CN219710576U - Self-weight supporting plate connecting system for large-span beam glass curtain wall - Google Patents

Abstract

The utility model discloses a self-weight supporting plate connecting system of a large-span beam glass curtain wall, which comprises an aluminum alloy upright post and an aluminum alloy beam, wherein the aluminum alloy beam is fixedly connected with the aluminum alloy upright post through an aluminum alloy connecting piece, the end part of the aluminum alloy upright post facing the outside is provided with a glass supporting plate, the glass supporting plate is respectively fixedly connected with the aluminum alloy beam, the end part of the aluminum alloy upright post facing the outside is provided with an aluminum alloy auxiliary frame I, the aluminum alloy auxiliary frame I is fixedly connected with the aluminum alloy upright post, the glass supporting plate is fixedly connected with the aluminum alloy auxiliary frame I, the connection of the glass supporting plate and the aluminum alloy upright post is realized, the glass supporting plate supports a group of curtain wall glass, the safety of the whole curtain wall system is improved, the requirement on the strength of the beam is reduced, a large number of sectional materials are saved, the installation is simple and convenient, and the operability is strong.

Description

Self-weight supporting plate connecting system for large-span beam glass curtain wall

Technical Field

The utility model relates to a glass curtain wall technical field, concretely relates to large-span crossbeam glass curtain wall dead weight layer board connected system.

Background

The glass curtain wall is used as a common peripheral protection structure of a building, and the application of the large-span glass curtain wall is also more and more extensive, especially for airport projects. The long-span glass curtain wall crossbeam length, glass dead weight is also very big usually, and conventional glass curtain wall dead weight falls on the crossbeam, and is very high to crossbeam self intensity and horizontal and vertical frame connection requirement, and the potential safety hazard easily appears in the curtain.

The Chinese patent with publication number of CN 211007208U discloses a frame curtain wall super-large glass dead weight supporting structure and a glass curtain wall, which transmit the dead weight of glass to a stand column through a supporting plate and a connecting piece, thereby not only meeting the stress requirement, but also reducing the engineering cost, but the supporting structure is relatively complex and can not meet the requirement of the expansion performance of a cross beam.

Therefore, the utility model provides a novel self-weight supporting plate connecting system for the large-span beam glass curtain wall, and the glass weight is transferred to the curtain wall upright post through the glass supporting plate, so that the expansion and contraction performance of the beam is not affected.

Disclosure of Invention

In view of the problems existing in the prior art, the utility model aims to provide a large-span beam glass curtain wall dead weight supporting plate connecting system which is simple and convenient to install and high in operability.

The technical scheme of the utility model is as follows:

the utility model provides a large-span crossbeam glass curtain wall dead weight layer board connected system, includes aluminum alloy stand and aluminum alloy crossbeam, aluminum alloy crossbeam passes through aluminum alloy connecting piece fixed connection with the aluminum alloy stand, aluminum alloy stand is equipped with the glass layer board towards outdoor tip, glass layer board and aluminum alloy crossbeam fixed connection respectively, aluminum alloy stand is equipped with aluminum alloy auxiliary frame one towards outdoor tip, wherein aluminum alloy auxiliary frame one and aluminum alloy stand fixed connection, glass layer board and aluminum alloy auxiliary frame one fixed connection realize the connection of glass layer board and aluminum alloy stand, glass layer board bearing a set of curtain wall glass.

Further, the glass support plate comprises a support plate back plate, a Y-shaped support plate is fixedly arranged on one side of the support plate back plate, the Y-shaped support plate comprises a first inclined plate, a second inclined plate and a horizontal plate, the first inclined plate and the second inclined plate are connected with the support plate back plate, the horizontal plate is perpendicular to the support plate back plate, and the first inclined plate and the second inclined plate respectively form a support groove with an upward opening and a support groove with a downward opening with the support plate back plate.

Further, a group of oblong holes capable of meeting the expansion and contraction of the aluminum alloy cross beam are formed in the positions, close to the two ends, of the supporting plate back plate, and the glass supporting plate is fixed with the aluminum alloy cross beam through the oblong holes by M6 pan head screws.

Further, the first bracket and the second bracket are symmetrically provided with an aluminum alloy auxiliary frame II, the two aluminum alloy auxiliary frames are respectively fixed on the two brackets through adhesive tapes, the two aluminum alloy auxiliary frames are fixed with curtain wall glass through structural adhesives, and a sealing structure I is arranged between the upper curtain wall glass and the lower curtain wall glass.

Further, the end part of the aluminum alloy cross beam, which is close to the outside, is provided with a first installation groove, and two sides of the first installation groove are respectively provided with a first matching groove and a second matching groove.

