KR101802788B1 - System for Cultivating Ginseng with Fog - Google Patents

Abstract

The ginseng cultivation system can be equipped with a container, a ginseng cultivation stand, and a nasal solution spraying device. The ginseng growing stand is provided inside the container, and has a large number of pollen insertion holes for supporting ginseng pollen, and forms a closed space in the inside thereof. The nutrient spraying device supplies the nutrient solution in the confined space of the ginseng cultivation zone in the form of mist. The liquid spray apparatus may include a heater and a cooler for adjusting the temperature of the nutrient solution.

Description

The system for Cultivating Ginseng with Fog

The present invention relates to a ginseng cultivation system, and more particularly, to a ginseng cultivation system that supplies nutrients and moisture to roots of ginseng by spraying a nutrient solution with fine particles.

Cropland is decreasing, but seasonal consumption is becoming more common. Hydroponic cultivation, which can be harvested at all seasons, is widely used to meet these trends. In hydroponic cultivation, crops are cultivated using water, ie, nutrient solution, in which various necessary nutrients are dissolved without using soil.

In recent years, a ginseng cultivation apparatus capable of cultivating ginseng having improved saponin content by using hydroponics has been actively developed. Patent Registration No. 1424058 discloses a ginseng cultivation system for industrial use. The ginseng cultivation system includes a tray, a frame for supporting the tray, a perforated plate for supporting ginseng, a nutrient solution storage tank, a nutrient solution transfer pump, And cultivated in large quantities. Patent Registration No. 1424058 supplies the nutrient solution through a water supply line and recovers it through a drainage line so that the nutrient solution in the form of water contacts the ginseng root.

The paragraph [0028] of Patent Registration No. 1424058 discloses that although the nutrient solution can be supplied in the form of spray, the composition of the nutrient solution is not specifically described. However, the patent registration No. 1424058 limits the supply of the nutrient solution evenly to the ginseng root because the outlet of the nutrient solution is biased to one side even if the nutrient solution is implemented by spraying method. In addition, Patent Registration No. 1424058 implements optimal conditions of ginseng cultivation through light source control, and is insufficient to realize optimal humidity of ginseng cultivation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art,

First, the nutrient solution in the form of mist can be uniformly distributed throughout the ginseng,

Second, we intend to provide a ginseng cultivation system using fog farming method which can realize optimum temperature and humidity required for ginseng cultivation.

In order to achieve the above object, the ginseng cultivation system of the present invention can include a container, a ginseng cultivation bed, and a nasal solution spraying device.

The container may include a glass window, an illuminance sensor, and a blind that selectively opens and closes a window according to the illuminance value of the illuminance sensor.

The ginseng growing stand may be provided inside the container, and may include a large number of pollen insertion holes for supporting the ginseng flower pot, and a closed space may be formed therein.

The liquid spraying device can supply the nutrient solution in the form of fog to the confined space of the ginseng growing stand. The liquid-spray apparatus may include a first heater and / or a first cooler to adjust the temperature of the nutrient solution.

The ginseng cultivation system according to the present invention may include a raw water spraying device. The raw water supply device can supply the raw water in the form of mist inside the container. The raw water supply device may include a second heater and / or a second cooler to adjust the temperature of the raw water.

In the ginseng cultivation system according to the present invention, the ginseng cultivation bed can be composed of two covers, a flower pot insert, and the like.

The two covers can engage with both longitudinal ends. The cover can be constructed in a triangular shape.

The pollen insert can be extended and assembled longitudinally between the two covers. The pollen insert may have a plurality of pollen insert holes in the upper oblique side plate.

In the ginseng cultivation system according to the present invention, the pollen insert may comprise a bottom plate, a first oblique side plate, and a second oblique side plate.

The bottom plate may have a drain port that sinks downward. The bottom plate may have a drain slope that goes down toward the drain port.

The lower side of the first inclined side plate may be coupled to one end of the bottom plate, and the upper side may be inclined toward the center of the bottom plate.

The lower side of the second inclined side plate is coupled to the other end of the bottom plate and the upper side is inclined toward the center of the bottom plate and can be coupled to the upper side of the first inclined side plate.

In the ginseng cultivation system according to the present invention, the bottom plate may have a binding step at its longitudinal end. The first and second oblique side plates may have engaging protrusions or engaging grooves at end portions in the longitudinal direction.

