CN112031282A - Waterproof system suitable for double glass assembly BIPV - Google Patents

Abstract

The invention provides a waterproof system suitable for a double-glass assembly BIPV, which comprises: the roof comprises a plurality of double-glass assemblies, a ridge cover plate, a cover plate connecting piece, an assembly cover plate, a side plate, a drainage channel, a water guide channel, a side pressing block, a middle pressing block and purlines; the double-glass assembly comprises a plurality of double-glass assemblies with different sizes; the ridge cover plates are sequentially arranged at the junction of the two slope surfaces; the cover plate connecting piece is arranged at the junction of the two adjacent ridge cover plates; the drainage grooves are arranged at the edges and the middle positions of two slope surfaces formed by the double-glass assembly and are perpendicular to the length direction of the ridge cover plate; the assembly cover plate is perpendicular to the length direction of the ridge cover plate and is arranged right above the two adjacent double-glass assemblies; the water chute is used for connecting two adjacent double-glass assemblies; the side plates are respectively arranged at the edges of two ends of a slope composed of the double-glass assembly. The invention has simple design and high sealing performance, and can effectively prevent water and drain water by utilizing a structural system.

Description

Waterproof system suitable for double glass assembly BIPV

Technical Field

The invention relates to the technical field of double-glass assembly BIPV, in particular to a waterproof system suitable for the double-glass assembly BIPV.

Background

At present, the utilization of energy is highly regarded in all countries of the world, and the utilization of renewable energy has been developed in a lot of importance. Solar energy is not only an important renewable energy source but also a clean energy source available everywhere. The application of solar energy to the field of buildings has long been known, and Building Integrated Photovoltaic (PV) is a technology for applying solar Photovoltaic products to buildings. BIPV is the integration of solar photovoltaic products on the periphery of buildings, such as photovoltaic tile roofs, photovoltaic curtain walls, and photovoltaic daylighting roofs. It is a common practice to integrate photovoltaic products with building enclosures, particularly building roofing.

The dual-glass assembly is a photovoltaic cell assembly commonly used by BIPV, and in short, the dual-glass assembly is a photovoltaic cell assembly formed by combining two pieces of glass and a solar cell piece, wherein lead wires are connected in series and in parallel between the cell pieces and are converged to a lead terminal. Different from the common assembly used by the traditional BIPV, the double-glass assembly is far thinner than the common assembly in thickness. The fixing mode and the waterproof system for the dual-glass assembly are different from the original common assembly.

BIPV is the integration of photovoltaic products to the building periphery, and the deformation resistance and the waterproof effect of the structural system of BIPV are important influence factors of the service life. Still have some components to rely on among the waterproof system of current BIPV to beat and glue for life and water-proof effects can't guarantee, and connection structure is complicated, and the construction degree of difficulty is big, and the cost is high, and the construction cycle is long.

Disclosure of Invention

The invention provides a waterproof system suitable for a double-glass assembly BIPV, which can effectively solve the problems.

The invention is realized by the following steps:

a waterproof system suitable for dual glass assembly BIPV includes:

the roof comprises a plurality of double-glass assemblies, a ridge cover plate, a cover plate connecting piece, an assembly cover plate, a side plate, a drainage channel, a water guide channel, a side pressing block, a middle pressing block and purlines;

the dual-glass components are sequentially arranged and combined to form two bilaterally symmetrical slope surfaces;

the ridge cover plates are sequentially arranged at the junction of two slope surfaces formed by the double-glass assembly and used for covering gaps of the slope surfaces;

the cover plate connecting piece is arranged at the junction of the two adjacent ridge cover plates;

the drainage groove is perpendicular to the length direction of the ridge cover plate, is arranged at the edge and the middle position of two slope surfaces formed by the double-glass assembly, and is specifically positioned right below one end of the double-glass assembly and right below the joint of two adjacent double-glass assemblies;

the assembly cover plate is perpendicular to the length direction of the ridge cover plate and is arranged right above the two adjacent double-glass assemblies;

the water guide groove is parallel to the length direction of the ridge cover plate and is used for connecting the two adjacent double-glass assemblies, and two ends of the water guide groove are respectively supported on the drainage groove;

the side plates are perpendicular to the length direction of the ridge cover plate and are respectively arranged on the edges of two ends of a slope formed by the double-glass assembly.

As a further improvement, the shape of the cover plate connecting piece is adapted to the ridge cover plate, and a rubber waterproof material is filled between the cover plate and the cover plate connecting piece.

