KR200455176Y1 - Tilt angle adjusting device of fixed photovoltaic device - Google Patents

Abstract

The present invention relates to a tilt angle control device of the fixed photovoltaic device; The purpose is to improve the problem of low power generation efficiency due to the fixed angle of inclination of the conventional fixed photovoltaic device and at the same time the power generation efficiency is lowered due to the driving power used when the tracking photovoltaic device continuously rotates along the sun. In order to improve the problem, the fixed solar power generation device that can effectively improve the photoelectric efficiency with a structure that can easily adjust the inclination angle according to the solar altitude periodically, such as month (Month), branch (branch) or season (季節) It is to provide a tilt angle adjusting device.

The present invention for achieving the object is formed so as to support the rear surface of the plurality of solar panel 11 arranged in a plurality, so that the cylindrical hinge portion 121 protrudes outward from the left and right side center portion of the panel fixing frame 12. The panel fixing frame 12 is formed and the hinge portion 121 of the panel fixing frame 12 is rotatably coupled to one side thereof, and a lower portion thereof extends downward to support the panel fixing frame 12. In the inclination angle adjusting device of the fixed photovoltaic device consisting of a pair of left and right support 13 is formed, is formed in a semi-circular shape concentric with the hinge portion 121 on the rear of one side of the left and right sides of the panel fixing frame 12. The semicircular worm gear 14 and the gear tooth is formed on the outer periphery; A worm 15 which is rotatably fixed to one side of the support 13 to be engaged with the semi-circular worm gear 14; A handle shaft 16 coupled to the axial hollow of the worm 15 so as to be rotated by an external force, the one end of which is formed in a polygon; The technical gist of the inclination-angle adjusting device of the fixed photovoltaic device that is configured to be included.

Solar Panel, Fixed Solar Power Generator, Tilt Angle, Worm Gear, Tilt Angle Scale

Description

Apparatus for Adjusting slant angle in Fixed Solar Photovoltatic Electric Generator}

The present invention relates to an inclination angle adjusting device of a fixed photovoltaic device, and more particularly, the problem of low power generation efficiency due to the fixed inclination angle of the conventional fixed photovoltaic device is improved and the tracking photovoltaic device is continuously. In order to improve the problem that the power generation efficiency is lowered due to the driving power used when rotating along the sun, the angle of inclination can be easily adjusted according to the solar altitude periodically, such as month, branch, or season. The present invention relates to a tilt angle adjusting device of a fixed photovoltaic device that can effectively improve photoelectric efficiency.

In general, a solar cell is a photoelectric conversion element that converts light energy of the sun into electrical energy using characteristics of a semiconductor P-N junction.

Such solar cells are manufactured using single crystals, polycrystals, and amorphous silicon and compound semiconductors. Among them, the solar cells have the most photoelectric efficiency and are widely used in various fields.

However, single crystal silicon has a problem in that the photoelectric efficiency is excellent only when the irradiation angle of the sun is close to the vertical and the efficiency decreases rapidly when the irradiation angle of the sun is oblique.

Therefore, in the conventional photovoltaic device to which single crystal silicon is applied, the inclination angle installation method of the solar panel is very important and thus various generations have been made.

In terms of the type, the solar cell module is fixed to a slope so that it is irradiated at a right angle when the sun is strongest. (Korea Energy Management Corporation recommends installing it at 30 ° toward the south.) It is largely divided into a rotating tracking type, and the tracking type can be divided into a programming method of rotating according to a preprogrammed sun path and an optical sensor tracking method using an optical sensor.

The fixed type has the advantage of very low installation cost, but because it is fixed irrespective of the solar radiation due to the altitude and movement of the sun, there is a problem that the photoelectric efficiency is less than 20% compared to the tracking type, the program method is expensive and input in advance There is a small risk of malfunction because it is operated according to a programmed program, but it is very difficult to input accurate solar movement path information according to each region, and the optical sensor tracking method is relatively inexpensive compared to the program method and the sun according to each region. There is a merit that it can be easily installed without moving information, but there is a problem that there is a difference in efficiency and a risk of malfunction depending on the technology level of the manufacturer.

