KR20220082439A - Functional ingredient enhancement plant cultivation system - Google Patents

Abstract

The present invention relates to a plant cultivation system including a floor-type nutrient solution storage tank, and more particularly, to a floor-type nutrient solution storage tank that can increase the efficiency of nutrient solution recovery through a nutrient solution storage tank formed on the floor without configuring a separate nutrient solution storage tank It relates to a plant cultivation system comprising a.
A plant cultivation system according to an embodiment of the present invention includes a layer division support frame formed of a plurality of horizontal frames and vertical frames so that a planting bed for plant cultivation is partitioned into a plurality of cultivation layers and installed, and a length in the plurality of cultivation layers. A plurality of cultivation beds are installed extending along the direction, spaced apart from each other by a predetermined distance in the width direction of the cultivation layer, a plurality of cultivation tables on which the planting beds for plant cultivation are installed, are connected to one side of the cultivation bed, and are delivered from the nutrient solution circulation system A nutrient solution supply unit for supplying a nutrient solution to be used, a nutrient solution flow unit installed at the lower part of the cultivation table, and a nutrient solution flow unit for supplying the nutrient solution to the plants by flowing the nutrient solution supplied from the nutrient solution supply unit to the lower part of the planting bed; and the other side of the cultivation table. , a nutrient solution recovery unit for recovering the nutrient solution discharged from the nutrient solution flow unit, an access floor installed under the floor partition support frame and spaced apart from the ground by a predetermined distance, and a trench portion and interior installed through the access floor A predetermined space is formed in the nutrient solution recovery section and includes a drainage reservoir including a kernel section for storing the nutrient solution recovered from the trench section.

Description

Functional ingredient enhancement plant cultivation system

The present invention relates to a functional ingredient-enhanced plant cultivation system, and more particularly, to a functional ingredient-enhanced plant cultivation system for effectively producing and cultivating functional crops by directly high-pressure spraying of a nutrient solution to the roots in a plant cultivation device.

Unless otherwise indicated herein, the material described in this section is not prior art to the claims of this application, and inclusion in this section is not an admission that it is prior art.

The artificial light plant factory started in Europe in 1957, and developed into a fully controlled plant factory using only artificial light in the United States in the 1960s. As they put salad vegetables on the market, they were able to secure the related technologies to date.

In the artificial light plant factory where plants are artificially grown as described above, an artificial cultivation bed is used instead of a large land such as a vegetable garden. The above cultivation table can be used for various purposes, and the purpose of multi-level cultivation is the greatest, and as many technological developments have been made in recent years, the concept of multi-level cultivation that is simply stacked in multiple layers has been developed, and even a movable plant cultivation table has been developed. come.

The nutrient solution supplied to the plants planted on such a plant cultivation table is a nutrient solution formulated with the nutrients necessary for plant cultivation according to the characteristics of the plant, and is configured to be continuously supplied during the anniversary production. Plants grown in the plant factory have a faster growth rate than open-field cultivation, so the consumption of nutrient solution increases, and when an ion imbalance in the supply nutrient solution occurs, the growth is affected. It is also possible to prevent sudden changes in the formulated nutrient solution or to correct the nutrient solution concentration while continuously monitoring the status of the nutrient solution. In such nutrient solution management, if the temperature of the nutrient solution increases, the respiration rate of the roots increases and the amount of dissolved oxygen decreases, resulting in a lack of oxygen.

The most important thing in nurturing plants installed in such a plant bed is to periodically supply an appropriate amount of nutrient solution to the roots of the plant to help the growth of the plant, where the nutrient solution flows while the plant is installed on the plant bed In general, it is made so that the roots are partially submerged and the nutrient solution is supplied. However, since the roots of a plant are branched out and pruned fine roots are formed from the thick roots, even if the roots of the plant are submerged in the pipe through which the nutrient solution flows, the structure of the nutrient solution flowing in only one direction gives the proper amount to all the roots of the plant. There was a limit to evenly supplying the nutrient solution.

3. Korean Patent Registration No. 10-0869813 (published on November 26, 2008)

A functional ingredient-reinforced plant cultivation system with a control function that can selectively control the LED wavelength or light intensity for rapid plant growth while spraying the nutrient solution in a high-pressure spray method towards the roots of plants planted in the plant growing machine. would like to provide

In addition, it is not limited to the technical problems as described above, and it is obvious that another technical problem may be derived from the following description.

