CN117822783B - Glass curtain wall structure and green energy-saving glass curtain wall system - Google Patents

Abstract

The invention relates to the technical field of glass curtain walls, in particular to a glass curtain wall structure and a green energy-saving glass curtain wall system. The glass curtain wall structure comprises a horizontal buckle cover and a vertical buckle cover, wherein the horizontal buckle cover comprises a first female die and a first male die, and an ash sealing mechanism, a watertight mechanism and an air sealing mechanism are arranged in the horizontal buckle cover. A first supporting plate is arranged in the first female die, and a first mounting groove is formed in the first supporting plate. The watertight mechanism comprises a watertight frame, the upper side surface of the watertight frame is obliquely arranged, and the upper side of the watertight frame is arranged in the first mounting groove. Through the watertight frame that the slope set up, when getting into liquid in the first mounting groove, the slope of the upside of watertight frame sets up for liquid is discharged more easily. The invention provides a glass curtain wall structure and a green energy-saving glass curtain wall system, which are used for solving the problem that partial water cannot be discharged due to water inflow at the adjacent glass joints of the existing glass curtain wall under certain extreme conditions.

Description

Glass curtain wall structure and green energy-saving glass curtain wall system

Technical Field

The invention relates to the technical field of glass curtain walls, in particular to a glass curtain wall structure and a green energy-saving glass curtain wall system.

Background

The glass curtain wall is a building outer enclosure structure or a decorative structure which is characterized in that a supporting structure system can have certain displacement capacity relative to a main structure and does not share the action of the main 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.

The green energy saving means that energy saving technology and measures are adopted in the aspects of production, life, construction and the like, so that the energy consumption and pollutant emission are reduced, and the purposes of protecting the environment and saving resources are achieved. The power generation of the glass curtain wall can adapt to different illumination intensities and angles and is not influenced by the orientation and shielding of a building. Is a great development area of green construction, and then the safety of the inside power cables is a challenge because the cellular glass curtain wall is not a completely sealed environment with the outside.

If the Chinese patent with the publication number of CN101624851B provides a unit curtain wall, the joint of the upper unit component and the lower unit component of the unit curtain wall is provided with a spliced flashing board, one end of the spliced flashing board extends into the joint of the left unit and the right unit, water at the cross joint can be guided, and the problem of water leakage at the cross joint of the unit curtain wall is solved. However, the water inlet of the flashing board under certain extreme conditions can cause that part of water cannot be discharged, so that the operation safety of the whole power generation curtain wall system is affected.

Disclosure of Invention

The invention provides a glass curtain wall structure and a green energy-saving glass curtain wall system, which are used for solving the problems that partial water cannot be removed due to water inflow at the adjacent glass joints of the existing glass curtain wall under certain extreme conditions, so that the operation safety of the whole power generation curtain wall system is affected.

The invention relates to a glass curtain wall structure and a green energy-saving glass curtain wall system, which adopt the following technical scheme: a glass curtain wall structure comprises a plurality of pieces of multi-layer glass, and a horizontal buckle cover and a vertical buckle cover which are arranged between curtain wall layers and used for clamping glass edges.

The multilayer glass is vertical to be set up, along vertical direction, the level buckle closure sets up between two adjacent multilayer glass, and the level buckle closure includes first master model and first public mould, and first master model is installed in the downside that is in the multilayer glass of upside, and first public mould is installed in the upside that is in the multilayer glass of downside, and first master model and first public mould lock from top to bottom. And the multiple layer glass is arranged on one side of the horizontal buckle cover, and the direction of the multiple layer glass along the horizontal direction is a first direction. The horizontal buckle cover is internally provided with an ash sealing mechanism, a watertight mechanism and an air sealing mechanism, the ash sealing mechanism, the watertight mechanism and the air sealing mechanism are sequentially arranged in the horizontal buckle cover along a second direction, the second direction is a horizontal direction, and the second direction is perpendicular to the first direction. The ash density mechanism is arranged on one side, close to the multi-layer glass, of the first female die and the first male die, and is used for blocking dust.

A first supporting plate is arranged in the first female die, the first supporting plate is arranged vertically, the first supporting plate is arranged along the first direction, a first mounting groove is formed in the first supporting plate, and the first mounting groove is arranged along the first direction. The watertight mechanism is arranged at the first supporting plate and is used for connecting the first female die and the first male die. The watertight mechanism comprises a watertight frame, the watertight frame is arranged along a first direction, the upper side of the watertight frame is arranged in the first mounting groove, the upper side face of the watertight frame is obliquely arranged, one side of the watertight frame is higher than the other side of the watertight frame along the first direction, and the lower side of the watertight frame is connected with the first male die. The airtight mechanism is used for blocking gas.

