CN110752817A

CN110752817A - Double-glass photovoltaic panel roof mounting structure

Info

Publication number: CN110752817A
Application number: CN201911034814.6A
Authority: CN
Inventors: 袁存法
Original assignee: Guangde Ningbo City Solar Energy Science And Technology Ltd
Current assignee: Ningbo Yinxin Electric Power Co ltd
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2020-02-04
Anticipated expiration: 2039-10-29
Also published as: CN110752817B

Abstract

The invention relates to a double-glass photovoltaic plate roof mounting structure which comprises at least two longitudinal mounting strips, at least two transverse mounting strips and a double-glass photovoltaic plate, wherein the transverse mounting strips are vertical to the longitudinal mounting strips in the horizontal direction, the at least two transverse mounting strips are equidistantly fixed on the upper parts of the at least two longitudinal mounting strips, one ends of the longitudinal mounting strips are fixed on a roof beam, the other ends of the longitudinal mounting strips are fixed on an eave, the double-glass photovoltaic plate is arranged between the adjacent transverse mounting strips, a house roof can be completely replaced by the design that the longitudinal mounting strips and the transverse mounting strips are placed below the double-glass photovoltaic plate in a staggered mode, and meanwhile, wire arrangement grooves and water drainage grooves are designed on the transverse mounting strips and the longitudinal mounting strips, so that wiring can be completely hidden, the appearance is achieved, and meanwhile the problem of water leakage is solved.

Description

Double-glass photovoltaic panel roof mounting structure

Technical Field

The invention relates to the field of building integration, in particular to a double-glass photovoltaic panel roof mounting structure.

Background

Double-glass photovoltaic board is formed by two glass compound solar cell panel preparation in the middle of usually, and double-glass photovoltaic board adopts photovoltaic glass to replace original backplate, compares with traditional photovoltaic board because glass's wearability, weather resistance, corrosion resistance are good, makes double-glass photovoltaic board can be used for areas such as sand blown by the wind big or many acid rain, many salt fog, and double-glass photovoltaic board's fire prevention level improves moreover, is applicable to the area that needs avoid conflagration hidden danger such as local-style dwelling houses, mill.

At present, more and more solar photovoltaic panels are installed on the surface of a roof or a large-area open area, particularly solar panel components paved on the roof of a building, so that the roof of the building can become a small power station capable of operating independently or being connected to the power grid, clean electric energy which can be conveniently used by people is generated, heat insulation and preservation effects can be achieved, and energy consumption in the building is reduced; the existing photovoltaic panel does not have the water leakage prevention function of the tiles, the water leakage phenomenon often occurs in the house in rainy days after the photovoltaic panel is installed, one layer of tiles is usually laid below the photovoltaic panel for preventing the house from water leakage, the design increases the construction difficulty, and the construction cost of the roof is improved.

Disclosure of Invention

In view of the current situation of the prior art, the technical problem to be solved by the present invention is to provide a double-glass photovoltaic panel roof mounting structure to solve the prior art problem.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a double-glass photovoltaic plate roof mounting structure comprises at least two longitudinal mounting strips, at least two transverse mounting strips and a double-glass photovoltaic plate, wherein the transverse mounting strips are vertical to the longitudinal mounting strips in the horizontal direction, the at least two transverse mounting strips are fixed on the upper portions of the at least two longitudinal mounting strips at equal intervals, one ends of the longitudinal mounting strips are fixed on a roof beam, the other ends of the longitudinal mounting strips are fixed on an eave, a first mounting groove, a first drainage groove and a second mounting groove are concavely arranged on the longitudinal mounting strips, the first drainage groove is arranged between the first mounting groove and the second mounting groove, the transverse mounting strips comprise a supporting frame, a U-shaped plate and a supporting plate, the U-shaped plate is arranged at the top end of the supporting frame, a first fixing groove is formed between the U-shaped plate and the supporting frame, the supporting plate is arranged at the rear end of the supporting frame, a second fixing groove is formed between the supporting plate and the U-shaped plate, and a, this second water drainage tank is located under the second fixed slot, has seted up the wash port on this second water drainage tank bottom surface, and this wash port is located directly over the first water drainage tank, two glass photovoltaic board sets up between adjacent horizontal mounting bar, and in this two glass photovoltaic board one end was fixed the first fixed slot on horizontal mounting bar, the second fixed slot on adjacent horizontal mounting bar was fixed to this two glass photovoltaic board other end.