The plant cultivation system according to an embodiment of the present invention is divided into a plurality of plant cultivation layers, and a plant cultivation table for holding planted plants, and a nutrient solution delivered from a nutrient solution circulation unit connected to one side of the plant cultivation table. A nutrient solution supply unit for supplying the nutrient solution, a nutrient solution supply nozzle extending from the nutrient solution supply unit and supplying the nutrient solution in a high-pressure spraying manner toward the roots of plants planted on the plant cultivation table, and a nutrient solution supply nozzle installed at the bottom of the plant cultivation table to provide a nutrient solution to the nutrient solution supply unit Includes a high-pressure motor pump for supplying

According to a preferred feature of the present invention, a temperature and humidity device installed on the upper part of the plant growing table to control the temperature and humidity around the planted plant, and an LED unit installed on the upper part of the plant planted on the plant growing table for photosynthesis, respectively; It is installed on one side of the plant growing table characterized in that it further comprises a ventilation fan to circulate the surrounding air of the plant growing table.

According to a preferred feature of the present invention, the thermo-hygrostat, the LED unit, and the ventilator are controlled, the temperature and humidity around the plant growing table are properly maintained through the thermo-hygrostat, and the LED wavelength and light intensity supplied to the plants through the LED unit. It is characterized in that it further comprises an ICT automatic controller that controls the flow rate of air circulated through the fan.

According to a preferred feature of the present invention, it is characterized in that it further comprises a UV sterilization device for sterilizing the nutrient solution is installed and supplied to the high-pressure motor pump.

According to a preferred feature of the present invention, the amount of nutrient solution sprayed from the nutrient solution supply unit through the nutrient solution supply nozzle is controlled, and the amount of nutrient solution supplied from one side of the nutrient solution supply unit to the other side is increased to give the whole plant planted on the plant growing table. It characterized in that it further comprises a nutrient solution supply control unit for controlling to spray the uniform nutrient solution.

According to an embodiment of the present invention, the efficiency of nutrient solution supply is increased by spraying the nutrient solution to the roots of plants planted on the plant growing table in a high-pressure spraying method, and bacterial suppression in plants, immunity enhancement, and growth promotion can be made smoothly. There are advantages.

In addition, according to an embodiment of the present invention, there is an advantage that effective functional crops can be produced by controlling the LED light, wavelength, or temperature and humidity to create an optimal environment in which plants can grow.

It should be understood that the effects of the present invention are not limited to the above-described effects, and include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is a perspective view of a plant cultivation system according to an embodiment of the present invention;
2 is a front view of a plant cultivation system according to an embodiment of the present invention.
3 is a side view of a plant cultivation system according to an embodiment of the present invention.
4 is a plan view of a single plant cultivation layer in the plant cultivation system according to an embodiment of the present invention.
5 is a conceptual diagram illustrating a part controlled by an ICT automatic controller in a plant cultivation system according to an embodiment of the present invention.

Hereinafter, the configuration, operation, and effect of the plant cultivation system according to a preferred embodiment will be described with reference to the accompanying drawings. For reference, in the following drawings, each component is omitted or schematically illustrated for convenience and clarity, and the size of each component does not reflect the actual size. In addition, the same reference numerals refer to the same components throughout the specification, and reference numerals for the same components in individual drawings will be omitted.

The plant cultivation system according to an embodiment of the present invention is divided into a plurality of plant cultivation layers, and a plant cultivation table 10 for holding planted plants, and one side of the plant cultivation table 10 are connected to the nutrient solution The nutrient solution supply unit 20 for supplying the nutrient solution delivered from the circulation unit, and a nutrient solution extending from the nutrient solution supply unit 20 and supplying the nutrient solution to the roots of the plants planted on the plant growing table 10 by a high-pressure spray method It includes a supply nozzle 30 and a high-pressure motor pump 40 installed under the plant growing table 10 to supply the nutrient solution to the nutrient solution supply unit 20 .

The plant cultivation table 10 is a cultivation table on which plants are planted for plant cultivation, and a plurality of plant cultivation layers are formed and plants are planted on each plant cultivation layer to form one plant cultivation bed system. Although the material of the plant growing table 10 is SUS, it is not limited thereto, and various materials can be used according to the purpose. The plant cultivation table 10 may be made of a cultivation plate in which a plurality of perforations are formed according to a certain rule so that a plurality of plants can be planted, and when plants are planted on such a cultivation plate, there is an advantage that can be managed collectively. Instead of the cultivation plate, it is also possible to plant a plant through a hole formed in a cultivation vessel or a pipe through which a nutrient solution flows.

