KR102011292B1 - Greenhouse for solar cell installation - Google Patents

Abstract

The present invention can be easily coupled to the frame of the greenhouse house by combining the solar cell in the main body, the solar cell installation greenhouse to install the solar cell directly on the frame of the greenhouse house to drive the electric appliance with power generated through solar light Regarding a house, the frame includes a greenhouse house that is framed and fixed to form a frame, and is installed in a space between frames formed on an upper side of the greenhouse house frame, and fixed to the frame; A solar cell unit coupled to the inside of the main body and generating power through sunlight and made of a transparent material; Coupled to the upper and lower side of the main body and the support for supporting and fixing the solar cell unit and a fixed portion formed on the outside of the main body is coupled to the frame to secure the main body to the frame, which is installed instead of vinyl on the upper part of the greenhouse house Power generation through the solar cell unit is characterized in that to drive the electrical equipment installed in the greenhouse house.

Description

Greenhouse for solar cell installation

The present invention relates to a greenhouse house for solar cell installation, and more particularly, it can be easily coupled to the frame of the greenhouse house by combining the solar cell to the body, the solar cell directly installed in the frame of the greenhouse house through the sunlight The present invention relates to a greenhouse house for solar cell installation that drives an electric appliance with a generated power source.

In general, a plastic house is a greenhouse made for growing crops such as vegetables, horticulture and fruits, or raising livestock such as chickens and cattle. By keeping the inside of the greenhouse at a certain temperature, the green house grows necessary crops or raises livestock. In particular, the cultivation of crops using vinyl houses is proposed as a way to overcome the weak natural environment, such as the benefits of temperature control and protection from external pests, and the number of farms installed is increased based on the usefulness of management. There is a trend.

In addition, it is true that the cultivation of the plastic house is more effective to produce various fruits and crops regardless of the season. Recently, the hydroponic cultivation method, which excludes the use of pesticides, has been spread, and the above-mentioned vinyl house cultivation has various functions including seed germination to growth by a pollution-free method beyond simple cultivation using farmland.

Green house uses heating device that uses electric heater or fossil fuel inside the house as a heating method to maintain proper temperature for cultivation of crops. In such a conventional heating apparatus, the electric heater is increasing the economic burden due to the increase in the electricity bill according to the power consumption. As a countermeasure, a heating device using low-cost fossil fuel is used, but a heating device using fossil fuel may cause a fire, so special care is required.

In addition to the heating problem, it is important to manage the damage of the plastic house against winter snowfall. In other words, when snow comes in winter and snow accumulates on the roof of the plastic house, it is very difficult to remove it, and it takes a lot of time to remove the accumulated snow. If the snowfall per hour increases sharply, the weight of the snow will damage the plastic house, and the crops will be cold. Especially in the case of heavy snowfall at night and a rapid decrease in outside temperature, damage and problems to the plastic house can be more serious.

Therefore, the conventional vinyl house has an increased cost and risk of fire due to the use of electric heaters or fossil fuels, and there is a lack of preparation for damage to the plastic house due to heavy snowfall. In addition to the increase in the cost of maintenance, there was a problem that causes a huge loss due to secondary damage through the cold of the crop.

In order to solve this problem, Patent Literature 1 installs a solar cell array on the roof of a vinyl house, supplies light through LED lighting inside the skylight, heats the inside of the plastic house through a planar heating element, and solar cells. A configuration is described for melting snow that has accumulated on the surface of the array.

However, the patent document 1, because the solar cell array is installed in a semi-circular form, it must be installed at the correct position when installing it in the frame of the vinyl house, and when the replacement is difficult to access the replacement site, the replacement is difficult, and due to the characteristics of the solar cell array Since it does not penetrate, the LED light must always be turned on inside, which causes a problem of increasing maintenance costs due to replacement of the LED light.

