CN106978868B - Large-cell glass gallery curtain wall connecting structure - Google Patents

Abstract

The invention provides a large-cell glass gallery curtain wall connecting structure, which is formed by mutually splicing at least one glass gallery unit, wherein each glass gallery unit comprises a gallery skeleton and double-layer glass plates fixed on the outer side of the gallery skeleton through an aluminum alloy auxiliary frame assembly; the auxiliary frame assembly comprises an upper corner auxiliary frame assembly, a lower corner auxiliary frame assembly and a side auxiliary frame assembly; the invention has the characteristics of meeting the installation of large-cell glass plates, ensuring safe and stable structure, adjusting the glass plates back and forth, good visual effect, good sealing performance and convenient construction.

Description

Large-cell glass gallery curtain wall connecting structure

Technical Field

The invention relates to the field of building decoration, in particular to a large-division glass gallery curtain wall connecting structure.

Background

In modern buildings, glass curtain walls are widely used as a light, attractive and epoch-making enclosure structure. More and more commercial office building outer walls adopt large-span large-cell transparent energy-saving glass curtain walls, such as air glass corridors for connecting two buildings or connecting two different parts of a building.

At present, a conventional hidden frame curtain wall or a conventional pressing plate type exposed frame curtain wall which is provided with a frame pressing block and is sealed by glue is generally adopted as a peripheral protection method of a glass gallery, and the two conventional outer wall methods have the following defects: the curtain wall structure is generally suitable for curtain wall structures with relatively smaller glass plates and smaller keel spans, the design requirements of large-division building appearance which increasingly tend to penetrate through the atmosphere and are not lost in light weight are met, the conventional hidden frame or exposed frame glass curtain wall structure is adopted, the design effect of an open-type elevation curtain wall of a building is difficult to meet, if the general conventional curtain wall structure is adopted for designing and constructing the outer wall of large-plate gallery glass, the self weight and other external force effects of components such as large-division glass plates cannot be born at the connecting point of the bottom of the glass plates are frequently generated due to the limitation of the structure system of the glass plates, the bottom curtain wall components are difficult to install, larger deformation is easy to occur, the self-explosion of outer wall glass caused by instable components is easy to occur, and the whole safety, the tightness and the like of the glass curtain wall are affected.

Disclosure of Invention

The invention aims to solve the technical problem of providing a large-cell glass gallery curtain wall connecting structure, which has the characteristics of capability of meeting the installation of large-cell glass plates, safe and stable structure, capability of adjusting the glass plates back and forth, good visual effect of appearance, good sealing performance and convenience in construction.

In order to solve the technical problems, the invention provides a large-cell glass gallery curtain wall connecting structure, wherein a glass gallery comprises at least one glass gallery unit which is formed by mutually splicing, and each glass gallery unit comprises a gallery framework and double-layer glass plates which are fixed on the outer side of the gallery framework through an aluminum alloy auxiliary frame assembly; the auxiliary frame assembly comprises an upper corner auxiliary frame assembly, a lower corner auxiliary frame assembly and a side auxiliary frame assembly; each group of upper corner auxiliary frame assembly comprises two mirror-image opposite corner auxiliary frames I, wherein each corner auxiliary frame I is provided with a T-shaped fixed end connected to the corresponding position of the corridor framework, the end parts of the T-shaped fixed ends extend out of inclined plates which are matched with the end parts of the double-layer glass plates at the upper corners of the corridor framework and are provided with stepped structures, and the stepped structures of the corner auxiliary frames I are propped against the end parts of the double-layer glass plates at the upper corners of the corridor framework; a sealing strip is connected between the first corner auxiliary frames; each group of lower corner auxiliary frame assembly comprises a mirror image opposite corner auxiliary frame I and a corner auxiliary frame II, wherein the corner auxiliary frame II comprises a T-shaped fixed end connected to the corresponding position of the corridor framework and a corner sloping plate which is provided with a ladder-shaped structure and is matched with the shape of the end part of the double-layer glass plate at the lower corner of the corridor framework, and the end part of the T-shaped fixed end extends out; the bottom end of the angular sloping plate is provided with a supporting plate for supporting the double-layer glass plate positioned on the bottom surface; a sealing strip is connected between the first corner auxiliary frame and the second corner auxiliary frame, and the ladder-shaped structure of the second corner auxiliary frame is propped against the end part of the vertical double-layer glass plate at the lower corner of the gallery skeleton; a gallery indoor ground is arranged between the gallery bottom surface and the gallery top surface of the gallery skeleton; double-layer glass plates arranged on the sides between the corridor top surface and the indoor ground of the corridor framework and between the indoor ground and the corridor bottom surface are spliced up and down through side auxiliary frame assemblies; the side auxiliary frame assembly comprises mirror-image opposite side auxiliary frames, each side auxiliary frame is provided with a T-shaped fixed end connected to the corresponding position of the corridor framework, the adjacent end parts of the T-shaped fixed ends are extended with pinch plates parallel to the end surfaces of the double-layer glass plates, and the pinch plates are buckled on the side end parts of the double-layer glass plates positioned on the upper side and the lower side; a sealing strip is connected between the two side auxiliary frames.

