CN217268478U - Water guide sealing building external enclosure system with glass as panel material - Google Patents

Abstract

The utility model discloses a water guide sealing building external enclosure system taking glass as panel material, which comprises a photovoltaic device, a longitudinal beam water guide mounting component, a steel secondary keel and a buckle cover; the longitudinal beam water guide mounting component comprises a main mounting part positioned at the top, a main supporting part positioned at the bottom of the main mounting part, and L-shaped water guide groove parts positioned at the bottom of the main supporting part and extending towards two sides; a limiting clamping groove is formed in the left end of the buckling part; one end of the buckle cover is attached to the top surface of the photovoltaic panel assembly at the left end, and the other end of the buckle cover is inserted into the limiting clamping groove of the buckling part to be matched and fastened; the main supporting part comprises a structure with a triangular cross section, and the top of the main supporting part is a plane; the longitudinal beam water guide mounting component also comprises a first sealing rubber mat, a second sealing rubber mat and a third sealing rubber mat; the outer enclosure system has the water guide function, meanwhile, the fastening and sealing functions are improved, and the waterproof effect of the system is guaranteed.

Description

Water guide sealing building external enclosure system taking glass as panel material

Technical Field

The utility model relates to a new forms of energy building technical field specifically is a water guide sealing building external enclosure system who uses glass as panel material.

Background

The solar energy belongs to green clean energy, and the reasonable and effective development of the solar energy becomes an important way for solving the energy crisis and relieving the climate change in China at the present stage. In the prior art, the building exterior protection system has various forms of building exterior protection technical solutions, which also include building exterior protection facilities using glass panels or glass panels with solar energy absorption function.

This kind of outer enclosure system often comprises the polylith panel, and adjacent polylith panel is whole at fossil fragments support the aforesaid and is laid the connection, but research discovers this kind of traditional outer enclosure system process loaded down with trivial details, consumes a large amount of work load again, and water-proof effects is not good moreover. For example, there are two main forms of keel supports in the prior art, which mainly include a steel structure keel support (see fig. 1) and an aluminum structure keel support (see fig. 2), and it is obvious that an outer enclosure system formed by the two types of keel supports has poor sealing and waterproof performance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a use glass to seal building outer containment system for water guide of panel material to solve the technical problem that above-mentioned background art pointed out.

In order to achieve the above object, the utility model provides a following technical scheme:

the embodiment of the utility model provides a water guide sealing building external protection system taking glass as a panel material, which comprises a photovoltaic device, a longitudinal beam water guide mounting component, a steel secondary keel and a buckle cover;

the photovoltaic device comprises a plurality of adjacently connected photovoltaic panel assemblies; longitudinal beam water guide mounting members are arranged at two longitudinal edges between any two adjacent transversely laid photovoltaic panel assemblies;

the longitudinal beam water guide mounting component comprises a main mounting part positioned at the top, a main supporting part positioned at the bottom of the main mounting part and L-shaped water guide groove parts positioned at the bottom of the main supporting part and extending towards two sides; the main mounting part comprises a vertical base plate part and a buckling part which is arranged at the top connecting point of the vertical base plate part and extends towards the lower right direction; a limiting clamping groove is formed in the left end of the buckling part; one end of the buckle cover is attached to the top surface of the photovoltaic panel assembly at the left end, and the other end of the buckle cover is inserted into the limiting clamping groove of the buckling part to be matched and fastened; the main supporting part comprises a structure with a triangular cross section, and the top of the main supporting part is a plane;

the longitudinal beam water guide mounting component also comprises a first sealing rubber gasket, a second sealing rubber gasket and a third sealing rubber gasket; the first sealing rubber gasket is arranged in a space between the top of the photovoltaic panel assembly at the left end and the bottom of the buckle cover; the second sealing rubber gasket is arranged among the buckling part, the photovoltaic panel assembly at the right end and the main supporting part; the third sealing rubber gasket is arranged between the bottom of the photovoltaic panel assembly at the left end and the left side of the top of the main supporting part of the longitudinal beam water guide mounting component;

the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the left side are provided with outwards extending base plate parts to form a structure part in a shape of 'C', and the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the right side are provided with outwards extending base plate parts to form a structure part in a shape of 'C';

the top of the structure part in the shape of the left side is used for supporting the transverse water chute formed by the steel secondary keels on the same side, and the bottom of the structure part is fixedly connected with the top of the main steel structure; the top of the 'shaped' structural part of the main steel structure on the right side is used for supporting the transverse water chute formed by the steel secondary keels on the same side, and the bottom of the main steel structure is fixedly connected with the top of the main steel structure.