Further, an aluminum alloy pressing block is arranged between the two aluminum alloy auxiliary frames II, a support plate III and a support plate IV which are matched with the first matching groove and the second matching groove in size are arranged on the aluminum alloy pressing block, and the two support plates of the aluminum alloy pressing block are matched with the two matching grooves of the aluminum alloy cross beam respectively and fixed through screws.

Further, the two ends of the aluminum alloy auxiliary frame I, which face the indoor space, are respectively provided with a support plate I and a support plate II.

Further, the end part of the aluminum alloy upright post facing the outdoor is respectively provided with a first installation table and a second installation table, and the lower ends of the first installation table and the second installation table are respectively provided with a second installation groove and a third installation groove.

Further, the aluminum alloy auxiliary frame I is matched with the mounting table I and the mounting table II of the aluminum alloy upright post through the support plate I and the support plate II respectively, and is fixed through the M8 pan head screw.

Further, curtain wall glass on the left side and the right side is respectively clamped into a second mounting groove and a third mounting groove of the aluminum alloy upright post through structural adhesive to be fixed, a second sealing structure is arranged between the curtain wall glass on the left side and the right side and the first aluminum alloy auxiliary frame, an aluminum alloy buckle cover is arranged at the end part, facing the outdoor, of the curtain wall glass, and the aluminum alloy buckle cover is connected with the first aluminum alloy auxiliary frame through screws.

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

1) According to the technical scheme, the glass supporting plate is arranged at the end part, facing the outdoor, of the aluminum alloy upright post and is fixedly connected with the aluminum alloy cross beam, the aluminum alloy auxiliary frame I is fixedly connected with the aluminum alloy upright post, the glass supporting plate is fixedly connected with the aluminum alloy auxiliary frame I, curtain wall glass is borne on the glass supporting plate, so that the weight of the curtain wall glass is transferred to the curtain wall upright post, and the problem of safety caused by the fact that the dead weight of the glass curtain wall falls on the cross beam is solved;

2) The glass supporting plate not only bears the dead weight of curtain wall glass, but also serves as a connecting piece of a transverse and vertical frame of the curtain wall, and can strengthen the connection of the transverse and vertical frames;

3) Compared with the glass supporting plate in the prior art, the supporting plate backboard of the glass supporting plate is provided with a group of long round holes near two ends, so that a space is provided for the expansion and contraction of the cross beam;

4) The self-weight supporting plate system for the glass increases the safety of the whole curtain wall system, reduces the requirement on the strength of the cross beam, saves a large number of sectional materials, and has simple and convenient installation and strong operability.

Drawings

FIG. 1 is a schematic cross-sectional view of the present utility model;

FIG. 2 is a schematic view of a vertical cross-sectional structure of the present utility model;

FIG. 3 is a cross-sectional view of a glass fascia in accordance with the present utility model;

FIG. 4 is a cross-sectional view of an aluminum alloy cross-beam in accordance with the present utility model;

FIG. 5 is a cross-sectional view of an aluminum alloy briquette according to the present utility model;

FIG. 6 is a cross-sectional view of a first aluminum alloy subframe according to the present utility model;

fig. 7 is a cross-sectional view of an aluminum alloy pillar according to the present utility model.

In the figure: 1. an aluminum alloy upright post; 101. a first mounting table; 102. a second mounting table; 103. a second mounting groove; 104. a third mounting groove; 2. an aluminum alloy cross beam; 201. a first mounting groove; 202. a first matching groove; 203. a second matching groove; 3. an aluminum alloy connecting piece; 4. a glass pallet; 401. a pallet backboard; 402. a sloping plate I; 403. a second sloping plate; 404. a horizontal plate; 405. a bracket I; 406. a bracket II; 5. an aluminum alloy subframe I; 501. a first support plate; 502. a second support plate; 6. curtain wall glass; 601. a first support plate; 602. a second support plate; 7. an aluminum alloy secondary frame II; 8. a first sealing structure; 9. an aluminum alloy briquetting; 901. a third support plate; 902. a support plate IV; 10. a second sealing structure; 11. an aluminum alloy buckle cover.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of protection of the utility model is not limited to the described scope.

In order to mainly conduct the gravity of curtain wall glass 6 to the aluminum alloy upright column 1, the glass supporting plate 4 is connected to the upright column and the cross beam, and therefore, the utility model provides a large-span cross beam glass curtain wall dead weight supporting plate connecting system.

