KR101859171B1 - Solar power generation apparatus with drying fish - Google Patents

Abstract

A solar power generation apparatus for combined use for drying fish is disclosed. The solar power generation apparatus for combined use for drying fish according to a first embodiment of the present invention includes: a support structure including a plurality of vertical supporters, a plurality of horizontal supporters combined with the plurality of vertical supporters, and a fish drying space formed on a lower side thereof; a plurality of solar power generating units which are separated from each other in a north-south direction and arranged in parallel and include a plurality of solar cell panels arranged on the upper sides of the vertical supporters in an east-west direction in parallel and a plurality of sealing members provided between the solar cell panels; and a plurality of opening and closing units provided between the solar power generating units, arranged on the lower sides of the solar power generating units, and opening and closing a space between the adjacent solar power generating units. Accordingly, the present invention can provide a fish drying space on the lower side of the solar power generating unit while performing solar power generation.

Description

SOLAR POWER GENERATION APPARATUS WITH DRYING FISH

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a solar cell power generator combined with a fish dryer, and more particularly, to a solar cell power generator combined with a solar cell generator.

Generally, solar power generation is one of the power generation technologies by solar energy, and it is a power generation method that converts solar light energy into direct electric energy by using photoelectric converter called solar cell.

The solar cell refers to a device capable of converting solar energy into electric energy. When light of energy larger than the forbidden band width is irradiated to a semiconductor junction region having a PN junction surface, electrons and holes are generated, These electrons are transferred to an N-type semiconductor and holes are transferred to a P-type semiconductor to generate an electromotive force.

Such photovoltaic power generation using solar cells is attracting attention as an alternative energy source due to depletion of fossil fuel oil and global warming. In recent years, due to reduction of manufacturing cost and efficiency of solar cell devices, Is rapidly spreading.

However, the photovoltaic power generation using the solar cell requires a space for stably installing the solar cell, that is, a large-area installation site. In the case of the installation site, there is a limitation in that it can not be utilized for purposes other than solar power generation Is inherent.

In order to solve these shortcomings, we intend to increase the income of the farmers in parallel with the solar power generation, in parallel with the drying of the pomegranate, the early drying, and the drying of the pomegranate.

For example, in the mid-winter, when the snow is frozen in the freezing weather, the polished stones that have been dried repeatedly are called "Dae-tae", and Dae-tae breaks the stomach's stomach and removes the intestines and rinses them with sea water. From December to the beginning of April at a temperature of minus 15 degrees Celsius or more over 20 days.

However, the existing Hwangtaedejuk is exposed to nature, so the sun, wind, snow and rain are dried by the same conditions, especially snow and rain are the factors that degrade the quality of the hwangtae. In other words, when the snow melts and the outer surface of the crown froze, the crown of the crown would melt first and then become rotten, or the tail of the crown might be buried in the snow and become rotten. In addition, sunlight is also a condition that needs to be properly sunk because the temperature of the veil increases due to recent warming.

Accordingly, the present inventor has found that, in order to improve the farm income, the structure of the photovoltaic power generation system and the structure of the photovoltaic power generation system are improved so that the photovoltaic environment can be controlled in winter, Structures and devices.

Korean Registered Patent No. 10-1572188 (issued on November 26, 2015)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a photovoltaic power generation device capable of drying fish together with solar power generation by providing a drying space for drying fish below the solar power generation unit, will be.

According to an aspect of the present invention, there is provided a support structure comprising: a support structure having a plurality of vertical supports and a plurality of horizontal supports coupled to the plurality of vertical supports, A plurality of solar cells arranged in parallel to each other in the north-south direction and arranged side by side, a plurality of solar cells arranged in parallel in the east-west direction on top of the vertical supports, and a plurality of sealing members provided between the solar panels unit; And a plurality of solar power generating units provided between the solar power generating units and disposed below the solar power generating units A plurality of open / close units for opening and closing a space between adjacent solar power generating units can be provided.

The height of the vertical supports positioned at the north of the vertical supports supporting the both sides of the solar panels in the north and south directions of the solar panels is lower than the height of the vertical supports positioned at the south, .

Wherein the opening / closing unit includes a plurality of support bars coupled at both ends to the vertically arranged support rods arranged adjacent to each other and spaced apart from each other in the east-west direction and arranged side by side; And a shielding film supported by the supporting bars and opening and closing a space between the solar power generating units.

