KR100961985B1 - Altitude-angle control device for solar panel - Google Patents

Abstract

PURPOSE: A device for controlling the altitude angle of a solar panel for a solar power generator is provided to maximize generating efficiency of a solar panel by effectively collecting sunlight, and to be used to the northern and southern hemisphere and equator. CONSTITUTION: A device for controlling the altitude angle of a solar panel for a solar power generator comprises a main body(1) composed of support fixing pieces(3), holes(5) for controlling altitude angle, coupling holes, angle display parts(7), support bars(8), upper supports(9), and lower supports(10). A bottom surface(2) is formed in the center of the main body. The support fixing pieces are formed in both sides of the bottom surface. The holes are formed in the front of the support fixing pieces. The coupling holes are formed in the rear of the support fixing pieces. The angle display parts are formed near the holes. The support bars are coupled to the support fixing pieces. The upper supports are formed in the front of the support bars. The lower supports are formed in the rear of the support bars.

Description

Altitude-angle control device for solar panel

The present invention relates to an altitude control device for a solar panel for a solar generator, and more particularly, to allow a solar panel to face the sun according to the altitude angle of the sun so that the solar light can be received more effectively. The present invention relates to an altitude angle control device for a solar panel for improving a power generation efficiency of a solar panel.

In general, photovoltaic power generation is a technology that converts sunlight into electrical energy, and uses solar cells that generate photovoltaic power through the photoelectric effect, and has the advantage that the energy source is clean, easy to maintain, and unmanned. Doing.

In order to increase the light collection efficiency to sunlight, a device is required to face the sun by moving a solar panel according to the change in the orbit of the sun (ie, change in azimuth and elevation angles of the sun).

In the northern hemisphere of the earth the sun rises daily from east to south and goes westward, and in the southern hemisphere sun rises daily from west to north east.

In the northern hemisphere, the sun is high in the summer (lower summer) and the sun is low in the winter (winter).

The solar panel according to the seasonal altitude change of the sun also needs to adjust the altitude angle to face the sun to increase the light receiving efficiency of the solar light. Existing altitude control devices are devices that can only be adjusted in the northern hemisphere of the earth. It cannot be used in common near the equator or in the southern hemisphere.

In addition, the existing altitude adjustment device has a problem that the configuration is complicated and the operation process is complicated, so that the high cost of production, frequent failure due to the operation, and weak durability, such as shock, vibration or typhoon.

Accordingly, the present invention for solving the above problems is to increase the power generation efficiency of the solar panel by allowing the solar panel to face the sun according to the altitude angle of the sun to receive the sunlight more effectively. Of course, to provide an altitude control device of the solar panel for a solar generator that can be easily adjusted to respond to the altitude angle of the sun regardless of the region.

The present invention for achieving the above object, as a device for adjusting the solar panel (solar panel) to face the sun according to the altitude angle of the sun constitutes a main body coupled with the azimuth adjustment driving device, the main body is a bottom for fastening to the center A support fixing piece formed on both sides of the bottom surface for fastening and forming a surface, an insertion groove formed between the bottom surface for fastening and the support fixing piece, and formed in a front portion of the support fixing piece and formed in an arc shape. An elevation angle adjustment coupling hole, a coupling hole formed at a rear portion of the support fixing piece, an angle display portion formed in close proximity to the elevation angle adjusting coupling hole of the support fixing piece, a support bar configured to be coupled to both support fixing pieces of the main body, The support bar has an upper support portion formed to be stepped upward in the front portion, and a lower support portion formed in the rear portion of the support bar, the upper side A predetermined angle of inclination with the needle is formed, and first and second through holes are formed in front and rear sides of the support bar, respectively, and the first and second through holes are fastened to the coupling holes and the coupling holes for adjusting the elevation angle, respectively. And fasten with a fastening nut, and form a fastening hole in the bottom surface for fastening of the main body to be coupled with the driving device for azimuth adjustment, and a solar panel is mounted on the upper and lower support parts of the support bar. It consists of a configuration.

