KR19990000187U - Angle Control Device of Solar Panel - Google Patents

Abstract

The present invention relates to an angle adjusting device of a solar panel, and provides a solar cell structure that can adjust the angle of the solar panel manually or automatically according to the altitude of the sun on a monthly or seasonal basis, the angle of incidence of solar light and the solar panel By providing the right angle to maximize the annual amount of power produced by the solar cell, and to provide a device that can easily adjust the angle of the solar panel.

To this end, the present invention provides an upright hollow pillar, a rack installed to linearly move in the upper upper position of the pillar, a drive unit installed at the inner position of the pillar to linearly move the rack, and a support installed at the upper upper position of the pillar. The lower end is hinged to the end of the support, the upper side is formed with a guide groove is formed in the solar panel and one end of the slide sliding, and installed in one side of the column accumulate the energy produced from the solar panel, driving means It is provided with a storage battery which is a power source of, the rack is linearly driven by the drive means to rotate the upper portion of the solar panel about a hinge axis of the support by a certain range to change the angle of the solar panel.

Description

Angle Control Device of Solar Panel

The present invention relates to a solar cell, the solar panel of the photovoltaic power generation system to adjust the angle of the solar panel manually or automatically to obtain the maximum output according to the altitude of the sun by month or season. It is about.

In general, a solar battery is a photovoltaic cell that converts solar energy into electrical energy, and its application fields include electric clocks, radios, unmanned light towers, unmanned repeaters, buoy lights, satellites, and rockets. It is used. In addition, solar heating houses, fog warning lights that alert drivers when a fog is on the road, and aviation obstacles installed in structures such as transmission towers are also used as solar cell applications.

The solar cell used in this field of application is to connect the cells (Cell, 1 solar cell) and cells in series and as many times as necessary in order to make solar panels, and then to make these solar panels in series and in parallel. Use by connecting.

On the other hand, such solar cells can use the power generated directly during the day when they can receive sunlight, but since the power is not produced at night, the battery is configured and charged to the storage battery during the day to continuously obtain power. Should be used. Typical solar cell structures are as follows.

1 is a front view and a side view showing a conventional solar cell structure fixed angle.

As shown in FIG. 1, in general installation of a solar cell structure, a pillar 1 is installed upright on a flat surface or other structure, and a solar cell panel 3 having a solar cell 5 on the top thereof faces toward the south direction. It is installed and fixed at a predetermined angle (35 °), and the storage battery 7 is installed on one side or adjacent to the pillar 1. In this case, the solar panel 3 is installed at an angle of 35 ° so that the solar panel 3 is perpendicular to the angle of incidence of sunlight to obtain the maximum output.

In general, when looking at the altitude of the sun in each season, the latitude is 35 °, so the spring altitude is about 35 ° in the spring and autumn (spring and autumn), and the altitude is about 12 ° in the winter season (winter). In the summer (summer), the sun's altitude changes by about 58 °.

Therefore, because the solar cell structure installed as described above is fixed to the pole at a 35 ° angle to the south direction, there is an irrationality that cannot obtain more than 70% of the maximum output except for the spring and autumn leaves. Many problems are exposed from the side.

In addition, since the minimum amount of power generated during the year is designed as the output of the solar cell, there is a problem that economic efficiency is lowered due to the irrationality of using two solar panels in an application that can be used as one solar panel.

The present invention has been made to solve the above-mentioned problems, by providing a solar cell structure that can adjust the angle of the solar panel manually or automatically according to the altitude of the sun by month or season by the incident angle of the solar light and the solar panel The object of the present invention is to provide an angle adjusting device for a solar panel that maximizes an annual amount of power produced by the solar cell by allowing the angle to be at right angles and to easily adjust the angle of the solar panel.

The present invention is configured as follows to achieve the above object. That is, the upright hollow pillar, the rack is installed so as to linearly move in the upper part of the column, the drive means is installed in the interior of the column to linearly move the rack, the support installed on the outside of the column, the lower one side is hinged to the end of the support, A guide groove is formed on the upper side, and the solar panel is coupled to one end of the rack, and is installed on one side of the column to accumulate energy generated from the solar panel, and includes a storage battery that is a power source of the driving means. By the linear motion of the rack by rotating the upper portion of the solar panel about a hinge axis with the support for a certain range to change the angle of the solar panel.

1 is a front view and a side view showing a conventional angle fixed solar cell structure.

Figure 2 is a side schematic view showing an angle adjusting device of the solar panel of the present invention.