As a further improvement, the water chute comprises a T-shaped baffle, a water tank and a rubber sheet which are integrally formed, and the water tank is integrally connected with the T-shaped baffle and is divided into two water tanks with different sizes by the T-shaped baffle; the rubber sheet is attached to the junction of the flange and the web plate on one side of the T-shaped baffle.

As a further improvement, the dual-glass assembly is supported above the side edge of the water tank and below the flange of the T-shaped baffle, and the edge of the dual-glass assembly is in contact with the web of the T-shaped baffle.

As a further improvement, the drainage channel comprises a drainage channel mounting seat and a drainage channel supporting seat, and two sides of the drainage channel mounting seat are used for draining water.

As a further improvement, the side plate comprises a clamping edge and a side plate water tank, and the side plate is fixed on the drainage tank supporting seat by a self-tapping screw on a bottom plate of the side plate water tank.

As a further improvement, the side press block comprises a side press block clamping part, a side plate clamping part and a side press block mounting seat; the side pressure block mounting seat is mounted on the drainage groove supporting seat, the upper edge and the lower edge of the side pressure block clamping part are composed of rubber blocks and used for clamping the double-glass assembly, and the side plate clamping part is used for clamping the clamping edges.

As a further improvement, the combined cover plate is an integrally formed arc-shaped cover plate, and two strip-shaped mounting heads are arranged on the arc-shaped inner side of the combined cover plate.

As a further improvement, two strip-shaped mounting seats are arranged at the top end of the middle pressure block and used for mounting the strip-shaped mounting heads; two bilaterally symmetrical middle press block clamping parts are arranged at the upper part of the middle press block, wherein a rubber block is arranged for clamping the edge of the double-glass assembly; and the lower part of the middle pressing block is provided with a middle pressing block mounting seat which is used for mounting the water drainage tank mounting seat.

As a further improvement, the drainage channel is mounted above the purlin.

The invention has the beneficial effects that:

one is as follows: the invention adopts the form of the ridge cover plate and the cover plate connecting piece, and the ridge cover plate and the cover plate connecting piece are filled with the rubber waterproof material, so that the structure form is simple, the installation is convenient by using the self-tapping screw, the waterproofness of the joint of the ridge cover plate is greatly enhanced, the gluing is avoided, and the durability is good;

the second step is as follows: the transverse water chute is arranged, so that the transverse connecting seams of the double-glass assembly are effectively connected, and the rubber sheets in the water chute effectively prevent rainwater which slides down on the slope surface of the double-glass assembly, so that the rainwater which permeates into the water chute can flow into the drainage channel along the water chute and then flow out of the system;

and thirdly: according to the invention, the assembly cover plate is arranged above the connecting seam of the longitudinal dual-glass assembly, the assembly cover plate is clamped into the middle pressing block, the middle pressing block is arranged on the drainage groove below the middle pressing block, the whole structure is stable, the drainage effect of the drainage groove is obvious, and water flowing into the drainage groove in the dual-glass assembly can be drained out of the system in time;

fourthly, the method comprises the following steps: according to the invention, the arrangement of the side plates enables water flow at the edge of the whole system to directly flow out along the side plate water tank, the side edges of the side plates are higher than the slope, the water flow is effectively prevented from overflowing out of the system, the side plates are clamped in the side pressing blocks, the side pressing blocks simultaneously clamp the dual-glass assembly, and the infiltrated rainwater enters the drainage channel below the side pressing blocks and is discharged out of the system;

and fifthly: the double-glass-component BIPV waterproof system has the advantages that the waterproof effect is achieved by reasonably matching the structural system, the arrangement of the side plates, the side pressing blocks, the middle pressing blocks, the water guide grooves, the drainage grooves, the cover plate connecting pieces and other components enables the whole system to be stronger in airtightness, tighter in connection and high in structural stability, the reasonable matching of the structural system can be used for effectively preventing water and water from being drained, and dust can be effectively prevented from entering the system.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is an exploded view of a waterproof system for a dual glass assembly BIPV according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a middle pressure block of a waterproof system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 3 is a schematic side press block diagram of a waterproof system for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 4 is a schematic diagram of a cover plate connector of a waterproof system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a water chute of a waterproof system for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 6 is a sectional view of a gutter of a waterproofing system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 7 is a cross-sectional view of an edge panel of a waterproofing system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

Fig. 8 is a sectional view of a drain tank of a waterproofing system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 9 is a cross-sectional view of a combination cover plate of a waterproofing system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 10 is a perspective view of a side pressure block of a waterproofing system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

Fig. 11 is a perspective view of a middle press block of a waterproof system suitable for a dual glass assembly BIPV according to an embodiment of the present invention.

