KR101406002B1 - Organic Growing Shade Plants Equipment having Solar Generation Unit - Google Patents

Abstract

The present invention is constructed in such a manner that the power is generated by the sunlight while shielding the sunlight, and the plant is automatically set and maintained so as to provide an ideal growth environment of the shade plant, so that the organic shade plant cultivation can be efficiently performed. A supporting frame having a cultivation space for cultivating a shade plant therein; A sidewall part provided on front and rear sides and left and right sides of the support frame so as to be openable and closable, respectively, for creating an environment in which shade plants can be grown; A ceiling part which is installed on the upper part of the support frame so as to form a cultivation environment of the shade plant together with the side wall part and is formed so as to be able to open and close so as to control the lighting of the sun by setting the amount of sunlight transmitted from above; An automatic opening and closing unit configured to automatically open and close the sidewall and the ceiling according to predetermined conditions; And a solar battery unit installed on an upper surface of the ceiling and receiving sunlight to generate electric energy. The present invention also provides an organic sound plant cultivation facility having a solar power generation unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an organic farming plant having a solar power generation unit,

The present invention relates to a plant for cultivating an organic light purifying plant having a photovoltaic power generation unit, and more particularly, to a plant for growing an organic purple plant with a solar power generation unit, and more particularly, The present invention relates to a plant for cultivating a light and sound organic plant having a solar power generation unit capable of effectively cultivating an organic light and shade plant.

Generally, the representative ginseng of the sham plant is a perennial crop of the ginseng root, which is named after the roots have the same shape as the human.

From ancient times, ginseng has been known to exert excellent efficacy by helping the lungs function, enhancing the anesthetic function and the renal function, being used as effective medicinal effect for weakness, boredom, fatigue, anorexia, vomiting and diarrhea . Furthermore, ginseng is characterized by pharmacological effects such as cortical excitement and inhibition, equilibrium, anti-fatigue, anti-aging, immune enhancement, kidney contraction, gonadal stimulation, hyperglycemia inhibition, protein synthesis promotion, homeostasis, anticancer and detoxification.

Due to the above effects and effects, the ginseng continues to be demanded of diversity of new ginseng processed products by rising reputation not only in domestic but also internationally, enlarging the international market, and diversifying the consumer class. Among them, red ginseng products are dominant. Here, red ginseng is steamed and dried red ginseng. Its main ingredient is saponin-based substances, and its function and efficacy have been verified through many research reports. Thus, ginseng has been studied in various forms without regard to the boundaries of the field, Widely used and applied.

However, ginseng is an oily plant growing in a shady place that is not sunny. It is vulnerable to sunlight. Since it is cultivated for a long time in one place, it causes damage such as pests and physiological disorders. Ginseng cultivation facility will be installed and used.

In general, the ginseng cultivation facility generally used is used for blocking sunlight. When a structure is briefly described, a plurality of struts are vertically installed on the soil, a horizontal frame is installed on the upper part of the struts, And a structure in which a light-shielding film is sloped on the frame so that rainwater can flow down.

However, conventional ginseng cultivation facilities have difficulty in adjusting the light intensity, which is optimal for cultivation of ginseng, because it is difficult to control the light shading rate.

Recently, interest in solar power generation has been increasing due to global warming and high oil prices. For this reason, companies are purchasing large-scale farmland and establishing separate solar power plants. However, when the solar power plant is installed in cultivable farmland, it can not be used as agricultural land for cultivating crops, resulting in a problem of food shortage, problems such as farmland being damaged in the process of installing facilities, .

As a conventional technique disclosed for solving the above problems, Korean Patent Application Publication No. 123130 (Nov. 24, 2010) discloses a technique for mounting a plurality of struts, a frame provided on the strut, A solar panel for blocking sunlight, and a storage battery for storing electricity generated in the solar panel, wherein the solar panel is capable of growing a shade plant in the shade shielded by the solar panel and generating power to the solar panel Sunlight blocking structure for cultivating shade plants is known.

Korean Intellectual Property Office (KIPO) No. 1131571 (Mar. 22, 2012) discloses a solar cell layer in which a solar cell is disposed so as to form a translucent window; And a light-shielding film including at least a light-transmitting region, wherein the light-shielding film is moved between a light-transmitting position and a light-shielding position, and the light-transmitting amount is changed.

