KR101436261B1 - Eco-house for half shade plant cultivation having storage function of solar energy - Google Patents

Abstract

An eco-house of the present invention comprises: a support frame which is installed on the ground and has an internal space; an energy storing unit which is installed at the top of the support frame in order to be able to be rotated and stores solar energy; a rainwater collecting unit which is installed in the internal space of the support frame and collects rainwater; and a rainwater spray unit which is connected with the rainwater collecting unit and sprays the collected rainwater onto the bottom ground of the support frame. By means of the present invention, a half shade plant is grown at the bottom of the metallic support frame so that the half shade plant is prevented from being damaged by natural disasters. Rainwater is collected by the rainwater collecting unit and the half shade plant is grown by using the collected rainwater so that sufficient water can be provided to the half shade plant even during drought. By the energy storing unit installed at the top of the support frame, solar energy can be stored.

Description

TECHNICAL FIELD [0001] The present invention relates to an ECO-HOUSE FOR HALF SHADE PLANT CULTIVATION HAVING STORAGE FUNCTION OF SOLAR ENERGY,

The present invention relates to an eco house for cultivating a semi-insect plant having a solar energy storage function installed on a cultivated land, and more particularly, to an eco-house for cultivating a semi-insect plant cultivation environment below a metal support frame, By minimizing the damage of the plant and collecting the rainwater by the excellent collecting unit and cultivating the semen plants with the collected rainwater, it is possible to supply enough water to the half-life plant even in the drought period. By the energy storage unit installed on the support frame, The present invention relates to an eco house for cultivating a half-tone plant having a solar energy storage function capable of storing energy.

Generally, medicinal herbs such as ginseng and herbaceous plants such as ginseng and high value-added wild plants have the characteristics of growing in a semi-acreage cultivated area rather than a general cultivated area. Therefore, in order to cultivate ginseng and wild plants such as wild plants, shade is placed on the cultivated land or cultivated by using semen of the clinic.

As described above, the conventional shade structure for providing the shade on the cultivated land is mostly made of wood, so that the strength of the structure is weak and it is vulnerable to natural disasters such as typhoons.

In addition, in the case of cultivated land cultivated with semi-acuminate plants, the water required for cultivation is supplied to groundwater or surrounding rivers. As described above, in order to receive water from ground water or surrounding rivers, a separate means such as a water pump is required. In the case of drought, there is a problem in that the sufficient supply of water necessary for cultivation is not provided due to lack of water source, .

On the other hand, interest in photovoltaic power generation and green energy is rising, as low-carbon green growth is emerging due to climate change, such as global warming caused by the use of fossil fuels. In recent years, farmers have been working on small-scale solar power generation facilities by cultivating cultivated farmland or mountainous areas, and companies are increasingly purchasing farmland to establish solar power plants.

However, in case of installing solar power generation facilities in cultivable cultivated areas, not only the food problems are caused due to the restriction of land use, but the cultivation area may be damaged in the process of installing solar power generation facilities, There is a serious problem in terms of long-term use.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for cultivating a semi-iron plant on the lower part of a support frame made of a metal to prevent the crops from being damaged by natural disasters, , It is possible to supply enough water to the phytoplankton plants even in the case of drought by cultivating the antiseptic plant with excellent rainwater harvesting ability and to provide a solar energy saving function for storing the solar energy by the energy storage unit installed at the upper part of the support frame, House.

According to an aspect of the present invention, there is provided a support frame comprising: a support frame installed at an upper portion of a ground to form a space therein; An energy storage unit rotatably mounted on the support frame for storing solar energy; An excellent water collecting unit installed in the inner space of the support frame to collect rainwater; And an excellent jetting unit connected to the bottom collecting unit to jet the collected bottom to the lower surface of the support frame.

Also, an upper surface of the support frame is formed as a mesh net, and the rain is introduced into the support frame. The eco house for cultivating a half-tone plant having a solar energy storing function is provided.