FIG. 12 is a diagram illustrating a waterproof system for a dual glass assembly BIPV according to an embodiment of the present invention.

The figures in the drawings are identified as: 10. a dual glass assembly; 20. a ridge cover plate; 30. a cover plate connecting member; 40. a component cover plate; 41. a bar-shaped mounting head; 50. a side plate; 51. clamping edges; 52. a sideboard sink; 60. a water discharge tank; 61. a drain tank mounting seat; 62. a supporting seat of the drainage channel; 63. a leg; 70. a water chute; 71. T-shaped baffle plate; 72. a water tank; 73. a rubber sheet; 80. side pressing blocks; 81. a side press block clamping part; 82. a sideboard clamping part; 83. a side pressure block mounting seat; 90. pressing the blocks; 91. a strip-shaped mounting seat; 92. a middle pressure block clamping part; 93. a medium-voltage block mounting seat; 100. a purlin.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 12, an embodiment of the present invention provides a waterproof system for a dual glass assembly BIPV, including:

the roof ridge structure comprises a plurality of double-glass assemblies 10, a ridge cover plate 20, a cover plate connecting piece 30, an assembly cover plate 40, a side plate 50, a drainage groove 60, a water chute 70, side pressure blocks 80, a middle pressure block 90 and purlines 100;

the double-glass assemblies 10 are different in size, are arranged in sequence and cover the building roof;

the ridge cover plate 20 is sequentially arranged at the junction of two slope surfaces formed by the double-glass assembly 10 and used for covering gaps of the slope surfaces; so that the rainwater flows onto the dual-glass assembly 10 along the arc surface of the ridge cover plate 20 and flows out of the system along the dual-glass assembly 10;

the ridge cover plates 20 are connected in sequence, connecting seams exist among the ridge cover plates, and the cover plate connecting piece 30 is arranged above the connecting seam at the junction of the two adjacent ridge cover plates 20;

the drainage channel 60 is perpendicular to the length direction of the ridge cover plate 20, and is arranged at the edge and the middle position of two slope surfaces formed by the dual-glass assembly 10, specifically under one end of the dual-glass assembly 10 and under the joint of two adjacent dual-glass assemblies; so that drainage channels 60 are arranged below the junctions of all the longitudinal double-glass assemblies;

the assembly cover plate 40 is perpendicular to the length direction of the ridge cover plate 20 and is arranged right above the two adjacent double-glass assemblies 10; above all the longitudinally arranged drainage channels 60, a module cover 40 is arranged;

the water chute 70 is parallel to the length direction of the ridge cover plate 20 and is used for connecting the two adjacent double-glass assemblies 10, and two ends of the water chute are respectively supported on the water drainage groove 60; water chute 60 is disposed at the lateral junction of all dual glass assemblies 10 for engaging and fixing dual glass assemblies 10, and water flowing into the junction flows into water chute 60 and then flows out of the system;

the side plates 50 are perpendicular to the length direction of the ridge cover plate 20 and are respectively arranged at the edges of two ends of a slope composed of the dual-glass assembly 10; the provision of the edge plates 50 prevents rainwater from flowing into the system along the edges of the entire system, making the entire waterproofing system more integral.

As a further improvement, the shape of the cover plate connecting member 30 is adapted to the ridge cover plate 20, the cover plate connecting member 30 can be completely attached to the ridge cover plate 20, and a rubber waterproof material is filled between the cover plate 20 and the cover plate connecting member 30. After the rubber waterproof material is filled, rainwater can not permeate into the connecting seam of the ridge cover plate any more, and the sealing performance of the connecting seam between the whole ridge cover plates 20 is obviously improved. The cover plate connecting piece 30 and the ridge cover plate 20 are connected by self-tapping nails, and the roof is simple and convenient.

