KR20140005878U - Solar tracker - Google Patents

Abstract

The present invention relates to a sunlight gradient structure, and more particularly, to a solar energy module having a solar cell module for generating electric energy; A solar module frame coupled to the solar cell module, the solar cell module frame having a central axis projecting outwardly at both sides of the center; And a support member coupled to both sides of the solar module module frame and supporting the solar module module and the solar module frame, and a support member coupled to an upper end of the solar module module and having a fitting groove for inserting the center axis, A tilting support unit for changing a tilting angle of the solar module frame; A first tilt adjustment plate for changing a tilting angle of the solar module frame, the first tilt adjustment plate being coupled to a side surface of the leg and having a first guide slot formed thereon, and a second guide slot provided opposite to the first tilt adjustment plate, A first support link having one side inserted into the first guide slot and the other side hinged to the side surface of the solar module module, and a second support link having one side inserted into the second guide slot, And a second support link hinged to a side surface of the optical module frame. The present invention relates to a sunlight gradient structure.

Description

SOLAR TRACKER [0002]

The present invention relates to a sunlight gradient structure, and more particularly, to a solar energy module having a solar cell module for generating electric energy; A solar module frame coupled to the solar cell module, the solar cell module frame having a central axis projecting outwardly at both sides of the center; And a support member coupled to both sides of the solar module module frame and supporting the solar module module and the solar module frame, and a support member coupled to an upper end of the solar module module and having a fitting groove for inserting the center axis, A tilting support unit for rotatably supporting the solar module frame; A first tilt adjustment plate for changing a tilting angle of the solar module frame, the first tilt adjustment plate being coupled to a side surface of the leg and having a first guide slot formed thereon, and a second guide slot provided opposite to the first tilt adjustment plate, A first support link having one side inserted into the first guide slot and the other side hinged to the side surface of the solar module module, and a second support link having one side inserted into the second guide slot, And a second support link hinged to a side surface of the optical module frame. The present invention relates to a sunlight gradient structure.

Generally, a solar cell module (hereinafter referred to as a solar panel) is an essential device for solar power generation. The solar panel is mainly used for receiving light from the sun as much as possible and converting it into electricity. A solar cell module having characteristics has been developed and used.

While the self-development of the solar panels is of course important, the cradle that supports the solar panels is also a key component that can not be overlooked in order to achieve the goal of receiving many sunrays at the same opportunity.

It is impossible to optimize the generation of electricity through solar light, as well as the proper and safe passage of modules without a cradle for modules from small households to large-scale power generation. The installation cost of the cradle is 10 ~ And 20%, respectively.

In particular, solar power generates maximum efficiency when a solar panel is incident at an angle of 90 degrees with the sun's direct sunlight. As the earth rotates and revolves, the sun's position observed in each area changes daily , And the azimuth is repeated from east to west on the basis of one day, and the altitude changes repeatedly from north to south based on 365 days.

Therefore, in order to maximize the efficiency of solar power generation, it is desirable that the solar tracker be moved from east to west at azimuth along the sun and move in real time from north to south at elevation angle. However, Therefore, it is necessary to select a solar cell installation system.

First, the photovoltaic installation system applied to the solar power plant has been developed and used a fixed type that fixes the solar panel to be inclined and a tracking formula to follow the movement of the sun using the tracker.

However, the fixed type, which is the most commonly used installation system of the photovoltaic power generation apparatus, has advantages of being the most cheap installation cost and easy maintenance. However, since the solar panel is fixed at a predetermined angle, The power generation efficiency is the lowest.

On the other hand, the tracking type has the advantage of maximizing the power generation efficiency by tracking the sun in real time by using the power of the tracker, but in order to automatically track the sun, a driving unit using the power must be constituted, Sensor and the like, it is required to be costly and maintenance-related.

Accordingly, a variable type system combining the advantages of the fixed type and the tracking type has been developed and is now known from Korean Registered Patent Nos. 0734217 and 0760043 and Utility Model Registration No. 0436670. [

The above-mentioned prior art can be used for mass production and transportation of parts, which are advantages of the variable system, and it is possible to adjust the angle of the solar panel according to the position of the sun after the installation and to mount the solar panel which is a feature of the variable system, It is about a structure that is manually adjusted and maintained. It includes a stable support structure and an easy operation method.