Although the tracking type has higher photoelectric efficiency than the fixed type, it uses electricity generated by generating electricity for continuously moving the heavy solar panel continuously, and as a result, the overall power generation efficiency is lowered. Will be reduced.
Conventionally, there are a number of techniques devised to adjust the inclination angle of the solar panel, but they are used to adjust the inclination angle of the rack and pinion gear or screw handle to convert it to linear movement when the user applies a rotary motion using the handle However, this is a user has to apply a very large force in actual use, resulting in a high wear rate of the gear and a high risk of breakage.

The present invention is devised to solve such a conventional problem, while improving the problem that the power generation efficiency is lowered due to the fixed inclination angle of the conventional fixed photovoltaic device while the tracking photovoltaic device continuously keeps the sun. Therefore, in order to improve the problem that the power generation efficiency is lowered due to the driving power used during rotation, it is a structure that can easily adjust the inclination angle according to the solar altitude periodically, such as month (month), branch (branch) or season (季節). It is an object of the present invention to effectively improve the photoelectric efficiency, and to provide a rotational motion as it is, to provide an inclination angle control device for a fixed photovoltaic device that is easily driven by a user with little force.

The present invention for achieving the above object is formed to fix and support the rear surface of the solar panel 11 arranged in a plurality and the cylindrical hinge portion 121 protrudes outward from the left and right side center portion of the panel fixing frame 12. The panel fixing frame 12 and the hinge portion 121 of the panel fixing frame 12 are rotatably coupled to one side thereof, and the lower portion thereof extends a predetermined length downward to support the panel fixing frame 12. In the inclination angle adjusting device of the fixed photovoltaic device consisting of a pair of left and right support 13 is formed so as to, in the semicircular shape having a concentric with the hinge portion 121 on the rear of one side of the left and right sides of the panel fixing frame 12. A semicircular worm gear 14 formed on the outer periphery of which gear teeth are formed; A worm 15 which is rotatably fixed to one side of the support 13 to be engaged with the semi-circular worm gear 14; A handle shaft 16 coupled to the axial hollow of the worm 15 so as to be rotated by an external force, one end of which is formed in a polygon; The object is achieved by providing a tilt angle control device of a fixed photovoltaic device configured to include.

In addition, in the inclination angle adjusting device of the fixed photovoltaic device, one side is formed to be coupled to the polygonal end of the handle shaft 16, the other side is bent a plurality of times as the elongate handle is formed to be manually rotated (17) It is preferable that it is configured to further include).

In addition, in the inclination angle adjusting device of the fixed photovoltaic device, the semi-circular worm gear 14 is configured to display on the outer side of the inclination angle and the optimum inclination angle according to the solar altitude for each period of the region on the outer side of the scale. It is preferable.

Effects of the present invention that can be expected by the configuration and action as described above are as follows.

The problem of low power generation efficiency due to the fixed inclination angle of the conventional fixed photovoltaic device is improved, and the problem that power generation efficiency decreases due to the driving power used when the tracking photovoltaic device is continuously rotated along the sun. In order to effectively adjust the inclination angle according to the solar altitude periodically, such as month, branch, or season, the photoelectric efficiency can be effectively improved, and the user can transmit the rotational motion as it is. It is a very useful design that can provide a tilt angle control device of a fixed photovoltaic device that is easy to drive with little force.

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

First, Figure 1 is an overall perspective view of a photovoltaic device to which the present invention is applied,

Figure 2 is a side view of the photovoltaic device to which the present invention is applied,

Figure 3 is a side view showing the inclination angle adjusting device of the present invention,

Figure 4 is a side view showing the inclination angle scale displayed on the inclination angle adjusting device of the present invention.

As shown in FIGS. 1 to 3, the photovoltaic device 1 to which the present invention is applied has a solar cell panel 11 manufactured using single crystal silicon, and is formed to support and fix the rear surface of the panel. Panel fixing frame 12 is formed so that the cylindrical hinge portion 121 protrudes outward from the center portion, and the hinge portion 121 of the panel fixing frame 12 is composed of a pair of left and right to be rotatably coupled to one side The lower portion is composed of a support 13 which extends a predetermined length downward, and the inclination angle adjusting device 10 which is a technical feature of the present invention.