[0005] However, in the above-mentioned prior arts, Japanese Unexamined Patent Application Publication No. 123130 has a problem that sunlight is cut off by the solar panel completely by the solar panel, and the structure is replaced by illumination light to block natural light, .

The above-mentioned patent document No. 1131571 uses a solar cell module in place of the light-shielding film as in the case of the above-mentioned Japanese Patent Laid-Open Publication No. 123130, so that sunlight can be shut off and electric power can be generated, This structure has a problem in that the structure for controlling the light is complicated and the manufacturing process is difficult and the cost is high.

In addition, both of the above-mentioned Japanese Patent Laid-Open No. 123130 and Japanese Patent Laid-Open No. 1131571 disclose that both sides except for the upper part of the cultivation area are exposed in an open state at all times, , Hurricane, drought, muddy water, temperature change, and the like, so that the cultivation environment of the shade plant can not be optimized.

Furthermore, it is known that ginseng, which is a sham plant, has a severe growth condition depending on the surrounding natural environment conditions. For this reason, the use of pesticides is generalized in the cultivation process of ginseng. In other words, various kinds of pesticides are frequently used to prevent various physiological disorders and diseases in the process of cultivating ginseng, and there is a problem in that ginseng can not be continuously cultivated in the same place due to problems of soil change and soil depletion .

Recently, interest in ginseng leaves and buds as well as roots of ginseng has been increasing. Especially, the crude saponin content of ginseng leaves is 13 ~ 18%, the amount of crude saponin is 3 ~ 5 times larger than that of ginseng roots, and the chemical structure is the same as that of ginseng root. Research results are being reported.

However, despite the economic value of ginseng leaf as a functional food and medical resource, most of the ginseng leaves have been used or discarded due to the problem of residual pesticides applied in the cultivation process. There is an urgent need for a cultivation facility capable of cultivating organic shade plants including ginseng for the development of products.

The present invention has been made in view of the above points, and it is possible to construct a means for varying in real time according to the temperature change and the rainfall according to the cutoff of direct sunlight and the amount of sunshine in the cultivation space in the facility, It is an object of the present invention to provide an organic field plant cultivation facility having a photovoltaic power generation unit capable of improving the quality of a shade plant and growing organic shade plant by keeping it constantly.

Another object of the present invention is to provide a method and apparatus for constructing a means for generating electric power by sunlight in a place where a facility is constructed from a structure for blocking sunlight, The present invention is to provide an organic light plant cultivation facility having a photovoltaic power generation unit capable of cultivating and selling the surplus power to the electric power company in addition to self-development of the facility.

The organic field plant cultivation facility having the solar power generation unit proposed by the present invention comprises: a support frame installed in a structure with four open sides and having a cultivation space for cultivating shade plants therein; A sidewall part provided on front and rear sides and left and right sides of the support frame so as to be openable and closable, respectively, for creating an environment in which shade plants can be grown; A ceiling part which is installed on the upper part of the support frame so as to form a cultivation environment of the shade plant together with the side wall part and is formed so as to be able to open and close so as to control the lighting of the sun by setting the amount of sunlight transmitted from above; An automatic opening and closing unit configured to automatically open and close the sidewall and the ceiling according to predetermined conditions; And a solar battery unit installed on an upper surface of the ceiling unit and receiving sunlight to generate electric energy.

The side wall part includes a double wall film member configured to control light quantity or temperature of the internal cultivation space and to block inflow of rainwater.

The wall member is provided on one side to be openable and closable and includes a vinyl film for preventing ventilation of the cultivation space and inflow of rainwater and a light shielding film which is installed outside the vinyl film so as to be openable and closable, .

The barrier film member is provided with guide members for supporting and guiding the up and down movement states of the vinyl film and the light shielding film when the film is opened and closed.

The ceiling unit includes a ceiling plate that closes an upper portion of the support frame and supports the solar cell unit, a transparent skylight formed in a structure interconnected with the ceiling plate, And a lighting control means installed inside the ceiling plate for controlling sunlight projected through the ceiling plate and controlling the amount of light in the interior cultivation space.

Wherein the light adjusting means comprises a light adjusting member extending in a longitudinal direction of the transparent lightening window and having one end fixed by a hinge shaft and rotatably installed at a predetermined angle, And a rail member for guiding the open / close angle of the member.