Preferably, the support frame is provided with a wire arranging groove in a concave mode, the wire arranging groove is located at the front end of the second water draining groove and used for accommodating the connecting wire, and the connecting wire can be completely hidden.

Preferably, be equipped with the rectangular plate on the U-shaped board, this rectangular plate one end is fixed in U-shaped board bottom, and this rectangular plate other end is fixed on the support frame, and the rectangular plate can play the supporting role to the U-shaped board, prevents that the U-shaped board from warping.

Preferably, be equipped with L shape breakwater on indulging the mounting bar, this L shape breakwater is fixed in indulging the mounting bar upper end, and two at least draw-in grooves have been seted up to this L shape breakwater equidistance, and this draw-in groove is located horizontal mounting bar and indulges the mounting bar junction, can be used for blockking by the oblique raindrop of wind-driven wiper through setting up L shape breakwater.

Preferably, the L-shaped water baffle is provided with anti-slip lines for preventing the transverse mounting bar from sliding, the anti-slip lines are concavely arranged on the upper surface of the L-shaped water baffle, and the anti-slip lines can prevent the transverse mounting bar from sliding.

Compared with the prior art, the invention has the advantages that:

the roof mounting structure of the double-glass photovoltaic panel has the advantages of attractiveness, energy conservation, environmental protection, lower cost and capability of being used in areas with large wind and sand or multiple acid rain, multiple salt fog and the like, the longitudinal mounting strips and the transverse mounting strips are arranged below the double-glass photovoltaic panel in a staggered mode and can completely replace roof tiles, the installation is simple and convenient, meanwhile, the transverse mounting strips and the longitudinal mounting strips are provided with the wire arrangement grooves and the water drainage grooves, the wiring can be completely hidden, the problem of water leakage is solved while the attractiveness is achieved, and potential safety hazards are eliminated.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of a connecting structure of a horizontal mounting bar and a double-glass photovoltaic panel in the invention;

fig. 4 is a schematic front structural view of the present invention.

Detailed Description

As shown in fig. 1-4, the double-glazing photovoltaic panel comprises at least two longitudinal installation strips 2, at least two transverse installation strips 3 and a double-glazing photovoltaic panel 1, wherein the transverse installation strips 3 are perpendicular to the longitudinal installation strips 2 in the horizontal direction, the at least two transverse installation strips 3 are fixed on the upper portions of the at least two longitudinal installation strips 2 at equal intervals, one ends of the longitudinal installation strips 2 are fixed on a roof beam, the other ends of the longitudinal installation strips 2 are fixed on an eave, a first installation groove 12, a first drainage groove 14 and a second installation groove 15 are concavely arranged on the longitudinal installation strips 2, the first drainage groove 14 is arranged between the first installation groove 12 and the second installation groove 15, the transverse installation strips 3 comprise a support frame 4, a U-shaped plate 5 and a support plate 6, the U-shaped plate 5 is arranged at the top end of the support frame 4, a first fixing groove 7 is formed between the U-shaped plate 5 and the support frame 4, the support plate 6, be formed with second fixed slot 8 between this backup pad 6 and the U-shaped plate 5, the support frame 4 goes up the concave second water drainage tank 10 that is equipped with, and this second water drainage tank 10 is located under the second fixed slot 8, has seted up the wash port on the 10 bottom surfaces of this second water drainage tank, and this wash port is located directly over the first water drainage tank 14, two glass photovoltaic board 1 sets up between adjacent horizontal mounting bar 3, and in the first fixed slot 7 on horizontal mounting bar 3 was fixed to this two glass photovoltaic board 1 one end, the second fixed slot 8 on adjacent horizontal mounting bar 3 was fixed to this two glass photovoltaic board 1 other end.

