KR20180054239A - Smart-farm system for Sprout ginseng - Google Patents

Abstract

The present invention relates to an industrial hydroponic ginseng cultivation system, and more specifically, to an industrial hydroponic ginseng cultivation system which includes a facility and a control device to configure and control devices to enable hydroponic cultivation of ginseng in large quantities. In the industrial hydroponic ginseng cultivation system, a plurality of hydroponic ginseng cultivation devices for hydroponically cultivating ginseng are arranged to cultivate ginseng in a large batch, wherein the hydroponic ginseng cultivation device comprises: a tray which has an inner space to receive and circulate a nutrient solution for hydroponic cultivation; a frame which provides a structure to support at least one tray; a porous plate which is installed on top of the tray and includes a plurality of holes in which ginsengs are planted; a nutrient solution storage tank which is affixed to a lower portion of the frame to store the nutrient solution; a pump which transports the nutrient solution in the nutrient solution storage tank to the tray disposed above; a light source supply panel which is installed above the porous plate and includes a lamp for supplying a light source to the ginseng; and a height adjustment device which adjusts the height of the light source supply panel.

Description

[0001] Smart-farm system for Sprout ginseng [

The present invention relates to an industrial ginseng hydroponic cultivation system, and more particularly, to a smart palm ginseng cultivation system equipped with a facility for constituting and controlling an apparatus capable of culturing ginseng hydroponically in large quantities, and a carbon dioxide, temperature and light source control apparatus will be.

Generally, hydroponic cultivation refers to a method of cultivating a plant by using a culture medium made of water and a water-soluble nutrient by using an artificial pond or a container capable of supporting the plant without using soil, soilless culture, water culture. The advantage of hydroponics is the ability to directly observe the condition and growth of roots, produce uncontaminated clean vegetables and plants continuously, and mass-produce commercially. Multipurpose indoor hydroponic cultivation equipment can be cultivated easily by anyone in the house, and it also plays a role of cultivating emotions and utilizing it as a living gardening.

Plants that can be hydroponically cultivated include hydroponics such as cucumber, tomato, red pepper, paprika and strawberry, lettuce, lettuce, lettuce, kale, parsley It is possible to cultivate hydroponics such as leafy vegetables, chrysanthemums, roses, gerberas, lilies, begonia, anthurium, etc., flowers, ginsengs and some medicinal plants.

In recent years, indoor hydroponic cultivation devices have been increasingly used for living horticulture for cultivating hobby and emotions of urban residents, and for experiment and learning for experimenting environment of plant growth. When growing plants in soil, it is difficult to calculate the nutrients necessary for plant growth in advance. Because it already contains various nutrients in the soil, it is difficult to judge properly how much nutrients (fertilizer ingredient) to give artificially without analyzing in advance.

Therefore, when comparing the plants cultivated by hydroponics with the cultures prepared by cultivating the nutrients necessary for the growth of plants and cultivating the nutrients in the medium without the specific nutrients, the nutrients necessary for the growth of the plants and their functions can be examined, Hydroponic cultivation method is used to test the effect of the hydroponics on the growth environment.

In recent years, there has been developed a technique of cultivating ginseng with improved saponin content through hydroponic cultivation technique, and it is necessary to develop a device for hydroponically culturing ginseng at home.

The ginseng hydroponic cultivation apparatus of the prior art has a problem in that it is difficult to produce in large quantities because it is a structure that has been developed for indoor household use.

In addition, since the conventional ginseng hydroponic cultivation apparatus has been developed for domestic use, it is a structure aiming at space saving and small volume production, and thus has a complicated structure, which is not suitable for mass production apparatuses.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a ginseng hydroponic cultivation system having a structure suitable for mass production.

As a specific means for accomplishing the above object, the present invention provides a ginseng hydroponic cultivation system in which a plurality of ginseng hydroponic cultivation apparatuses for cultivating ginseng hydroponically are arranged to massively grow ginseng, A tray provided with a structure for supporting at least one tray, and a plurality of holes formed on the upper surface of the tray and planted with ginseng A pump for feeding the nutrient solution in the nutrient solution storage tank to the upper tray, a lamp for supplying a light source to the ginseng, And a height adjustment device for adjusting the height of the light source supply panel Wherein the height adjusting device includes a wire having one end fixed at one end thereof to support the light source supply panel, a plurality of sheaves passing through the wire, and a bobbin having the wire passed through the sheave tied and fixed, Wherein the height regulating device further comprises circular saw teeth fixed to the outer circumferential surface of the bobbin shaft and formed by sawing teeth which are inclined in one direction along the circumference of the bean sprocket and a retaining piece to which the circular saw teeth are caught, to provide.