The vertical buckle cover comprises a second female die and a second male die, the second female die and the second male die are sequentially arranged along the first direction, and the second female die and the second male die are mutually buckled.

Further, a first transverse plate is arranged in the first male die, the first transverse plate is arranged along the second direction, and a connecting groove is formed in the first transverse plate and is arranged along the first direction. The downside of watertight frame is provided with the connection folded plate, and the connection folded plate sets up in the spread groove, and connection folded plate and first diaphragm junction are provided with first sealant.

Two adhesive tape grooves are formed in the upper side of the watertight frame, and the two adhesive tape grooves are distributed on two sides of the watertight frame along the second direction. The adhesive tape groove is arranged along the first direction, and the adhesive tape groove is parallel to the upper side surface of the watertight frame. The watertight mechanism further comprises two first watertight adhesive tapes, each first watertight adhesive tape is arranged in one adhesive tape groove respectively, and the first watertight adhesive tapes are used for propping against the inner wall of the first mounting groove.

Further, the first transverse plate is obliquely arranged, and along the second direction, one side of the first transverse plate, which is far away from the multi-layer glass, is higher than one side of the first transverse plate, which is close to the multi-layer glass.

Further, a water outlet is formed in the first supporting plate and is positioned on one side of the watertight frame, which is low.

Further, the dust seal mechanism comprises a first dust seal adhesive tape and a second dust seal adhesive tape. The first female die is provided with the upper cover plate on one side close to the multiple-layer glass, and the first dust seal adhesive tape is arranged on the lower side face of the upper cover plate and along the first direction. The first public mould is close to multilayer glass's one side and is provided with the apron down, and the second dust seal adhesive tape sets up in the upside of apron down, and the second dust seal adhesive tape sets up along first direction. The first dust seal adhesive tape is abutted against the second dust seal adhesive tape. And the joint of the upper cover plate, the lower cover plate and the multi-layer glass is provided with cover plate sealant.

Further, the upper side of the laminated glass is abutted against the upper side surface of the upper cover plate, and the lower side of the laminated glass is abutted against the lower side surface of the lower cover plate. The multiple layer glass includes an outer glass and an inner glass, the outer glass being on a side remote from the horizontal clasp than the inner glass. A glass frame is arranged between the outer glass and the inner glass and along a first direction, and the glass frame is used for supporting the outer glass and the inner glass. Glass cement is arranged between the glass frame and the upper cover plate or the lower cover plate.

Further, along the second direction, a first sliding groove is formed in one side, away from the multiple-layer glass, of the first male die. The first chute is disposed along a first direction. The airtight mechanism comprises a first airtight adhesive tape, the first airtight adhesive tape is arranged in the first chute and is used for propping against one side, away from the multilayer glass, of the first female die.

Further, in the first master model, a space between the first support plate and the ash seal mechanism is a first pressure cavity. The space between the first support plate and the airtight mechanism is a second equal-pressure cavity.

Further, the vertical buckle cover is provided with a first sealing mechanism, a second sealing mechanism and a third sealing mechanism along the second direction in sequence. The first sealing mechanism is arranged on one side, close to the multi-layer glass, in the vertical buckle cover and comprises two third dust-tight adhesive tapes which are respectively and fixedly arranged on the second female die and the second male die and mutually contact.

And a second mounting groove and a third mounting groove are sequentially formed in the second female die along the second direction, the second mounting groove is close to the multilayer glass, and the second mounting groove and the third mounting groove are arranged along the vertical direction. And a second supporting plate and a third supporting plate are sequentially arranged on the second male die along the second direction, the second supporting plate and the third supporting plate are vertically arranged, the second supporting plate is arranged in the second mounting groove, and the third supporting plate is arranged in the third mounting groove.

The second sealing mechanism comprises a second watertight adhesive tape which is arranged on the second supporting plate and is used for propping against the second mounting groove. The third sealing mechanism comprises a second airtight adhesive tape, the second airtight adhesive tape is arranged on the third supporting plate, and the second airtight adhesive tape is used for propping against the third mounting groove.

