KR102314186B1 - Stainless steel structure for floating solar panel - Google Patents

Abstract

The present invention relates to a stainless steel-based floating solar cell panel floating-type installation structure. The structure comprises: a structural base made of a stainless steel-based material; a plurality of stainless steel floating objects detachably coupled to the structural base; a cell panel support made of a stainless steel-based material; a rotating shaft center boss unit coupled to one side of the cell panel support; a plurality of bridges made of a stainless steel-based material; a relative rotation boss unit coupled to the other side of the cell panel support; an arc-type rack made of a stainless steel-based material; a rack guide unit made of a stainless steel-based material; a cell panel angle control driving unit to adjust an angle of a solar cell panel; and a fixed support for fixing and supporting the cell panel angle control driving unit to the structural base. Therefore, the structure can increase durability.

Description

Stainless steel structure for floating solar panel

The present invention relates to a stainless steel-based floating solar panel floating structure, and more specifically, it is possible to stably install the solar panel on the water surface, as well as provide superior corrosion resistance than the prior art, which can increase durability, It relates to a stainless steel-based floating solar panel floating structure.

Unlike power generation using coal or oil, solar power generation does not pollute the environment. However, in order to realize such photovoltaic power generation, a plurality of solar panels must be installed through a structure on a site of several kilometers.

The larger the number of solar panels, the more advantageous it is for power generation, so the area of the land needs to be increased, but there are many difficulties in finding a suitable place in reality.

For this reason, a slope is made by cutting a mountain and solar panels are installed here, but this can damage the natural landscape and in severe cases cause another problem of ecosystem destruction.

Therefore, in recent years, solar panels are often installed in water bodies such as reservoirs and lakes, including the sea.

In order to install a solar panel in the sea, a structure, for example, a floating installation structure for fixing and floating the solar panel on the water surface, is required, and various types of floating installation structures are currently being developed and used.

However, in the case of the existing floating installation structure, it is common to have painted steel material and produced it, so it is inevitably vulnerable to corrosion, and this inevitably causes frequent maintenance costs. development is required.

Korean Intellectual Property Office Application No. 10-2016-0090195 Korean Intellectual Property Office Application No. 10-2019-0010077 Korean Intellectual Property Office Application No. 10-2019-0105448 Korean Intellectual Property Office Application No. 20-2016-0000168

It is an object of the present invention to provide a stainless steel-based floating solar panel floating structure that can be stably installed on the water surface, as well as provide superior corrosion resistance than the prior art, thereby increasing durability.

The object is made of a stainless steel-based material, a structural base having a ring portion formed on one side; a plurality of stainless steel floats removably coupled to the structural base to float components mounted on the structural base, including the structural base, and made of a stainless steel-based material; a panel support that is made of a stainless steel-based material and detachably supports at least one solar panel that generates electricity using solar energy; a rotation shaft center boss coupled to one side of the panel support and forming a rotation shaft of the panel support; a plurality of bridges made of a stainless steel-based material, one end rotatably coupled to the rotation shaft center boss portion and the other end fixed to the structural base; a relative rotation boss coupled to the other side of the panel support; An arc-type rack having one end coupled to the relative rotation boss to be rotatably coupled and the other end formed in an arc shape to form a free end, made of a stainless steel-based material; a rack guide unit made of a stainless steel-based material, coupled to the structural base, and guiding the curved movement of the arc-type rack; a panel angle control driving unit having a pinion engaged with the inner circumferential surface of the arc-type rack, but rotating the pinion to adjust the angle of the solar panel by moving the arc-type rack; and a fixed support for fixing and supporting the panel angle control driving unit to the structural base, wherein the panel angle control driving unit is made of a stainless steel-based material, the driving casing having an open side so that the pinion is partially exposed; a motor provided in the driving casing and generating a driving force for rotating the pinion in a forward and reverse direction; a battery provided in the driving casing adjacent to the motor and configured to store electricity on the solar panel side to drive the motor; a driving pulley coupled to the motor shaft of the motor; a driven pulley coupled to the central axis of the pinion; and a belt connecting the driving pulley and the driven pulley in a closed loop.

