CN219386764U - Glass curtain wall with star-shaped light - Google Patents

Abstract

The utility model discloses a glass curtain wall with star-shaped light, which comprises: glass panel, aluminum alloy upright post, aluminum alloy cross beam and aluminum alloy through long pressing plate for fixing the glass panel; grooves are respectively formed in the bottom end, close to the left end and the right end, of the aluminum alloy upright post, and the aluminum alloy upright post and the heat insulation strip are connected through an aluminum alloy switching material and fixed through a second machine-made screw; the left and right sides of the aluminum alloy upright post are respectively provided with the aluminum alloy cross beams, and the outer side of each aluminum alloy cross beam is provided with a strip-shaped hole; a through wire hole is formed in the aluminum alloy inserting core, one end of a pin is inserted into the aluminum alloy inserting core through the wire hole, the pin is in interference fit with the wire hole, and the aluminum alloy inserting core is sleeved in the aluminum alloy cross beam; the safe and effective connection of the lamp and the glass curtain wall is realized, the night landscape lighting of the building outer facade is solved, and the artistic effect of the building in the daytime is not influenced.

Description

Glass curtain wall with star-shaped light

Technical Field

The utility model relates to the technical field of glass curtain walls, in particular to a glass curtain wall with star-shaped light.

Background

The glass curtain wall is a building outer enclosure structure or a decorative structure which has certain displacement capacity relative to the main body structure by a supporting structure system and does not share the action of the main body structure. The wall body has two types of single-layer glass and double-layer glass. The glass curtain wall is a beautiful and novel building wall decorating method and is a remarkable characteristic of modern high-rise building times.

In the outdoor lighting engineering of the existing glass curtain wall, a lamp and the glass curtain wall are independent, a curtain wall design unit is required to be provided with an independent fixing structure according to the lighting requirement, the lighting unit is usually constructed after the glass curtain wall is constructed, although the curtain wall design unit reserves a mounting space according to the requirement of the lighting unit and considers the mounting form in the design process, the lighting unit inevitably damages the modeling of the glass curtain wall in the construction.

Secondly, the lamp is directly exposed outdoors, and serious safety accidents are generated once the lamp falls off, so that the lamp needs to be firmly and reliably connected to the main structure of the curtain wall, and the lamp has enough safety; on the other hand, the addition of the lamp can not have great influence on the existing structure, the main structure of the curtain wall has enough supporting capability, and the lamp is directly exposed outdoors, so that the artistic effect of a building in the daytime is influenced, and therefore, the lamp is used as a part of the facade, and is combined with the curtain wall system for design, so that the night landscape lighting of the facade of the building can be solved, the artistic effect of the building in the daytime is not influenced, and the important technical problem to be solved by the person in the art is solved urgently.

The information disclosed in this background section is only for enhancement of understanding of the general background of the utility model patent and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

According to the glass curtain wall with the star-shaped light, the technical problems that in the prior art, lamps are directly exposed to outdoor safety, the requirement on the supporting capacity of the glass curtain wall is high, and the artistic effect of a building in the daytime is affected are solved, so that safe and effective connection of the lamps and the glass curtain wall is achieved, night landscape lighting of an outer elevation of a building is solved, and the artistic effect of the building in the daytime is not affected.

The embodiment of the application provides a take star brilliant glass curtain wall, include: glass panel, aluminum alloy upright post, aluminum alloy cross beam and aluminum alloy through long pressing plate for fixing the glass panel;

grooves are respectively formed in the outer end face of the aluminum alloy upright post, close to the left end and the right end, of the aluminum alloy upright post, and the aluminum alloy upright post and the heat insulation strip are connected through an aluminum alloy switching material and fixed through a second machine-made screw;

the left and right sides of the aluminum alloy upright post are respectively provided with the aluminum alloy cross beams, and the outer end surface of each aluminum alloy cross beam is provided with a strip-shaped hole; a through wire hole is formed in the aluminum alloy inserting core, one end of a pin is inserted into the aluminum alloy inserting core through the wire hole, the pin is in interference fit with the wire hole, the aluminum alloy inserting core is sleeved in the aluminum alloy cross beam, and the other end of the pin is inserted into the aluminum alloy stand column through the strip Kong Bodong of the aluminum alloy inserting core, so that the aluminum alloy stand column is connected with the aluminum alloy cross beam;

