KR100483316B1 - An Electrical Generating Device Using Light - Google Patents

Abstract

The present invention provides a hollow housing, a light emitting agent that is provided and combustible in the housing, and a light emitting device that emits light emitted by ignition of the light emitting agent and is disposed at a predetermined distance with respect to the light emitting agent so as to be converted into electricity of a constant voltage. The present invention relates to a photovoltaic device comprising a solar cell and an anode line and a cathode line electrically connected to draw the current generated by the solar cell to the outside.

Description

Photoelectric Power Generator {An Electrical Generating Device Using Light}

The present invention relates to a generator capable of converting light applied from the outside into electricity. In more detail, the photovoltaic power generation to enable the solar cell to receive the light generated when the material is burned and to convert it into electricity from the solar cell to be used as a driving power source for operating electronic devices, etc. out of the electrical facility. Relates to a device.

In general, an electronic device (eg, a mobile phone, a computer, a pager, etc.) in which various circuits are built is provided with a battery capable of supplying power at a constant voltage.

These batteries range from single-use batteries to rechargeable batteries that can be used continuously through multiple charges, and there are also large-capacity batteries installed in the engine compartment of a car.

In addition to the commonly used cylindrical nickel-cadmium battery, there is a disk-type battery using mercury, which may be mounted and used to always store bios data on a main board of a computer.

By the way, the various batteries can be used simply and conveniently from a single battery to a rechargeable battery that can be recharged and recharged many times, but a large amount of heavy metals are released during disposal, causing environmental pollution have.

In addition, the efficiency of the power supply is significantly reduced compared to its size, and when it is not used, the internal power is discharged into the air, and it does not operate at temperatures below -20 ° C. There is a problem that cannot be used in a system that is constantly required.

In order to overcome the limitations of these batteries, small-capacity generators have been developed. For example, the small-capacity generator is typically a small-capacity engine driven by using fossil fuels such as gasoline. In addition, there is a large-capacity generator that often produces a large amount of power using hydropower or thermal power.

The small capacity generator has a relatively large heat loss flowing into the air, and due to such heat loss, its power production efficiency is halved by that much.

In addition, it is bulky to use for supplying power to precision electronic devices, the voltage is not constant, and is generally used to supply power to lighting or outdoor audio.

On the other hand, the general generator, that is, the generator of the principle of generating a power source by combining the magnet and the coil to induce a rotational movement by the magnetic force was very large volume and weight, was only applicable to the special case that the rotational force is continuously generated.

In addition, since the generated electrical energy is basically related to the rotational force given from the outside, there is a problem in that the amount of electrical energy generation cannot be arbitrarily adjusted, and the output produced compared to the input value given by the frictional force generated between the rotor and the air during rotation. There is a problem that the value drops significantly.

In addition, there is a generator using a piezoelectric element that generates electricity when a shock is given. It has advantages of semi-permanent life, wide operating range and constant electricity generation, but the energy conversion efficiency is small and the generated electrical energy is basically It is related to the amount of impact given and has a disadvantage in that the amount of electric energy generation cannot be arbitrarily adjusted.

Accordingly, the present invention has been made in view of the above-described conventional problems, and a first object of the present invention is to convert a light energy generated when a material is burned so as to be used as a driving power source for an electronic device or the like. To provide.

A second object of the present invention is to install a light emitting agent and a solar cell at a predetermined distance in a cylindrical housing so as to generate electricity by using light, and having a transparent window therebetween, the light emitted by the ignition of the light emitting agent It is to provide a photovoltaic device that can be received by the solar cell and converted into electrical energy.

These objects of the present invention, the hollow housing 10;

A light emitting agent 20 provided in the housing 10 to emit light energy by chemical reaction or combustion and oxidation reaction;

A solar cell 30 embedded in the housing 10 at a predetermined distance with respect to the light emitting material 20 to receive light energy emitted by the ignition of the light emitting material 20 and convert the light energy into electrical energy of a predetermined voltage;

It is achieved by a photovoltaic device comprising a; a cathode wire 41 and a cathode wire 42 electrically connected to withdraw the current generated in the solar cell 30 to the outside.

Here, the transparent window 50 having a predetermined thickness between the light emitter 20 and the solar cell 30 to the inner side of the housing 10 so that the light of the light emitter 20 can reach the solar cell 30. ) Is further provided.

In addition, the light emitter 20 is ignited by the instantaneous trigger of the percussion 61, and an ignition agent 60 capable of continuously igniting the light emitter 20 is further provided at a central portion of the light emitter 20. It is preferable.