Next, it may further include a nutrient solution supply unit 20 connected to one side of the plant growing table 10 to supply the nutrient solution delivered from the nutrient solution circulation unit. The nutrient solution supply unit 20 is configured to supply the nutrient solution pumped from the nutrient solution circulation unit (or the nutrient solution storage tank) through the high-pressure motor pump 40 to the plants planted in the plant growing table 10 . The nutrient solution supply unit 20 is connected to the high-pressure motor pump 40 from the nutrient solution circulation unit and extends to the side of the plant cultivation table 10 of each plant cultivation layer, and along the longitudinal direction of the plant cultivation table 10 from the side extension is formed. Nutrient solution may be supplied toward the roots of plants planted on the plant growing table 10 through the nutrient solution supply unit 20 installed in this way. Here, when the nutrient solution supply unit 20 extends in the longitudinal direction of the plant growing table 10 from the side, it is formed to be divided into several branches so that it can supply the nutrient solution to more plants, and in the present invention, the plant culture table (10) has a structure that is installed on both sides of the longitudinal direction so that the nutrient solution can be supplied toward the plant growing table (10).

The plant to be planted on the plant growing table 10 may be any plant that can be grown indoors, and it is also possible to grow root plants such as ginseng. Here, in cultivating ginseng, particularly sprout ginseng, the growth efficiency of the nutrient solution sprayed to the root varies depending on the composition, and the present invention discloses an embodiment of the nutrient solution composition sprayed to the sprout ginseng root. Green tea, persimmon, brown rice, and ginkgo leaves (including fruits) are formulated with sulfur, an essential element for the growth and activity of all living things, to promote absorption and to reinforce natural organic and mineral components. Through high-purity culture of microorganisms using fructose (sucrose, reducing sugar, molasses), the primary metabolites (amino acids, nucleic acids, proteins, lipids, carbohydrates) and secondary metabolites (defense substances against invasion and attack by external pests) It may consist of a nutrient solution composition exclusively for sprout ginseng roots that strengthens the roots of sprout ginseng through the

Here, the green tea is biofeedback (vacuum low temperature) liquid extraction containing the active ingredient (catechin), and the catechin, a component of green tea, is extracted with a significantly higher active ingredient than the existing hot water extraction method, and persimmon + brown rice + ginkgo leaf (including fruit) ) can be utilized (maximizing absorption rate) in a rough state from alcohol fermentation to acetic acid fermentation and maturation through long-term microbial fermentation, with 10-20% of complex sulfur, 10-20% of green tea biofeedback extract, persimmon, brown rice, and ginkgo biloba. When it is mixed at a ratio of 80-90% of the fermented wood solution and completed through a stabilization process for 1 to 2 weeks, the optimal effect can be exhibited as a source of natural organic matter and minerals.

Next, the nutrient solution supply nozzle 30 is extended to the nutrient solution supply unit 20 and supplies the nutrient solution to the roots of the plants planted on the plant growing table 10 in a high-pressure spraying manner. It includes a nutrient solution supply nozzle 30 formed in such a way that the nutrient solution supplied through the nutrient solution supply unit 20 is sprayed toward the plant, or more precisely, the root of the plant planted on the plant growing table 10 . Here, the nutrient solution supply nozzle 30 may have a nozzle outlet for spraying toward the root of the planted plant, and the nutrient solution supply nozzle 30 is sprayed from both sides of the plant cultivation table 10 toward the center. Efficient supply of nutrient solution to the roots is achieved. More specifically, the nutrient solution supply nozzle 30 may have a mesh filter installed at the exposed outlet, so that when sprayed at a high pressure, the nutrient solution can be supplied in a spraying manner while passing through the mesh filter. In order to spray the nutrient solution in this spraying method, high-pressure nutrient solution must be delivered to the nutrient solution supply nozzle 30. In order to spray only high pressure in this way, an opening and closing part composed of a check spring and a pin is formed at the nozzle outlet, so that it is not opened to low pressure. When the nutrient solution is supplied above the pre-designed pressure, the spring elasticity is overcome and the opening/closing part opens so that the nutrient solution is discharged.

Finally, it may include a high-pressure motor pump 40 for supplying the nutrient solution to the nutrient solution supply unit 20 installed under the plant culture table (10). The high-pressure motor pump 40 is a means for pumping the nutrient solution stored in the nutrient solution circulation unit upward.

According to a preferred feature of the present invention, a thermo-hygrostat (50) installed on the top of the plant growing table (10) to control the temperature and humidity around the planted plants, and the upper part of the plants planted on the plant growing table (10) It is installed in each of the LED unit 60 for photosynthesis, and a fan 70 installed on one side of the plant growing table 10 to circulate the surrounding air of the plant growing table 10 .

According to a preferred feature of the present invention, the temperature and humidity around the plant growing table 10 are appropriately adjusted by controlling the thermo-hygrostat 50 , the LED unit 60 , and the ventilator 70 , and through the thermo-hygrostat 50 . It further comprises an ICT automatic controller 80 for controlling the LED wavelength and light intensity supplied to the plants through the LED unit 60, and controlling the air flow rate circulated through the ventilator 70. do.