One end is connected to the ring part of the structural base and the other end is fixed to the underwater floor, and further includes a support line for hanging and supporting the structural base, a curved guide groove may be formed on the surface of the arc-type rack .

a sun position tracking unit provided on one side of the panel support and tracking the position of the sun; and a controller for controlling the operation of the panel angle adjustment driving unit with an organic mechanism so that the angle of the solar panel is adjusted based on the information transmitted from the solar position tracking unit.

The stainless steel floating body may include: a stainless steel floating housing in which a screw portion for detachably coupling to the screw-type coupling portion of the structural base is formed on one outer surface, while a bulkhead is formed to protrude from an inner wall and has an open end; a rubber tube disposed inside the bulkhead in the stainless steel floating housing and providing buoyancy to the stainless steel floating body together with an inner space of the bulkhead; a first airtight plate having one side disposed in the stainless steel floating housing to be in close contact with the bulkhead; a second airtight plate disposed in the stainless floating housing to be spaced apart from the first airtight plate; a plurality of buoyancy cans in the form of an open pipe having both ends disposed in contact with the first and second airtight plates and adjacent to each other to provide buoyancy to the stainless steel floating body; a pressure plate which is press-fitted into the stainless steel floating housing in contact with the second airtight plate and fixed to the inner wall of the stainless steel floating housing and presses the second airtight plate toward the first airtight plate; and a housing sealing cap configured to seal the inside of the stainless steel floating housing by being welded through an opening formed at one end of the stainless steel floating housing, wherein a space between the pressure plate and the housing sealing cap exerts a buoyancy force on the stainless steel floating body. may be additionally provided.

According to the present invention, it is possible to stably install the solar panel on the water surface, as well as to provide excellent corrosion resistance than the prior art, there is an effect that can increase the durability.

1 is a schematic side structural diagram of a stainless steel-based floating solar panel floating installation structure according to an embodiment of the present invention.
FIG. 2 is a partial cross-sectional view of FIG. 1 ;
3 is an enlarged view of the main part of FIG. 2 .
4 is a view of a state in which the angle of the solar panel is changed in FIG. 3 .
5 is a view in which the stainless steel floating body is separated from FIG. 3 .
6 is an enlarged view of the stainless steel float.
FIG. 7 is a cross-sectional view of FIG. 6 .
8 is an exploded view of FIG. 7 .
9 is a cross-sectional view taken along line AA of FIG. 8 .
10 is a control block diagram of a stainless steel-based floating solar panel floating installation structure according to an embodiment of the present invention.

Advantages and features of the present invention, and a method for achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to fully inform those of ordinary skill in the art to which the present invention pertains to the scope of the invention. And the invention is only defined by the scope of the claims.

Thus, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described to avoid obscuring the present invention.

Like reference numerals refer to like elements throughout. And the terms used (referred to) herein are for the purpose of describing the embodiments and are not intended to limit the present invention.

In this specification, the singular form also includes the plural form unless otherwise specified in the written word. In addition, elements and operations (acts) referred to as 'including (or including)' do not exclude the presence or addition of one or more other elements and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

In addition, commonly used terms defined in the dictionary are not to be interpreted ideally or excessively unless they are defined.

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

1 is a schematic side structural diagram of a stainless steel-based floating solar panel floating installation structure according to an embodiment of the present invention, FIG. 2 is a partial cross-sectional view of FIG. 1, FIG. 3 is an enlarged view of the main part of FIG. 2, FIG. 4 is a view of a state in which the angle of the solar panel is varied in FIG. 3, FIG. 5 is a view in which the stainless steel float is separated from FIG. 3, FIG. 6 is an enlarged view of the stainless steel float, FIG. 7 is a cross-sectional view of FIG. 7 is an exploded view, FIG. 9 is a cross-sectional view taken along line AA of FIG. 8, and FIG. 10 is a control block diagram of a stainless steel-based floating solar panel floating installation structure according to an embodiment of the present invention.

Referring to these drawings, the stainless steel-based floating solar panel floating installation structure 100 according to this embodiment can provide not only a stable installation of the solar panel 1 on the water surface, but also superior corrosion resistance than the prior art. to increase durability.

