KR870002411Y1 - Solar energy collector - Google Patents

Abstract

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Description

Solar energy accumulator

1 to 3 are main cross-sectional side views for explaining the basic principle configuration of the present invention, respectively.

Figure 4 is a side cross-sectional view of the main portion to explain the present invention.

* Explanation of symbols for main parts of the drawings

1 Lens 2 Fluid Path

3: inductive material 4: solar cell

5: black body 6: photodetection cell

The present invention relates to a technique for utilizing solar energy, and more particularly, to a solar energy accumulator that enables the solar energy to be effectively accumulated in an inducer.

In the prior art, the inducer is irradiated with light to generate a photochemical reaction to the inducer, thereby accumulating light energy in the inducer, and then using the catalyst or the like for the energy accumulated in the inducer. Technology to extract as thermal energy is well known. (See, for example, Japanese Patent Laid-Open No. 57-124657 or U.S. Patent No. 4,307,711.)

In the case of accumulating solar energy in the inducer, the intensity of sunlight changes depending on the climate or time. In particular, when the solar energy is weak, photochemical reactions occur on all inducers. Therefore, there is a concern that there is little energy stored in the inducer, and that energy cannot be accumulated uniformly and efficiently.

The present invention has been made in view of the above-described circumstances, and in particular, it is to provide a solar energy accumulator which enables the solar energy to be uniformly and efficiently condensed with the above-described inducer.

1 to 3 are sectional views of principal parts of a basic principle configuration for explaining the present invention. In FIG. 1, (1) is a lens for focusing sunlight L, and (2) is a lens ( It is a fluid path of a transparent body disposed through the focal point or the vicinity of the focal point of 1), and in this passage (2), an inducer (3) that absorbs light energy and causes a photochemical reaction to accumulate energy, for example, in the direction of an arrow. It is supposed to flow.

2, the solar cell 4 is disposed on the outer wall of the fluid passage 2 through which the inductive substance 3 flows, so that solar energy can also be used as electrical energy.

3 shows the black body 5 disposed on the inner wall of the fluid passage 2 through which the inducer 3 is circulated, and effectively transmits solar energy to the inducer 3 so that the temperature of the inducer 3 is reduced. When the induction material is recovered and the induction material is recovered, the thermal energy of the induction material can be used.

1 to 3, the photodetector cell 6 may be disposed outside the bottom of the fluid passage 2 to control the flow rate of the inducer.

The present invention is a solar energy accumulator capable of accumulating solar energy in induction materials more uniformly and efficiently by using the above-described basic principles, and the present invention will be described in detail as follows.

4 is a side cross-sectional view showing an embodiment of the present invention, in which the solar cell 4 is disposed on the outer wall of the fluid passage except for the vicinity of the focal point of the lens 1, The black body 5 is disposed on the inner wall, and the photodetector cell 6 is disposed on the outer surface of the lower side of the fluid passage 2, which is an extension line of the focal point of the lens 1, thereby delivering the cardboard to the sun. It can be used as energy or thermal energy.

In other words, in the present article, the lens 1 is controlled to be automatically directed in the direction of the sun by a known device (not shown), and the sunlight L focused by the lens 1 is the lens ( Irradiated to an inducer (3) in the fluid passage (2) excreted to pass through or near the focal point of 1), causing a photochemical reaction to the inducer, thereby changing the inducer to an isomer having a high energy level. To accumulate.

2 shows an example in which the solar cell 4 is disposed below the fluid passage 3, i.e., downstream of the solar light focused by the lens 1 on the optical system. If it is not a problem to reduce the efficiency or the like, as shown in the drawing, by disposing the solar cell 4 in the portion except for the focal point of the lens 1 above the fluid passage 2, it can be used as solar energy. In this way, since the light component of short wavelength does not reach a solar cell because it is absorbed and used by an inductive material, these short wavelength light does not accumulate as thermal energy in a solar cell, and therefore a solar cell reduces efficiency by accumulating thermal energy. It does not cause it.

By disposing the black body 5 on the inner wall of the fluid passage 2, the solar energy entering the fluid passage 2 is effectively transferred to the inducer 3, thereby raising the temperature of the inducer 3, When the inducer is recovered, the thermal energy of the inducer can be used.

In this way, the induction substance 3 in which energy is accumulated is recovered by flowing in the direction of the arrow, and then, for example, when a catalyst is added at night or the like, the heat is returned to the original substance while generating heat, and this heat generation can be used as thermal energy. .

In addition, the induction substance 3 returned to the original substance in this way is stored with energy and reused as mentioned above again.

In the present invention, as described above, the sunlight is focused and the energy density is increased so that the induction material 3 is irradiated, so that the induction material even when the direct light of the sun is weak due to cloudy weather or tidal light or the like. Sufficient light energy can be supplied to (3), so that the photochemical reaction can be effectively caused to the inducer (3).

In addition, if the flow rate of the inductive material 3 is controlled by the output signal of the photodetector cell 6, the light acting on the inductive material can be directly detected, and when the solar energy is weak, It is also possible to control the flow rate of the inducer (3) to slow down the flow rate and to increase the flow rate of the inducer (3) when the solar energy is strong. Thus, even when the solar energy is weak, the photochemical reaction is uniformly applied to all the inducers (3). When the photovoltaic energy is high, a photochemical reaction can be caused to a larger amount of the inducer 3, so that the homogeneous and effective accumulation of the photovoltaic energy can be performed.

Although the embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and, for example, when the present invention is used in an atmosphere having low ultraviolet rays, a sensitizer is applied to an inducer. It is also possible to mix | blend and convert the light of a wavelength component of about 360 mm or less into the light of a wavelength component of about 500 mm by this sensitizer, and to make a photochemical reaction to an inducer more effective.

As apparent from the above description, according to the present invention, there is an effect that the solar energy can be collected and accumulated in the best state at all times.

Claims (1)

In the solar energy accumulating device which distributes the guide material in the fluid path and the fluid path of the plurality of optical lenses and the transparent body for focusing the sunlight, the solar cell (4) is provided on the outer surface of the fluid path (2) except near the lens focal point. ), A black body 5 is disposed on an inner surface thereof, a light detecting cell 6 is disposed on an outer surface below the fluid passage 2 on an extension line of the focal point of the lens 1, and an output of the light detecting cell 6 is provided. Solar energy storage device, characterized in that to control the flow rate of the inducer (3) in accordance with the signal.