KR101221614B1 - Apparatus for polygonal condensing sunlight - Google Patents

Abstract

PURPOSE: A polygonal solar condensing apparatus is provided to improve the efficiency of condensing solar light by adjusting an incidence angle of the solar light by rotating a light collecting unit. CONSTITUTION: A polygonal solar condensing apparatus comprises a polygonal solar panel body, a radiating conduit(310), tempered glass(330), rotary motors, a temperature sensor, and a cooling water moving module. The polygonal solar panel body collects sunlight reflected from a reflecting plate. The radiating conduit wraps the outer surface of the polygonal solar panel body, and delivers cooling water. The tempered glass shields an incident part. The rotary motors rotate the polygonal solar panel body on the basis of the incidence angle of the sunlight from the incident part. The temperature sensor senses the temperature of the cooling water flowing along the radiating conduit. The cooing water moving module moves the cooling water to hot water storage equipment when the temperature of the cooling water reaches pre-set temperature.

Description

Polygon Condenser {APPARATUS FOR POLYGONAL CONDENSING SUNLIGHT}

The present invention relates to a polygonal light concentrator, and more particularly, to a polygonal light concentrator comprising a solar panel of the light concentrator in a polygonal shape and having a heat dissipation conduit on an outer surface thereof.

Various methods of producing energy using sunlight are being used. Representatively, there is a method of producing solar energy using solar cells and converting sunlight into heat.

In order to use the sun light to generate energy by condensing the light reflected on the reflector, for this purpose, it is important to efficiently collect the reflected light.

In addition, cooling the heat generated when condensing light to generate energy is also an important factor for the stability of the light collecting device.

In the related art, as disclosed in Korean Patent Laid-Open Publication No. 10-2010-0004793, a technique of injecting and cooling a cooling water is disclosed, but there are problems in efficiency of cooling and utilization of the cooling water.

Therefore, research on a light collecting device having a structure for efficiently collecting the reflected light and cooling the generated heat efficiently is required.

The present invention provides a solar light concentrating device that can increase the light condensing efficiency of the solar light by adjusting the angle of incidence of the sunlight reflected from the reflecting plate by rotating the light condenser condensing sunlight.

The present invention provides a solar light concentrating device that can increase the light collecting efficiency of the reflected light by condensing light reflected from the reflecting plate by configuring a polygonal solar panel.

The present invention is provided with a heat dissipation conduit in the light collecting part to control the heat generated from the light collecting part, to stabilize the light collecting part by cooling the excess heat generated in the light collecting part using a coolant, it is possible to utilize the heated water for various uses It provides a solar light collecting device.

Polygonal light collecting device according to an embodiment of the present invention, the polygonal shape of the solar panel body for condensing the sunlight reflected from the reflecting plate and the outer surface of the polygonal shape of the solar panel body includes a heat radiation conduit for moving the coolant Can be.

According to one aspect of the invention, it may further comprise a tempered glass to shield the inlet of the reflected sunlight.

According to one aspect of the invention, the reflected solar light may further include a rotating motor for rotating the solar panel body according to the angle introduced into the inlet.

According to one aspect of the invention, the temperature sensor for sensing the temperature of the cooling water to move the heat dissipation conduit may further include.

According to one aspect of the invention, when the temperature of the cooling water reaches a predetermined temperature, it may further include a cooling water moving module for moving the cooling water to an external hot water storage facility.

According to an embodiment of the present invention, a solar light concentrating device capable of increasing the light condensing efficiency of solar light is provided by adjusting an angle at which the light reflected from the reflector is incident by rotating a light condenser condensing sunlight.

According to an embodiment of the present invention by configuring a polygonal solar panel to collect the light reflected from the reflecting plate, there is provided a solar light collecting device that can increase the light collecting efficiency of the reflected light.

According to an embodiment of the present invention by providing a heat dissipation conduit in the light collecting part to control the heat generated in the light collecting unit, by cooling the excess heat generated in the light collecting unit using a cooling water to stabilize the light collecting unit, There is provided a solar light collecting device that can be utilized for various purposes.

1 is a view for explaining the configuration and the first axis of rotation of the solar light collecting device according to an embodiment of the present invention.
2 is a view for explaining the configuration and the second axis of rotation of the solar light collecting device according to an embodiment of the present invention.
3 is a view for explaining the configuration and rotation of the light collecting unit according to an embodiment of the present invention.
4 is a view for explaining a process of rotating the light collecting unit to adjust the angle of incidence of sunlight reflected by the reflecting plate according to an embodiment of the present invention.
5 is a front view showing the configuration of a light collecting unit according to another embodiment of the present invention.
6 is a side view of the light collecting part according to the embodiment of FIG. 5;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

1 is a view for explaining the configuration and the first axis of rotation of the solar light collecting device according to an embodiment of the present invention, Figure 2 is a configuration and a second axis of rotation of the solar light collecting device according to an embodiment of the present invention It is a figure for demonstrating.

