmounted buried plate 3's both ends fixed connection, rearmounted buried plate 3 and 1 fixed connection of main structure body. One end of each angle steel connecting piece 5 is fixedly connected with the aluminum alloy upright post 16 through a through bolt assembly II 15, the other end of each angle steel connecting piece is respectively welded and fixed with two ends of the rear embedded plate 3, and the rear embedded plate 3 is fixedly connected with the structural main body 1 through the bottom expanding type mechanical anchor bolt 2. The two angle steel connecting pieces 5 clamp the aluminum alloy upright post 16, and the aluminum alloy upright post 16 and the angle steel connecting pieces 5 are firmly connected together through the second opposite-penetrating bolt assemblies 15.

The middle part both sides of aluminum alloy stand 16 are respectively through the fixed angle sign indicating number 7 of crossbeam and the looks remote site fixed connection of two adjacent aluminum alloy crossbeams 4, and are provided with flexible rubber gasket 24 between aluminum alloy stand 16 and the fixed angle sign indicating number 7 of crossbeam, the one end and the welding of aluminum alloy crossbeam 4, the other end of the fixed angle sign indicating number 7 of crossbeam are through wearing bolt assembly 23 and aluminum alloy stand 16 fixed connection to each other.

The outside end of the aluminum alloy upright post 16 is fixedly connected with the inside end of the metal wing 10 through an aluminum alloy pressing plate 9, and the specific connecting structure is as follows: the aluminum alloy upright post is characterized in that a T-shaped mounting groove is formed in the middle of the outer side end of the aluminum alloy upright post 16, a machine-made screw 17 is mounted in the T-shaped mounting groove, the machine-made screw 17 penetrates through the middle of the aluminum alloy pressing plate 9 and is connected with a locking nut in a threaded mode, and the aluminum alloy upright post is convenient to mount and adjust in structural form. The aluminum alloy pressing plate comprises an aluminum alloy pressing plate 9, wherein two L-shaped wing plates 20 which are symmetrically arranged are integrally formed on the outer side face of the aluminum alloy pressing plate 9, two connecting wing plates 19 are integrally formed at the inner side end of a metal wing 10, one ends of the two L-shaped wing plates 20 are fixedly connected with the two connecting wing plates 19 through three opposite-penetrating bolt assemblies 18, the other ends of the two L-shaped wing plates 20 are in end face contact with the inner side end of the metal wing 10, and two sides of the aluminum alloy pressing plate 9 are respectively connected with buckling covers 21 in a buckling mode. Two containing cavities are formed between the aluminum alloy upright posts 16 and the aluminum alloy pressing plate 9, opposite ends of two adjacent hollow glass 8 are respectively inserted into the two containing cavities, the hollow glass 8 is LOW-E hollow glass, and the hollow glass 8 is tightly pressed on the aluminum alloy cross beam 4 through the aluminum alloy pressing plate 9. The surface of the hollow glass 8 corresponding to the aluminum alloy pressing plate 9 is coated with a black coating 26, sealing rubber strips 22 are arranged between the hollow glass 8 and the aluminum alloy upright posts 16 and between the hollow glass 8 and the aluminum alloy pressing plate 9, and the black coating 26 and the sealing rubber strips 22 have good heat preservation and energy saving effects on the whole glass curtain wall.

The metal wings 10 are internally provided with insertion grooves, round steel 14 is inserted into the insertion grooves of the two adjacent metal wings 10, the two adjacent metal wings 10 are connected in a penetrating manner through the round steel 14, and the problem that the metal wings 10 are not straight is effectively solved.

The outside end of metal wing 10 is provided with molding metal wing 11, 13 fixed connection are passed through at the looks remote site middle part of metal wing 10 and molding metal wing 11, the looks remote site both sides joint of metal wing 10 and molding metal wing 11, the joint structure does benefit to the later stage and maintains and change the operation. And a lamp strip mounting groove 12 is formed in the middle of the outer side end of the modeling metal wing 11, and the lamp strip mounting groove 12 is convenient for the arrangement of the brightening lamp strip.

