KR101161308B1 - Variable assembling type ginseng field assembly using a solar cell pannel - Google Patents

Abstract

The present invention relates to a combination variable ginseng field assembly using a solar cell panel, comprising: a guide rail arranged in a shade formed by the solar cell panel; It is seated on the guide rail, and has a rectangular box shape with an open top and consists of a modular ginseng field unit filled with soil for growing ginseng; The ginseng field unit is connected in series by a connecting pipe arranged in an inline form, or stacked in a multi-layer stack to provide a variable assembly ginseng field assembly.

According to the present invention, it is easy to assemble and dismantle, and stacking is possible, so that the high degree of integration enables high efficiency management and mass production of ginseng, and it is possible to grow ginseng regardless of climatic conditions by using electric energy obtained from sunlight. Through this, it is possible to obtain the effect of mass production of high quality uniform and excellent domestic ginseng.

Phosphoric Acid Field, Unit, Solar Panel, LED Lighting, Modular

Description

Assembly variable ginseng field assembly using solar cell panel {VARIABLE ASSEMBLING TYPE GINSENG FIELD ASSEMBLY USING A SOLAR CELL PANNEL}

The present invention relates to an assembling variable ginseng field assembly using a solar cell panel, and more particularly, by using a shade of a solar cell panel installed in various places as part of the green industry, combination connection and layering are possible. The present invention relates to an improved variable assembly ginseng field assembly capable of mass cultivation and improved ginseng cultivation of uniform quality regardless of climatic conditions.

As ginseng can be tilled by ginseng soil sterilization method using electron beam, it is possible to settle agriculture of ginseng and to open a large scale complex to grow ginseng.

However, due to the physiological characteristics of ginseng, respiration is effected without photosynthesis at temperatures higher than 30 ℃, so traditionally, sundown facilities are required to maintain proper temperature for ginseng growth. Not only this, but also the increase in management costs will deteriorate the international competitiveness of Korean ginseng.

In particular, considering the current situation of severe climate change on the Korean Peninsula due to the global warming caused by the indiscriminate use of fossil fuels, the difficulty of growing ginseng is expected to increase further. Seems to do.

For example, natural disasters such as heavy rains, hail, and heavy snow, which are occurring frequently, are damaging to the damage of ginseng's sun screening device (e.g. rainy season rainfall or sunbeams damaged-> ginseng yield reduction-> ginseng farms Increase economic losses to

In addition, the traditional method of cultivating ginseng, which is dependent on human labor, is limited to mass production of ginseng, and it does not receive sunlight during rainy days and long rainy seasons where there is little sunshine. Also have.

In addition, in order to prevent pest damage of ginseng, a large amount of pesticides should be used about 15 to 20 times a year. Therefore, it is urgently required to develop a prevention method and prevention technology, not a method of reducing ginseng pest damage.

In addition, due to the structure of the traditional sun ginseng device, it is impossible to utilize a mechanical device and a data measuring device other than manpower, and above all, it is difficult to change the idea of trying a new method for growing ginseng.

On the other hand, due to the rapid global warming, natural disasters such as guerrilla heavy rains, heat waves, heavy snowfall, droughts and glacier thawing are frequent, and advanced countries are competing for efforts to reduce the green industry, or CO2 emissions.

Among them, a power production boom using solar cells is being developed following wind power generation.

Recently, large-scale solar cell panels have been installed in Korea, especially in local governments. In the future, more and more solar cell panels will be installed to produce clean energy.

However, solar cell panels installed as part of efforts to obtain energy through sunlight, which is a natural infinite resource, inevitably form shaded areas (shades) at the back of the panel. This has not been studied.

The present invention was created in view of the above-described problems in the prior art, and a solar cell panel is necessary to produce electric energy from solar light, and the solar cell panel is also indispensably shaded. It is easy to assemble and dismantle, and it is easy to assemble and dismantle, so that the degree of integration is high, so high efficiency management and mass production of ginseng are possible. Ginseng cultivation is possible regardless of climatic conditions by using electric energy obtained from sunlight. In addition, the main problem is to provide a variable assembly ginseng field assembly using a solar cell panel capable of mass production of high-quality domestic ginseng even through this.