In the ginseng cultivation system according to the present invention, the first and second oblique side plates may include a guide inclined portion which is coupled to the upper end side of the bottom plate on the inner side of the lower end portion and slopes downward along the center of the bottom plate.

According to the ginseng cultivation system of the present invention having such a configuration, the nutrient solution in the form of mist can be sprayed into the closed ginseng cultivation bed, and the nutrient solution can be spread evenly inside the ginseng cultivation bed. As a result, Can supply.

In addition, according to the ginseng cultivation system of the present invention, it is possible to form a clean and cold condition such as a mountain within a container by a raw water spraying apparatus, thereby providing an optimal environment for ginseng cultivation.

1 is a configuration diagram of a first embodiment of a ginseng cultivation system according to the present invention.
FIGS. 2A to 2E are a perspective view, an exploded perspective view, and a partial enlarged view showing a ginseng growing stand of the ginseng cultivation system according to the present invention.
3 is a configuration diagram of a second embodiment of the ginseng cultivation system according to the present invention.

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

1 is a configuration diagram of a first embodiment of a ginseng cultivation system according to the present invention.

As shown in FIG. 1, the ginseng cultivation system according to the present invention can include a container 100, a ginseng cultivation bed 200, and a nasal mist sprayer 300.

The container 100 may be formed of, for example, a hexahedron forming a space therein. The container 100 can be configured to be stacked vertically. The container 100 may be configured to selectively open and close the upper portion, i.e., to selectively engage the cover on the upper portion. The container 100 may be made of plastic, wood, iron, or the like, and the mold may be made of vinyl.

The container 100 may have a glass window 110 on a wall surface or the like. The container 100 may have a blind (not shown) capable of selectively opening and closing the window 110. The container 100 includes an illuminance sensor (not shown), and can be configured to selectively open and close the window 110 with the blind according to the illuminance value sensed by the illuminance sensor (not shown).

The container 100 may have a temperature sensor (not shown) and a humidity sensor (not shown) that can measure the temperature and humidity inside.

The ginseng cultivation bed 200 may be installed inside the container 100. The ginseng cultivation bed (200) can be assembled and configured to be adjustable in length. The ginseng cultivation bed 200 may be formed in a triangular shape, and a plurality of pollen insertion holes for inserting and supporting ginseng pollen into the sloping side plate may be provided. The ginseng cultivation bed 200 will be described later in detail with reference to FIGS. 2A to 2E.

The nutrient solution spraying apparatus 300 supplies the nutrient solution to the inside of the ginseng cultivation bed 200 in the form of mist by connecting the outlet side to one side of the ginseng cultivation bed 200. The nutrient solution spraying apparatus 300 includes the nutrient solution bottle 310, A nutrient solution sprayer 330, a nutrient solution heater 340, a nutrient solution cooler 350, a nutrient solution pump P1, a nutrient solution temperature sensor (not shown), an oxygen generator (not shown), and the like.

The nutrient bottle 310 can store the nutrient solution and supply the nutrient solution to the nutrient sprayer 330 through the nutrient solution pipe 320. The pump P1 can be installed on one side of the liquid bottle 310 or the liquid pipe 320 and can pump the nutrient solution in the liquid bottle 310 to the nutrient solution sprayer 330.

The nutrient solution piping 320 moves the nutrient solution in the nutrient bottle 310 to the nutrient solution sprayer 330 and may include a branch pipe if the nutrient solution sprayer 330 is provided.

The nutrient solution sprayer 330 can convert the nutrient solution into a mist form and inject it into the ginseng cultivation bed 200. The nutrient sprayer 330 can be composed of a spray tube, a blower, a sprayer, and the like.

The spray tube may have an opening at least on one side in the horizontal direction and a hollow in the interior. The discharge hose may be coupled to the opening of the gantry, and the discharge hose may be coupled to the ginseng cultivation bed 200 to communicate. The joint between the discharge hose and the ginseng cultivation unit 300 can be sealed with an O-ring or the like.

The blower can be installed inside the spray tube to move the air to the openings. The blower can be composed of a blowing motor, a blowing fan, and the like.