As shown in fig. 1-2, the self-weight support plate connecting system of the large-span beam glass curtain wall comprises an aluminum alloy upright post 1 and an aluminum alloy beam 2, wherein the aluminum alloy beam 2 and the aluminum alloy upright post 1 are fixedly connected through an aluminum alloy connecting piece 3, a glass support plate 4 is arranged at the end part, facing the outside, of the aluminum alloy upright post 1, the glass support plate 4 is fixedly connected with the aluminum alloy upright post 2, an aluminum alloy auxiliary frame I5 is arranged at the end part, facing the outside, of the aluminum alloy upright post 1, the aluminum alloy auxiliary frame I5 is fixedly connected with the aluminum alloy upright post 1, the glass support plate 4 is fixedly connected with the aluminum alloy upright post 1, and accordingly the gravity of curtain wall glass 6 is mainly conducted onto the aluminum alloy upright post 1, and the glass support plate 4 supports a group of curtain wall glass 6.

As shown in fig. 3, the glass supporting plate 4 comprises a supporting plate backboard 401, a Y-shaped supporting plate is fixedly arranged on one side of the supporting plate backboard 401, a group of oblong holes are formed in the positions, close to two ends, of the supporting plate backboard 401, the telescopic space of the aluminum alloy beam 2 is met, and the glass supporting plate 4 is fixed with the aluminum alloy beam 2 through the oblong holes through M6 pan head screws.

In this embodiment, the Y-shaped pallet includes a first swash plate 402, a second swash plate 403, and a horizontal plate 404, wherein the first swash plate 402, the second swash plate 403 are connected to the pallet backboard 401, the horizontal plate 404 is perpendicular to the pallet backboard 401, and the first swash plate 402 and the second swash plate 403 form a bracket 405 with an upward opening and a bracket 406 with a downward opening with the pallet backboard 401, respectively.

Further, a bracket I405 and a bracket II 406 are symmetrically provided with an aluminum alloy auxiliary frame II 7, the two aluminum alloy auxiliary frames II 7 are respectively fixed on the two brackets through adhesive tapes, the two aluminum alloy auxiliary frames II 7 and curtain wall glass 6 are fixed through structural adhesives, and a sealing structure I8 is arranged between the upper curtain wall glass 6 and the lower curtain wall glass 6.

In the utility model, the glass supporting plate 4 mainly has two functions, on one hand, the glass supporting plate 4 bears the dead weight of curtain wall glass 6; on the other hand, the connecting piece which is also used as the connecting piece of the transverse and vertical frames of the curtain wall can strengthen the connection of the transverse frames.

As shown in fig. 4, the end of the aluminum alloy beam 2 near the outside is provided with a first mounting groove 201, and two sides of the first mounting groove 201 are respectively provided with a first matching groove 202 and a second matching groove 203.

An aluminum alloy pressing block 9 is arranged between the two aluminum alloy auxiliary frames II 7, as shown in fig. 5, a support plate III 901 and a support plate IV 902 which are matched with the first matching groove 202 and the second matching groove 203 in size are arranged on the aluminum alloy pressing block 9, and the two support plates of the aluminum alloy pressing block 9 are respectively matched with the two matching grooves of the aluminum alloy cross beam 2 and are fixed through screws.

As shown in fig. 6, a first support plate 501 and a second support plate 502 are respectively arranged at two ends of the first aluminum alloy subframe 5 facing indoors, as shown in fig. 7, a first mounting table 101 and a second mounting table 102 are respectively arranged at the ends of the aluminum alloy upright column 1 facing outdoors, and a second mounting groove 103 and a third mounting groove 104 are respectively arranged at the lower ends of the first mounting table 101 and the second mounting table 102. The first aluminum alloy subframe 5 is matched with the first mounting table 101 and the second mounting table 102 of the aluminum alloy upright post 1 through the first supporting plate 501 and the second supporting plate 502 respectively, and is fixed through M8 pan head screws.

The curtain wall glass 6 on the left side and the right side are respectively clamped into the second mounting groove 103 and the third mounting groove 104 of the aluminum alloy upright post 1 through structural adhesive to be fixed, a second sealing structure 10 is arranged between the curtain wall glass 6 on the left side and the right side and the first aluminum alloy auxiliary frame 5, an aluminum alloy buckle cover 11 is arranged at the end part, facing the outdoor, of the curtain wall glass 6, and the aluminum alloy buckle cover 11 is connected with the first aluminum alloy auxiliary frame 5 through screws.