Preferably, the tray is formed with a long groove along the length direction.

Preferably, the light source supply panel is provided with a plurality of fans for air circulation.

The present invention as described above has the following effects.

(1) Since a large number of ginseng hydroponic cultivation apparatuses are arranged in multiple rows in the plant, the ginseng is cultivated, which enables mass production.

(2) Since the lamp of the ginseng hydroponic cultivation apparatus is vertically transferred, it is not necessary to change the illuminance of the lamp in order to adjust the light source, so that the life of the lamp can be prevented from shortening.

1 is a front view of a smart palm ginseng hydroponic cultivation system according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Fig. 1 is a flow chart of the cultivation method of smart palm ginseng.

Referring to FIG. 1, the method for cultivating ginseng of the present invention comprises a step (S100) of preparing seedling ginseng 1 year after sowing, a step S200 of analyzing the prepared seedling germ through a residual pesticide residue test, (S300) in which the seedlings are stored at -2 ° C for 1 to 10 months in a coconut fit medium impregnated with distilled water so as to have a humidity of 80%, a step (S400) for defrosting the seedlings at room temperature in an aseptic state, (S500) germinating for 10 to 15 days at an angle of 2 * 2 cm to a bed filled with coconut pit in a shaded facility of 30 to 50% (S500), and a step (S500) And a final stage (S700) of harvesting leaves, stems, and roots through the growth and development stage (S600).

In the above cultivation method, seedling germ through precooling step, germination step on cultivation, and rooting and emerging seedling germ are shown in Table 1 below.

The main system of cultivation that grows and grows according to the above water ginseng cultivation method will be described in detail as follows.

FIG. 2 is a perspective view of a multi-stage spraying apparatus, and FIG. 3 is a cross-

The reconditioning apparatus 100 according to the present invention is a reconditioning apparatus for reconditioning a bed 20 having a width * length * height of 50 * 100 * 25 cm using a stainless steel pipe or a circular or square galvanized pipe, The bed placed at the bottom of the vertical three-tier bench (50) is installed at a height of 10 cm from the floor above the mulch, isolated from the soil, with a slope of 1 한 on one side and a total height of 145 cm.

The installed remediation vessel 100 is covered with an aluminum evaporated film 21 to the inside and the outer side of the bed 20 of a tunnel-shaped styrofoam having an open top, and the flat plate- And another aluminum evaporating film 32 covers the top surface of the bed and the side surface of the bed to enhance the light reflection efficiency.

4 "lines of" ◇ "-forming holes 31 of 3 * 3 cm size are formed at intervals of 5 * 5 cm on the bed top plate 30 on which the aluminum evaporated film 32 is laid.

We tear the middle of a 3 * 3 * 2.5cm thickness urethane sponge of a width * length * thickness, and formally drape seedling seeds (40)

A 20 mm diameter nutrient solution feed line 12 branched from the liquid feed pump 11 of the nutrient bottle 10 is installed in the middle of the upper side in the longitudinal direction of the bed 20, And a waste liquid recovery hole 15 is provided in the side portion so as to be collected in a separate collecting tank (not shown).

On both sides of the nutrient solution supply line 12 provided close to the bed top plate, nozzles sprayed with an average particle diameter of 50 to 100 mu m are arranged at intervals of 40 cm.

Through the nutrient solution feed line 12 installed as described above, the nutrient solution is operated by the timer (not shown) and the liquid feed pump 11 provided in the nutrient bottle 10 in such a manner that the nutrient solution is fed for 10 seconds and stopped for 50 seconds It is.

On the other hand, a heating / cooling rod 10a is installed in the nutrient bottle to maintain the liquid temperature at 25 ° C at all times to increase the nutrient absorption metabolism of the radish ginseng radish ginseng and maintain the rhizospheric temperature within the range of 15 to 30 ° C.

The nutrient solution prepared in the vial 10 according to the present invention has an ion concentration of 1.2 ± 0.4 dS / m, which is one-half unit of the standard prescription liquid of the Japanese horticultural field, which is widely used, Use a standard nutrient solution for cultivation.