Preferably, as one possible embodiment; the guide rail pressing block is an aluminum alloy guide rail pressing block.

Preferably, as one possible embodiment; the longitudinal beam water guide mounting component also comprises a first sealing rubber gasket; the first sealing rubber gasket is a cylindrical sealing rubber gasket; wherein, first sealed cushion sets up the space department between the bottom of the top of the photovoltaic board subassembly of left end and buckle closure.

Preferably, as one possible embodiment; the longitudinal beam water guide mounting component also comprises a second sealing rubber gasket; the second sealing rubber gasket comprises a first sealing part with a C-shaped cross section;

the inner cavity of the first sealing part is used for surrounding the end part of the photovoltaic panel assembly positioned at the right end, one end of the top of the first sealing part in the shape of the 'C' is arranged in the space between the buckling part and the top of the photovoltaic panel assembly positioned at the right end and is used for sealing the two, and one end of the bottom of the first sealing part in the shape of the 'C' is arranged in the space between the right side of the top of the main supporting part and the bottom of the photovoltaic panel assembly positioned at the right end and is used for sealing the two.

Preferably, as one possible embodiment; the second sealing gasket further comprises two V-shaped second sealing parts, and the two V-shaped second sealing parts are respectively connected to the inner side of one end of the top part and the inner side of one end of the bottom part of the C-shaped first sealing part.

Preferably, as one possible embodiment; the longitudinal beam water guide mounting component also comprises a third sealing rubber gasket; the third sealing rubber gasket comprises a sealing part with a semicircular cross section and a connecting part connected with the sealing part; the cross section of the connecting part is in an inverted T shape;

a groove which is convenient for the inverted T-shaped connecting part of the third sealing rubber gasket to be embedded and matched is also arranged on the left side of the top of the main supporting part;

the third sealing rubber gasket is arranged between the bottom of the photovoltaic panel assembly at the left end and the left side of the top of the main supporting part of the longitudinal beam water guide mounting component.

Preferably, as one possible embodiment; the sealing part of the third sealing rubber gasket is attached to the bottom of the photovoltaic panel assembly at the left end, and the inverted T-shaped connecting part of the third sealing rubber gasket is embedded into the groove at the left side of the top of the main supporting part to realize fastening.

Preferably, as one possible embodiment; the bottom border department that the horizontal guiding gutter that the steel secondary joist constitutes still is provided with the water conservancy diversion border that the inboard slope set up.

Compared with the prior art, the beneficial effects of the utility model are that:

the water guide sealing building external enclosure system with glass as a panel material comprises a photovoltaic device, a longitudinal beam water guide mounting component and a steel secondary keel; wherein the photovoltaic device comprises a plurality of adjacently connected photovoltaic panel assemblies; longitudinal beam water guide mounting members are arranged at two longitudinal edges between any two adjacent photovoltaic panel assemblies which are transversely laid;

the longitudinal beam water guide mounting component comprises a main mounting part positioned at the top, a main supporting part positioned at the bottom of the main mounting part, and L-shaped water guide groove parts positioned at the bottom of the main supporting part and extending towards two sides; the main mounting part comprises a vertical base plate part and a buckling part which is arranged at the top connecting point of the vertical base plate part and extends towards the lower right direction; a limiting clamping groove is formed in the left end of the buckling part; the main supporting part comprises a structure with a triangular cross section, and the top of the main supporting part is a plane; a limiting clamping groove is formed in the left end of the buckling part; one end of the buckle cover is attached to the top surface of the photovoltaic panel assembly at the left end, and the other end of the buckle cover is inserted into the limiting clamping groove of the buckling part to be matched and fastened;

the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the left side are provided with outwards extending base plate parts to form a structure part in a shape of 'C', and the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the right side are provided with outwards extending base plate parts to form a structure part in a shape of 'C'; the formation of the water guide groove is realized by matching the structure part in the shape of the "" or the [ ") with the L-shaped water guide groove part, and the effect of water guide and water flow isolation is realized at the same time, so that the extension of the water guide and water flow isolation is prevented from flowing onto the top plane of the main steel structure;

