CN220273564U - Waterproof photovoltaic support - Google Patents

Abstract

The utility model relates to the technical field of solar energy application, in particular to a waterproof photovoltaic bracket, which comprises: the cross beam, the water delivery plate and the support frame; the water delivery plate is arranged on the cross beam and is perpendicular to the cross beam, and a water tank is arranged on the water delivery plate along the length direction; the support frame spans on the water delivery plate, and the support frame both ends are provided with the mounting panel of connecting the crossbeam, both ends be provided with the mounting groove between the mounting panel, the mounting groove is located the basin upside, the mounting groove with be provided with the loading board of installation photovoltaic board between the mounting panel. The waterproof problem of the photovoltaic bracket is solved by the utility model.

Description

Waterproof photovoltaic support

Technical Field

The utility model relates to the technical field of solar energy application, in particular to a waterproof photovoltaic bracket.

Background

The disclosure of this background section is only intended to increase the understanding of the general background of the utility model and is not necessarily to be construed as an admission or any form of suggestion that this information forms the prior art already known to those of ordinary skill in the art.

Solar energy is a clean energy source which can be continuously utilized, and is used as a renewable resource with high efficiency and no pollution, and is gradually utilized by various industries at present. The method has very important significance for relieving the energy shortage condition, reducing the environmental pollution and improving the living standard of people.

Because roof photovoltaic support has the characteristics such as saving the soil, satisfies family's power consumption demand, and more families select solar energy power generation as the power supply demand, and the roof type of some families is the pitch material, needs to punch on the roof when installing the photovoltaic support fixedly, and when the daytime, the rainwater can permeate in the room through the screw hole, brings a great deal of inconvenience for the user, has restricted civilian photovoltaic system's use and popularization greatly.

Disclosure of Invention

Aiming at the defects existing in the prior art, the embodiment of the utility model aims to provide a waterproof photovoltaic bracket so as to solve the waterproof problem of the photovoltaic bracket.

In order to achieve the above object, the embodiment of the present utility model provides the following technical solutions:

a waterproof photovoltaic support comprising: the cross beam, the water delivery plate and the support frame; the water delivery plate is arranged on the cross beam and is perpendicular to the cross beam, and a water tank is arranged on the water delivery plate along the length direction; the support frame spans on the water delivery plate, and the support frame both ends are provided with the mounting panel of connecting the crossbeam, both ends be provided with the mounting groove between the mounting panel, the mounting groove is located the basin upside, the mounting groove with be provided with the loading board of installation photovoltaic board between the mounting panel.

Preferably, the water delivery plate is of an axisymmetric structure and comprises a flange plate at two ends and a bottom plate in the middle, wherein the flange plate and the bottom plate are positioned on different planes, and the flange plate and the bottom plate are connected through an inclined plate.

Preferably, the cross beam is provided with T-shaped grooves, the T-shaped grooves are arranged along the length direction of the cross beam, mounting holes are formed in mounting plates at two ends of the support frame, and the support frame is mounted on the cross beam by using T-shaped bolts to penetrate through the mounting holes in the mounting plates.

Preferably, the mounting groove is a T-shaped groove, the T-shaped groove divides the bearing plate into a left part and a right part, a pressing block is mounted in the mounting groove, and the pressing block is pressed on the photovoltaic plate on the bearing plate.

Preferably, the briquetting includes well briquetting, well briquetting is the T type, and the clamp plate is arranged at the T type well briquetting both ends, has the round hole in the middle of two clamp plates, the clamp plate at well briquetting both ends is pressed respectively on two adjacent photovoltaic boards, utilizes T type bolt to pass the round hole on the well briquetting with well briquetting will install on the support frame.

Preferably, the pressing block comprises an edge pressing block, one end of the edge pressing block is a pressing plate, the other end of the edge pressing block is a supporting plate, a round hole is formed between the pressing plate of the edge pressing block and the supporting plate, and the T-shaped bolt penetrates through the round hole in the edge pressing block to install the edge pressing block on the supporting frame.

Preferably, the two ends of the mounting groove are provided with baffles, the baffles protrude out of the bearing plate and are arranged parallel to the mounting groove, and the height of each baffle is lower than that of the photovoltaic plate.

Preferably, a pressing seat is arranged on the lower side of the mounting groove, the bottom surface of the pressing seat is higher than the bottom surface of the mounting plate, and the pressing seat pushes the water delivery plate against the cross beam.

Preferably, a water guide piece is arranged between two adjacent photovoltaic plates, the water guide piece is perpendicular to the water delivery plates, the upper ends of the water guide pieces are provided with inclined guide surfaces, the guide surfaces are inclined planes, and two ends of the guide surfaces are positioned on water tanks of the water delivery plates.