The present invention provides a means for achieving the above object, the guide rails are arranged to have a predetermined interval in the shade caused by the solar cell panel; It is seated on the guide rail, and has a rectangular box shape with an open top and consists of a modular ginseng field unit filled with soil for growing ginseng; The ginseng field unit is connected in series by a connecting tube is arranged in an inline form or stacked in a multi-layer stack to provide a variable assembly ginseng field assembly using a solar cell panel.

At this time, the top of the ginseng field unit is also characterized in that the liquid injection pipe having a plurality of holes is further installed to inject nutrients or antagonistic microorganisms.

In addition, the ginseng field unit is characterized in that it is further provided with a temperature sensor and a humidity sensor.

In addition, the upper part of the ginseng field unit is characterized in that the sprinkler is further installed to inject water or pest control medicine.

In addition, the upper part of the ginseng field unit is characterized in that a plurality of red and blue LEDs are further installed to irradiate light of red and blue wavelengths to activate photosynthesis of ginseng on a cloudy day.

In addition, one side of the ginseng field unit is characterized in that the cooling fan for ventilation and temperature control is further installed.

In addition, the solar cell panel is characterized in that it is configured to adjust the inclination through a mechanical connection or a combination of a hydraulic motor, a rack and pinion, or a hydraulic cylinder.

The present invention provides the following effects.

First, the soil between the solar panel and the solar panel in the existing solar cell complex on the plain can be used as a ginseng field, so it does not require a traditional sun screening facility.

Second, the ginseng field itself is modularized so that the combination connection and layer stacking are possible, making it possible to create an optimized ginseng field in any terrain conditions.

Third, in the reality that most fields and farmland are contaminated with contaminants, the soil of modular ginseng field unit is reusable and if necessary, sterilizes with electron beam or refills soil already sterilized with electron beam for uniform high quality. Of ginseng cultivation is possible.

Fourth, the modular ginseng field unit can secure various data by measuring temperature and humidity and analyzing antagonistic microorganisms or other nutrient components, and through this data, the growth of ginseng can be monitored, and the results are fed back to add functionality. Goryeo ginseng cultivation also has the effect.

Fifth, it is possible to grow ginseng regardless of climatic conditions by activating the photosynthesis of ginseng using low-power LED lighting to make ginseng photosynthetic during long rainy season and cloudy weather, and standardization and globalization of ginseng cultivation You can lead the way.

Sixth, new and diverse ginseng cultivation techniques can be established in the method of growing ginseng by hand and human labor.

Seventh, it is possible to make full use of expensive solar panel facilities, thus achieving the effect of two birds.

Eighth, through the new form of ginseng cultivation that combines Korean ginseng cultivation with the green business concentrated in developed countries, it has the effect of becoming a model for the method of growing value-added agricultural products.

Ninth, by miniaturizing the modular ginseng field unit to spread the potted ginseng field, there is an effect that can be grown in Korean ginseng.

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

1 is an exemplary view showing an installation example of a ginseng field assembly according to the present invention, Figure 2 is an exemplary side view of the ginseng field assembly according to the present invention, Figure 3 is an exemplary front view of the ginseng field assembly according to the present invention 4 is an exemplary perspective view of a ginseng field assembly according to the present invention, and FIG. 5 is an exemplary plan view showing another example of the ginseng field assembly according to the present invention.

As shown in Figures 1 to 4, the ginseng field assembly according to the present invention is installed in the shade of the pre-installed solar cell panel 100.

That is, the solar cell panel 100 includes pillars 110 and 112 for supporting it, and a connecting rod 120 that connects the pillars 110 and 112 to each other and binds them firmly. The ginseng field assembly according to the present invention is provided on the space in which the pillars 110 and 112 are installed to use the shade generated while blocking.

More specifically, the ginseng field assembly according to the present invention includes a pair of guide rails 200 arranged inside the pillars 110 and 112 in the longitudinal direction of the solar cell panel 100.

