CN220954267U - Photovoltaic bracket for color steel roof - Google Patents

Abstract

The utility model provides a color steel roof photovoltaic support, relates to the technical field of photovoltaic supports, and solves the technical problem that an existing photovoltaic support is poor in tightness and easy to leak water. The device comprises a water receiving tank structure, a connecting structure and a mounting structure, wherein the bottom of the water receiving tank structure is connected with a roof through the mounting structure, a plurality of water receiving tank structures are arranged in parallel at intervals, each water receiving tank structure is respectively arranged below the edge of a corresponding photovoltaic module, the connecting structure is arranged on the water receiving tank structure and is used for connecting the photovoltaic module with the water receiving tank structure; the rainwater that the gap was leaked down between the water receiving tank structure and the rainwater that the surface washout was fallen down are concentrated and are collected and discharged to the outside on roof from the notch of water receiving tank structure to concentrate the rainwater and discharge, avoid the extensive washing out diffuse cover of rainwater, strengthened the leakproofness between the photovoltaic module, thereby avoid the photovoltaic module bottom to leak water, prevent that the rainwater from through the hole of various steel surface junction and immerse the corruption roofing.

Description

Photovoltaic bracket for color steel roof

Technical Field

The utility model relates to the technical field of photovoltaic supports, in particular to a color steel roof photovoltaic support.

Background

Often, color steel roofs are equipped with multiple groups of installed photovoltaic modules, gaps are formed between the photovoltaic modules, and rainwater falls onto the surfaces of the color steel roofs from the gaps. The existing photovoltaic support is directly used for fixing the photovoltaic modules on the roof color steel plates through the connecting pieces such as screws, the tightness is poor, gaps between the photovoltaic modules cannot be eliminated, rainwater falling onto the surfaces of the color steel roofs from the gaps between the photovoltaic modules can permeate into the roofs through holes and gaps formed by connection of the connecting pieces such as the screws on the roof color steel plates, and the problem of water leakage and roof corrosion is solved.

Disclosure of utility model

The utility model aims to provide a color steel roof photovoltaic bracket to solve the technical problems that the existing photovoltaic bracket is poor in tightness and easy to leak water. The preferred technical solutions of the technical solutions provided by the present utility model can produce a plurality of technical effects described below.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides a color steel roof photovoltaic bracket which comprises a plurality of water receiving groove structures, a connecting structure and a mounting structure, wherein the bottoms of the water receiving groove structures are connected with a roof through the mounting structure, the water receiving groove structures are arranged in parallel at intervals, each water receiving groove structure is respectively arranged below the edge of a corresponding photovoltaic module, the connecting structure is arranged on the water receiving groove structure, and the connecting structure is used for connecting the photovoltaic module with the water receiving groove structure.

Preferably, both ends of the water receiving groove structure extend to the roof edge respectively, the water receiving groove structure comprises an M-shaped waterproof groove and a transverse waterproof groove, the M-shaped waterproof groove is located below a joint gap between adjacent photovoltaic modules, the left side edge of the leftmost photovoltaic module and the right side edge of the rightmost photovoltaic module respectively, the transverse waterproof groove is arranged below the front side edge of the leftmost photovoltaic module and the rear side edge of the rearmost photovoltaic module respectively, both ends of the transverse waterproof groove are communicated with the M-shaped waterproof groove, the upper end of the M-shaped waterproof groove supports the photovoltaic module, and the connecting structure is connected with the photovoltaic module and the M-shaped waterproof groove respectively.

Preferably, the connecting structure comprises a seam waterproof support group and an edge waterproof support group, wherein the seam waterproof support group is arranged between two adjacent photovoltaic modules, the seam waterproof support group is respectively connected with the photovoltaic modules and the M-shaped waterproof grooves, the edge waterproof support group is arranged on the M-shaped waterproof grooves below the left edge of the leftmost photovoltaic module and the right edge of the rightmost photovoltaic module, and the edge waterproof support group is respectively connected with the M-shaped waterproof grooves and the photovoltaic modules.

