KR101398292B1 - Tracking Type floating Photovoltaic system - Google Patents

Abstract

The present invention relates to a tracking-type floating-floating solar power generation apparatus, and more particularly, to a tracking-type floating-suspended solar power generation apparatus for tracking solar power in response to a change in the azimuth of the sun and thereby increasing solar power generation efficiency and rotating the solar cell module It is easy to track the sun with low power by the rotating part fluid, and it can rotate the multiple rotating parts fluids together with one motor, so that the solar tracking of many solar modules can be easily managed and the power efficiency can be enhanced. ≪ / RTI >
That is, according to the present invention, a plurality of fixed-portion fluids are installed radially around a driving frame, A rotating part fluid rotatably installed inside the plurality of fixed part fluids and having a solar cell module mounted thereon; A rotation operation member provided on the rotating part fluid and rotated; A rotation drive member installed inside the plurality of fixed-body fluids to be connected to each other so that each of the rotation fluid is simultaneously rotated; And an inclination angle adjusting unit installed on the rotating part fluid to adjust the angle of the solar cell module.

Description

[0001] The present invention relates to a tracking type floating photovoltaic system,

The present invention relates to a tracking-type floating-floating solar power generation apparatus, and more particularly, to a tracking-type floating-suspended solar power generation apparatus for tracking solar power in response to a change in the azimuth of the sun and thereby increasing solar power generation efficiency and rotating the solar cell module It is easy to track the sun with low power by the rotating part fluid, and it can rotate the multiple rotating parts fluids together with one motor, so that the solar tracking of many solar modules can be easily managed and the power efficiency can be enhanced. ≪ / RTI >

While environmental pollution is intensifying, much research has been conducted on the development of eco-friendly power generation facilities that can generate electricity using environmentally friendly energy. More specifically, there are many researches on solar power generation, wind power generation, Research is being conducted to replace the electricity produced by conventional power generation facilities beyond the level of obtaining a small amount of electricity.

In recent years, photovoltaic power generation facilities have become widespread, and in order to supplement the electric energy obtained through the existing power generation means through the photovoltaic power generation facilities, there is a disadvantage that the photovoltaic power generation facilities must be installed on a large scale , There is a problem that a wide flat ground is required for this purpose.

The solar power plant installed on the ground has been proposed for the first time as a stationary type and has been proposed in order of a short axis type and a double axis type which can be moved along the sunlight. Such a short axis type and a double axis type are constituted by a flat reinforced concrete base and an electric A structure in which a solar cell mounted structure is rotated around a shaft using a motor or hydraulic pressure.

However, solar power plants installed on the ground have problems in that the installation cost for the posture stability of the structure increases as the size of the structure for fixing the solar cell increases.

In order to solve these problems, attempts have been made recently to install a solar power generation facility on a wide water surface. The water power generation facility of water power is formed with a certain thickness and a large area, and a plurality of sub- A large-capacity solar photovoltaic power generation facility, which is constructed by installing a plurality of solar cell modules at equal intervals in one fluid to float on a water surface at a predetermined size, is often shaken by a wave, as is the case with all floats installed on a water surface, Since the position and angle of sunlight reception are important for the solar power generation device, it is difficult to fix the position and the angle for receiving the sunlight effectively on the water surface. There are still problems to be solved such as a very complicated tracking facility for tracking sunlight.

That is, the solar-light-tracking light-collecting apparatus of the water-setting type disclosed in the prior art Patent Laid-Open No. 10-2010-0130515 includes a floating object installed on the water surface; An upper structure formed in an inverted triangular shape at an upper end of the floating object to form a space portion at a center thereof and a rotating shaft including a bearing at an upper end thereof; A solar module plate for condensing sunlight; A rotary plate on which the solar module plate is formed on an upper surface thereof, a center portion of which is fixed to an upper end of the rotation shaft and which is pivoted laterally; A roller guide formed in a space in the center of the upper structure and formed along a rotation radius about the rotation axis; A rotary pusher roller movably formed along the roller guide; Each of which has one end fixed to both sides of the bottom of the rotating plate and the other end hinged to the rotating platen roller; A motor formed on the floating object; A rack pinion for converting the rotational motion of the motor into a linear motion; A driven pipe formed on the floating body and coupled to the rack pinion to linearly move in the lateral direction; And a roller link that hinges one end of the driven pipe to the driven pipe and the other of which is hinged to the rotating plunger roller to move the plunger roller in a turning radius along the roller guide when the driven pipe horizontally moves .