As a preferable mode, the glass gallery unit is formed by splicing two or more glass gallery units U from left to right; adjacent double-layer glass plates positioned on the top surface and the side surface of the corridor framework are spliced left and right through the side surface auxiliary frame assembly; the adjacent double-layer glass plates positioned on the bottom surface of the corridor framework are spliced left and right through the bottom surface auxiliary frame assembly; a foam rod is arranged between the two side auxiliary frames of the side auxiliary frame assembly positioned on the top surface, and weather-resistant sealant is smeared on the outer side of the foam rod; the bottom surface auxiliary frame assembly comprises two mirror image opposite bottom surface auxiliary frames, each bottom surface auxiliary frame is provided with a T-shaped fixed end connected to the corresponding position of the corridor framework, the adjacent ends of the T-shaped fixed ends of the two bottom surface auxiliary frames are respectively extended with an L-shaped buckle plate, and the L-shaped buckle plates are buckled at the ends of the adjacent double-layer glass plates positioned on the bottom surface; and a sealing strip is connected between the two bottom auxiliary frames.

Preferably, the connecting plate of each T-shaped fixed end of the upper corner auxiliary frame assembly or the lower corner auxiliary frame assembly is connected to the adapter at the corresponding position of the gallery skeleton; each group of connecting plates of the side auxiliary frame assembly or the bottom auxiliary frame assembly is connected to two sides of the adapter at the corresponding position of the gallery skeleton; the outer side surface of the connecting plate is provided with a saw tooth structure, a gasket with a saw tooth structure is attached to the outer side surface of the connecting plate, and the saw teeth are meshed with each other; a rubber cushion block is arranged between the inner side surface of each connecting plate and the adapter; the gasket, the connecting plate, the rubber cushion block and the adapter are connected through bolts; the inner diameter of the first bolt hole on the gasket, the rubber cushion block and the adapter is matched with the outer diameter of the screw rod of the bolt, the inner diameter of the second bolt hole on the connecting plate is larger than the outer diameter of the screw rod of the bolt, and the connecting plate can move back and forth relative to the screw rod of the bolt.

Preferably, a rubber cushion block is arranged between the T-shaped fixed end or the step-shaped structure of the upper corner auxiliary frame assembly or the step-shaped structure of the lower corner auxiliary frame assembly or the buckle plate of the side auxiliary frame assembly or the contact surface of the L-shaped buckle plate of the bottom auxiliary frame assembly and the double-layer glass plate; the outer side of the rubber cushion block is adhered with a double-sided adhesive tape.

As a preferable mode, a sealed foam rod is arranged between the upper corner auxiliary frame components and between the side auxiliary frame components positioned at the top of the gallery skeleton, and the outer side of the foam rod is filled with sealant; and sealing glue is smeared at the positions of the nuts and the gaskets of the bolts.