As a further improvement, the water chute 70 comprises a T-shaped baffle 71, a water tank 72 and a rubber sheet 73 which are integrally formed, wherein the water tank 72 is integrally connected with the T-shaped baffle 71 and is divided into two water tanks with different sizes by the T-shaped baffle 71; the rubber sheet 73 is attached to the junction of the flange and the web on one side of the T-shaped baffle 71. The water retaining grooves 72 are two U-shaped grooves with different sizes, the large grooves face the ridge cover plate 20, and when rainwater falls, the grooves facing the ridge cover plate 20 are facing the water, so that rainwater can permeate easily; the provision of the large grooves in the direction toward the ridge cap 20 is more advantageous in draining water, particularly in the case of heavy rainfall, in time of draining water that has penetrated into the water grooves 72.

The dual-glass assembly 10 is supported above the side edge of the water tank 72 and below the flange of the T-shaped baffle 71, and the edge of the dual-glass assembly 10 is in contact with the web of the T-shaped baffle 71, so that rainwater cannot easily flow into the water tank 72. The side of basin 72 provides the holding power for dual glass assembly 10, and the both sides edge of T type baffle just in time the block is in the top at dual glass assembly 10 edge. So, whole guiding gutter 70 lives the inseparable linking of dual glass assembly 10, also is favorable to installing and dismantling dual glass assembly 10, and a large amount of rainwater can be directly along dual glass assembly 10 surface outflow system.

Rubber sheet 73 sets up in the direction towards ridge apron 20, and the edge end of dual glass assembly 10 just in time laminates on rubber sheet 73, when the rainwater flows down along dual glass assembly 10, the direction towards ridge apron 20 infiltration entering basin 72 more easily, but set up between dual glass assembly 10 and T type baffle that rubber sheet 73 becomes can effectual prevention rainwater inflow in the basin 72, even if there is the water that flows into in the basin 72 and can also flow to guiding gutter 60 along basin 72, and then outflow system.

As a further modification, the drain tank 60 includes a drain tank mounting seat 61 and a drain tank supporting seat 62, and both sides of the drain tank supporting seat 61 are used for draining water. The drainage channel 60 can drain water and can be used as a mounting seat for the side pressing block 80 and the middle pressing block 90, and the drainage channel 60 is M-shaped. The gutter support 62 may be used to support the edge panel 50 and the gutter 70.

In a further modification, the sideboard 50 comprises a clamping edge 51 and a sideboard water groove 52, and the sideboard 50 is fixed on the gutter support 62 by a self-tapping screw on the bottom plate of the sideboard water groove 52. Inside the side of sideboard basin 52 can prevent effectively that rivers from overflowing to the system, centre gripping limit 51 is fixed in limit briquetting 80, and dual glass assembly 10 is being fixed simultaneously to the limit briquetting, makes entire system's connection inseparabler stable, and limit briquetting 80 and sideboard 50 are all fixed on water drainage tank 60, and the wholeness is stronger.

As a further modification, the side press 80 includes a side press holder 81, a side plate holder 82, and a side press mount 83; side pressure block mount 83 install in on the water drainage tank mount 61, the upper and lower edges of side pressure block clamping part 81 comprise rubber blocks for the centre gripping dual glass assembly 10, sideboard clamping part 82 is used for the centre gripping limit 51. The side pressing block 80 is connected by using bolts, and is easy to install and disassemble. The rubber blocks in the side pressure block clamping part 81 can increase the frictional resistance with the dual-glass assembly 10, and meanwhile, the dual-glass assembly 10 cannot be damaged. The inner arc of the side pressure block mounting seat 83 is adapted to the drainage groove mounting seat 61, and the connection stability with the drainage groove 60 is improved. Side briquetting 80 is holding dual glass assembly 10 on one side, and the another side is used for fixing sideboard 50, so set up and make limit briquetting 80 both sides stress balance more easily, keep structural stability.

As a further improvement, the combined cover plate 40 is an integrally formed circular arc-shaped cover plate, and two strip-shaped mounting heads 41 are arranged on the arc-shaped inner side of the combined cover plate 40. The arc-shaped side plate of the combined cover plate 40 completely covers the connecting seam of the dual-glass assembly 10, so that a large amount of rainwater can flow onto the dual-glass assembly 10 along the combined cover plate 40 more easily and then flow out of the system, and a small amount of rainwater flows into the drainage groove 60 and then flows out of the system.