the main mounting part with the special shape can be in lap joint and fastening connection with each other through the buckle cover on one hand, and meanwhile, the vertical base plate part of the main mounting part positioned at the top of the main supporting part divides the sealing at the top of the main supporting part into sealing fastening at the left side and the right side;

the structural sealing rubber gaskets are designed correspondingly, so that the fastening and sealing among the main mounting part, the photovoltaic panel assembly, the main supporting part and other structures are realized, and the main waterproof function is improved; moreover, the embodiment of the application further realizes the water guide effect by designing the corresponding water guide structure, so that the auxiliary waterproof function is further realized, and the scheme is specifically realized that the top of the structural part in the shape of ' left side ' ] ' is used for supporting the transverse water guide groove formed by the steel secondary keels on the same side, and the bottom of the structural part is fixedly connected with the top of the main steel structure; the top of the 'shaped' structural part of the main steel structure on the right side is used for supporting the transverse water chute formed by the steel secondary keels on the same side, and the bottom of the transverse water chute is fixedly connected with the top of the main steel structure.

Drawings

FIG. 1 is a schematic view of a prior art steel keel support structure;

figure 2 is a schematic view of a prior art aluminum keel support structure;

fig. 3 is a schematic view of the overall structure of the water-guiding sealed building outer enclosure system with glass as a panel material according to the present invention;

fig. 4 is a schematic view of an assembly structure of a longitudinal beam water guide mounting member and a sealing rubber mat structure in a water guide sealing building external enclosure system using glass as a panel material according to the present invention;

fig. 5 is a schematic structural view of a longitudinal beam water guide installation member in a water guide sealing building outer enclosure system with glass as a panel material according to the present invention;

fig. 6 is a schematic structural view of a buckle cover in a water guide sealing building external protection system using glass as a panel material according to the present invention;

fig. 7 is a schematic structural view of a first sealing rubber gasket in a water guide sealing building external protection system using glass as a panel material according to the present invention;

fig. 8 is a schematic structural view of a second sealing rubber pad in a water-guiding sealing building external protection system using glass as a panel material according to the present invention;

fig. 9 is a schematic structural view of a third sealing rubber mat in the water guide sealing building outer envelope system with glass as a panel material according to the present invention;

fig. 10 is a schematic perspective view of a longitudinal beam water guide installation member in a water guide sealing building outer enclosure system with glass as a panel material according to the present invention.

Reference numbers: a photovoltaic panel assembly 10; a stringer water guide mounting member 20; a main mounting portion 21; a vertical substrate portion 210; a fastening portion 211; a limiting clamping groove 212; a main supporting portion 22; an L-shaped water guide chute section 23; an extension substrate portion 231; a first sealing rubber pad 24; a second sealing rubber gasket 25; the first seal portion 251; a second seal portion 252; a third sealing rubber gasket 26; a sealing portion 261; a connecting portion 262; a flow guiding edge 27; an aluminum secondary keel 30; a main steel structure 40; a buckle cover 50; an aluminum alloy briquette 60; self-tapping and self-drilling screws 70; a longitudinal water chute A; and a transverse water chute B.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 3, a water guiding sealing building exterior protection system using glass as a panel material according to a first embodiment of the present invention includes a photovoltaic device (the photovoltaic device includes a plurality of adjacent photovoltaic panel assemblies 10), a longitudinal beam water guiding installation member 20, an aluminum secondary keel 30, and a buckle cover 50 (see also fig. 6); referring to fig. 3, fig. 3 illustrates an assembly structure relationship between the outer protection system of the water guide sealing building using glass as a panel material and the main steel structure 40 in the present embodiment;

and longitudinal beam water guide mounting members 20 are arranged at two longitudinal edges between any two adjacent photovoltaic panel assemblies 10 which are transversely laid (mainly refer to fig. 4, 5 and 10);

the longitudinal beam water guide mounting component 20 comprises a main mounting part 21 positioned at the top, a main supporting part 22 positioned at the bottom of the main mounting part, and an L-shaped water guide groove part 23 positioned at the bottom of the main supporting part and extending towards two sides; the main mounting part 21 comprises a vertical base plate part 210 and a buckling part 211 which is arranged at the top connecting point of the vertical base plate part and extends towards the lower right direction; a limiting clamping groove 212 is formed in the left end of the buckling part; one end of the buckle cover 50 is attached to the top surface of the photovoltaic panel assembly at the left end, and the other end of the buckle cover 50 is inserted into the limiting clamping groove of the buckling part for matching and fastening; the main supporting part 22 comprises a structure with a triangular cross section, and the top of the main supporting part 22 is a plane;