Figure 3 is an enlarged cross-sectional view showing the main portion showing the sliding coupling between the solar panel and the end of the rack in the angle adjusting device of the solar panel of the present invention.

Figure 4 is an enlarged view showing a device for preventing the reversal by the weight of the solar panel in the angle control device of the solar panel of the present invention.

Figure 5 is a schematic front view showing the installation of the angle indicator in the angle adjustment device of the solar panel of the present invention.

** Description of symbols for the main parts of the drawing **

1, 10. Pillars 3, 20. Solar Panel

5, 25. Storage battery 12. Rack

18. Support 18a. Hinge shaft

20a. Guide groove 30. Drive section

32. Drive motor 32a. driving axle

34. Pinion 36. Drive switch

38. Retractable member 40. Drive handle

42. Ratchet Wheel 44. Solenoid

44a. Plunger 46. Suppression Pole

50. Stop switch 60. Protractor

62. Angle indicator 70. Roller

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

Figure 2 is a side schematic view showing an angle adjusting device of the solar panel of the present invention, Figure 3 is an enlarged cross-sectional view showing the main part sliding of the solar panel and one end of the rack in the angle adjusting device of the solar panel of the present invention.

As shown in FIG. 2, the present invention provides a hollow pillar 10 installed upright on the ground or a structure, a rack 12 installed linearly on an inner upper portion of the pillar 10, and an inner portion of the pillar 10. The drive unit 30 is installed to linearly move the rack 12, the support 18 is provided on the outside of the column 10, the lower one side is hinged to the end of the support 18, the guide groove 20a on the upper side And a solar cell 3 having one end of the rack 12 slidingly coupled thereto, and a storage battery 25 installed at one side of the pillar 10 to accumulate energy produced from the solar panel 20. The rack 12 is linearly driven by the driving unit 30 to rotate the upper portion of the solar panel 20 about a hinge axis 18a with the support 18 so that the angle of the solar panel 20 is increased. Is to be changed.

The drive unit 30 described above includes a drive motor 32 installed inside the pillar 10, a pinion 34 installed inside the pillar 10 and engaged with the rack 12, and an outside of the pillar 10. Is installed in the drive switch 36 for forward / reverse driving the drive motor 32 and the engaging member 38 for transmitting the rotational force of the drive motor 32 to the pinion (34) is provided.

In addition, the drive handle 40 is installed in the center of the drive shaft (32a) of the drive motor 32 to be driven by any force of the user.

Stop switch for stopping the driving of the drive motor 32 by intermittent contact by the end of the rack 12 is moved so that the end of the rack 12 does not leave the pinion 34 when the angle of the solar panel 20 changes 50 is installed on the inner upper part of the pillar 1.

The operation of the present invention configured as described above is as follows. When the driving switch 36 is pressed to adjust the angle of the solar panel 20, power is applied from the storage battery 25 to drive the driving motor 32, and the rotational force thereof is driven by the driving motor 32. It is transmitted to the pinion 34 through the walking member 38 to rotate the pinion 34. The rack 12 engaged with the pinion 34 rotates forward and backward in the rotation direction of the pinion 34 so that the upper portion of the solar panel 20 is fixed around the hinge axis 18a with the support 18. Rotating the range changes the angle of the solar panel 20 by changing the current angle.

At this time, there is no height change between the rack 12 and the support 18, and since the rack 12 performs a linear reciprocating motion, as the angle of the solar panel 20 changes, the lower hinge shaft 18a and the upper It is not possible to adjust the angle of the solar panel 20 without changing the length between the rack 12 coupling point. Therefore, as shown in FIG. 3, the guide grooves 20a are formed on the upper side of the solar panel 20 up and down, and the rollers 70 are installed at one end of the rack 12 to perform sliding coupling. When rotating, it is possible to compensate for the change in length between the lower hinge axis (18a, see Figure 2) and the upper rack 12 coupling point.

One end of the rack 12 slidingly coupled to the guide groove 20a of the solar panel 20 is a roller on the guide groove 20a when the angle of the solar panel 20 is decremented as the rack 12 moves forward and backward. 70 is changed. That is, since the rack 12 itself moves straight on the horizontal line without changing its position from the top to the bottom thereof, the angle of the solar panel 20 changes so that the fixed position of the roller 70 (the position on the horizontal line according to the horizontal movement of the rack) The position of the guide groove 20a is changed.

As the fastening member 38, a belt or the like having a chain or teeth formed thereon is used.