The automatic opening and closing part includes opening and closing means for driving the side wall and the ceiling respectively to open and close, a temperature measuring unit installed to measure and measure the temperature of the inside of the supporting frame, A control unit for applying a control signal to the opening and closing means according to a signal input from the temperature measuring unit, the rainfall sensing unit, and the timer, .

Wherein the control unit applies a control signal to the closed state of the opening and closing means of the side wall portion when the measured value input from the temperature measuring unit is lower than a set temperature, A control signal for changing the open state is applied to the opening and closing means so as to maintain the cultivation space at the optimum temperature.

Wherein the control unit applies a control signal to the opening and closing means of the side walls and the ceiling portion to change the closed state to a closed state regardless of a measured value inputted from the temperature measuring unit when a rain signal is inputted from the rainfall sensing unit, A control signal is applied in accordance with a measured value input from the temperature measuring unit.

The control unit applies a control signal to the opening and closing means of the sidewall and the ceiling portion when the time sensed from the timer is a predetermined time, and maintains the open state for a predetermined set time. A control signal for changing the closed state of the opening and closing means of the side wall portion and the ceiling portion is applied to maintain the optimum lighting condition in the cultivation space.

The solar cell unit is composed of a solar panel installed in the ceiling and receiving sunlight to generate electric power, and a storage battery for charging electricity generated in the solar panel.

The solar panel of the solar battery unit is integrally formed on the ceiling portion.

According to the organic cultivation facility of the present invention having the solar power generation unit according to the present invention, the opening and closing of the vinyl film and the light shielding film can be automatically changed so as to optimize the growth conditions necessary for the cultivation of the shade plant in the facility. It is intended to cultivate organic pests that have been abolished in use, to cultivate high-quality pesticide plants with improved efficacy of shade plants, and to promote the overall parts of ginseng as raw materials of various processed products such as ginseng leaves and buds, The effect that can be used is obtained.

In addition, the plant for cultivating organic silage plants having the solar power generation unit according to the present invention can eliminate the use of pesticides during the cultivation of shade plants to prevent soil depletion and soil depletion, and preserve natural and environment-friendly land and water resources There is an effect that can be.

In addition, the organic cultivating plant having the solar power generation unit according to the present invention comprises a solar cell unit for cutting off sunlight and generating its own power through the blocked sunlight. Therefore, , It is possible to utilize the land effectively and it is possible to cultivate the shade plant and the solar power with the simple facilities in the area where the power supply is difficult, Of the present invention has the effect of promoting the cultivation of the organic, light-grown plants.

Also, since the organic solar plant cultivation facility having the solar power generation unit according to the present invention is integrally formed with the solar panel on the ceiling of the facility, it is simple in structure and easy in facility, and the facility cost can be reduced.

1 is a side sectional view schematically showing an embodiment according to the present invention.
2 is a plan sectional view schematically showing an embodiment according to the present invention.
3 is a front view schematically showing a side wall portion in an embodiment according to the present invention.
4 is a plan view schematically illustrating an embodiment according to the present invention.
5 is a partially enlarged view schematically showing a light adjusting means according to an embodiment of the present invention;
6 is a block diagram schematically illustrating an embodiment according to the present invention;

The present invention relates to a support frame which is installed in a four-way opening structure and has a cultivation space for cultivating shade plants therein; A sidewall part provided on front and rear sides and left and right sides of the support frame so as to be openable and closable, respectively, for creating an environment in which shade plants can be grown; A ceiling part which is installed on the upper part of the support frame so as to form a cultivation environment of the shade plant together with the side wall part and is formed so as to be able to open and close so as to control the lighting of the sun by setting the amount of sunlight transmitted from above; An automatic opening and closing unit configured to automatically open and close the sidewall and the ceiling according to predetermined conditions; And a solar battery unit installed on an upper surface of the ceiling and receiving sunlight to generate electric energy. The present invention is characterized in that an organic sound plant cultivation facility having a solar power generation unit is provided.

The sidewall part is a feature of a technical construction of an organic sound plant cultivation facility having a solar power generation unit including a double wall film member configured to control light quantity or temperature of an internal cultivation space and to block rainwater inflow.

The wall film member is provided on one side so as to be openable and closable and includes a vinyl film for preventing ventilation of the cultivation space and inflow of rainwater and a light shielding film for opening and closing the outside of the vinyl film, The present invention is characterized by the construction of an organic light soil plant cultivation facility having a solar power generation unit including a photovoltaic power generation unit.