The utility model provides a green energy-conserving glass curtain wall system, includes power generation system and glass curtain wall structure, and wherein power generation system includes photosensitive assembly and cable. The photosensitive component is arranged in the multi-layer glass, and the cable is arranged in the horizontal buckle cover and is used for being connected with the photosensitive component.

The beneficial effects of the invention are as follows: according to the glass curtain wall structure, through the watertight frame which is obliquely arranged, when liquid enters the first mounting groove, the upper side face of the watertight frame is obliquely arranged, so that the liquid is easier to drain out, and the liquid is prevented from accumulating in the first mounting groove and corroding the watertight frame.

Because the watertight frame is obliquely arranged, when the watertight frame is aligned with the first mounting groove, the butt joint mounting is easier. Because the first watertight adhesive tape is installed in the adhesive tape groove, the adhesive tape groove is obliquely arranged, and therefore the first watertight adhesive tape is obliquely arranged. When carrying out the butt joint on the horizontal direction, the difficult and adhesive tape groove of first watertight adhesive tape that the slope set up and first mounting groove take place relative movement and then improved sealed effect.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a glass curtain wall structure and a green energy-saving glass curtain wall system according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a glass curtain wall structure and a green energy-saving glass curtain wall system according to an embodiment of the present invention;

Fig. 3 is a schematic structural view of a watertight frame of a glass curtain wall structure according to an embodiment of the present invention when the watertight frame is not bent;

fig. 4 is a schematic structural view of a watertight frame of a glass curtain wall structure according to an embodiment of the present invention when the watertight frame needs to be bent;

Fig. 5 is a schematic structural view of a watertight frame of a glass curtain wall structure after bending according to an embodiment of the present invention;

Fig. 6 is a front view of a watertight frame of a glass curtain wall structure according to an embodiment of the present invention after bending;

fig. 7 is a side view of a watertight frame of a glass curtain wall structure after bending according to an embodiment of the present invention.

In the figure: 10. a multi-layer glass; 11. a glass sealing rubber strip; 12. cover plate sealant; 13. an upper cover plate; 14. a glass frame; 15. a lower cover plate; 16. a first dust seal adhesive tape; 17. glass cement; 19. a first airtight adhesive tape; 20. a watertight frame; 21. a first watertight strip; 22. a connecting groove; 23. a connecting folded plate; 24. a first sealant; 26. a cable; 27. a photosensitive component; 28. a first master mold; 281. a first support plate; 282. a first mounting groove; 29. a first male die; 291. a first cross plate; 31. a second dust seal adhesive tape; 201. a rubber strip groove; 202. a connecting plate; 203. dividing lines; 300. a first pressure chamber; 301. a second pressing cavity; 400. a dust seal line; 500. watertight line; 600. and (5) an airtight line.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, the glass curtain wall structure provided by the embodiment of the invention comprises a plurality of pieces of multi-layer glass 10, and a horizontal buckle cover and a vertical buckle cover which are arranged between curtain wall layers and are used for clamping edges of the multi-layer glass 10.

The multiple layer glass 10 is vertically arranged, along the vertical direction, a horizontal buckle cover is arranged between two adjacent multiple layer glass 10, the horizontal buckle cover comprises a first female die 28 and a first male die 29, the first female die 28 is arranged on the lower side of the multiple layer glass 10 on the upper side, the first male die 29 is arranged on the upper side of the multiple layer glass 10 on the lower side, and the first female die 28 and the first male die 29 are buckled up and down. And the multiple layer glass 10 is arranged at one side of the horizontal buckle cover, and the direction of the multiple layer glass 10 along the horizontal direction is the first direction. The glass bead 11 is provided at the gap between the multiple glass 10 and the first female mold 28 and at the gap between the multiple glass 10 and the first male mold 29.

The horizontal buckle cover is internally provided with an ash sealing mechanism, a watertight mechanism and an air sealing mechanism, the ash sealing mechanism, the watertight mechanism and the air sealing mechanism are sequentially arranged in the horizontal buckle cover along a second direction, the second direction is a horizontal direction, and the second direction is perpendicular to the first direction. An ash seal mechanism is provided on one side of the first female mold 28 and the first male mold 29 near the multiple layer glass 10, the ash seal mechanism being for blocking dust.

