KR20200019505A - Solar power generator with solar tracker - Google Patents

Abstract

The present invention relates to a sunlight following power generator and, more specifically, to a sunlight following power generator which can raise floor area ratio by accumulating a plurality of solar panels on a certain site in a vertical direction, and can enhance generation efficiency by automatically adjusting the direction and angle in response to altitude and movement of the sun. According to the present invention, the sunlight following power generator can improve site usage efficiency and increase power generation amount by arranging a plurality of solar panels to be dispersed in an up and down direction and stacked as a multi-stage to install large amounts of solar panels in a limited site, and also, volume is reduced, thereby saving costs and time spent for moving or reinstalling and increasing total power generation amount. In addition, while a large site is required with an existing method, the sunlight following power generator can be installed in anywhere a solar cell module fits in such that site requirements needed for installation is significantly reduced and installation can be performed anywhere. Furthermore, according to the present invention, the sunlight following power generator allows tracking and following of sunlight corresponding to changes of daytime altitude of the sun with movement reciprocating a moving plate for a fixing plate having a curved surface structure, and thus increase in power generation amount can be expected.

Description

Solar power generator with solar tracker

The present invention relates to a solar tracking type power generation apparatus, and more particularly, a plurality of solar panels can be arranged in a vertical direction to be stacked in a vertical direction to increase the volume ratio, and to change the direction and angle in response to the altitude and movement of the sun. The present invention relates to a solar tracking type generator that can automatically increase power generation efficiency.

Since the Industrial Revolution, mankind's main energy sources have been fossil energy such as coal and oil, and modern society has been developed based on such fossil energy.

However, since the existing fossil energy resources are not only gradually exhausted, but also pollute the global environment, mankind has long been devoting a lot of research and efforts to develop clean alternative energy that does not pollute the environment.

Such clean alternative energy includes solar energy, wind energy, current energy, tidal energy, geo-thermal energy and bio-chemical energy. ).

Among clean alternative energy sources, solar energy is attracting attention as the most important energy source that can solve the energy of humankind, and there are two ways to use clean and unlimited solar energy.

The first is the use of solar heat, which is an indirect method of generating electricity by heating water using a heat collecting plate, using hot water, or even generating high temperature steam to drive turbines and generators.

Secondly, it is a direct use method of generating power using a solar cell which generates electricity immediately after solar light is emitted. The present invention relates to a photovoltaic device for generating power using sunlight.

At the heart of today's photovoltaic technology is the creation of a specially-coated solar cell, where a thin silicon plate receives light and turns its photons into electrons.

However, since electricity generated by each solar cell is weak, solar cells are collected and modularized, and a large area solar cell panel is constructed to produce utility electricity.

As photovoltaic power generation is a clean / unrestricted alternative energy, it is developing day by day with great interest and attention, but it is difficult to find suitable site in the city center and enormous amount of land purchase because solar panels must be spread out and installed flat on the sun. There is a problem of cost.

Republic of Korea Patent Publication 10-2015-0145485 Republic of Korea Patent Publication 10-2011-0050799

The present invention is to solve the conventional problems as described above, having a plurality of solar panels arranged in a vertical direction and laminated structure can produce a lot of electricity without using a large area, according to the height of the sun in one day The purpose of the present invention is to provide a solar tracking type generator that can increase the amount of power generated by simply adjusting the angle of the solar panel.

In addition, the present invention provides a ventilation hole between the solar panels to minimize the pressure caused by the wind, install a reflector to collect the light to increase the amount of power generation, attaching a lens to prevent the occurrence of shading to improve the efficiency of the power generation device An object of the present invention is to provide a solar tracking type generator having a heightening effect.

Solar tracking type according to the present invention for achieving the above object is a solar power generation unit including a plurality of solar panels; And an angle adjusting unit for supporting the photovoltaic unit and adjusting a light receiving angle of the solar panel according to the altitude of the sun, wherein the angle adjusting unit is provided with the photovoltaic unit at an upper portion thereof and has a predetermined curvature at a lower portion thereof. 1 is a movable plate formed to be drawn upwardly, and is installed on the lower portion of the movable plate to support the movable plate, while supporting the movable plate in a state of being in close contact with the first curved portion of the movable plate A second curved portion having a curvature corresponding to the first curved portion at an upper portion thereof is formed to protrude upward, and a lower portion of the second curved portion is installed to be parallel to the ground, and one side thereof is connected to the fixed plate, and the other side thereof is The movable plate is connected to the movable plate and has a length that stretches along the second curved portion of the fixed plate. And a driving unit for sliding the plate and a guide unit for guiding the moving plate to move in a predetermined direction when the moving plate is slid along the fixed plate, and preventing the moving plate from being separated from the fixed plate. .