As a further improvement, two strip-shaped mounting seats 91 are arranged at the top end of the middle pressing block 90 and used for mounting the strip-shaped mounting head 41, and the strip-shaped mounting head 41 and the strip-shaped mounting seats 91 are arranged continuously, which is beneficial to increasing the stability of the combined cover plate 40; the upper part of the middle pressing block 90 is provided with two middle pressing block clamping parts 92 which are symmetrical left and right, wherein a rubber block is arranged for clamping the edge of the double-glass assembly 10; the rubber blocks in the side pressure blocks 80 have the same function, and the rubber blocks in the middle pressure blocks can effectively fix the dual-glass assembly 10 and can not damage the dual-glass assembly 10; the lower part of the middle pressing block 90 is provided with a middle pressing block mounting seat 93 for mounting on the drain tank mounting seat 61.

As a further improvement, the drainage channel 60 is installed on the purline 100, the purline 100 is used for bearing the dead weight of the whole system, and the self-tapping screws are used for fixing the edge legs 63 at the two sides of the drainage channel 60 on the purline 100. The side legs 63 are located on two side edges of the drainage groove 60, rainwater directly flows out along the drainage groove 60, and the rainwater cannot fall into the side legs 63, so that structural stability and waterproofness are effectively guaranteed.

The invention discloses a waterproof system applicable to a double-glass assembly BIPV, which has the working principle that:

referring to fig. 1, purlins 100 may alternatively be channel beams as support members for supporting the entire BIPV system. Referring to fig. 2 to 3, the drainage channel 60 is supported on a purline 100, and the symmetrical edge legs 63 on both sides of the drainage channel 60 are fixed on the purline 100 by self-tapping screws. Aqueduct 70 is parallel to the length direction of ridge cover plate 20, aqueduct 70 is used for connecting two adjacent dual glass assembly 10, and the edge of dual glass assembly 10 is clamped into aqueduct 70. Referring to FIG. 5, when the end of the dual glass assembly 10 is pressed against the web of the T-stop 71, the upper flange of the T-stop 71 covers the dual glass assembly 10. When the rainwater slided down from the slope, slided to guiding gutter 70, the great majority of water can directly slide down, and a small portion of water has oozed in T type baffle 71 and dual glass assembly 10's contact gap, and has laminated a sheet rubber 73 in T type baffle 71 towards ridge apron's direction one side, refer to fig. 6. The side of dual glass assembly 10 just rests on rubber sheet 73 so that water is not easily seeped down. Meanwhile, due to the slope, the side edge of the T-shaped baffle 71 without the rubber sheet is lower than the side edge with the rubber sheet 73, so that water can slide down to the surface of the dual-glass assembly 10 from the outer surface of the upper flange of the T-shaped baffle more easily, and then flows out of the system. If any, the water that has penetrated into the water guide duct 70 can flow into the drain duct along the water duct 72. Both ends of the water guide groove 70 are supported on the water discharge groove support base 62, respectively, so that water flows into the water discharge groove 60 and flows out along the water discharge groove 60.

A cover plate connector 30 (refer to fig. 4) is provided above the connection seam of the ridge cover plate 20, and a rubber waterproof material is filled therebetween, and then the cover plate connector 30 and the ridge cover plate 20 are fixed together using a self-tapping screw. When rainwater impacts the ridge cap plates 20, the rubber waterproof material therebetween may prevent rainwater from penetrating into gaps between the ridge cap plates 20. Meanwhile, a module cover plate 40 and a side plate 50 are provided above the drain groove 60. The sideboard 50 is fixed on the water drainage tank supporting seat 62 with the self-tapping screw at the border of slope, and simultaneously sideboard clamping part 82 locks centre gripping limit 51, and side pressure piece clamping part 81 cliies the edge of dual-glass assembly 10, and the rubber block in it can cushion and protect dual-glass assembly 10, makes it have higher tensile ability, is difficult for rocking. The rain water flows directly out along the sideboard water trough 52.

With the component cover 40, it is possible to stably mount it in the bar mount 91 by the bar mount head 41 so as to be fixed to the center press block 90. Simultaneously well briquetting 90 is fixed on water drainage tank mount pad 61, and well briquetting clamping part 92 presss from both sides the edge of the tight dual glass assembly 10 of both sides, and the rubber block in it can be stabilized and protect dual glass assembly 10, makes it have higher tensile ability, is difficult for rocking. The curved surface of the assembly cover plate 40 may completely cover the gap between the dual glass assembly 10. Most of the rainwater flows out of the system along the surface of the module cover plate 40 and the dual glass module 10, and a small part of the rainwater permeates into the drainage groove 60 and flows out along the drainage groove 60.