And the height of one end located on the south side of the support bars is higher than the height of the other end located on the north side of the support bars so that the support bars are inclined downward from the south side to the north side, Air vent holes may be formed between the shielding film and the solar power generation unit when the shielding film closes the space between the solar power generation units.

The shielding film is disposed on the supporting bars in a multi-stage folding manner so as to open a space between the solar power generating units and slide downward along the inclination direction of the supporting bars during rainfall or snowfall, Can be closed.

Wherein the opening / closing unit is provided at an upper end of the supporting bars and has a pipe shape arranged in the east-west direction, the rotating film being wound and unwound as the rotating membrane rotates to open / close a space between the solar power generating units; A battery connected to the solar power generation unit and storing electricity supplied from the solar power generation unit; And a driving motor connected to the battery to rotate the rotating roller.

A water collecting part for collecting rainwater or snow flowing down along the curtain wall and guiding the rainwater to the water storage tank when the curtain wall closes the space between the solar power generating units is provided in a lower portion of the lower end of the lower end of the supporting bars, As shown in FIG.

The heat collecting unit may further include a heat ray heater disposed in the collecting unit to prevent rain or snow from being generated in the winter season.

A plurality of solar cell panels mounted on a lower portion of the solar cell panel to support the solar cell panels and to increase the inclination of the solar cell panels by raising the solar cell panels when the snowcourses are snowing, Unit. ≪ / RTI >

The snow removal unit is provided between the vertical supports supporting the solar panels and the vertical supports supporting the solar panels, and the rod is connected to the lower surface of the solar panels, And may include an actuator.

Wherein the supporting bars are composed of a multi-stage folding type first multi-stage pipe interlocked with the actuator and having a length expanded and contracted with at least one pipe inserted therein, and a plurality of panel supporting bars And a second multi-stage pipe interlocked with the actuator and sliding in a state where at least one pipe is inserted and expanded and contracted.

The photovoltaic power generation unit may include at least one solar cell module having one end coupled to the lower end of the solar cell panels and the other end extending in the direction of the vertical supports located at the south of the vertical supports supporting the solar cell panels, And a plurality of multi-stage plates having a transparent or semi-transparent material, which are slidable and extended in a state in which one plate is inserted.

A plurality of the horizontal supports are coupled to the vertical supports in the north-south and east-west directions; And a plurality of second horizontal supports that are coupled to the lower side of the vertical supports in the north-south and east-west directions, and a deck to which the fish hangs on at least one of the plurality of first horizontal supports and the plurality of second horizontal supports, .

The sprinkler may further include a sprinkler spaced apart from the first horizontal supports to cultivate the crop in the crop cultivation space provided below the support structure.

The support structure may further include a ventilation net installed along a side surface of the support structure and opened and closed in a height direction.

Embodiments of the present invention can provide solar power generation by disposing a solar power generation unit on the upper part, and providing a fish drying space below the solar power generation unit.

Further, the embodiments of the present invention can prevent the deterioration of the drying quality of the fish from the rain and the snow during the fish drying by providing the opening / closing unit for opening and closing the space between the solar power generation units.

FIG. 1 is a side view showing a solar power generator combined with a fish for drying fish according to a first embodiment of the present invention.
FIG. 2 is a plan view showing a solar power generator combined with a fish according to the first embodiment of the present invention.
3 is an operational state diagram showing the operation of the opening and closing unit according to one embodiment.
4 is an operational state diagram showing the operation of the opening and closing unit according to another embodiment.
FIG. 5 is a side view showing a solar power generator combined with a fish according to a second embodiment of the present invention.
Fig. 6 and Fig. 7 are operational state diagrams showing the operation of the snow-on opening and closing unit and snow-removal unit according to the second embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Like reference symbols in the drawings denote like elements.

Hereinafter, a first embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a side view showing a solar cell power generator combined with a fish according to a first embodiment of the present invention, FIG. 2 is a plan view showing a solar cell power generator combined with a fish drying device according to a first embodiment of the present invention, 4 is an operational state diagram showing the operation of the snowfall-opening / closing unit according to the first embodiment of the present invention.