The technical features of the present invention that are not described can be realized by the prior art, and are not described herein again. The present invention is not limited to the above embodiments, and variations, modifications, additions, and substitutions made by those skilled in the art within the scope of the present invention shall also fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an energy-conserving glass curtain wall outside metal wing safety fixing system which characterized by: the aluminum alloy column comprises an aluminum alloy column, the aluminum alloy column is a heat insulation bridge-cut-off section bar, the inner side end of the aluminum alloy column is fixedly connected with a structure main body, the two sides of the middle of the aluminum alloy column are fixedly connected with the opposite ends of two adjacent aluminum alloy beams through beam fixing angle codes respectively, the outer side end of the aluminum alloy column is fixedly connected with the inner side end of a metal wing through an aluminum alloy pressing plate, two containing cavities are formed between the aluminum alloy column and the aluminum alloy pressing plate, the opposite ends of two adjacent hollow glass bodies are inserted into the two containing cavities respectively, the surfaces of the hollow glass bodies corresponding to the aluminum alloy pressing plate are coated with black coatings, and sealing rubber strips are installed between the hollow glass bodies, the aluminum alloy column and the aluminum alloy pressing plate.

2. The energy-saving glass curtain wall outer side metal wing safety fixing system as claimed in claim 1, wherein: the inside of metal wing has seted up the cartridge groove, and the cartridge inslot on two adjacent metal wings is to wearing the cartridge to having the round steel from top to bottom.

3. The energy-saving glass curtain wall outside metal wing safety fixing system as claimed in claim 2, wherein: a channel steel is arranged inside the aluminum alloy upright post, and an insulating cushion block is arranged between the contact position of the channel steel and the aluminum alloy upright post.

4. The energy-saving glass curtain wall outside metal wing safety fixing system as claimed in claim 3, wherein: one end of the crossbeam fixing angle connector is welded with the aluminum alloy crossbeam, and the other end of the crossbeam fixing angle connector is fixedly connected with the aluminum alloy upright post through a first butt bolt assembly.

5. The energy-saving glass curtain wall outer side metal wing safety fixing system as claimed in claim 4, wherein: the inboard end of aluminum alloy stand passes through main part coupling assembling and structural body fixed connection.

6. The energy-saving glass curtain wall outer side metal wing safety fixing system as claimed in claim 5, wherein: the outer side end of the metal wing is provided with a modeling metal wing, the middle parts of the opposite ends of the metal wing and the modeling metal wing are fixedly connected through screws, and the two sides of the opposite ends of the metal wing and the modeling metal wing are clamped.

7. The energy-saving glass curtain wall outer metal wing safety fixing system as claimed in claim 6, wherein: and a lamp strip mounting groove is formed in the middle of the outer side end of the modeling metal wing.

8. The energy-saving glass curtain wall outside metal wing safety fixing system as claimed in claim 7, wherein: the main part coupling assembling buries board and two angle steel connecting pieces including the postposition, and two angle steel connecting pieces symmetry arrange the both sides of aluminum alloy stand in, and the one end of two angle steel connecting pieces and aluminum alloy stand fixed connection, the other end bury the both ends fixed connection of board with the postposition respectively, postposition buries board and structure main part fixed connection.

9. The energy-saving glass curtain wall outside metal wing safety fixing system as claimed in claim 8, wherein: one end of each angle steel connecting piece is fixedly connected with the aluminum alloy upright post through a pair-penetrating bolt assembly II, the other end of each angle steel connecting piece is welded and fixed with the two ends of the rear embedded plate respectively, and the rear embedded plate is fixedly connected with the structure main body through a bottom expanding type mechanical anchor bolt.

10. The energy-saving glass curtain wall outside metal wing safety fixing system as claimed in claim 9, wherein:

flexible rubber gaskets are arranged between the aluminum alloy upright post and the angle steel connecting piece as well as the fixed angle code of the cross beam;

a T-shaped mounting groove is formed in the middle of the outer side end of the aluminum alloy upright column, a machine-made screw is mounted in the T-shaped mounting groove, penetrates through the middle of the aluminum alloy pressing plate and is in threaded connection with a locking nut;

the aluminum alloy pressing plate is characterized in that two L-shaped wing plates which are symmetrically arranged are integrally formed on the outer side face of the aluminum alloy pressing plate, two connecting wing plates are integrally formed at the inner side end of the metal wing, one ends of the two L-shaped wing plates are fixedly connected with the two connecting wing plates through a third butt bolt assembly, the other ends of the two L-shaped wing plates are in end face contact with the inner side end of the metal wing, and two sides of the aluminum alloy pressing plate are respectively connected with buckle covers in a buckling mode.

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