Further, the energy storage unit may include a fixing member fixedly installed on the upper surface of the support frame; A rotating member rotatably coupled to an upper portion of the fixing member; A solar cell holder coupled to an upper end of the rotary member; And a plurality of solar cells attached to an outer surface of the solar cell holder.

Further, a coplanar surface to which the solar cell is not attached may be formed on an outer surface of the solar cell holder, and a plurality of through holes may be formed in the coplanar surface.

The superior collecting unit may include a swash plate installed in the support frame and inclined downward from the top to guide the bottom to the bottom, A storage tank installed at a lower portion of the swash plate to store storms conveyed downward; And a filter interposed between the swash plate and the storage tank to filter rain. The swash plate may be formed of a low-saturation transparent swash plate.

In addition, the excellent spraying unit may include a first discharge pipe connected to a side upper end portion of the storage tank; A second discharge pipe connected to a side intermediate portion of the storage tank; An on-off valve installed on the second discharge pipe to open and close the second discharge pipe; A third discharge pipe connected to a lower surface of the storage tank and configured to communicate with the first and second discharge pipes, the end of the third discharge pipe extending toward the lower inner side of the support frame; An open / close valve installed on the third discharge pipe to open / close the third discharge pipe; And a sprinkler installed at an end of the third discharge pipe.

The support frame may further include a net-like protective guide formed to be open in a side surface of the support frame and surrounding the open side of the support frame.

In addition, the support frame, the energy storage unit, the bottom collecting unit, and the excellent spraying unit may be one set, and each of the sets may be provided in the horizontal direction.

A connection pipe connected to each side of one storage tank of the superior collecting unit and another storage tank adjacent thereto; And a connection member interconnecting the connection pipes.

A fourth discharge pipe connected to a lower surface of the storage tank of the one excellent water collecting unit and extended to a lower side of the plurality of support frames; And a plurality of auxiliary sprinklers installed on the fourth discharge pipe, wherein each of the auxiliary sprinklers is installed to be disposed at an inner lower side of each of the support frames.

On the other hand, the description of the technology disclosed herein is merely an example for structural or functional explanation, and the scope of the right of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas. Also, the disclosed purpose or effect is not to be construed as limited only by the scope of the disclosed technology, as it is not meant that the particular embodiment must include all such effects or merely include such effects.

Also, the meaning of the terms described in the present invention should be understood as follows. The terms "first "," second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may be referred to as a first component.

Furthermore, it is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, but there may be other elements in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that no other element is present in between. On the other hand, other expressions describing the relationship between components, such as "between", "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The singular forms "a,""an,""an","an","an","an", and " And does not preclude the presence or addition of one or more other features, numbers, steps, operations, elements, parts, or combinations thereof.

Thus, it is possible to prevent the half-sounding plant from being damaged by natural disasters by cultivating the half-sounding plant under the support frame made of metal, and by collecting the fine water by the excellent water collecting unit and cultivating the collected half- Sufficient water can be supplied to the plant, and solar energy can be stored by the energy storage unit provided on the support frame. In addition, it is possible to provide a netting and a shielding film by installing a protection guide for preventing intrusion of wild animals on the lower part of the support frame, thereby protecting the crops from harmful tidal water and creating a half-tone growth environment at the side boundary of the structure.

Fig. 1 is a perspective view of an eco house for cultivating a phoenix plant having solar energy storage function according to the present invention
Figs. 2 and 3 are side views of an eco house for cultivating a half-tone plant having a solar energy storage function according to the present invention
FIG. 4 is a diagram showing the installation of an eco house for cultivating a half-tone plant having a solar energy storage function according to the present invention
5 is a view showing a connecting pipe and a connecting member of an eco house for cultivating a half-tone plant having a solar energy storing function according to the present invention
Figs. 6 and 7 are side views illustrating the installation of an eco house for cultivating a half-tone plant having solar energy storage function according to the present invention

Hereinafter, an eco house for cultivating a half-tone plant having a solar energy storing function according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 3, the eco house for cultivating a half-tone plant having a solar energy storing function according to the present invention comprises a support frame 100 provided at an upper portion of the ground to form a space therein, a support frame 100 An excellent water collecting unit installed in an inner space of the support frame 100 to collect rainwater, an excellent water collecting unit connected to the excellent water collecting unit, And an excellent injection unit for injecting the droplets onto the lower surface of the support frame 100.