The organic film plant is provided with a solar cell unit including a guide member for supporting and guiding the up and down movement of the vinyl film and the light shielding film when the vinyl film and the light shield film are opened and closed.

The ceiling portion may include a ceiling plate that closes an upper portion of the support frame and supports the solar cell portion, a transparent skylight formed in a structure interconnected with the ceiling plate, And a lighting control means provided inside the ceiling plate for controlling sunlight projected through the ceiling plate and controlling the amount of light in the internal cultivation space. do.

The mining control means includes a mining control member extending in the longitudinal direction of the transparent mining window and having one end fixed by a hinge shaft and rotatably installed at a predetermined angle, And a rail member for guiding the opening and closing angle of the regulating member. The present invention is characterized by an organic sound plant cultivation facility having a solar power generation unit.

The automatic opening / closing unit may include opening and closing means for opening and closing the side wall and the ceiling respectively, a temperature measuring unit for sensing the temperature of the growing space inside the supporting frame and measuring the temperature, A control unit for applying a control signal to the opening / closing unit according to a signal input from the temperature measuring unit, the rainfall sensing unit, and the timer, The present invention is characterized by the construction of an organic sound plant cultivation facility having a solar power generation unit including a photovoltaic power generation unit.

The control unit may be configured to apply a control signal to the closed state of the opening and closing means of the sidewall unit when the measured value input from the temperature measuring unit is lower than a set temperature, And a solar power generation unit for applying a control signal for changing the open state to the opening and closing means of the side wall portion to maintain the cultivation space at an optimum temperature.

When the rain signal is input from the rain detection unit, the control unit applies a control signal to the closed state of the side wall unit and the ceiling unit irrespective of the measurement value input from the temperature measurement unit, And a solar power generation unit for applying a control signal according to a measurement value input from the temperature measurement unit when no signal is inputted from the sensing unit.

When the time detected from the timer is a preset time, the control unit applies a control signal to the opening and closing means of the side wall and the ceiling portion to change the open state, and maintains the open state for a predetermined set time. And a solar power generation unit for applying a control signal to the opening and closing means of the side walls and the ceiling portion to change the state of the opening / As a feature of the technical configuration.

Further, the solar cell unit is provided with an organic sound plant cultivation facility provided with a solar power generation unit which is installed in the ceiling and receives solar light to generate electric power, and a battery for charging electricity generated in the solar panel, It is characterized by the constitution.

Also, the solar panel of the solar cell unit has a solar power generation unit which is integrally formed on the ceiling portion.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, preferred embodiments of an organic sound plant cultivation facility having a solar power generation unit according to the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, an organic field plant having a solar power generation unit according to the present invention includes a support frame 10, a side wall 20, a ceiling 30, An opening / closing unit 40, and a solar battery unit 50.

As shown in FIG. 1, the support frame 10 constitutes an overall framework of the facility, and comprises a structure in which interconnected structures are formed so as to have a cultivation space 15 having a sufficient area for cultivating sown plants.

The phytotoxic plants in the present invention are collectively referred to as various shade plants including ginseng having a strong negative tone and growth conditions capable of growing in the shade.

The support frame 10 is fixedly installed on the ground and has a structure in which the four sides are opened, that is, the front and rear sides, the left and right side surfaces, and the top surface are open.

The support frame 10 is designed in such a manner that the present invention constitutes an overall framework for the cultivation facility, taking into consideration the mining conditions that vary according to the path of the sun depending on the latitude and the longitude of the earth. In other words, considering the nature of the sun passing from the east through the south to the west, considering the angle of sunlight at noon, the south surface is designed to be low and the north surface to be high.

If the height of the north side of the plant is higher than the south side of the plant by the support frame 10 as described above, it is possible that the indirect light enters the plant located in the north more than the other side due to the shade occurring in the north along the path of sunlight .

In the case where a plurality of cultivation facilities are installed, it is preferable to set the direction of the cultivation facility so that the surface facing the south face is located in the east-west direction and the south face is oriented in the south-west direction by 30 °.

An organic cultivation space (15) of the support frame (10) is provided with an organic soil for shade plants capable of growing organic shade plants.