The first female die 28 is provided with a first support plate 281, the first support plate 281 is vertically arranged, the first support plate 281 is arranged along a first direction, the first support plate 281 is provided with a first mounting groove 282, and the first mounting groove 282 is arranged along the first direction. The watertight mechanism is arranged at the first supporting plate 281 and is used for connecting the first female die 28 and the first male die 29. The watertight mechanism includes a watertight frame 20, the watertight frame 20 is disposed along a first direction, an upper side of the watertight frame 20 is disposed in the first mounting groove 282, an upper side of the watertight frame 20 is disposed obliquely, along the first direction, one side of the watertight frame 20 is higher than the other side of the watertight frame 20, and a lower side of the watertight frame 20 is connected to the first male mold 29. The airtight mechanism is used for blocking gas.

The vertical buckle cover comprises a second female die and a second male die, the second female die and the second male die are sequentially arranged along the first direction, and the second female die and the second male die are mutually buckled. The first female mold 28 and the first male mold 29 are engaged, and the second female mold and the second male mold are engaged to complete the installation of the multiple-layer glass 10. The dust density mechanism blocks dust from entering the horizontal buckle cover, when the outside air pressure changes due to rainfall, part of liquid enters the first mounting groove 282, and the liquid is more easily discharged due to the inclined upper side of the watertight frame 20, so that the liquid is prevented from being accumulated in the first mounting groove 282, and the first watertight adhesive tape 21 is aged and damaged.

In the present embodiment, a first transverse plate 291 is disposed in the first male die 29, the first transverse plate 291 is disposed along the second direction, the first transverse plate 291 is provided with a connection groove 22, and the connection groove 22 is disposed along the first direction. The lower side of the watertight frame 20 is provided with a connection flap 23, the connection flap 23 is arranged in the connection groove 22, and the connection part of the connection flap 23 and the first transverse plate 291 is provided with a first sealant 24. The first sealant 24 serves to seal a gap between the connection flap 23 and the first transverse plate 291.

Two adhesive tape grooves 201 are formed in the upper side of the watertight frame 20, and the two adhesive tape grooves 201 are distributed on two sides of the watertight frame 20 along the second direction. The adhesive tape groove 201 is disposed along the first direction, and the adhesive tape groove 201 is parallel to the upper side of the watertight frame 20. The watertight mechanism further comprises two first watertight adhesive tapes 21, each first watertight adhesive tape 21 is respectively arranged in one adhesive tape groove 201, and the first watertight adhesive tapes 21 are used for propping against the inner wall of the first mounting groove 282. The first watertight gel 21 serves to seal a gap between the watertight frame 20 and the first mounting groove 282, and connects the watertight frame 20 and the first mounting groove 282.

In the present embodiment, the first transverse plate 291 is disposed obliquely, and in the second direction, the side of the first transverse plate 291 remote from the multiple layer glass 10 is higher than the side of the first transverse plate 291 close to the multiple layer glass 10. The first transverse plate 291 is inclined so that the liquid introduced into the first mounting groove 282 is discharged.

In this embodiment, the first support plate 281 has a water outlet, and the water outlet is located at a lower side of the watertight frame 20, and the water outlet is communicated with the vertical buckle cover. The liquid entering the first mounting groove 282 is discharged into the vertical buckle cover from the water outlet under the guidance of the watertight frame 20, and the liquid can be more easily discharged after entering the vertical buckle cover.

In the present embodiment, the dust sealing mechanism includes the first dust sealing strip 16 and the second dust sealing strip 31. The first mother die 28 is provided with an upper cover plate 13 on a side close to the laminated glass 10, the first dust-tight adhesive tape 16 is provided on a lower side surface of the upper cover plate 13, and the first dust-tight adhesive tape 16 is provided along the first direction. The first male mold 29 is provided with a lower cover plate 15 at a side close to the multiple-layered glass 10, and a second dust-tight adhesive tape 31 is provided at an upper side surface of the lower cover plate 15, the second dust-tight adhesive tape 31 being provided along a first direction. The first dust seal strip 16 and the second dust seal strip 31 are abutted against each other. The joint of the upper cover plate 13, the lower cover plate 15 and the multiple-layer glass 10 is provided with a cover plate sealant 12. The first and second dust sealing strips 16, 31 serve to block dust.

In the present embodiment, the multiple layer glass 10 on the upper side abuts against the upper side face of the upper cover plate 13. The laminated glass 10 on the lower side abuts against the lower side face of the lower cover plate 15. The multiple layer glass 10 includes an outer glass and an inner glass, the outer glass being on a side remote from the horizontal clasp cover than the inner glass. A glass frame 14 is disposed between the outer glass and the inner glass, the glass frame 14 being disposed along a first direction, the glass frame 14 being configured to support the outer glass and the inner glass. A glass cement 17 is arranged between the glass frame 14 and the upper cover plate 13 or the lower cover plate 15.