Referring to FIGS. 1 and 2, a solar cell power generator 100 according to a first embodiment of the present invention includes a support structure 120 and a support structure 120, which are spaced from each other in the north-south direction A plurality of solar power generation units 110 disposed in parallel to each other and a plurality of solar power generation units 110 provided on top of the support structure 120 and disposed between the solar power generation units 110 to open and close a space between the solar power generation units 110 And a plurality of opening / closing units (130).

The first embodiment of the present invention will be described in more detail with reference to the accompanying drawings. In the first embodiment of the present invention, a solar cell module 100 for drying and drying fish is provided with a plurality of solar power generation units 110 disposed above a support structure 120 to perform solar power generation, 120), and a space between the solar power generation units (110) is closed by a plurality of opening / closing units (130) during rainfall, and the drying quality of fishes such as pollack, Can be prevented.

The solar power generation unit 110 is installed at the upper portion of the support structure 120 in accordance with the direction, angle, and interval suitable for solar power generation. In this embodiment, the solar power generation units 110 are spaced apart from each other and disposed side by side on the upper side of the support structure 120.

2, in this embodiment, the solar power generation unit 110 includes a plurality of solar cell panels 111 arranged in parallel in the east-west direction, and a plurality of solar cells 111 provided between the solar cell panels 111 Member 113 and a plurality of plates 115 having one end coupled to the lower end of the solar cell panel 111 and the other end extended outward.

In this embodiment, the number of solar panels 111 constituting one solar power generation unit 110 can be changed in consideration of various factors such as the area and environment in which the solar power generation unit 110 is installed. The solar cell panel 111 refers to a single unit cell in which a plurality of solar cells are arranged in the horizontal and vertical directions and are electrically connected to each other.

A sealing member 113 is provided between the solar panels 111 to prevent rain or snow from falling down between the solar panels 111 during rainfall or snowfall. The sealing member 113 may be made of rubber, silicone, or Teflon, which prevents rain or snow from penetrating through the solar panels 111. [

The plate 115 is coupled to the lower end of the solar cell panel 111 and extends in the direction of the vertical support bars 121 located at the south of the vertical support bars 121 supporting the solar cell panel 111, It acts as a curtain for covering the eyes. The plate 115 may also be made of a transparent or translucent material for mining.

The support structure 120 according to the present embodiment serves to support the solar power generation unit 110. [

The support structure 120 supports the plurality of solar power generation units 110 in the air and provides a fish drying space for drying fish such as pollinosis, irritation and the like on the lower side of the plurality of solar power generation units 110. In addition, the support structure 120 can provide a crop cultivation space for growing crops in the lower part of the summer, in addition to a fish drying space for drying fish in the winter season.

The support structure 120 is formed to have sufficient space for humans and farm machinery to pass through when the fish is dried or cultivated on the underside. In this embodiment, the support structure 120 is shown as a quadrangular frame, but it is not limited thereto and may have various shapes such as a hexagonal frame, a circular frame, and the like.

The support structure 120 includes a plurality of vertical supports 121 and a plurality of horizontal supports 123, 124 coupled to the plurality of vertical supports 121. The plurality of vertical supports 121 and the horizontal supports 123 and 124 may be made of a stainless steel material having corrosion resistance.

The vertical supports 121 are spaced apart from one another in the north-south and east-west directions and arranged side by side, and the above-described solar power generation unit 110 is coupled to the upper portion of the vertical support 121.

The vertical supports 121 support both sides of the solar panels 111 in the north and south directions and support vertical sides 121 of the solar panels 111 in such a manner that the solar panels 111 are inclined downward from the north direction to the south direction. The height of the vertical supports 121 located at the north of the supports 121 is higher than the height of the vertical supports 121 located at the south. That is, the height of the vertical supports 121 supporting the both sides of the solar panels 111 in the north and south directions is different, so that the solar panels 111 are inclined downward from the north direction to the south direction.

A plurality of panel support bars 125 may be further provided at the upper ends of the vertical supports 121 for supporting the solar panels 111, to support the lower surfaces of the solar panels 111. Both ends of the panel support bar 125 are coupled to the upper ends of the vertical supports 121 supporting the solar panels 111. The plurality of panel support bars 125 are spaced apart from each other in the east-west direction and arranged in parallel to support the lower surface of the solar cell panels 111.