First, the support frame 100 is a substantially box-shaped skeleton structure and is installed upright on the ground surface of the cultivated land. A semi-acuminate plant is cultivated on the cultivated land located under the support frame 100 installed as described above. At this time, a cruciform support base 120 is formed at each lower corner of the support frame 100 in contact with the ground, thereby preventing the support frame 100 from collapsing.

In addition, since the support frame 100 is formed in a skeletal shape and the side surface is open, there is a possibility that an animal such as an animal enters into the open side to damage the cultivated half-tone plant. In order to prevent this, a protective guide 130 is installed to cover the side surface of the support frame 100. Since the protection guide 130 is formed in the form of a mesh net, the animal or the like can not enter the support frame 100, but the wind can pass therethrough, thereby providing excellent ventilation inside the support frame 100, can do. The protective guide 130 may be installed so that one net covers the whole area of the side surface of the support frame 100. However, the present invention is not limited thereto, and each protective guide 130 may be mounted on each side. have. At this time, a coupling ring (not shown) is formed on both sides of the protection guide 130 and a coupling hole (not shown) is formed in the support frame 100 so that the coupling of the coupling ring and the coupling hole causes the protection guide 130 Can be installed in the support frame 100. This is a method in which the protection guide 130 is installed on the support frame 100. The means for installing the protection guide 130 on the support frame 100 is not particularly limited.

The upper surface of the support frame 100 is formed of a mesh net 110 so that the storm can be drawn into the support frame 100. At this time, the central portion of the net 110 is in the form of a plate, not a net, so that the energy storage unit can be installed.

Meanwhile, the energy storage unit includes a solar cell holder 200, a solar cell 220, a rotating member 230, and a fixing member 231.

The solar cell holder 200 is a rectangular plate having a predetermined thickness and is disposed on the upper portion of the support frame 100. At this time, a plurality of solar cells 220 are attached to the outer surface of the solar cell holder 200 to store solar energy. Here, a coplanar surface 210 in which a solar cell 220 is not attached is formed in a cruciform shape at the center of the solar cell rack 200, and a plurality of through holes 211 are formed in the coplanar surface 210, ) Is less resistant to wind.

The solar cell holder 200 is installed on the upper part of the support frame 100 so as to be rotatable by the rotary member 230 and the fixing member 231.

The fixing member 231 has a lower end fixedly mounted on the upper surface of the support frame 100, and a screw thread is formed outside the upper end.

The lower internal thread of the rotary member 231 and the upper external thread of the fixing member 231 are coupled to each other so that the rotary member 230 is fixed to the fixing member 231. [ 231, respectively.

The solar cell holder 200 is installed at the upper end of the rotary member 230 to be rotatable.

The energy storage unit described above absorbs solar energy by the solar cell 220 and is stored in a storage battery (not shown) connected thereto, thereby storing solar energy.

In addition, the superior collecting unit includes a swash plate 300, a filter 310, and a storage tank 320.

The swash plate 300 is installed inside the support frame 100 and is formed to be inclined downward from the upper surface of the support frame 100. The swash plate 300 serves to guide the rainwater introduced through the upper surface mesh 110 of the support frame 100 downward. At this time, a filter 310 is provided at the lower end of the swash plate 300 to filter out the rainwater guided downward. The filter 310 may be a detachable drawer so that the user can easily remove the foreign matter filtered by the filter 310. The storage tank 320 is a tank in which a storage space is formed, and is installed under the filter 310 to store the filtered storm. According to a preferred embodiment of the present invention, the swash plate may be formed of a low saturation transparent swash plate.

