KR101005497B1 - Solar energy condenser having cooling radiator - Google Patents

Abstract

The present invention is to obtain a solar energy concentrator equipped with a cooling radiator to increase the power generation efficiency by irradiating solar energy to high efficiency small condensing type solar cell and installed in a place reduced to 1/3 of the existing installation place. ,

A metal PCB comprising a compact concentrating solar cell on the top plate, a cooling heat sink having a plurality of cooling fins arranged on the lower part of the metal PCB, and a focus of solar energy on the upper part of the metal PCB. A focus guide part including a hopper-type reflecting plate to focus on a small condensing type solar cell in the center, and a compression type convex lens light collecting plate to condense solar energy on the upper part of the focus guide part.

Solar energy, alternative energy, small concentrated solar cell, cooling heat sink, metal fish

Description

Solar energy condenser having cooling radiator

The present invention relates to a solar energy concentrator equipped with a cooling radiator, and more particularly, to increase the power generation efficiency by irradiating solar energy to a high efficiency small condensing solar cell in a place reduced to one third of the existing installation place. It relates to a solar energy condenser equipped with a cooling radiator that can be installed.

Current high energy exchange rate and high oil price policy continue to focus on energy saving and people's close to nature lighting. In the current situation, preference is given to solar-like three-wavelength lamps. The purpose is to induce national interest in the provision of a pleasant living environment and energy saving.

In order to achieve the above object, it is installed to protrude on the roof to collect the sunlight, a transmission pipe for transporting the collected light with a high reflective film attached to the inside, and the sunlight transferred through the transmission pipe indoors In a light collecting device consisting of a light emitting unit that diffuses in

uh; Fixing one side of the transmission pipe of the light collecting device to the roof with bolts and brackets, fixing a fan-shaped reflector facing south in the semicircular-shaped light collecting part, and emitting convexly into the room It is to provide a thing that consists of diffusing light by forming a projection inside the part.

Conventional photovoltaic collectors should be tracked with precision instruments even when collecting parabolic reflectors, and utility model 86-5310 reflectors applied to solar collectors do not collect light because the light receiving width is narrower than the length of the column circumference. The second reflector applied to the 81-768 solar heat collecting method not only collects the reflected light focused on the first reflector with tracking device but also has a light receiving aperture width of not more than 60 degrees, and is introduced in a similar Japanese patent 91-55735 condenser. The complex parabolic reflector is easy to collect in the middle and high temperature, but there are many defects in the reflected light that does not affect the heat collecting tube.In order to eliminate the reflected light, the light receiving opening width is inevitably narrowed as described above. The reflector is a symmetric type in which the left and right reflectors simultaneously co-focus on the incident sunlight.

Since conventional solar cells obtain electrical energy from a small amount of solar energy, the solar panels must be arranged in a large area, resulting in an increase in facility and maintenance costs.

The problem to be solved of the present invention is to provide a solar energy condenser which can be installed in a narrow space, equipped with a cooling radiator with high economical efficiency when utilized as a heat collector.

Another object of the present invention is the focus of the solar energy focused in the hundreds of times the size of the condensing type solar cell is a problem that the damage of the solar cell and the power generation efficiency is greatly reduced by the high temperature condensing heat to configure the cooling radiator to increase the cooling efficiency It is to provide a solar energy concentrator.

The problem solving means of the present invention is a metal PCB (Metal PCB) consisting of a small condensation solar cell (Concentration Solar Cell), a cooling heat sink in which a plurality of cooling fins are arranged below the metal PCB, and the upper portion of the metal PCB The focus guide unit is composed of a hopper-type reflector to focus the focus of solar energy on the small-sized concentrating solar cell in the center, and the convex lens condenser is configured to condense solar energy on the upper part of the focus guide unit. It was.

The solar energy concentrating device of the present invention has improved cooling efficiency by adjusting the height and the focus of the sun by configuring a case and a bolt and an adjusting nut that can adjust the height of the case and a mounting hole configured to fix the bolt to the rim. Configured to achieve this.

The solar energy concentrating device having the increased cooling efficiency of the present invention has been achieved by configuring a focus guide part having a support plate having wings on both sides and a hopper shape at an upper side thereof and a reflecting plate formed at an inner surface thereof.

The solar energy concentrating device of the present invention has a cooling heat sink having a plurality of cooling fins arranged on the lower surface of the metal PCB to prevent a rapid drop in power generation efficiency of a small-concentration solar cell when the temperature rises. It has the effect of increasing the emission rate.

Since it can reduce more than one third of the existing space, it is convenient to install in a narrow place and has an excellent effect of extending the use range.

It is a very useful invention for the energy industry because it has an excellent effect of using as an alternative energy due to the low installation cost and manufacturing cost.

With reference to the accompanying drawings of the solar energy condenser equipped with a cooling radiator of the present invention will be described in detail.

1 is a perspective view showing a solar energy concentrator equipped with a cooling radiator of a preferred embodiment of the present invention, Figure 2 is a perspective view of a combined solar energy concentrator equipped with a cooling radiator of the present invention, Figure 3 is Figure 4 is an embodiment of the focus guide, Figure 4 is an embodiment of a multi-row arrangement of the solar energy concentrator equipped with a cooling radiator of the present invention, Figure 5 is a solar energy concentrator equipped with a cooling radiator of another embodiment of the present invention One perspective view.

The solar energy concentrator equipped with the cooling radiator of the present invention shown in FIGS. 1 to 5 condenses sunlight to focus the focus of the solar light on a compact concentration solar cell 180 to maximize energy efficiency. The concentration solar cell was formed on the top plate of the metal PCB (Metal PCB, 190), which is strong in temperature and fast in heat transfer.