The organic soil used exclusively for the cultivation of shade plants includes peatmoss, perlite, vermiculite, dolomite and the like.

It is also possible to load the organic soil using the shelf S or the like as well as the bottom of the ground in the cultivation space 15 in the support frame 10 and design the cultivation space 15 to be utilized as a whole.

By constructing the shelf S in the cultivation space 15 as described above, mass production of the shade plant can be achieved.

The sidewall 20 and the ceiling 30 are configured to control ventilation, light quantity, temperature, and the like so as to function as a cultivation environment, that is, to optimize the environment in which cultivated sow plants planted in the cultivation space 15 can be cultivated .

1 and 2, the side wall portion 20 is provided on the side surface of the support frame 10 so as to be openable and closable. That is, the side wall portions 20 are installed on front and rear sides, left and right side surfaces of the support frame 10, respectively, so as to set the closed state,

The side wall part 20 constitutes a wall film member 21 so as to control light quantity and temperature of the internal cultivation space 15 and to block inflow of rainwater.

As shown in FIGS. 1 and 2, the barrier rib member 21 is composed of a double layer at the position of the side wall portion 20, and is composed of a vinyl film 21a and a light-shielding film 21b.

The vinyl film 21a is installed on one side of the support frame 10 to open and close the growing space 15 therein.

The vinyl film 21a is provided to ventilate the cultivation space 15 to maintain humidity and temperature suitable for the growth of shade plants and prevent inflow of foreign matter such as rainwater.

The vinyl film 21a is installed on one side so as to be openable and closable. That is, it is preferable that the vinyl film 21a is provided on one side of the light-shielding film 21b, but inside the light-shielding film 21b on the basis of the cultivation space 15.

The light-shielding film 21b is provided so as to be openable and closable with a small distance from the outside of the vinyl film 21a.

The light shielding film 21b is ventilated by an opening / closing operation in the same manner as the vinyl film 21a to maintain the humidity and temperature suitable for the growth of the shade plant and to adjust the amount of light according to the cutoff of the direct sunlight and the amount of sunshine to optimize the temperature change Respectively.

For example, the vinyl film 21a and the light-shielding film 21b are adjusted and maintained by individually opening and closing the humidity and the temperature in the cultivation space 15, respectively.

The support bar 25 may have a predetermined weight at one end of the vinyl film 21a and the light-shielding film 21b.

By constituting the support bar 25 as described above, it is possible to achieve a sense of stability when moving for opening and closing the vinyl film 21a and the light-shielding film 21b, and to minimize the phenomenon of swirling by elements such as wind.

As shown in Fig. 3, it is also possible to constitute a guide member 23 for supporting and guiding the vertical movement state of the vinyl film 21a and the light-shielding film 21b when opening and closing.

The guide member 23 is formed to extend along the moving direction of the vinyl film 21a and the light-shielding film 21b. For example, in the vertical direction in the same manner as the wall member 21 located in the side wall 20.

It is preferable that the guide member 23 is configured so that both side ends of the vinyl film 21a and the light-shielding film 21b can be guided in contact with each other.

The ceiling portion 30 is installed to be positioned on the upper portion of the support frame 10 so as to block the sunlight in the cultivation space 15 while setting a partial transmission amount of the sunlight on the upper side, As shown in FIG.

1 and 4, the ceiling portion 30 includes a ceiling plate 31 fixedly installed to close the upper portion of the support frame 10, And a transparent skylight window (33).

The ceiling plate 31 supports the solar battery unit 50 so that the solar battery unit 50 can be mounted on the top surface.

The transparent skylight window (33) is installed on the ceiling plate (31) and can be partially illuminated by sunlight from the ceiling part (30).

As the material used for the transparent skylight 33, it is preferable to use a transparent material such as tempered glass or plastic.

The ceiling portion 30 constitutes a light adjusting means 35 for adjusting the amount of mining of the internal cultivation space 15.

The light adjusting means 35 is provided inside the ceiling plate 31 in correspondence with the transparent lighting window 33 and has a structure capable of opening and closing the sunlight shielded through the transparent lighting window 33 .

As shown in FIGS. 1 and 5, the light adjusting unit 35 includes a light adjusting member 36 extending in the longitudinal direction of the transparent light providing window 33, And a rail member 37 formed so as to be capable of supporting.