In addition, each of the solar cells 30 is preferably connected in series to increase the voltage to the light emitted by the ignition of the light-emitting agent 20.

In addition, the light emitting agent 20 is preferably coupled in a spiral shape around the center of one surface of the transparent window 50 so that the ignition period can be further extended.

Other objects, specific advantages and novel features of the invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

Hereinafter, a photovoltaic device according to the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a photovoltaic device according to the present invention, Figure 2 is a cross-sectional view taken along the line A-A of FIG.

As shown in FIG. 1 and FIG. 2, the photovoltaic device 100 converts energy obtained from a chemical combustion reaction into electrical energy, and receives light generated during combustion of the light-emitting agent 20 to generate a constant voltage. It can be converted into electricity and supplied as driving power to external equipment.

The generator 100 is a material that causes a chemical combustion reaction, and It comprises a solar cell 30 is installed at a predetermined distance from the material.

In order for the combustion reaction to occur and shine, there must be an organic substance (vehicle) that usually contains a carbon component, a heat source capable of burning the organic substance, and an oxygen capable of reacting upon combustion.

In addition, materials such as gunpowder and scintillant do not contain carbon but contain oxygen by themselves and thus can be ignited even in water.

As such, the light emitting agent 20 is used in the present invention as a material capable of emitting light by being ignited by chemical reaction or combustion and oxidation reaction, wherein the light emitting agent 20 reacts with oxygen in the air to be burned. It can emit light or oxygen can be contained in itself to ignite without oxygen outside to emit light energy. This refers to a phenomenon in which light is emitted by transferring energy to a state of low energy when a state of high energy is absorbed in a state of absorbing a certain amount or more of energy.

Examples of the material belonging to the light emitting agent 20 include organic solvents such as various chemicals, gunpowder, fossil fuel, and alcohol, gas, plastic, paper, wood, carbon, and metal.

In addition, the solar cell 30 is installed in the housing 10 having a predetermined shape together with the light emitting material 20, so that the housing 10 is durable against combustion or explosion of the light emitting material 20. It is preferable that it is aluminum or an aluminum alloy.

At this time, the light-emitting agent 20 and the solar cell 30 are installed at a predetermined distance from each other. The light generated during the combustion of the light-emitting agent 20 reaches the light-receiving unit 31 of the solar cell 30 and is converted into electricity, thereby producing power of a constant voltage.

In addition, the rear of the solar cell 30 so that the power can function as a driving power to the external electronic device 200, the polarity of the anode line 41 and the cathode line 42 to be applied to the outside with different polarity Each end is electrically connected, with each other end of the anode line 41 and cathode line 42 being also electrically connected to the electronic device 200.

Therefore, the light of the light emitting agent 20 is converted into electricity in the solar cell 30 is applied to the electronic device 200 through the anode line 41 and the cathode ray 42, the electronic device 200 is Can work.

3 is a state diagram of a photovoltaic device using light according to the present invention, and FIG. 4 is a front view showing a state in which a light emitting agent and an ignition agent are attached to a transparent window according to the present invention.

As shown in FIGS. 3 and 4, the power generation device 100 includes a housing 10 having a predetermined shape and a light emitting agent 20 provided in the inner side of the housing 10 to emit light energy during a combustion reaction. The solar cell 30 installed at a predetermined distance from the light emitting agent 20 and carbides generated during combustion from the light emitting agent 20 may be excluded, and only light energy may reach the solar cell 30. It includes a transparent window 50 is installed between the light emitting agent 20 and the solar cell 30 so as to.

In addition, as a kind of initiator in the central portion of the light-emitting agent 20, so that the combustion reaction of the light-emitting agent 20 can be made more quickly, the gunpowder component is the main point The topic 60 is further provided.

At this time, one side of the housing 10 is provided with a trigger 61 so that the ignition agent 60 is ignited by a momentary impact from the outside, and eventually the ignition of the ignition agent 60 is the light emitting agent ( 20 is continuously performed, and the light generated when the light emitting agent 20 is burned is incident on the light receiving part 31 of the solar cell 30.

Wherein the housing 10 has an elongated cylindrical shape, the diameter is about 10mm and the length is about 20mm, the material is made of aluminum or aluminum alloy.

In addition, the transparent window 50 is intended to reach the solar cell 30 by transmitting only light energy generated when the light emitting agent 20 is burned or ignited, and the material is epoxy in glass or synthetic resin. Resin is used and it takes the shape of a disk of constant thickness.

In addition, the solar cell 30 receives the light emitted from the light-emitting agent 20, the light receiving unit 31 having an anti-reflection film formed on the front surface, is positioned at a predetermined distance from the other surface of the transparent window 50. .