the glass panel is fixedly connected with the aluminum alloy upright post and the aluminum alloy cross beam respectively, the aluminum alloy through long pressing plate is arranged on the outer end face of the glass panel, the aluminum alloy through long pressing plate is connected with the heat insulation strip through a bolt, and the glass panel is firmly fixed through the locking of the bolt;

the LED lamp is characterized in that grooves are respectively formed in the top end, close to the left end and the right end, of the aluminum alloy through long pressing plate, grooves are formed in the bottom end of the aluminum alloy through long pressing plate, lamp sleeve wires are arranged in the grooves, the lamp sleeve wires are connected with LED pixel lamps, the LED pixel lamps are arranged on a lamp cover according to a design drawing, and the lamp cover is arranged on the aluminum alloy through long pressing plate and fixed through first machine-made screws.

As one preferred embodiment of the present application, the method further includes: the aluminum alloy buckle cover is buckled on the bolt and used for decoration.

Preferably, at least one of the aluminum alloy inserts is inserted into the aluminum alloy cross beam.

As one preferred embodiment of the present application, the method further includes: the hexagonal machine-made screws are arranged on the outer end face of the aluminum alloy cross beam, and are used for connecting the aluminum alloy cross beam with the aluminum alloy lock pin and fixing and limiting the aluminum alloy cross beam with the aluminum alloy lock pin.

As one preferable embodiment of the application, a sealing member and a sealant are arranged on one side of the glass panel close to the aluminum alloy transfer material, and the sealing member and the sealant are used for sealing, filling gaps and relieving pressure.

Preferably, the sealing element is a foam rod, and the sealant is silicone sealant.

As one preferable of the embodiment of the application, the outer end face of the aluminum alloy upright post is arranged in the grooves close to the left end and the right end and the grooves close to the left end and the right end of the aluminum alloy through long pressing plate are respectively provided with adhesive tapes, and the adhesive tapes are ethylene propylene diene monomer tapes.

Preferably, a flexible gasket is arranged between the aluminum alloy upright post and the aluminum alloy cross beam.

Preferably, as one embodiment of the present application, the thickness of the flexible spacer is 2mm.

As one preferable embodiment of the application, the lampshade is provided with an opening according to the size of the LED pixel lamp, and the LED pixel lamp is installed in the opening; the lampshade is a transparent frosted acrylic lampshade.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

the lamp is arranged in the groove of the aluminum alloy through long pressing plate, so that the requirement on the supporting capacity of the glass curtain wall is reduced, the problem that the lamp is directly exposed to the outdoor safety degree is solved, the technical problem of artistic effect of a building in daytime is not influenced, safe and effective connection of the lamp and the glass curtain wall is realized, night landscape lighting of an outer vertical face of the building is realized, and the artistic effect of the building in daytime is not influenced.

Drawings

FIG. 1 is a partial cross-sectional view of a glass curtain wall with star-shaped lighting in an embodiment of the present application;

FIG. 2 is a partial longitudinal cross-sectional view of an aluminum alloy beam of a glass curtain wall with star-shaped light in an embodiment of the application;

the LED lamp comprises a 1-aluminum alloy upright post, a 2-heat-insulating strip, a 3-aluminum alloy transfer material, a 4-aluminum alloy cross beam, a 5-aluminum alloy insert core, a 6-pin, a 7-flexible gasket, an 8-first machine screw, a 9-hexagonal machine screw, a 10-ethylene propylene diene monomer rubber strip, a 11-glass panel, a 12-aluminum alloy through long pressing plate, a 13-bolt, a 14-lamp fitting line, a 15-sealing piece and sealant, a 16-aluminum alloy buckle cover, a 17-second machine screw, an 18-LED pixel lamp and a 19-transparent frosted acrylic lamp shade.

Detailed Description

Embodiments of a glass curtain wall with star-shaped lighting described herein will be described with reference to the accompanying drawings. Those skilled in the art will recognize that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive in scope. Furthermore, in the present specification, the drawings are not drawn to scale, and like reference numerals denote like parts.

