KR101970405B1 - Floating-Type Solar-track Device for Solar-light Module and Driving Method of the Same - Google Patents

Abstract

The present invention relates to a daylight tracking mooring apparatus and a mooring method using the same, and more particularly, to a daylight tracking mooring apparatus for increasing power generation efficiency of an aquamarine floating structure, and more particularly, to a system for constructing at least one slack line during a daylight time, A sunlight tracking mooring device for enhancing the power generation efficiency of a floating solar photovoltaic structure in which the sunlight incident angle of a solar cell is kept close to a right angle at maximum by tilting and relaxing the solar cell at regular intervals The present invention relates to a mooring method used.
A preferred embodiment of the daylight tracking mooring device for increasing the power generation efficiency of the floating solar light floating structure of the present invention comprises a frame configured to float on the water surface by a buoyant body with a predetermined size; A mooring line having three or more frames arranged at predetermined intervals on the outer surface of the frame so that one end thereof is fixed to the frame and the other end is fixed to the water bottom surface by the fixing means; A slack line fixed to the frame so that the other end is fixed to the fixing means at the same position as the other end of the mooring line at the predetermined position and the one end is spaced apart from the one end of the mooring line at a predetermined position; And driving means configured at one end of the slack line to unwind or unwind the slack line.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a daylight tracking mooring device and a mooring method using the same,

The present invention relates to a daylight tracking mooring apparatus and a mooring method using the same, and more particularly, to a daylight tracking mooring apparatus for increasing power generation efficiency of an aquamarine floating structure, and more particularly, to a system for constructing at least one slack line during a daylight time, A sunlight tracking mooring device for enhancing the power generation efficiency of a floating solar photovoltaic structure in which the sunlight incident angle of a solar cell is kept close to a right angle at maximum by tilting and relaxing the solar cell at regular intervals The present invention relates to a mooring method used.

Photovoltaic power generation from solar power is possible anywhere in the daytime, and it is easy to maintain and easy to unmannize. However, unlike general power generation, solar power generation has a disadvantage in that the energy density is lowered if it can not be tracked in response to a change in the position of the sun because the direction of irradiation of the sun changes with time, The photovoltaic structure joins one end of the mooring line to the side of the photovoltaic power generation structure and the other end joins to the bottom of the water by anchor.

However, in this method, once the mooring line is set so that the photovoltaic module is directed to the south when the photovoltaic structure is installed for the first time, the direction is always fixed even if the water level is changed because it is already set to the equilibrium state.

Therefore, in order to enhance the power generation efficiency of the solar power generation, a method of adding a daylight tracking device is performed in parallel. In order to realize the sunlight tracking and rotating function, the conventional technique uses a pinion gear or the like Or a structure in which a double donut type structure rotates an inner rotary plate or rotates a structure by connecting a mooring line to a land fixed structure, There is a problem that it takes a lot of time.

As a background of the present invention, there is a patent registration No. 0826954 entitled " Photovoltaic module device for tracking sunlight " (Patent Document 1). In the background art described above, there is provided a solar module comprising: " a solar module arranged in a plurality of solar cells for converting solar energy into electric energy; and a solar module supporting the solar module and rotating along the sun moving from east to west, Wherein the plate frame is disposed between the plate frame and the ground so that the plate frame is rotated along the sun with respect to the sun, A pivoting means for pivoting the photovoltaic module, a pivotal means provided between the photovoltaic module and the plate frame for supporting the photovoltaic module from the plate frame, An angle adjusting means for adjusting the angle along the sun's orbit so as to maintain the angle to the sun, Control means for controlling the operation of the angle adjusting means and the pivoting means and for correcting the position of the solar module by operating the pivoting means every time the solar module deviates from 2 ° from the vertical ≪ / RTI > A solar module apparatus for tracking sunlight, comprising solar tracking means made of the same.

However, the above-mentioned background art is not suitable for a float-type structure suspended in an aquarium, but also has a complicated structure such as a separate control means.

Patent No. 0826954 entitled " Photovoltaic Module Tracking Device "

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a solar power generation module in which a slack line is added only in a conventional construction method, One or more slack lines are formed on the frame which is fixed to the float and float on the water, and the tension of the slack line is periodically relaxed and relaxed by a separate driving means to rotate the frame to match the irradiation angle of the sunlight The present invention is directed to a daylight tracking mooring device and a mooring method using the daylight tracking mooring device for enhancing power generation efficiency of a floating solar light floating structure that maintains a sunlight incident angle of a solar cell close to a right angle as much as possible.