Here, the expression inside the pillars 110 and 112 means a space between the pillars arranged in the width direction, not the pillars arranged at intervals in the longitudinal direction of the solar cell panel 100.

The guide rail 200 is preferably formed in a substantially 'b' shape, and although not shown in detail, may be configured to facilitate assembly and disassembly in a manner of being bolted to the pillars 110 and 112.

In addition, the guide rails 200 are provided with a plurality of wheels 200 to be self-rotating at a predetermined interval.

The ginseng field unit 300 is mounted on the guide rail 200.

The ginseng field unit 300 is a rectangular box-shaped member having an open top surface, and filled with soil for growing ginseng therein.

In addition, the liquid supply pipe 310 is piped to the top of the filled soil. That is, the liquid supply pipe 310 is installed to be bent in a plurality of times arranged on the upper end of the ginseng field unit 300 is installed so as to spray the required liquid over the entire soil.

In addition, the liquid supply pipe 310 has a plurality of fine holes are formed so that the liquid supplied through the liquid supply pipe 310 can be discharged to the filled soil.

Here, the liquid supplied through the liquid supply pipe 310 may be nutrients, antagonistic microorganisms and the like.

In this case, the nutrients are prepared 0.5, 1.0 dS / m for each EC concentration and then supplied twice a month (1 day, 16 days) and the supply amount is about 80 ℓ per modular ginseng field unit (300) once Can be operated.

In particular, the nutrient is preferably used by setting based on the RDA raw nutrient solution, the pH of the nutrient solution is preferably adjusted to 5.0 ~ 6.0 using H ₂ SO ₄ and KOH.

The composition of this raw nutrient solution is shown in Table 1 below, and the unit is g / 400 L.

Elements and compounds Nutrient EC Concentration (dS / m)       Large amount element Ca (N0 ₃ ) ₂ 4H ₂ 0 93.9 187.0 KNO ₃ 50.6 101.1 NH ₄ NO ₃ 8.0 16.0 MgSO ₄ 7H ₂ O 49.2 98.4 KH ₂ PO ₄ 13.6 27.1       Trace elements Fe-EDTA 2.0 4.0 H ₃ BO ₃ 0.3 0.5 ZnSO ₄ 4H ₂ O 0.02 0.04 CuSO ₄ 4H ₂ O 0.005 0.01 NaMoO ₄ 2H ₂ O 0.02 0.04

In addition, the antagonist microorganisms of KS50, Pseudomonas, Bacillus, Arthrobacter, Aspergillus, Penicillium are used to treat the antagonist microorganisms in the ginseng, and the growth of ginseng roots to increase the growth of the ginseng root Methyl Celluose as a substrate is better to supply the ginseng through the liquid supply tube 310 in the concentration range of 0.5 ~ 2.5%. If Methyl Celluose is supplied at less than 0.5%, the effect is negligible. If Methyl Celluose is supplied at more than 2.5%, root growth is rather inhibited.

In addition, the plurality of temperature sensors 320 and humidity sensors 330 are installed on the upper edge of the ginseng field unit 300 to be configured to maintain the most suitable temperature and humidity for ginseng cultivation, such a sensor Although not illustrated in detail, they may be configured to be connected to a control unit (not shown) such as a microprocessor to manage and data the environment (condition) according to the growth of ginseng in each ginseng field unit 300, as well as this. The display can be further connected for monitoring.

In addition, the top of the ginseng field unit 300 is provided with a sprinkler (Sprinkler) (340), through which can be configured to spray moisture or pests for pest control, etc. necessary for cultivating ginseng.

On the other hand, the ginseng field unit 300 is provided with a plurality, each ginseng field unit 300 is connected between the connection pipe (C), the connection pipe (C) is connected in the form of quick coupling assembly and disassembly Is configured to be easily made in a short time, it is particularly preferably configured to increase the efficiency of the liquid supply by connecting the liquid supply pipes 310 with each other.

In addition, the connecting rod 120 is provided with at least one or more LED fixture 400 across it.

The LED fixture 400 is used to activate the photosynthesis when a plurality of LEDs 410 is installed on the lower surface is not enough sunlight.

