KR101608266B1 - Angle adjustable sunlight tracker - Google Patents

Abstract

The present invention relates to an angle adjustable solar light tracker in which an installation, maintenance and repair are convenient, efficient management is possible, and power generating efficiency is improved by holding an incidence angle of the solar light close to the approximately vertical angle according to seasons. According to the present invention, the angle adjustable solar light tracker includes: a module frame (100) coupled to a plurality of solar light modules for converting incident solar light into electric energy; a support frame (200) for fixing the module frame (100) on an upper surface of the support frame (200) in the direction of the solar light and supporting the module frame (100); a driven shaft frame (300) coupled to the bottom surface of the support frame (200) and enabling the supporting frame (200) to perform an angle movement; a drive shaft power transmitting part (400) coupled to the driven shaft frame (300) for transmitting a power; a mechanical connecting means (500) for connecting the driven shaft frame (300) and the drive shaft power transmitting part (400); and a post (600) which is fixed on the support surface of a base structure in the longitudinal direction, wherein the upper end thereof is coupled to the driven shaft frame (300) by a hinge, and the drive shaft power transmitting part (400) is fixed on a lower part.

Description

An angle adjustable sunlight tracker {Angle adjustable sunlight tracker}

[0001] The present invention relates to a solar tracker, and more particularly, to a solar tracker that is capable of vertically entering sunlight at a position where sunlight is incident along a sun's movement path by time, The present invention relates to an angle-adjustable solar light tracker capable of adjusting an angle by using a light source.

As the need for sustainable energy sources increases with high oil prices, large-scale supply of environmentally friendly new and renewable energy is spreading widely, including solar energy.

Among them, solar energy is not limited to fossil fuels such as coal, petroleum and other renewable energy sources such as biomass, geothermal, wind, wind, tidal, and ocean currents. It can play a key role in linking the cycle of energy supply and demand stability, environmental preservation and economic growth in terms of substitution of fossil energy as an energy source, greenhouse gas saving effect, and profit generation by the growth of related industries.

The solar energy reaching the surface that we can use exists only in the daytime with a low density of energy (up to 1100 W / ㎡), and it changes with time.

Therefore, by classifying a solar optical tracker as a structure for obtaining solar energy,

First, in order to enter the solar energy according to the time, it is tracked according to the sun's elevation angle,

Second, it is divided into two types as a fixed type which fixes the altitude of the sun and the slope of the structure at a certain angle.

The tracking system has a problem in that electricity consumption or breakdown is frequent, and it is difficult to install and maintain, and when the trouble is not promptly responded, the efficiency of the tracking system deteriorates.

It is difficult to match the slope of the solar module frame with the altitude of the sun along the altitude angle of the four seasons in accordance with the latitude and longitude of the country, There is a falling problem.

Korea Patent Registration No. 10-0857548 (2008.09.02) Korea Patent Registration No. 10-0972746 (July 22, 2010)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The angle of inclination of the module frame can be easily adjusted so that the altitude of the sun of the four seasons and the angle of the horizontal plane of the module frame are kept at a maximum at right angles,

In addition, the structure of the solar tracker is simpler than that of the tracking system, so that the installation and maintenance work can be easily performed.

It is still another object of the present invention to provide a method and apparatus for monitoring the position of sunlight incident on a vertical coaxial frame of a component of the present invention, And it is an object of the present invention to provide a solar tracker capable of easily adjusting the angle of the operator.

In order to achieve the above object, the present invention has been made to solve the above problems,

1. A photovoltaic tracker capable of adjusting the angle of a sunlight to be incident on a module frame coupled to a plurality of solar modules for converting incident solar energy into electric energy,

A support frame on which the module frame is seated and fixed and supports the module frame;

A driven shaft frame coupled to a lower surface of the support frame and capable of angular movement of the support frame;

A main coaxial power transmitting portion coupled to the driven shaft frame to transmit power; a mechanical connecting means connecting the driven shaft frame and the main coaxial power transmitting portion; And

And a strut which is hinged to the driven shaft frame at its upper end and fixed to the supporting structure of the foundation structure in a longitudinal direction by being fixed to the lower end of the supporting shaft.

The end position of the module frame is displayed on the outer surface of the driven shaft frame so that the operator can easily identify the final position of the module frame based on the position of the sun according to the azimuth angle and altitude of the sun.

And the main coaxial transmission unit transmits power using a motor or a manual rotary knob depending on the operator.

The mechanical connecting means may be a combination of gears having equally spaced protrusions (teeth of gears) in the rotating body, or a combination of gears that allow angular movement by interaction between the slave shaft frame and the main coaxial transmission portion .

It should be understood, however, that the terminology used herein is for the purpose of describing the claimed invention in its broadest possible form and should not be construed in a limiting sense. It should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention, so that various equivalents It should be understood that water and variations may be present.