the longitudinal beam water guide mounting component 20 further comprises a first sealing rubber gasket 24, a second sealing rubber gasket 25 and a third sealing rubber gasket 26; wherein, the first sealing rubber gasket 24 is arranged at the space between the top of the photovoltaic panel assembly at the left end and the bottom of the buckle cover; the second sealing rubber gasket 25 is arranged between the photovoltaic panel assembly 10 at the buckling part and the right end and the main supporting part 22; the third sealing rubber gasket 26 is arranged between the bottom of the photovoltaic panel assembly 10 at the left end and the top left side of the main supporting part 22 of the longitudinal beam water guide mounting member;

the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the left side are provided with outwardly extending base plate parts 231 to form a structure part in a shape of a [ ], and the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the right side (namely, the longitudinal water chute a) are provided with outwardly extending base plate parts 231 to form a structure part in a shape of a [ ];

wherein, the top of the structure part in the shape of the left side in the shape of the ']' is used for supporting the transverse water chute (namely the transverse water chute B) formed by the aluminum secondary keels 30 at the same side, and the bottom of the structure part is fixedly connected with the top of the main steel structure 40; the top of the 'shaped' structural part of the main steel structure 40 on the right side is used for supporting the transverse water chute formed by the aluminum secondary keels 30 on the same side, and the bottom of the transverse water chute is fixedly connected with the top of the main steel structure 40. Referring to fig. 4, the fig. 4 is a diagram illustrating an assembly structure of the longitudinal beam water guide installation component and the sealing rubber gasket structure, and meanwhile, aluminum alloy pressing blocks 60 are installed on two sides of the L-shaped water guide groove portion 23 of the longitudinal beam water guide installation component, and one side of the aluminum alloy pressing block 60 is fastened at the L-shaped water guide groove portion 23 and is longitudinally fastened through self-tapping self-drilling screws 70;

the water guide sealing building external enclosure system with glass as a panel material comprises a photovoltaic device, a longitudinal beam water guide mounting component, an aluminum secondary keel and a main steel structure; wherein the photovoltaic device comprises a plurality of adjacently connected photovoltaic panel assemblies; longitudinal beam water guide mounting members are arranged at two longitudinal edges between any two adjacent transversely laid photovoltaic panel assemblies;

the longitudinal beam water guide mounting component comprises a main mounting part positioned at the top, a main supporting part positioned at the bottom of the main mounting part and L-shaped water guide groove parts positioned at the bottom of the main supporting part and extending towards two sides; the main mounting part comprises a vertical base plate part and a buckling part which is arranged at the top connecting point of the vertical base plate part and extends towards the lower right direction; a limiting clamping groove is formed in the left end of the buckling part; the main supporting part comprises a structure with a triangular cross section, and the top of the main supporting part is a plane; a limiting clamping groove is formed in the left end of the buckling part; one end of the buckle cover is attached to the top surface of the photovoltaic panel assembly at the left end, and the other end of the buckle cover is inserted into the limiting clamping groove of the buckling part to be matched and fastened, so that a fastening connection matching mode is realized;

the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the left side are provided with outwards extending base plate parts to form a structure part in a shape of 'C', and the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the right side are provided with outwards extending base plate parts to form a structure part in a shape of 'C'; meanwhile, the formation of the water chute is realized by matching the structure part in the shape of the "" or the structure part in the shape of the [ ") with the L-shaped water chute part, and the effect of isolating water and current is realized, so that the extension of the water and the current is prevented from flowing into the top plane of the main steel structure; the main mounting part with the special shape can be in lap joint and fastening connection with each other through the buckle cover on one hand, and meanwhile, the vertical base plate part of the main mounting part positioned at the top of the main supporting part divides the sealing at the top of the main supporting part into sealing fastening at the left side and the right side;

the structural sealing rubber gaskets are designed correspondingly, so that the fastening and sealing among the main mounting part, the photovoltaic panel assembly, the main supporting part and other structures are realized, and the main waterproof function is improved; moreover, this application embodiment has still further realized the water guide effect through designing corresponding water guide structure, has further played supplementary waterproof function like this.