According to the present invention, first, the solar panel (solar panel) to be able to accurately face the sun according to the altitude angle of the sun can receive the sunlight more effectively can maximize the power generation efficiency of the solar panel.

Secondly, it can also be easily adjusted to correspond to the altitude angle of the sun regardless of the region, so that it can be used for the northern hemisphere, the southern hemisphere and the equator.

Third, the simple configuration for adjusting the altitude angle is easy to adjust, easy to manufacture at low cost, and has the effect of high durability, such as shock, vibration or typhoon.

1 is an overall exploded perspective view of the "altitude angle control device of the solar panel for a solar generator" according to the present invention.
Figure 2 is a perspective view of the assembled state of "an altitude angle control device for solar panels for solar generators" according to the present invention.
Figure 3 is a state diagram (use state in the northern hemisphere) of the "altitude angle control device for solar panels for solar generators" according to the present invention.
4 and 5 show another example of use (the state of use in the southern hemisphere) of the "altitude angle control device of the solar panel for solar generators" according to the present invention,
Figure 4 is a perspective view of the assembly state with the azimuth driving device, Figure 5 is a state of use.

Hereinafter, described in detail with reference to the accompanying drawings shown as a preferred embodiment as follows.

First, specific embodiments of the present invention will be described with reference to FIGS. 1 to 3.

Terms defined in the description of the present invention are defined in consideration of functions and forms in the present invention, and should not be understood as meanings that limit the technical components of the present invention.

As shown in FIGS. 1 to 3, a solar panel is configured to face the sun according to the altitude angle of the sun, and constitutes a main body 1 coupled with an azimuth driving device.

The main body 1 is formed by forming the bottom surface 2 for fastening in the center portion and the support fixing piece 3 on both sides of the bottom surface 2 for fastening.

An insertion groove 4 is formed at a predetermined depth between the fastening bottom surface 2 of the main body 1 and the support fixing piece 3, and is also formed in the front portion of the support fixing piece 3, and Coupling hole 5 for adjusting the elevation angle formed in an arc shape, Coupling hole 6 formed in the rear portion of the support fixing piece 3 and Coupling hole for adjusting the elevation angle of the support fixing piece 3 and An angle display portion 7 is formed which is displayed in close proximity.

The support bar 8 is configured to be coupled to both side support fixing pieces 3 of the main body 1, and the support bar 8 is formed on the front part of the upper support part 9 which is formed to be stepped upward. The lower support part 10 is formed in the rear part of the bar 8.

A predetermined inclination angle is formed between the upper support part 9 and the lower support part 10, and first and second through holes 11 and 12 are formed in front and rear sides of the support bar 8, respectively. .

In addition, the first and second through holes 11 and 12 are fastened by fastening bolts 13 and fastening nuts 14 in accordance with the coupling holes 5 and 6 for adjusting the elevation angle, respectively.

A fastening hole 15 is formed in the bottom surface 2 for fastening of the main body 1 to be coupled with the driving device A for adjusting the azimuth, and the upper support part 9 and the lower support part of the support bar 8. The solar cell panel (S) is mounted on (10) to be combined.

Referring to the operation of the present invention configured as described above are as follows.

2 and 3, which will be described first with reference to FIGS. 2 and 3, are examples of a case in which the " altitude angle adjusting device for solar panels for solar generators " of the present invention is used in the northern hemisphere of the earth. .

As shown in Figure 3, the solar panel (solar panel) for the solar generator (S) to maximize the light receiving efficiency of the solar light by facing the sun.

However, as the earth revolves around the sun, the sun changes in its altitude depending on the season, so that the high altitude of the sun is high in the northern hemisphere during summer (low season) and low in winter (winter).

As described above, the solar panel (S) also needs to adjust the altitude angle according to the change of the altitude of the sun, and the fastening bolts 13 to which the support fixing pieces 3 and the support bars 8 of both sides are fixedly coupled. Loosen the fastening nut 14 and rotate the support bar 8 upward or downward in accordance with the altitude of the sun to adjust the fastening bolt 13 based on the coupling hole 6 and the second through hole 12. ) And tighten the tightening nut (14) again.

