CN212909417U

CN212909417U - Photovoltaic module installed part

Info

Publication number: CN212909417U
Application number: CN202021514527.3U
Authority: CN
Inventors: 胡超; 程光胜
Original assignee: Goodwe Power Supply Technology Guangde Co Ltd
Current assignee: Goodwe Power Supply Technology Guangde Co Ltd
Priority date: 2020-07-28
Filing date: 2020-07-28
Publication date: 2021-04-06
Anticipated expiration: 2030-07-28

Abstract

The utility model relates to a photovoltaic assembly mounting part, which comprises a left frame arranged at the edge of the left side of a photovoltaic assembly and a right frame arranged at the edge of the right side of the photovoltaic assembly; the left frame comprises a left connecting part connected with the photovoltaic module and a falling groove part connected with the left connecting part and positioned outside the left edge of the photovoltaic module, and the falling groove part is provided with a drainage groove which is lower than the upper surface of the photovoltaic module; the right frame includes the right connecting portion that is connected with photovoltaic module, is connected with right connecting portion and is located the outer upper cover portion of photovoltaic module right side edge, and the upper cover portion is formed with the position parallel and level in or is higher than the upper cover of photovoltaic module upper surface. The utility model discloses dismouting construction convenience, cost are lower, can also overcome installation back photovoltaic module's potential safety hazard simultaneously, improve photovoltaic module security and waterproof nature after the installation, and the outward appearance is also level and smooth pleasing to the eye.

Description

Photovoltaic module installed part

Technical Field

The utility model belongs to the technical field of photovoltaic module (photovoltaic tile, photovoltaic panel) installation, concretely relates to photovoltaic module installed part.

Background

When the photovoltaic module is applied to the building field, the used mounting mode is generally divided into hanging connection and screw connection, different connection modes directly influence the cost and the convenient degree of product construction and installation, and the safety (wind resistance, uncovering resistance), the waterproofness, the appearance smoothness and the like of the mounted photovoltaic module can also be influenced. The existing installation modes have more or less problems in the aspects, and an installation scheme with balanced aspects is not provided.

Disclosure of Invention

The utility model aims at providing an installation is convenient, the cost is lower, and photovoltaic module security, waterproof nature preferred after the installation, the smooth pleasing to the eye photovoltaic module installation scheme of outward appearance.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a photovoltaic assembly mounting piece comprises a left frame arranged at the left edge of a photovoltaic assembly and a right frame arranged at the right edge of the photovoltaic assembly;

the left frame comprises a left connecting part connected with the photovoltaic module and a groove part connected with the left connecting part and positioned outside the left edge of the photovoltaic module, and the groove part is provided with a drainage groove which is lower than the upper surface of the photovoltaic module;

the right frame include with the right connecting portion that photovoltaic module is connected, with right connecting portion are connected and are located the outer upper cover portion of photovoltaic module right side edge, the upper cover portion is formed with the position parallel and level in or is higher than the upper cover of photovoltaic module upper surface.

The left connecting part comprises a left connecting plate which is provided with a groove with a rightward opening and used for embedding the photovoltaic module, and the left connecting plate comprises a left bottom plate attached to the left side surface of the photovoltaic module; the drainage groove comprises a left groove plate and a right groove plate, wherein the left groove plate is provided with an upward opening and comprises a right groove wall plate, and the right groove wall plate is connected with the left bottom plate into a whole;

the right connecting portion include form the opening recess left for photovoltaic module inlays establishes right connecting plate wherein, right connecting plate including the laminating in the last curb plate of photovoltaic module's upper surface, the upper cover with it is connected to go up the curb plate.

The left groove plate comprises a groove bottom plate forming the groove bottom of the drainage groove, and a water retaining rib extending along the length direction of the left frame is arranged on the groove bottom plate.

The left groove plate comprises a left groove wall plate opposite to the right groove wall plate, and groove falling part bulges are arranged at the top end of the left groove wall plate and the top end of the right groove wall plate; the upper cover below is connected with two and corresponds respectively left baffle, the right baffle of left side groove wallboard with right side groove wallboard, the bottom of left side baffle the bottom of right side baffle all is provided with the upper cover arch, works as left side frame with when right frame docks, left side baffle bottom the upper cover protruding with left cell wall board upper end the protruding joint of groove portion that falls, right baffle bottom the upper cover protruding with right cell wall board upper end the protruding joint of groove portion that falls.

The right connecting plate is including laminating the right bottom plate on photovoltaic module's right side surface, the right bottom plate with left baffle is connected as an organic wholely.