Example 2

The waterproof system suitable for the double-glass assembly BIPV provided by the invention can also be applied to a building form with a single-slope roof.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A waterproof system suitable for dual glass assembly BIPV, its characterized in that includes: the roof comprises a plurality of double-glass assemblies (10), a ridge cover plate (20), a cover plate connecting piece (30), an assembly cover plate (40), a side plate (50), a drainage groove (60), a water chute (70), side pressure blocks (80), a middle pressure block (90) and purlines (100); the dual-glass components (10) are sequentially arranged and combined to form two bilaterally symmetrical slope surfaces;

the ridge cover plates (20) are sequentially arranged at the junction of two slope surfaces formed by the double-glass assembly (10) and used for covering gaps of the slope surfaces;

the cover plate connecting piece (30) is arranged at the junction of the two adjacent ridge cover plates (20);

the drainage groove (60) is perpendicular to the length direction of the ridge cover plate (20), arranged at the edge and the middle position of two slope surfaces formed by the double-glass assembly (10), and specifically positioned right below one end of the double-glass assembly (10) and right below the joint of two adjacent double-glass assemblies;

the assembly cover plate (40) is perpendicular to the length direction of the ridge cover plate (20) and is arranged right above the two adjacent double-glass assemblies (10);

the water chute (70) is parallel to the length direction of the ridge cover plate (20) and is used for connecting the two adjacent double-glass assemblies (10), and two ends of the water chute are respectively supported on the drainage groove (60);

the side plates (50) are perpendicular to the length direction of the ridge cover plate (20) and are respectively arranged at the edges of two ends of a slope surface formed by the double-glass assembly (10).

2. The waterproof system for a dual glass assembly BIPV as claimed in claim 1, wherein the cover plate connector (30) is shaped to fit the ridge cover plate (20), and a rubber waterproof material is filled between the cover plate (20) and the cover plate connector (30).

3. The waterproof system for the double glass assembly BIPV as claimed in claim 1, wherein the water chute (70) comprises an integrally formed T-shaped baffle (71), a water tank (72) and a rubber sheet (73), the water tank (72) is integrally connected with the T-shaped baffle (71) and is divided into two water tanks with different sizes by the T-shaped baffle (71); the rubber sheet (73) is attached to the junction of the flange and the web plate on one side of the T-shaped baffle (71).

4. The waterproof system for dual glass assembly BIPV as claimed in claim 3, wherein the dual glass assembly (10) is supported above the side of the water trough (72) and below the flange of the T-shaped baffle (71), and the edges of the dual glass assembly (10) contact the web of the T-shaped baffle (71).

5. The waterproof system for a dual glass assembly BIPV as claimed in claim 1, wherein the drain (60) comprises a drain mount (61) and a drain support base (62), the drain mount (61) being used on both sides for draining water.

6. The waterproof system for a dual glass assembly BIPV as claimed in claim 5, wherein the edge plate (50) comprises a clamping edge (51) and an edge plate water channel (52), and the edge plate (50) is fixed on the drain channel support base (62) by a self-tapping screw on the bottom plate of the edge plate water channel (52).

7. The waterproof system for a dual glass assembly BIPV as claimed in claim 6, wherein the side press block (80) comprises side press block clamping portions (81), side plate clamping portions (82) and side press block mounting seats (83); side briquetting mount pad (83) install in on water drainage tank mount pad (61), the upper and lower limit of side briquetting clamping part (81) comprises the rubber block for the centre gripping dual glass assembly (10), sideboard clamping part (82) are used for the centre gripping limit (51).

8. The waterproof system for the double-glass assembly BIPV as claimed in claim 5, wherein the combined cover plate (40) is an integrally formed circular arc cover plate, and two strip-shaped mounting heads (41) are arranged on the arc inner side of the combined cover plate (40).

9. The waterproof system for the dual glass assembly BIPV as claimed in claim 8, wherein the top end of the middle pressing block (90) is provided with two strip-shaped mounting seats (91) for mounting the strip-shaped mounting heads (41); the upper part of the middle pressing block (90) is provided with two middle pressing block clamping parts (92) which are bilaterally symmetrical, wherein a rubber block is arranged for clamping the edge of the double-glass assembly (10); and a middle pressing block mounting seat (93) is arranged at the lower part of the middle pressing block (90) and is used for being mounted on the drainage groove mounting seat (61).

10. The waterproof system for a dual glass assembly BIPV of claim 1, wherein the drainage channel (60) is mounted above the purlin (100).

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