The tilt angle adjusting device 10 is composed of a semi-circular worm gear 14, a worm 15, a handle shaft 16, and a handle 17.

The semi-circular worm gear 14 is formed in a semi-circular shape concentric with the hinge portion 121 on the rear surface of one side of the left and right sides of the panel fixing frame 12, the gear teeth (齒) is formed on the outer periphery.

At this time, the inclined angle on the outer side of the semi-circular worm gear 14 and the optimum inclination angle according to the solar altitude for each period of the region is configured to be displayed. In FIG. 4, the optimum inclination angle is displayed on the scale 14a by season, but this is only an embodiment in which the period is displayed in the season, and the optimal inclination angle may be displayed in scale by further subdividing the period by month or quarter.

In addition, the worm 15 is rotatably fixed to one side of the support 13 so as to rotate in engagement with the semi-circular worm gear 14.

In addition, the handle shaft 16 is coupled to the axial hollow of the worm 15 so as to rotate with an external force, one end is formed in a polygon.

In addition, the handle 17 is formed so that one side is coupled to the polygonal end of the handle shaft 16 and the other side is bent a number of times as it is multi-extension and can be manually rotated.

The photovoltaic device 1 of the present application manufactured as described above visits the handle 17 at a predetermined cycle for each season, quarter, or month by the manager, and moves the handle 17 to the polygonal portion of the handle shaft 16. As the handle 17 is rotated to rotate the worm 15, the semi-circular worm gear 14 engaged with the rotator 15 rotates the worm 15 to be adjusted to fit the angle of inclination scale 14a displayed on the semi-circular worm gear 14.

The inclination angle adjusting device 10 of the present application has a simple structure and thus has a low incidence of failure and can easily adjust the inclination angle of the solar panel 11 only by manually turning the handle 17 to the left and right. This is an inexpensive and highly effective device that can achieve up to about 31% photoelectric efficiency improvement.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Effects of the present invention that can be expected by the configuration and action as described above are as follows.

The problem of low power generation efficiency due to the fixed angle of inclination of the conventional fixed photovoltaic device is reduced, and the efficiency of power generation is lowered due to the driving power used when the tracking photovoltaic device is continuously rotated along the sun. In order to improve, the tilt angle control of the fixed photovoltaic device that can effectively improve the photoelectric efficiency with a structure that can easily adjust the tilt angle according to the solar altitude periodically, such as month (month), quarter (branch) or season (季節) It is a very useful design that can provide a device.

1 is an overall perspective view of a photovoltaic device to which the present invention is applied

2 is a side view of a photovoltaic device to which the present invention is applied

Figure 3 is a side view showing the tilt angle adjusting device of the present invention

Figure 4 is a side view showing the inclination angle scale displayed on the inclination angle adjustment device of the present invention

 <Description of the symbols for the main parts of the drawings>

1: photovoltaic device 10: tilt angle control device of the present invention

11: solar panel 12: panel fixing frame

121: hinge portion 13: support

14: semicircular warp gear 14a: tilt angle scale

15: Worm 16: Handle Shaft

17: handle

Claims (3)

The panel fixing frame 12 is formed to fix and support the rear surface of the solar cell panel 11 arranged in a plurality and the cylindrical hinge portion 121 protrudes outward from the left and right central portions of the panel fixing frame 12. And, the hinge portion 121 of the panel fixing frame 12 is rotatably coupled to one side and the lower portion of the left and right pairs of support formed to extend the predetermined length downward to support the panel fixing frame 12 ( In the inclination angle adjusting device of the fixed photovoltaic device consisting of 13), A semicircular worm gear 14 formed on a rear surface of one side of the left and right sides of the panel fixing frame 12 in a semicircular shape having a concentricity with a hinge portion 121, wherein gear teeth are formed on an outer circumference thereof; A worm 15 which is rotatably fixed to one side of the support 13 to be engaged with the semi-circular worm gear 14; A handle shaft 16 coupled to the axial hollow of the worm 15 so as to be rotated by an external force, one end of which is formed in a polygon; Tilt angle adjusting device of a fixed photovoltaic device characterized in that it is configured to include. delete delete

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