In the present embodiment, along the second direction, a first slide groove is formed on a side of the first male mold 29 away from the multiple layer glass 10. The first chute is disposed along a first direction. The airtight mechanism comprises a first airtight adhesive tape 19, wherein the first airtight adhesive tape 19 is arranged in the first chute, and the first airtight adhesive tape 19 is used for propping against one side, away from the multi-layer glass 10, of the first female die 28.

In the present embodiment, in the first master model 28, the space between the first support plate 281 and the soot density mechanism is the first isopipe 300. The space between the first support plate 281 and the air sealing mechanism is the second pressing chamber 301. The air pressure within the first and second isostatic chambers 300, 301 are both close to the ambient air pressure. When the external air pressure is changed due to rainfall, a pressure difference is generated between the external air pressure and the first pressure equalizing chamber 300, so that liquid enters the first pressure equalizing chamber 300 through the first and second airtight rubber strips 16 and 31, and most of the liquid is discharged out of the first pressure equalizing chamber 300 through the first and second airtight rubber strips 16 and 31 due to the inclined arrangement of the first transverse plate 291.

In this embodiment, the vertical buckle cover is provided with a first sealing mechanism, a second sealing mechanism, and a third sealing mechanism in order along the second direction. The first sealing mechanism is arranged on one side, close to the multi-layer glass 10, in the vertical buckle cover, and comprises two third dust-tight adhesive tapes which are respectively and fixedly arranged on the second female die and the second male die, the two third dust-tight adhesive tapes are mutually contacted, and the third dust-tight adhesive tapes are used for preventing dust from entering the vertical buckle cover.

A second mounting groove and a third mounting groove are sequentially formed in the second female die along the second direction, the second mounting groove is close to the multilayer glass 10, and the second mounting groove and the third mounting groove are arranged along the vertical direction. And a second supporting plate and a third supporting plate are sequentially arranged on the second male die along the second direction, the second supporting plate and the third supporting plate are vertically arranged, the second supporting plate is arranged in the second mounting groove, and the third supporting plate is arranged in the third mounting groove.

The second sealing mechanism comprises a second watertight adhesive tape which is arranged on the second supporting plate and is used for propping against the second mounting groove, and the second watertight adhesive tape is used for blocking liquid. The third sealing mechanism comprises a second airtight adhesive tape, the second airtight adhesive tape is arranged on the third supporting plate and is used for propping against the third mounting groove, and the second airtight adhesive tape is used for blocking gas.

An environment-friendly energy-saving glass curtain wall system comprises a power generation system and a glass curtain wall structure, wherein the power generation system comprises a photosensitive component 27 and a cable 26. The photosensitive assembly 27 is disposed in the multiple layer glass 10, and the cable 26 is disposed in the horizontal buckle cover and is used to connect with the photosensitive assembly 27. The photosensitive assembly 27 generates electricity by illumination.

The working process of the glass curtain wall structure comprises the following steps: the horizontal and vertical covers are first joined to the multiple glazing 10 to form a panel. The first female mold 28 is provided on the lower side of the laminated glass 10, and the first male mold 29 is provided on the upper side of the laminated glass 10.

In producing the watertight frame 20, the connection plate 202 shown in fig. 3 is produced by a hot extrusion apparatus of an aluminum profile, and then the connection plate 202 is cut according to a dividing line 203 shown in fig. 4. And then bending the cut connecting plates 202 to form the watertight frame 20 shown in fig. 5, wherein the upper side surface of the watertight frame 20 is obliquely arranged.

The watertight frame 20 is then installed into the first male mold 29, and then the first sealant 24 is applied to the junction of the watertight frame 20 and the first transverse plate 291. The unitized curtain wall is superior to the frame type curtain wall in that outdoor high altitude sealing glue is not needed, and construction safety can be greatly guaranteed. The dust seal mechanism forms a dust seal line 400 on the horizontal buckle cover for blocking dust, the watertight mechanism forms a watertight line 500 on the horizontal buckle cover for blocking liquid, and the airtight mechanism forms an airtight line 600 on the horizontal buckle cover.