Preferably, the guide surface is provided with a middle hanging part and an edge hanging part, the middle hanging part and the edge hanging part are both in a T shape and comprise transverse plates and vertical plates, the transverse plates are lapped on two adjacent photovoltaic plates, the vertical plates are connected with the transverse plates and the guide surface, and the vertical plates of the edge hanging part are longer than the vertical plates of the middle hanging part.

One or more technical solutions provided in the embodiments of the present utility model at least have the following technical effects or advantages:

according to the utility model, the water delivery plate is arranged on the cross beam, the water delivery plate is fixed on the cross beam by utilizing the support frame, the photovoltaic plate is arranged on the support plate, and the middle of the support plate is provided with the mounting groove. When raining, the rainwater between two photovoltaic boards can flow into the water tank of the water delivery board, and then flows out along the water tank, so that the rainwater is prevented from flowing to the lower side of the photovoltaic board along the gap between the two photovoltaic boards, and the waterproof function of the photovoltaic support is realized.

Additional aspects of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

In order to make the above objects, features and advantages of the present utility model more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model.

FIG. 1 is a schematic view of a photovoltaic bracket mounted photovoltaic panel provided by an embodiment of the present utility model, wherein the lower right corner photovoltaic panel is hidden;

FIG. 2 is a schematic view of a support frame according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a water delivery plate according to an embodiment of the present utility model;

fig. 4 is a schematic installation view of a water delivery plate and a support frame according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a water guide according to an embodiment of the present utility model;

FIG. 6 is a schematic view illustrating the installation of a water guide and a water transport plate according to an embodiment of the present utility model;

FIG. 7 is a schematic diagram of a medium voltage block according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of an edge press provided by an embodiment of the present utility model;

in the figure: 1. a support frame; 11. a mounting plate; 12. a compressing seat; 13. a mounting groove; 14. a baffle; 2. a water delivery plate; 21. a flange plate; 22. a bottom plate; 3. a cross beam; 4. a photovoltaic panel; 5. a middle pressing block; 6. pressing the edges into blocks; 7. a water guide; 71. a guide surface; 72. a middle hanging part; 73. a side hanging part;

the mutual spacing or dimensions are exaggerated for the purpose of showing the positions of the various parts, and the schematic illustrations are used for illustration only.

Detailed Description

It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the utility model. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present utility model. As used herein, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the utility model clearly indicates otherwise, and it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The existing photovoltaic support is generally clamped by adopting pressing blocks when the photovoltaic panels are installed, and because the pressing blocks are required to be installed between the two transverse photovoltaic panels, a larger gap is formed between the two photovoltaic panels, and in rainy days, rainwater can flow to the lower side of the photovoltaic panels along the gap, but in some scenes, a user does not want rainwater to leak to the lower side of the photovoltaic panels, and therefore, the waterproof photovoltaic support is provided.

As shown in fig. 1 to 8, in one embodiment of the present utility model, a waterproof photovoltaic support is provided, which includes: the cross beam 3, the water delivery plate 2 and the support frame 1; the water delivery plates 2 are arranged on the cross beams 3 in a linear array mode, and are perpendicular to the cross beams 3, and water tanks for flowing water are arranged on the water delivery plates 2 along the length direction; the support frame 1 spans on the water delivery plate 2, and the support frame 1 is on the one hand installed water delivery plate 2 on crossbeam 3, and on the other hand is used for installing photovoltaic board 4, and support frame 1 both ends are provided with the mounting panel 11 of connecting crossbeam 3, both ends be provided with mounting groove 13 between the mounting panel 11, mounting groove 13 is located the basin upside, mounting groove 13 with be provided with the loading board of installation photovoltaic board 4 between the mounting panel 11.

The utility model installs the water delivery plate 2 on the beam 3, fixes the water delivery plate 2 on the beam 3 by the supporting frame 1, installs the photovoltaic plate 4 on the supporting plate, and has the installation groove 13 in the middle of the supporting plate. During installation, the pressing block is installed at the installation groove 13, and the installation groove 13 is positioned on the water delivery plate 2, so that a gap between the two photovoltaic plates 4 is positioned on the water delivery plate 2, and the width of a water tank of the water delivery plate 2 is larger than the gap between the two photovoltaic plates 4. Therefore, when raining, the rainwater between two photovoltaic boards 4 can flow into the water tank of the water delivery board 2, and flows out along the water tank, so that the rainwater is prevented from flowing to the lower side of the photovoltaic boards 4 along the gap between the two photovoltaic boards 4, and the waterproof function of the photovoltaic support is realized.

