JPH07273360A - Solar battery panel and building roof using the same - Google Patents

Abstract

PURPOSE:To use a solar battery panel in a long term without any deterioration of its energy conversion efficiency. CONSTITUTION:A solar battery panel 11 comprising plate-form solar battery main bodies 14 and the case of a heat accumulating substance 15 which is mounted on the rear surface sides of the main bodies 14, etc., is provided on a roof 13 of a dwelling house 12. The heat accumulating substance 15 (sodium sulfate, etc.) is filled into a case 17 of the heat accumulating substance 15, and each of the top and bottom surfaces of the case 17 has a nearly equal area to the summed area of the rear surfaces of the solar battery main bodies 14. Since the case 17 of the heat accumulating substance 15 is so mounted as to be contacted closely with the rear surface sides of the main bodies 14, the case 17 of the heat accumulating substance 15 is provided extensively on the nearly summed area of the rear surfaces of the main bodies 14. Therefore, when the solar battery panel is operated, its temperature rise is suppressed by the melting of the heat accumulating substance 15.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar cell panel and a roof of a building using the same.

[0002]

BACKGROUND ART In recent years, utilization of sunlight as electric energy has been put into practical use, and a solar cell panel, which is a conversion medium therefor, has been used for various purposes. For example, if you have solar panels attached to the roof of a building,
A solar power generation system based on this will try to cover the power required at home.

[0003]

When the solar cell panel converts sunlight into electric energy, it is preferable that the temperature of the solar cell panel does not rise so much in order to maintain high conversion efficiency. However, if the solar cell panel itself receives direct sunlight, the temperature of the solar cell panel itself gradually rises, and the energy conversion efficiency of the solar cell panel decreases. Therefore, an object of the present invention is to provide a solar cell panel that can be used for a long time without lowering the energy conversion efficiency and a roof of a building using the solar cell panel.

[0004]

In the solar cell panel according to the first aspect of the present invention, a heat storage body is provided on the back surface side of the plate-shaped solar cell body so as to be in close contact with the entire surface thereof. It is characterized by The heat storage body includes a sensible heat storage body and a latent heat storage body, but the latent heat storage body is preferable because the temperature does not change as the heat is absorbed and released unlike the sensible heat storage body. When the latent heat that goes in and out with the phase change of a substance is used for heat storage, heat of fusion (solid ← → liquid), heat of vaporization (liquid ← → solid), and heat of transition (solid ← → solid) can be used. Is used for the heat of fusion.

In the present invention, when the latent heat type heat storage body based on such heat of fusion is used, the temperature rise of the solar cell main body is suppressed by the melting of the heat storage body during the operation of the solar cell panel in the daytime. Therefore, the heat storage body during the operation of the solar cell panel functions as a cold insulating material. On the other hand, when the solar cell panel is at rest at night, the ambient temperature is lowered and the heat storage body changes its phase from liquid to solid, whereby latent heat is stored. Therefore, it is preferable to use a substance having a melting temperature of, for example, about 30 ° C. so that it can be changed from a solid to a liquid in the daytime and a phase can be changed from a liquid to a solid at night.

As such a specific substance, for example, sodium sulfate (Na ₂ SO ₄ .10H ₂ O, melting temperature: 31.1 to 32.2)
℃, heat of fusion: 60.5kcal / kg), sodium carbonate (Na ₂ CO ₃
・ 10H ₂ O, melting temperature: 32.2-36.0 ℃, heat of fusion: 59.4kcal
/ kg) etc. Further, as the eutectic mixture, for example, C
a (NO ₃ ) ・ 4H ₂ O, Mg (NO ₃ ) ・ 6H ₂ O (67〜33wt%), melting temperature:
30.0 ℃, heat of fusion: 32.5kcal / kg.

A solar cell panel according to a second aspect of the present invention is the solar cell panel according to the first aspect, wherein a dish-shaped support portion is attached to the back surface side of the solar cell body, and the heat storage body is housed in the dish-shaped support portion. It is characterized by A solar cell panel according to a third invention of the present invention is the solar cell panel according to the first invention, wherein a net-like support portion is attached to a back surface side of the solar cell body, and the heat storage body sealed in a bag is housed in the net-like support portion. It is characterized by

The second and third aspects of the present invention show specific mounting modes of the heat storage element to the solar cell body.
A roof of a building according to a fourth invention of the present invention is characterized in that the solar cell panel according to any one of the first to third inventions is provided on the roof of the building. The types of building roofs are
It is optional as long as the solar cell panel can be attached. Further, the arrangement and number of solar cell panels when they are attached to the roof are arbitrary.

[0009]

EXAMPLE A solar cell panel 11 according to a first example of the present invention will be described with reference to FIG. This solar panel 11
Is provided on the roof 13 of the house 12, which is a building. The solar cell panel 11 is a plate-shaped solar cell body 1
4. A heat storage body 15 attached to the back surface side of the solar cell body 14, a fixture 16 for attaching the solar cell body 14 to the roof 13, and the like. The solar cell main body 14 is a main body that converts sunlight into electric energy, and is made of, for example, amorphous silicon. This solar cell body 14
A plurality of them are arranged so as to be continuous on the 13 faces of the roof.