Claims (10)

1. The utility model provides a large-span crossbeam glass curtain wall dead weight layer board connected system, includes aluminum alloy stand (1) and aluminum alloy crossbeam (2), aluminum alloy crossbeam (2) and aluminum alloy stand (1) are through aluminum alloy connecting piece (3) fixed connection, its characterized in that aluminum alloy stand (1) are equipped with glass layer board (4) towards outdoor tip, glass layer board (4) and aluminum alloy crossbeam (2) fixed connection, aluminum alloy stand (1) are equipped with aluminum alloy auxiliary frame (5) towards outdoor tip, wherein aluminum alloy auxiliary frame (5) and aluminum alloy stand (1) fixed connection, glass layer board (4) and aluminum alloy auxiliary frame (5) fixed connection realize the connection of glass layer board (4) and aluminum alloy stand (1), glass layer board (4) bearing has a set of curtain glass (6).

2. The connection system for the dead weight support plates of the large-span beam glass curtain wall according to claim 1, wherein the glass support plate (4) comprises a support plate back plate (401), a Y-shaped support plate is fixedly arranged on one side of the support plate back plate (401), the Y-shaped support plate comprises a first inclined plate (402), a second inclined plate (403) and a horizontal plate (404), the first inclined plate (402), the second inclined plate (403) and the support plate back plate (401) are connected, the horizontal plate (404) is perpendicular to the support plate back plate (401), and the first inclined plate (402) and the second inclined plate (403) respectively form a first support groove (405) with an upward opening and a second support groove (406) with a downward opening with the support plate back plate (401).

3. The connection system for the dead weight support plates of the large-span beam glass curtain wall according to claim 2 is characterized in that a group of oblong holes capable of meeting the expansion and contraction of the aluminum alloy beam (2) are formed in the positions, close to two ends, of the support plate backboard (401), and the glass support plate (4) is fixed with the aluminum alloy beam (2) through the oblong holes by M6 pan head screws.

4. The large-span beam glass curtain wall dead weight supporting plate connecting system according to claim 3 is characterized in that aluminum alloy auxiliary frames II (7) are symmetrically arranged on the bracket I (405) and the bracket II (406), the two aluminum alloy auxiliary frames II (7) are respectively fixed on the two brackets through adhesive tapes, the two aluminum alloy auxiliary frames II (7) and the curtain wall glass (6) are fixed through structural adhesives, and a sealing structure I (8) is arranged between the upper curtain wall glass (6) and the lower curtain wall glass (6).

5. The connection system for the dead weight supporting plates of the large-span beam glass curtain wall according to claim 4, wherein the end part, close to the outside, of the aluminum alloy beam (2) is provided with a first installation groove (201), and two sides of the first installation groove (201) are respectively provided with a first matching groove (202) and a second matching groove (203).

6. The connection system for the dead weight supporting plates of the large-span beam glass curtain wall according to claim 5 is characterized in that an aluminum alloy pressing block (9) is arranged between two aluminum alloy auxiliary frames (7), a third supporting plate (901) and a fourth supporting plate (902) which are matched with the first matching groove (202) and the second matching groove (203) in size are arranged on the aluminum alloy pressing block (9), and the two supporting plates of the aluminum alloy pressing block (9) are respectively matched with the two matching grooves of the aluminum alloy beam (2) and are fixed through screws.

7. The connecting system for the dead weight supporting plates of the large-span beam glass curtain wall is characterized in that a first supporting plate (501) and a second supporting plate (502) are respectively arranged at two ends of the aluminum alloy auxiliary frame (5) facing indoors.

8. The connection system for the dead weight supporting plates of the large-span beam glass curtain wall is characterized in that a first installation table (101) and a second installation table (102) are respectively arranged at the end, facing outdoors, of the aluminum alloy upright post (1), and a second installation groove (103) and a third installation groove (104) are respectively arranged at the lower ends of the first installation table (101) and the second installation table (102).

9. The connection system for the dead weight supporting plates of the large-span beam glass curtain wall is characterized in that the aluminum alloy auxiliary frame I (5) is matched with the mounting table I (101) and the mounting table II (102) of the aluminum alloy upright post (1) through the supporting plate I (501) and the supporting plate II (502) respectively, and is fixed through M8 pan head screws.

10. The large-span beam glass curtain wall dead weight supporting plate connecting system according to claim 9, characterized in that curtain wall glass (6) on the left side and the right side are respectively clamped into a second mounting groove (103) and a third mounting groove (104) of an aluminum alloy upright post (1) through structural adhesive to achieve fixation, a second sealing structure (10) is arranged between the curtain wall glass (6) on the left side and the right side and an aluminum alloy auxiliary frame I (5), an aluminum alloy buckle cover (11) is arranged at the end part, facing outdoors, of the curtain wall glass (6), and the aluminum alloy buckle cover (11) is connected with the aluminum alloy auxiliary frame I (5) through screws.