The horizontal supports 123 and 124 include a plurality of first horizontal supports 123 coupled to the upper side of the vertical supports 121 in the north and south and east and west directions, And a plurality of second horizontal supports 124 that are suspended.

The first horizontal supports 123 and the second horizontal supports 124 are coupled to the vertical supports 121 to support the vertical supports 121 supporting the solar power generation units 110 in a horizontal direction.

The first horizontal supports 123 may be mounted with a plurality of upper decks D1 for hanging the fish when the fish is dried. When a plurality of upper ducts D1 are mounted on the first horizontal supports 123 and the heat generated in the process of power generation of the solar power generation units 110 arranged on the upper part is absorbed by the upper ducts D1, The first horizontal supports 123 are spaced apart from the solar power generating units 110 disposed at the upper portion by a predetermined distance.

In addition, a plurality of lower ducts (D2) for hanging fish at the time of drying the fish can be mounted on the second horizontal supports (124). The second horizontal support rods 124 are spaced apart from the first horizontal support rods 123 disposed at an upper portion.

In the case of cultivating crops or the like between the second horizontal supports 124, passageways through which people and agricultural machinery can pass can be provided.

In this embodiment, the upper deck D1 and the lower deck D2, which are mounted on the first horizontal supports 123 and the second horizontal supports 124, Vertical supports, horizontal supports and buckets of material can be used. Conventionally, the vine structure of wood is exposed to nature and has a problem of rotting by rain or snow. Thus, in order to maintain the use period of the vine structure for 10 years or more, the vine structure And then re-installed the structure of the fish when the fish was dried again. Therefore, there is a problem in that it takes a lot of cost to install and dismantle the varnish structure of wooden material. Accordingly, if the support structure 120 according to the present embodiment is replaced with a conventional structure, the cost required for installing and demounting the existing structure can be reduced.

As described above, the support structure 120 is manufactured in such a manner that all the openings are opened using a plurality of vertical supports 121 and horizontal supports 123 and 124 to enable sufficient ventilation in the course of drying the fish and cultivating the crops.

The support structure 120 may further include a sprinkler 150 spaced apart from the first horizontal supports 123 so that crops can be cultivated in the crop production space when the crops are grown under the support structure 120. Water stored in the water reservoir provided at one side of the support structure 120 can be supplied to the sprinkler 150 through a pump (not shown). At this time, the water can be stored in the water reservoir (not shown) through the water collecting unit 140, which will be described later.

In the meantime, in the case of drying fish or cultivating crops on the lower side of the supporting structure 120, the harmful fresh water is supplied to the inside of the supporting structure 120 The support structure 120 may include a support structure 160 that extends along a side surface of the support structure 120 to prevent the support structure 120 from entering the support structure 120. [

The barrier 160 is installed along the side surface of the support structure 120 and can be opened or closed in a height direction and can use a net or the like. Vinyl or tarpaulins can be used for temperature control and pest control, But is not limited thereto. Although not shown, a first driving motor (not shown) is provided to rotate the first rotating roller (not shown) and the first rotating roller around which the wire 160 is wound to open / close the wire 160 in the height direction .

The opening and closing unit 130 according to the present embodiment is disposed between the solar power generating units 110 and serves to open and close the space between the solar power generating units 110 during rainfall or snowfall. Further, the opening and closing unit 130 is provided between the solar power generating units 110 and disposed below the solar power generating units 110. [

The opening and closing unit 130 includes a plurality of support bars 131 at both ends of which are connected to adjacent vertical supports 121 and support bars 131 supported by the solar power generating units 110 And a shielding film 133 for opening and closing a space between the electrodes.

The support bars 131 are provided between the solar power generation units 110 and are spaced apart from each other in the east-west direction and arranged in parallel to support the thin film 133. [

Particularly, the supporting bars 131 are arranged to be inclined downward from the south to the north so that the rainwater flows down along the curtain wall 133 at the time of rainfall. The height of one end located on the south side of the support bars 131 is higher than the height of the other end located on the north side of the support bars 131. [

Also, the support bar 131 and the solar power generation unit 110 are arranged to be spaced apart from each other in the height direction. That is, the support bar 131 is positioned below the solar power generation unit 110. The supporting bar 131 and the solar power generating unit 110 are spaced apart from each other in the height direction so that the air ventilation hole H is formed between the shielding film 133 and the solar power generating unit 110. [ An air ventilation hole H is formed between the shielding film 133 and the solar power generation unit 110 even when the shielding film 133 closes the space between the solar power generation units 110. [ Therefore, hot air generated from the lower side of the support structure 120 is discharged through the air ventilation hole H naturally without a separate ventilation device along the inclination angle of the solar power generation unit 110. At this time, the north end of the solar power generation unit 110 is longer than the south end of the curtain 133 so that rainwater can not enter the air vent hole H.