The groove bottom plate is provided with a hole for arranging a screw, and the left frame is fixedly connected with the tile hanging strip through the screw arranged in the hole.

The opening comprises a first portion with an inner diameter larger than the diameter of the head of the screw and a second portion with an inner diameter smaller than the diameter of the head of the screw.

And flexible gaskets are arranged between the photovoltaic assembly and the left frame and between the photovoltaic assembly and the right frame.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages: the utility model discloses dismouting construction convenience, cost are lower, can also overcome installation back photovoltaic module's potential safety hazard simultaneously, improve photovoltaic module security and waterproof nature after the installation, and the outward appearance is also level and smooth pleasing to the eye.

Drawings

Figure 1 is the utility model discloses a photovoltaic module's face sketch map.

Figure 2 is the utility model discloses a photovoltaic module's cross sectional schematic diagram.

Figure 3 is the utility model discloses a photovoltaic module's installation schematic diagram.

Fig. 4 is the utility model discloses an installation schematic diagram of last left side frame of photovoltaic module and traditional tile.

Fig. 5 is the utility model discloses an installation schematic diagram of last left side frame of photovoltaic module and right frame.

Figure 6 is the utility model discloses an installation schematic diagram of last right frame of photovoltaic module and traditional tile.

Figure 7 is the utility model discloses a fixed schematic diagram of left side frame in the photovoltaic module installed part.

Figure 8 is the utility model discloses a trompil schematic diagram of left side frame in the photovoltaic module installed part.

In the above drawings: 1. a photovoltaic module; 2. a left frame; 3. a right frame; 4. a left connecting plate; 5. a left bottom plate; 6. a side plate; 7. a left channel plate; 8. a left channel wall panel; 9. a right slot wall panel; 10. a trough floor; 11. opening a hole; 12. the groove part is raised; 13. water retaining ribs; 14. a right connecting plate; 15. an upper side plate; 16. a lower side plate; 17. a right base plate; 18. an upper cover; 19. a left baffle; 20. a right baffle; 21. the upper cover part is convex; 22. a screw; 23. hanging battens; 24. a conventional tile; 25. a flexible gasket.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

The first embodiment is as follows: as shown in fig. 1 and 2, the rectangular photovoltaic module 1 has opposite left and right side edges, corresponding to the left and right sides of the direction of the drawing, and the photovoltaic module 1 includes a photovoltaic module mounting member for realizing the mounting thereof to a building.

As shown in fig. 3 to 6, the photovoltaic module mounting member includes a left frame 2 provided at a left side edge of the photovoltaic module 1 and a right frame 3 provided at a right side edge of the photovoltaic module 1.

The left bezel 2 includes a left connecting portion and a drop groove portion. Left connecting portion are connected with photovoltaic module 1, and it includes left connecting plate 4, and left connecting plate 4 is formed with the recess that the opening is right and establishes wherein for photovoltaic module 1 inlays, and consequently left connecting plate 4 presents the character cut in bas-relief that the opening is right, and it includes left bottom plate 5 and two blocks of curb plates 6 that are located left bottom plate 5 both sides respectively and are close perpendicular setting with left bottom plate 5, and wherein left bottom plate 5 laminating photovoltaic module 1's left side surface, and the upper and lower surface of photovoltaic module 1 is laminated respectively to the both sides version. The groove portion that falls is connected with left connecting portion to be located photovoltaic module 1 left side edge outside, the groove portion that falls is formed with the drain tank that the position is less than photovoltaic module 1 upper surface in perpendicular photovoltaic module 1 direction. Specifically, the groove part falls including the left frid 7 that forms the ascending water drainage tank of opening, and left frid 7 includes left cell wall board 8, right cell wall board 9 and cell bottom plate 10. The tank bottom plate 10 is used for forming the tank bottom of the drainage tank, and the tank bottom plate 10 is further provided with a water blocking rib 13 extending along the length direction of the left frame 2. The left and right

cell wall plates

8 and 9 are respectively arranged at the left and right sides of the cell bottom plate 10 and are approximately vertical to the cell bottom plate, so that the left cell wall plate 7 is opposite to the right cell wall plate 9, and the right cell wall plate 9 and the left bottom plate 5 of the left connecting part are connected into a whole to form a flat plate.