The superior collecting unit constructed as described above allows the storm to be stored in the above-described manner to be used for the cultivation of semi-acuminate plants.

Meanwhile, the excellent spray unit includes a sprinkler 400, a first discharge pipe 410, a second discharge pipe 420, and a third discharge pipe 440.

The first discharge pipe 410 is a pipe having a transfer space for transferring the fluid therein, and is connected to the side upper end side of the storage tank 320. The second discharge pipe 420 is also connected to a middle portion of the side surface of the storage tank 320. The second discharge pipe 420 is a pipe having a transfer space for transferring the fluid therein.

The first and second discharge pipes 410 and 420 are connected to the communication pipe 430 to discharge the stored rainwater downward. At this time, the second pipe 420 is provided with an opening / closing valve 421 to open / close the second pipe 420 to regulate the discharge of the second pipe 420. However, the first discharge pipe 410 is not provided with an adjusting means such as an opening / closing valve. The first pipe 410 serves to prevent the storage tank 320 from overflowing. Therefore, when the storage tank 320 is filled with a certain amount of water, the first pipe 410 is automatically discharged.

The third discharge pipe 440 is connected to one side of the lower surface of the storage tank 320 and the intermediate portion of the third discharge pipe 440 is connected to the communication pipe 430, And the two discharge pipes 410 and 420. The end of the third discharge pipe 440 extends to the lower side of the inside of the support frame 100, and the sprinkler 400 is connected to the end of the third discharge pipe 440. At this time, an opening / closing valve 441 is provided on the third discharge pipe 430 to open / close the third discharge pipe 430 to regulate discharged discharge.

The rainwater stored by the excellent spraying unit constructed as described above is sprayed on the inner bottom side of the support frame 100 to supply rainwater plants with rainwater.

As shown in FIG. 4, the support frame 100, the energy storage unit, the bottom collecting unit, and the excellent injection unit are provided in one set, and each set is provided in a plurality of sets, Respectively. That is, the one set is installed over the entire area of the cultivating area and cultivates the half-brine plant in the entire area of the cultivating area so as to cover the entire cultivating area.

At this time, it further includes a connection pipe 340 interconnecting the storage tanks of each storm water collecting unit. The connection pipe 340 is a pipe having a transfer space through which the fluid is transferred, and is connected to one side of the connection hole 330 of each storage tank 320.

That is, the connection pipe 340 is connected to each side of the one storage tank 320 and the neighboring other storage tanks (see FIG. 6). The connection pipe 340 is connected to the connection pipe 341 Are connected to each other to connect the connection pipe 340 to each other. As described above, since the storage tanks 320 are connected to each other by the connection pipe 340, the water level of all the storage tanks 320 remains the same. Since the water levels of all the storage tanks 320 are kept equal to each other as described above, a certain amount of water can be supplied to the lower surface of each support frame 100.

The apparatus further includes a fourth exhaust pipe 450 connected to a lower surface of the one storage tank 320 of the superior collecting unit and extending to a lower side of the plurality of support frames 100. A plurality of auxiliary sprinklers 401 are installed in the fourth discharge pipe 450 to discharge the stored storm of the storage tank 320 onto the ground.

At this time, each auxiliary sprinkler 401 is installed to be disposed on the lower inner side of each support frame 100, and the stored storm is sprayed on the lower ground of each support frame 100.

The eco house for cultivating a phoenix plant having the solar energy storing function according to the present invention having the above-described structure according to the present invention protects the phoenix plants from damage due to natural disaster by cultivating a half- By cultivating the antiseptic plant with excellent water collected by the excellent collecting unit and collecting the rainwater, it is possible to supply sufficient water to the phytoplankton even in the case of a drought and to store the solar energy by the energy storing unit installed on the upper part of the support frame 100 There is an effect.

