JP3164180U - Multi-layer glass with power generation and thermal insulation functions - Google Patents

Abstract

Provided is a multi-layer glass having a power generation and thermal insulation function that can improve power generation efficiency and reduce manufacturing costs.
A multi-layer glass having a power generation and a heat insulation function is composed of a solar panel 2 and a heat insulation glass 3 capable of transmitting light, a heat reflection layer 32 is formed on the heat insulation glass 3, and the heat insulation glass 3 is formed. Between the solar panel 2 and the back of the solar panel 2 with a frame frame 41 interposed therebetween to form an isolation space 4, and thus the combination of the light-transmissive solar panel 2 and the heat insulating glass 3 allows indoor personnel The solar panel 2 that can see through and absorb light generates power by absorbing solar energy, and the heat reflecting layer 32 on the heat insulating glass 3 isolates the heat energy that radiates on the back of the solar panel 2 and Reflects heat radiation and returns it to the solar panel 2 to increase power generation efficiency.
[Selection] Figure 1

Description

The present invention relates to a double glazing, and more particularly to a double glazing having power generation and thermal insulation functions.

The window glass or daylighting glass that is often used in large buildings today is composed of a single layer of glass or acrylic.
However, they can effectively block ultraviolet rays in sunlight and prevent direct radiation of heat into the room, so that the room temperature is likely to rise when sunlight is intense.
Although a heat insulating material can be applied to the glass surface or a heat insulating film can be adhered, the effect is not ideal.
On the other hand, in recent years, as global fossil energy is facing a depletion crisis, development of a method to generate electricity using natural resources such as wind, hydropower, geothermal or solar energy to slow down the rate of petroleum energy consumption. In addition, each country is actively focusing.
For this reason, there have been companies that try to achieve the effect of solar energy power generation while replacing the window glass or daylighting glass described above with photoelectric glass and ensuring the perspective characteristics of the glass.

However, when the photovoltaic glass absorbs solar energy and generates electricity, a high temperature is generated on the back surface of the photovoltaic glass, thereby increasing the temperature in the room and increasing the cost of spending on indoor air conditioning.
Therefore, in view of the above-mentioned various drawbacks, the present invention provides power generation and heat generation that can effectively prevent the heat dissipation into the room while having the glass properties that allow the double-glazed glass to be seen through. Develop multi-layer glass with insulation function.

JP-A-2-286426 JP 2007-88280 A

The first problem to be solved by the present invention is to generate power with a light transmissive solar panel, further thermally insulate the back of the solar panel with heat insulating glass, thereby achieving power generation and heat insulating function. It is to provide a multilayer glass having a thermal insulation function.
The second problem to be solved by the present invention is that the heat reflecting layer on the heat insulating glass reflects the solar rays, so that the heat radiation generates power once again on the solar panel, thereby improving the power generation efficiency. It is to provide a double-glazed glass having a power generation and thermal insulation function.
The third problem to be solved by the present invention is to install a structure of a plurality of crystalline silicon solar panels having a space between two glass plates, so that the multilayer glass has a high light transmission ability, An object of the present invention is to provide a multi-layer glass having a power generation and thermal insulation function that can improve power generation efficiency and reduce manufacturing costs.

In order to solve the above problems, the present invention provides a multi-layer glass having the following power generation and thermal insulation functions.
Multi-layer glass with power generation and heat insulation functions consists of solar panels and heat insulation glass that can transmit light,
The light transmissive solar panel can generate power by absorbing solar energy, and the solar panel includes a front surface and a back surface facing the front surface.
Between the heat insulating glass and the back surface of the solar panel, a frame frame is sandwiched to form an isolation space, and a heat reflecting layer is formed on the heat insulating glass to emit heat from the outside. And by reflecting the thermal energy from the back of the solar panel,
In implementation, the solar panel is composed of two glass plates and an amorphous silicon thin film solar panel, and the amorphous silicon thin film solar panel is sandwiched between the two glass plates,
In implementation, the solar panel is composed of two glass plates and a plurality of crystalline silicon solar panels, and each crystalline silicon solar panel is sandwiched between the two glass plates, and each crystalline silicon solar panel With a gap between them, so that the light passes through the gap,
In implementation, the heat reflective layer is low-emissivity glass,
At the time of implementation, a glass plate is adhered and bonded onto the heat reflecting layer, and the heat reflecting layer is a heat insulating thin film,
At the time of implementation, an isolation space is formed between the thermally insulating glass and the back surface of the solar panel with a frame frame sandwiched between them.