1 and 2, the solar light collecting apparatus 100 includes a reflecting plate 110, a light collecting unit 120, a first rotating motor 111, a second rotating motor 121, and a third rotating motor ( 122).

The reflector 110 is for reflecting sunlight and may be configured in a parabolic shape. Conventionally, the axial rotation of the reflector is moved up and down in response to the movement of the sun, or the movement of the reflector is moved up and down and left and right to respond to changes in the sun's altitude and azimuth angle. It was difficult to cope with the problem, and when the two-axis rotation of the reflector was large, the equipment was large, space was constrained, and the cost was high.

In one embodiment of the present invention, the reflector 110 may rotate only in the vertical direction according to the altitude of the sun. That is, the first rotary motor 111 may rotate the reflector 110 around the first axis according to the altitude angle of the sun. That is, the first rotation motor 111 may rotate the reflector 110 up and down as shown in the solid line and the dotted line of FIG. 1 in response to the altitude of the sun, thereby effectively reducing the angle at which sunlight is incident. Can be adjusted.

However, according to the exemplary embodiment of the present invention, the reflector 110 rotates only up and down according to the altitude angle of the sun, and the azimuth change of the sun can be coped with by rotating the light collecting unit.

The light collecting unit 120 collects sunlight reflected by the reflecting plate 110 and is supported by a support 123 provided at the center of the reflecting plate 110. Here, the light collecting part 120 may rotate to correspond to the change in the azimuth angle of the sun, which may be rotated through the second rotation motor 111.

To this end, the second rotary motor 121 may rotate the support 123 around the second axis according to the azimuth angle of the sun. That is, as shown in the solid line and the dotted line of Figure 2, by rotating the support 123 in the left and right directions according to the azimuth angle of the sun, it is possible to efficiently adjust the angle of the sunlight is incident as described above.

In addition, the third rotation motor 122 may rotate the light collecting part 120 about the center axis of the light collecting unit 120 according to the direction of light incident after being reflected by the reflecting plate 110. Although the incidence angle according to the position of the sun could be efficiently controlled by rotating the first and second rotation motors 111 and 121, the incidence angle was changed by rotating the light concentrator 120 itself for more precise incidence angle adjustment. I can regulate it.

As described above, according to the exemplary embodiment of the present invention, since the focus of sunlight is always changed according to the movement of the sun, the reflector 110 is moved in response to the change in the altitude angle of the sun, and the house is changed in response to the change in the azimuth angle of the sun. By allowing the light unit 120 to rotate, solar light may be more efficiently integrated.

According to one embodiment of the present invention, since one axis of the two axes moves the light collecting unit while performing the two-axis rotation of the reflector and the light collecting unit around each axis, a large-scale rotating facility is not required, Optimum space can be secured.

That is, according to one embodiment of the present invention, since the reflecting plate rotates only on one axis (up and down), the reflecting plate can be arranged continuously, so that optimum space utilization is possible, and light is directly integrated into the solar panel to directly generate electrical energy. Therefore, it is much more efficient than turning a turbine to generate electrical energy.

3 is a view for explaining the configuration and rotation of the light collecting unit according to an embodiment of the present invention.

Referring to FIG. 3, the light collecting unit 120 includes a polygonal solar panel 320 and a heat dissipation conduit 310 for cooling heat generated from the solar panel 320 on an outer surface of the solar panel 320. can do.

Herein, the solar panel 320 may be formed in a polygonal shape, and FIG. 3 illustrates a solar panel 320 having a 'c' shape as an embodiment. In general, in a system for integrating sunlight, when light is collected, the light reaches the solar cell to make electrical energy, but a part of the collected light is reflected and does not contribute to making electrical energy. However, as in the embodiment of the present invention, when the solar panel is made into a polygon such as a 'c' shape, since all the light energy is collected into the 'c' shape, the light lost is greatly reduced. Therefore, according to the present invention, efficient energy production can be possible without loss of light.

On the other hand, the heat dissipation conduit 310 may be provided on the outer surface of the polygonal solar panel 320 may serve as a passage of the coolant movement. That is, heat is generated at the time of condensing, and it is very important to cool the generated heat efficiently.

According to one embodiment of the invention, the generated heat is cooled through the cooling water of the heat dissipation conduit 310, and when the cooling water reaches a predetermined temperature (ex. 60 ℃) by moving the water to the external hot water storage facility It can be used for various purposes. To this end, the inside of the heat dissipation conduit 310 may include a temperature sensor (not shown) for sensing the temperature of the cooling water, when the temperature of the cooling water reaches a predetermined temperature, the cooling water is stored outside the hot water storage facility Can be set to move to.

