CN112482624A

CN112482624A - Integrated curtain wall external hanging type cadmium telluride photovoltaic power generation mounting structure

Info

Publication number: CN112482624A
Application number: CN202011329602.3A
Authority: CN
Inventors: 彭寿; 杜江; 潘锦功; 李永强; 傅干华; 姜文俊杰; 卢波林; 李荔; 向陈; 陈杰林; 黄成�
Original assignee: Cnbm Chengdu Optoelectronic Materials Co ltd
Current assignee: Cnbm Chengdu Optoelectronic Materials Co ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2021-03-12

Abstract

The invention discloses an integrated curtain wall external hanging type cadmium telluride photovoltaic power generation mounting structure which comprises curtain wall glass, a photovoltaic module plate arranged in front of the curtain wall glass and a bracket for mounting and fixing the curtain wall glass and the photovoltaic module plate; the bracket comprises a plurality of cross beams and upright posts which are arranged in a cross way; the upright column comprises an upright column body, and the front surface of the upright column body is provided with an extension part; the curtain wall glass is fixedly pressed on the upright post bodies on two sides of the extending part by virtue of the pressing plate; the front end of the extension part is provided with a base, and the photovoltaic module plate is fixed on the base. The photovoltaic module board is combined with a building to realize heat insulation, heat preservation, lighting and convenient installation, can be arranged and combined according to the actual condition of the building, saves the investment cost, reduces the recycling period and simultaneously has the beautiful function.

Description

Integrated curtain wall external hanging type cadmium telluride photovoltaic power generation mounting structure

Technical Field

The invention relates to an integrated curtain wall externally-hung photovoltaic power generation mounting structure.

Background

The decorative curtain wall of the building is used as an outer protective structure of the building, has been developed for decades in China, and glass, aluminum plates, stone and the like which are widely adopted are used as panel materials of a curtain wall system to form colorful vertical surface effects of the building curtain wall, so that the building curtain wall is deeply loved by people. Along with the development of modern curtain wall technology, in order to meet the requirements of China on energy conservation and environmental protection of building curtain walls, a solar photovoltaic curtain wall system formed by combining a solar photovoltaic technology and a curtain wall technology is used as a novel and green energy technology, and the application prospect of the solar photovoltaic curtain wall system is very considerable.

The existing building photovoltaic curtain wall uses a photovoltaic cell panel to replace an outer sheet of hollow glass of the original curtain wall, and a photovoltaic cell sheet is positioned in a hollow layer; or the photovoltaic cell panel is directly used for replacing the original curtain wall glass.

In the first installation and driving process, in order to meet the requirement of building energy conservation, a photovoltaic panel is generally manufactured into hollow glass as an outer layer to be applied to a building curtain wall, however, a solar panel is sealed in the hollow layer, the temperature rises sharply after being radiated by sunlight, the conversion efficiency of a photovoltaic cell is greatly reduced, and unsafe factors exist due to overhigh temperature.

In the second kind of installation form, directly replace original building material with the battery board, however because photovoltaic module's characteristic, the temperature rises violently after the work, and inside heat transfer to the building, cause the inside high temperature of building, not only increased the building energy consumption, still increased the potential safety hazard. Meanwhile, the traditional installation mode is inconvenient for adjusting the installation position to meet the requirement of indoor lighting, and particularly, the traditional installation mode can only be additionally provided with a structural support system when being applied to high-rise office buildings and other similar situations, so that the material use is increased, and the shape and the safety of the curtain wall of the outer facade of the building can be influenced.

Disclosure of Invention

In view of the above, the invention provides an integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure, which enables cadmium telluride power generation glass to be conveniently mounted in combination with buildings in the aspects of heat insulation, heat preservation, lighting and arrangement and combination according to the actual conditions of the buildings, saves investment cost, reduces the recycling period and simultaneously has attractive appearance.