As a preferable mode, a 7-shaped stainless steel water-covering plate is adhered to the top of the double-layer glass plate on the U side of the glass gallery unit; a rubber cushion block and a double-sided adhesive tape are arranged between the water-coating plate and the double-layer glass plate in a cushioning mode, and sealing glue is filled at the top of the double-layer glass plate.

As a preferable mode, the double-layer glass plate block positioned on the top surface of the corridor framework is made of hollow toughened laminated glass.

As a preferable mode, the double-layer glass plate block positioned on the bottom surface of the corridor framework is made of laminated toughened glass.

The invention relates to a large-cell glass gallery curtain wall connecting structure, which has the advantages that compared with the prior design, the large-cell glass gallery curtain wall connecting structure has the following advantages: (1) The special structure of the aluminum alloy auxiliary frame meets the connection and installation requirements of large-cell glass plates of the outer wall of the building air glass gallery, and can well digest the structural deformation generated by the dead weight of the bottom of the large-cell glass plates, so that the aluminum alloy auxiliary frame is safer and more stable; (2) The adjustable function of the in-out position of the glass plate can be realized by adjusting the relative position relation between the T-shaped fixed end and the bolt, compared with the common structure, the structure better meets the appearance effect of the large-cell open glass gallery, is more beneficial to construction and installation, and improves the construction quality; (3) The special stepped structure of the stepped structure can well digest the dead weight of the large-division double-layer glass plate, effectively reduces deformation of the glass plate, and well realizes good butt joint of curtain wall plates at all positions. (4) the sealing performance of the glass gallery is good.

Drawings

FIG. 1 is a schematic perspective view of a large cellular glass gallery curtain wall of the present invention.

FIG. 2 is a schematic longitudinal cross-sectional view of a large-cell glass gallery curtain wall of the present invention.

FIG. 3 is a schematic view of the connection structure of the upper corner subframe assembly of the large-cell glass gallery curtain wall of the present invention.

FIG. 4 is a schematic view of the connection structure of the sub-frame assembly of the lower corner of the large-cell glass gallery curtain wall of the present invention.

FIG. 5 is a schematic view of the connection structure of the side auxiliary frame assembly of the large-cell glass gallery curtain wall of the invention, which is positioned on the indoor ground.

FIG. 6 is a schematic view of the connection structure of side sub-frame assemblies on the sides of the large cellular glass gallery curtain wall of the present invention.

FIG. 7 is a schematic view of the connection structure of the side subframe assembly of the large-cell glass gallery curtain wall of the present invention at the top.

FIG. 8 is a schematic view of the connection structure of the bottom sub-frame assembly of the large-cell glass gallery curtain wall of the present invention.

FIG. 9 is an enlarged partial schematic view of the large cellular glass gallery curtain wall of the present invention at point A.

FIG. 10 is an enlarged schematic view of a large-cell glass gallery curtain wall of the present invention at point B.

The reference numerals are as follows: 1-gallery skeletons, 11-adapters, 12-shims, 13-bolts, 131-bolt holes one, 132-bolt holes two, 2-double glazing panels, 3-upper corner subframe assemblies, 31-corner subframe one, 311-swash plate, 4-lower corner subframe assemblies, 41-corner subframe two, 411-corner swash plate, 4111-horizontal pallet, 5-side subframe assemblies, 51-side subframe, 511-buckle plates, 6-bottom subframe assemblies, 61-bottom subframe, 611-L buckle plates, 7-T-shaped fixed ends, 71-connection plates, 711-saw tooth structures, 81-rubber cushion blocks, 82-double-sided adhesive strips, 83-foam bars, 84-sealants, 9-sealing strips, 10-draping plates, U-glazing gallery units.