One end of the light adjusting member 36 is fixed to the ceiling plate 31 by a hinge shaft. That is, the light control member 36 is rotatably installed at a predetermined angle around the hinge axis, and is formed so as to open and close the opposite side.

The rail member 37 supports one side of the mining control member 36 which is opened and closed to guide the opening and closing angle of the mining control member 36.

It is preferable that the angle of opening and closing of the light control member 36 through the rail member 37 is configured to be opened and closed within a range of 1 to 40 degrees.

The rail member 37 is provided with a fitting groove 38 at each angle so that the opening and closing of the lighting adjusting member 36 can be performed in steps, so that the lighting adjusting member 36 can be stably installed .

The automatic opening and closing part 40 is configured to automatically open and close the side wall part 20 and the ceiling part 30.

The automatic opening and closing part 40 automatically opens and closes the side wall part 20 and the ceiling part 30 according to predetermined conditions. That is, the automatic opening and closing part 40 is provided in a manner such that the environment of the cultivation space 15 can be set at a reference value set according to the conditions of the natural environment such as the temperature of the cultivation space 15, And automatically opens and closes the light adjusting member 36 of the ceiling portion 30 including the film 21a and the light shielding film 21b.

6, the automatic opening / closing unit 40 includes an opening / closing unit 41, a temperature measuring unit 45, a rainfall sensing unit 46, a timer 47, and a control unit 49 .

The opening and closing means 41 is configured to be driven to the side wall portion 20 and the ceiling portion 30, respectively. That is, the opening / closing means 41 drives the vinyl film 21a and the light-shielding film 21b constituting the side wall portion 20 to be opened and closed separately, and separately controls the light adjusting means 35 of the ceiling portion 30, And also drives the mining control member 36.

3, the opening / closing means 41 is provided with a control bar 42 so that the vinyl film 21a and the light-shielding film 21b can be wound at the position of the side wall 20 And drive means (43a) for rotationally driving the control bar (42).

As shown in FIG. 5, the opening / closing means 41 is provided with a driving means 43b for rotating the hinge shaft at the position of the light adjusting means 35.

The driving means 43a and 43b may be implemented by applying motors and gears generally used for transmitting power.

The temperature measuring unit 45 is installed to measure and measure the temperature of the cultivation space 15 inside the support frame 10.

The temperature measuring unit 45 may be constructed using a temperature sensor or the like and may be constructed using a digital temperature sensor so that the controller 49 can effectively transmit a measurement signal.

The rainfall sensing unit 46 is installed outside the support frame 10, and is configured to detect rainfall (whether rain is falling).

The rainfall sensing unit 46 is constructed using a rainfall meter, a rainfall sensor, or the like.

The timer 47 is installed to detect an overall time zone according to the amount of sunshine. That is, the timer 47 measures the time of day every day and detects the time zone when the amount of sunshine is excessive.

6, the control unit 49 controls the opening / closing means 41 in response to a signal input from the temperature measuring unit 45, the rainfall sensing unit 46 and the timer 47, .

The control unit 49 operates the opening and closing means 41 to move the vinyl film 21a and the light shielding film 21b of the wall film member 21 of the side wall part 20 or the ceiling part 30 The light shielding film 21b or the light shielding film 21b which is the wall film member 21 of the side wall part 20 by operating the opening and closing means 41, The closed state of closing the mining control member 36 of the ceiling portion 30 is controlled in accordance with the measurement signal from the temperature measuring unit 45, the rainfall sensing unit 46 and the timer 47. [

The control unit 49 controls the opening and closing means 41 of the side wall unit 20 to switch to the closed state when the measured value input from the temperature measuring unit 45 is less than the set temperature Signal.

If the measured value input from the temperature measuring unit 45 is equal to or higher than a set temperature (for example, 10 占 폚), the control unit 49 controls the opening and closing means 41 of the side wall unit 20 Signal.

It is possible to maintain the cultivation space 15 at the optimum temperature by applying the control signal to the control unit 49 to switch the opening and closing means 41 of the side wall unit 20 as described above.

The vinyl film 21a and the light-shielding film 21b may be completely opened and closed by the control unit 49. The vinyl film 21a and the light-shielding film 21b may be partially opened or closed, And the opening / closing degree of the light-shielding film 21b may be driven in a differential manner.