The photovoltaic unit is spaced apart from each other in the vertical direction, the plurality of solar panels are inclined with respect to the ground, and the upper end is adjacent to the lower end of the solar panel located between the solar panel, the lower end on the top of the solar panel located below A plurality of reflecting plates disposed to be inclined in a direction opposite to the solar panel so as to be adjacent to each other and reflecting incident sunlight toward a solar panel positioned below, a support frame supporting the solar panel and the reflecting plate, The support frame has a first inclined frame and a second inclined frame which are fixed to the movable plate and extend in a zigzag shape upwardly and disposed in parallel with each other, wherein the first inclined frame and the second inclined frame each include: The solar panel is installed to be inclined upward at an angle with respect to the ground A first inclined portion and a second inclined portion extending from the end portion of the first inclined portion to be inclined upwardly opposite the first inclined portion to install the reflecting plate, and repeatedly forming the solar panel; And mounting ribs extending from each of the first inclined portion and the second inclined portion so as to be installed between the portions and the reflective plate between the second inclined portions.

According to the change in the altitude of the sun by one side of the solar panel located on the upper side of the other side of the solar panel located on the lower side is characterized in that it further comprises a lens unit for refracting the sunlight to prevent the generation of shadows.

In the solar tracking type generator according to the present invention, by arranging a plurality of solar panels in a vertically distributed manner and stacking them in multiple stages, a large number of solar panels can be installed on a limited site, thereby increasing site use efficiency and generating power. The reduced volume saves money and time for moving and re-installation, and increases the total amount of power generated. In the conventional method, a large site is required, whereas there is a space for one solar module. Since the installation is possible, the requirements of the site required for the installation are greatly alleviated, so it can be installed anywhere.

In addition, the solar tracking type generator according to the present invention is capable of tracking and following the sunlight according to the change in the altitude of the sun through the operation of reciprocating the moving plate for the fixed plate having a curved structure, thereby increasing the amount of power generated You can expect.

In addition, the present invention is a ventilation hole formed in the structure to withstand strong winds to increase the durability, the lens unit removes the shadow of the other solar panel located below the solar panel on one side and minimizes the power loss generated by the shadow generated power generation amount There is an advantage to promote this.

1 is a perspective view of a solar tracking type generator according to the present invention.
Figure 2 is a side view showing the operation of the solar tracking type generator according to the present invention.
Figure 3 is a side view showing another embodiment of the solar tracking type generator according to the present invention.

Hereinafter, a solar tracking type generator according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 to 3 illustrate a solar tracking type generator according to the present invention. 1 to 3, the solar tracking type generator according to the present invention includes a solar power generation unit 100 and an angle adjustment unit 200.

The photovoltaic unit 100 includes a plurality of solar panels 110, a reflector 120, and support frames 131 and 132.

The solar panels 110 are spaced apart from each other vertically by the support frames 131 and 132 which will be described later, and are inclined with respect to the ground to face the sun. Preferably, the solar panel 110 is disposed to be inclined at an angle of 45 ° with respect to the ground. In addition, both ends of the left and right longitudinal directions of the solar panel 110 are fixed to the mounting ribs 135 of the support frames 131 and 132.

The reflecting plate 120 is spaced apart from each other vertically by the support frames 131 and 132, and is disposed between the plurality of solar panels 110 spaced apart from each other. The reflecting plate 120 is disposed at a lower portion of the solar panel 110 positioned upward. The upper end is disposed to be adjacent, and the lower end is disposed adjacent to the upper end of the solar panel 110 positioned below. The reflector 120 forms an angle of 45 ° with respect to the ground and is inclined in a direction opposite to the solar panel 110 to reflect the sunlight incident to the front side toward the solar panel 110 positioned below. The reflection plate 120 is disposed to form an angle of 90 ° with the solar panel 110, and both ends of the left and right longitudinal directions are fixed to the mounting ribs 135 of the support frames 131 and 132.

The support frames 131 and 132 are installed to be orthogonal to the upper surface of the moving plate 210 to support the solar panel 110 and the reflecting plate 120 inclinedly, and the moving plate 210 of the angle adjusting unit 200 described below will be described later. It is fixed to the), extending in a zigzag shape upward, and comprises a first inclined frame 131 and a second inclined frame 132 disposed in parallel with each other.

Each of the first inclination frame 131 and the second inclination frame 132 extends inclined upward at an angle with respect to the ground so that the solar panel 110 is installed with the first inclination part 133 and the first inclination part ( The second inclined portion 134 extending from the end of the 133 to face upwardly opposite the first inclined portion 133 may be alternately and repeatedly formed.

The first inclined portion 133 constituting the first inclined frame 131 and the second inclined frame 132 extends inclined at an angle of 45 degrees upward with respect to the upper surface of the moving plate 210, the second inclined portion 134 is 45 ° with respect to the upper surface of the movable plate 210 to be orthogonal to the first inclined portion 133 in an upward direction opposite to the extending direction of the first inclined portion 133 from the end of the first inclined portion 133. Extends obliquely at an angle of.