Referring to fig. 4 and 7, the first sealing rubber gasket 24 is a cylindrical sealing rubber gasket; the first sealing rubber gasket 24 is disposed at a space between the top of the photovoltaic panel assembly 10 at the left end and the bottom of the buckle cover.

In a specific technical solution of this embodiment, the first sealing rubber pad is a sealing rubber pad with a special shape structure, and the first sealing rubber pad is in a cylindrical shape, and can still maintain a certain cylindrical shape after being pressurized, so as to adapt to a sealing effect between the buckle cover and the photovoltaic panel assembly, and a primary sealing effect of the left-side photovoltaic panel assembly can be achieved through the sealing structure.

Referring to fig. 4 and 8, the stringer water guide mounting member 20 further includes a second sealing rubber gasket 25; the second sealing rubber pad 25 comprises a first sealing part 251 with a C-shaped cross section;

the inner cavity of the first sealing part is used for surrounding the end part of the photovoltaic panel assembly positioned at the right end, one end of the top of the first sealing part in the shape of the Chinese character 'C' is arranged in the space between the buckling part and the top of the photovoltaic panel assembly at the right end and is used for sealing the two (so as to realize the sealing function of the top of the photovoltaic panel assembly at the right end, namely the primary sealing of the right end), one end of the bottom of the first sealing part in the shape of the Chinese character 'C' is arranged in the space between the right side of the top of the main supporting part and the bottom of the photovoltaic panel assembly at the right end and is used for sealing the two (so as to realize the sealing function of the top of the photovoltaic panel assembly at the right end, namely the secondary sealing of the right end).

Referring to fig. 4 and 8, the second sealing rubber gasket 25 further includes two V-shaped second sealing portions 252 connected to the inside of the top end and the inside of the bottom end of the C-shaped first sealing portion, respectively.

In a specific technical solution of this embodiment, the V-shaped second sealing portion is used to cooperate with the first sealing portion to further seal the second sealing rubber gasket.

Referring to fig. 9, the stringer water guide mounting member 20 further includes a third sealing rubber gasket 26; the third sealing rubber gasket 26 comprises a sealing part 261 with a semicircular cross section and a connecting part 262 connected with the sealing part; the cross section of the connecting part 262 is in an inverted T shape;

a groove which is convenient for the inverted T-shaped connecting part of the third sealing rubber gasket to be embedded and matched is also arranged on the left side of the top of the main supporting part; the third sealing rubber gasket is arranged between the bottom of the photovoltaic panel assembly 10 at the left end and the top left side of the main supporting part of the longitudinal beam water guide mounting member 20 (i.e. the secondary sealing function of the photovoltaic panel assembly at the left end is realized).

It should be noted that the semicircular sealing portion of the third sealing rubber gasket is attached to the bottom of the photovoltaic panel assembly 10 to achieve a sealing effect, and meanwhile, the inverted T-shaped connecting portion of the third sealing rubber gasket is embedded into the groove on the left side of the top of the main supporting portion to achieve fastening, so that the sealing function of the third sealing rubber gasket on the space between the bottom of the photovoltaic panel assembly 10 and the left side of the top of the longitudinal beam water guide mounting member 20 can be achieved through the above structural design.

Referring to fig. 9, the sealing portion 261 of the third sealing rubber gasket 26 is attached to the bottom of the photovoltaic panel assembly 10 at the left end, and the inverted T-shaped connecting portion of the third sealing rubber gasket is inserted into the groove at the top left side of the main supporting portion for fastening.

In a specific technical solution of this embodiment, the third sealing cushion includes a sealing portion having a semicircular cross section and a connecting portion connected to the sealing portion; the cross section of the connecting part is in an inverted T shape and is embedded into a groove on the left side of the top of the main supporting part to form the fastening installation and the tight sealing of a third sealing rubber gasket.

Referring to fig. 3, a flow guiding edge 27 inclined inward is further disposed at the bottom edge of the transverse water guiding groove formed by the aluminum secondary joist.

It should be noted that the diversion edge can conduct rainwater diversion on the bottom edge of the transverse water chute, so that rainwater is prevented from extending to other places.

