KR20170102835A - A method of cultivation for young ginseng with enhanced ginsenoside - Google Patents

Abstract

The present invention relates to an aquaculture method for ginseng, and an apparatus therefor. More specifically, the present invention relates to an aquaculture method for immature ginseng, and an apparatus therefor. The method for cultivating immature ginseng ensures increased ginsenoside content through irradiation of light consisting of blue light and wideband red light. According to the present invention, the ginseng cultivation method makes immature ginseng stand a long period of distribution processes by cultivating the immature ginseng under a standardized cultivation environment. Moreover, provided is a method for increasing ginsenoside content in leaves and stems, especially ginsenoside F series.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for cultivating ginseng grown with ginsenoside, a device used therefor, and a method for cultivating ginseng,

The present invention relates to a ginseng hydroponic cultivation method and apparatus, and more particularly, to a ginseng cultivation method and apparatus for ginseng.

Ginseng is a very useful medicinal plant containing useful ingredients such as ginsenosides in its roots, but it requires a long growing time of more than 6 years in order for the sufficient amount of useful ingredients to be concentrated in the roots. In addition, ginseng is a typical shade plant, and it is easily damaged when exposed to sunlight in sunshine, so there is a problem that a facility such as a shade is required for cultivation.

Recently, it has been known that the useful components of ginseng are present in many leaves or stems when they are young, and then they are gradually gathered into roots as they mature. Instead of cultivating ginseng roots that take a long time, the leaves and stems of young ginseng Consumption type that is consumed in the form appears.

However, the juvenile larvae do not grow enough, and the juvenile components such as ginsenosides are in short supply as compared to adults. In addition, stem and leaves are not strong due to the nature of shade plants. There is a problem of fading.

In addition, ginseng is important in the water dropout of roots, which is easily exposed to root rot caused by uneven distribution of water in trays.

On the other hand, Korean Patent Laid-Open Publication No. 2014-0102481 discloses a method for providing ultraviolet LEDs for enhancing the content of ginsenosides.

A problem to be solved by the present invention is to provide a method for cultivating ginseng strengthened with ginsenoside.

Another problem to be solved by the present invention is to provide a method for cultivating juvenile ginseng reinforced with ginsenoside.

Another object to be solved by the present invention is to provide a method and an apparatus for cultivating juveniles strengthened with F series ginsenoside.

In order to solve the above-mentioned problems, the young cultivation method of the present invention is characterized in that ginsenosides are enhanced by irradiating a light source made of blue light and broadband red light.

In the present invention, the "broadband red light" means red light including 660 nm short wavelength red light and 710 nm long wavelength red light, and is used to increase photosynthetic activity with less energy through the Emerson synergistic effect. Preferably, the broadband red light is a broadband red light source having a peak at 660 nm and a wavelength of 610 to 780 nm.

In the present invention, it is understood that the blue light means light having a wavelength of 440 to 460 nm.

Although not theoretically limited, unlike what is known, ginseng is only adversely affected by growth of green light, and red light and blue light are useful for growth. Therefore, in the environment in which the overall light quantity such as a shade is reduced, or in the hydroponic cultivation environment simulating the environment, the stem and the leaf are not sufficiently developed, resulting in only a small amount of ginsenoside And it is wasted in the distribution process which takes longer than 2 weeks. As a result, by removing the green light and irradiating the red light and the blue light of high intensity to the young chrysanthemum, it is possible to obtain young chrysanthemum which is excellent in the development state of leaves and stems and has enhanced ginsenoside content. Surprisingly, the cultivated juvenile in this way includes the F-series large amounts of F1 and F2 ginsenosides and Rg1 and Re ginsenosides.

In the present invention, the light source may be a combination of an LED for emitting blue light and a red LED for emitting red light.

In the present invention, the red light is used by applying a red fluorescent material to the blue LED in order to simplify the circuit configuration by unifying the voltages of the LED emitting the blue light and the LED emitting the red light and preventing the use of the expensive red LED .