Detailed Description

The large-cell glass gallery curtain wall connecting structure comprises at least one glass gallery unit U, wherein each glass gallery unit U comprises a gallery skeleton 1 and a double-layer glass plate 2 fixed outside the gallery skeleton 1 through an aluminum alloy auxiliary frame assembly; the gallery skeleton 1 is conventionally made in the prior art. The auxiliary frame assemblies comprise an upper corner auxiliary frame assembly 3, a lower corner auxiliary frame assembly 4, a side auxiliary frame assembly 5 and a bottom auxiliary frame assembly 6; the invention is described in detail below in connection with fig. 1-10.

As shown in fig. 1, in this embodiment, the large-cell glass gallery curtain wall connecting structure is a long gallery formed by splicing two or more glass gallery units U from left to right.

As shown in fig. 2 and 3, the double-glazing panel 2 of the top and side surfaces is fixed at the left upper corner and the right upper corner of the gallery skeleton by using a plurality of sets of upper corner subframe assemblies 3. Each group of upper corner auxiliary frame assemblies 3 comprises two mirror-image opposite corner auxiliary frames 31, and the plurality of corner auxiliary frames 31 are respectively arranged at two ends of the transverse double-layer glass plate at the top of the glass gallery and at the upper ends of the side vertical double-layer glass plates; each corner auxiliary frame 31 is provided with a T-shaped fixed end 7, and connecting plates 71 of the two T-shaped fixed ends 7 of each group of upper corner auxiliary frame components 3 are respectively connected to the adapter 11 at corresponding positions of the side edges of the top of the gallery skeleton 1 and the upper ends of the side edges. The end part of the T-shaped fixed end 7 extends out of the inclined plate 311, the shape of the inclined plate 311 is matched with the shape of the end part of the double-layer glass plate 2 at the upper corner of the gallery skeleton, and the inclined plate is provided with a ladder-shaped structure; after installation, the end part of the double-layer glass plate 2 at the upper corner of the gallery skeleton is propped with the ladder-shaped structure, a rubber cushion block 81 is arranged between the ladder-shaped structure and the double-layer glass, the dead weight of the large-grid double-layer glass plate can be well digested by the ladder-shaped special structure, the deformation of the glass plate is effectively reduced, and good butt joint of curtain wall plates at all positions is well realized. Sealing strips 9, sealed foam bars 83 and weather-proof sealant 84 are sequentially arranged between the two corner auxiliary frames 31 of each group of upper corner auxiliary frame assemblies 3 from inside to outside, multiple sealing protection is achieved, and the sealing effect of the glass gallery is guaranteed. Considering the air and water drainage requirements in heavy rain, a 7-shaped stainless steel water-covering plate 10 is adhered to the top of the double-layer glass plate on the side face of the glass gallery unit U.