The sprayer can be installed inside the spray tube to convert the nutrient solution into a mist form. The atomizer can be firstly pulverized into fine particles by ejecting the nutrient solution in a radial direction, and further collide with the inner surface of the spray tube to convert it into a mist form. The atomizer may be composed of a spray motor, a rotating body, and the like. The atomizing motor can be fixed inside the spray tube through the bracket. The atomizing motor can rotate the rotating body. The rotating body can spin radially the nutrient solution supplied therein while rotating. The rotating body includes a disk body, and the disk body may have a hollow portion through which the nutrient solution flows into the center of the disk body. The circular plate may have a plurality of spouting channels communicating with the inner hollow portion and extending radially and then opening at the outer surface.

The nutrient solution heater 340, the nutrient solution cooler 350 and the nutrient solution temperature sensor (not shown) are coupled to the nutrient solution bottle 310 to maintain the temperature of the nutrient solution at the optimum temperature for ginseng cultivation. The nutrient solution heater 340 and the cooler 350 can be selectively operated according to the measurement temperature value of the nutrient solution temperature sensor (not shown).

An oxygen generator (not shown) may also be coupled to the nutrient bottle 310 to increase the amount of dissolved oxygen in the nutrient solution by supplying oxygen to the nutrient solution.

The control unit (not shown) may be installed in the container 100. When the operation signal is inputted, the control unit (not shown) can operate the pump (not shown) and the nutrient sprayer 330 to spray mist-like nutrients into the ginseng cultivation bed 200. The control unit (not shown) can selectively operate the nutrient solution heater 340 and the nutrient solution cooler 350 according to the nutrient solution temperature value received from the nutrient solution temperature sensor (not shown). The oxygen generator (not shown) may be controlled manually or the dissolved oxygen sensor may be installed in the liquid bottle 310 so that the operation is controlled according to the measured value.

FIGS. 2A and 2B are a combined perspective view and an exploded perspective view showing a ginseng cultivation zone of the ginseng cultivation system according to the present invention.

As shown in FIGS. 2A and 2B, the ginseng cultivation table 200 may include a cover 210, a flower pot insert 220, and the like.

The cover 210 is coupled to the longitudinal end of the ginseng cultivation bed 200 and closes the end of the cover 210 so that the two covers 211 and 213 can be formed into a triangular shape. The covers 211 and 213 may have a sprayer coupling hole H11 into which the discharge hose of the fluid sucker 330 is inserted.

The covers 211 and 213 may have cover drains D1 on the inner bottom surface. The covers 211 and 213 can be configured such that the inner bottom surface is partially inclined, for example, the closer to the cover drain port D1, and the higher the more. The cover drain port D1 may be provided with a nutrient solution outlet (not shown) communicating with the outside. The recovered nutrient solution discharged through the nutrient solution outlet (not shown) may be recovered through the recovery pipe (not shown) to the nutrient solution vessel 310.

The covers 211 and 213 may have a cover engaging projection P11 and a cover engaging recess R11 that engage with the pollen insert 220.

The pollen insert 220 may include a bottom plate 221, a first oblique side plate 222, a second oblique side plate 224, and the like.

The bottom plate 221 constitutes the lower part of the pollen insert 220 and can be extended by connecting a plurality of them in the longitudinal direction. One side of the bottom plate 221 can be inserted into the bottom surface of the cover 211,

The bottom plate 221 may have a bottom plate drain D2 that is recessed in the longitudinal direction. The bottom plate drain (D2) is capable of collecting nutrients in the form of mist that are condensed and fall downward or become less foggy. The bottom plate 221 can be configured such that the upper surface thereof is partially inclined, for example, the lower the distance from the bottom plate drainage port D2, and the higher the distance from the bottom plate drainage port D2.

The first oblique side plate 222 constitutes an upper portion of the pollen insert 220. The upper end of the oblique side plate 222 is inclined toward the center of the bottom plate 221 and engages with the upper end of the second oblique side plate 224 . The first oblique side plate 222 may have a first side plate engaging projection P21 and a first side plate engaging groove R21 inside the upper end thereof. The first side plate engaging projection P21 and the first side plate engaging groove R21 of the first oblique side plate 222 are engaged with the first side plate engaging groove R22 provided at the corresponding position of the second oblique side plate 224, And the upper side of the first oblique side plate 222 and the upper side of the second oblique side plate 224 can be engaged with each other.