The right bezel 3 includes a right connecting portion and an upper cover portion. The right connecting part is connected with the photovoltaic module 1, and comprises a right connecting plate 14 which is provided with a left opening groove for the photovoltaic module 1 to be embedded in, namely the right connecting plate 14 is in a shape of a left opening Chinese character 'ao', and comprises a right bottom plate 17, an upper side plate 15 and a lower side plate 16 which are respectively positioned on two sides of the right bottom plate 17 and are close to and vertically arranged with the right bottom plate 17. Wherein the right connecting plate 14 is attached to the right side surface of the photovoltaic module 1, and the upper and

lower side plates

15 and 16 are attached to the upper and lower surfaces of the photovoltaic module 1, respectively. The upper cover part is connected with the right connecting part and is positioned outside the edge of the right side of the photovoltaic module 1, the upper cover part is formed with an upper cover 18 which is positioned flush with or higher than the upper surface of the photovoltaic module 1 in the direction vertical to the photovoltaic module 1, and the upper cover 18 is generally connected with and flush with the upper side plate 15 of the right connecting part.

In the left frame 2, the top end of the left channel wall plate 8 and the top end of the right channel wall plate 9 are provided with a drop channel projection 12, and the drop channel projection 12 can face the direction of the center of the drainage channel. And in right frame 3, upper cover 18 below is connected with two and corresponds left baffle 19, right baffle 20 of left cell wall board 8 and right cell wall board 9 respectively, and right bottom plate 17 can be connected as an organic whole with left baffle 19 to all be provided with upper cover portion arch 21 in the bottom of left baffle 19, the bottom of right baffle 20, this upper cover portion arch 21 is the direction of water drainage tank center dorsad. When the left frame 2 and the right frame 3 are butted, the upper cover part bulge 21 at the bottom end of the left baffle plate 19 is clamped with the groove part bulge 12 at the upper end of the left groove wall plate 8, and the upper cover part bulge 21 at the bottom end of the right baffle plate 20 is clamped with the groove part bulge 12 at the upper end of the right groove wall plate 9.

When installing, the photovoltaic panel with the photovoltaic module installation part relates to three installation field lenses, which are respectively as follows:

as shown in fig. 3, in a group of photovoltaic modules 1, the photovoltaic module 1 at the left edge is butted with the edge of the traditional tile 24 at the left side through the left frame 2, at this time, the left connecting portion of the left frame 2 corresponds to the side edge of the traditional tile 24 and the two are close to the same level, and the groove falling portion of the left frame 2 is inserted below the traditional tile 24 and is matched with the groove structure at the lower surface of the traditional tile 24.

As shown in fig. 4, in a group of photovoltaic modules 1, the photovoltaic module 1 in the middle is butted with the photovoltaic module 1 adjacent to the left side thereof through the left frame 2, and is also butted with the photovoltaic module 1 adjacent to the right side thereof through the right frame 3. Fig. 4 shows a set of butt joint structures, the upper cover portion of the right frame 3 is correspondingly located on the groove portion of the right frame 3, the two are clamped and fixed, and the two are located between the two photovoltaic modules 1.

As shown in fig. 5, in a group of photovoltaic modules 1, the photovoltaic module 1 at the right edge is butted with the edge of the conventional tile 24 at the right side thereof through the right frame 3, and at this time, the upper cover part of the right frame 3 corresponds to and is located above the lower concave part of the side edge of the conventional tile 24 and is matched with the groove structure of the lower concave part, so that the upper cover part is close to and level with the non-lower concave part of the conventional tile 24.

In the above solution, as shown in fig. 7 and 8, the groove-falling portion of the left frame 2 is located on the groove bottom plate 10 at a proper position, and an opening 11 may be further provided, a screw 22 may penetrate through the opening 11, and then the left frame 2 is fixedly connected to the battens 23 through the screw 22 disposed in the opening 11. For easy assembly and disassembly, the opening 11 of the trough bottom plate 10 comprises a first part and a second part distributed along the length direction of the left frame 2, the inner diameter of the first part is larger than the diameter of the head of the screw 22, the inner diameter of the second part is smaller than the diameter of the head of the screw 22, for example, the screw 22 can be in a common keyhole form, and the screw 22 can slide between the first part and the second part.

In addition, a flexible gasket 25 can be arranged between the photovoltaic module 1 and the left frame 2 and between the photovoltaic module 1 and the right frame 3.

