CN218758363U - Special power generation operation and maintenance footboard of BIPV roofing - Google Patents

Abstract

The utility model belongs to the photovoltaic field, concretely relates to special electricity generation fortune dimension footboard of BIPV roofing, including subassembly backplate and photovoltaic module, the upper end of subassembly backplate sets up the mounting groove, photovoltaic module inlays and locates in this mounting groove. The utility model discloses install photovoltaic module on the subassembly backplate, combine together footboard and photovoltaic module for the footboard still can satisfy the photovoltaic and put the effect of some under the effect that satisfies the daily fortune dimension in power station, has improved the utilization area on roof greatly, has increased the installed capacity in power station.

Description

Special power generation operation and maintenance footboard of BIPV roofing

Technical Field

The utility model belongs to the photovoltaic field, concretely relates to special electricity generation fortune dimension footboard of BIPV roofing.

Background

In order to facilitate the construction of the photovoltaic roof, an operation and maintenance pedal is generally required to be laid on the photovoltaic roof to serve as an operation and maintenance channel. For example, chinese patent publication No. CN108462461A discloses a high performance pedal for maintenance of a photovoltaic power station, which is disposed at a lower portion of a photovoltaic module, and includes a structural profile, an anti-slip pedal assembly, and a telescopic plug, wherein a vertical end surface of the structural profile along an extending direction of the structural profile has a fastening groove, a plurality of structural profiles are fastened and connected end to end through the fastening groove to form a structural platform, and a bearing groove and a grip groove provided along the extending direction of the structural profile are provided at an upper portion of the structural profile; the anti-skid pedal assembly is mounted on the upper portion of the bearing groove, the fixed end caps and the telescopic end caps are mounted on the two end faces of the structural section in the extending direction respectively, the telescopic end caps are located below the anti-skid pedal assembly, each telescopic end cap is provided with a sliding tongue, and the distance from the sliding tongue extending into the anti-skid pedal assembly is adjustable. Adopt mosaic structure during this footboard design, overall design makes the whole bending strength of footboard structure high, and the flexible operation, the function is various, for manual operation safety protection driving on the photovoltaic module.

However, the photovoltaic operation and maintenance pedal still has the following problems: the operation and maintenance pedal occupies the space of the roof, so that the placement of the photovoltaic module is reduced, and the utilization rate of the area of the roof is reduced.

SUMMERY OF THE UTILITY MODEL

In order to compensate the defects of the prior art, the utility model provides a technical scheme of a special electricity generation fortune dimension footboard of BIPV roofing.

The utility model provides a special electricity generation fortune dimension footboard of BIPV roofing, includes subassembly backplate and photovoltaic module, the upper end of subassembly backplate sets up the mounting groove, photovoltaic module inlays and locates in this mounting groove.

Further, the top of the photovoltaic module is flush with the top of the module backplane.

Further, the photovoltaic module is adhered in the mounting groove.

Further, the bottom wall of the mounting groove of the assembly back plate is recessed to form a groove.

Furthermore, the left side and the right side of the component back plate are respectively provided with a component back plate plug.

Furthermore, the mounting groove of the assembly backboard is a structure which is through in the left-right direction, and the side edges of the photovoltaic assembly and the assembly backboard are wrapped by the assembly backboard plug.

Further, the assembly back plate plug is of a C-shaped structure.

Furthermore, the front side and the rear side of the assembly back plate are respectively provided with an assembly back plate frame downwards.

Further, the component back plate frame is formed by downward extension and inward extension of the component back plate edge.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses install photovoltaic module on the subassembly backplate, combine together footboard and photovoltaic module for the footboard still can satisfy the photovoltaic and put the effect of some under the effect that satisfies the daily fortune dimension in power station, has improved the utilization area on roof greatly, has increased the installed capacity in power station.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

fig. 4 is a schematic diagram of the back plate structure of the middle assembly of the present invention.

Detailed Description

In the description of the present invention, it is to be understood that the terms "one end", "the other end", "the outside", "upper", "inside", "horizontal", "coaxial", "central", "end", "length", "outer end", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-4, a special power generation operation and maintenance pedal for BIPV roof, including assembly backboard 1 and photovoltaic module 2, the upper end of assembly backboard 1 is provided with mounting groove 100, and photovoltaic module 2 is embedded in this mounting groove 100, the utility model discloses utilize assembly backboard 1 as the main part of pedal, have sufficient bearing capacity.