1. Korean Unexamined Patent Publication No. 10-2013-0030158 (March 26, 2013)

The present invention is to solve the problems as described above to modularize the main body to which the solar cells are coupled to be easily coupled to the frame, and to maintain the illuminance inside the plastic house by forming a grid or stripes to transmit the solar cells In order to provide a greenhouse house for solar cell installation, solar cells are operated to operate electrical appliances inside the greenhouse house.

The greenhouse house for solar cell installation according to the present invention for solving the above problems is installed in the space between the frame (1) formed on the upper side of the greenhouse house frame, the body (10) fixed to the frame; A solar cell unit coupled to the inside of the main body 10 to generate power through sunlight and to transmit some or all of external light; Is coupled to the upper and lower side of the main body includes a support for supporting and fixing the solar cell unit and a fixing portion formed on the outside of the main body is coupled to the frame to secure the main body to the frame, the solar cell unit on the top of the greenhouse house Easy to fix the combined body, characterized in that to prevent the fall of the solar cell unit.

The main body is formed in a rectangular or polygonal frame shape with an inner opening, and is composed of an upper portion and a lower portion, a solar cell portion is coupled between the upper portion and the lower portion, a plurality of fixing portions are formed on the outer side of the upper portion, and are formed separately on the lower portion. It is characterized in that the coupling groove is formed is coupled to the lower fixing portion.

The main body is coupled to the frame is coupled to the slide is coupled to the main body is coupled, characterized in that the slide body is formed so as to slide and coupled to the slide on the outer surface of the main body.

The solar cell unit is coupled to the inside of the main body, the first protective plate formed in a plate shape made of a transparent material; And a second protective plate in close contact with one surface of the first protective plate and formed in a plate shape to be transparent, and a second protective plate in close contact with one surface of the panel and made of a transparent material.

The panel may be any one of a dye-sensitized solar cell or a thin film solar cell.

A breakage preventing elastic body is interposed between the body and the frame.

One or both sides of the main body is characterized in that the protective panel for protecting the solar cell unit is coupled.

The present invention is coupled to the main body of the solar cell module and coupled to the frame of the greenhouse house, it is easy to install, the solar cell is coupled to the main body in the arch shape to prevent the fall, the state of the solar cell is maintained Since it is installed as a solar light is irradiated to the plant there is an advantage that does not need a separate space for installing a solar cell.

In addition, the solar cell is also generated through the light of the electric appliance in the greenhouse house, so it generates electricity even at night or cloudy days, so that only a small amount of electricity is used to save electricity.

1 is a view showing that the main body coupled to the solar cell unit is coupled to the frame forming a frame of the greenhouse house for solar cell installation according to an embodiment of the present invention.
2 is a view showing that the frame and the main body of the greenhouse house for solar cell installation according to the present invention is combined.
Figure 3 is a side cross-sectional view showing that the frame and the main body of the greenhouse house installation solar cell according to the invention.
Figure 4 is a view showing that the main body of the greenhouse house for solar cell installation according to the invention is coupled to the frame through the slide portion.
Figure 5 is a side cross-sectional view showing that the main body and the slide portion and the frame of the greenhouse house installation solar cell according to the present invention.
6 is a view showing that the main body and the slide unit of the greenhouse house for installing a solar cell according to the present invention.
7 is a cross-sectional view showing the main body and the slave unit of the greenhouse house for solar cell installation according to the present invention.

Hereinafter, specific embodiments for the practice of the present invention will be described with reference to the drawings. Embodiments of the present invention are intended to illustrate one invention, and the scope of the present invention is not limited to the illustrated embodiments, and the illustrated drawings are only limited to the drawings because only the essential contents are enlarged and additionally omitted for clarity of the invention. It is not to be interpreted.

1 is a view showing that the main body 10 is coupled to the frame 1 constituting the frame of the greenhouse house installation solar cell according to an embodiment of the present invention, the frame 1 constituting the frame of the greenhouse house is combined A main body 10 installed in the space above the greenhouse house frame to be coupled to the frame 1 and having an inner side opened; A solar cell unit 20 coupled to the inner side of the main body to generate power through sunlight; Is coupled to the upper and lower sides of the body is composed of a support 30 for fixing the solar cell portion and the fixing portion 40 is formed on the outside of the main body to fix the main body to the frame.