The stainless steel-based floating solar panel floating installation structure 100 according to this embodiment that can provide such an effect includes a structural base 110, and the following components are mounted on the structural base 110 by location. take the form to be In particular, since most of the stainless steel-based floating solar panel floating installation structure 100 according to this embodiment is made of a stainless steel-based material, it has high corrosion resistance and thus durability can be improved.

The structural base 110 is a plate made of a stainless steel-based material, and supports the solar panel 1 and the like. A ring portion 111 is formed on one side of the structure base 110 . The support line 113 is connected to the ring portion 111 .

The support line 113 has one end connected to the ring portion 111 of the structure base 110 and the other end is a line fixed to the bottom of the water, and supports the structure base 110 by hanging. That is, the support line 113 serves to hold the structure base 110 so that it does not float away.

A plurality of stainless steel floats 120 are detachably coupled to the structural base 110 . The stainless steel float 120 is detachably coupled to the structural base 110 , but serves to float components mounted on the structural base 110 including the structural base 110 . In particular, since the stainless steel floating body 120 is made of a stainless steel-based material, it has corrosion resistance and thus durability is increased. That is, it can be used semi-permanently.

The stainless steel floating body 120 has a screw portion 121a detachably coupled to the screw coupling portion 118 of the structural base 110 is formed on one outer surface, while the bulkhead body 121b is formed to protrude from the inner wall, , a stainless steel floating housing 121 having a cylindrical shape with one end open, and a stainless steel floating body 121 disposed inside the partition 121b in the stainless steel floating housing 121, together with the inner space of the partition 121b ( A rubber tube 122 that provides buoyancy to 120, a first airtight plate 123 disposed in the stainless steel floating housing 121 so that one side is in close contact with the bulkhead 121b, and a first airtight plate 123 and A second airtight plate 124 disposed in the stainless steel floating housing 121 to be spaced apart, and both ends are in the form of an open pipe, and both ends are disposed in contact with the first and second airtight plates 123 and 124, and the neighboring A plurality of buoyancy cans 125 disposed in contact with each other to provide buoyancy to the stainless steel floating body 120 , and the stainless steel floating housing 121 after being press-fitted into the stainless steel floating housing 121 in contact with the second airtight plate 124 . ) fixed to the inner wall, the pressure plate 126 for pressing the second airtight plate 124 toward the first airtight plate 123, and an opening formed at one end of the stainless steel floating housing 121 is arranged and welded to the stainless steel floating and a housing sealing cap 127 sealing the inside of the housing 121 .

At this time, the space portion 128 between the pressure plate 126 and the housing sealing cap 127 additionally provides a buoyancy force to the stainless steel floating body 120 .

As such, the stainless steel floating body 120 in which the rubber tube 122, the buoyancy cans 125, and the space portion 128 are provided in the stainless steel series can provide a strong buoyancy function due to its structural characteristics. have. In particular, since the stainless steel floating body 120 is made of a steel-based material, it has corrosion resistance and thus durability is increased. That is, it can be used semi-permanently.

The panel support 140 is provided on the upper part of the structural base 110 . The panel support 140 is made of a stainless steel-based material, and serves to detachably support at least one solar panel 1 that generates electricity using solar energy.

On one side of the panel support 140 , a rotation shaft center boss 141 forming a rotation shaft center of the panel support 140 is provided. In addition, a relative rotation boss 143 is provided on the other side of the panel support 140 . The rotation shaft center boss portion 141 and the large rotation boss portion 143 are similar in structure, but have different roles.

The bridge 142 is coupled to the rotation shaft center boss portion 141 . The bridge 142 is made of a stainless steel-based material, and one end is rotatably coupled to the rotation shaft center boss 141 , and the other end is a structure fixed to the structural base 110 . It can be applied in plurality.

An arc-type rack 145 is connected to the relative rotation boss 143 . The arc-shaped rack 145 has one end coupled to the relative rotation boss portion 143 to be relatively rotatable, and the other end forms a free end, but is formed in an arc shape. The arc-type rack 145 is also made of a stainless steel-based material.

A rack guide unit 116 is provided around the arc-shaped rack 145 . The rack guide unit 116 is made of a stainless steel-based material, is coupled to the structural base 110 , and serves to guide the curved movement of the arc-type rack 145 . To this end, a curved guide groove 116a is formed on the surface of the rack guide unit 116 . Accordingly, the arc-shaped rack 145 can be stably guided on the curved guide groove 116a of the rack guide unit 116 .