As described above, the heat dissipation conduit 310 not only serves to cool the heat generated from the solar panel 320 through the cooling water flowing therein, but also moves the heated cooling water to the hot water storage facility for various purposes. Therefore, it is possible to reduce energy waste and increase energy efficiency.

Meanwhile, the sunlight reflected by the reflector 110 is incident on the condenser 120, and as shown in FIG. 3, the sunlight is incident on the entrance of the 'c' shape, and the condenser is configured to adjust the incident angle of the incident sunlight. 120 may rotate, for example, as a dotted line. In addition, the part where the sunlight is incident may be made of tempered glass 330 to shield the inlet. Here, for shielding the inlet, not only tempered glass but also various materials may be used.

Hereinafter, a process of rotating the light collecting unit to adjust the incident angle will be described in more detail with reference to FIG. 4.

4 is a view for explaining a process of rotating the light collecting unit to adjust the incident angle of the sunlight reflected on the reflecting plate according to an embodiment of the present invention.

Referring to FIG. 4, when the azimuth angle of the sun changes, the focal plane deviates from the center of the reflector 110. That is, when light enters the side, the focus of the light moves along the focal plane, and thus, the light collecting part can be rotated along the focal plane by using this fact. That is, in order to more accurately enter the solar light reflected by the reflecting plate 110 into the solar panel 320 of the light collecting unit, as mentioned above, the light collecting unit 120 may be rotated by rotating the support. In addition, the light collecting unit 120 may be rotated separately from the rotation of the support for finer incident angle control.

As described above, by adjusting the angle of incidence of the light by rotating the light collecting unit, it is possible to secure an optimal space and to exhibit biaxial rotation or more at a low cost.

FIG. 5 is a view showing the condenser according to another embodiment of the present invention in a front view, and FIG. 6 is a side view showing the condenser according to the embodiment of FIG. 5.

5 and 6, the light collecting unit 120 may be configured in various forms and may include a polygonal solar panel. That is, when the reflected sunlight is incident through the inlet 510, the solar panel 520 may produce electrical energy using the incident sunlight. In addition, the outer surface of the solar panel 520 may be provided with a heat dissipation conduit 530 which cools the generated heat by flowing the cooling water, the shape of the heat dissipation conduit 530 may be implemented in various ways. For example, as shown in Figure 3, the light collecting unit, the solar panel may be configured in a 'c' shape, the outer surface of the solar panel may be configured in a form that surrounds the circular heat radiation conduit. It is apparent to those skilled in the art that the shape of the solar panel and the heat dissipation conduit can be variously implemented according to the implementation environment.

5 and 6 illustrate a trapezoidal solar panel 520 and a rectangular heat dissipation conduit 530 surrounding the outer surface thereof, but the embodiment is not limited thereto.

As described above, in one embodiment of the present invention, by rotating the reflector according to the latitude of the sun, and moving the light collector according to the azimuth angle of the sun, one of them moves by moving the light collector while rotating about two axes. It can reduce the cost and energy loss, and ensure the optimum space.

In addition, the light collecting efficiency of the solar light may be improved by rotating the light collecting unit for collecting the sunlight, and adjusting the angle at which the sunlight reflected from the reflector is incident.

In addition, by providing a heat dissipation conduit in the light collecting part to control the heat generated from the light collecting part, the excess heat generated in the light collecting part is cooled using a coolant to stabilize the light collecting part, and the heated water can be utilized for various purposes. .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. Various modifications and variations are possible in light of the above teachings. Accordingly, it is to be understood that one embodiment of the present invention should be understood only by the appended claims, and all equivalent or equivalent variations thereof are included in the scope of the present invention.

110: reflector 111: first rotation motor
120: light collecting unit 121: second rotation motor
122: third rotary motor 310, 530: heat dissipation conduit
320, 520: solar panel 330: tempered glass
510: inlet

Claims (5)

A solar panel body having a polygonal shape for collecting sunlight reflected from the reflector;
A heat dissipation conduit surrounding the outer surface of the polygonal solar panel body and moving the coolant;
Tempered glass for shielding the inlet of the reflected sunlight;
A rotating motor for rotating the solar panel body according to an angle at which the reflected sunlight is introduced into the inlet;
A temperature sensor for sensing a temperature of cooling water moving the heat dissipation conduit; And
Cooling water moving module for moving the cooling water to an external hot water storage facility when the temperature of the cooling water reaches a predetermined temperature
Polygon condenser comprising a. delete delete delete delete

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