When a rain signal is input from the rainfall sensing unit 46, the control unit 49 applies a control signal for changing the opening and closing means 41 of the side wall unit 20 and the ceiling unit 30 to the closed state, respectively do.

That is, in the rainy weather, it is necessary to prevent inflow of rainwater into the cultivation space 15 in which the shade plants are planted. Therefore, the vinyl film 21a and the light shielding film 21b, which are the wall film member 21 of the side wall portion 20, And the mining control member 36 of the ceiling portion 30 is changed to the closed state.

The opening and closing means 41 of the side wall portion 20 and the ceiling portion 30 can be controlled independently of the measured value inputted from the temperature measuring portion 45 when a rain signal is input from the rainfall sensing portion 46. [ To the closed state.

When no rain signal is input from the rainfall sensing unit 46, the control unit 50 applies a control signal according to a measurement value input from the temperature measurement unit 45.

By applying the control signal in response to the measurement signal of the rainfall sensing unit 46 in the control unit 49 as described above, the inflow of rainwater into the cultivation space 15 is blocked when the rainfall occurs, It is possible.

When the time detected from the timer 47 is set to a predetermined time (for example, 8 to 11 hours), the controller 49 opens the opening / closing means 41 of the side wall 20 and the ceiling 30, The control signal to be changed is applied, and at the same time, the open state is maintained for a predetermined set time (for example, 3 to 5 hours).

The vinyl film 21a and the light shielding film 21b which are the wall film members 21 of the side wall part 20 can be emitted from the control part 49 so that the light can be constantly lit in the cultivation space 15 during the day when the sunlight is weak during the day. The control unit 49 controls the lighting control member 36 of the ceiling unit 30 to maintain the open state.

When the time detected from the timer 47 passes the set time, the control unit 40 applies and applies a control signal to the opening and closing means 41 of the side wall portion 20 and the ceiling portion 30 to change the closed state.

It is possible to maintain the optimal lighting condition in the cultivation space 15 by applying the control signal to the control unit 49 to switch the opening and closing means 41 of the side wall unit 20 and the ceiling unit 30 as described above Do.

The solar cell unit 50 is provided to receive sunlight to generate electric energy.

The solar battery unit 50 is installed in the ceiling unit 30 and comprises a solar cell plate 51 and a storage battery 53.

The solar panel 51 is installed on the top surface of the ceiling portion 30 and receives sunlight to be irradiated to generate electricity.

The solar panel 51 may be formed to have a size corresponding to the size of the facility, that is, the area of the ceiling portion 30, or a plurality of the solar panel 51 may be formed.

The solar cell plate 51 of the solar cell unit 50 is integrally formed on the ceiling plate 31 of the ceiling unit 30.

The solar panel 51 receives sunlight in direct sunlight and at the same time functions to cut off the penetration into the cultivation space 15 by 100%.

The battery (53) charges the electricity generated by the solar panel (51).

The storage battery 53 charges the electricity generated by the solar panel 51 and supplies power to the control unit 49 and the opening and closing means 41. The remaining power supplies of the underground water facility, Lt; RTI ID = 0.0 > power company.

That is, according to the organic cultivating plant of the present invention having the solar power generation unit according to the present invention, it is possible to automatically change the opening and closing of the vinyl film and the light shielding film so as to optimize the growth conditions necessary for growing the shade plant in the facility Therefore, we cultivate organic shade plant which is used for the cultivation of shade plant, and cultivate high quality shade plant which improves the efficacy of shade plant. And it is the whole part of ginseng such as ginseng leaf and bud Can be used as raw materials for various processed products.

In addition, the present invention can eliminate the use of pesticides in the process of cultivating shade plants to prevent soil depletion and depletion of soil, and to preserve nature-friendly land and water resources.

In addition, since the present invention constitutes a solar cell unit that cuts off sunlight and generates its own electric power through blocked sunlight, an environment for cultivating shade plants is created, and surplus electric power generated by solar power generation is promoted, It is possible to cultivate shade plant and solar power with simple facilities even in areas where power supply is difficult, and it is possible to cultivate organic shade plant of excellent quality by irrigating ground water at the cultivation place of shade plant.

Further, since the solar panel is integrally formed on the ceiling of the facility, the present invention can be easily installed with a simple structure, and it is possible to reduce the facility cost.