In this structure, a structure for rotating the solar module plate is installed in the upper structure, and since a rotary shaft including a bearing is formed at the upper end of the upper structure, a lot of power is required to install a solar module plate having a large capacity. It is necessary to install additional fixtures such as aluminum support beams in a large number of installations as well as the economical efficiency due to the complicated construction of the structure and maintenance cost, and since the solar module plates move separately, have.

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a solar battery module in which a solar battery module is installed in a stationary floating body capable of floating on a water surface, And is equipped with a driving frame at the center of a plurality of fixed stationary radial fluids and rotates the respective rotary part fluids through a motor, a driving gear, and a driven gear in a batch The present invention is directed to provide an economical tracking type floating solar photovoltaic power generation apparatus which is simple in solar tracking management of a rotating portion fluid of a solar cell and enhances power efficiency.

The present invention provides a method of controlling an air-conditioning system, comprising: a plurality of fixed-gaseous fluids installed radially around a driving frame, A rotating part fluid rotatably installed inside the plurality of fixed part fluids and having a solar cell module mounted thereon; A rotation operation member provided on the rotating part fluid and rotated; A rotation drive member installed inside the plurality of fixed-body fluids to be connected to each other so that each of the rotation fluid is simultaneously rotated; And an inclination angle adjusting unit installed on the rotating part fluid to adjust the angle of the solar cell module.

Wherein the rotary operation member comprises: A guide roller fixedly installed on the inner side of the stationary fluid, a guide roller portion provided at regular intervals on the outer circumferential surface of the rotating portion fluid rotating along the guide rail, and a guide roller portion fixedly mounted on the upper surface of the peripheral portion of the rotating portion fluid, And a rotating part connected to any one of a rope or a chain provided on the member to rotate the rotating part fluid in normal and reverse directions.

In addition, the rotation operation member includes: A guide part provided at a predetermined interval to the inside of the fixed fluid and having a roller; and a rotation part fluid in the guide part rotating in contact with the roller, wherein the " And the rope provided on the rotation driving member is wound tightly to rotate the rotating part fluid in the normal and reverse directions.

In addition, the rotation operation member includes: A circular rail fixedly installed inside the stationary fluid; and a roller movement unit connected to the circular rail at equal intervals around the rotation unit fluid so that the rotation unit fluid is rotated along the circular rail, And is rotated in either the rope or the chain.

The rotation drive member includes: A plurality of driven gears, which are rotated by the motor of the driving frame at the center thereof and rotated together with one side of the driving gear, are provided, and the driven gear is formed integrally with the driven coupling portion so as to rotate by one shaft, And the driven connection portion is connected to the rotary operation member by either the rope or the chain so that the rotary portion fluid is rotated.

The inclination angle adjusting unit is hinge-coupled to the rotating part fluid, and includes a module support for supporting the solar cell module, a moving roller for hinging one side of the module supporter and a roller rail installed on the other side of the rotating part fluid And a driving means for adjusting the angle by moving the inclination adjusting base in a forward and backward direction by a pulling action.

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a solar battery module in which a solar battery module is installed in a stationary floating body capable of floating on a water surface, And it is easy to install on the waterfront while improving power generation efficiency.

In addition, a driving frame is provided at the center of a plurality of fixed stationary radial fluids, and the rotation of each rotary part fluid through the motor, the driving gear, and the driven gear is collectively rotated, There is an effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary view showing an overall configuration of a tracking type floating-floating solar power generation apparatus according to the present invention; FIG.
2 is a perspective view showing the configuration of a tracking type floating-floating solar power generation device according to the present invention.
3 is a plan view showing a configuration of a tracking type floating-floating solar power generation apparatus according to the present invention.
4 is a side cross-sectional view showing the rotary actuating member of the tracking type floating-floating solar power generation apparatus according to the present invention.
5 is an enlarged perspective view showing a rotary operation member of the tracking type floating-floating solar power generation device according to the present invention.
6 is a perspective view showing a configuration of a rotation driving member of a tracking type floating-floating solar power generation device according to the present invention.
7 is a view illustrating an operation example of the inclination angle control unit in the tracking type floating-floating solar power generation apparatus according to the present invention.
8 is a plan view showing a second embodiment of the rotary operation member in the tracking type floating-floating solar power generation apparatus according to the present invention.
9 is a side cross-sectional view according to the configuration of FIG.
10 is a plan view showing a third embodiment of the rotary operation member in the tracking type floating-floating solar power generation apparatus according to the present invention.
11 is a side cross-sectional view according to the configuration of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The tracking type floating-stowed solar power generation apparatus of the present invention includes a plurality of fixed-state fluids 20 installed radially around a driving frame 10, each having a predetermined size and floating on the water surface; A rotating part fluid (30) rotatably installed inside the plurality of fixed part fluids (20) and having a solar cell module (40) installed thereon; A rotary actuating member (50) provided on the rotary part fluid (30) and rotated; A rotation driving member 60 installed inside the plurality of fixed-body fluids 20 so as to rotate the respective rotating fluid 30 simultaneously; And an inclination angle adjusting unit 70 installed on the rotating body fluid 30 to adjust the angle of the solar cell module 40.