2 is a view showing that the frame 1 and the main body 10 of the solar cell installation greenhouse house according to the present invention is coupled, Figure 3 is that the frame and the main body of the greenhouse house installation solar cell according to the present invention is combined Side cross-sectional view shown.

As shown in FIG. 2, the main body 10 has a rectangular or polygonal frame shape with an inner opening, and includes an upper portion 11 and a lower portion 12, and a solar cell unit 20 between the upper portion and the lower portion. Is combined.

A plurality of fixing parts 40 are formed outside the upper part of the main body to fix the main body to the frame, and a lower fixing part 40a, which is formed separately by forming a coupling groove 13 inside the lower part, is coupled to the lower part. The main body is fixed to the frame through the lower fixing part.

As shown in FIG. 3, the lower fixing part 40a formed to be coupled to the lower side of the main body is formed in a 'c' shape, and the upper side is coupled to the coupling groove 13, and the lower side is formed longer than the upper side. Is coupled to the underside of the frame.

The first protective plate 21 is coupled to one surface of the main body to which the solar cell unit is coupled to a position spaced apart from the second protective plate 23 of the solar cell unit. That is, the protection panel for protecting the solar cell unit may be further coupled to the surface of the body.

The protective panel is formed in a plate shape made of a transparent plastic material of a transparent material.

The main body has an elastic body interposed between the frame and the frame to prevent the frame and the main body from being damaged due to friction, and the frame and the main body are sealed to prevent external moisture or foreign substances from entering the greenhouse house.

The main body is coupled to the support 30 for pressing and supporting the solar cell unit on both sides.

The support is made of a transparent material or a translucent material, and is composed of a first support for supporting the lower side of the solar cell unit, and a second support for pressing and fixing the upper side of the solar cell unit.

When the second support is coupled to the main body is pulled and coupled to the main body is pressed while pressing the solar cell unit 20 from the upper side.

4 is a view showing that the main body of the solar cell installation greenhouse house according to the present invention is coupled to the frame through the slide unit, Figure 5 is that the main body of the solar cell installation greenhouse house according to the present invention and the slide unit and the frame is combined Side cross-sectional view shown.

As shown in FIG. 4, the frame to which the main body is coupled may be coupled to a slide portion 2 to which the main body is slid, and the slide body 14 is slid to the slide portion 2 on the outer side of the main body. ) May be formed and combined with the slide unit.

The slide unit 2 is installed in an upper space where the frames are cross-coupled to each other, and the inner body 50 is coupled to the frame and coupled to the inside of the outer body so that one side is lifted to form an insertion groove to which the main body is coupled. 60).

As illustrated in FIG. 5, the outer body 50 is formed in the same shape as the space between the frames so as to be coupled to the space formed between the frames, and is fixed to the frame by being formed in a frame shape in which the inside is opened, and the inner body 60 is coupled thereto. The guide groove 51 is formed so that the inner body slides diagonally from the upper side to be coupled to the inner side, and the inner body is inserted into the inlet side of the guide groove, and a preventive body is formed into the outer body through the elastic body so as not to be separated.

The inner body 60 is formed with a guide body that is inserted into the guide groove 51 slides on the outer side, the guide body located on both sides of one side is formed in a plate shape so that one side can be lifted arbitrarily one side is coupled to the inner body Rotated, the other side is coupled to the guide groove of the outer body is guided when the inner body is elevated so that one side of the inner body can be elevated.

When the inner body is coupled to the outer body, the body may be fixed through a fixing member configured separately after being coupled to the inner body so that the inner body is not separated from the outer body.

Insertion groove 61 of the inner body is formed, the inner side of the insertion groove is formed with a slide groove 62 to be inserted by sliding the main body from one side to the other side can be coupled to the main body, can be coupled from the upper side It may be formed so as to.