As shown in fig. 1-2, the present invention uses multiple sets of lower corner subframe assemblies 4 to secure bottom and side double glazing panels 2 to the left lower corner and right lower corner of the gallery skeleton. As shown in fig. 4, each set of lower corner sub-frame assemblies 4 includes a first corner sub-frame 31 and a second corner sub-frame 41 that are mirror images of each other. The first corner subframe 31 of the lower corner subframe assembly 4 has the same structure as the first corner subframe 31 of the upper corner subframe assembly 3, is arranged at the lower end of the vertical double-layer glass plate at the side edge of the glass gallery, and the connecting plates 71 of the T-shaped fixed ends 7 of the first corner subframe 31 of the lower corner subframe assembly 4 are respectively connected to the adapter pieces 11 at the corresponding positions at the bottom of the side edge of the gallery skeleton 1; the end part of the T-shaped fixed end 7 extends out to form a sloping plate 311 with a ladder-shaped structure, the sloping plate is propped against the lower end surface of the vertical double-layer glass plate positioned at the side edge of the glass gallery, and a rubber cushion block 81 is arranged between the ladder-shaped structure and the end part of the double-layer glass plate 2 in a cushioning manner. The second corner auxiliary frames 41 are arranged at the left end and the right end of the transverse double-layer glass plate at the bottom of the corridor framework, and each second corner auxiliary frame 41 comprises a T-shaped fixed end 7 connected to the corresponding position of the corridor framework, and an angular inclined plate 411 which is provided with a stepped structure and is matched with the shape of the end of the double-layer glass plate 2 at the lower corner of the corridor framework is extended from the end of the T-shaped fixed end 7; the connecting plates 71 of the T-shaped fixed ends 7 of the second corner auxiliary frames 41 are respectively connected to the adapter 11 at the corresponding positions of the side edges of the bottom of the corridor framework 1, the ladder-shaped structures of the angle-shaped inclined plates 411 are propped against the two ends of the transverse double-layer glass plates 2 at the bottom surface of the corridor framework, the bottom ends of the angle-shaped inclined plates 411 are also provided with horizontal supporting plates 4111, the supporting plates 4111 are supported on the lower end surfaces of the two sides of the transverse double-layer glass plates 2 at the bottom surface of the glass corridor, a rubber cushion block 81 is arranged between the supporting plates and the double-layer glass plates in a cushioning mode, and double-sided adhesive tapes 82 are adhered to the outer sides of the rubber cushion blocks 81, so that the reinforcing effect is achieved; and sealing strips 9 are connected between the first corner auxiliary frame 31 and the second corner auxiliary frame 41 of each group of lower corner auxiliary frame assemblies 4, so that a sealing effect is achieved.

As shown in fig. 1-2, a corridor indoor ground is arranged between a corridor bottom surface and a corridor top surface of the corridor framework 1, and adjacent double-layer glass plates 2 arranged on the outer side between the corridor top surface and the indoor ground and between the indoor ground and the corridor bottom surface are spliced up and down through a side auxiliary frame assembly 5. As shown in fig. 5, each set of side subframe assemblies 5 includes two mirror-image opposing side subframe 51; each side auxiliary frame 51 is provided with a T-shaped fixed end 7 connected to the corresponding position of the corridor framework, and connecting plates 71 of the two T-shaped fixed ends 7 of each group of side auxiliary frame components 5 are connected to two sides of an adapter 11 at the corresponding position of the indoor ground of the corridor framework 1; the adjacent ends of the two T-shaped fixed ends 7 of each group of side auxiliary frame assemblies 5 are respectively extended with a buckle 511, and the buckle 511 is horizontally buckled at the end part of the double-layer glass plate 2 which is positioned on the side and spliced up and down; a sealing strip 9 is connected between the two side auxiliary frames 51 to play a role in sealing. A rubber cushion block 81 is arranged between the pinch plate 511 and the end part of the double-layer glass plate 2, and a double-sided adhesive tape 82 is stuck on the outer side of the rubber cushion block 81.

As shown in fig. 2 and 6, the double-layer glass plates 2 which are positioned on the side surface of the glass gallery and are adjacent left and right are spliced left and right by the side auxiliary frame assembly 5; the connecting plates 71 of the two T-shaped fixed ends 7 of each group of side auxiliary frame assemblies 5 are connected to the sides of the gallery skeleton 1 and the two sides of the adapter 11 at the left and right splicing positions of the double-layer glass plates; the pinch plates 511 extending from adjacent ends of the two T-shaped fixed ends 7 of each group of side auxiliary frame assemblies 5 are horizontally buckled at the ends of the double-layer glass plates 2 spliced left and right on the side surfaces. Sealing strips 9 are arranged between the two side auxiliary frames 51 of each group of side auxiliary frame assemblies 5, and the sealing effect is achieved. A rubber cushion block 81 is arranged between the pinch plate 511 and the end part of the double-layer glass plate 2, and a double-sided adhesive tape 82 is stuck on the outer side of the rubber cushion block 81.