The curtain film 133 according to the present embodiment may be made of a tarpaulin or transparent vinyl. However, the scope of the present invention is not limited thereto, and the present invention is not limited thereto, and the rainwater or snow can be prevented from falling down during rainfall or snowfall. Either can be used.

The shielding film 133 may be formed so as to allow rainwater or snow falling directly above to flow to the collecting part 140 to be described later or rainwater or snow flowing down along the solar power generating units 110, To the collecting part 140 to be described later.

Referring to FIG. 3, the shielding film 133 according to one embodiment is disposed on the upper portion of the support bars 131 and is formed in a multi-stage folding structure. In addition, the curtain 133 according to one embodiment can be slid upward and downward along the inclination direction of the support bars 131. The pair of rollers R1 and R2 are provided on the upper and lower ends of the support bar 131 to cover and wind the first wire 134 connected to the end of the barrier membrane 133, Thereby causing the support bar 131 to slide and reciprocate along the oblique direction.

Also, a pipe (not shown) is coupled to the lower end of the curtain wall 133 in the east-west direction so that the curtain wall 133 can be kept flat without being wrinkled by the weight of the pipe.

More specifically, as shown in FIG. 3 (a), when there is no rain or snow, the curtain film 133 is provided at the upper end of the support bars 131 in a folded state, and as shown in FIG. 3 (b) The shielding film 133 is slid downward along the oblique direction of the support bars 131 so that the gap between the solar power generating units 110 And closes the space between the solar power generation units 110 to prevent rain or snow falling into the space.

Referring to FIG. 4, the curtain film 133 according to another embodiment can be opened and closed in the space between the solar power generation units 110 as it is wound and unwound while being wound around the rotating roller.

The opening and closing unit 130 is provided at the lower end of the support bars 131 and includes a second rotating roller 135 provided at the upper end of the supporting bars 131 and wound and wound around the curtain 133, A third rotating roller 137 around which a second wire 138 connected to an end of the curtain wall 133 is wound and unwound and a third rotating roller 137 connected to the solar power generating unit 110 to supply electricity supplied from the solar power generating unit 110 (Not shown) for accumulating electricity, and a second driving motor (not shown) connected to the accumulator to rotate the second rotating roller 135. A pipe (not shown) is coupled to the lower end of the curling film 133 in the east-west direction while omitting the third rotating roller 137 so that the curtain film 133 can be kept flat without being wrinkled by the weight of the pipe .

The second rotating roller 135 is disposed in the east-west direction and has a pipe shape in which the curtain wall 133 is wound. When the rotating curtain 133 rotates, the curtain wall 133 is wound and unwound to open and close the space between the solar power generating units 110 . A second wire 138 connected to the third rotating roller 137 and connected to the end of the curtain 133 is wound and unwound and the curtain film 133 is wound on the second rotating roller 135, 133) to remain flat.

At this time, the second driving motor is connected to the second rotating roller 135 so as to control the rotation of the second rotating roller 135, and the second driving motor is connected to the accumulator to receive electricity.

Specifically, as shown in Fig. 4 (a), when there is no rain or snow, the curling film 133 is wound on the second rotating roller 135 and provided at the upper end of the supporting bars 131, When the rain or snow comes in, the curtain 133 is pulled up by the second rotating roller 135 and slides downward along the inclination direction of the support bars 131, so that the distance between the solar power generating units 110 And closes the space between the solar power generation units 110 to prevent rain or snow from falling into the space of the solar power generating unit 110.

4, although the operation of the shielding film 133 is not shown at the time of snowfall, it is possible to prevent the snow from falling down between the solar power generating units 110 at the time of snowfall using the shielding film 133 described above, On the other hand, in order to prevent collapse of the shielding film 133 due to the weight of the snow when the amount of snowfall is large, snow may be dropped between the solar power generating units 110 in a state where the solar power generating units 110 are opened can do. At this time, the space between the solar power generation units 110 is generally used as a passage to minimize the exposure to the snow, since the fish such as pollinators, silkworms and the like are not suspended.