As shown in fig. 3, the water delivery plate 2 has an axisymmetric structure, is in an inverted-letter shape, and comprises a flange plate 21 at two ends and a bottom plate 22 in the middle, wherein the flange plate 21 and the bottom plate 22 are positioned on different planes, the flange plate 21 and the bottom plate 22 are connected through inclined plates, and a water delivery trough is formed through the inclined plates at two sides and the bottom plate 22 in the middle.

As shown in fig. 4, the cross beam 3 has a T-shaped groove, the T-shaped groove is arranged along the length direction of the cross beam 3, mounting holes are formed in mounting plates 11 at two ends of the support frame 1, and as shown in fig. 2, the support frame 1 is mounted on the cross beam 3 by using T-shaped bolts to penetrate through the mounting holes in the mounting plates 11. The connection of the support frames 1 and the cross beam 3 is realized through the T-shaped bolts, and the distance between the two support frames 1 can be conveniently adjusted according to the size of the photovoltaic panel 4, so that the installation of the photovoltaic panel 4 with different sizes is adapted.

As shown in fig. 2, the mounting groove 13 is a T-shaped groove, the T-shaped groove divides the carrier plate into a left part and a right part, a pressing block is mounted in the mounting groove 13, and the pressing block is pressed on the photovoltaic panel 4 on the carrier plate.

Wherein, the briquetting includes well briquetting 5 and limit briquetting 6, and well briquetting 5 is installed in the middle of two photovoltaic boards 4, and limit briquetting 6 is installed at whole photovoltaic module's edge, well briquetting 5 and limit briquetting 6 adopt current structure can.

Specifically, as shown in fig. 1 and 7, the middle pressing block 5 is T-shaped, two ends of the T-shaped middle pressing block 5 are pressing plates, a round hole is formed between the two pressing plates, the pressing plates at two ends of the middle pressing block 5 are respectively pressed on two adjacent photovoltaic panels 4, and the middle pressing block 5 is installed on the support frame 1 by using a T-shaped bolt to pass through the round hole on the middle pressing block 5. As shown in fig. 8, one end of the side pressing block 6 is a pressing plate, the other end of the side pressing block is a supporting plate, a round hole is formed between the pressing plate and the supporting plate of the side pressing block 6, and the side pressing block 6 is installed on the supporting frame 1 by using a T-shaped bolt to penetrate through the round hole on the side pressing block 6. The lower bottom surfaces of the pressing plates of the middle pressing block 5 and the side pressing block 6 are provided with serrated surfaces, so that the friction force between the serrated surfaces and the photovoltaic panel 4 is increased, and the photovoltaic panel 4 is installed more firmly.

Further, as shown in fig. 2, baffles 14 are disposed at two ends of the mounting groove 13, the baffles 14 protrude from the carrier plate and are disposed parallel to the mounting groove 13, and the height of the baffles 14 is lower than the height of the photovoltaic panel 4. Limiting the photovoltaic panel 4 through the baffle 14 prevents the photovoltaic panel 4 from lateral movement under severe weather such as strong wind, and the stability of the photovoltaic module is increased.

Meanwhile, a pressing seat 12 is arranged on the lower side of the mounting groove 13, the pressing seat 12 is located in an inner cavity of the supporting seat, the bottom surface of the pressing seat 12 is higher than the bottom surface of the mounting plate 11, and the pressing seat 12 is used for pushing the water delivery plate 2 to the cross beam 3. When the supporting seat is arranged on the cross beam 3, the water delivery plate 2 can be tightly propped against the cross beam 3 by the pressing seat 12, so that the water delivery plate 2 is more firmly arranged, and the water delivery plate 2 is prevented from shaking.

A water guide piece 7 is arranged between two adjacent photovoltaic panels 4, the water guide piece 7 is perpendicular to the water delivery panels 2, namely, the water guide piece 7 is positioned in a gap between two photovoltaic panels 4 without installing pressing blocks, as shown in fig. 1, the photovoltaic panels 4 are installed at longitudinal seams between the photovoltaic panels 4, and the water guide piece 7 is installed at transverse seams between the photovoltaic panels 4. The water guide 7 is made of a material capable of elastic deformation, such as rubber.