As shown in fig. 2 and 7, the double-layer glass plates 2 which are positioned at the top of the glass gallery and are adjacent left and right are spliced left and right by the side auxiliary frame assembly 5; the connecting plates 71 of the two T-shaped fixed ends 7 of each group of side auxiliary frame assemblies 5 are connected to the top of the corridor framework 1 and the two sides of the adapter 11 at the left and right splicing positions of the double-layer glass plates; the pinch plates 511 extending from adjacent ends of the two T-shaped fixing ends 7 of each side auxiliary frame assembly 5 are horizontally buckled at the ends of the double-layer glass plates 2 which are spliced left and right at the top. A foam rod 83 is arranged between the two side auxiliary frames 51 of each group of side auxiliary frame assemblies 5, and weather-proof sealant 84 is filled outside the foam rod 83 to play a role in multiple sealing. A rubber cushion block 81 is arranged between the pinch plate 511 and the end part of the double-layer glass plate 2, and a double-sided adhesive tape 82 is stuck on the outer side of the rubber cushion block 81. For safety and energy saving, hollow toughened laminated glass is adopted on the top surface of the corridor outer wall.

As shown in fig. 2 and 8, the double-layer glass plates 2 which are positioned at the bottom of the glass gallery and are adjacent left and right are spliced left and right through the bottom surface auxiliary frame assembly 6; each group of bottom surface auxiliary frame assembly 6 comprises two mirror-image opposite bottom surface auxiliary frames 61, each bottom surface auxiliary frame 61 is provided with a T-shaped fixed end 7 connected to the corresponding position of the corridor framework, and connecting plates 71 of the two T-shaped fixed ends 7 of each group of bottom surface auxiliary frame assembly 6 are connected to the bottom of the corridor framework 1 and two sides of an adapter 11 at the left and right splicing position of the double-layer glass plate; the adjacent ends of the T-shaped fixed ends 7 of the auxiliary frame assemblies 6 on the bottom of each group are respectively extended with L-shaped buckle plates 611, the L-shaped buckle plates 611 are buckled at the ends of the adjacent double-layer glass plates 2 at the bottom, so that the supporting effect is achieved, the safety performance of the bottom plates of the gallery is enhanced, rubber cushion blocks 81 are arranged between the L-shaped buckle plates 611 and the ends and the lower end faces of the double-layer glass plates 2 in a cushioning manner, and double-sided adhesive tapes 82 are adhered to the outer sides of the rubber cushion blocks 81. A sealing strip 9 is connected between the two bottom surface auxiliary frames 61 of each group of bottom surface auxiliary frame assemblies 6 to play a role in sealing. The bottom of the glass gallery is made of laminated toughened glass, so that the glass gallery is safe and reliable, and the dead weight is relatively reduced.

As shown in fig. 3-10, a saw tooth structure 711 is arranged on the connecting plate 71 of each T-shaped fixed end 7 in the upper corner auxiliary frame assembly 3, the lower corner auxiliary frame assembly 4, the side auxiliary frame assemblies 5 and the bottom auxiliary frame assembly 6 and far away from the adapter 11, a gasket 12 with a saw tooth structure is arranged on the outer side of the saw tooth structure, and saw teeth on the connecting plate 71 and the gasket 12 are meshed with each other; a rubber cushion block 81 is arranged between the inner side surface of each connecting plate 71 and the adapter 11 in a cushioning manner; the bolts 13 pass through the spacer 12, the connection plate 71, the rubber pad 81 and the adapter 11 to connect each other. The inner diameter of the first bolt hole 131 on the gasket 12, the rubber cushion block 81 and the adapter 11 is matched with the outer diameter of the screw of the bolt 13, and the inner diameter of the second bolt hole 132 on the connecting plate 71 is larger than the outer diameter of the screw of the bolt 13, namely the bolt 13 can move back and forth in the second bolt hole 132. During installation, the relative position relation between the T-shaped fixed end connecting plate 71 and the bolt 13 can be adjusted so as to adjust the front and back fixed positions of the double-layer glass plate, thereby ensuring the overall flatness of the glass gallery. After the installation is finished, the nuts of the bolts 13 are sealed by weather-resistant sealant 84, so that the inner side of the glass gallery plate is waterproof, and the open building appearance requirement of the glass gallery is met. A rubber cushion block 81 is arranged between the connecting plate 71 of the T-shaped fixed end and the double-layer glass plate 2 at the joint, and a double-sided adhesive tape 82 is stuck on the outer side of the rubber cushion block 81.