As described above, the rainwater or snow flows downward along the curtain wall 133 during rainfall or snowfall. At this time, when the rainwater or snow flowing along the curtain 133 falls down to the supporting structure 120, the rainwater or the snow may adhere to the fish being dried and the quality of the dried fish may be deteriorated.

Accordingly, the solar cell power generator 100 according to the first embodiment of the present invention further includes a collecting part 140 collecting rainwater or snow flowing down along the curtain 133 at the time of rainfall or snowfall .

The collecting part 140 is provided in a lower part of the lower end of the support bars 131 in the east-west direction so as to flow along the covering film 133 when the covering film 133 closes the space between the solar power generating units 110 Collect rainwater or snow that falls. The rainwater or snow collected in the catching part 140 is guided to the water storage tank along the drainage path.

When the shielding film 133 is slid downward along the support bars 131 to close the space between the solar power generating units 110, the catching part 140 is positioned at the lower end of the shielding film 133 . And is formed in a concave groove shape so as to collect rainwater or snow flowing down along the curtain film 133.

Meanwhile, in this embodiment, the wire heater 141 may be provided on the collecting part 140 to prevent rainwater or snow collected in the collecting part 140 from freezing in the winter season. The hot wire heater 141 receives power from the above-described battery and heats the inside of the water collecting part 140 based on the ambient temperature measured by a temperature sensor (not shown) installed in the supporting structure 120.

Hereinafter, a solar cell generator 100a according to a second embodiment of the present invention will be described.

FIG. 5 is a side view showing a solar power generator combined with a fish drying apparatus according to a second embodiment of the present invention, and FIGS. 6 and 7 are views showing the operation of the snow removal opening and closing unit and snow removal unit according to the second embodiment of the present invention Fig.

5 to 7, a solar cell module 100a for drying fish and a fish according to a second embodiment of the present invention includes a support structure 120a and an upper portion of the support structure 120a, A plurality of solar power generation units 110a disposed in parallel to each other and a plurality of solar power generation units 110a provided on top of the support structure 120a and disposed between the solar power generation units 110a, A sprinkler 150a provided on the support structure 120a and a ventilation network 160a installed along the side surface of the support structure 120a. And a snow removing unit 170a which is provided below the solar panels 111a and slopes the solar panels 111a when the snow falls to drop snow drops accumulated on the solar panels 111a downward.

The supporting structure 120a, the solar power generation unit 110a, the opening and closing unit 130a, the water collecting part 140a, and the sprinkler (not shown) constituting the solar cell 100a together with the fish drying device according to the second embodiment of the present invention 150a and 160a are connected to the supporting structure 120, the solar power generating unit 110, the opening and closing unit 130, and the air conditioning unit 130, which constitute the solar cell 100 for combined use with the fish according to the first embodiment of the present invention, The water collecting part 140, the sprinkler 150, and the waterproofing mesh 160, and therefore, the difference will be described below.

The solar cell generator 100a combined with the fish drying apparatus 100a according to the second embodiment of the present invention is constructed such that the supporting structure 120a or the solar power generating unit 110a is driven by the weight of the snow accumulated on the solar cell panels 111a, And a snow removing unit 170a for solving the problem of being damaged.

The snow removing unit 170a according to the present embodiment is provided below the solar panels 111a to increase the degree of inclination of the solar panels 111a during snowfall to make snow accumulated on the solar panels 111a fall downward It plays a role.

The snow removing unit 170a is provided below the solar panels 111a and elevates one side of the solar panels 111a to increase the inclination of the solar panels 111a. As the inclination of the solar panels 111a increases, the snow accumulated on the solar panels 111a falls downward along the solar panels 111a due to its own weight and is removed. For example, the solar panels 111a normally generate solar power while maintaining an inclination of 20 to 30 degrees, and the snow removing unit 170a when the snow is in the snow causes the solar panels 111a to be inclined at about 60 degrees, The snow piled up on the snow falls downward.

The snow removing unit 170a according to the present embodiment includes a multi-stage folding type actuator 170a, which is slidable and extended in a state where at least one rod is inserted. The actuator 170a is provided between the vertical supports 121a located at the north of the vertical supports 121a supporting the solar panels 111a and the solar panels 111a, 111a.