The roof surface is usually obliquely arranged for rapidly dredging rainwater, the beam of the roof is usually higher than the eave, one end of the longitudinal mounting strip 2 can be fixed on the beam of the roof by screwing and the like during installation, the other end of the longitudinal mounting strip 2 can be fixed on the eave by screwing or the like, the longitudinal mounting strip 2 can also be fixed on the roof by screwing at the bottom end of the first mounting groove 12 or the second mounting groove 15, at the moment, the longitudinal mounting strip 2 is fixed at one end of the roof beam higher than the one end fixed on the eave, the transverse mounting strip 3 is installed after the longitudinal mounting strip 2 is installed, the transverse mounting strip 3 is placed in the clamping groove on the L-shaped water baffle 12, the transverse mounting bar 3 can be fixed by screwing or welding, and after the transverse mounting bar 3 is mounted, insert a plurality of dual-glass photovoltaic board 1 between adjacent horizontal mounting bar 3 in proper order, can further fix dual-glass photovoltaic board 1 in modes such as glue adhesion between horizontal mounting bar 3.

When raining, a part of rainwater hits on the double-glass photovoltaic panel 1 and flows into the second drainage groove 10 from the edge of the double-glass photovoltaic panel 1, the rainwater of the second drainage groove 10 can flow into the first drainage groove 14 from the drainage hole, the rainwater can be discharged from the roof of the first drainage groove 14, and the other part of rainwater is blocked by the L-shaped water baffle 12 and flows into the first drainage groove 14 and flows out of the roof of the first drainage groove 14.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. The double-glass photovoltaic plate roof mounting structure is characterized by comprising at least two longitudinal mounting strips (2), at least two transverse mounting strips (3) and a double-glass photovoltaic plate (1), wherein the transverse mounting strips (3) are vertical to the longitudinal mounting strips (2) in the horizontal direction, the at least two transverse mounting strips (3) are equally fixed on the upper parts of the at least two longitudinal mounting strips (2), one ends of the longitudinal mounting strips (2) are fixed on a roof beam, the other ends of the longitudinal mounting strips (2) are fixed on an eave, a first mounting groove (12), a first drainage groove (14) and a second mounting groove (15) are concavely arranged on the longitudinal mounting strips (2), the first drainage groove (14) is arranged between the first mounting groove (12) and the second mounting groove (15), the transverse mounting strips (3) comprise a support frame (4), a U-shaped plate (5) and a support plate (6), the U-shaped plate (5) is arranged at the top end of the support frame (4), a first fixing groove (7) is formed between the U-shaped plate (5) and the support frame (4), the support plate (6) is arranged at the rear end of the support frame (4), a second fixing groove (8) is formed between the supporting plate (6) and the U-shaped plate (5), a second drainage groove (10) is concavely arranged on the supporting frame (4), the second water drainage groove (10) is positioned under the second fixed groove (8), a water drainage hole is arranged on the bottom surface of the second water drainage groove (10), the drain hole is positioned right above the first drain groove (14), the double-glass photovoltaic panel (1) is arranged between the adjacent transverse mounting bars (3), one end of the double-glass photovoltaic panel (1) is fixed in a first fixing groove (7) on the transverse mounting bar (3), the other end of the double-glass photovoltaic panel (1) is fixed in a second fixing groove (8) on the adjacent transverse mounting bar (3).

2. The double-glazed photovoltaic panel roof installation structure according to claim 1, wherein the supporting frame (4) is provided with a drainage groove (11) in a concave manner, the drainage groove (11) being located at the front end of the second drainage groove (10).

3. A double-glazed photovoltaic panel roof mounting structure according to claim 2, characterized in that the U-shaped plate (5) is provided with a right-angled plate (9), one end of the right-angled plate (9) is fixed at the bottom end of the U-shaped plate (5), and the other end of the right-angled plate (9) is fixed on the supporting frame (4).

4. The double-glass photovoltaic panel roof installation structure as claimed in claim 3, wherein the longitudinal installation bar (2) is provided with an L-shaped water baffle (12), the L-shaped water baffle (12) is fixed on the upper end of the longitudinal installation bar (2), the L-shaped water baffle (12) is provided with at least two clamping grooves at equal intervals, and the clamping grooves are positioned at the connecting part of the transverse installation bar (3) and the longitudinal installation bar (2).

5. The double-glass photovoltaic panel roof installation structure according to claim 4, wherein the L-shaped water deflector (12) is provided with anti-slip lines for preventing the cross mounting bar (3) from slipping, which are recessed on the upper surface of the L-shaped water deflector (12).