KR100997869B1 - Apparatus for controling angle of solar module panel - Google Patents

Abstract

The present invention relates to a solar cell module plate angle adjusting device in which the solar cell module plate is inclined to the south by a spacer member in a horizontal single axis tracking device.

In the solar cell module plate angle adjusting device according to the present invention, a plurality of cradles 10 are mounted on the base horizontal axis 20, and each of the cradles 10 is equipped with a solar cell module plate 30, respectively. In the horizontal single-axis tracking device for tracking the sun from east to west by the angular rotation of 20), a cross located to the north relative to any one of the cross bars 11 of the cradle 10 to which the solar cell module 30 is mounted. Since the spacer member 40 is mounted between the bar 12 and the base horizontal axis 20, the solar cell module plate 30 mounted on the holder 10 is inclined to the south.

Description

Solar cell module angle control device {APPARATUS FOR CONTROLING ANGLE OF SOLAR MODULE PANEL}

According to the present invention, a plurality of cradles are mounted on a base horizontal axis, and a solar cell module plate is mounted on each cradle, and the solar cell module plate is mounted in a horizontal single axis tracking device tracking the sun from east to west by angular rotation of the base horizontal axis. The spacer member is mounted between the cross bar and the base horizontal axis located in the north relative to the cross bar of any one of the cradles, the solar cell module plate mounted on the cradle is directed to the angle of the solar cell module plate is disposed obliquely to the south.

Republic of Korea Patent No. 10-0734217 (registered June 26, 2007) is introduced "manual solar panel angle control device".

The manual solar panel angle adjusting device is mounted on the semi-circular shaped support portion formed on the cradle, and the semi-circular cover is matched with the support portion, and then assembled to assemble a frame that constrains the rotary shaft combined support of the cylindrical pipe shape. After forming and rotating the combined rotary shaft support by a predetermined angle, the angle fixing piece is inserted into and fixed to the angle fixing piece hole formed on the side of the cover or the supporting part.

However, the manual solar panel angle adjustment device as described above is to tilt the solar panel manually in accordance with the solar altitude according to the season, it is not possible to track the sun in the east and west, there is a drawback of very little power generation.

Accordingly, an object of the present invention is a horizontal single axis tracking device in which a plurality of cradles are mounted on a base horizontal axis, and each solar cell module plate is mounted on each cradle, and tracks the sun east and west by angular rotation of the base horizontal axis. Since the solar cell module plate mounted on the solar cell is inclined to the south by the structure of the mounting base, the solar cell module plate can be placed as close as 90 degrees to the incident angle of solar light, and the solar cell module plate angle can be increased at low cost. To provide an adjusting device.

One example of the solar cell module plate angle adjusting device according to the present invention for achieving the above object is a plurality of cradles are mounted on the base horizontal axis, each solar cell module plate is mounted on each rotation, the angular rotation of the base horizontal axis A horizontal uniaxial tracking device for tracking the sun from east to west by mounting a spacer member between a cross bar located on a north side of a cradle on which a solar cell module plate is mounted, and a spacer member located between the base horizontal axis and a cross bar located northward. The solar cell module is characterized in that it is disposed inclined to the south.

Another example of the solar cell module plate angle adjusting device according to the present invention is a base horizontal axis is rotatably arranged on two pedestals, a plurality of cradle is mounted on the base horizontal axis, the solar cell module plate is mounted on the cradle, respectively, manual or Automatically rotated base horizontal axis of the solar cell module to the tracking motion along the sun from east to west, the cradle is mounted on the lower horizontal surface of the base cross-axes by means of the fastener means, relative to the south cross bar The north cross bar located at the north side is mounted on the upper surface of the base horizontal shaft by means of the fastening means, and the south cross bar and the north cross bar are connected by a plurality of connecting cross bars, so that the cradle is south by the thickness of the base horizontal axis. It is characterized in that it is arranged to be inclined.

The solar cell module plate is disposed on the right side of the base horizontal axis in which any one solar cell module plate mounted by the clamp on the cradle is elongated in the north-south direction, and the other solar cell module plate mounted by the clamp on the cradle is left of the base horizontal axis. Characterized in that arranged.

As a result, the solar cell module plate angle adjusting device according to the present invention is disposed so that the solar cell module plate is inclined to the south, the power generation efficiency is increased by adjusting the incident angle of the solar light, and a space in which the wind can communicate is formed to improve the ventilation effect. As a result, the temperature of the solar cell module plate can be lowered, power generation efficiency can be increased, and wind pressure can be lowered.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 to 3, in the solar cell module plate angle adjusting device according to the first embodiment of the present invention, a plurality of cradles 10 are mounted on the base horizontal axis 20, and each of the cradles 10 is provided with an angle. In the horizontal uniaxial tracking device, in which the battery module plates 30 are mounted, respectively, to track the sun from east to west by angular rotation of the base horizontal axis 20, any of the cradles 10 on which the solar cell module plates 30 are mounted. Since the spacer member 40 is mounted between the cross bar 12 and the base horizontal axis 20 located northward relative to one cross bar 11, the solar cell module plate 30 mounted on the holder 10. It is placed inclined to the south.

The spacer member 40 may be any material, but it is preferable to use a material such as a cross bar, and is fixed between the cross bar 12 and the base horizontal axis 20 by bolts (not shown).

Referring to FIG. 3, in the solar cell module plate angle adjusting device according to the first embodiment of the present invention configured as described above, the solar cell module plate has a predetermined angle (a; a = 25 ° southward) by the spacer member 40. ~ 35 °) is inclined so that the incident angle (b) that the sunlight is incident on the solar cell module plate 30 is closer to 90 ° than when the solar cell module plate is arranged horizontally, the power generation efficiency is increased.