A panel angle control drive unit 150 is provided around the arc-type rack 145 . The panel angle control driving unit 150 is disposed at a corresponding position by a fixed support 115 having one end fixedly supported on the structural base 110 .

The panel angle control driving unit 150 is provided with a pinion 152 engaged with the inner circumferential surface of the arc-type rack 145, but by rotating the pinion 152 to move the arc-type rack 145, the angle of the solar panel 1 is driving means to be controlled??.

The panel angle control driving unit 150 is made of a stainless steel-based material, and is provided in a driving casing 151 with one side open to partially expose the pinion 152 , and provided in the driving casing 151 , the pinion 152 . ) is provided in the driving casing 151 adjacent to the motor 153 for generating a driving force for rotating the motor 153 in the forward and reverse directions, and stores electricity from the solar panel 1 side to drive the motor 153 . A battery 154 to make the motor 154, a driving pulley 155 coupled to the motor shaft of the motor 153, a driven pulley 156 coupled to the central shaft of the pinion 152, a driving pulley 155 and a driven pulley ( It may include a belt 157 connecting the 156 in a closed loop. Since only the pinion 152 is partially exposed, it is advantageous to protect other components.

On the other hand, in the stainless steel-based floating solar panel floating installation structure 100 according to the present embodiment, the solar panel 1 is controlled so as to receive a larger amount of sunlight by tracking the position of the sun. To this end, the sun position tracking unit 170 and the controller 180 are further provided.

The sun position tracking unit 170 is provided on one side of the panel support 140, and serves to track the position of the sun. The sun tracking unit 170 may be a single sensor, a combination of sensors, or a combination of several electronic components.

The controller 180 controls the operation of the motor 153 of the panel angle adjustment driving unit 150 as an organic mechanism so that the angle of the solar panel 1 is adjusted based on the information transmitted from the solar tracking unit 170 . That is, the angle of the solar panel 1 may be varied as shown in FIG. 3 or 4 by the control of the controller 180 . Therefore, it is possible to receive a larger amount of sunlight to generate electricity according to the position of the sun.

The controller 180 performing this role may include a central processing unit 181 (CPU), a memory 182 (MEMORY), and a support circuit 183 (SUPPORT CIRCUIT).

The central processing unit 181 organically controls the operation of the motor 153 of the panel angle adjustment driving unit 150 so that the angle of the solar panel 1 is adjusted based on the information transmitted from the solar position tracking unit 170 in this embodiment. It may be one of various computer processors that can be industrially applied to control the mechanism.

The memory 182 (MEMORY) is connected to the central processing unit (181). The memory 182 is a computer-readable recording medium, which may be installed locally or remotely, and may be easily available such as, for example, random access memory (RAM), ROM, floppy disk, hard disk, or any digital storage form. It may be at least one memory.

The support circuit 183 (SUPPORT CIRCUIT) is coupled to the central processing unit 181 to support typical operations of the processor. The support circuit 183 may include a cache, a power supply, a clock circuit, an input/output circuit, a subsystem, and the like.

In this embodiment, the controller 180 operates the motor 153 of the panel angle control driving unit 150 to adjust the angle of the solar panel 1 based on the information transmitted from the solar position tracking unit 170 as an organic mechanism. To control, such a series of control processes may be stored in the memory 182 . Typically, software routines may be stored in memory 182 . Software routines may also be stored or executed by other central processing units (not shown).

Although the process according to the present invention has been described as being executed by a software routine, it is also possible that at least some of the processes of the present invention are performed by hardware. As such, the processes of the present invention may be implemented in software executed on a computer system, implemented in hardware such as an integrated circuit, or implemented by a combination of software and hardware.

According to this embodiment, which acts based on the structure as described above, it is possible to stably install the solar panel 1 on the water surface, as well as provide superior corrosion resistance than the prior art, thereby increasing durability.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations fall within the scope of the claims of the present invention.

