KR20040019834A - Device And Method for Generating Power - Google Patents

Abstract

PURPOSE: To secure electric power at a site where there is no commercial power supply, and to improve portability of a generator. CONSTITUTION: The generator comprises a thermoelectric conversion means 1 between a high-temperature heat source A and a low-temperature heat source B, and an external output means 8, which outputs the electric power generated by the thermoelectric conversion means 1 to the outside. The high-temperature heat source A is provided with a light-condensing body 6, that condenses sunlight X.

Description

Device and Method for Generating Power

The present invention relates to a power generation apparatus using a thermoelectric conversion element.

When the mobile device is used in a place where there is no commercial power source, the mobile device operates from a battery installed in or inside the mobile device. However, when the battery is exhausted, the battery cannot be charged and the mobile device cannot be used. As a solution to such a situation, it may be considered to have a power generation device, etc., but the power generation device is not practical because of lack of portability.

1 is a configuration diagram of a power generation device according to a first embodiment of the present invention.

2 is a configuration diagram of a power generator according to a second embodiment of the present invention.

3 is a configuration diagram of a power generator according to a third embodiment of the present invention.

<Description of Drawing>

One… Thermoelectric element (thermoelectric conversion means) 2. Heat transfer plate

3... Thermal conductive plate 4. Force (buoyant body)

5... . Support member 6.. Thermal Plate Water Lens (Condenser)

7... DC / DC converter (voltage converting means) 8. Output connector (external output means)

9... Fixing string 10.. Insulation case (catalyst burner)

11... Fuel inlet

A… High temperature heat source B… Low Temperature Heat Source

X… Solar Y… Platinum Catalyst

The present invention has been made to solve the above problems and aims at the following.

(1) Secure power even in places without commercial power sources.

(2) Improve the portability of the power generation device.

In order to achieve the above object, as a first means according to the power generation apparatus of the present invention, a thermoelectric conversion means is provided between a high temperature heat source portion and a low temperature heat source portion, and outputs power generated by the heat conversion means to the outside. In the power generation apparatus including an external output means, the high temperature heat source portion adopts a configuration including a light collecting body for condensing sunlight.

As a second means according to the power generation apparatus of the present invention, a power generation including an external output means for providing a thermoelectric conversion means between the high temperature heat source portion and the low temperature heat source portion, and outputs the electric power generated by the heat conversion means to the outside. In the apparatus, the high temperature heat source portion adopts a configuration including a catalyst burner for catalytic combustion.

As a third means according to the power generation apparatus of the present invention, in the first or second means, a configuration is further provided with a buoyancy body for continuously holding the low temperature heat source portion in contact with water.

As a fourth means according to the power generation apparatus of the present invention, in any one of the first to the third means, voltage conversion for converting the power generated by the thermoelectric conversion means into a predetermined voltage and outputting it to an external output means. It adopts the structure provided with a means.

As a fifth means according to the power generation apparatus of the present invention, there is provided a high temperature heat source unit having a water lens for condensing sunlight, a low temperature heat source unit in contact with water to set a temperature, and between a high temperature heat source unit and a low temperature heat source unit. Installed thermoelectric element, DC / DC converter that converts the power generated by the thermoelectric element into a predetermined voltage, an output connector that outputs the power converted into the predetermined voltage to the outside, buoyancy to keep the low temperature heat source part in contact with water It adopts the structure provided with a sieve.

In a power generation method for converting a temperature difference between a high temperature portion and a low temperature portion into electric power using thermoelectric conversion means as a first means according to the power generation method of the present invention, a method of performing temperature setting of a high temperature portion by condensing sunlight. To be adopted.

As a second means according to the power generation method of the present invention, in the power generation method for converting a temperature difference between a high temperature portion and a low temperature portion into electric power by using thermoelectric conversion means, a method of setting the temperature of the high temperature portion by catalytic combustion is adopted.

As a third means according to the power generation method of the present invention, the first or second means employs a method of setting the temperature of the low temperature part by contacting an external object.

As a fourth means according to the power generation method of the present invention, in the third means, an external object is adopted such that water, snow, ice, soil or part of the human body is used.

As a fifth means according to the power generation method of the present invention, in the first to fourth means, a method of charging the electronic device by converting the generated power into a predetermined voltage is adopted.

As a sixth means according to the power generation method of the present invention, the temperature of the high temperature section is set by condensing sunlight, and the temperature of the low temperature section is set by contacting with water, and the thermoelectric element provided between the high temperature section and the low temperature section is provided. Power generation by converting the electric power obtained by the power generation into a predetermined voltage and outputting it to the outside, and floating to stabilize the low temperature part, while contacting with water to set the temperature.

Hereinafter, an embodiment of a power generation apparatus and method according to the present invention will be described with reference to the drawings.

First Embodiment

1 is a configuration diagram of a power generation device according to the first embodiment. In the drawings, reference numeral 1 denotes a thermoelectric element (thermoelectric conversion means), 2 and 3 denote a thermal conductive plate, 4 denotes an auxiliary (buoyant body), 5 denotes a support member, and 6 denotes a water lens ( Condenser), 7 is a DC / DC converter (voltage converting means), 8 is an output connector (external output means), and 9 is a fixing string. In the apparatus of the present invention, the heat conduction plate 2 and the water lens 6 constitute a high temperature heat source portion A, and the heat conduction plate 3 constitutes a low temperature heat source portion B.