The present invention relates to a frame structure, comprising: a frame configured to float on a water surface by a buoyant body at a predetermined size; A mooring line having three or more frames arranged at predetermined intervals on the outer surface of the frame so that one end thereof is fixed to the frame and the other end is fixed to the water bottom surface by the fixing means; A slack line fixed to the frame so that the other end is fixed to the fixing means at the same position as the other end of the mooring line at the predetermined position and the one end is spaced apart from the one end of the mooring line at a predetermined position; And a drive unit configured to unroll and wind the slack line at one end of the slack line to provide a daylight tracking mooring apparatus for enhancing power generation efficiency of an aquamarine floating structure.

Further, it is desirable to provide a daylight tracking mooring apparatus for increasing the power generation efficiency of an aquamarine floating structure, which is characterized in that two or more slack lines are formed symmetrically.

The one end of the slack line is wound around the take-up roller by a predetermined length so that the slack line wound on the take-up roller is loosened or wound by the drive means. The daylight tracking mooring device ≪ / RTI >

Another object of the present invention is to provide a daylight tracking mooring device for enhancing power generation efficiency of an aquatic solar floating structure, characterized in that one end of the slack line is located at one end of a neighboring mooring line.

The present invention also provides a floating structure for an aquamarine solar photovoltaic system, characterized in that a frame is rotated by driving a driving means to wind or loosen a slack line by using a daylight tracking mooring device for increasing power generation efficiency of a floating solar photovoltaic floating structure And to provide a mooring method using a daylight tracking mooring device to improve power generation efficiency.

The daylight tracking mooring apparatus and the mooring method using the same for improving the power generation efficiency of the floating solar photovoltaic structure of the present invention are very simple and economical because there is no additional process other than adding only one slack line in the existing construction method , The solar power module is composed on the upper part and fixed to the mooring line, and one or more slack lines are formed in the frame configured to float on the water, and the tension of the slack line is periodically tensed and relaxed by the separate driving means So that the sunlight incident angle of the solar cell can be kept close to a right angle as much as possible.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a plan view and an operating state view showing a schematic configuration of one embodiment of a daylight tracking mooring apparatus for enhancing power generation efficiency of a floating solar light floating structure of the present invention.
2 is a plan view and operating state diagram showing a schematic configuration of another embodiment of a daylight tracking mooring apparatus for enhancing power generation efficiency of an aquatic solar floating structure of the present invention.
Fig. 3 is a partially enlarged view of Fig. 2A.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

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

FIG. 1 is a plan view and operational state diagram showing a schematic configuration of one embodiment of a daylight tracking mooring apparatus for enhancing power generation efficiency of an aquatic solar floating structure of the present invention. Fig. 3 is a partially enlarged view of the above-mentioned Fig. 2A. Fig. 3 is a partially enlarged view of Fig. 2A. Fig.

1, a daylight tracking mooring apparatus 1 for increasing the power generation efficiency of a floating solar light floating structure according to the present invention comprises a frame 10 of a predetermined size, a mooring line 20 for fixing the frame 10, And a driving means (40) for tension-relaxing the slack line (30) and the slack line (30) constituted by a redundant line.

The frame 10 is mounted on the upper part of the solar power generation panel. As shown in the figure, the frame 10 may be formed in a square shape or may have various frame shapes such as a polygonal shape and a circular shape.

Such a frame 10 is configured to float on the water surface by a buoyant body (not shown) or the like so as to float on the water surface, and a separate operation footboard or the like may be constructed.

The frame 10 is fixed to the bottom of the water using a mooring line 20 so that the frame 10 floats on the water surface and can be fixed.

The mooring rope 20 has one end fixed to the frame 10 and the other end fixed to the water bottom surface by various known fixing means 21 such as an anchor. At this time, three or more mooring ropes 20 are arranged at predetermined intervals on the outer surface of the frame 10, so that the frame 10 can be balanced while floating.

In the present invention, the slack line 30 is additionally provided in addition to the mooring rope 20 so that the frame 10 can be easily rotated to the irradiation angle of the sunlight without being complicated or costly .

