JPS59115571A - Method and device for collecting emitted light energy by lens - Google Patents

Abstract

PURPOSE:To obtain a supply power source to various devices by mounting transparent solar battery on a lens, photoelectrically converting and charging in a secondary battery. CONSTITUTION:Many transparent solar batteries are connected in series and parallel, mounted on a lens, photoelectrically converted to charge a secondary battery, and utilized through an electronic circuit. For example, lenses 2 with transparent solar batteries are provided at spectacles to obtain a power source 7, connected at 8 to an audio appliances and a hearing aid 9 to be utilized.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a light energy harvesting method and a light energy harvesting device in which a lens is provided with a translucent solar cell and light energy is converted back into electrical energy.

In recent years, a wide variety of lenses have been used over a wide range of areas. However, none of them used translucent solar cells in their lenses.

In order to save energy, the present invention proposes converting the light energy irradiated by the lens into electrical energy and reusing it as described above, as well as supplying such light energy as electrical energy to various devices. The purpose is to

That is, the method for extracting light energy using the lens of the present invention, as shown in the principle in FIG.
) is generated by a lens (2) with a translucent solar cell, and the voltage and current are changed to suit various devices to supply a reusable power source (3).

The present invention is based on the above-mentioned principle, but in order to further increase the electrical energy, a large number of translucent solar cells are connected in series and in parallel, and a lens with translucent solar cells (2 ), the secondary battery (5) is charged via the charging control circuit (4), and the recycled power source (3) is supplied via the electronic circuit (6).

As mentioned above, the principle of the present invention is to convert light energy (1) into electrical energy using a transparent solar cell-equipped lens (2), which is then converted into power for use in various devices and reused. Therefore, it is effective for energy saving.

Hereinafter, an embodiment of the present invention in which a translucent solar cell attached lens (2) is provided in an extraction device will be described with reference to FIGS. 3 to 7.

FIG. 3 shows glasses equipped with translucent solar cell-equipped lenses (2). In this case, reusable power is obtained from the transparent solar cell-equipped lens (2) and used for audio equipment, hearing aids, and other electrical devices. Figure 4 shows a translucent solar cell (2) in the lens part of the camera body (10), and a translucent solar cell (2) on the glass surfaces of the main mirror and focus mirror and on the surface of the frame (7) of the camera body (10). A glass (11) with translucent solar cells is provided, and the reused power source (3) obtained from each translucent solar cell is used for the electrical devices of the camera body (10), the rear flash, and other equipment.

Figure 5 shows a telephoto lens with a translucent solar cell attached lens (2).
In addition, a transparent glass with solar cells (11) is provided on the surface of the telescope frame (7), and the reused power source (3) obtained from each solar cell is used for the electrical equipment attached to each camera. It is. Figure 6 shows a lens (2) with a translucent solar cell attached to the glass part of an automobile lighting, a glass (11) with a translucent solar cell attached to the surface of the frame (7), and a translucent solar cell used as a light source. An attached light (12) is provided, and the reused power source (3) obtained from each solar cell is used for various electrical devices of the automobile. Figure 7 shows a lighthouse with a lens (2) equipped with a translucent solar cell and a light source (12) with a translucent solar cell attached to it, and the recycled power obtained from each solar cell ( 3) is used for lighthouse lighting and various electrical devices.

Further, since the lens of the present invention can be processed into various shapes and surfaces, it can be made into various shapes.

As described above, according to the light energy harvesting method of the present invention, sunlight or indoor light is absorbed by the translucent solar cell provided in the lens, and the obtained power is used to generate electricity from other sources. Can be supplied to equipment. In addition, the scope of use of solar cells is expanded and labor is saved, so the power saving effect of implementing the present invention is extremely large.

[Brief explanation of drawings]

The drawings show an embodiment of the optical energy extraction method and its extraction device according to the present invention, and FIG. 1 is a block diagram showing the principle, and FIG. 2 is a block diagram showing the optical energy extraction method. . FIG. 3 to FIG. 7 are front sectional views showing examples of lenses with translucent solar cells. (1) Light energy (2) Lens with translucent solar cell (3)
) Reusable power source (4) Charging control circuit (5) Secondary battery (6)
Electronic circuit (7) Frame (8) Cord (9) Power connector (10) Camera body (11) Glass with translucent solar cell (12) Lighting with translucent solar cell Patent applicant Yoshiro Kodaka

Claims (2)

[Claims] (1) A translucent solar cell installed in a lens is generated by sunlight or indoor light, and the electrical energy is passed through a charge control circuit to charge a secondary battery and then through an electronic circuit to power various devices. A method of harvesting irradiated light energy using a lens as a power supply. (2) The translucent solar cell installed in the lens can be used as a reusable power source through various adjustment means, and can be used in various other devices such as glasses, cameras, telephoto lenses, automobile lighting glasses, lighthouse lenses, etc. A device for extracting irradiated light energy using a lens, characterized in that it enables the following.