To this end, the LED 410 is used in two kinds of red and blue, it is configured to emit light of a specific wavelength toward the soil, that is, cultivated ginseng.

In addition, the power source required at this time may further utilize energy converted from solar light into electrical energy through the solar cell panel 100.

In addition, the electrical energy obtained from the sunlight can be utilized as a driving source for driving the cooling fan 500, the cooling fan 500 is installed on one side of the ginseng field unit 300 of the ginseng field unit 300 It is used for temperature control, and the growth condition of ginseng field during summer is suitable for 20 ~ 24 ℃.

Here, the operation by the LED 410 will be described in more detail as follows.

The LED 410 is installed to help photosynthesis of ginseng, photosynthesis is absorbed into the chloroplasts in the leaf cells of the plant through the leaves and carbon dioxide in the air through the leaves of the plant When light energy is absorbed by chlorophyll of chloroplasts, carbohydrates such as glucose, oxygen and water are produced.

6CO ₂ + 12H ₂ O + Light-> C ₆ H ₁₂ O ₆ + 6H ₂ O + 6O ₂

or

-> C ₆ H ₁₂ O ₆+6 O ₂, F = +2.8710⁶J=+686kcal 6 CO ₂ + 6 H ₂ O

-> C ₆ H ₁₂ O ₆ + 6 O ₂ , F = +2.8710 ⁶ J = + 686 kcal

At this time, the first or second reaction equation shows that the energy of light in the visible light range, that is, the energy of photosynthesis, activates the chemical reaction of photosynthesis.

When a green plant performs photosynthesis, the amount of carbon dioxide absorption-curve in the blue and red sections of the visible spectrum is maximal when observing the amount of carbon dioxide absorbed by the leaves of the plant in the air.

In other words, green plants absorb the maximum amount of carbon dioxide in the air from red and blue visible light and produce the maximum amount of glucose and oxygen as the output of photosynthesis in proportion to the amount of carbon dioxide absorbed.

Therefore, by using the blue and red LEDs individually or simultaneously to adjust the illumination time of the visible light on the plant and the intensity of the illumination, that is, by arbitrarily adjusting the blue and red visible light transmitted to the plant, the time of photosynthesis of the plant Because the intensity of the fruit is controlled, it is possible to control the timing of flowering or the fruit yield depending on the purpose.

In the present invention, the blue or red illumination LED 410 is installed on the set ginseng field unit 300 so that the ginseng can photosynthesize even when the sun is insufficient due to clouds or rainy weather in the rainy season, and blue (wavelength) 470nm) or red (wavelength 650nm) by irradiating the light individually or at the same time to help the growth of ginseng not only to increase productivity, but also to increase the saponin cultivation of ginseng to produce higher quality ginseng.

In addition, the inclined angle of the solar cell panel 100 by installing the electric motor (M) on the pillars 110, 112, as shown in Figure 4, by combining the rack and pinion to draw out the pillars 110, 112 in the form of an antenna. It may also be adjusted, the drive source thereof can also be obtained from the solar cell panel 100 described above.

Of course, it is not necessary to constitute the electric motor (M), and in some cases, it may be configured using a ball, hydraulic cylinder having a certain stroke.

Thus, by adjusting the inclination angle of the solar panel 100 according to the latitude and season to maximize the use of the south of the altitude of the sun to maximize power production, and to function against extreme weather conditions such as typhoon, heavy rain, heavy snow, etc. It is more preferable to minimize the damage to the action.

In another embodiment, as illustrated in FIG. 5, a portion of the solar light is formed on the ginseng as a gap between the cells by forming a shape in which the intervals of the respective solar cells constituting the solar panel 100 are uniformly spaced. Configure it for direct investigation. This not only reduces the power loss of LED lighting, but also has the effect of helping the growth of ginseng by actively using natural light.

In addition, it is possible to circulate the air through the gap between each cell to prevent the temperature rise in the ventilation and summer, and to cool the heat generated in the solar panel 100 to prevent the temperature rise by the solar panel 100. You can also get the effect.

The present invention having such a configuration has the following operational relationship.