When the insertion groove of the inner body is formed from one side to the other side, the main body may be fixed by fixing members such as a fixing pin or a screw to be fixed after being inserted into the main body, and the main body is inserted when the insertion groove is formed on the upper side of the inner body. The upper side of the body and the upper side of the inner body may be fixed through a separate fastener to be fixed after being inserted into the groove, or may be fixed to the inner body by forming a fixing part on the outer side of the main body.

The solar cell unit coupled to the main body is formed in a plate shape to be in close contact with the first protective plate 21 made of a transparent material, the first protective plate 21 is formed in a plate shape and is formed in a transparent plate shape and transparent to one surface of the panel. And a second protective plate 23 formed in a plate shape and made of a transparent material.

The first protective plate and the second protective plate are made of a transparent plastic material.

One surface of the second protection plate may be coupled to the main body to cover the second protection plate to protect the second protection plate spaced apart at regular intervals.

The transparent plastic material constituting the first protective plate, the second protective plate, and the protective panel may be used as long as it is a conventionally used material. Preferably, polyethylene (PE), low density polyethylene (LDPE), and linear low density polyethylene (LLDPE) are used. , High Density Polyethylene (HDPE), Oriented Polypropylene (OPP), Polyethylene Terephthalate and Unstretched Polypropylene Blend Film (PET + CPP), Unstretched Polypropylene (CPP), Nylon (Nylon), Biaxially Stretched Nylon (ON) New nylon (CN), polyacetal (POM), polycarbonate (PC), polyester (Polyester), polystyrene (PS), polyester sulfone (Polyester sulfone), polyvinyl chloride (PVC), polyvinylidene chloride (PVDC) ), Ethylene vinyl acetate copolymer (EVA), polyethylene terephthalate (PET), polypropylene (PP), Inflated Polypropylene (IPP), polyphenylene oxide (PPO = PPE), polyethersulfone (PES), poly Arc Latex (PAR), polyether imide (PEI), polyethylene naphthalate (PEN), polyphenylenesulphide (PPS), polyallylate, polyimide and cellulose triacetate (CTA) It is made of any one or more of.

The panel 22 is made of a transparent material so that sunlight is transmitted to be projected into the greenhouse house.

The panel is made of either a dye-sensitized solar cell or a thin film solar cell.

When the panel is formed of a thin film type, since the thin film type solar cell is close to opaque, the panel may be interposed between the first protective plate and the second protective plate in a lattice form or a stripe shape.

The panel may also be formed of a general polysilicon solar cell. Since the polysilicon solar cell is opaque, the panel is not formed to form the entire surface of the solar cell, but is formed in a grid shape or a stripe shape spaced apart from each other. It may be formed between the second protective plate.

The panel 22, the first protective plate 21, and the second protective plate 23 may be formed in plural so that a plurality of panel plates may be stacked.

That is, for example, the first protective plate, the battery plate, the second protective plate, the battery plate, the first protective plate, the battery plate and the second protective plate may be laminated in order.

The dye-sensitized battery of the panel is composed of a redox electrolyte, the dye molecules chemically adsorbed on the surface is a battery that generates electricity by receiving electrons in the sunlight.

Dye-sensitized solar cells have the same principle that plants use solar energy received through photosynthesis as a flow of electrons and use it as energy for redox. However, when photosynthesis occurs on the leaves of plants, dyes called chlorophyll absorb light, while dye-sensitized solar cells use nano-sized dye molecules and typically use TiO ₂ (titanium dioxide).

When sunlight is absorbed by a nanoparticle semiconductor oxide electrode where dye molecules are chemically adsorbed on the surface, dye molecules release electrons, which are transferred to a transparent conductive substrate through various paths to generate current. Once the electrical work is done, the electrons return to the dye molecule's original position and circulate in the solar cell.