The concentrated solar energy is a high temperature is generated to damage the small condensed solar cell, especially at a high temperature, the power generation rate is sharply dropped, so fast cooling is required to configure the cooling heat sink 220 on the lower surface.

The cooling radiating plate 220 is arranged in a row so that the cooling fins 200 are arranged in a row and air-cooled. The cooling radiating plate 220 has a curve on the cooling fins to adjust the direction of air as necessary.

The metal PCB 190 is configured to deliver a conversion of solar energy into electrical energy by connecting a circuit by forming a condensation solar cell on the top and configured to withstand heat transfer and heat by condensing heat. And, the heat dissipation was configured to form a cooling heat sink 220 in which a plurality of cooling fins 200 are arranged in close contact with the bottom to be made.

The focus guide unit 170 constitutes a hopper-type reflector 160 so that the focus 170 of the solar energy on the upper portion of the metal fish can be focused on the small condensing solar cell in the center, even if the position of the focus of the sunlight is changed. It is configured to transmit light by.

The convex lens condenser plate 140 is configured to form a focal point focused on the solar energy in the upper portion of the focus guide to increase the condensation rate of sunlight.

Concentration Solar Cell (180) is 1cm in length and width, and smaller than conventional solar cells in 125mm length and length, respectively. It is a solar cell. In addition, high-efficiency power generation is possible by investigating the concentrated solar energy from tens to hundreds of times.

However, the focus of the solar light concentrated in the size of tens to hundreds of times of the small condensed solar cell is that the solar cell is damaged due to the high temperature condensing heat and the power generation efficiency is greatly reduced, so that it cannot function as a solar generator.

Therefore, in order to maintain high efficiency power generation and long life of the concentrating solar cell, it is necessary to quickly discharge the condensing heat of solar light. The present invention constitutes a metal PCB and a cooling heat sink capable of rapidly dissipating heat generated in a small condensing solar cell and being able to withstand external shocks. The cooling heat dissipation plate 220 is arranged in a single row and is arranged in a radial structure so that air is well-circulated by air cooling, and a cooling fin is formed to increase the cooling rate.

The metal PCB 190 is configured to concentrate the electrical energy generated from the solar cell to one place through the designed circuit board to be supplied to the external line.

Although the present invention has been described for one set with an embodiment shown in FIG. 4, it can be constructed by arranging a small concentration solar cell in multiple rows, and set the quantity according to the installation space and the use capacity. Can be.

The focus guide unit 170 forms a circular or square hopper type structure so that the focus of solar light is reflected on a small concentrated solar cell installed in the center by a reflector even though the focus of the solar light does not shine in the correct center. It was configured to.

The support 150 configured as a wing bent to prevent a sudden rise in temperature due to the focus of sunlight is coupled to the cooling heat sink was configured to transfer the heat to achieve cooling.

The solar energy concentrating device equipped with the cooling radiator of the present invention is equipped with a patented solar tracking mount so that the applicant can move according to the movement path of the sun to receive the maximum solar energy for one day to produce electric energy. To increase.

The solar energy concentrator equipped with the cooling radiator of the present invention shown in FIG. 5 can be fixed by fixing the convex lens condenser to the mounting opening 240 of the cooling radiator, and provides any change by the installation place and structure. Is included in the rights of the present invention.

In addition, it is configured to block the radiant heat by configuring a sunscreen 250 on the top to reduce the rise of the temperature of the cooling radiator of the present invention.

As described above, the present invention has been described with reference to the embodiment illustrated in the drawings, but this is merely exemplary, and a person having ordinary skill in the art may form various shapes and other equivalent embodiments therefrom. I will understand the point. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 is a perspective view showing a solar energy condenser equipped with a cooling radiator of a preferred embodiment of the present invention.

Figure 2 is a combined perspective view of a solar energy condenser equipped with a cooling radiator of the present invention.

Figure 3 is an operating state of the focus guide of the present invention.

Figure 4 is an embodiment of a multi-row arrayed solar energy condenser equipped with a cooling radiator of the present invention.

5 is a perspective view showing a solar energy condenser equipped with a cooling radiator of another embodiment of the present invention.

* Explanation of Signs of Major Codes in Drawings *

100: adjusting nut 110: long bolt

120: mounting hole 130: case

140: compressed ball roll lens light collecting plate

150: leg 160: reflector

170: focusing guide 180: small condensing solar cell

190: metal PCB 200: cooling fins

210: fixing piece 220: cooling heat sink

230: fixing plate 240: mounting hole

Claims (4)

Metal PCB (190) consisting of a compact concentrated solar cell (Concentration Solar Cell) 180 on the top plate, A cooling radiating plate 220 in which a plurality of cooling fins 200 are arranged below the metal PCB 190; The hopper-shaped reflector 160 and the support 150 having wings on both sides are formed at the lower portion of the reflector so that the focus of the solar energy on the upper portion of the metal fish is focused on the small condensing solar cell 180 in the center. Focus guide unit 170, On the upper portion of the focus guide portion 170, a case 130 constituting a mounting hole 240 for fixing the bolt to the rim so as to focus the solar energy, and a long bolt for adjusting the height of the mounting hole ( 110) and a solar energy concentrator equipped with a cooling radiator, characterized in that the condensed convex lens condenser plate 140 configured to adjust the focus to the height by configuring the adjustment nut (100). delete delete The method of claim 1, wherein the cooling heat sink Solar energy condenser equipped with a cooling radiator, characterized in that the sunscreen screen 250 is configured to prevent the increase in temperature caused by sunlight.

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