Preferably, the seam waterproof support group comprises a middle support plate and a middle press block, the middle press block is arranged in a gap between two adjacent photovoltaic modules, the middle support plate is arranged between the middle press block and the M-shaped waterproof groove and is respectively connected with the middle press block and the M-shaped waterproof groove, and an auxiliary groove is formed in the middle support plate and used for discharging rainwater.

Preferably, the middle pressure block comprises a middle pressure plate and a connecting groove, the connecting groove is arranged in a gap between two adjacent photovoltaic modules, the bottom of the connecting groove is connected with the middle support plate, the middle pressure plate is arranged on two sides of the connecting groove, and the middle pressure plate is pressed on the upper surface of the photovoltaic modules.

Preferably, the edge waterproof bracket group comprises a side arm plate and a side pressing block; the upper end of the side pressing block is pressed on the upper surface of the photovoltaic module, and the lower end of the side pressing block is connected with the M-shaped waterproof groove through the side supporting plate.

Preferably, the edge pressing block comprises an edge pressing plate and a connecting plate, wherein the lower end of the connecting plate is connected with the edge supporting plate, the edge pressing plate is arranged at the upper end of the connecting plate, and the edge pressing plate is pressed on the upper surface of the photovoltaic module.

Preferably, the mounting structure comprises a steel structure beam, the steel structure beam is arranged at the bottom of the M-shaped waterproof groove, and the steel structure beam is fixed at the bottom of the M-shaped waterproof groove through a hoop or a corner bracket bolt.

Preferably, the photovoltaic module further comprises an arched cover plate, wherein the arched cover plate is arranged at a gap between two adjacent photovoltaic modules, and the arched cover plate is arranged above the middle pressing block.

According to the color steel roof photovoltaic support, rainwater leaked from gaps between photovoltaic modules and rainwater flushed and fallen from surfaces are collected in a concentrated mode by the water receiving groove structure and discharged to the outer side of a roof from the notch of the water receiving groove structure, so that rainwater is discharged in a concentrated mode, large-area flushing and diffuse covering of the rainwater is avoided, sealing performance between the photovoltaic modules is enhanced, water leakage at the bottom of the photovoltaic modules is avoided, the rainwater is prevented from being immersed into a corrosion roof through holes in the joints of the surfaces of the color steel, the water receiving groove structure is firmly connected with the color steel roof through the mounting structure, the photovoltaic modules are connected with the water receiving groove structure through the connecting structure, and the photovoltaic modules are supported and fixed, so that safety and reliability of use of the photovoltaic modules are guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a photovoltaic bracket for a color steel roof provided by the utility model;

FIG. 2 is a schematic front view of the color steel roof photovoltaic bracket provided by the utility model;

FIG. 3 is a schematic enlarged view of a seam waterproof support set in a color steel roof photovoltaic support provided by the utility model;

fig. 4 is a schematic enlarged view of a waterproof bracket set of an edge plate in the color steel roof photovoltaic bracket provided by the utility model.

In the figure 1, a photovoltaic module; 2. an M-shaped waterproof groove; 3. a transverse waterproof groove; 4. a seam waterproof bracket set; 41. a middle pole plate; 42. a middle pressing block; 421. a middle pressing plate; 422. a connecting groove; 43. an auxiliary groove; 44. a blade screw nut set; 5. edge waterproof support group; 51. an edge support plate; 52. pressing the edges into blocks; 521. an edge pressing plate; 522. a connecting plate; 6. a steel structural beam; 7. a hoop; 8. an arched cover plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Hereinafter, embodiments will be described with reference to the drawings. Furthermore, the embodiments shown below do not limit the summary of the utility model described in the claims. The whole contents of the constitution shown in the following examples are not limited to the solution of the utility model described in the claims.

Referring to fig. 1-4, the embodiment provides a color steel roof photovoltaic support, which comprises water receiving tank structures, connecting structures and mounting structures, wherein the water receiving tank structures are a plurality of water receiving tank structures, the bottoms of the water receiving tank structures are connected with a roof through the mounting structures, the water receiving tank structures are arranged at intervals in parallel, each water receiving tank structure is respectively arranged below the edge of the corresponding photovoltaic module 1, the connecting structures are arranged on the water receiving tank structures, and the connecting structures are used for connecting the photovoltaic module 1 and the water receiving tank structures.