It should be noted that, in the embodiments of the present application, the expressions "first" and "second" are used to distinguish two entities with the same name but different entities or different parameters, and it is noted that the expressions "first" and "second" are merely used for convenience of description, and should not be construed as limiting the embodiments of the present utility model, and the following embodiments are not described in any way.

As shown in fig. 1-2, a glass curtain wall with star-shaped light comprises: the LED lamp comprises a 1-aluminum alloy upright post, a 2-heat-insulating strip, a 3-aluminum alloy transfer material, a 4-aluminum alloy cross beam, a 5-aluminum alloy insert core, a 6-pin, a 7-flexible gasket, an 8-first machine-made screw, a 9-hexagonal machine-made screw, a 10-ethylene propylene diene monomer rubber strip, a 11-glass panel, a 12-aluminum alloy through long pressing plate, a 13-bolt, a 14-lamp fitting line, a 15-sealing piece and sealant, a 16-aluminum alloy buckle closure, a 17-second machine-made screw, an 18-LED pixel lamp and a 19-transparent frosted acrylic lamp shade;

grooves are respectively arranged on the outer end surfaces of the aluminum alloy upright posts 1 near the left end and the right end, adhesive tapes are arranged at the grooves and used for sealing, filling gaps and buffering, the adhesive tapes are ethylene propylene diene monomer adhesive tapes 10, and then the aluminum alloy upright posts 1 are connected together through steel pieces, inserting cores, embedded pieces and bolt materials and are fixed on civil engineering; the aluminum alloy upright post 1 is connected with the heat insulation strip 2 through the aluminum alloy transfer material 3 and is fixed through a second machine-made screw 17;

the left and right sides of aluminum alloy stand 1 is equipped with aluminum alloy crossbeam 4 respectively, and every aluminum alloy crossbeam 4 is equipped with the bar hole, specifically does: the outer end face of each aluminum alloy cross beam 4 is provided with 1 strip-shaped hole.

A through wire hole is arranged in each aluminum alloy inserting core 5, one end of a pin 6 is inserted into the aluminum alloy inserting core 5 through the wire hole, the pin 6 is in interference fit with the wire hole, each aluminum alloy inserting core 5 is sleeved in each aluminum alloy cross beam 4, and the other end of the pin 6 is inserted into the aluminum alloy upright post 1 through the strip-shaped Kong Bodong aluminum alloy inserting core 5 of the aluminum alloy cross beam 4, so that the aluminum alloy upright post 1 is connected with the aluminum alloy cross beam 4;

holes with the same size as the pins 6 are formed in the positions, corresponding to the pins 6, of the aluminum alloy upright posts 1, so that the aluminum alloy upright posts 1 and the aluminum alloy cross beams 4 are firmly connected; the number of the pins 6 is three, and three screws are arranged in a triangle.

At least one aluminum alloy insert core 5 is inserted into the aluminum alloy cross beam 4;

a flexible gasket 7 is arranged between the aluminum alloy upright post 1 and the aluminum alloy cross beam 4 and is used for buffering friction force and chemical reaction generated by rigid connection, reducing the pressure of the aluminum alloy upright post and the aluminum alloy cross beam, increasing the stress area, preventing loosening and enabling the connection point to be more stable, so that the aluminum alloy upright post 1 and the aluminum alloy cross beam 4 can be firmly connected; the thickness of the flexible gasket 7 is 2mm.

The hexagonal machine-made screws 9 are arranged on the outer end face of the aluminum alloy cross beam 4, and the aluminum alloy cross beam 4 and the aluminum alloy insert core 5 are connected through the hexagonal machine-made screws 9 and used for fixing and limiting the aluminum alloy cross beam 4 and the aluminum alloy insert core 5.

The hexagonal machine-made screws 9 are arranged on the aluminum alloy cross beam 4 and used for fixing and limiting the aluminum alloy cross beam 4 and the aluminum alloy insert core 5.

The glass panel 11 is fixedly connected with the aluminum alloy upright post 1 and the aluminum alloy cross beam 4 respectively, an aluminum alloy through long pressing plate 12 is arranged on the outer end face of the glass panel 11, the aluminum alloy through long pressing plate 12 is connected with the heat insulation strip 2 through a bolt 13, and the glass panel 11 is firmly fixed through the locking of the bolt 13; and a sealing member and a sealant 15 are provided on the side of the glass panel 11 near the aluminum alloy transition material 3, which function for sealing, filling gaps and relieving pressure.