When light 90 emitted from the light-emitting agent 20 is incident on the solar cell 30, a potential difference is generated due to a photovoltaic effect in which current is induced by the incident light 90, and at this time, the solar cell Electricity flows through the anode wire 41 and the cathode ray 42 connected to the 30, and the electricity is applied to the electronic device 200, thereby enabling circuit operation.

At this time, the solar cells 30 are preferably connected in series with each other electrically This is to relatively increase the voltage of the power applied to the electronic device 200.

The anode line 41 and the cathode line 42 are electrically connected to the solar cell 30 to draw the electricity generated by the solar cell 30 to the outside with different polarities, thereby operating the electronic device 200. It is to make it possible.

In addition, the light emitting agent 20 is preferably formed in a spiral shape around the center of one surface of the transparent window 50, thereby realizing an increase in the ignition period and extending the light emission period. Therefore, the incident amount of light reaching the solar cell 30 may be increased.

At this time, the total energy of electricity generated in the photovoltaic device 100 is calculated as follows.

That is, generated electric energy = light energy of light emitting agent x transfer efficiency x solar cell efficiency

When 100 cal of light energy is generated in 1 g of the luminescent agent 20, the energy is delivered to the solar cell 30 by 90%, and the efficiency of the solar cell 30 is 10%. Will occur. This is energy that can be used for about 2 hours with a voltage of 5V and a current of 1mA, which is enough energy to drive a circuit of most electronic devices 200.

In the photovoltaic device 100 according to the present invention as described above, the shape of the housing 10, in addition to the cylindrical, can be used in the form of elongated and hollow, such as hollow square pillars, hollow pentagons to octagonal pillars, and the like. The material of the housing 10 In addition to aluminum, it can be used alternatively from an aluminum alloy, a copper alloy, stainless steel, and a ceramic.

In addition, the solar cell 30 may be installed to be close to or in close contact with the other surface of the transparent window 50 in addition to being spaced apart from the other surface of the transparent window 50 by a predetermined distance.

As described above, according to the photovoltaic device that generates electricity by using light generated when a material according to the present invention is chemically reacted, burned, and oxidized, the shelf life is excellent, and the operating temperature range is wide. Not only does it generate electricity quickly and quickly, but it is easy to use and has the advantage of controlling the amount of electricity regardless of external physical force.

In addition, the photovoltaic device is excellent in storage characteristics because the light emitting device and the solar cell are operated after long-term storage unless they are corroded or damaged. In addition, since the amount of electricity generated is determined by the amount of light emitting agent included in the power generator itself, not by an external physical force, the amount of electricity generated can be arbitrarily increased as needed. Do.

Therefore, it is expected that it can be used as a stable and reliable power source in an electrical system that is not touched by electrical facilities.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various other modifications and variations can be made without departing from the spirit and scope of the invention. Will be possible. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

1 is a perspective view of a photovoltaic device according to the present invention;

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a state diagram used in the photovoltaic device using light according to the present invention,

4 is a front view showing a state in which the light emitting agent and the ignition agent is attached to the transparent window according to the present invention.

<Description of the code according to the main part of the drawing>

        10 housing 20 light emitter

        30: solar cell 31: light receiving unit

        41: anode wire 42: cathode ray

        50: transparent window 60: ignition agent

        61: trigger 100: photovoltaic device

       200: electronics

Claims (5)

Hollow housing 10; A light emitting agent 20 provided in the housing 10 to emit light energy by chemical reaction or combustion and oxidation reaction; A solar cell 30 embedded in the housing 10 at a predetermined distance with respect to the light emitting material 20 to receive light energy emitted by the ignition of the light emitting material 20 and convert the light energy into electrical energy of a predetermined voltage; An anode line 41 and a cathode line 42 electrically connected to draw the current generated by the solar cell 30 to the outside; A transparent window having a predetermined thickness positioned inside the housing 10 between the light emitter 20 and the solar cell 30 so that light of the light emitter 20 may reach the solar cell 30 ( 50); And And an ignition agent (60) provided at the central portion of the light emitting material (20) so as to be ignited by the instantaneous triggering of the percussion device (61) to continuously ignite the light emitting material (20). The light emitting device 20 is a photovoltaic device using light, characterized in that coupled to the spiral shape around the center of one side of the transparent window 50 so that the ignition period can be further extended. delete delete According to claim 1, wherein each of the solar cells 30 is a photovoltaic device using light, characterized in that connected in series to increase the voltage to the light emitted by the ignition of the light emitting (20). delete