As described above, the formal seedling seeds prepared in the cultivation tank 100 provided in the cultivation apparatus are harvested within a period of 3 to 4 months.

Meanwhile, FIG. 4 is a sectional view showing a remediation of a water ginseng cultivation apparatus using an artificial light source, and another cultivation apparatus of the present invention will be described below.

A bed (20 ') of a width * length * height of 50 * 100 * 25 cm is placed on a mulching floor separated from the soil by means of a bench 50' made of stainless round pipe or round or square galvanized pipe (100 ') with a slope of 1 ㅀ at one side to the height of 10 cm and a first stage at a slope of 1..

The installed remediation vessel 100 'is covered with an aluminum evaporated film 21' to the inside and the outer side of the bed 20 'of a tunnel-shaped styrofoam material having an open top, and the flat plate material upper plate 30' The upper surface of the bed is covered with another aluminum vapor deposition film 32 'to cover the upper surface of the bed 20' and the light reflection efficiency is increased by the aluminum vapor deposition film 32 ' A 3 * 3 cm size urethane sponge (31 ') was formed at a distance of 5 * 5 cm in four rows in the lengthwise direction of the regrowth, and a urethane sponge having a size of 3 * 3 * (20 ') having a diameter of 20 mm branched from the liquid supply pump (11) of the liquid bottle (10) is filled into the reclamation hole (31') by wrapping a regular grape seedling stem (40 ' , And a waste liquid recovery hole 13a 'is branched at one side portion of the longitudinal bed 20' having a lower inclination to form a collecting tank And a nozzle for spraying an average particle diameter of 50 to 100 mu m at intervals of 40 cm is provided on both sides of the nutrient solution supply line 12 installed close to the bed top plate, (Not shown) and a liquid feed pump 11 provided in a liquid absorber 10 for 10 seconds to supply liquid for 50 seconds, To maintain the liquid temperature at 25 ° C at all times to increase the nutrient absorption metabolism of the ginseng powder and maintain the rhizospheric temperature within the range of 15 to 30 ° C.

However, the LED artificial light source 60 is installed at the middle point of the circular or square galvanizing pipe provided at a height of 30 cm from the bed top plate 30 'installed in the bed 20' The artificial light source 60 is always operated when the solar light amount is 5,000 lux or less by the power control part 61 interlocked with the light amount measuring device 62 installed in the facility so that the insufficient light amount is controlled optimally every day.

In addition, supplying the nutrient solution and recovering the waste nutrient solution is the same as that of the three-stage installation.

For reference, the waste nutrient recovered according to the present invention is collected in a collecting tank (not shown) provided separately, and recycled to the nutrient solution newly prepared through the antibacterial filter in the collecting tank within a range of 10%.

Table 2 below shows photographs of the state of use for the three-stage installation reconditioning apparatus 100 without the artificial light source and the one-stage installation reconditioning apparatus 100 'installed with the artificial light source according to the present invention.

Claims (2)

A ginseng hydroponic cultivation system in which a plurality of ginseng hydroponic cultivation apparatuses for cultivating ginseng hydroponics are arranged to massively grow ginseng,
The ginseng hydroponic culture apparatus comprises: a tray having an inner space for supplying and circulating nutrient solution for hydroponic cultivation therein; A nutrient storage tank fixed to a lower portion of the frame and storing a nutrient solution therein; a frame provided with a structure for supporting at least one tray, a plurality of holes formed in an upper surface of the tray to plant ginseng, A pump for feeding the nutrient solution of the nutrient solution storage tank to the upper tray; A light source supply panel installed on the perforated plate and provided with a lamp for supplying a light source to the ginseng; And a height adjustment device for adjusting the height of the light source supply panel, wherein the height adjustment device includes a wire having one end fixed at both ends thereof to support the light source supply panel, a plurality of pulleys through which the wire passes, Wherein the height adjustment device includes a circular sawtooth fixed to an outer circumferential surface of the bobbin shaft and tilted in one direction along a circumference of the bobbin shaft, Wherein the ginseng cultivation apparatus further comprises: The method according to claim 1,
Wherein the tray is formed with a long groove along the longitudinal direction, and a pipe for spraying the nutrient solution to the ginseng is installed.

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