The first corner auxiliary frame 31, the second corner auxiliary frame 41, the side auxiliary frame 51 and the bottom auxiliary frame 61 are integrally formed by adopting aluminum alloy materials.

Claims (7)

1. A big cellular glass corridor curtain connection structure, its characterized in that: the glass gallery comprises at least one glass gallery unit (U) which is formed by mutually splicing, wherein each glass gallery unit (U) comprises a gallery skeleton (1) and double-layer glass plates (2) which are fixed on the outer side of the gallery skeleton (1) through an aluminum alloy auxiliary frame assembly; the auxiliary frame assembly comprises an upper corner auxiliary frame assembly (3), a lower corner auxiliary frame assembly (4) and a side auxiliary frame assembly (5); each group of upper corner auxiliary frame assembly (3) comprises two mirror-image opposite corner auxiliary frames (31), the corner auxiliary frames (31) are provided with T-shaped fixed ends (7) connected to corresponding positions of the gallery skeleton (1), inclined plates (311) which are matched with the end shapes of the double-layer glass plates (2) at the upper corners of the gallery skeleton and are provided with step structures extend out of the end parts of the T-shaped fixed ends (7), and the step structures of the corner auxiliary frames (31) are propped against the end parts of the double-layer glass plates (2) at the upper corners of the gallery skeleton; a sealing strip (9) is connected between the two corner auxiliary frames I (31); each group of lower corner auxiliary frame assembly (4) comprises a first mirror image opposite corner auxiliary frame (31) and a second mirror image opposite corner auxiliary frame (41), the second mirror image auxiliary frame (41) comprises a T-shaped fixed end (7) connected to a corresponding position of the gallery skeleton, and a corner-shaped inclined plate (411) which is provided with a ladder-shaped structure and is matched with the shape of the end part of the double-layer glass plate (2) at the lower corner of the gallery skeleton is extended from the end part of the T-shaped fixed end (7); the bottom end of the angular sloping plate (411) is provided with a supporting plate (4111) for supporting the double-layer glass plate (2) positioned on the bottom surface; a sealing strip (9) is connected between the first corner auxiliary frame (31) and the second corner auxiliary frame (41), and the ladder-shaped structure of the second corner auxiliary frame (41) is propped against the end part of the vertical double-layer glass plate (2) at the lower corner of the gallery skeleton; a gallery indoor ground is arranged between the gallery bottom surface and the gallery top surface of the gallery skeleton (1); double-layer glass plates (2) arranged on the side edges between the corridor top surface and the indoor ground and between the indoor ground and the corridor bottom surface of the corridor framework are spliced up and down through side auxiliary frame assemblies (5); the side auxiliary frame assembly (5) comprises mirror image opposite side auxiliary frames (51), each side auxiliary frame (51) is provided with a T-shaped fixed end (7) connected to a corresponding position of the corridor framework, adjacent ends of the T-shaped fixed ends (7) are extended with pinch plates (511) parallel to the end faces of the double-layer glass plates (2), and the pinch plates (511) are buckled on side ends of the double-layer glass plates (2) located on the upper side and the lower side; a sealing strip (9) is connected between the two side auxiliary frames (51); the large-cell glass gallery curtain wall connecting structure comprises two or more glass gallery units (U) which are spliced left and right; adjacent double-layer glass plates (2) positioned on the top surface and the side surface of the corridor framework are spliced left and right through the side surface auxiliary frame assembly (5); the adjacent double-layer glass plates (2) positioned on the bottom surface of the corridor framework are spliced left and right through a bottom surface auxiliary frame assembly (6); a foam rod (83) is arranged between the two side auxiliary frames (51) of the side auxiliary frame assembly (5) positioned on the top surface, and weather-proof sealant (84) is smeared on the outer side of the foam rod (83); the bottom surface auxiliary frame assembly (6) comprises two mirror image opposite bottom surface auxiliary frames (61), each bottom surface auxiliary frame (61) is provided with a T-shaped fixed end (7) connected to a corresponding position of the corridor framework, adjacent ends of the T-shaped fixed ends (7) of the two bottom surface auxiliary frames (61) are respectively extended with an L-shaped pinch plate (611), and the L-shaped pinch plates (611) are buckled at the ends of the adjacent double-layer glass plates (2) positioned on the bottom surface; a sealing strip (9) is connected between the two bottom auxiliary frames (61).