However, in the case of Patent No. 0734217 and No. 0760043, there is a disadvantage in that the portion to be fixed to maintain the inclination angle of the solar panel is limited to one point at the outermost point, and resistance against external force such as wind pressure is insufficient. In the case of Utility Model No. 0436670 It requires a lot of assembly time and careful parts management because the component parts are divided. When the inclination angle of the solar panel is adjusted, if the fixing bolt of the inclination angle is separated, there is a risk of a safety accident caused by the collision between the solar panel and the operator and the damage of the solar panel .

The present invention has been made in order to solve the above problems, and it is an object of the present invention to simplify the structure of the solar tracking device to reduce the installation cost, to secure the safety of the operator due to the seasonal variation of the angle of the solar panel, And an angle adjusting device for adjusting the angle of the solar panel.

In order to solve the above-mentioned problems, the present invention provides a solar cell module comprising: a solar cell module for generating electric energy; A solar module frame coupled to the solar cell module, the solar cell module frame having a central axis projecting outwardly at both sides of the center; And a support member coupled to both sides of the solar module module frame and supporting the solar module module and the solar module frame, and a support member coupled to an upper end of the solar module module and having a fitting groove for inserting the center axis, A tilting support unit for rotatably supporting the solar module frame; A first tilt adjustment plate for changing a tilting angle of the solar module frame, the first tilt adjustment plate being coupled to a side surface of the leg and having a first guide slot formed thereon, and a second guide slot provided opposite to the first tilt adjustment plate, A first support link having one side inserted into the first guide slot and the other side hinged to the side surface of the solar module module, and a second support link having one side inserted into the second guide slot, And a second support link hinged to a side surface of the optical module frame.

In addition, the second guide slot according to the present invention is characterized in that a plurality of positioning grooves are formed so that the inclination angle of the solar module frame can be set in multiple stages.

In addition, the first tilt adjustment plate and the second tilt adjustment plate according to the present invention are installed on both sides of the legs at different heights.

The present invention also relates to a solar cell module for generating electric energy; A solar module frame coupled to the solar cell module, the solar cell module frame having a central axis projecting outwardly at both sides of the center; And a support member coupled to both sides of the solar module module frame and supporting the solar module module and the solar module frame, and a support member coupled to an upper end of the solar module module and having a fitting groove for inserting the center axis, A tilting support unit for rotatably supporting the solar module frame; A tilt angle adjusting plate for changing a tilting angle of the solar module frame and a pin fixing hole for fixing the solar module frame; And an angle adjusting portion formed of a fin.

In addition, in the present invention, the pin fixing holes are formed in a plurality of such that the inclination angle of the solar module frame can be set in multiple stages.

The present invention has the advantage of simplifying the structure of the solar tracking device to reduce the installation cost, securing the safety of the operator due to seasonal changes in the angle of the solar panel, and increasing convenience.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an illustration of an embodiment of a solar inclined variable structure according to one embodiment of the present invention.
3 is an exemplary view of a solar inclined variable structure according to another embodiment of the present invention;

Hereinafter, the embodiments will be described on the basis of embodiments best suited to understand the technical features of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, And that the present invention may be implemented with other embodiments. Accordingly, the present invention is capable of various modifications within the technical scope of the present invention through the embodiments described below, and these modified embodiments will be within the technical scope of the present invention. In order to facilitate understanding of the embodiments to be described below, in the reference numerals shown in the accompanying drawings, among the components that perform the same function in the embodiments, the related components are denoted by the same or an extension line number.

In order to facilitate understanding of the features of the present invention as described above, the solar inclined variable structure according to the present invention will be described in more detail.

First, in the present invention, changing the inclination angle of the solar module frame means controlling the inclination angle of the solar cell module coupled to the solar module frame.

The solar inclined variable structure according to an embodiment of the present invention mainly includes a solar cell module 10, a solar module frame 20 coupled to the solar cell module, a tilting support portion 30 and an angle adjusting portion 40 ).