The rod end of the actuator 170a is hinged to the panel support bar 125a supporting the solar panels 111a and the inclination of the solar panels 111a is adjusted according to the expansion and contraction of the actuator 170a.

Also, when the degree of inclination of the solar cell panels 111a is increased, the supporting bars 131a supporting the lower surface of the curtain wall 133a should be extended as the degree of inclination of the solar cell panels 111a is increased.

In this embodiment, the supporting bars 131a may be constructed of a multi-stage folding type first multi-stage pipe which is slidable in a state where at least one pipe is inserted and expanded and contracted. When the rod of the actuator 170a is extended in the height direction, the first multi-stage pipe 131a is also extended to the actuator 170a.

In addition, when the rod of the actuator 170a is extended in the height direction, a plurality of panel support bars 125a supporting the lower surface of the solar cell panels 111a should be extended together. To this end, the panel support bars 125a may be formed of a multi-stage folding type second multi-stage pipe, which is slidably extended and extended in a state where at least one pipe is inserted. Likewise, when the rod of the actuator 170a is elongated and the rod of the actuator 170a and the first multi-stage pipe 131a are elongated, the second multi-stage pipe 125a is also interlocked and extended together.

Also, in this embodiment, when the inclination of the solar panels 111a is increased as the rod of the actuator 170a is extended, the inclination of the first multi-stage pipes 131a also increases, Both ends of the second multistage pipes 125a are hinged to the rods of the vertical supports 121a and the actuators 170a respectively and the inclination degrees of the second multistage pipes 125a are also increased so that both ends of the second multistage pipes 125a are connected to the actuators 170a and the vertical supports 121a, respectively.

6, when the rods of the actuators 170a are elongated at the time of heavy snow to increase the degree of inclination of the solar cell panels 111a and the shielding films 133a, the solar cell panels 111a and the shielding films 133a The accumulated snow drops downward along the solar panels 111a and the curtain wall 133a and is collected in the catching part 140a and the snow collected in the catching part 140a is melted by the heater 141a, To the water tank.

However, as shown in FIG. 7, the support structures 120a and the solar power generation units 110a may be damaged due to the weight of snow accumulated in the solar panels 111a and the shielding films 133a due to continuous snowfall The snow piled up on the solar panels 111a by the snow removing unit 170a falls downward and the curtains 133a are wound on the second rotating rollers 135a so that the snow falls down to the ground As shown in Fig. Therefore, the snow accumulated on the upper surface of the solar cell panels 111a falls from the upper surface of the solar cell panels 111a into the space between the solar cell power generation units 110a.

When the inclination of the solar panels 111a is increased by the snow removing unit 170a as described above, the second multi-stage pipes 125a constituting the panel supporting bars 125a supporting the lower surfaces of the solar panels 111a Lt; / RTI > Thus, the snow may fall between the vertical supports 121a located on the south of the vertical supports 121a supporting the lower ends of the solar panels 111a and the solar panels 111a.

Therefore, in this embodiment, the solar cell power generation unit 110a has a structure in which one end is coupled to the lower end of the solar cell panel 111a and the other end is extended to the outside, and the vertical support posts 121a supporting the solar cell panels 111a And a plurality of multi-stage plates 115a coupled to the vertical supports 121a located at the lower ends of the upper and lower plates.

The multi-stage plate 115a may be configured such that at least one plate is inserted and extended in a state that the plate is inserted. The second multistage pipe 125a supporting the lower surface of the solar cell panels 111a is extended when the inclination degree of the solar panels 111a is increased by the operation of the actuator 170a, So that the multi-stage plate 115a is also extended. This prevents the snow from falling down between the vertical supports 121a located on the south of the vertical supports 121a supporting the lower ends of the solar panels 111a and the solar panels 111a.

And the multistage plate 115a may be made of a transparent or translucent material for mining.