The thermoelectric element 1 is formed by connecting a plurality of p-type semiconductors and n-type semiconductors to each other and having a rectangular parallelepiped shape having a length of 3 cm x 3 cm and a height of 0.5 cm in the bottom and top surfaces. The heat conduction plate 2 is provided on the upper surface of the thermoelectric element 1, and the heat conduction plate 3 is provided on the lower surface of the thermoelectric element 1. The above-described thermoelectric element 1 obtains an output voltage of 4V to 5V or 3W power when the temperature difference between the heat conductive plate 2 and the heat conductive plate 3 is about 200 ° C.

The float 4 keeps the heat conductive plate 3 of the low temperature heat source portion B in contact with water. The bag 4 is installed on the heat conduction plate 3, and the heat conduction plate 3 is brought into contact with water, and at the same time, the heat conduction element 1, the heat conduction plate 2, and DC / DC installed above the heat conduction plate 3 are provided. The converter 7 and the output connector 8 are positioned above the water surface. When the bag 4 does not use the power generation device according to the present invention, since the air inside can be taken out and kept compact, the portability is good.

Above the heat conducting plate 2, a water lens 6 supported by the support member 5 is provided. This water lens 6 is a lens filled with water, and collects the incident sunlight X and irradiates the heat conduction plate 2 on the high temperature side. The upper part of this water lens 6 is comprised so that opening and closing is possible. That is, the water lens 6 optically functions as a lens by supplying water from the outside to the upper portion thereof.

The DC / DC converter 7 converts the electric power generated by the thermoelectric element 1 into a predetermined voltage and outputs it to the output connector 8. The input terminal is directly connected to the internal electrode of the thermoelectric element 1. . The output connector 8 outputs the output of the DC / DC converter 7 externally, for example, a cellular phone, a digital camera, or the like. In addition, the fixing strap 9 prevents the power generation device according to the present invention from flowing, for example, one end of the bag 4 is fixed to the other end of the land.

Next, the operation of the power generation device having such a configuration will be described. The high temperature heat source unit A is set to a temperature by receiving the sunlight X condensed by the water lens 6. That is, the sunlight X is refracted and collected by the water lens 6 and irradiated to the heat conduction plate 2 to raise the temperature of the heat conduction plate 2 to about 220 ° C. In addition, the low temperature heat source portion B is set to a temperature by contacting and exchanging heat with water such as a river or the sea. That is, the water, such as the river or the sea, in contact with the heat conduction plate 3 to take the heat of the heat conduction plate 3 and set the temperature at about 20 ℃.

As a result, a temperature difference of about 200 ° C occurs between the high temperature heat source unit A and the low temperature heat source unit B. The thermoelectric element 1 converts this temperature difference into electric power and outputs it to the DC / DC converter 7. The thermoelectric element 1 used in the power generation apparatus according to the present invention as described above obtains an output of 3W at about 4V to 5V by a temperature difference of about 200 ° C. Such electric power is converted into a predetermined voltage (for example, 4 V) by the DC / DC converter 7 and output to the mobile phone or the like with the output connector 8 interposed therebetween.

According to the power generation device in the first embodiment, the temperature setting of the high temperature heat source portion A by the sunlight X is performed, and the temperature setting of the low temperature heat source portion B is performed by water such as a river or the sea. Is done. That is, since it is possible to generate power by sunlight and water which can be easily used even in a place without commercial power, it is possible not only to secure power even in a place without commercial power, but also to generate power as a simple device configuration. Excellent portability

Second Embodiment

Next, the power generation device in the second embodiment will be described with reference to FIG. 2. The heat conduction plate 3 in the power generation apparatus according to the present invention has a plurality of fixing parts 3a having sharp front ends, and the fixing parts 3a are plugged into the ground so that they can stably contact the ground by themselves. At the same time, the surface area in contact with the ground is enlarged to promote heat exchange. That is, the heat conductive plate 3 having the fixed portion 3a is set to a temperature of about 20 ° C. by being in contact with the ground and heat exchanged. In addition, the power generation apparatus according to the present invention can also be used on snow or ice without a ground. By using it on snow or ice, the heat conductive plate 3 will become low temperature and can obtain a larger electric power.

Third Embodiment

In addition to the above two embodiments, the third embodiment can also consider a power generation apparatus according to the present invention using catalytic combustion as shown in FIG. As shown in the figure, the high temperature heat source portion (A) is composed of a heat conduction plate (2), the heat insulating material case 10, the fuel inlet (11). The heat conduction plate 3 in the power generation apparatus according to the present invention is designed to cover the upper surface of the thermoelectric element 1, and the heat conduction plate 2 is provided so as to cover the lower surface of the thermoelectric element 1. The heat insulating material case 10 is installed in a box shape and fits the thermoelectric element 1 on one surface thereof. That is, the heat conduction plate 2 faces the inside of the heat insulating material case 10, and the heat conducting plate 3 is inserted into the heat insulating material case 10 so as to protrude outward. A part of the heat insulating material case 10 is provided with a fuel inlet 11 that can be closed, and a platinum catalyst Y is filled therein.