The solar cell module 10 converts sunlight energy into electric energy, and is generally used for a solar power generator.

The photovoltaic module frame 20 is a frame to which the photovoltaic module 10 is coupled. The photovoltaic module frame 20 is formed of a frame having a rectangular cross section in the forward direction, and a central shaft 21 is protruded outward at the center of both side surfaces .

The solar module module 20 is fixed to the rear surface of the solar cell module 10 through a fastener such as a bracket or the like and has a shape that encloses the side surface of the solar cell module, May be fixed.

The tilting support unit 30 includes legs 31 coupled to both sides of the solar module frame to support the entire load of the solar module frame to which the solar module is coupled, And a supporting member 32 on which a fitting groove 33 is formed so that the shaft 21 can be inserted. The solar module frame 20 is rotated by a central shaft 21 formed on both sides of the solar module 20, (10).

The angle adjusting unit 40 includes a first tilt adjustment plate 41 coupled to one side of the leg 31 and having a first guide slot 42 formed along the length thereof, a first tilt adjustment plate 41, A second inclination adjusting plate 43 disposed opposite to the first inclination adjusting plate 43 and having a second guiding slot 44 formed along the longitudinal direction thereof and a second inclination adjusting plate 43 having one side inserted into the first guiding slot 42 and the other side inserted into the solar module frame 20, And a second support link 46 having one side inserted into the second guide slot 44 and the other side hinged to the side surface of the solar module module 20. The first support link 45 is hinged to the side surface of the solar module module 20, .

The second guide slot 44 is further formed with a plurality of positioning grooves 47 so that the inclination angle of the solar module frame 20 can be set in multiple stages.

For example, in the second guide slot 44, an intermediate positioning groove 47 'for holding the angle of the solar module frame 20 at 30 °, an inclination angle of 45 ° And the lower end positioning groove 47 for holding the angle of inclination of the solar module frame at 15 degrees may be formed on the upper surface of the solar module frame 47. The number and shape of the positioning recesses It is not limited to the scope of right.

The second support link 46 serves to adjust the inclination angle of the solar module frame 20 in accordance with the season or the amount of sunshine and one end of the second support link 46 is connected to one of the positioning grooves The other end of the second support link changes the inclination angle of the solar module frame and the first support link 45 moves up or down along the first guide slot 42, So that the frame 20 is fixed at a desired angle.

That is, when the second support link 46 is fixed to the upper end positioning groove 47 '', one end of the first support link 45 is positioned at the lower end of the first guide slot 42, When the second support link 46 is fixed to the lower end positioning groove 47, the first support link 45 is positioned at the upper end of the first guide slot 42.

When the first inclination adjusting plate 41 and the second inclination adjusting plate 43 are installed at the same height on both sides of the leg 31, the range of the inclination angle of the solar module frame 20 can be limited The first tilt adjustment plate and the second tilt adjustment plate may be installed at different heights.

Next, a solar inclined variable structure according to another embodiment of the present invention will be described.

The solar tilting variable structure according to another embodiment of the present invention includes a solar cell module 60, a solar module frame 70 coupled to the solar cell module, and a solar module module 70 for changing a tilting angle of the solar module frame A tilting support portion 80 and an angle adjusting portion 90.

The solar cell module 60 converts solar light energy into electric energy, and is generally used for a solar power generator.

The photovoltaic module frame 70 is a frame to which the solar cell module 60 is coupled. The photovoltaic module frame 70 is formed of a frame having a rectangular cross section in the forward direction and a central axis protruding outward at the center of both side surfaces.

The photovoltaic module frame 70 is fixed to the rear surface of the solar cell module 60 through a fastener provided with a fixture such as a bracket and is formed so as to surround the side surface of the solar cell module, May be fixed.

The tilting support portion 80 is connected to both sides of the solar module frame and is connected to the upper end of the leg 81 and supports the entire load of the solar module frame to which the solar module is coupled, And a supporting member 82 on which a fitting groove 83 is formed so that a shaft can be inserted. The solar module frame 70 rotates along a central axis 71 formed on both sides of the solar module frame, .