The heat storage body 15 is enclosed in a heat storage body case 17. The upper and lower surfaces of the heat storage case 17 have substantially the same area as the back surfaces of the plurality of solar cell main bodies 14. Since the heat storage case 17 is attached so as to be in close contact with the back surface side of the solar cell body 14, the heat storage body 15 is provided over substantially the entire back surface of the solar cell body 14. The heat storage body 15 used is a kind of latent heat type heat storage body such as sodium sulfate (melting temperature: 31.1 to 3).
2.2 ° C, heat of fusion: 60.5 kcal / kg).

The solar cell panel 11 mounted on the roof 13 of the house 12 operates as follows. During the daytime, when the solar cell body 14 is exposed to sunlight to generate solar power, the temperature of the solar cell body 14 rises due to the sunlight. However, as the temperature of the solar cell main body 14 rises, the heat storage body 15 on the surface side is also heated at the same time, so that the heat storage body 15 begins to melt, and during the melting of the heat storage body 15, the solar cell is absorbed by the heat of fusion. The temperature rise of the main body 14 can be suppressed. When the sodium sulfate is used, the melting temperature is maintained at around 32 ° C.

Therefore, the heat storage body 15 in operation of the solar cell panel 11 acts as a cold insulating agent. On the other hand, when the solar cell panel 11 is at rest at night, the outside air temperature falls below the melting temperature, so that the heat storage body 15 undergoes a phase change from liquid to solid, whereby latent heat is stored in the heat storage body 15. Then, in the case of the next day's weather, when the solar cell panel 11 is operating, the heat storage body 15 melts and the temperature rise of the solar cell body 14 is suppressed in the same manner as above.

According to the solar cell panel 11 of this embodiment, the heat storage body 15 can suppress the temperature rise of the solar cell main body 14 during the operation of the solar cell panel 11, so that the energy conversion efficiency before the temperature rise can be improved. You can continue to use it for a long time without dropping it. Therefore, it is possible to stably supply electric power to the house 12 in which the solar cell panel 11 is attached to the roof 13 for a long time. Further, since the heat storage body 15 is a latent heat type heat storage body that uses heat of fusion, the heat storage body 15 can be repeatedly used and the characteristics do not deteriorate. Further, the heat storage body 15 having an appropriate melting temperature can be selected according to the region, time, etc. in which the solar cell panel 11 is used, and the most preferable above-mentioned action can be obtained.

Next, a solar cell panel 21 according to a second embodiment of the present invention will be described with reference to FIG. In the case of the solar cell panel 21 according to this embodiment, the solar cell body 14 of the heat storage body 15
The mounting structure on the back surface is different from that of the first embodiment. That is, as shown in the drawing, the dish-shaped support portion 22 is attached to the back surface side of the solar cell main body 14, and the heat storage body 15 is housed in the dish-shaped support portion 22. In the case of this dish-shaped support portion 22, it has a size that covers substantially the entire back surface of one solar cell main body 14. With the solar cell panel 21 according to the second embodiment, as in the first embodiment, when the solar cell panel 21 operates, the heat storage body 15 melts and the temperature rise of the solar cell body 14 can be suppressed.

Next, a solar cell panel 31 according to a third embodiment of the present invention will be described with reference to FIG. Also in the case of the solar cell panel 31 according to this embodiment, the solar cell body of the heat storage body 15
14 The mounting structure on the back surface is different from that of the first embodiment. That is, as shown in the figure, the net-like support portion 32 is attached to the back surface side of the solar cell main body 14, and the heat storage body 15 sealed in the bag 33 is accommodated in the net-like support portion 32. This mesh support 32
In this case, the solar cell body 14 has a size that covers substantially the entire back surface of the solar cell body 14. The size and the number of the bags 33 are arbitrary. With the solar cell panel 31 according to the third embodiment, as in the first embodiment, when the solar cell panel 21 operates, the heat storage body 15 melts and the temperature rise of the solar cell body 14 can be suppressed.

[0016]

According to the solar cell panel of the present invention,
Since the temperature rise of the solar cell main body can be suppressed, it can be used continuously for a long time without lowering the energy conversion efficiency. Further, according to the roof of the building according to the present invention,
Since the solar cell panel of the present invention is attached to the roof, electric power can be stably supplied to the building for a long time.

[Brief description of drawings]

FIG. 1 is a sectional view of a solar cell panel according to a first embodiment of the present invention.

FIG. 2 is a sectional view of a solar cell panel according to a second embodiment.

FIG. 3 is a sectional view of a solar cell panel according to a third embodiment.

[Explanation of symbols]

 11,21,31 Solar panel 12 House that is a building 13 Roof 14 Solar cell main body 15 Heat storage body 17 Heat storage body case 22 Plate support 32 Mesh support

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display location H01L 31/04

Claims (4)

[Claims] 1. A solar cell panel characterized in that a heat storage body is provided on the back surface side of a plate-shaped solar cell body so as to be in intimate contact over substantially the entire surface thereof. 2. The solar cell panel according to claim 1, wherein a dish-shaped support portion is attached to the back surface side of the solar cell body, and the heat storage body is housed in the dish-shaped support portion. 3. The solar cell according to claim 1, wherein a net-like support portion is attached to the back surface side of the solar cell main body, and the heat storage body sealed in a bag is accommodated in the net-like support portion. panel. 4. A roof of a building, wherein the solar cell panel according to claim 1 is provided on the roof of the building.