While the present invention has been described with reference to the preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but variations and modifications may be made without departing from the scope of the present invention. And it is also within the scope of the present invention.

10: support frame 15: cultivation space 20:
21: a wall film member 21a: a vinyl film 21b:
23: guide member 25: support bar 30: ceiling
31: ceiling plate 33: transparent mining plate 35: mining adjustment means
36: mining adjustment member 37: rail member 38: fitting groove
40: automatic opening and closing part 41: opening / closing means 42: control bar
43a, 43b: driving means 45: temperature measuring unit 46: rainfall detecting unit
47: Timer 49: Control unit 50: Solar power unit
51: Solar panel 53: Battery S: Shelf

Claims (12)

A support frame installed in a structure having four open sides and having a cultivation space for cultivating shade plants therein;
A sidewall part provided on front and rear sides and left and right sides of the support frame so as to be openable and closable, respectively, for creating an environment in which shade plants can be grown;
A ceiling part which is installed on the upper part of the support frame so as to form a cultivation environment of the shade plant together with the side wall part and is formed so as to be able to open and close so as to control the lighting of the sun by setting the amount of sunlight transmitted from above;
An automatic opening and closing unit configured to automatically open and close the sidewall and the ceiling according to predetermined conditions;
And a solar battery unit installed on an upper surface of the ceiling unit and receiving sunlight to generate electric energy,
The ceiling unit includes a ceiling plate that closes an upper portion of the support frame and supports the solar cell unit, a transparent skylight formed in a structure interconnected with the ceiling plate, And a light adjusting unit installed inside the ceiling plate so as to block sunlight projected through the inside of the ceiling plate and controlling the amount of light in the internal cultivation space.
The method according to claim 1,
Wherein the side wall part comprises a double wall film member configured to control light quantity or temperature of an internal cultivation space and to block inflow of rainwater.
The method of claim 2,
The wall film member includes a vinyl film which is provided at one side so as to be openable and closable and which prevents ventilation of the cultivation space and inflow of rainwater and a light shielding film which is installed outside the vinyl film so as to be openable and closable, And a photovoltaic power generating unit including the photovoltaic power generating unit.
The method of claim 3,
And a guide member for guiding and guiding the up-and-down movement state of the vinyl film and the light-shielding film when the vinyl film and the light-shielding film are opened and closed, the organic film plant.
delete The method according to claim 1,
The mining control means includes a mining control member extending in the longitudinal direction of the transparent mining window and having one end fixed by a hinge shaft and rotatably installed at a predetermined angle, And a rail member for guiding the opening and closing angle of the regulating member.
The method according to claim 1,
The automatic opening / closing unit includes: an opening / closing unit that is driven to open and close the side wall and the ceiling respectively; a temperature measuring unit installed to measure temperature of the inside of the supporting frame by sensing temperature; A control unit for applying a control signal to the opening / closing unit according to a signal input from the temperature measuring unit, the rainfall sensing unit, and the timer, And a photovoltaic power generating unit including the photovoltaic power generation unit.
The method of claim 7,
Wherein the control unit applies a control signal to the closed state of the opening and closing means of the side wall portion when the measured value input from the temperature measuring unit is lower than a set temperature, And a solar power generating unit for applying a control signal to the opening and closing means to change the open state to maintain the cultivation space at an optimum temperature.
The method of claim 7,
Wherein the control unit applies a control signal to the opening and closing means of the side walls and the ceiling portion to change the closed state to a closed state regardless of a measured value inputted from the temperature measuring unit when a rain signal is inputted from the rainfall sensing unit, And a photovoltaic power generation unit for applying a control signal in accordance with a measured value input from the temperature measurement unit when no signal is inputted from the unit.
The method of claim 7,
The control unit applies a control signal to the opening and closing means of the sidewall and the ceiling portion when the time sensed from the timer is a predetermined time, and maintains the open state for a predetermined set time. And a control signal for changing the closed state of the opening and closing means of the side wall portion and the ceiling portion to a closed state for a predetermined period of time to maintain an optimal light condition in the cultivation space.
The method according to claim 1,
Wherein the solar cell unit includes a solar power generation unit provided on the ceiling and including a solar cell plate for receiving sunlight to generate electricity and a battery for charging electricity generated in the solar cell plate.
The method of claim 11,
Wherein the solar panel of the solar cell unit is integrally formed on the ceiling part.

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