In order to solve the technical problems, the technical scheme of the invention is that an integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure is adopted, and the integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure comprises curtain wall glass, a photovoltaic module plate arranged in front of the curtain wall glass, and a bracket for mounting and fixing the curtain wall glass and the photovoltaic module plate; the bracket comprises a plurality of cross beams and upright posts which are arranged in a cross way; the upright column comprises an upright column body, and the front surface of the upright column body is provided with an extension part; the curtain wall glass is fixedly pressed on the upright post bodies on two sides of the extending part by virtue of the pressing plate; the front end of the extension part is provided with a base, and the photovoltaic module plate is fixed on the base.

As an improvement, the cross section of the base is trapezoidal, and a side plate used for being connected with the extending part of the upright post is arranged on one shorter parallel edge of the base; the back of the photovoltaic assembly plate frame and the end face of the base are provided with hangers which can be buckled mutually; and the photovoltaic module board is fixed on the base by screws after the lugs of the photovoltaic module board frame and the lugs of the base are buckled. Can conveniently carry out ascending adjustment from top to bottom to photovoltaic module according to demands such as illumination. During adjustment, only the screws need to be loosened, and the photovoltaic module plate can slide up and down along the hanging lugs.

As a further improvement, the hanging lugs are longitudinally arranged on the right-angle folded plates. The frame is provided with an extension plate used for being connected with the base, and the screw penetrates through the extension plate to fix the frame on the base. The positioning can be realized and the up-and-down position can be conveniently adjusted.

As another further improvement, the photovoltaic module plates are arranged on the left side and the right side of the base, and front decorative buckle plates are arranged between the photovoltaic module plates on the left side and the right side. The decorative buckle plate is used for sealing a gap between the two photovoltaic module plates, and wires and other accessories can be hidden, so that the whole photovoltaic module is more attractive.

As an improvement, a front decorative buckle plate mounting seat is arranged on the end face of the base, and a connecting part which is connected with the mounting seat in a matching way is arranged on the back face of the buckle plate of the front device; the connecting part and the mounting seat are provided with wavy surfaces which can be meshed with each other.

As an improvement, the pressing plate is in a shape of a right-angle folded plate, one surface of the pressing plate is fixed on the extending part, and the other surface of the pressing plate is used for pressing curtain wall glass. The curtain wall glass is fixed through the pressing plate in the shape of a right-angle folded plate, and the curtain wall glass is more convenient and faster.

As an improvement, a side device buckle plate is arranged between the base and the pressing plate; the side device is characterized in that buckles capable of being buckled with each other are arranged on the back of the buckle plate and the side of the base. The photovoltaic component plate is used for shielding the gap between the curtain wall glass and the photovoltaic component plate and hiding the wires.

As an improvement, the section of the extension part is rectangular, and curtain wall glass is arranged on the left side and the right side of the extension part.

As an improvement, the upright posts and the cross beams are fixed by connecting angle connectors.

As an improvement, the curtain wall glass is one or more of hollow glass, laminated glass, single glass and laminated hollow glass.

The invention has the advantages that: the integrated curtain wall outer hanging type cadmium telluride photovoltaic power generation mounting structure with the structure improves the existing photovoltaic building: make cavity glass after combining photovoltaic cell piece and curtain wall glass in current building material type photovoltaic building on being applied to the curtain wall system, cause the battery piece to be in inclosed cavity in situ, to photovoltaic cell panel's the heat dissipation that is unfavorable for the photovoltaic cell piece, and then influence photovoltaic cell's conversion efficiency, be fixed in simultaneously on the curtain wall back photovoltaic cavity glass overhaul in the later stage, maintain, change the subassembly bring inconveniently, can only change together with curtain wall glass and cause the wasting of resources.

On the other hand, compared with the existing installation type photovoltaic building, the photovoltaic module needs to be additionally provided with the support keel, once the photovoltaic module is fixed in position, the photovoltaic module cannot be adjusted up and down, and if the photovoltaic module moves up and down, the support system must be completely redesigned, so that the current aesthetic requirements of pursuing agility and change of the building are hindered.