When the plate is installed, the plate is moved downward first, so that the first female die 28 and the first male die 29 are buckled up and down. The watertight frame 20 is positioned in the first mounting groove 282, and the first watertight adhesive tape 21 abuts against the inner wall of the first mounting groove 282. Because the watertight frame 20 is obliquely disposed, the butt-joint installation is made easier when the watertight frame 20 and the first installation groove 282 are aligned. Then moving along the first direction, inserting in the horizontal direction, buckling the second female die with the second male die, arranging the second supporting plate in the second mounting groove, and arranging the third supporting plate in the third mounting groove.

Since the first watertight glue 21 is installed in the glue groove 201, the glue groove 201 is obliquely arranged, so the first watertight glue 21 is obliquely arranged. When the butt joint in the horizontal direction is performed, the first watertight adhesive tape 21 which is obliquely arranged is not easy to move relatively to the adhesive tape groove 201 and the first mounting groove 282, and thus the sealing effect is improved.

After the installation, the first dust seal adhesive tape 16 and the second dust seal adhesive tape 31 are abutted against each other, so that dust is prevented from entering the horizontal buckle cover. When the external air pressure is changed due to rainfall, a pressure difference is generated between the external air pressure and the first pressure equalizing chamber 300, so that liquid enters the first pressure equalizing chamber 300 through the first and second airtight rubber strips 16 and 31, and most of the liquid is discharged out of the first pressure equalizing chamber 300 through the first and second airtight rubber strips 16 and 31 due to the inclined arrangement of the first transverse plate 291. Because the liquid enters the first pressure equalizing cavity 300, a pressure difference is generated between the first pressure equalizing cavity 300 and the second pressure equalizing cavity 301, so that a small part of the liquid enters the first mounting groove 282 through the first watertight rubber strip 21, and the upper side face of the watertight frame 20 is obliquely arranged, so that the liquid is more easily discharged from the water outlet hole. Preventing liquid from accumulating in the first mounting groove 282 and further enabling the first watertight glue stripe 21 to age and damage, liquid discharged from the water outlet holes enters the vertical buckle cover and is discharged from the vertical buckle cover.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (9)

1. The utility model provides a glass curtain wall structure, includes a plurality of multiple glazing and sets up in the curtain interlaminar and be used for the horizontal buckle closure and the vertical buckle closure at centre gripping glass edge, its characterized in that:

The multi-layer glass is vertically arranged, a horizontal buckle cover is arranged between two adjacent multi-layer glass along the vertical direction, the horizontal buckle cover comprises a first female die and a first male die, the first female die is arranged on the lower side of the multi-layer glass on the upper side, the first male die is arranged on the upper side of the multi-layer glass on the lower side, and the first female die and the first male die are buckled up and down; the multilayer glass is arranged on one side of the horizontal buckle cover, and the direction of the multilayer glass along the horizontal direction is a first direction; the horizontal buckle cover is internally provided with an ash density mechanism, a watertight mechanism and an air density mechanism, the ash density mechanism, the watertight mechanism and the air density mechanism are sequentially arranged in the horizontal buckle cover along a second direction, the second direction is a horizontal direction, and the second direction is perpendicular to the first direction; the ash density mechanism is arranged on one side of the first female die and one side of the first male die, which are close to the multi-layer glass, and is used for blocking dust;

A first supporting plate is arranged in the first female die, the first supporting plate is vertically arranged, the first supporting plate is arranged along a first direction, a first mounting groove is formed in the first supporting plate, and the first mounting groove is arranged along the first direction; the watertight mechanism is arranged at the first supporting plate and is used for connecting the first female die and the first male die; the watertight mechanism comprises a watertight frame, the watertight frame is arranged along a first direction, the upper side of the watertight frame is arranged in the first mounting groove, the upper side face of the watertight frame is obliquely arranged, one side of the watertight frame is higher than the other side of the watertight frame along the first direction, and the lower side of the watertight frame is connected with the first male die; the airtight mechanism is used for blocking gas;

The vertical buckle cover comprises a second female die and a second male die, the second female die and the second male die are sequentially arranged along a first direction, and the second female die and the second male die are mutually buckled;

A first transverse plate is arranged in the first male die, the first transverse plate is arranged along the second direction, a connecting groove is formed in the first transverse plate, and the connecting groove is arranged along the first direction; the lower side of the watertight frame is provided with a connecting folded plate which is arranged in the connecting groove, and the joint of the connecting folded plate and the first transverse plate is provided with first sealant;

two adhesive tape grooves are formed in the upper side of the watertight frame and distributed on two sides of the watertight frame along the second direction; the adhesive tape groove is arranged along the first direction, and the adhesive tape groove is parallel to the upper side surface of the watertight frame; the watertight mechanism further comprises two first watertight adhesive tapes, each first watertight adhesive tape is arranged in one adhesive tape groove respectively, and the first watertight adhesive tapes are used for propping against the inner wall of the first mounting groove.