2. The large-cell glass gallery curtain wall connection structure as claimed in claim 1, wherein: the connecting plate (71) of each T-shaped fixed end (7) of the upper corner auxiliary frame assembly (3) or the lower corner auxiliary frame assembly (4) is connected to the adapter (11) at the corresponding position of the gallery skeleton (1); each group of connecting plates (71) of the side auxiliary frame assembly (5) or the bottom auxiliary frame assembly (6) is connected to two sides of the adapter (11) at the corresponding position of the corridor framework (1); the outer side surface of the connecting plate (71) is provided with a sawtooth structure (711), the outer side surface of the connecting plate is attached with a gasket (12) with a sawtooth structure, and the sawtooth structure and the gasket are meshed with each other; a rubber cushion block (81) is arranged between the inner side surface of each connecting plate (71) and the adapter (11); the gasket (12), the connecting plate (71), the rubber cushion block (81) and the adapter (11) are connected through bolts (13); the inner diameter of a first bolt hole (131) on the gasket (12), the rubber cushion block (81) and the adapter (11) is matched with the outer diameter of a screw rod of the bolt (13), the inner diameter of a second bolt hole (132) on the connecting plate (71) is larger than the outer diameter of the screw rod of the bolt (13), and the connecting plate can move back and forth relative to the screw rod of the bolt (13).

3. The large-cell glass gallery curtain wall connection structure as claimed in claim 2, wherein: a rubber cushion block (81) is arranged between the T-shaped fixed end (7) or the step-shaped structure of the upper corner auxiliary frame assembly (3) or the step-shaped structure of the lower corner auxiliary frame assembly (4) or the buckle plate (511) of the side auxiliary frame assembly (5) or the contact surface of the L-shaped buckle plate (611) of the bottom auxiliary frame assembly (6) and the double-layer glass plate (2); the outer side of the rubber cushion block (81) is adhered with a double-sided adhesive tape (82).

4. The large-cell glass gallery curtain wall connection structure as claimed in claim 2, wherein: a sealed foam rod (83) is arranged between the upper corner auxiliary frame assemblies (3) and between the side auxiliary frame assemblies (5) positioned at the top of the gallery skeleton (1), and the outer side of the foam rod (83) is filled with sealant (84); and sealing glue (84) is smeared at the positions of the nuts and the gaskets (12) of the bolts (13).

5. The large-cell glass gallery curtain wall connection structure as claimed in claim 1, wherein: a 7-shaped stainless steel water-covering plate (10) is adhered to the top of the double-layer glass plate (2) positioned on the side surface of the glass corridor unit (U); a rubber cushion block (81) and a double-sided adhesive tape (82) are arranged between the water-coating plate (10) and the double-layer glass plate (2) in a cushioning mode, and sealing glue (84) is filled at the top of the water-coating plate.

6. The large-cell glass gallery curtain wall connection structure as claimed in claim 5, wherein: the double-layer glass plate (2) positioned on the top surface of the corridor framework (1) is made of hollow toughened laminated glass.

7. The large-cell glass gallery curtain wall connection structure as claimed in claim 1, wherein: the double-layer glass plate (2) positioned on the bottom surface of the corridor framework (1) is made of laminated toughened glass.