The photovoltaic module 2 is adhered in the mounting groove 100 through a structural sealant 4, and the structural sealant can play a role in sealing.

Wherein, photovoltaic module 2 adopts dual glass assembly, and upper glass has conventional anti-skidding design.

It can be understood, in above-mentioned technical scheme, the utility model discloses install photovoltaic module 2 on subassembly backplate 1, combine together footboard and photovoltaic module 2 for the footboard still can satisfy the photovoltaic and put the effect of some under the effect that satisfies the daily fortune dimension in power station, has improved the utilization area on roof greatly, has increased the installed capacity in power station.

With continued reference to fig. 2, the top of the photovoltaic module 2 is flush with the top of the module backing sheet 1, which prevents dust deposition.

Continuing to refer to fig. 4, the module backboard 1 is a metal profile with the same cross section, so the mounting groove 100 of the module backboard 1 is a structure which is through in the left-right direction, the bottom wall of the mounting groove 100 of the module backboard 1 is recessed to form two grooves 101, the grooves 101 are also through in the left-right direction, and the grooves 101 can be used for accommodating the junction box of the photovoltaic module 2. The front side and the rear side of the assembly back plate 1 respectively extend downwards and horizontally inwards to form an assembly back plate frame 102, and the bottom of the assembly back plate frame 102 is flush with the bottom of the groove 101.

With reference to fig. 1 and 3, the assembly back plate plugs 3 are respectively disposed at the left and right sides of the assembly back plate 1, the assembly back plate plugs 3 are C-shaped, and the assembly back plate plugs 3 wrap the sides of the photovoltaic assembly 2 and the assembly back plate 1, and are bonded to the photovoltaic assembly 2 and the assembly back plate 1 by a common structural sealant 4.

The utility model is characterized in that:

1. the pedal can provide power generation performance under the action of meeting the operation and maintenance channel of the power station;

2. the back of the photovoltaic module adopts the metal back plate, so that the pedal has higher reliability, and fragments cannot fall into a building even if the photovoltaic module glass is broken under the condition of meeting the requirement of the strength of the pedal;

3. the assembly back plate is designed to be concave, and after the assembly back plate is combined with the photovoltaic assembly, the upper surface is flat, and the dust accumulation effect cannot be generated;

4. the utility model discloses wholly be the modularized design, the installation is changed portably.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the scope of the invention in its corresponding aspects.

Claims (9)

1. The utility model provides a special electricity generation fortune dimension footboard of BIPV roofing, its characterized in that, includes subassembly backplate (1) and photovoltaic module (2), the upper end of subassembly backplate (1) sets up mounting groove (100), photovoltaic module (2) inlay and locate in this mounting groove (100).

2. The special power generation operation and maintenance pedal for the BIPV roof as claimed in claim 1, wherein the top of the photovoltaic module (2) is flush with the top of the module backboard (1).

3. The special power generation operation and maintenance pedal for the BIPV roof as claimed in claim 1, wherein the photovoltaic module (2) is adhered in the installation groove (100).

4. The special power generation operation and maintenance pedal for the BIPV roof as claimed in claim 1, wherein the bottom wall of the mounting groove (100) of the module backboard (1) is recessed to form a groove (101).

5. The special power generation operation and maintenance pedal for the BIPV roof as claimed in claim 1, wherein the left and right sides of the assembly back plate (1) are respectively provided with an assembly back plate plug (3).

6. The special power generation, operation and maintenance pedal for the BIPV roof as claimed in claim 5, wherein the mounting groove (100) of the module back plate (1) is a structure which is through in the left-right direction, and the module back plate plugs (3) wrap the photovoltaic module (2) and the side edges of the module back plate (1).

7. The special power generation operation and maintenance pedal for the BIPV roof as claimed in claim 5, wherein the assembly back plate plug (3) is of a C-shaped structure.

8. The special BIPV power generation operation and maintenance pedal for the roof of the building construction according to claim 1, wherein the module backboard frames (102) are respectively arranged at the front side and the rear side of the module backboard (1) downwards.

9. The BIPV roofing dedicated power generation operation and maintenance pedal as claimed in claim 8, wherein the module backboard frame (102) is formed by extending downward and inward edges of the module backboard (1).

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