JPH03191159A - Lighting/ventilating system with solar cell - Google Patents

Abstract

PURPOSE:To reduce the cost by providing a solar cell under transparent tiles and by providing also a blower which is driven by the cell and conducts ventilation between indoor and outdoor sides by blowing outdoors the air staying around the cell. CONSTITUTION:Transparent tiles 1 are provided on the upper side of a ground unit 3, while see-through solar cells are bonded on the lower side of the unit 3. Besides, a ventilation fan 4 driven by electric energy outputted by the solar cells is installed in a loft. Hot air staying around the lower part of the unit 3 is discharged outdoors in the direction of an arrow A by driving the ventilation fan 4.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial Application Field The present invention relates to a lighting/ventilation system using a solar cell, so-called a see-through solar cell, which has a light transmitting portion.

(b) Conventional technology Regarding ventilation systems powered by solar cells, there are known application examples in which solar modules are installed on roof tiles and a ventilation fan powered by the solar cells is used to ventilate the attic or under the floor. (Reference, Japanese Patent Publication No. 59-31657,
Utility Model Application Publication No. 149023/1983).

Furthermore, so-called solar battery tiles in which solar cells are attached to roof tiles are known as those described in Japanese Patent Application Laid-Open No. 60-31259 and Japanese Utility Model Application Publication No. 63-174468.

Furthermore, regarding the lighting system, an example is known in which a ventilation fan is used to remove hot air from the lower part of the transparent tile used for lighting.

(c) Problems to be Solved by the Invention However, in such conventional ventilation systems, the solar cell modules are installed on the roof tiles using a pedestal, so the cost required for the pedestal is high, and the cost for the entire system is high. There is a problem of high cost.

Furthermore, in the daylighting system, there are no examples of solar cells driving ventilation fans to remove hot air from the bottom of transparent tiles.

This invention was made taking these circumstances into consideration, so the base unit of the transparent tile in the lighting system itself can be made into a see-through solar cell, or by pasting a see-through solar cell on the base unit, the frame, etc. We will provide a daylighting and ventilation system with solar cells to reduce costs.

(d) Means for Solving the Problems This invention has a light transmitting part that is provided on the lower surface of a transparent tile for letting light into the room and allows a part of the sunlight that has passed through the transparent tile to be transmitted indoors. It is powered by a solar cell that converts sunlight into electrical energy and outputs electrical energy, and is installed in a house and is driven by the electrical energy output by the solar cell, blows the air stagnant near the solar cell outside, and thereby This is a lighting and ventilation system equipped with solar cells and equipped with a blower that provides ventilation between indoors and outdoors.

(E) Function According to the present invention, a solar cell having a light transmitting part that transmits a part of the sunlight indoors is provided on the lower surface of the transparent tile, and the blower is driven by the solar cell. It is possible to reduce costs by eliminating the need for a conventional pedestal without impairing the lighting effect indoors compared to the conventional one.

(f) Examples Hereinafter, the present invention will be described in detail based on examples shown in the drawings. Note that this invention is not limited to this.

FIG. 1 is a configuration explanatory diagram showing an embodiment of the daylighting/ventilation system with solar II pond of the present invention.

In the figure, l is a transparent tile that lets light into the room.
2 is a normal roof tile, and 3 is a transparent base unit for installing a transparent tile 1.

The base unit 3 is made of transparent resin or wired plate glass, and the no-through solar cell is adhered to or directly formed on the base unit 3. 4 is a ventilation fan that ventilates hot air accumulated near the bottom of the base unit 3 as shown by arrow A.

FIG. 2(A) is a configuration explanatory diagram showing the configuration of a see-through solar cell, and as shown in the figure, a no-through solar cell 11
is between the transparent substrate 12 and the weather-resistant transparent film 13,
The see-through submodule 14 is bonded with a transparent adhesive 15.

FIG. 2(B) is a perspective view showing the configuration of the see-through submodule 14. As shown in the figure, the see-through submonoyl 14 has a transparent electrode 17 on the lower surface of the glass 16,
It has a structure in which amorphous silicon 18 and back electrode 19 are laminated in this order.

A light transmission hole 20 for transmitting incident light B as transmitted light C is formed in the amorphous silicon 18 and the back electrode 9.

FIG. 3 is an electrical circuit diagram of the lighting/ventilation system of the present invention.

As shown in the figure, between the see-through solar cell 11 and the fan motor 4a of the ventilation fan 4, there is a see-through solar II pond 1.
Even if the incident light B incident on 1 is low illumination, the fan motor 4λ
A starting circuit 21 is provided which can rotate the .

In such a configuration, by driving the ventilation fan 4 using the see-through solar cell 11 provided in the base unit 3 as a power source, hot air accumulated in the lower part of the base unit 3 is ventilated.

In addition, in this system, the transparent tiles 1 and see-through solar cells 11 are used for lighting, so for dimming, the light transmission hole 20 provided in the no-through solar cell 11 is used.
Adjustments are made by increasing or decreasing the number of .

Above, we have shown an example of ventilation of the hot air that collects at the bottom of the base unit 3 as a daylighting/ventilation system. However, by changing the position of the ventilation fan 4 or increasing the number, it is possible to simultaneously let in the attic and ventilate under the floor. It can also be applied to

In this way, the see-through solar cell 11 is used as a power source to drive the ventilation fan 4 and ventilate the hot air stagnant at the bottom of the base unit 3, thereby eliminating the need for a conventional pedestal for installing the solar cell. , it is possible to reduce the cost of lighting and ventilation systems.

In addition, dimming is performed using the light transmission hole 2 of the no-through solar cell 11.
This is possible by adjusting the number of 0's, so any amount of light can be brought indoors.

(G) Effects of the Invention According to this invention, a solar cell is provided on the lower surface of a transparent tile and has a light transmitting part that transmits a part of sunlight indoors,
Since the blower is driven by the solar cells, there is no need for special construction such as installing the solar cells using a special frame on the roof tiles, which was required in the past, and the cost of the system can be reduced. I can do it.

[Brief explanation of drawings]

Fig. 1 is a configuration explanatory diagram showing an embodiment of the solar i [lighting/ventilation system with pond] of this invention, Fig. 2 (A) is a configuration explanatory diagram showing the configuration of a no-through solar cell, and Fig. 2 (B) 3 is a perspective view showing the configuration of a no-through submodule, and FIG. 3 is an electrical circuit diagram of the lighting/ventilation system of the present invention. l...Transparent tile, 2...Normal tile, 3...
- Base unit, 4... Ventilation fan, 4a... Fan motor, ++... No-through solar cell, 12... Group - Transparent substrate, 13... Weather-resistant transparent film, 14...
... See-through submodule, 15 ... Transparent adhesive, 16 ... Glass, 17 ... Transparent electrode, 18 ... Amorphous silicon, 19 ... Back electrode , 20...Light transmission hole,
21...Start circuit.

Claims (1)

[Claims] 1. Installed on the underside of a transparent tile to let light into the room.
A solar cell that has a light-transmitting part that allows some of the sunlight that passes through the transparent tiles to pass indoors, converts the sunlight into electrical energy and outputs it, and a solar cell that is installed in a house and outputs electricity. A lighting/ventilation system with solar cells that is powered by solar energy and is equipped with a blower that blows air stagnant near the solar cells outdoors, thereby ventilating indoors and outdoors.