1: solar panel 100: floating installation structure
110: structure base 111: ring part
113: support line 115: fixed support
116: rack guide unit 116a: curved guide groove
118: threaded coupling part 120: stainless steel floating body
121: stainless steel floating housing 121a: threaded part
121b: bulkhead 122: rubber tube
123: first airtight plate 124: second airtight plate
125: buoyancy can 126: pressure plate
127: housing sealing cap 128: space part
140: panel support 141: rotation shaft center boss
142: bridge 143: relative rotation boss
145: arc-type rack 150: panel angle adjustment driving unit
151: drive casing 152: pinion
153: motor 154: battery
155: driving pulley 156: driven pulley
157: belt 170: sun tracking unit
180: controller

Claims (4)

a structural base made of a stainless steel-based material and having a ring portion formed on one side;
a plurality of stainless steel floats removably coupled to the structural base to float components mounted on the structural base, including the structural base, and made of a stainless steel-based material;
a panel support that is made of a stainless steel-based material and detachably supports at least one solar panel that generates electricity using solar energy;
a rotation shaft center boss coupled to one side of the panel support and forming a rotation shaft of the panel support;
a plurality of bridges made of a stainless steel-based material, one end rotatably coupled to the rotation shaft center boss portion and the other end fixed to the structural base;
a relative rotation boss coupled to the other side of the panel support;
An arc-type rack having one end coupled to the relative rotation boss so as to be rotatably coupled and the other end forming a free end in an arc shape, and made of a stainless steel-based material;
a rack guide unit made of a stainless steel-based material, coupled to the structural base, and guiding the curved movement of the arc-type rack;
a panel angle control driving unit having a pinion engaged with the inner circumferential surface of the arc-type rack but rotating the pinion to adjust the angle of the solar panel by moving the arc-type rack; and
and a fixed support for fixing and supporting the panel angle control driving unit to the structural base,
The panel angle adjustment driving unit,
a drive casing made of a stainless steel-based material, one side of which is opened so that the pinion is partially exposed;
a motor provided in the driving casing and generating a driving force for rotating the pinion in a forward and reverse direction;
a battery provided in the driving casing adjacent to the motor and configured to store electricity on the solar panel side to drive the motor;
a driving pulley coupled to the motor shaft of the motor;
a driven pulley coupled to the central axis of the pinion; and
and a belt connecting the driving pulley and the driven pulley in a closed loop,
The stainless steel float,
a stainless steel floating housing having a screw portion detachably coupled to the screw-type coupling portion of the structural base formed on one outer surface, while a bulkhead protruding from the inner wall, and forming a cylindrical shape with one end open;
a rubber tube disposed inside the bulkhead in the stainless steel floating housing and providing buoyancy to the stainless steel floating body together with an inner space of the bulkhead;
a first airtight plate having one side disposed in the stainless steel floating housing to be in close contact with the bulkhead;
a second airtight plate disposed in the stainless floating housing to be spaced apart from the first airtight plate;
a plurality of buoyancy cans having an open pipe shape at both ends and disposed in contact with the first and second airtight plates and adjacent to each other to provide buoyancy to the stainless steel floating body;
a pressure plate which is press-fitted into the stainless steel floating housing in contact with the second airtight plate and fixed to the inner wall of the stainless steel floating housing and presses the second airtight plate toward the first airtight plate; and
and a housing sealing cap for sealing the inside of the stainless steel floating housing by being welded with an opening formed at one end of the stainless steel floating housing,
A stainless steel-based floating solar panel floating installation structure, characterized in that the space between the pressure plate and the housing sealing cap additionally provides buoyancy to the stainless steel floating body.
According to claim 1,
One end is connected to the ring part of the structural base and the other end is fixed to the bottom of the water, and further comprises a support line for hanging and supporting the structural base,
A stainless steel-based floating solar panel floating installation structure, characterized in that a curved guide groove is formed on the surface of the arc-type rack.
According to claim 1,
a sun position tracking unit provided on one side of the panel support and tracking the position of the sun; and
Floating stainless steel-based floating solar panel, characterized in that it further comprises a controller for controlling the operation of the panel angle adjustment driving unit with an organic mechanism so that the angle of the solar panel is adjusted based on the information transmitted from the solar position tracking unit Expression installation structure.
delete

Images