The sealing piece and the sealant are specifically a foam rod and silicone sealant, the foam rod and the silicone sealant are matched for use, the foam rod is firstly embedded, a cavity between the glass panel 11 and the aluminum alloy transfer material 3 is filled, and then the silicone sealant is injected, so that the sealing effect is achieved; the foam stick has the functions of: after the cavity is filled to a certain degree, the silicone sealant is conveniently injected, otherwise, if the silicone sealant is directly injected, other materials are easily polluted everywhere, the silicone sealant is too thick and is not easy to dry, bubbles are generated, and the sealing performance is not achieved.

And simultaneously, the aluminum alloy buckle cover 16 is buckled on the bolt 13 for decoration.

Grooves are respectively arranged at the top end, close to the left end and the right end, of the aluminum alloy through long pressing plate 12, grooves are respectively arranged at the bottom end, and rubber strips are arranged at the grooves and used for sealing, filling gaps and relieving pressure, and are ethylene propylene diene monomer strips 10; the lamp fitting line 14 is installed in the slot, the lamp fitting line 14 is connected with the LED pixel lamp 18, and the LED pixel lamp 18 is installed on the lamp shade according to the design drawing, specifically: the lamp shade is perforated according to the size of the LED pixel lamp 18, and the LED pixel lamp 18 is arranged in the perforated of the lamp shade; the lamp shade is specifically a transparent frosted acrylic lamp shade 19, and the transparent frosted acrylic lamp shade 19 is installed on the aluminum alloy through long pressing plate 12 and is fixed through the first machine-made screw 8.

The installation process comprises the following steps:

firstly, connecting an aluminum alloy upright post 1 with a heat insulation strip 2 through an aluminum alloy transfer material 3, fixing by using a second machine-made screw, penetrating an ethylene propylene diene monomer strip 10 at a groove opening of the aluminum alloy upright post 1, and then fixing the aluminum alloy upright post 1 on a civil engineering structure; the outer end surface of the aluminum alloy cross beam 4 is provided with a strip-shaped hole, an aluminum alloy inserting core 5 is inserted into the aluminum alloy cross beam 4, a penetrating wire hole is formed in the aluminum alloy inserting core 5, one end of a pin 6 is inserted into the wire hole of the aluminum alloy inserting core, the aluminum alloy inserting core 5 is sleeved in the aluminum alloy cross beam 4, the aluminum alloy inserting core 5 slides towards the direction of the aluminum alloy stand column 1 through the strip-shaped Kong Bodong aluminum alloy inserting core 5 of the aluminum alloy cross beam 4, and the other end of the pin 6 is inserted into the aluminum alloy stand column 1, so that the aluminum alloy stand column 1 is connected with the aluminum alloy cross beam 4; simultaneously, the aluminum alloy cross beam 4 and the aluminum alloy insert core 5 are fixed and limited by using a hexagonal machine-made screw 9; the connection part of the aluminum alloy upright post 1 and the aluminum alloy cross beam 4 is separated by a flexible gasket 7 with the thickness of 2 mm;

secondly, installing a glass panel 11, fixedly connecting an aluminum alloy upright post 1 with an aluminum alloy cross beam 4 respectively, then installing an aluminum alloy through long pressing plate 12, penetrating ethylene propylene diene monomer strips 10 into groove openings of the aluminum alloy through long pressing plate 12 respectively before installing the aluminum alloy through long pressing plate 12, and then fixing the aluminum alloy through long pressing plate 12 through bolts 13;

before the aluminum alloy through-length pressing plate 12 is fixed, a sealing piece and a sealant 15 are filled between the glass panel 11 and the aluminum alloy transfer material 3 for filling gaps; after the bolts 13 are fixed, an aluminum alloy buckle cover 16 is buckled;

finally, arranging a lamp fitting line 14 in a groove at the bottom end of the aluminum alloy through long pressing plate 12, wherein the lamp fitting line 14 is connected with an LED pixel lamp 18; the LED pixel lamp 18 is inserted into an opening of the transparent frosted acrylic lamp shade 19 according to a design drawing, the transparent frosted acrylic lamp shade 19 is required to be opened according to the size of the LED pixel lamp 18, after the LED pixel lamp 18 is installed, the two ends of the transparent frosted acrylic lamp shade 19 are connected with the aluminum alloy through long pressing plates 12 by using the first machine-made screws 8, so that the transparent frosted acrylic lamp shade 19 is fixed, and the glass curtain wall with star-shaped light is realized.