To sum up, above-mentioned this scheme uses general traditional dull and stereotyped tile to accomplish to receive limit angle department after the photovoltaic product is installed. Except that the left frame 3 and the right frame 3 are matched and waterproof, the left frame 2 of the product is matched and matched with the right end part of the traditional tile 24, and the right frame 3 of the product is matched and matched with the left end part of the traditional tile 24. The overlap joint is firstly considered to be waterproof when the detail design of the left frame 3 and the right frame 3 of the product, namely, the right frame 3 is designed into an upper cover 18 structure, the left frame 2 is designed into a groove structure, most rainwater can be blocked when the left frame 3 and the right frame 3 are buckled, the rainwater flows outwards, a small amount of rainwater enters the left frame 2 groove, and the rainwater can flow out along the frames in the groove due to the existence of the roof installation gradient. Meanwhile, the water retaining rib 13 is designed in the left frame 2 falling groove to reduce the rainwater immersion capacity. In addition, the left frame and the right frame 3 are respectively provided with two bulges, the left frame and the right frame 3 are mutually clamped and fixed when being installed and matched, so that the left frame 2 is fixed on the tile hanging strips 23 through the screws 22, and the right frame 3 can be fixed by means of the left frame 2 to achieve the effect of force-assisted fixation. The mutual clamping not only can be fixed by virtue of force, but also can ensure that the upper surface of the installed product is smoother and more beautiful. A keyhole is drilled in the upper part of the left frame 2 as shown, and a screw 22 is screwed into a batten 23 through the upper end of the keyhole during installation. When the product needs to be detached, replaced or overhauled, the product can be pushed upwards integrally, the position of the screw 22 enters the position of the large hole at the bottom end of the keyhole, the product is lifted upwards, the screw product can be separated from the screw 22 to achieve the purpose of removing the product, and when the replaced product needs to be installed, the reverse operation is performed. Thus, the screw 22 fixation not only meets the safety performance and the wind uncovering resistance performance of product installation, but also meets the replacement and maintenance functions of the product, and the product installation is convenient and safe.

The utility model overcomes photovoltaic product construction installation cost too high shortcoming when installing and using in the building field has not the potential safety hazard problem of taking precautions against wind when having overcome partial prior art installation photovoltaic roofing product, has overcome the problem that product itself increases product cost for realizing two kinds of structures, has overcome the problem that photovoltaic product and traditional 24 overlap joints of tile match, has overcome the problem of product mounting surface unevenness.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. A photovoltaic module mount, its characterized in that: the photovoltaic assembly mounting piece comprises a left frame arranged at the left edge of the photovoltaic assembly and a right frame arranged at the right edge of the photovoltaic assembly;

2. The photovoltaic module mount of claim 1, wherein: the left connecting part comprises a left connecting plate which is provided with a groove with a rightward opening and used for embedding the photovoltaic module, and the left connecting plate comprises a left bottom plate attached to the left side surface of the photovoltaic module; the drainage groove comprises a left groove plate and a right groove plate, wherein the left groove plate is provided with an upward opening and comprises a right groove wall plate, and the right groove wall plate is connected with the left bottom plate into a whole;

3. The photovoltaic module mount of claim 2, wherein: the left groove plate comprises a groove bottom plate forming the groove bottom of the drainage groove, and a water retaining rib extending along the length direction of the left frame is arranged on the groove bottom plate.

4. The photovoltaic module mount of claim 3, wherein: the left groove plate comprises a left groove wall plate opposite to the right groove wall plate, and groove falling part bulges are arranged at the top end of the left groove wall plate and the top end of the right groove wall plate; the upper cover below is connected with two and corresponds respectively left baffle, the right baffle of left side groove wallboard with right side groove wallboard, the bottom of left side baffle the bottom of right side baffle all is provided with the upper cover arch, works as left side frame with when right frame docks, left side baffle bottom the upper cover protruding with left cell wall board upper end the protruding joint of groove portion that falls, right baffle bottom the upper cover protruding with right cell wall board upper end the protruding joint of groove portion that falls.

5. The photovoltaic module mount of claim 4, wherein: the right connecting plate is including laminating the right bottom plate on photovoltaic module's right side surface, the right bottom plate with left baffle is connected as an organic wholely.

6. The photovoltaic module mount of claim 3, wherein: the groove bottom plate is provided with a hole for arranging a screw, and the left frame is fixedly connected with the tile hanging strip through the screw arranged in the hole.

7. The photovoltaic module mount of claim 6, wherein: the opening comprises a first portion with an inner diameter larger than the diameter of the head of the screw and a second portion with an inner diameter smaller than the diameter of the head of the screw.

8. The photovoltaic module mount of claim 1, wherein: and flexible gaskets are arranged between the photovoltaic assembly and the left frame and between the photovoltaic assembly and the right frame.