The double-glazed glass having the power generation and thermal insulation functions of the present invention has the functions of fluoroscopy and power generation, and can effectively insulate the heat radiation generated by the power generation of the solar panel in the isolated space, and therefore The temperature can be effectively lowered, and the expenditure of cooling air conditioning used indoors can be saved.
Furthermore, the present invention can improve the power generation efficiency of the solar panel because the heat energy that is dissipated during the power generation of the solar panel is insulated in the isolated space and is generated again with respect to the solar panel.
In addition, the present invention installs a plurality of crystalline silicon solar panels between two glass plates, but the crystalline silicon solar panel has the characteristics of high power generation and low manufacturing cost, so that the power generation efficiency can be improved. Manufacturing cost can be reduced.
In addition, the present invention provides extremely high isolation between indoors and outdoors, so that the glass does not condense and maintains a good field of view. Can be reduced.

It is a component exploded view of the first embodiment of the present invention. It is combination sectional drawing of the 1st Example of this invention. It is a use condition figure of the 1st example of the present invention. It is an exploded view of a part of part of the second embodiment of the present invention. It is an exploded view of a part of part of the third embodiment of the present invention.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

As shown in FIGS. 1 and 2, the first embodiment of the multi-layer glass 1 having a power generation and heat insulation function according to the present invention is composed of a solar panel 2 and a heat insulation glass 3 that are capable of transmitting light.

The solar panel 2 can generate power by absorbing solar energy, and includes a first glass plate 21, a second glass plate 22, and a plurality of crystalline silicon solar panels 23.

Each of the crystalline silicon solar panels 23 is placed between the first glass plate 21 and the second glass plate 22, and each of the crystalline silicon solar panels 23 is arranged in a grid pattern, thereby A space 24 is provided between the silicon solar panels 23.

The crystalline silicon solar panels 23 can be arranged and combined according to a required design.

At the time of implementation, a photocatalyst layer is applied on the first glass plate 21, which makes it easy to keep the glass clean and ensure the stability of solar energy power generation.

Between the thermal insulating glass 3 and the back surface 25 of the solar panel 2, a frame frame 41 is sandwiched between the thermal insulating glass 3 and the solar panel 2 and the frame frame 41 by an adhesive material. Thereby, an isolation space 4 is formed inside the frame frame 41.

The heat insulating glass 3, the solar panel 2, and the frame frame 41 can be coupled by a screw contact method.

Between the heat insulating glass 3 and the back surface 25 of the solar panel 2, it can be directly surrounded by an adhesive tape or an adhesive material such as silicon rubber, and a frame frame 41 can be formed. Can be formed.

At the time of implementation, the heat insulating glass 3 is composed of the third glass plate 31 and low-emissivity glass, and the low-emission glass is used as the heat reflection layer 32.

The heat reflecting layer 32 is formed on the front surface of the third glass plate 31.

As a result, as shown in FIG. 3, when sunlight enters from the front surface of the first glass plate 21, some of the light rays pass through the intervals 24 between the respective crystalline silicon solar panels 23, and the second It passes through the glass plate 22 and further through the heat insulating glass 3, so that indoor personnel can see outside.

Most of the sunlight irradiates each crystalline silicon solar panel 23 through which light does not transmit, so that each crystalline silicon solar panel 23 generates electrical energy, is connected to the outside by a cord, and the electrical energy is output to the outside. Is output.

When each of the crystalline silicon solar panels 23 generates electrical energy, the thermal energy generated is isolated in the isolation space 4 through the reflection of the heat reflecting layer 32.

Differences between the second embodiment and the first embodiment will be described below as shown in FIG. 4 which is a second embodiment of the multi-layer glass 1 having the power generation and thermal insulation functions of the present invention.