The thin-film solar cell is a representative next-generation cell that utilizes a low-cost substrate such as glass and deposits a material such as silicon on a surface, unlike the conventional form using the entire crystalline silicon as a solar light mining engine. Thin film solar cells are often referred to as second generation cells, evolving from silicon based first generation cells. Unlike the first-generation bulk crystalline silicon, a glass, thin metal plate, plastic, etc., which is cheaper than silicon and has a large area, is manufactured by depositing a material of a solar cell into a thin film having a thickness of several microns.

Thin film solar cells are classified into three categories: a-Si, CIGS / CIS, and CdTe.

a-Si is made by injecting amorphous silicon between glass substrates. Based on TFTLCD production technology and based on silicon, which is the most common material and no human hazard, it is attracting attention as the next-generation battery. It is possible to use various substrates, but it has a disadvantage of low conversion efficiency.

CIGS thin film solar cell is a compound based thin film solar cell using copper, indium, gallium, selenium compounds. Indium, a raw material, is also used as a raw material for LCD manufacturing. As a result, supply problems will be an issue due to the price hike caused by the current supply shortage. Although the conversion efficiency is the highest at 10-13%, the manufacturing process remains complicated, and mass production remains.

CdTe thin film solar cells use cadmium and telluride compounds as compound-based thin film solar cells. This has the advantage of low manufacturing cost, but cadmium is a rare raw material difficult to mass-produce solar cells, and has a problem causing pollution.

Polysilicon solar cells are made of small silicon crystals that are made through the process of extracting silicon from silicon, which is halfway between ordinary silicon crystals and amorphous silicon.

The solar cell unit transmits power generated by being connected to the controller to the controller, and the controller operates the electric appliance by applying the power applied from the solar cell unit to the electric appliance.

The controller is connected to the battery to store the power applied to the power generated by the solar cell unit, thereby operating the electrical appliance with the power of the battery at night or cloudy day.

An electric appliance that is operated by a power source generated through the solar cell unit may be formed of a lighting or a thermostat or an acoustic device.

An input unit may be connected to the control unit to input and set a condition for operating an electric appliance.

Referring to the installation method of the present invention having the above configuration as follows.

First, the upper part of the main body is separated from the lower part to combine the solar cell unit, and the upper part is provided with a plurality of the main body is configured.

The main body is installed in the empty space of the upper frame formed by combining the frame of the greenhouse house, wherein the fixing portion formed by the outer upper side of the main body is inserted into the empty space to be coupled to the upper space of the frame.

The main body is fixed to the frame through a fixing part formed on an upper outer side of the upper body coupled to the frame, and a lower fixing part formed separately on a coupling groove formed on the lower inner side of the lower body is coupled to the lower surface of the frame.

Since the fixing part of the main body is fixed to the upper and lower sides of the frame, the main body is fixed to the frame and does not flow.

An elastic body may be interposed between the body and the frame when the body is coupled to the frame.

6 is a view showing the main body and the slide unit of the solar cell installation greenhouse house according to the present invention, Figure 7 is a cross-sectional view showing the main body and the slave unit of the solar cell installation greenhouse house according to the present invention.

A slide unit may be coupled between the main body and the frame so that the main body may be coupled to the slide unit.

6, when the slide unit is installed between the main body and the frame, the outer body of the slide unit is inserted into the empty space between the frames and coupled to the frame, and the inner body is coupled along the guide groove in the outer body.

When the outer body is coupled to the frame, a plurality of fixing parts are formed on the outer side of the upper side and the lower side of the outer body to be fixed to the upper side and the lower side of the frame.

The inner body is inserted into the main body slides into the insertion groove formed on the inner side by one side is elevated.

As shown in FIG. 7, when the main body is inserted into the insertion groove of the inner body, one side of the inner body is lowered to be coupled with the outer body, and thus the main body is fixed inside the inner body so as not to be separated.

When the main body is inserted and fixed, the inner body and the outer body are fixed with a fixing material so that the inner body is not separated.

When the main body is fixed to the frame, by connecting the cable to the solar cell to apply the power generated by the control device installed externally, the power applied to the control device operates the electric devices in the greenhouse house connected to the control signal Let's go.