For example, at latitude 37 °, the sun's elevation is about 53 ° in the spring and autumn (spring and autumn), and the sun's altitude is around 29.5 ° in the winter solstice (winter), and 76.5 ° in the summer (summer). The altitude will change to an extent. Therefore, when the solar cell module plate is disposed to be inclined to the south by a predetermined angle (a; a = 25 ° to 35 °), the amount of power generation increases.

In addition, as the solar cell module plate 30 is disposed to be inclined to the south, as shown in FIG. 3, wind is communicated between any one of the solar cell module plates 30a and the neighboring solar cell module plates 30b. A space that can be formed is formed, and the cooling effect of the solar cell module plate 30 can be increased, and the wind pressure received by the solar cell module plate 30 can be reduced by the ventilation effect, and the damage caused by the wind pressure can be reduced. have.

4 to 6, in the solar cell module plate angle adjusting device according to the second embodiment of the present invention, a base horizontal axis 130 is rotatably disposed on two pedestals 140 and a base horizontal axis 130. A plurality of cradles 110 are mounted on the base, and the solar cell module plates 120 are mounted on the cradle 110, respectively, so that the solar cell module plates 120 are moved from east to west by a base horizontal shaft 130 which is rotated manually or automatically. Tracking along the sun.

Referring to FIG. 5 again, the cradle 110 has a south cross bar 111 mounted to the base horizontal axis 130 by the fastening means 160 on the lower surface thereof, and relative to the south cross bar 111. North side cross bar 112 is located in the north by the fastening means 160 on the upper surface of the base horizontal axis 130, the south cross bar 111 and the north cross bar 112 is a plurality of connecting cross bar It is connected by 113.

As a result, as shown in FIG. 6, the holder 110 is inclined to the south by the thickness t of the base horizontal axis 130.

The screw fastening means 160 has a spiral fastening portion 161 is formed at the front end of the vertical portion, the nut 162 is fastened to the spiral fastening portion 161, respectively.

Referring back to FIG. 4, the solar cell module plate 120 includes a base horizontal axis having one solar cell module plate 120a mounted on a cradle 110 by a clamp (not shown) long in the north-south direction. Another solar cell module plate 120b disposed on the right side of the base 130 (as shown in FIG. 4) and mounted to the holder 110 by a clamp (not shown) is located on the left side of the base horizontal axis 130 (FIG. 4). Is placed in).

The base horizontal axis 130 is composed of a body portion 131 having a rectangular cross section on which the holder 110 is mounted, and a cylindrical portion 132 connected to both ends of the body portion 131, and the cylindrical portion 132 ) Is rotatably mounted to the bearing 141 of the pedestal 140, and any one cylinder 132 is connected to a motor (not shown) or a manual handle (not shown).

As a result, the base horizontal shaft 130 may be angularly rotated in the east-west direction automatically by a motor or manually by a manual handle.

The solar cell module plate angle adjusting device according to the second embodiment of the present invention configured as described above is disposed to be inclined to the south by the thickness of the base horizontal axis 130, and the incident angle of sunlight incident on the solar cell module plate 120 ( b ') is closer to 90 ° than when the solar cell module is horizontally arranged, resulting in higher power generation efficiency.

And, as the solar cell module plate 120 is disposed inclined to the south, as shown in FIG. 6, the solar cell module plate 120a mounted on any one cradle 110a and the cradle 110b adjacent thereto. A space in which wind communicates between the solar cell module plates 120c may be formed to increase the cooling effect of the solar cell module plates 120, and the wind pressure received by the solar cell module plates 120 by the ventilation effect. Can be lowered, and damage caused by wind pressure can be reduced.

1 is a perspective view showing a state in which a solar cell module plate is inclined to the south according to the first embodiment of the present invention in a horizontal uniaxial tracking device.

2 is a perspective view showing a solar cell module plate angle adjusting apparatus according to a first embodiment of the present invention.

3 is an enlarged side view illustrating a part of the angle adjustment device of the solar cell module plate of FIG. 2.

4 is a perspective view showing a state in which the solar cell module plate is inclined to the south by the solar cell module plate angle adjusting device according to the second embodiment of the present invention.

5 is a perspective view illustrating a battery module plate angle adjusting device according to a second embodiment of the present invention.

FIG. 6 is a side view illustrating the angle adjustment device of the solar cell module plate of FIG. 5.

Claims (3)

delete The base horizontal shaft 130 is rotatably disposed on the two pedestals 140, the plurality of cradles 110 are mounted on the base horizontal shaft 130, and the solar cell module plates 120 are mounted on the cradle 110, respectively. By the base horizontal axis 130 that is rotated manually or automatically, the solar cell module plate 120 is tracking movement along the sun from east to west, The cradle 110 has a south cross bar 111 mounted to the base horizontal axis 130 by the fastening means 160 on the lower surface thereof, and a north cross bar located to the north with respect to the south cross bar 111. 112 is mounted on the upper surface of the base horizontal axis 130 by the fastening means 160, and the south cross bar 111 and the north cross bar 112 are connected by a plurality of connecting cross bars 113. book, The cradle 110 is an angle adjusting device for a solar cell module, characterized in that arranged inclined to the south by the thickness (t) of the base horizontal axis (130). The method of claim 2, The solar cell module plate 120 is disposed on the right side of the base horizontal axis 130 in which any one of the solar cell module plate (120a) is mounted in the cradle 110 by a clamp in the north-south direction, the cradle 110 The solar cell module plate angle control device, characterized in that the other solar cell module plate (120b) mounted by the clamp on the left side of the base horizontal axis (130).

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