KR101530493B1 - Floating appratus for generating electricity by solar energy with thermoelectric element - Google Patents

Abstract

The present invention relates to a floating-type photovoltaic power generating apparatus using a thermoelectric element. The floating-type photovoltaic power generating apparatus using a thermoelectric element comprises: a base plate which has a plate shape, floats on water, and includes a plurality of bar-shaped heat-radiating fins formed on a lower side thereof; a dome member which is made of a transparent material, is empty, and has a lower end coupled to an edge of the base plate; a plurality of thermoelectric elements modules arranged to face an upper surface of the base plate; a plurality of heat collecting lenses arranged on the dome member to collect solar light; and a circular heat plate arranged to face upper sides of the thermoelectric element modules to collect solar light collected from the heat collecting lenses. According to the present invention, the floating-type photovoltaic power generating apparatus using a thermoelectric element can increase a heat collecting effect by integrally including a heat collecting lenses in the dome member. The floating-type photovoltaic power generating apparatus using a thermoelectric element heats the thermoelectric element module under the heat plate using solar light collected on the heat plate on an upper surface of the thermoelectric element module and naturally cools the lower part of the thermoelectric element module through the heat heat-radiation fins submerged under water under the thermoelectric element module, thereby generating the maximum temperature difference on upper and lower parts of the thermoelectric element module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a floating solar power generation apparatus using a thermoelectric element,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation apparatus, and more particularly, to a floating solar power generation unit and apparatus that can float on water.

A thermoelectric element is a device that enables power generation through a Seebeck effect. The Ebeck effect is a principle that if a temperature difference is created between two metals on a closed circuit made of two different metals with two contacts, a potential difference is generated between the two metals.

A thermoelectric module (TEM) using a thermoelectric element has a multilayer structure of an insulating layer, a conductor, a semiconductor, a conductor and an insulating layer from above. In order to generate electricity by using such a thermoelectric element, it is important to keep the temperature difference as large as possible within the allowable range of durability.

The power generating device using such a thermoelectric element has been disclosed in the patent registration No. 1296234 by the present applicant. Japanese Patent No. 1296234 discloses a floating power generation device using a heat collecting lens disposed on the upper side of a casing, but has a problem that it is greatly affected by the position of the sun.

Korean Registered Patent No. 1296234 (Mar. 08, 2007), "floating power generation device" Korean Patent Laid-Open No. 10-2012-0114454 (October 17, 2012), "Awarded Solar Thermal Power Generation System"

It is an object of the present invention to provide a floating solar power generation unit and apparatus using a thermoelectric element that can generate electricity irrespective of the position of the sun and is easy to maintain.

In order to achieve the above object, a floating solar power generation unit using a thermoelectric device according to an embodiment of the present invention has a function of floating in a plate form, and a plurality of rod- A base plate having radiating fins; A transparent member made of a dome member having an empty space formed therein and a lower end coupled to an edge of the base plate; A plurality of thermoelectric element modules arranged to abut on an upper surface of the base plate; A plurality of heat collecting lenses arranged on the dome member for collecting sunlight; And a circular heat plate arranged so as to be in contact with the upper side of the thermoelectric module and concentrating sunlight collected from the heat collecting lens.

Here, the heat plate may further include a ring-shaped heat insulator at an edge thereof in contact with the dome member.

In addition, the dome member may have a shape in which a pentagonal panel and a hexagonal panel are combined as a shape of a soccer ball, and the heat collecting lens may be disposed at the center of each pentagonal panel and the hexagonal panel.

Further, the dome member and the heat collecting lens may be further provided with an anti-fouling coating layer so that the inner surface does not contain organic matter.

In addition, the dome member and the heat collecting lens may further include a super water-repellent coating layer to prevent contaminants from adhering to the outer surface.

The apparatus may further include a power storage unit electrically connected to the thermoelectric module to store electricity generated by the thermoelectric module.

Further, a floating solar power generation apparatus using a thermoelectric device according to an embodiment of the present invention includes: a floating deck having a plurality of insertion holes formed in a water floating structure; And a floating solar photovoltaic power generation unit in which a lower end is inserted into the insertion hole and is detachable, wherein the floating solar PV unit has a function of floating in a plate form on the water, A base plate having a plurality of rod-like radiating fins; A transparent member made of a dome member having an empty space formed therein and a lower end coupled to an edge of the base plate; A plurality of thermoelectric element modules arranged to abut on an upper surface of the base plate; A plurality of heat collecting lenses arranged on the dome member for collecting sunlight; And a circular heat plate arranged to be in contact with an upper side of the thermoelectric module and concentrating solar light collected from the heat collecting lens, and the radiating fins can be inserted into the insertion hole.