The control device is connected to a battery to operate the electric appliance and the remaining power is stored when the amount of solar cell charge is low, such as night or cloudy days, the solar cell is generated by the light of the electric appliance emitted inside the greenhouse house To charge the battery with the battery.

According to the present invention configured as described above, the solar cell is coupled to the main body to be modularized and coupled to the frame of the greenhouse house. Therefore, the installation is simple, and the solar cell is coupled to the main body in an arch shape to prevent the drop, and the solar cell is lighted. Since the installation is maintained in a state that the sunlight is irradiated to the plant there is an advantage that does not need a separate space for installing a solar cell.

In addition, the solar cell is also generated through the light of the electric appliance in the greenhouse house, so the power generation at night or cloudy days to use only a small amount of electricity has the advantage of saving electricity.

The greenhouse house for solar cell installation as described above is not limited to the configuration and operation of the embodiments described above. The above embodiments may be configured such that various modifications may be made by selectively combining all or part of the embodiments.

1 frame 2 slide unit
10: main body 11: upper
12: lower part 13: coupling groove
14: slide body
20: solar cell unit 21: the first protective plate
22: panel 23: second protective plate
30: support
40: fixing part 40a: lower fixing part
50: outer body 51: guide groove
60: internal 61: insertion groove
62: slide groove

Claims (7)

In the greenhouse house frame is fixed to form a frame,
A main body installed in a space between frames formed on the upper side of the greenhouse house frame and fixed to the frame;
A solar cell unit coupled to the inside of the main body, generating power through sunlight, and transmitting part or all of external light;
Is coupled to the upper and lower sides of the main body for supporting and fixing the solar cell unit and
It is formed on the outside of the main body is coupled to the frame includes a fixing portion for fixing the main body to the frame,
The main body is formed in a rectangular or polygonal frame shape with an opening inside, and is composed of an upper and a lower, the solar cell unit is coupled between the upper and lower,
The slide unit is coupled to the frame is coupled to the main body is coupled to the main body slide, the slide body is formed to be coupled to the slide to the outer side of the main body slide,
The slide unit is composed of an outer body which is coupled to the frame and one side is lifted to form an insertion groove which is coupled to the main body and is coupled to the inside of the outer body,
The outer body is formed with a guide groove to allow the inner body to slide in the diagonal direction from the upper side to the inner side is coupled, the inner body is inserted into the inlet side of the guide groove is formed to prevent the departure from being separated,
The inner body is formed with an insertion groove for the insertion of the main body, a slide groove for engaging the main body by sliding the main body from one side to the other side inside the insertion groove is formed, is inserted into the guide groove on the outer surface of the inner slide Guide body is formed,
The support is composed of a first support for supporting the lower side of the solar cell unit and a second support for pressing the upper side of the solar cell unit to couple the solar cell to the body in an arch shape,
The second support is pulled when coupled to the main body, and coupled to the main body while pressing the solar cell unit from the upper side,
The greenhouse house for solar cell installation, characterized in that to easily fix the main body coupled to the solar cell unit on the upper part of the greenhouse house, to prevent the fall of the solar cell unit. delete delete The method of claim 1,
The solar cell unit is coupled to the inside of the main body, the first protective plate formed in a plate shape made of a transparent material;
A battery plate in close contact with one surface of the first protective plate and formed in a plate shape to be transparent;
A greenhouse house for solar cell installation, which is in close contact with one surface of the panel and includes a second protective plate formed in a plate shape and made of a transparent material. The method of claim 4, wherein
The panel is a greenhouse house for solar cell installation, characterized in that any one of a dye-sensitized solar cell or a thin film solar cell. The method of claim 1,
Greenhouse for solar cell installation, characterized in that the elastic body for preventing damage and sealing is interposed between the main body and the frame. The method of claim 1,
The greenhouse house for solar cell installation, characterized in that the protective panel for protecting the solar cell unit is coupled to one side or both sides of the main body.

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