While preferred embodiments of the present utility model have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the utility model.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. A glass curtain wall with star-shaped light, which is characterized by comprising: glass panel, aluminum alloy upright post, aluminum alloy cross beam and aluminum alloy through long pressing plate for fixing the glass panel;

grooves are respectively formed in the outer end face of the aluminum alloy upright post, close to the left end and the right end, of the aluminum alloy upright post, and the aluminum alloy upright post and the heat insulation strip are connected through an aluminum alloy switching material and fixed through a second machine-made screw;

the left and right sides of the aluminum alloy upright post are respectively provided with the aluminum alloy cross beams, and the outer end surface of each aluminum alloy cross beam is provided with a strip-shaped hole; the aluminum alloy core insert is sleeved in the aluminum alloy cross beam; a through wire hole is formed in the aluminum alloy inserting core, one end of a pin is inserted into the aluminum alloy inserting core through the wire hole, the pin is in interference fit with the wire hole, the aluminum alloy inserting core is sleeved in the aluminum alloy cross beam, and the other end of the pin is inserted into the aluminum alloy stand column through the strip Kong Bodong of the aluminum alloy inserting core, so that the aluminum alloy stand column is connected with the aluminum alloy cross beam;

the glass panel is fixedly connected with the aluminum alloy upright post and the aluminum alloy cross beam respectively, the aluminum alloy through long pressing plate is arranged on the outer end face of the glass panel, the aluminum alloy through long pressing plate is connected with the heat insulation strip through a bolt, and the glass panel is firmly fixed through the locking of the bolt;

the LED lamp is characterized in that grooves are respectively formed in the top end, close to the left end and the right end, of the aluminum alloy through long pressing plate, grooves are formed in the bottom end of the aluminum alloy through long pressing plate, lamp sleeve wires are arranged in the grooves, the lamp sleeve wires are connected with LED pixel lamps, the LED pixel lamps are arranged on a lamp cover according to a design drawing, and the lamp cover is arranged on the aluminum alloy through long pressing plate and fixed through first machine-made screws.

2. The glass curtain wall with star-like brilliant light according to claim 1, further comprising: the aluminum alloy buckle cover is buckled on the bolt and used for decoration.

3. The glass curtain wall with star-shaped brilliant light according to claim 1, wherein at least one of said aluminum alloy inserts is inserted into said aluminum alloy cross beam.

4. The glass curtain wall with star-like brilliant light according to claim 1, further comprising: the hexagonal machine-made screws are arranged on the outer end face of the aluminum alloy cross beam, and are used for connecting the aluminum alloy cross beam with the aluminum alloy lock pin and fixing and limiting the aluminum alloy cross beam with the aluminum alloy lock pin.

5. The glass curtain wall with star-shaped bright lights according to claim 1, wherein a sealing piece and a sealant are arranged on one side of the glass panel close to the aluminum alloy transfer material, and the sealing piece and the sealant are used for sealing, filling gaps and relieving pressure.

6. The glass curtain wall with star-like bright light according to claim 5, wherein the sealing element is a foam rod and the sealant is silicone sealant.

7. The glass curtain wall with star-shaped light according to claim 1, wherein adhesive tapes are respectively arranged in grooves on the outer end faces of the aluminum alloy upright posts near the left end and the right end and grooves on the top ends of the aluminum alloy through long pressing plates near the left end and the right end, and the adhesive tapes are ethylene propylene diene monomer adhesive tapes.

8. The glass curtain wall with star-shaped brilliant light according to claim 1, wherein a flexible gasket is arranged between the aluminum alloy upright post and the aluminum alloy cross beam.

9. The glass curtain wall with star-like brilliant light according to claim 8, wherein the thickness of the flexible spacer is 2mm.

10. The glass curtain wall with star-shaped bright lights according to claim 1, wherein the lamp shade is provided with holes according to the sizes of the LED pixel lamps, and the LED pixel lamps are arranged in the holes; the lampshade is a transparent frosted acrylic lampshade.