When adjusting the altitude angle according to the altitude of the sun, the support bar 8 can be adjusted to the exact altitude angle of the sun by adjusting to the display angle of the angle display unit 7, and the combined long hole for adjusting the altitude angle 5 is also provided. By configuring the support bar 8 can be easily adjusted by a desired angle.

Therefore, the solar panel (Sar panel) (S) as described above to maximize the light reception of the sunlight by facing each other at the correct altitude angle in accordance with the sun's altitude.

The altitude angle adjustment can be adjusted to 30 ° by the combined long hole 5 and the angle display unit 7.

In addition, the insertion grooves 4 formed on both sides of the bottom 2 for fastening have an elevation angle of up to 0 ° easily by allowing the support bar 8 to be inserted when the support bar 8 is almost 0 °. Will be able to fit.

Azimuth adjustment driving device (A) coupled to the main body (1) is a device driven in accordance with the azimuth change of the sun.

On the other hand, it will be described according to Figure 4 and 5 showing another use example of the present invention.

4 and 5 show an example of use in the southern hemisphere of the earth, the main body 1 coupled to the support bar 8 is inverted and fastened to the azimuth adjustment driving device A.

In this case, the altitude angle control of the solar panel S according to the altitude of the sun is the same as that described with reference to FIGS.

As described above, the " altitude angle control device for solar panel for solar generator " of the present invention allows the solar panel S to face the sun accurately according to the altitude angle of the sun, thereby effectively receiving sunlight. It can maximize the power generation efficiency of solar panels.

In addition, it can be easily adjusted according to the altitude angle of the sun irrespective of the region, so that it can be commonly used in the northern hemisphere, the southern hemisphere and the equator.

In addition, the present invention is a simple configuration for adjusting the altitude angle is easy to adjust and easy to manufacture at low cost, high durability even in shock, vibration or typhoon.

1: main body 2: bottom for fastening
3: support fixture 4: insertion groove
5: engagement hole for height adjustment 6: engagement hole
7: angle display part 8: support bar
9: upper support 10: lower support
11, 12: 1st and 2nd through hole 13: Fastening bolt
14: Fastening nut 15: Fastening hole
A: driving device for azimuth adjustment S: solar panel

Claims (3)

The solar panel is configured to face the sun according to the altitude angle of the sun to configure the body (1),
The main body (1) has a support fixing piece (3) formed on both sides of the fastening bottom surface (2) to form a fastening bottom surface (2) in the center;
Combination hole (5) for adjusting the elevation angle is formed in the front portion of the support fixing piece (3) and formed in an arc shape;
A coupling hole 6 formed at a rear portion of the support fixing piece 3;
An angle display unit 7 formed to be displayed in close proximity to the coupling hole 5 for adjusting the elevation angle of the support fixing piece 3;
A support bar 8 coupled to both sides of the support fixing piece 3 of the main body 1;
The support bar (8) and the upper support portion (9) formed to be stepped upward in the front portion;
The lower support portion (10) is formed on the rear portion of the support bar (8), the altitude angle control device of the solar panel for a solar generator, characterized in that configured to form an inclination angle with the upper support (9). According to claim 1, wherein the insertion groove (4) is formed between the fastening bottom surface 2 and the support fixing piece (3) of the main body (1), the fastening angle adjustment driving device (A) on the fastening bottom surface (2) Altitude angle control device of a solar panel for a solar generator, characterized in that coupled to. The method of claim 1, wherein the support bar 8 is formed in each of the first and second through holes (11, 12) in the front and rear both sides to match the coupling hole (5) and the coupling hole (6) for adjusting the elevation angle, respectively. Fasten with the fastening bolt 13 and the fastening nut (14),
An upper angle support portion (9) and a lower support portion (10) of the support bar (8) mounted on the solar panel (solar panel) (S) mounted on the altitude angle control device for a solar panel characterized in that the coupling configuration.

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