As shown in fig. 5 and 6, the upper end of the water guide 7 has an inclined guide surface 71, the guide surface 71 is an inclined surface, and both ends of the guide surface 71 are located on the water tank of the water delivery plate 2. The guide surface 71 is provided with a middle hanging part 72 and an edge hanging part 73, the middle hanging part 72 and the edge hanging part 73 are both T-shaped and comprise transverse plates and vertical plates, the transverse plates are lapped on two adjacent photovoltaic plates 4, the vertical plates are connected with the transverse plates and the guide surface 71, and the vertical plates of the edge hanging part 73 are longer than the vertical plates of the middle hanging part 72. Due to manufacturing process and installation problems, although the transverse seam between the photovoltaic panels 4 does not need to be provided with a pressing block, a certain gap still exists. Therefore, the water guide piece 7 is arranged on the transverse seam of the photovoltaic panel 4 in the embodiment, on one hand, rainwater is prevented from leaking from the transverse seam, and on the other hand, the rainwater is guided to the water delivery plates 2 at the two ends through the inclined guide surface 71, so that the rainwater is discharged, and the rainwater is thoroughly prevented from leaking to the lower side of the photovoltaic panel 4.

While the foregoing description of the embodiments of the present utility model has been presented in conjunction with the drawings, it should be understood that it is not intended to limit the scope of the utility model, but rather, it is intended to cover all modifications or variations within the scope of the utility model as defined by the claims of the present utility model.

Claims (10)

1. A waterproof photovoltaic bracket, comprising: the cross beam, the water delivery plate and the support frame;

the water delivery plate is arranged on the cross beam and is perpendicular to the cross beam, and a water tank is arranged on the water delivery plate along the length direction;

the support frame spans on the water delivery plate, and the support frame both ends are provided with the mounting panel of connecting the crossbeam, both ends be provided with the mounting groove between the mounting panel, the mounting groove is located the basin upside, the mounting groove with be provided with the loading board of installation photovoltaic board between the mounting panel.

2. The waterproof photovoltaic bracket of claim 1, wherein the water delivery plate is of an axisymmetric structure and comprises a flange plate at two ends and a bottom plate in the middle, the flange plate and the bottom plate are positioned on different planes, and the flange plate and the bottom plate are connected through an inclined plate.

3. The waterproof photovoltaic bracket of claim 1, wherein the cross beam has a T-shaped groove, the T-shaped groove is arranged along the length direction of the cross beam, mounting plates at two ends of the support frame are provided with mounting holes, and the support frame is mounted on the cross beam by using T-shaped bolts to pass through the mounting holes on the mounting plates.

4. The waterproof photovoltaic bracket of claim 1, wherein the mounting groove is a T-shaped groove, the T-shaped groove divides the bearing plate into a left part and a right part, a pressing block is arranged in the mounting groove, and the pressing block is pressed on a photovoltaic plate on the bearing plate.

5. The waterproof photovoltaic bracket of claim 4, wherein the pressing block comprises a middle pressing block, the middle pressing block is of a T shape, pressing plates are arranged at two ends of the T-shaped middle pressing block, a round hole is arranged between the two pressing plates, the pressing plates at two ends of the middle pressing block are respectively pressed on two adjacent photovoltaic plates, and the middle pressing block is installed on the supporting frame by using T-shaped bolts to penetrate through the round holes on the middle pressing block.

6. The waterproof photovoltaic bracket of claim 4, wherein the pressing block comprises an edge pressing block, one end of the edge pressing block is a pressing plate, the other end of the edge pressing block is a supporting plate, a round hole is formed between the pressing plate of the edge pressing block and the supporting plate, and the edge pressing block is installed on the supporting frame by using a T-shaped bolt to penetrate through the round hole in the edge pressing block.

7. The waterproof photovoltaic bracket of claim 1, wherein baffles are arranged at two ends of the mounting groove, the baffles protrude from the bearing plate and are parallel to the mounting groove, and the height of the baffles is lower than that of the photovoltaic plate.

8. The waterproof photovoltaic bracket of claim 1, wherein a pressing seat is arranged on the lower side of the mounting groove, the bottom surface of the pressing seat is higher than the bottom surface of the mounting plate, and the pressing seat pushes the water delivery plate against the cross beam.

9. The waterproof photovoltaic bracket of claim 1, wherein a water guide member is arranged between two adjacent photovoltaic panels, the water guide member is arranged perpendicular to the water delivery panels, the upper end of the water guide member is provided with an inclined guide surface, the guide surface is an inclined surface, and two ends of the guide surface are positioned on a water tank of the water delivery panels.

10. The waterproof photovoltaic bracket of claim 9, wherein the guide surface is provided with a middle hanging part and an edge hanging part, the middle hanging part and the edge hanging part are both T-shaped and comprise a transverse plate and a vertical plate, the transverse plate is lapped on two adjacent photovoltaic plates, the vertical plate connects the transverse plate and the guide surface, and the vertical plate of the edge hanging part is longer than the vertical plate of the middle hanging part.