The rainwater that the gap was leaked down and the rainwater that the surface washout was fallen down between the water receiving tank structure are concentrated to the water receiving tank structure to the outside of collecting the rainwater to concentrate the rainwater and discharge, avoid the large-area washing away of rainwater to cover, strengthened the leakproofness between the photovoltaic module 1, thereby avoid the photovoltaic module 1 bottom to leak, prevent that the rainwater from passing through the hole of various steel surface junction and immersing the corruption roofing, be connected firmly with various steel roof through mounting structure with the water receiving tank structure, then connection structure is connected photovoltaic module 1 with the water receiving tank structure, support and fix photovoltaic module 1, guarantee the security and the reliability that photovoltaic module 1 used.

Referring to fig. 1-2, as an alternative embodiment, two ends of the water receiving tank structure extend to the edge of the roof respectively, the water receiving tank structure comprises an M-shaped waterproof tank 2 and a transverse waterproof tank 3, the M-shaped waterproof tank 2 is located below a joint gap between adjacent photovoltaic modules 1, the left edge of the leftmost photovoltaic module 1 and the right edge of the rightmost photovoltaic module 1 respectively, the transverse waterproof tank 3 is arranged below the front edge of the leftmost photovoltaic module 1 and the rear edge of the rearmost photovoltaic module 1 respectively, two ends of the transverse waterproof tank 3 are communicated with the M-shaped waterproof tank 2, the upper end of the M-shaped waterproof tank 2 supports the photovoltaic module 1, and the connecting structure is connected with the photovoltaic modules 1 and the M-shaped waterproof tank 2 respectively.

The rainwater leaked from gaps between the photovoltaic modules 1 and the rainwater flushed and fallen from the surfaces are collected in a centralized mode through the combined action of the M-shaped waterproof grooves 2 and the transverse waterproof grooves 3, and are discharged from the notches of the M-shaped waterproof grooves 2 and the transverse waterproof grooves 3, so that the rainwater is discharged in a centralized mode, the large-area flushing diffuse cover of the rainwater is avoided, all gaps and edges of the bottoms of the photovoltaic modules 1 are covered through the M-shaped waterproof grooves 2 and the transverse waterproof grooves 3, the tightness between the photovoltaic modules 1 is enhanced, and the bottom of the photovoltaic modules 1 is prevented from leaking.

Referring to fig. 1-2, as an alternative embodiment, the connection structure includes a seam waterproof support group 4 and an edge waterproof support group 5, the seam waterproof support group 4 is disposed between two adjacent photovoltaic modules 1, and the seam waterproof support group 4 is connected with the photovoltaic modules 1 and the M-type waterproof tank 2, the edge waterproof support group 5 is disposed on the M-type waterproof tank 2 below the left edge of the leftmost photovoltaic module 1 and the right edge of the rightmost photovoltaic module 1, and the edge waterproof support group 5 is connected with the M-type waterproof tank 4 and the photovoltaic modules 1, respectively.

The seam waterproof support group 4 and the edge waterproof support group 5 are used for respectively connecting and fixing the edge of the photovoltaic module 1 with the M-shaped waterproof groove 2, so that the stability of fixing the photovoltaic module 1 on the photovoltaic support is ensured.

Referring to fig. 1-2, as an alternative embodiment, the seam waterproof support group 4 includes a middle pole plate 41 and a middle pole block 42, the middle pole block 42 is disposed in a gap between two adjacent photovoltaic modules 1, the middle pole plate 41 is disposed between the middle pole block 42 and the M-type waterproof groove 2 and is connected with the middle pole block 42 and the M-type waterproof groove 2, respectively, an auxiliary groove 43 is provided on the middle pole plate 41, and the auxiliary groove 43 is used for draining rainwater.

The middle pressing block 23 is used for pressing and fixing the photovoltaic module 1, and is respectively connected with the M-shaped waterproof groove 2 and the middle pressing block 42 through the middle supporting plate 41, so that the integrity of the seam waterproof support group 2 is guaranteed, the seam waterproof support group 2 stably supports and fixes the photovoltaic module 1, and meanwhile, the middle pressing block 42 further seals gaps between two adjacent photovoltaic modules 1, and rainwater is prevented from penetrating.