As described above, when the angle-adjustable solar tracker according to the present invention is used,

 The combination of the convenience of easy installation and maintenance of a fixed photovoltaic tracker and the high efficiency of a tracked photovoltaic tracker allows the economical use of a photovoltaic tracker and allows the operator to operate without the background knowledge of the photovoltaic tracker The inclination angle of the module frame can be adjusted easily, which is a very effective invention in providing a solar light tracker which can be easily handled by anyone.

FIG. 1 is a perspective view illustrating a state of a solar light tracker capable of adjusting an angle according to the present invention.
2 is an exploded perspective view of an angle-adjustable solar tracker according to the present invention.
3 is a right side view of an angle adjustable solar light tracker according to the present invention.
4 is a view illustrating an example of the components of the angle-adjustable solar light tracker according to the present invention, in consideration of the position of the sun in the longitudinal coaxial frame.
5 shows an embodiment of mechanical connecting means among components of the angle adjustable solar light tracker according to the present invention.
FIG. 6 shows an embodiment of a main coaxial power transmission unit among components of an angle-adjustable solar optical tracker according to the present invention.
FIG. 7 is a diagram illustrating an installation direction and an inclination angle of a modular frame among constituent elements of the angle-adjustable solar optical tracker according to the present invention.
8 shows a ratchet mechanism structure for a "vinyl house switch" cited in an embodiment of the manual rotation handle of the main coaxial power transmission unit among the components of the angle adjustable solar optical tracker according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the configuration and operation of an angle-adjustable solar optical tracker according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of an angle adjustable solar light tracker according to the present invention, FIG. 2 is an exploded perspective view of an angle adjustable solar light tracker shown in FIG. 1, and FIG. FIG. 4 is a view showing an example of the angle-adjustable solar optical tracker according to the present invention, in which the position of the sun is taken into consideration on the outer surface of the vertical coaxial frame, and FIGS. 5 and 6 The present invention is an embodiment of mechanical connecting means among the constituent elements of the angle adjustable solar optical tracker and an embodiment of the main coaxial power transmitting portion.

FIG. 7 is a diagram illustrating an installation direction and an inclination angle of the module frame of the components of the angle-adjustable solar optical tracker according to the present invention,

8 shows a ratchet mechanism structure for a "vinyl house switch" cited in an embodiment of the manual rotation handle of the main coaxial power transmission unit among the components of the angle adjustable solar optical tracker according to the present invention.

The present invention relates to a module frame (100) coupled with a plurality of solar modules for converting incident solar energy into electric energy, and an angle adjustable solar module In the tracker,

A support frame 200 on which the module frame 100 is seated and fixed and supports the module frame 100;

A driven shaft frame 300 coupled to a lower surface of the support frame 200 and capable of angular movement of the support frame 200;

A main coaxial transmission portion 400 coupled to the driven shaft frame 300 to transmit power;

Mechanical coupling means 500 for connecting the driven shaft frame 300 and the main coaxial transmission portion 400; And

And a strut 600 which is hinged to the driven shaft frame 300 at its upper end and fixed to the supporting structure of the foundation structure in a longitudinal direction by fixing the main coaxial transmission unit 400 at a lower end thereof .

At this time, the driven shaft frame 300 is formed in a semicircular shape or a "C" shape as in the embodiment of FIG.

T "," C ", and" H ", which are capable of angular movement between the slave shaft frame 300 and the main coaxial transmission unit 400. In addition,

As shown in FIG. 4, on the outer surface of the slave axis frame 300, the final position of the module frame 100 can be easily identified based on the azimuth angle of the sun and the sun's position according to the altitude angle. The position of the sun is displayed by the concept of the operator so that the operator can adjust the angle according to the timing. This is to allow the operator to increase the efficiency of the solar energy without the background knowledge of the solar tracker, but to make it easier to use.

For example, the latitude and the altitude of the Sun are 53.7 ° in winter, 77.2 ° in winter and 30.2 ° in winter (average value from 1971 to 2000) Is displayed on the slave axis frame (300) so as to facilitate the adjustment of the angle of the frame (100).

At this time, when there is a possibility that the module frame 100 is damaged due to a stress generated due to a natural phenomenon such as a strong wind or a typhoon regardless of the season, the inclination angle of the module frame 100 is set to 0 The risk of breakage due to natural phenomena can be reduced.

 5 (a)), the mechanical connecting means 500 is provided between the driven shaft frame 300 and the main coaxial transmission portion 400 and has a protrusion As shown in Fig. 5 (b), and are formed in a structure that can perform angular motion by mutual action.

As shown in FIG. 5B, when the main coaxial transmission unit 400 is rotated in a clockwise direction, the lower end of the module frame 100 is moved toward the ground, and when the main coaxial transmission unit 400 is rotated counterclockwise The upper end of the module frame 100 faces the ground.

Accordingly, when the module frame 100 is rotated in the clockwise direction, the inclination angle of the module frame 100 is increased with respect to the ground surface, so that the module frame 100 corresponds to the winter season. When the module frame 100 is rotated counterclockwise, the inclination angle becomes smaller.