In the present invention, it is preferable that the above-mentioned red light is irradiated at a light amount of the level contained in sunlight so that the intensity of the light near to the lightening point of ginseng can be maintained. For example, the red light is preferably irradiated at a rate of 200 micromolar or more on a ppfd basis, more preferably 250 micromolar or more, and most preferably 300 micromolar or more.

In the present invention, the red light and the blue light can be freely changed by application of a red fluorescent material, and preferably have a peak height of about 2: 1.

In the practice of the present invention, irradiation of the light is preferably carried out for 8 hours or more, preferably 12 hours or more, more preferably 16 hours or more per day so as to increase the speed of raising the young.

In the present invention, the term "young" refers to three-year-old, preferably two-year-old or young.

In the present invention, far infrared ray coating is performed on the module in which the blue light LED and the red light LED are mounted so that the heat generated from the LED is radiated in the same direction as the light source to generate phonon in the plant, .

In the practice of the present invention, the far-infrared ray emitting coating liquid preferably contains 10 to 35 parts by weight of a filler containing 3000 to 8000 mesh of lead oxide and tourmaline powder, 20 to 40 parts by weight of silica sol, 20 to 35 parts by weight of silane, By weight of a far infrared ray-curable ceramic discharge coating liquid composition comprising an aluminum metal PCB printed circuit board.

In the present invention, the young grass planted in the soil may be caught by root rot caused by bad water dropping. Therefore, it is preferable to spray the nutrient solution in the form of mist by using ultrasonic waves. A multi-layer cultivation apparatus configured to prevent the nutrient solution sprayed by ultrasonic waves from spreading in the room is proposed.

In the multi-layer cultivation apparatus according to the present invention, a cultivation bed is provided for each layer on a frame of a multilayer compartment structure, and a mineral nutrient solution is filled in a mist smog form using an ultrasonic spray in the lower space of the cultivation bed, The chamber is equipped with a constant temperature and humidity control unit for controlling the temperature and humidity of each floor, an air fan for generating airflow, an LED light source power supply unit and six It is composed of ultrasonic spraying device of nozzle and touch-type control controller to control it. By using light source supply over time, proper ginseng water retention and mineral nutrition supply, and temperature and humidity control of each floor, beginners can control massively the water ginseng . Also, it is composed of a system with a compartment chamber structure, so that it can manage the temperature and humidity and the light source cycle of each system independently without indoor air conditioning facility even if it is installed in a plant factory with a large space.

The ginseng cultivation method according to the present invention is a method of cultivating juvenile ginseng in a standardized cultivation environment to withstand prolonged distribution, and to strengthen ginsenosides, particularly F series ginsenoside, in leaves and stems Lt; / RTI >

In addition, a new method of preventing diseases such as root rot even if the ginseng which is susceptible to wet soil is closely packed in an enclosed space, and a device capable of implementing the method are provided.

1 is an external perspective view of a ginseng hydroponic cultivation apparatus according to the present invention.
2 is a sectional view of a ginseng hydroponic cultivation apparatus according to the present invention.
3 is a cross-sectional view of a dimming device used in a ginseng hydroponic cultivation apparatus according to the present invention.
FIG. 4 is a photograph of a 2-year-old young planted in accordance with the present invention in comparison with a 2-year-old young planted in accordance with Comparative Example 1. FIG.
FIG. 5 is a table comparing the incidence of root rot disease in the trays cultivated according to the present invention and the incidence of root rot disease in the trays cultivated according to Example 2. FIG.
Fig. 6 is an analysis table of compositional analysis of juveniles cultivated according to the present invention and an analysis of composition of common juveniles.

Hereinafter, the present invention will be described in detail with reference to examples. The following examples, although detailed, are not intended to limit the invention but are for the purpose of illustrating the present invention.