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. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100, 100a: a combined solar power generation device 110, 100a: a solar power generation unit
111, 111a: solar cell panel 113: sealing member
115: Plate 115a: Multistage plate
120, 120a: Support structure 121, 121a: Vertical support
123, 123a: a first horizontal support 124, 124a: a second horizontal support
125, 125a: panel support bar 130, 130a: opening /
131, 131a: support bars 133, 133a:
134: first wire 135, 135a: second rotating roller
137, 137a: third rotating roller 138, 138a: second wire
140, 140a: collecting part 141, 141a: heat wire heater
150, 150a: sprinkler 160, 160a:
170a: snow removal unit H: air vent hole

Claims (15)

A support structure having a plurality of vertical supports and a plurality of horizontal supports coupled to the plurality of vertical supports, wherein the support structure forms a fish drying space at a lower side;
A solar cell module comprising a plurality of solar panels and a plurality of sealing members provided between the solar panels, wherein the vertical supports are arranged on top of the vertical supports and are spaced apart from each other in the north-south direction, A plurality of solar power generating units arranged at a height higher than the vertical supports positioned at the middle in the north and inclined downward in the south direction from the north;
A plurality of vertically arranged vertical supporting rods disposed at a height higher than the height of the other end positioned at the south so as to be inclined downward from the south to the north direction, A shielding film which is supported by the support bars and the support bars and which closes the space between the adjacent solar power generation units so as to prevent rainwater or snow from falling into the space between the solar power generation units at the time of rainfall or snowfall A plurality of opening / closing units provided between the adjacent solar power generating units and spaced apart from the lower side of the solar power generating units;
A water collecting part for collecting rainwater or snow flowing down along the curtain wall and guiding the water to the water storage tank when the curtain wall closes the space between the solar power generating units is provided in a lower portion of a lower end of the lower end of the supporting bars, ; And
The solar cell module according to any one of claims 1 to 3, further comprising: a plurality of vertical support rods supported on the solar cell panels, And a snow removing unit having a multi-stage folding type actuator for dropping snow accumulated on the solar cell panels downward along the solar cell panels by their own weight by increasing the inclination of the solar cell panels,
Wherein the supporting bars are composed of a multi-stage folding type first multi-stage pipe interlocked with the actuator and elongated and contracted,
A plurality of panel support bars coupled to upper ends of the vertical supports for supporting the solar panels and supporting lower surfaces of the solar panels are connected to the actuator, And a solar cell unit for drying the fish. The method according to claim 1,
Wherein the support bars and the solar power generation units are spaced apart from each other in the height direction so that an air vent hole is formed between the shielding film and the solar power generation unit when the shielding film closes the space between the solar power generation units Photovoltaic device for combined use with fish drying. 3. The method of claim 2,
The shielding film is disposed on the supporting bars in a multi-stage folding manner so as to open a space between the solar power generating units and slide downward along the inclination direction of the supporting bars during rainfall or snowfall, The solar power generator combined with the fish to close the space of the fish. 3. The method of claim 2,
The opening /
A rotary roller provided at an upper end of the support bars and having a pipe shape arranged in the east-west direction and winding and winding the thin film as it is rotated to open and close a space between the solar power generation units;
A battery connected to the solar power generation unit and storing electricity supplied from the solar power generation unit; And
And a driving motor connected to the accumulator to rotate the rotating roller. The method according to claim 1,
Further comprising a heat ray heater provided in the water collecting unit to prevent rain or snow from being frozen during the winter season. The method according to claim 1,
In the solar power generation unit,
Wherein one end is coupled to the lower end of the solar cell panels and the other end is extended in the direction of the vertical supports located on the south side of the vertical supports supporting the solar cell panels and interlocked with the actuators, Further comprising a plurality of multi-stage plates having a transparent or semi-transparent material which is slidable in a state of being stretched and contracted in a state where the multi-stage plate is stretched. The method according to claim 1,
A plurality of said horizontal supports,
A plurality of first horizontal supports coupled to the upper side of the vertical supports in the north-south and east-west directions to suspend the fish; And
And a plurality of second horizontal supports coupled to the lower side of the vertical supports in the north-south and east-west directions to suspend the fishes,
A plurality of buckets hanging fish on at least one of a plurality of the first horizontal supports and the plurality of second horizontal supports are mounted. 8. The method of claim 7,
Further comprising a sprinkler installed at the first horizontal supports to be spaced apart from each other so as to cultivate crops in a crop cultivation space provided below the support structure. The method according to claim 1,
Further comprising a ventilating network installed along a side surface of the supporting structure and opened / closed in a height direction. delete delete delete delete delete delete

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