The angle adjusting portion 90 includes a guide slot 92 for changing the tilting angle of the solar module frame and a pin fixing hole 93 formed in the guide slot to fix the solar module frame A U-shaped tilt adjustment plate 91 and a fixing pin 84 formed on the leg 81 and inserted into the pin fixing hole 93.

Both ends of the inclination adjusting plate 91 are preferably fixed to the side surface of the solar module frame 70 and made of a metal material having excellent rigidity so as to support loads of the solar cell module and the solar module frame Do.

The plurality of pin fixing holes 93 are formed to allow the tilt angle of the solar module frame to be set in multiple stages. For example, the pin fixing holes 93 may be formed in the intermediate positioning groove 93 , An upper positioning groove 93 "for holding the angle of inclination of the solar module frame at 45 °, and a lower positioning groove 93 for maintaining the inclination angle of the solar module frame at 15 ° And the number and shape of the pin fixing holes are not limited to the scope of the present invention.

The inclined solar varying structure according to another embodiment of the present invention can adjust the inclination angle of the solar module frame by inserting and fixing the fixing pin into the pin fixing hole.

The present invention has the advantage of simplifying the structure of the solar tracking device to reduce the installation cost, securing the safety of the operator due to seasonal changes in the angle of the solar panel, and increasing convenience.

10: solar cell module 20: solar module frame
21: center axis
30: tilting support 31: leg
32: support member 33: fitting groove
40: angle adjusting section 41: first tilt adjusting plate
42: first guide slot 43: second tilt adjustment plate
44: second guide slot 45: first support link
46: second supporting link 47, 47 ', 47 ": positioning groove
60: solar cell module 70: solar module frame
71: center axis
80: tilting support portion 81: leg
82: Support member 83: Fitting groove
84: Fixing pin
90: Angle adjusting portion 91: Tilt adjusting plate
92: guide slot 93, 93 ', 93 ": pin fixing hole

Claims (5)

A solar cell module (10) for generating electrical energy;
A photovoltaic module frame 20 coupled to the solar cell module 10 and having a central axis 21 protruding outward at the center of both side surfaces;
A leg 31 coupled to both sides of the solar module module 20 to support the solar cell module and the solar module frame and a fitting groove 33 coupled to an upper end of the leg, And a support member (32) for supporting the solar module frame, the tilting support part (30) supporting the solar module frame so as to be rotatable;
A first inclination adjusting plate 41 for changing a tilting angle of the solar module frame 20 and coupled to one side of the leg 31 and forming a first guide slot 42, A second inclination adjusting plate 43 provided opposite to the inclination adjusting plate 41 and having a second guide slot 44 formed therein and a second inclination adjusting plate 43 having one side inserted into the first guide slot 42 and the other side inserted into the solar module frame A second support link 45 hinged to the side of the solar module frame 20 and a second support link 45 hinged to the side of the solar module frame 20 with one side inserted into the second guide slot 44, 46;
Wherein the first inclined surface is inclined relative to the first inclined surface. The solar inclined variable structure according to claim 1, wherein a plurality of positioning grooves are formed in the second guide slot so that the inclination angle of the solar module frame can be set in multiple stages. The solar inclined variable structure according to claim 1 or 2, wherein the first tilt adjustment plate and the second tilt adjustment plate are installed at different heights on both sides of the leg. A solar cell module for generating electric energy;
A solar module frame coupled to the solar cell module, the solar cell module frame having a central axis projecting outwardly at both sides of the center;
And a support member coupled to both sides of the solar module module frame and supporting the solar module module and the solar module frame, and a support member coupled to an upper end of the solar module module and having a fitting groove for inserting the center axis, A tilting support unit for rotatably supporting the solar module frame;
A tilt angle adjusting plate for changing a tilting angle of the solar module frame and a pin fixing hole for fixing the solar module frame; An angle regulating portion formed of a fin;
Wherein the first inclined surface is inclined relative to the first inclined surface. The solar tilted variable structure according to claim 4, wherein the pin fixing holes are formed in a plurality of the tilting angles of the solar module frames so as to set the tilting angles of the solar module frames in multiple stages.

Images