In each of the first inclination frame 131 and the second inclination frame 132, the solar panel 110 may be installed between the first inclination part 133 and the reflecting plate 120 may be installed between the second inclination part 134. A mounting rib 135 is further provided to extend and protrude inwardly from an edge from each of the first inclined portion 133 and the second inclined portion 134.

The mounting ribs 135 may include the first inclination frame 131 and the first inclination so as to mount and support the left and right ends of the solar panel 110 in the first inclination frame 131 and the second inclination frame 132, respectively. A plurality is formed in each of the two inclined frames 132.

The mounting ribs 135 formed on the first inclination frame 131 protrude and extend in a direction toward the second inclination frame 132, and the mounting ribs 135 formed on the second inclination frame 132 may have a first inclination frame. It protrudes and extends in the direction toward 131.

As shown in the support frames 131 and 132, the solar panel 110 is installed on the first inclined portion 133 of the first inclined frame 131 and the second inclined frame 132 to face upward, respectively. The reflecting plate 120 is installed on the second inclined portion 134 of the first inclined frame 131 and the second inclined frame 132 so as to face downward.

Such an arrangement structure has a low power generation efficiency due to a small incident angle of sunlight incident on the solar panel 110 when the sun is low in altitude, but generates sunlight by reflecting the sunlight through the reflector 120 to the solar panel 110 below. Can be increased. This is arranged by reflecting the reflector 120, the lower reflector 120 inside the structure increases the amount of power generated by collecting light to the solar panel 110 located below, which is through the reflector 120 when the sun is located in the morning, afternoon time low By collecting the sunlight on the lower solar panel 110 to increase the output power generation has the effect of increasing even in the morning, afternoon time, which has the effect of replacing the function of the tracking module altitude tracking device.

In addition, the solar tracking type generator according to the present invention is disposed between the solar panel 110 and the reflecting plate 120 at a predetermined interval so as to prevent damage caused by strong winds, such as the solar panel 110 and the reflecting plate 120. Vents through which wind can pass are provided between them, and the size of the vents can be adjusted accordingly.

The angle adjusting unit 200 adjusts the light receiving angle of the solar panel 110 according to the altitude of the sun while supporting the photovoltaic unit 100, and includes a moving plate 210, a fixed plate 220, and a driving unit. 230 and a guide portion.

The movable plate 210 is fixedly provided with support frames 131 and 132 of the photovoltaic unit 100 at an upper portion thereof, and has a first curved portion 211 having a predetermined curvature in the upper portion thereof.

The fixed plate 220 is installed on the lower portion of the movable plate 210 to support the movable plate 210 and slides the movable plate 210 in a state in which it is in close contact with the first curved portion 211 of the movable plate 210. A second curved portion 221 having a curvature corresponding to the first curved portion 211 is formed to protrude upward, and the lower portion is installed to be parallel to the ground to support the movable portion.

The first curved portion 211 of the movable plate 210 and the second curved portion 221 of the fixed plate 220 have no thickness change in the first direction and a thickness change in the second direction perpendicular to the first direction. It may have the same structure as the circumferential surface of the cylinder or cylinder having, or alternatively may have the same structure as the circumferential surface of the sphere having a thickness change in both the first direction and the second direction. In the present exemplary embodiment, the first curved portion 211 and the second curved portion 221 may have a thickness that varies in the longitudinal direction of the movable plate 210 and the fixed plate 220, but the thickness does not change in the left and right width directions. The same structure as the circumferential surface of is applied.

One side of the driving unit 230 is rotatably connected to the fixed plate 220 by the first pivot bracket 231, and the other side is rotatably connected to the movable plate 210 by the second pivot bracket 232. do.

The driving unit 230 is a hydraulic cylinder or the like to slide the moving plate 210 along the second curved portion 221 of the fixed plate 220 by pushing or pulling the moving plate 210 to one side while the length is stretched Actuators such as pneumatic cylinders or electric cylinders or solenoids may be applied.

In this embodiment, a pneumatic cylinder is applied as the driving unit 230, and a compressor 233, a pipe 234, and an intermittent valve 235 are further provided to supply high pressure air to the pneumatic cylinder.

The guide part prevents the moving plate 210 from moving away from the guide and the fixing plate 220 so that the moving plate 210 can move in a set direction when the moving plate 210 is slid along the fixed plate 220 through the driving unit 230. As the guide plate 241 of the dovetail shape protruding to the lower portion of the movable plate 210 and the second curved portion 221 of the fixed plate 220 is introduced downward, the guide protrusion 241 is inserted and moved It is configured to include a guide groove 242 extending along the fixing plate 220 to be. As described above, the guide protrusion 241 may be formed in the fixed plate 220, and the guide groove 242 may be formed in the movable plate 210 in response thereto.