When the mechanical coupling means 500 forms a structure capable of performing angular movement by the interaction of the driven shaft frame 300 and the main coaxial transmission portion 400 in the above-described manner, The main coaxial transmission unit 400 controls motions of the driven shaft frame 300 by supplying power semi-automatically using a motor according to the operator.

At this time, the motor should be selected in consideration of the output value. The reason for this is that when the main coaxial transmission unit 400 and the mechanical coupling unit 500 are connected to each other and the driven shaft frame 300 is rapidly angularly moved, The mechanical connection means 500 of the slave axis frame 300 may be damaged due to the stress to be transmitted and the mechanical connection means 500 of the slave axis frame 300 may be damaged. Should be selected.

In another embodiment, as shown in FIG. 6B, there is also a method of transmitting power by using a manual rotary knob to control angular movement of the slave axis frame 300.

As an example of the manual type rotary knob, a rotary knob applying a ratchet gear mechanism such as a "vinyl house switch" in Japanese Patent Registration No. 10-1408386 is used.

The reason is that generally, the ratchet gear rotates in a certain direction as when winding the clock of a clock, but in the opposite direction, the pole is not caught by the gear, Even if a moment, that is, a rotational force, is generated in the module frame 100, which is maintained at a constant angle, the rotational force is blocked without being transmitted to the regulator built in the manual rotary knob, Since the angle of the frame 100 is made to be maintained.

The main coaxial transmission unit 400 can be used in a detachable method and an attachable method. In the case of the detachable method, after the operator operates the main coaxial transmission unit 400 to change the inclination angle of the module frame 100 considering the position of the sun according to the time, the main coaxial transmission unit 400 is separated A separate fixing device for fixing the slave shaft frame 300 and the strut 600 is required to maintain the tilt angle.

For example, a plurality of adjustment holes having predetermined intervals are formed on the basis of a predetermined angle of the module frame 100 taking into consideration the position of the sun in a predetermined time period, and a plurality of fixing holes are formed in the struts 600 A method of using a combination of an adjusting hole and a fixing hole and a method of using a plurality of fixing devices to form a hole at an interval of 600 mm in one fixing device and a hole in an other 450 mm And the total length of the fixing device can be adjusted at intervals of 150 [mm] due to the interaction of the plurality of fixing devices by combining the configured fixing devices.

The main coaxial transmission unit 400 may be provided with a sensor and a driving unit to adjust the angle of the module frame 100 automatically, .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. Therefore, the embodiments of the present invention are to be considered in all respects as illustrative and not restrictive, as they may be embodied in many other forms without departing from the spirit or essential characteristics thereof.

As the need for sustainable energy sources increases due to high oil prices, environmentally friendly renewable energy such as solar energy is emerging.

Solar energy is a clean energy production industry that is needed to replace the existing energy production based on fossil fuels as a pollution-free energy source and to solve environmental problems and to lead a rich and pleasant life for mankind.

Accordingly, the present invention provides a sunlight tracker which can be easily used by anyone regardless of the operator's background knowledge of the solar light tracker and has an angle controllable so that the advantages of high efficiency of solar energy can be used economically, It can be applied to contribute to the development of the energy industry.

100: module frame 200: support frame
300: slave coaxial frame 400: main coaxial transmission part
500: Mechanical connection means 600: Holding

Claims (6)

A module frame (100) coupled with a plurality of solar modules for converting incident solar energy into electric energy, the solar module comprising: an angle adjustable solar tracker ,
A support frame 200 on which the module frame 100 is seated and fixed and supports the module frame 100;
The outer surface coupled to the lower surface of the support frame 200 and allowing angular movement of the support frame 200 is provided with a spring 53.7 [°] at the equinox, 77.2 ° at the lower limb, and 30.2 ° at the comet The final position of the module frame 100 is displayed on a seasonal or monthly basis based on the altitude of the summit of the sun, so that a semicircular image or "C ", which is easily adjustable by the operator without background knowledge of the solar tracker, A driven shaft frame 300 formed in a shape of a letter;
A main coaxial transmission unit 300 coupled to the driven shaft frame 300 to transmit power using a manual rotary knob formed of a ratchet gear having a stopper function so as not to generate a rotational force due to an external force of a natural phenomenon 400);
A mechanical coupling (not shown) that connects the driven shaft frame 300 and the main coaxial transmission portion 400 to each other by connecting / combining gears having equally spaced projections (gear teeth) Connecting means (500); And
And a column 600 hinged to the driven shaft frame 300 at its upper end and fixed to the supporting structure of the base structure by being fixed in the longitudinal direction with the main coaxial transmission unit 400 fixed to the lower end thereof, An angle adjustable solar tracker combined with the advantages of easy installation and maintenance of the optical tracker and the high efficiency of the tracked solar tracker. delete delete delete delete delete

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