1, the present invention can operate from three-point mooring by using three mooring rods 20 to constitute a slack line 30. As shown in Fig. 2, The present invention can be applied to four-point mooring using four mooring ropes 20 capable of arranging the line 30, and can be applied to more than four mooring lines.

The slack line 30 is fixed to the fixing means 21 at the same position as the other end of the mooring rope 20 at the predetermined position and the one end is fixed to the frame 20 10, one end of the slack line 30 is preferably located at one end of the adjacent mooring line 20, and is configured to have a length more loosely than the mooring line 20 do.

As shown in FIG. 1, in the case of a three-point mooring operation, only one slack line 30 can be operated. As shown in FIG. 2, two or more slack lines 30 are formed symmetrically So that the rotation of the frame 10 is facilitated and the balance can be balanced.

At this time, the driving means 40 is formed at one end of the slack line 30 so that the slack line 30 can be unwound or wound. The driving means 40 can use various known driving means such as a winching winch, The driving means 40 may be driven to periodically wind or loosen the slack line 30 to relax and relax the frame 10 to rotate the frame 10.

3, one end of the slack line 30 is wound around the take-up roller 32 by a predetermined length, and the slack line 30 wound around the take-up roller 32 by the drive means 40 such as a motor It may be loosened or wound.

As described above, the mooring method using the daylight tracking mooring apparatus 1 for increasing the power generation efficiency of the floating solar photovoltaic floating structure of the present invention is characterized in that the slack line 30 is periodically relaxed by the driving means 40 1B and 2B, since the frame 10 has a property of moving to the position where the mooring rope 20 and the tension are in equilibrium, in the process of forming the equilibrium of the tension, And the flow of the frame 10 is reduced due to an increase in the tension of the mooring ropes 20 and the slack lines 30 as a whole.

 In this way, the frame 10 can be repeatedly rotated in the left and right direction in the course of repeating the tension and relaxation by moving the slack line 30 by operating the driving means 40. That is, in the morning, the slack line 30 is loosened in the morning, and the slaining line 30 is tensed by the driving means 40 in accordance with the movement of the sun to rotate the frame 10, Relax loosely and move to the original position.

Since the rotation of the frame 10 by moving the slack line 30 can vary depending on the area or the installation position, the tension and relaxation of the slack line 30 can be controlled correspondingly.

In order to increase the power generation efficiency of the floating solar photovoltaic structure of the present invention as described above, the daylight tracking mooring apparatus and the mooring method using the solar light mooring apparatus have a very simple construction because only one slack line is added in the existing construction method, It is economical to construct one or more slack lines on a frame that is constructed on top of a solar power module and fixed to a mooring line so as to float on the waterway, and the tension of the slack line is periodically There is a very useful effect of keeping the sunlight incident angle of the solar cell close to a maximum angle at right angles by rotating the frame in accordance with the irradiation angle of the sunlight by tensing and relaxing.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: daylight tracking mooring device
10: frame
20: Mooring line
21: Fixing means
30: Slack Line
32: take-up roller
40: driving means

Claims (5)

A frame (10) configured to float on the water phase by a buoyant body in a predetermined size;
At least three of the mooring rods 20 and the mooring rods 20 are formed at predetermined intervals on the outer surface of the frame 10 so that one end portion thereof is fixed to the frame 10 and the other end portion thereof is fixed to the water bottom surface by the fixing means 21 ;
And the other end is fixed to the fixing means 21 at the same position as the other end of the mooring rope 20 at the predetermined position and the one end is fixed to the frame 10 so as to be positioned at one end of the adjacent mooring rope 20, (30);
And a driving means (40) provided at one end of the slack line (30) for unwinding or winding the slack line (30). The solar light floating structure Device. The method according to claim 1,
Wherein at least two slack lines (30) are formed symmetrically with respect to the slack line (30). The method according to claim 1,
And one end of the slack line 30 is wound around the winding roller 32 by a predetermined length so as to unwind or unwind the slack line 30 wound around the winding roller 32 by the driving means 40. [ A daylight tracking mooring system to improve the power generation efficiency of a floating structure. delete A daylight tracking mooring apparatus for increasing the power generation efficiency of a floating solar light floating structure according to any one of claims 1 to 3,
And the frame (10) is rotated by driving the driving means (40) to wind or loosen the slack line (30). The mooring using the daylight tracking mooring device for enhancing the power generation efficiency of the aquatic solar floating structure Way.

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