When fuel, for example ethanol or benzine, is injected into the fuel inlet 11, catalytic combustion is generated by the action of a platinum catalyst charged inside the high temperature heat source portion A. The heat generated by this combustion raises the temperature of the heat conductive plate 2. The heat conductive plate 3 on the low temperature side is set to a temperature by, for example, being brought into contact with a human body. The thermoelectric element 1 converts the temperature difference between the heat conductive plate 2 and the heat conductive plate 3 into electric power. That is, using the power generation device according to the present invention thus configured, it becomes possible to obtain electric power even in the absence of the sun. In addition, since heat generated by combustion does not leak to the outside by the heat insulating material case 10, there is no risk of burns or the like.

However, the invention according to the present invention is not limited to the above embodiment, and of course, the following modifications can be considered.

(1) The high temperature heat source portion (A) of the third embodiment and the high temperature heat source portion (A) of the first or second embodiment are provided with ear joints of the same shape, and the ear joint portion and the thermoelectric element (1). It is also possible to replace the high temperature heat source portion A of the third embodiment and the high temperature heat source portion A of the first or second embodiment so as to be able to be separated. That is, since the high temperature heat source portion A can be replaced, the water lens 6 can be used when the sun is out, and the platinum catalyst can be used when the sun is out, and power can be secured in any weather.

(2) In the above embodiment, the water lens 6 is fixed to the ground. However, it is also possible to change the angle of the water lens 6 according to the sun altitude. That is, since the angle can be changed in accordance with the altitude of the sun, sunlight can always be aligned vertically with respect to the light-receiving surface, and power can be obtained more efficiently.

(3) In the above embodiment, the sunlight X is focused by using the water lens 6. However, it is also possible to condense sunlight X using a plastic lens.

(4) In the above embodiment, platinum catalyst (Y) and fuel were used. However, anything that can sustain the generation of heat is possible.

As described above, according to the present invention, there is provided a thermoelectric conversion means for thermoelectric conversion between the high temperature heat source portion and the low temperature heat source portion, the power generation having an external output means for outputting the power generated by the thermoelectric conversion means to the outside Since the apparatus collects sunlight and sets the temperature of the high temperature heat source unit, there is an advantage that power can be secured and the portability of the power generator can be improved even in a place where there is no commercial power source.

Claims (12)

The thermoelectric conversion means 1 is provided between the high temperature heat source part A and the low temperature heat source part B, and a means 8 for outputting electric power generated by the thermoelectric conversion means 1 to the outside is configured. In the power generating device, The high temperature heat source unit (A) is characterized in that it comprises a light collector (6) for condensing sunlight (X). The thermoelectric conversion means 1 is provided between the high temperature heat source part A and the low temperature heat source part B, and a means 8 for outputting electric power generated by the thermoelectric conversion means 1 to the outside is configured. In the power generating device, The high temperature heat source unit (A) is a power generator, characterized in that it comprises a catalytic combustion (10) for catalytic combustion. The method of claim 1, The generator is characterized in that it further comprises a buoyancy body (4) to keep the low temperature heat source (B) in contact with water. The method of claim 1, The power generating apparatus further comprises a voltage converting means (7) for converting the power generated by the thermoelectric converting means (1) into a predetermined voltage and outputting it to an external output means (8). A high temperature heat source unit A including a water lens 6 for collecting sunlight X; A low temperature heat source unit (B) for setting a temperature at contact with water; A DC / DC converter for converting electric power generated by the thermoelectric element 1 into a predetermined voltage; An output connector 8 for outputting power converted to a predetermined voltage to the outside; And a buoyancy body (4) which keeps the low temperature heat source portion (B) in contact with water. In the power generation method for converting the temperature difference between the high temperature portion and the low temperature portion to electric power using the thermoelectric conversion means (1), Temperature setting of the said high temperature part by condensing sunlight (X), The power generation method characterized by the above-mentioned. In the power generation method for converting the temperature difference between the high temperature portion and the low temperature portion to electric power using the thermoelectric conversion means (1), A power generation method characterized by setting the temperature of the high temperature section by catalytic combustion. The method of claim 6, A power generation method characterized by contacting an external object to set the temperature of the low temperature section. The method of claim 8, The external object is water, snow, ice, soil or part of the human body. The method of claim 8, When said external object is water, the said low temperature part stabilizes the said low temperature part by floating in water, and sets the temperature by making it contact with water. The method of claim 6, The electric power generation method characterized by charging the electronic device by converting the electric power generated above into a predetermined voltage. The temperature setting of the high temperature part is performed by condensing sunlight X, and the temperature setting of the low temperature part is performed by contacting with water, and generated by the thermoelectric element provided between the high temperature part and the low temperature part, A power generation method characterized by converting electric power into a predetermined voltage and outputting it externally, stabilizing the low temperature part by floating in water, and making temperature setting by contacting with water.