The auxiliary groove 43 can also play a role in drainage and drainage, and forms dual drainage and waterproofing together with the M-shaped waterproof groove 21, so that the phenomenon that rainwater flows into excessive drainage is avoided.

Referring to fig. 1 to 3, as an alternative embodiment, the middle pressing block 42 includes a middle pressing plate 421 and a connection groove 422, the connection groove 422 is disposed in a gap between two adjacent photovoltaic modules 1, the bottom of the connection groove 422 is connected with the middle supporting plate 41, the middle pressing plate 421 is disposed at both sides of the connection groove 422, and the middle pressing plate 421 is pressed on the upper surface of the photovoltaic modules 1.

The spread groove 422 seals the gap between the photovoltaic module 1, is connected with the middle support plate 231 detachable simultaneously, is convenient for the dismantlement and the installation of the photovoltaic module 1, and the middle support plate 421 pressfitting realizes fixedly on the photovoltaic module 1, avoids the photovoltaic module 1 surface to punch simultaneously and can realize the connection and the fixation of the photovoltaic module 1, is difficult to damage the face of the photovoltaic module 1, has improved life.

The connecting groove 422 may be detachably connected to the middle arm plate 231 through a blade screw nut set.

Referring to fig. 1 to 4, as an alternative embodiment, the edge waterproof bracket set 5 includes an edge support plate 51 and an edge pressing block 52; the upper end of the side pressing block 52 is pressed on the upper surface of the photovoltaic module 1, and the lower end of the side pressing block 52 is connected with the M-shaped waterproof groove 2 through the side supporting plate 51.

As an alternative embodiment, the edge pressing block 52 includes an edge pressing plate 521 and a connecting plate 522, the lower end of the connecting plate 522 is connected to the edge support plate 51, the edge pressing plate 521 is disposed on the upper end of the connecting plate 522, and the edge pressing plate 521 is pressed against the upper surface of the photovoltaic module 1.

The side arm plate 51 is used for connecting the side pressing block 52 and the M-shaped waterproof groove 2, the side pressing plate 521 of the side pressing block 52 is used for pressing and fixing the edge of the photovoltaic module 1, and the connecting plate 522 of the side pressing block 52 is connected with the side arm plate 51, so that the edge of the photovoltaic module 1 is connected and fixed with the M-shaped waterproof groove 2.

Referring to fig. 1-2, as an alternative embodiment, the installation structure includes a steel structural beam 6, the steel structural beam 6 is disposed at the bottom of the M-type waterproof tank 2, and the steel structural beam 6 is fixed at the bottom of the M-type waterproof tank 2 by a hoop 7 or a corner bolt.

The photovoltaic module 1 and the M-shaped waterproof groove 2 are further supported and fixed above the color steel roof through the steel structure beam 6, the fixed photovoltaic module 1 can be erected, more use requirements are met according to actual conditions, and the anchor ear 7 or the corner brace ensures that the steel structure beam 6 is firmly connected with the M-shaped waterproof groove 2.

Referring to fig. 1-2, as an alternative embodiment, an arched cover plate 8 is further included, the arched cover plate 8 is disposed at a gap between two adjacent photovoltaic modules 1, and the arched cover plate 8 is disposed above the middle press block 42.

The detachable buckling of the arched cover plate 8 covers the gap between the two photovoltaic modules 1, rainwater flows to the two sides of the arched cover plate 8 through the radian of the surface of the arched cover plate 8, and therefore the rainwater is further prevented from penetrating to the roof through the gap.

It should be noted that, the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. are used herein for convenience of description and simplicity of description only, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description herein, it should also be noted that the terms "mounted," "connected," "coupled," and "connected," are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example, unless otherwise specifically indicated and defined; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a various steel roof photovoltaic support, its characterized in that, includes water receiving tank structure, connection structure and mounting structure, water receiving tank structure be a plurality of just water receiving tank structure bottom is passed through mounting structure is connected with the roof, and is a plurality of water receiving tank structure parallel interval sets up just every water receiving tank structure sets up respectively in the below that corresponds photovoltaic module (1) edge, be provided with connection structure on the water receiving tank structure, connection structure be used for connecting photovoltaic module (1) with water receiving tank structure.