2. A glass curtain wall structure according to claim 1, wherein:

The first transverse plate is obliquely arranged, and along the second direction, one side, away from the multilayer glass, of the first transverse plate is higher than one side, close to the multilayer glass, of the first transverse plate.

3. A glass curtain wall structure according to claim 1, wherein:

and a water outlet is formed in the first supporting plate and is positioned on one side of the watertight frame, which is low.

4. A glass curtain wall structure according to claim 1, wherein:

The dust sealing mechanism comprises a first dust sealing adhesive tape and a second dust sealing adhesive tape; an upper cover plate is arranged on one side of the first female die, which is close to the multi-layer glass, a first dust seal adhesive tape is arranged on the lower side surface of the upper cover plate, and the first dust seal adhesive tape is arranged along a first direction; a lower cover plate is arranged on one side, close to the multi-layer glass, of the first male die, a second dust seal adhesive tape is arranged on the upper side surface of the lower cover plate, and the second dust seal adhesive tape is arranged along the first direction; the first dust seal adhesive tape is propped against the second dust seal adhesive tape; and the joint of the upper cover plate, the lower cover plate and the multi-layer glass is provided with cover plate sealant.

5. A glass curtain wall structure according to claim 4, wherein:

The multi-layer glass at the upper side is propped against the upper side surface of the upper cover plate, and the multi-layer glass at the lower side is propped against the lower side surface of the lower cover plate; the multi-layer glass comprises outer glass and inner glass, wherein the outer glass is positioned at one side far away from the horizontal buckle cover compared with the inner glass; a glass frame is arranged between the outer glass and the inner glass and is arranged along a first direction, and the glass frame is used for supporting the outer glass and the inner glass; glass cement is arranged between the glass frame and the upper cover plate or the lower cover plate.

6. A glass curtain wall structure according to claim 1, wherein:

Along the second direction, a first chute is formed on one side of the first male die, which is far away from the multi-layer glass; the first sliding groove is arranged along a first direction; the airtight mechanism comprises a first airtight adhesive tape, the first airtight adhesive tape is arranged in the first chute and is used for propping against one side, away from the multilayer glass, of the first female die.

7. A glass curtain wall structure according to claim 1, wherein:

in the first female die, the space between the first supporting plate and the ash density mechanism is a first pressure cavity; the space between the first support plate and the airtight mechanism is a second equal-pressure cavity.

8. A glass curtain wall structure according to claim 1, wherein:

The vertical buckle cover is sequentially provided with a first sealing mechanism, a second sealing mechanism and a third sealing mechanism along a second direction; the first sealing mechanism is arranged on one side, close to the multi-layer glass, in the vertical buckle cover and comprises two third dust-tight adhesive tapes which are respectively and fixedly arranged on the second female die and the second male die and mutually contact;

A second mounting groove and a third mounting groove are sequentially formed in the second female die along a second direction, the second mounting groove is close to the multi-layer glass, and the second mounting groove and the third mounting groove are arranged along a vertical direction; a second supporting plate and a third supporting plate are sequentially arranged on the second male die along a second direction, the second supporting plate and the third supporting plate are vertically arranged, the second supporting plate is arranged in a second mounting groove, and the third supporting plate is arranged in a third mounting groove;

The second sealing mechanism comprises a second watertight adhesive tape which is arranged on the second supporting plate and is used for propping against the second mounting groove; the third sealing mechanism comprises a second airtight adhesive tape, the second airtight adhesive tape is arranged on the third supporting plate, and the second airtight adhesive tape is used for propping against the third mounting groove.

9. A green energy-saving glass curtain wall system, comprising a power generation system and a glass curtain wall structure as claimed in any one of claims 1 to 8, characterized in that:

Wherein the power generation system comprises a photosensitive component and a cable; the photosensitive component is arranged in the multi-layer glass, and the cable is arranged in the horizontal buckle cover and is used for being connected with the photosensitive component.