The ICT automatic controller 80 is a control unit for creating an optimal environment for plants to grow, and temperature and humidity, LED, and air flow are important factors for plant growth. Accordingly, the temperature and humidity device 50, the LED unit 60, and the ventilation fan 70 may be installed in the plant cultivation system of the present invention, and control them to maintain the temperature and humidity conducive to plant growth, photosynthesis It is possible to supply an appropriate amount of light in a desired wavelength band, and the fan 70 for allowing air to circulate without being stagnant can be controlled.

According to a preferred feature of the present invention, it is characterized in that it further comprises a UV sterilization device (90) for sterilizing the nutrient solution that is installed and supplied to the high-pressure motor pump (40).

The UV sterilization device 90 may be installed in a position where the nutrient solution is pumped from the tank in which the nutrient solution is stored through the high-pressure motor pump 40. Sterilization to prevent bacterial propagation or infection by viruses in the nutrient solution inside the nutrient solution storage tank With the device, sterilization can be achieved by irradiating UV. UV irradiated from the UV sterilization device 90 may be harmful to the human body depending on the wavelength, so the UV sterilization device 90 may be controlled to operate only when there is no human inflow or outflow through the ICT automatic controller 80 .

According to a preferred feature of the present invention, the amount of nutrient solution injected from the nutrient solution supply unit 20 through the nutrient solution supply nozzle 30 is controlled, and the amount of nutrient solution supplied from one side of the nutrient solution supply unit 20 to the other side is increased. It is characterized in that it further comprises a nutrient solution supply control unit for controlling to spray a uniform nutrient solution to all plants planted on the plant growing table (10).

The nutrient solution supply unit 20 is pumped upward from the nutrient solution storage tank and is formed to extend along the longitudinal direction from one side of the plant growing table 10 . Here, a plurality of the nutrient solution supply nozzles 30 are spaced apart from each other at regular intervals along the longitudinal direction, and the nutrient solution is sequentially supplied. Accordingly, an equal amount of nutrient solution can be supplied to all plants by increasing the amount of nutrient solution supplied as the nutrient solution supply nozzle 30 moves from one side to the other through the nutrient solution supply control unit.

Although preferred embodiments of the present invention have been described with reference to the accompanying drawings, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and represent all of the technical spirit of the present invention. Therefore, it should be understood that there may be various equivalents and modifications that can be substituted for them at the time of filing the present application. Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their All changes or modifications derived from the concept of equivalents should be construed as being included in the scope of the present invention.

10: plant cultivation table
20: Nutrient solution supply unit
30: nutrient solution supply nozzle
40: high pressure motor pump
50: thermo-humidifier
60: LED part
70: ventilator
80: ICT automatic controller
90: UV sterilization device

Claims (5)

It is partitioned into a plurality of plant culture layers, and a plant culture table for holding the planted plants;
a nutrient solution supply unit connected to one side of the plant growing table to supply the nutrient solution delivered from the nutrient solution circulation unit;
a nutrient solution supply nozzle extending from the nutrient solution supply unit and supplying the nutrient solution to the roots of plants planted on the plant growing table by a high-pressure spraying method;
a high-pressure motor pump installed under the plant growing table to supply the nutrient solution to the nutrient solution supply unit;
A plant cultivation system comprising a. The method of claim 1,
a thermo-hygrostat installed at the top of the plant growing table to control the temperature and humidity around the planted plants;
LED units for photosynthesis respectively installed on the plants planted on the plant growing table;
a fan installed on one side of the plant growing table to circulate air around the plant growing table;
Plant cultivation system, characterized in that it further comprises. The method of claim 1,
Controls the thermo-humidifier, the LED unit, and the ventilator,
An ICT automatic controller that appropriately maintains the temperature and humidity around the plant growing table through the thermo-hygrometer, controls the LED wavelength and light intensity supplied to the plants through the LED unit, and controls the air flow rate circulated through the ventilation fan. Plant cultivation system, characterized in that. 4. The method of claim 3,
Plant cultivation system, characterized in that it further comprises a UV sterilization device for sterilizing the nutrient solution is installed in the high-pressure motor pump. 4. The method of claim 3,
Controlling the amount of nutrient solution injected from the nutrient solution supply unit through the nutrient solution supply nozzle, and increasing the amount of nutrient solution supplied from one side of the nutrient solution supply unit to the other side to control the spraying of the nutrient solution evenly to all plants planted on the plant growing table Plant cultivation system, characterized in that it further comprises a nutrient solution supply control unit.

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