2. The color steel roof photovoltaic bracket according to claim 1, wherein two ends of the water receiving groove structure extend to the edge of the roof respectively, the water receiving groove structure comprises an M-shaped waterproof groove (2) and a transverse waterproof groove (3), the M-shaped waterproof groove (2) is located below a joint gap between adjacent photovoltaic modules (1), a leftmost photovoltaic module (1) left edge and a rightmost photovoltaic module (1) right edge respectively, the transverse waterproof groove (3) is arranged below a frontmost photovoltaic module (1) front edge and a rearmost photovoltaic module (1) rear edge respectively, two ends of the transverse waterproof groove (3) are communicated with the M-shaped waterproof groove (2), and the upper end of the M-shaped waterproof groove (2) supports the photovoltaic modules (1), and the connecting structure is connected with the photovoltaic modules (1) and the M-shaped waterproof groove (2) respectively.

3. The color steel roof photovoltaic support according to claim 2, characterized in that the connection structure comprises a seam waterproof support group (4) and an edge waterproof support group (5), the seam waterproof support group (4) is arranged between two adjacent photovoltaic modules (1), the seam waterproof support group (4) is respectively connected with the photovoltaic modules (1) and the M-shaped waterproof groove (2), the edge waterproof support group (5) is arranged on the M-shaped waterproof groove (2) below the left edge of the leftmost photovoltaic module (1) and the right edge of the rightmost photovoltaic module (1), and the edge waterproof support group (5) is respectively connected with the M-shaped waterproof groove (2) and the photovoltaic module (1).

4. A color steel roof photovoltaic bracket according to claim 3, characterized in that the seam waterproof bracket group (4) comprises a middle pole plate (41) and a middle pole block (42), the middle pole block (42) is arranged in a gap between two adjacent photovoltaic modules (1), the middle pole plate (41) is arranged between the middle pole block (42) and the M-shaped waterproof groove (2) and is respectively connected with the middle pole block (42) and the M-shaped waterproof groove (2), an auxiliary groove (43) is arranged on the middle pole plate (41), and the auxiliary groove (43) is used for draining rainwater.

5. The color steel roof photovoltaic bracket according to claim 4, characterized in that the medium pressure block (42) comprises a medium pressure plate (421) and a connecting groove (422), the connecting groove (422) is arranged in a gap between two adjacent photovoltaic modules (1), the bottom of the connecting groove (422) is connected with a medium pressure plate (41), the medium pressure plate (421) is arranged at two sides of the connecting groove (422), and the medium pressure plate (421) is pressed on the upper surface of the photovoltaic modules (1).

6. The color steel roof photovoltaic bracket according to claim 5, characterized in that the edge waterproof bracket group (5) comprises a side carrier plate (51) and a side press block (52); the upper end of the side pressing block (52) is pressed on the upper surface of the photovoltaic module (1), and the lower end of the side pressing block (52) is connected with the M-shaped waterproof groove (2) through the side supporting plate (51).

7. The color steel roof photovoltaic support according to claim 6, characterized in that the edge pressing block (52) comprises an edge pressing plate (521) and a connecting plate (522), the lower end of the connecting plate (522) is connected with the edge supporting plate (51), the edge pressing plate (521) is arranged at the upper end of the connecting plate (522), and the edge pressing plate (521) is pressed on the upper surface of the photovoltaic module (1).

8. The color steel roof photovoltaic bracket according to claim 5, characterized in that the mounting structure comprises a steel structure beam (6), the steel structure beam (6) is arranged at the bottom of the M-shaped waterproof groove (2), and the steel structure beam (6) is fixed at the bottom of the M-shaped waterproof groove (2) through a hoop (7) or a corner bolt.

9. The color steel roof photovoltaic bracket according to claim 5, further comprising an arched cover plate (8), wherein the arched cover plate (8) is arranged at a gap between two adjacent photovoltaic modules (1), and the arched cover plate (8) is arranged above the middle press block (42).