First, an important factor that can be constructed in accordance with the present invention is because a technology for sterilizing ginseng soil through an electron beam was developed by the applicant.

If such a technique is not premised, the grinding of ginseng soil is impossible, and thus a modular unit such as the present invention cannot be constructed.

The ginseng field unit 300 according to the present invention is placed in a cultivable state by filling the guide rail 200 on the shade of the solar cell panel 100 in the state in which the sterilized soil is filled with the electron beam and the ginseng is planted.

In this case, the ginseng field unit 300 may be arranged in a layer in consideration of the height of the pillars (110, 112), may be arranged in parallel, bar can be integrated in a high density even in a small area mass production structure easily I can equip it.

In this state, the temperature and humidity of the ginseng field unit 300 are continuously detected by each sensor, and the control unit receives the control unit to control the driving of the cooling fan 500 at all times to always adjust the temperature to the most suitable temperature for growth. It becomes possible.

And, if necessary, it is possible to improve the development of ginseng by supplying antagonism as well as nutrients through the liquid supply pipe (310).

In addition, through the sprinkler 340 can be easily and automatically supplied with moisture and pesticides, it is possible to grow more excellent quality ginseng, it is possible to significantly reduce the waste of manpower.

In addition, easy disassembly and assembly is easy to replace and use, it is possible to separate and manage only the unit that requires special management.

As such, the ginseng field assembly according to the present invention can be quickly and accurately customized after various diseases / pests are identified at an early stage, and can be controlled to maintain an even nutritional condition, particularly suitable for mass production of Korean ginseng 6 years old. Do.

In addition, all data necessary for management can be stored and verified, which can be used as a material to further improve the technical proficiency of the cultivation technology in the future.

In addition, the miniaturization of such a composition in the form of a pot may open the way to grow ginseng easily at home.

1 is an exemplary view showing an installation example of ginseng field assembly according to the present invention,

2 is an exemplary side view of the ginseng field assembly according to the present invention;

3 is an exemplary front view of a ginseng field assembly according to the present invention;

4 is an exemplary perspective view of a ginseng field assembly according to the present invention;

5 is an exemplary plan view showing another example of the ginseng field assembly according to the present invention.

Explanation of symbols on the main parts of the drawings

100 .... Solar Panel 110,112 ...

120 ... connecting rod 200 ... guide rail

210 .... wheel 300 .... phosphate unit

310..Liquid supply line 320 .... Temperature sensor

330 ... humidity sensor 340 ... sprinkler

400 .... LED Fixture 410 .... LED

500 .... cooling fan

Claims (7)

A solar cell panel; Guide rails arranged to have a predetermined interval in the shade caused by the solar cell panel; And a modular ginseng field unit seated on the guide rail and having a box shape with an open top and filled with soil for growing ginseng, The ginseng field unit is connected in series by a connecting tube is arranged in an inline form or stacked in a multi-layer assembly type ginseng field assembly, characterized in that arranged in a layered. The method according to claim 1, Supply the sterilized soil through the electron beam to the ginseng field unit, The ginseng field unit assembly variable ginseng field assembly using a solar cell panel, characterized in that the liquid injection pipe having a plurality of holes is further installed to inject nutrients or antagonism microorganisms. The method according to claim 1, The ginseng field unit assembly variable ginseng field assembly using a solar cell panel, characterized in that further provided with a temperature sensor and a humidity sensor. The method according to claim 1, The solar cell panel is composed of a plurality of cells, variable assembly ginseng field assembly using a solar cell panel, characterized in that configured to space the interval of each cell uniformly. The method according to claim 1, The ginseng field unit assembly variable ginseng field assembly using a solar cell panel, characterized in that a plurality of red or blue LED is further installed to irradiate light of red or blue wavelength to activate photosynthesis of ginseng on a cloudy day. The method according to claim 1, One side of the ginseng field unit is further provided with a cooling fan for ventilation and temperature control, the electrical energy obtained from the solar panel is assembled variable ginseng field using a solar cell panel, characterized in that utilized as a drive source for driving the cooling fan. Assembly. delete

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