According to the floating solar power generation unit and apparatus using the thermoelectric element according to the embodiment of the present invention,

First, the dome member has a shape in which a pentagonal panel and a hexagonal panel are combined such as a hemispherical shape or a shape of a soccer ball, and a plurality of heat collecting lenses are disposed in the dome member, thereby obtaining a solar light condensing effect regardless of the position of the sun.

Second, a collecting lens is integrally provided in the dome member to increase solar collecting effect, and sunlight is irradiated on the heat plate on the top surface of the thermoelectric module, so that sunlight gathered on the heat plate applies heat to the thermoelectric module on the bottom surface The lower part of the thermoelectric module can be naturally cooled through the lower heat sink pin immersed in water to generate the maximum temperature difference in the upper and lower parts of the thermoelectric module.

Third, the floating solar power generation unit is easily detachable because it is inserted into the insertion hole of the floating deck, so that the maintenance is easy.

Fourthly, a ring-shaped heat insulating material is provided at the edge of the heat plate to prevent heat from being transmitted to the dome member.

Fifth, an antifouling coating layer may be provided on the inner surface of the dome member and the heat-collecting lens to prevent organic substances from being trapped.

Sixth, the super-water-repellent coating layer may be provided on the outer surface of the dome member and the heat collecting lens to prevent contaminants from adhering to the dome member and the heat collecting lens.

1 is a perspective view of a floating solar power generation apparatus using a thermoelectric device according to an embodiment of the present invention.
2 is a plan view of a floating solar power generation apparatus using the thermoelectric element shown in FIG.
3 is a side view of a floating solar power generation apparatus using the thermoelectric element shown in FIG.
4 is an exploded cross-sectional view of the floating solar power generation apparatus using the thermoelectric element shown in FIG.
5 is a longitudinal sectional view of a floating solar power generation unit using the thermoelectric element shown in FIG.
6 is a partially enlarged cross-sectional view of part A shown in Fig.
7 is a perspective view of a floating solar power generation unit using a thermoelectric device according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

1 is a perspective view of a floating solar photovoltaic device using a thermoelectric device according to an embodiment of the present invention, Fig. 2 is a plan view of a floating solar photovoltaic device using the thermoelectric device shown in Fig. FIG. 4 is a cross-sectional exploded view of a floating solar photovoltaic device using the thermoelectric device shown in FIG. 3, and FIG. 5 is a cross-sectional view of a floating solar cell device using the thermoelectric device shown in FIG. Fig. 6 is a partially enlarged cross-sectional view of part A shown in Fig. 5, and Fig. 7 is a perspective view of a floating solar power generation unit using a thermoelectric device according to another embodiment of the present invention.

Referring to FIGS. 1 to 7, a floating solar power generation apparatus using a thermoelectric element includes a floating solar power generation unit 100 and a floating deck 200.

1 to 4, the floating deck 200 has a plurality of insertion holes 210 formed in a structure capable of floating in an aquarium, and the floating solar power generation unit 100 is formed in an insertion hole 210 And the lower end is inserted to be detachably coupled. That is, the radiation fins 111 of the floating solar power generation unit 100 are inserted into the insertion holes 210 of the floating deck 200. The insertion holes 210 may be formed in a number corresponding to the radiating fins 111 as shown in FIG. 4 or may be formed to be large enough to insert a plurality of radiating fins 111 at the same time.

A floating solar power generation unit 100 using a thermoelectric element includes a base plate 110, a dome member 120, a thermoelectric module 130, a collecting lens 140, and a heat plate 150 .

The base plate 110 has a plate shape and floats on the water and has a plurality of rod-like heat radiating fins 111 on the lower side. The base plate 100 and the radiating fins 111 may be made of a metal material or the like.

The dome member 120 is made of a transparent material and has a hollow space formed therein, and the lower end thereof is engaged with the edge of the base plate 110. It is preferable that the dome member 120 and the base plate 110 are coupled to each other by a structure that blocks the intrusion of moisture by packing, sealing, or the like.

The plurality of thermoelectric module modules 130 are arranged to abut the upper surface of the base plate 110 and the plurality of the heat collecting lenses 140 are arranged in the dome member 120 to collect sunlight.