The rack 12 that is moved when the angle of the solar panel 20 changes is a plate 12a formed at the end of the rack 12 when the end of the rack 12 approaches the pinion 34 so that the end does not leave the pinion 34. ), The contact of the stop switch 50 is interrupted to stop the driving of the drive motor 32.

On the other hand, when the driving motor 32 cannot be operated due to a malfunction of the driving motor 30 or the interruption of power, the driving knob 40 may be turned to adjust the angle of the solar panel 20.

Figure 4 is an enlarged view showing a device for preventing the reversal caused by the weight of the solar panel in the angle adjusting device of the solar panel of the present invention.

As shown in FIG. 4, a ratchet wheel 42 is installed on the drive shaft 32a of the drive motor 32, and a solenoid 44 is installed adjacent to the ratchet wheel 42, and the plunger of the solenoid 44 is provided. 44a is provided with a restraining pole 46 which is driven by the solenoid 44 to suppress the rotation of the ratchet wheel 42 when the drive shaft 32a is reversed by the weight of the solar panel. Therefore, the angle-adjusted solar panel is suppressed from rotation of the ratchet wheel 42 provided on the drive shaft 32a by the restraining pole 46, thereby preventing the reversal of the solar panel (not shown). That is, the ratchet wheel 42 and the restraining pole 46 are prevented from changing the angle due to the weight of the solar panel.

On the other hand, the solenoid 44 is released from the ratchet wheel 42 from the ratchet wheel 42 when the power is applied, and when the power is cut off, the solenoid 44 is in place to suppress the rotation of the ratchet wheel 42.

Figure 5 is a front schematic diagram showing the installation of the angle indicator in the angle adjustment device of the solar panel of the present invention.

As shown in FIG. 5, when the angle of the solar panel 20 is adjusted by the driving knob 40 (see FIG. 2), an angle is displayed on the outside of the column 1 so that the adjustment angle can be visually checked. 60 is provided, and an angle indicator 62 for indicating the angle of the solar panel (not shown) by indicating the angle on the protractor 60 by the rotation of the drive shaft 32a is provided.

As described above, by adjusting the angle of the solar panel 20, the incident angle of solar light may be incident at right angles to the solar panel 20 according to the altitude of the sun by month or season.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the range allowed by the technical idea of the present invention.

As described above, according to the present invention, the angle can be easily adjusted by adjusting the angle of the solar panel manually and automatically by the driving handle or the driving motor.

Another effect is that the angle of incidence of solar light is incident on the solar panel at a right angle according to the altitude of the sun by month or season.

Another effect of the present invention is that the angle of incidence of sunlight is incident on the solar panel at a right angle to obtain the maximum amount of power generation.

Claims (6)

Hollow pillars; A rack installed in a linear motion on an inner upper portion of the pillar; A driving means installed at one side of the pillar to linearly move the rack; A support installed outside the pillar; A lower solar side hinged to an end of the support, a guide groove formed on an upper side thereof, and a solar panel slidingly coupled to an end of the rack; And It is installed on one side of the pillar to accumulate the energy produced from the solar panel, and comprises a storage battery which is a power source of the driving means, The rack is linearly moved by the driving means to rotate the upper portion of the solar panel about a hinge axis with the support for a certain range by rotating the angle of the solar panel to adjust the angle of the solar panel. According to claim 1, The drive means is a drive motor installed inside the pillar; A pinion installed inside the pillar and engaged with the rack; A drive switch installed at an outer side of the pillar to drive the drive motor forward and backward; And An angle adjusting device of a solar panel, characterized in that it comprises a walking member for transmitting the rotational force by the drive of the drive motor to the pinion. The angle adjusting device of a solar panel according to claim 2, wherein a driving handle is further provided on a driving shaft of the driving motor so as to be driven by an arbitrary force. The stop switch of claim 3, wherein a contact point is interrupted by the rack moved when the angle of the solar panel is changed to stop driving of the driving motor so that the end of the rack does not leave the pinion. Angle adjustment device of the solar panel, characterized in that further installed on one side. According to claim 4, Ratchet wheel installed on the drive shaft of the drive motor; A solenoid installed adjacent to the ratchet wheel; And The solar cell panel angle control device, characterized in that it is driven by the solenoid to suppress the rotation of the ratchet wheel to prevent the reverse pole due to the weight of the solar panel is provided. 6. The apparatus of claim 5, further comprising: a protractor installed at an outer side of the pillar and having an angle displayed on one surface thereof; And Is rotated by the rotation of the drive motor, the angle adjusting device of the solar panel, characterized in that the angle indicator hand for indicating the angle of the solar panel by indicating the angle on the protractor.