The preferred embodiments of the eco house for cultivating a phoenix plant having a solar energy storage function according to the present invention have been described above.

The foregoing embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as all equivalents thereof, be within the scope of the present invention.

100: Support frame 110:
120: support 130: protection guide
200: solar cell holder 210: coplanar
211: through hole 220: solar cell
230: rotating member 231: fixing member
300: swash plate 310: filter
320: Storage tank 330: Connection hole
340: connecting pipe 341: connecting member
400: sprinkler 401: auxiliary sprinkler
410: first exhaust pipe 420: second exhaust pipe
421: opening / closing valve 430: communication pipe
440: third discharge pipe 441: opening / closing valve
450: Fourth exhaust pipe

Claims (11)

A support frame installed at an upper portion of the ground to form a space therein;
An energy storage unit rotatably mounted on the support frame for storing solar energy;
An excellent water collecting unit installed in the inner space of the support frame to collect rainwater; And
And an excellent jetting unit connected to the superior collecting unit to jet the collected collected rain to the lower surface of the support frame,
Wherein the energy storage unit comprises:
A fixing member fixedly installed on an upper surface of the support frame;
A rotating member rotatably coupled to an upper portion of the fixing member;
A solar cell holder coupled to an upper end of the rotary member; And
And a plurality of solar cells attached to an outer surface of the solar cell holder,
Wherein a coplanar surface to which the solar cell is not attached is formed on an outer surface of the solar cell holder,
And a plurality of through holes are formed in the coplanar surface. The eco house The method according to claim 1,
Wherein the upper surface of the support frame is formed as a mesh net, and the rain is introduced into the support frame. The echo house for cultivating a half- The method according to claim 1,
The excellent collecting unit includes:
An inclined plate installed inside the support frame and inclined downward from the upper portion to guide the rain downward;
A storage tank installed at a lower portion of the swash plate to store storms conveyed downward; And
And a filter interposed between the swash plate and the storage tank for filtering out rainwater. The eco house for cultivating a half-tone plant having a solar energy storing function The method of claim 3,
Characterized in that the swash plate of the excellent collecting unit is a low saturation transparent swash plate. The echo house for cultivating a half-tone plant having a solar energy storing function The method of claim 3,
Wherein the excellent spraying unit comprises:
A first discharge pipe connected to a side upper end portion of the storage tank;
A second discharge pipe connected to a side intermediate portion of the storage tank;
An on-off valve installed on the second discharge pipe to open and close the second discharge pipe;
A third discharge pipe connected to a lower surface of the storage tank and configured to communicate with the first and second discharge pipes, the end of the third discharge pipe extending toward the lower inner side of the support frame;
An open / close valve installed on the third discharge pipe to open / close the third discharge pipe; And
And a spring cooler installed at an end of the third discharge pipe. The eco house for cultivating a half-tone plant having a solar energy storing function The method according to claim 1,
A side surface of the support frame is formed in an open state,
And a protective guide in the form of a mesh net installed to surround the open side of the support frame. The echo house for the cultivation of half- The method of claim 3,
Wherein the support frame, the energy storage unit, the storm water collecting unit and the storm spraying unit are provided in one set, and each set is provided in a plurality of sets and installed horizontally in series. Eco House 8. The method of claim 7,
A connecting pipe connected to each side of one storage tank of the excellent collecting unit and the other side of the adjacent storage tank; And
And a connecting member for connecting the connecting pipes to each other. The eco house for cultivating a half-tone plant having a solar energy storing function 8. The method of claim 7,
A fourth discharge pipe connected to a lower surface of one storage tank of the excellent collecting unit and extending to a lower side of the plurality of support frames; And
And a plurality of auxiliary sprinklers installed on the fourth discharge pipe,
Wherein each of the auxiliary sprinklers is installed so as to be disposed at a lower inner side of each of the support frames. The eco house for cultivating a half-
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