As shown in FIG. 1, the fixed-body fluid 20 of the present invention is provided in the shape of a circular or polygonal rim, more preferably it can float on the water surface in the form of an octagonal shape, and the rectangular driving frame 10 And a rotatable rotating fluid 30 is installed inside each fixed fluid 20 so as to float on the water surface together with the fixed fluid 20.

The rotary part fluid 30 is provided in a flat plate shape and is rotated by the rotary operation member 50 inside the stationary fluid 20, and the solar cell module 40 is installed on the upper part.

As shown in the drawing, the rotating part fluid 30 may be provided in a flat plate shape, but it may be provided in a frame form of a skeletal shape, and then floated with a plurality of additional floating parts in a lower part.

As shown in Figs. 4 to 5, the rotary actuating member 50 of the present invention has the above-

A guide roller 51a fixed to the inside of the stationary fluid 20 and a guide roller 51b installed at regular intervals on the outer circumferential surface of the rotating part fluid 30 rotating along the guide rail 51a, And a rotation part 51c fixed to the upper surface of the periphery of the rotation part fluid 30 and connected to any one of ropes or chains provided on the rotation driving member 60 to rotate the rotation part fluid 30 in the forward and reverse directions . Since the guide roller portion 51b of the rotary part fluid 30 is supported by the guide rail 51a of the stationary fluid 20 and rotates, the rotary part fluid 30 is not released, The rotation is largely unaffected.

As a second constitutional example of the rotary operation member 50, as shown in Figs. 8 to 9,

A guide part 53a provided at predetermined intervals to the inside of the fixed fluid 20 and provided with a roller and a guide part 53a for guiding the rotation part fluid 30 in contact with the roller, And the rotary groove 53b is formed by winding a rope provided on the rotary drive member 60 together with the guide drum 53c in close contact with the rotary drum 53c, So that the fluid 30 is rotated in the forward and reverse directions, and the guide drum 53c is wound in a state in which the rope is wound one more turn to increase the rotational friction force. Since the guide portion 53a of the fixed-portion fluid 20 is supported and rotated by the outer peripheral surface of the rotating portion fluid 30, the rotating portion fluid 30 is not detached, It is rotated without being greatly affected by the frictional force.

As a third constitutional example of the rotary operation member 50, as shown in Figs. 10 to 11,

A circular rail 55a fixedly installed inside the stationary fluid 20 and a roller moving part 55b connected to the circular rail 55a at equal intervals around the rotary part fluid 30, And the roller moving part 55b is rotated in the forward and reverse directions by a rope or a chain provided on the rotation driving member 60. The roller moving part 55b is rotated by the roller And the roller rotating part 55c formed by one shaft are connected to the rope or the chain so that the roller is brought into close contact with the circular rail 55a to rotate in the circular arc direction and the rotary part fluid (30) rotate together.

The rotation drive member 60 of the present invention rotates the drive gear 62 at the center by the motor 61 of the drive frame 10 and engages with one side of the drive gear 62 A plurality of driven gears 63 rotating in a lump are provided and the driven gear 63 is formed so as to rotate integrally with the driven coupling portion 64 in one axis, And is connected to the rotary operation member 50 by one such that the rotary fluid 30 is rotated.

The rotary drive member 60 is connected to the rotary actuating member 50 of the rotary part fluid 30 so that the respective rotary part fluid 30 is simultaneously rotated simultaneously by the motor 61, ) Can be easily controlled, and solar tracking management is easy, and a large number of power can be controlled with a small power, thereby enhancing power efficiency.