The solar panel 2 includes a first glass plate 21, a second glass plate 22, and an amorphous silicon thin film solar panel 27. The amorphous silicon thin film solar panel 27 includes a first glass plate 21 and a second glass plate 22. Installed between.

Since the amorphous silicon thin film solar panel 27 has partial light transmission characteristics, it is possible to simultaneously achieve the effects of fluoroscopy and power generation.

The sunlight passes through the amorphous silicon thin film type solar panel 27 and then is reflected by the heat reflecting layer 32. The amorphous silicon thin film type solar panel 27 can generate electric power again to increase the power generation efficiency.

As shown in FIG. 5 which is a third embodiment of the multi-layer glass 1 having the power generation and heat insulation functions of the present invention, the heat insulation glass 3 is composed of a third glass plate 31, a heat reflection layer 32 and a fourth glass plate 33. Consists of.

The heat reflecting layer 32 is formed on the front surface of the third glass plate 31, and the fourth glass plate 33 is adhesively bonded onto the heat reflecting layer 32.

Thus, the heat reflecting layer 32 is disposed between the third glass plate 31 and the fourth glass plate 33.

Since the heat reflecting layer 32 is a heat insulating thin film, the heat radiation from the back surface of the solar panel 2 can be effectively reflected and isolated.

As described above, the present invention has the following advantages.
1. The present invention has functions of fluoroscopy and power generation, and can also effectively insulate the heat radiation generated by the power generation of the solar panel in the isolated space, so that the indoor temperature can be effectively lowered, It is possible to save the expense of cooling air conditioning used in.
2. The present invention can improve the power generation efficiency of the solar panel because the heat energy that is emitted during the power generation of the solar panel is insulated in the isolated space and is generated again by the solar panel.
3. In the present invention, a plurality of crystalline silicon solar panels are installed between two glass plates, but the crystalline silicon solar panels have characteristics of high power generation and low manufacturing cost, so that the power generation efficiency can be improved. Moreover, the manufacturing cost can be reduced.
4. The present invention has extremely high isolation between indoors and outdoors, so the glass will not condense and keep a good field of view. Can be reduced.

The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. Equivalent applications based on the spirit of the present invention, conversion of parts (structure), replacement, increase / decrease in quantity are all included in the protection scope of the present invention.

  The present invention provides a double-glazed glass with power generation and thermal insulation functions that can be seen through, can improve power generation efficiency, can effectively insulate the diffusion of hot air into the room, and can reduce production costs. It has a certain novelty, is sufficiently advanced compared to conventional similar products, has high practicality, meets the needs of society, and has a great industrial utility value.

1 Multi-layer glass with power generation and thermal insulation functions
2 Solar panel
21 First glass plate
22 Second glass plate
23 Crystalline silicon solar panel
24 intervals
25 Rear
26 Front
27 Amorphous silicon thin film solar panel
3 Thermal insulation glass
31 Third glass plate
32 Heat reflective layer
33 Fourth glass plate
4 Isolation space
41 frame

Claims (5)

It is a multi-layer glass having a power generation and heat insulation function, consisting of a solar panel capable of partially transmitting light, and a heat insulation glass formed with a heat reflection layer,
The back side of the solar panel and the heat insulating glass are opposed to each other and fixed with a frame frame to separate the heat isolation space, and the heat radiation radiated from the back side of the solar panel is reflected. Multi-layer glass with power generation and thermal insulation functions. The solar panel is an amorphous silicon thin film solar panel,
The multilayer glass having a power generation and thermal insulation function according to claim 1, wherein an amorphous silicon thin film solar panel is sandwiched between the two glass plates. The solar panel is composed of two glass plates and a plurality of crystalline silicon solar panels, each crystalline silicon solar panel is sandwiched between the two glass plates, and between each crystalline silicon solar panel The double-glazed glass having a power generation and thermal insulation function according to claim 1, wherein the glass has an interval for transmitting light. The heat reflecting layer is made of low-emissivity glass (Low-emissivity
3) Glass having a power generation and thermal insulation function according to claim 1 or 2. 3. The heat isolation space is fixed to the back side of the solar panel by arranging a glass plate in which the heat reflecting layer is bonded and bonded via a glass plate. Multi-layer glass with the power generation and thermal insulation functions.

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