The dome member 120 may have a hemispherical shape as shown in FIG. 7, and may have a shape in which the pentagonal panel 120a and the hexagonal panel 120b are combined with each other as in the shape of a soccer ball as shown in FIGS. 1 to 6, The heat collecting lens 140 may be disposed at the center of each pentagonal panel 120a and the hexagonal panel 120b. The dome member 120 has a shape in which the pentagonal panel 120a and the hexagonal panel 120b are combined like a hemispherical shape or a shape of a soccer ball and a plurality of the heat collecting lenses 140 are disposed on the dome member 120, The solar light converging effect can be obtained irrespective of the position.

The dome member 120 and the heat collecting lens 140 must always maintain a clean surface for condensation. Since the floating solar power generation unit 100 floats in the water, there is a high possibility that the surface is contaminated.

In order to prevent this, as shown in FIG. 6, the dome member 120 and the heat collecting lens 140 may further include an anti-fouling coating layer 121 so that the inner surface of the dome member 120 and the heat- The anti-fouling coating layer 121 may be a plasma coating or the like.

Further, as shown in FIG. 6, the dome member 120 and the heat collecting lens 140 may further include a super-water-repellent coating layer 122 to prevent contaminants from adhering to the outer surface. Ultrafine bending or the like is formed on the surface of the super water repellent coating layer 122 so that the contact area with the contaminant particles is minimized and the clean surface is always maintained.

As shown in FIG. 5, the circular heat plate 150 is arranged to be in contact with the upper side of the thermoelectric module 130, and solar light collected by the heat collecting lens 140 is concentrated. The heat plate 150 may further include a ring-shaped heat insulator 160 at an edge thereof contacting the dome member 120.

The floating solar power generation unit 100 also includes a three-dimensional position transmitter 180 as shown in FIG. 5 to measure the 3D position of the floating solar power generation unit 100 and transmit the position remotely It is possible to grasp the floating position.

The floating solar power generation unit 100 or the floating deck 200 is provided with a power storage unit (not shown) electrically connected to the thermoelectric module 130 to store electricity generated by the thermoelectric module 130 .

According to the present invention, the heat collecting lens 140 is integrally provided in the dome member 120 to enhance solar collecting effect, and sunlight is irradiated to the heat plate 150 on the upper surface of the thermoelectric module 130, The solar light collected on the plate 150 heats the thermoelectric module 130 on the lower surface thereof and naturally cools the lower portion of the thermoelectric module 130 through the lower heat sink 111 immersed in the water, The maximum temperature difference can be generated in the upper and lower portions.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100 ... Floating solar power generation unit 110 ... Base plate
120 ... dome member 130 ... thermoelectric module
140 ... collecting lens 150 ... heat plate
160 ... Insulation 200 .. Floating deck

Claims (9)

delete delete delete delete delete delete A floating deck in which a plurality of insertion holes are formed as a structure floating on a water surface; And
And a floating solar power generation unit having a lower end inserted into the insertion hole to be detachable,
In the floating solar power generation unit,
A base plate having a plate-like shape floating on the water and having a plurality of rod-shaped heat radiating fins on the lower side;
A transparent member made of a dome member having an empty space formed therein and a lower end coupled to an edge of the base plate;
A plurality of thermoelectric element modules arranged to abut on an upper surface of the base plate;
A plurality of heat collecting lenses arranged on the dome member for collecting sunlight; And
And a circular heat plate arranged so as to be in contact with an upper side of the thermoelectric module and concentrating sunlight collected by the heat collecting lens,
The radiating fins are inserted into the plurality of insertion holes and are provided so that the lower portion of the radiating fins is immersed in water when floating in the water,
The dome member
Wherein the pentagonal panel and the hexagonal panel have a shape in which a shape of a soccer ball is combined with each other, and the heat collecting lens is disposed at the center of each pentagonal panel and the hexagonal panel,
Wherein the dome member
An antifouling coating layer provided on an inner surface of the dome member and the heat collecting lens to prevent organic substances from being trapped; And
And a super water-repellent coating layer provided on an outer surface of the dome member and the heat collecting lens to prevent contaminants from adhering to the dome member. The method of claim 7,
Wherein the heat plate comprises:
And a ring-shaped heat insulating material is provided at an edge of the dome member in contact with the dome member. The method of claim 7,
In the floating solar power generation unit,
Further comprising a power storage unit electrically connected to the thermoelectric module to store electricity generated by the thermoelectric module.

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