The rotation driving member 60 is provided with a driving gear 62 or a driven gear 63 so that the rotation driving member 60 can be rotated manually when the motor is in a disabled state, And a crank-type manual driving unit (not shown) that rotates while being inserted into the shaft can be provided.

The rotating portion 51c, the roller rotating portion 55c and the driven connecting portion 64 of the present invention are shown in the form of sprockets, for example, in the form of a sprocket so as to be connected to a chain. .

7, the inclination angle adjusting unit 70 includes a module support 71 hinged to the rotary part fluid 30 and supporting the solar cell module 40, A slope adjusting table 72 having one side hinged and the other side equipped with a moving roller 72b for performing a sliding operation on a roller rail 72a provided on the rotating part fluid 30, ) Is moved back and forth by a pulling action to adjust the angle.

The driving means 73 is constituted by a normal cylinder or a motor so as to be able to pull the inclination adjusting table 72 and moves the plurality of inclination adjusting tables 72 by one moving axis, 40 and the angle of the solar cell module 40 is adjusted to be close to 0 ° so that the angle of the solar cell module 40 is horizontal to the ground in the condition of a strong wind such as a typhoon.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: drive frame 20: stationary fluid
30: rotating part fluid 40: solar cell module
50: rotation operation member 51a: guide rail
51b: Guide roller portion 51c:
53a: guide portion 53b: rotary groove
53c: guide drum 55a: circular rail
55b: roller moving part 55c: roller rotating part
55d: pull section 60: rotation drive member
61: motor 62: drive gear
63: driven gear 64: driven connection
70: inclination adjusting portion 71: module support
72: a slope adjusting base 72a: a roller rail
72b: moving roller 73: driving means

Claims (6)

A plurality of fixed body fluids (20) radially disposed around the driving frame (10), each fixed body fluid floating on the water surface;
A rotating part fluid (30) rotatably installed inside the plurality of fixed part fluids (20) and having a solar cell module (40) installed thereon;
A rotary actuating member (50) provided on the rotary part fluid (30) and rotated;
The rotation driving member 60 installed inside the assembly of the plurality of stationary fluid 20 and causing the rotating body fluids 30 to rotate at the same time is rotated by the motor 61 of the driving frame 10, A plurality of driven gears 63 are integrally provided with the driven gears 63 so as to rotate integrally with the drive gears 62 and rotate integrally with the drive gears 62, And the driven connection portion 64 is connected to the rotary operation member 50 by a rope or a chain to rotate the rotary fluid 30;
And an inclination angle adjusting unit (70) installed on the rotating part fluid (30) to adjust the angle of the solar cell module (40).
The method according to claim 1,
The rotary operation member (50) comprises:
A guide roller 51a fixed to the inside of the stationary fluid 20 and a guide roller 51b installed at regular intervals on the outer circumferential surface of the rotating part fluid 30 rotating along the guide rail 51a, And a rotating part 51c fixed to the upper surface of the peripheral part of the rotating part fluid 30 and connected to any one of the ropes or chains provided on the rotating driving member 60 to rotate the rotating part fluid in the forward and reverse directions Wherein the photovoltaic device is a photovoltaic device.
The method according to claim 1,
The rotary operation member (50) comprises:
A guide part 53a provided at predetermined intervals to the inside of the fixed fluid 20 and provided with a roller and a guide part 53a for guiding the rotation part fluid 30 in contact with the roller, And the rotary groove 53b is formed by winding a rope provided on the rotary drive member 60 in close contact with the rotary groove 53b so that the rotary fluid 30 is rotated in the forward and reverse directions Wherein the photovoltaic power generation device comprises:
The method according to claim 1,
The rotary operation member (50) comprises:
A circular rail 55a fixedly installed inside the stationary fluid 20 and a roller moving part 55b connected to the circular rail 55a at equal intervals around the rotary part fluid 30, And the roller moving part (55b) is rotated in the forward and reverse directions by means of a rope or a chain provided on the rotation driving member (60) so that the rotating part fluid (30) Device.
delete The method according to claim 1,
The inclination angle adjuster 70 includes a module support 71 hinged to the rotary part fluid 30 and supporting the solar cell module 40,
A slope adjusting table 72 provided with a moving roller 72b which is hinged to one side of the module supporter 71 and has a slide rail 72a provided on the rotary part fluid 30, ,
And a driving means (73) for adjusting the angle by moving the inclination adjusting table (72) back and forth by a pulling action.

Images