Drawings

Fig. 1 is a cross-sectional structural view of the present invention.

The labels in the figure are: the solar curtain wall comprises a photovoltaic module plate 1, a connecting angle connector 2, a cross beam 3, a vertical column 4, curtain wall glass 5, a pressing plate 6, screws 7, a base 8, bolts 9, lateral device buckling plates 10, side frames 11, side frames 12, screws 13, a mounting seat 14, screws 15 and a front decorative buckling plate 16.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, the present invention will be further described in detail with reference to the following embodiments.

As shown in fig. 1, the invention includes a curtain wall glass 5 (the curtain wall glass 5 is one or more of hollow glass, laminated glass, single glass and laminated hollow glass), a photovoltaic module plate 1 arranged in front of the curtain wall glass 5, and a bracket for installing and fixing the curtain wall glass 5 and the photovoltaic module plate 1; the support comprises a plurality of cross beams 3 and upright posts 4 which are arranged in a cross way; the upright post 4 and the cross beam 3 are fixed by the connecting angle bracket 2. The upright column 4 comprises an upright column body, and the front surface of the upright column body is provided with an extension part; the section of the extending part is rectangular, and curtain wall glass 5 is arranged on the left side and the right side of the extending part. The curtain wall glass 5 is fixedly pressed on the upright post bodies on the two sides of the extending part by virtue of the pressing plate 6; the front end of the extending part is provided with a base 8, and the photovoltaic module plate 1 is fixed on the base 8. The base 8 is fixed to the extension of the upright 4 by means of bolts 9.

Specifically, the base 8 has a trapezoidal section, and a side plate for connecting with the extending part of the upright post 4 is arranged on the shorter parallel edge of the base; the bolts 9 act on the side plates. The back of the frame 11 of the photovoltaic module plate 1 and the end surface of the base 8 are provided with hangers which can be mutually buckled; and the photovoltaic module board 1 is fixed on the base 8 by the screws 13 after the hanging lugs of the frame 11 of the photovoltaic module board 1 and the hanging lugs of the base 8 are buckled. The hangers are longitudinally arranged on the right-angle folded plates. The frame 11 and the frame 12 have extension plates for connecting with the base 8, and the screws 13 penetrate through the extension plates to fix the frame 11 and the frame 12 on the base 8. The photovoltaic module boards 1 are arranged on the left and right sides of the base 8, so that the hanging lugs on the base 8 are arranged on the left and right sides, and the hanging lugs are arranged on the

frames

11 and 12 of the two photovoltaic module boards 1. And a front decorative buckle plate 16 is arranged between the photovoltaic module plates 1 at the left side and the right side. The end surface of the base 8 is provided with a mounting seat 14 of a front decorative buckle plate 16, and the mounting seat 14 of the front decorative buckle plate 16 is regulated by a screw 15 and the base 8. The back of the front device buckle plate 16 is provided with a connecting part which is matched and connected with the mounting seat 14; the connecting part and the mounting seat 14 are provided with wavy surfaces which can be meshed with each other. In this embodiment, the diameter of the mounting seat 14 is smaller than that of the connecting portion, so that the inner wall of the connecting portion 14 and the outer wall of the mounting seat are provided with mutually matched wavy surfaces.

The pressing plate 6 is in a shape of a right-angle folded plate, one surface of the pressing plate is fixed on the extending part through a screw 7, and the other surface of the pressing plate is used for pressing the curtain wall glass 5. A side device buckle plate 10 is arranged between the base 8 and the pressing plate 6; the side device comprises a buckle plate 10 and a base 8, wherein the buckle plate is arranged on the back of the side device and the side of the base is provided with buckles which can be buckled with each other.