To sum up, the water guide sealing building outer enclosure system with glass as panel material that this application embodiment provided, its mounting structure is simple, has water guide structural design simultaneously to the combination has formed multiple sealed cushion structure (has reinforceed sealing performance), and the firm leakproofness of mill group frame is good, reduces the process of installation seal structure during subsequent construction, and above-mentioned outer enclosure system has overcome the technical defect that points out among the prior art.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. Use glass as the water guide of panel material and seal building external enclosure system, its characterized in that: the photovoltaic device comprises a photovoltaic device, a longitudinal beam water guide mounting component, a steel secondary keel and a buckle cover;

the photovoltaic device comprises a plurality of adjacently connected photovoltaic panel assemblies; longitudinal beam water guide mounting members are arranged at two longitudinal edges between any two adjacent photovoltaic panel assemblies which are transversely laid;

the longitudinal beam water guide mounting component comprises a main mounting part positioned at the top, a main supporting part positioned at the bottom of the main mounting part and L-shaped water guide groove parts positioned at the bottom of the main supporting part and extending towards two sides; the main mounting part comprises a vertical base plate part and a buckling part which is arranged at the top connecting point of the vertical base plate part and extends towards the lower right direction; a limiting clamping groove is formed in the left end of the buckling part; one end of the buckle cover is attached to the top surface of the photovoltaic panel assembly at the left end, and the other end of the buckle cover is inserted into the limiting clamping groove of the buckling part to be matched and fastened; the main supporting part comprises a structure with a triangular cross section, and the top of the main supporting part is a plane;

the longitudinal beam water guide mounting component also comprises a first sealing rubber gasket, a second sealing rubber gasket and a third sealing rubber gasket; the first sealing rubber gasket is arranged in a space between the top of the photovoltaic panel assembly at the left end and the bottom of the buckle cover; the second sealing rubber gasket is arranged among the buckling part, the photovoltaic panel assembly at the right end and the main supporting part; the third sealing rubber gasket is arranged between the bottom of the photovoltaic panel assembly at the left end and the left side of the top of the main supporting part of the longitudinal beam water guide mounting component;

the top and the bottom of the outer side plate of the L-shaped water chute part positioned on the left side are provided with extending substrate parts extending outwards to form structural parts in a shape of' [ ];

the top of the structure part in the shape of the left side is used for supporting the transverse water chute formed by the steel secondary keels on the same side, and the bottom of the structure part is fixedly connected with the top of the main steel structure; the top of the 'shaped' structural part of the main steel structure on the right side is used for supporting the transverse water chute formed by the steel secondary keels on the same side, and the bottom of the main steel structure is fixedly connected with the top of the main steel structure.

2. The water conducting sealing building envelope system of claim 1, wherein: the first sealing rubber gasket is a cylindrical sealing rubber gasket.

3. The water conducting sealing building envelope system of claim 1, wherein: the second sealing rubber gasket comprises a first sealing part with a C-shaped cross section;

the inner cavity of the first sealing part is used for surrounding the end part of the photovoltaic panel assembly positioned at the right end, and one end of the top of the C-shaped first sealing part is arranged in a space between the buckling part and the top of the photovoltaic panel assembly at the right end and is used for sealing the buckling part and the photovoltaic panel assembly; one end of the bottom of the C-shaped first sealing part is arranged in the space between the right side of the top of the main supporting part and the bottom end of the photovoltaic panel assembly at the right end for sealing the two.

4. The water conducting sealing building enclosure system with glass as panel material of claim 3, wherein: the second sealing gasket further comprises two V-shaped second sealing parts, and the two V-shaped second sealing parts are respectively connected to the inner side of one end of the top part and the inner side of one end of the bottom part of the C-shaped first sealing part.

5. The water conducting sealing building envelope system of claim 1, wherein: the third sealing rubber gasket comprises a sealing part with a semicircular cross section and a connecting part connected with the sealing part; the cross section of the connecting part is in an inverted T shape;

and a groove which is convenient for the inverted T-shaped connecting part of the third sealing rubber gasket to be embedded and matched is further arranged on the left side of the top of the main supporting part.

6. The water guide sealing building envelope system with glass as panel material of claim 5, wherein: the sealing part of the third sealing rubber gasket is attached to the bottom of the photovoltaic panel assembly at the left end, and the inverted T-shaped connecting part of the third sealing rubber gasket is embedded into the groove at the left side of the top of the main supporting part to realize fastening.

7. The water conducting sealing building envelope system of claim 1, wherein: the bottom border department that the horizontal guiding gutter that the steel secondary joist constitutes still is provided with the water conservancy diversion border that the inboard slope set up.

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