Example 1

As shown in FIGS. 1 and 2, the ginseng hydroponic cultivation apparatus according to the present invention includes a multi-stage frame 100 having front, rear, and left and right side clogged; The ginseng cultivation tray (200) was planted at each stage for 1,000 weeks at 20 mm intervals on the front and back sides of Korean ginseng. The ginseng cultivation tray 200 includes an LED light source 300 for irradiating a broadband red light source having a wavelength of 610 to 780 nm with a peak of 660 nm as red light; And an air conditioner (400) for circulating air containing a nutrient mist in the multistage frame (100).

The temperature of the air is controlled by using a heater and / or a cooler installed in the air circulation path, and the nutrient mist is controlled by using a nutrient mist generating device installed in an air circulation path. Is a mist type humidifier.

As shown in FIG. 3, the LED light source 300 arranges blue LEDs 310 emitting a 440-460 nm light source on an aluminum circuit board 330 to which a voltage of 3 V is applied, and a blue LED 310 emitting light of 610-780 nm, A red fluorescent agent was applied to the blue LED. The intensity of the red light and the blue light was kept at a ratio of 2: 1. The LED light source was irradiated for 16 hours a day and the light intensity was such that ppdf was 300 micromolar.

Further, on the surface of the substrate, 30 parts by weight of a filler mixed with 1: 1 of lead oxide and tourmaline powder, 40 parts by weight of silica sol, 29.5 parts by weight of silane and 0.5 part by weight of platinum were mixed and applied to the substrate, Infrared ray-emitting layer 340, which is a far-infrared ray emitted from the substrate in the same direction as the light source.

Comparative Example 1

In the apparatus of Example 1, an LED light source was irradiated with a white light source mixed with blue, green, and red instead of the blue and red light sources. The intensity of the light was dimmed by lowering it to the shade level of the nogi in order to prevent the ginseng from dying by the green light.

Comparative Example 2

Instead of the liquid mist in the apparatus of Example 1, the nutrient solution was cultivated by feeding it with water.

Analysis of growth initiation

In FIG. 4, photographs of two-year-old young stems grown according to the present invention were compared with young stems grown in white LEDs. Stem thickness and leaf growth were improved compared to white LED.

Root rot disease analysis

In FIG. 5, the number of ginseng roots decayed in the trays cultivated according to the present invention was checked and compared with the number of roots germinated in trays cultivated according to Comparative Example 1.

Useful component analysis

The stem components of the two-year-old juveniles cultivated according to the present invention were analyzed and compared with the stem components of the young stem of Comparative Example 1, as shown in FIG. The content of ginsenoside, the useful ingredient, was increased. In particular, the content of F series ginsenosides was greatly enhanced. The content of each component and the test method are shown in the test report (Fig. 7) issued by the Korean Food Research.

100: multi-stage frame
200: Ginseng Growing Tray
300: LED light source
400: air conditioner

Claims (8)

The method according to claim 1, wherein the content of ginsenosides is enhanced by irradiating a light source made of blue light and broad band red light. The method according to claim 1,
The method of claim 1, wherein the ginsenoside F series is strengthened. 3. The method according to claim 1 or 2,
Characterized in that the amount of ppdf light irradiated to the juvenile is greater than 300 micromolar. 3. The method according to claim 1 or 2,
Wherein the ratio of blue light to red light is 1: 2. 3. The method according to claim 1 or 2,
Characterized in that the juvenile is cultivated in a mist-like nutrient solution. A fern that is characterized by enhanced F-series ginsenosides in leaves and stems. Chamber type multi-stage frame;
A ginseng cultivation tray arranged in multiple stages in the compartment;
A dimmer for irradiating the ginseng cultivation tray with blue light and broadband red light; And
An air conditioner for circulating air containing a nutrient mist in the multi-
Wherein the ginsenoside-enriched juvenile germination plant comprises the ginsenosides.
[8] The apparatus according to claim 7, wherein the nutrient mist is generated by using ultrasonic waves.

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