When the vertical surface of the photovoltaic module plate 1 needs to be adjusted up and down, the up-and-down movement and the positioning and fixing can be completed only by detaching the front decorative buckle plate 16, the side decorative buckle plate 10 and the screw 13; when the photovoltaic module 1 plate needs to be replaced, the installation can be carried out only by disassembling the installation seat 14 of the buckle plate of the device without changing the structure of the curtain wall cross beam 3 or the curtain wall upright post 4 and the installation system of the curtain wall glass, so that the replacement is very convenient and fast; and when the system installation, as long as pay attention to the uniformity of controlling the installation precision of the curtain wall stand column 4, the smooth installation of the externally hung photovoltaic module of the glass curtain wall can be ensured, thereby meeting the application requirements of a curtain wall system and the photovoltaic module system on the decoration effect outside a building.

The above is only a preferred embodiment of the present invention, and it should be noted that the above preferred embodiment should not be considered as limiting the present invention, and the protection scope of the present invention should be subject to the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the spirit and scope of the invention, and these modifications and adaptations should be considered within the scope of the invention.

Claims

1. An integrated curtain wall external hanging type cadmium telluride photovoltaic power generation mounting structure comprises curtain wall glass, a photovoltaic module plate arranged in front of the curtain wall glass, and a bracket for mounting and fixing the curtain wall glass and the photovoltaic module plate; the method is characterized in that: the bracket comprises a plurality of cross beams and upright posts which are arranged in a cross way; the upright column comprises an upright column body, and the front surface of the upright column body is provided with an extension part; the curtain wall glass is fixedly pressed on the upright post bodies on two sides of the extending part by virtue of the pressing plate; the front end of the extension part is provided with a base, and the photovoltaic module plate is fixed on the base.

2. The integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure as claimed in claim 1, wherein: the cross section of the base is trapezoidal, and a side plate used for being connected with the extending part of the upright post is arranged on one shorter parallel edge of the base; the back of the photovoltaic assembly plate frame and the end face of the base are provided with hangers which can be buckled mutually; and the photovoltaic module board is fixed on the base by screws after the lugs of the photovoltaic module board frame and the lugs of the base are buckled.

3. The integrated curtain wall externally-hung type cadmium telluride photovoltaic power generation mounting structure as claimed in claim 2, wherein: the hanging lugs are longitudinally arranged on the right-angle folded plates; the frame is provided with an extension plate used for being connected with the base, and the screw penetrates through the extension plate to fix the frame on the base.

4. The integrated curtain wall externally-hung type cadmium telluride photovoltaic power generation mounting structure as claimed in claim 2, wherein: the photovoltaic module boards are arranged on the left side and the right side of the base, and front decorative buckle plates are arranged between the photovoltaic module boards on the left side and the right side.

5. The integrated curtain wall externally-hung type cadmium telluride photovoltaic power generation mounting structure as claimed in claim 4, wherein: the front decorative buckle plate mounting seat is arranged on the end face of the base, and the back of the buckle plate of the front device is provided with a connecting part which is matched and connected with the mounting seat; the connecting part and the mounting seat are provided with wavy surfaces which can be meshed with each other.

6. The integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure as claimed in claim 1, wherein: the pressing plate is in a right-angle folded plate shape, one surface of the pressing plate is fixed on the extending part, and the other surface of the pressing plate is used for pressing the curtain wall glass.

7. The integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure as claimed in claim 1, wherein: a side device buckle plate is arranged between the base and the pressing plate; the side device is characterized in that buckles capable of being buckled with each other are arranged on the back of the buckle plate and the side of the base.

8. The integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure as claimed in claim 1, wherein: the cross section of the extension part is rectangular, and curtain wall glass is arranged on the left side and the right side of the extension part.

9. The integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure as claimed in claim 1, wherein: the upright posts and the cross beams are fixed by connecting angle connectors.

10. The integrated curtain wall externally-hung cadmium telluride photovoltaic power generation mounting structure as claimed in claim 1, wherein: the curtain wall glass is one or more of hollow glass, laminated glass, single glass and laminated hollow glass.