On the other hand, according to the present invention, the solar tracking type generator according to the present invention, the solar panel 110 of the other side located on the lower side by the solar panel 110 of the upper side located in accordance with the change in the altitude of the sun. The lens unit 300 further refracts sunlight to prevent shading from occurring.

Referring to FIG. 4, the lens unit 300 is attached to the support frames 131 and 132 by the mounting bracket 310 so as to refract the sunlight traveling downward from the top toward the solar panel 110 positioned below. Is mounted. The lens unit 300 is formed to have a length corresponding to the left and right lengths of the solar panel 110, and is disposed on the lower side of the solar panel 110 and grounded from the first inclination frame 131 and the second inclination frame 132. It is installed to protrude a predetermined length in the direction parallel to the. The lens unit 300 may apply a refractive lens or a Fresnel lens.

The mounting bracket 310 is fixed to one end at a bending point that is a boundary between the first inclined portion 133 and the second inclined portion provided in the first inclined frame 131 and the second inclined frame 132, and is parallel to the ground. It is arranged to.

The lens unit 300 is fixed at one end of the longitudinal direction to the mounting bracket 310 provided in the first inclination frame 131, and the other end of the longitudinal direction is mounted to the mounting bracket 310 in the second inclination frame 132 ( 310).

Although not shown in the drawing, the mounting bracket 310 may be formed in a stretchable structure to adjust the separation distance from the first inclination frame 131 and the second inclination frame 132, the lens unit 300 Of course, it is possible to apply a structure for rotatably supporting the lens unit 300 to be rotated.

As shown in the vertical tower solar cell apparatus according to the present invention further includes a lens unit 300, the solar altitude is lower than the inclination angle of the reflecting plate 120 and is lowered by the solar panel 110 positioned upward. When shading occurs in the solar panel 110 positioned in the solar cell panel 110, the solar light incident on the upper surface of the solar panel 110 is refracted to proceed to the shaded area of the solar panel 110 below. There is an advantage that can prevent the problem of power generation caused by this occurrence.

The solar tracking type generator according to the present invention described above has been described with reference to the accompanying drawings, which are merely exemplary, and those skilled in the art may have various modifications and equivalent embodiments thereof. I understand that it is possible.

Therefore, the true technical protection scope of the present invention should be defined only by the technical spirit of the appended claims.

100: solar power generation unit
200: angle adjustment unit
300: lens unit

Claims (3)

A solar power generation unit including a plurality of solar panels;
And an angle adjusting unit supporting the photovoltaic unit and adjusting a light receiving angle of the solar panel according to the altitude of the sun.
The angle adjusting unit
A movable plate having an upper portion of the photovoltaic power generation unit and a lower curved first curved portion having a predetermined curvature;
A curvature installed at a lower portion of the movable plate to support the movable plate, and a curvature corresponding to the first curved portion at an upper portion to support the movable plate to be slidably movable while being in close contact with the first curved portion of the movable plate. A second curved surface portion having a protruding upward direction, and a lower portion having a fixed plate installed to be parallel to the ground;
One side is connected to the fixed plate, the other side is connected to the moving plate, the length of the drive unit for sliding the moving plate along the second curved portion of the fixed plate and stretched;
And a guide unit for guiding the movable plate to move in a set direction when the movable plate is slid along the fixed plate, and preventing the movable plate from moving away from the fixed plate.
The method of claim 1,
The solar power generation unit
A plurality of solar panels spaced apart from each other up and down and inclined with respect to the ground;
The solar panel is disposed inclined in a direction opposite to the solar panel so that the upper end is adjacent to the lower end of the solar panel located on the upper side, and the lower end is adjacent to the upper end of the solar panel located on the lower side to position the incident sunlight downward A plurality of reflecting plates to reflect toward the solar panel,
It includes a support frame for supporting the solar panel and the reflecting plate,
The support frame
A lower end is fixed to the movable plate, extends in a zigzag shape upward, and includes a first inclined frame and a second inclined frame arranged side by side,
Each of the first inclination frame and the second inclination frame extends inclined upward at a predetermined angle with respect to the ground to face the first inclination part on which the solar panel is installed, and the first inclination part from the end of the first inclination part. A second inclined portion which is inclined upwardly at an angle to the upper surface of the reflecting plate is repeatedly formed;
And mounting ribs extending from the first inclined portion and the second inclined portion so that the solar panel is installed between the first inclined portion and the reflecting plate is installed between the second inclined portion. Solar follower type generator.
The method of claim 2,
Sunlight further comprises a lens unit for refracting the sunlight to prevent the shading occurs in the solar panel on the other side of the lower side by the solar panel on the one side of the upper side in accordance with the change of the altitude of the sun Follow-type power generator.

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