The first oblique side plate 222 may have a plurality of flower pot insertion holes H21 and H23. The pollen insertion holes H21 and H23 can be formed such that a lower portion having a large inner space is formed larger and a smaller portion having a narrower inner space is formed smaller.

The first oblique side plates 222 may extend in the longitudinal direction by connecting a plurality of them. The first oblique side plate 222 may have a second side plate engaging projection P31 and a second side plate engaging groove R31 at one longitudinal end thereof. The second side plate engaging projections P31 and the second side plate engaging grooves R31 of the first inclined side plate 222 are inserted into the second side plate engaging grooves and the second side plate engaging projections of the adjacent first inclined side plates The plurality of first oblique side plates 222 can be extended in the longitudinal direction. The second side plate engaging projection P31 and the second side plate engaging recess R31 of the first inclined side plate 222 located at the outermost portion are engaged with the cover engaging recess R11 of the covers 211 and 213 and the cover engaging projection P11 So that the first inclined lateral plate 222 and the covers 211 and 213 can be engaged with each other.

The first inclined side plate 222 may have a guide inclined portion G which is inclined downward at the inner lower end toward the center of the bottom plate 221. The guide inclined portion G is a frame that forms the second side plate engaging projection P31 and the second side plate engaging groove R31 while the nutrient solution flowing along the inner side face of the first inclined side plate 222 is a bottom plate 221 ) Can be performed.

The first oblique side plate 222 may have a reinforcing bar B on its inner side or outer side. The reinforcing bar (B) can increase the strength of the plate-like first oblique side plate (222).

The second oblique side plate 224 may have the same shape as the first oblique side plate 222 and may be disposed symmetrically. The detailed description of the second oblique side plate 224 is replaced with a corresponding explanation of the first oblique side plate 222.

FIGS. 2c to 2e are enlarged views showing a ginseng cultivation zone of the ginseng cultivation system according to the present invention.

As shown in Figs. 2C and 2D, the bottom plate 221 may form a coupling step I at both ends in the longitudinal direction. The coupling step I may be formed symmetrically with both end portions of the bottom plate 221. The engaging step I can be engaged with the engaging step I of the adjacent bottom plate 221 or inserted into the inner bottom surface of the covers 221 and 223.

The drain port D2 of the bottom plate 221 can be inserted into the drain port D1 of the covers 211 and 213 and coupled thereto.

As shown in FIG. 2E, the guide inclined portion G can be coupled to the upper surface of the bottom plate 221 in such a manner that the guide inclined portion G is placed on the upper surface of the bottom plate 221, The projections P31 and the second side plate engaging grooves R31 are inserted into the second side plate engaging grooves and the second side plate engaging projections of the adjoining first and second inclined side plates respectively and the cover engaging grooves of the covers 211, To the cover R11 and the cover engaging projection P11, respectively.

3 is a configuration diagram of a second embodiment of the ginseng cultivation system according to the present invention.

As shown in FIG. 3, the ginseng cultivation system may further include a raw water spraying device 400 in the container 100. The raw water spraying apparatus 400 is for forming a clean and humid condition like a mountain within the container 100 and includes a raw water tank 410, a raw water pipe 420, a raw water sprayer 430, a raw water heater 440, A cooler 450, a raw water pump P2, and the like.

The raw water tank 410 stores raw water such as rainwater and supplies the raw water to the raw water sprayer 430 through the raw water pipe 420. The raw water pump P2 may be installed at one side of the raw water tank 410 or the raw water pipe 420 to supply the raw water of the raw water tank 410 to the raw water sprayer 430.

The raw water pipe 420 may include a branch pipe when the number of the raw water sprayers 430 is plural.

The raw water sprayer 430 can convert raw water into mist form and inject it into the container 100. The raw water sprayer 430 may include a spray tube, a blower, a sprayer, and the like. The raw water sprayer 430 may be constructed in the same manner as the fluid sprayer 330 described above.

The raw water heater 440 and the raw water cooler 450 may be coupled to the raw water tank 410 to maintain the temperature of raw water at an optimum temperature of the ginseng cultivation environment, for example, 15 to 17 ° C.

The control unit (not shown) may selectively operate the raw water heater 440 and the raw water cooler 450 according to a temperature value received from a temperature sensor (not shown) provided inside the container 100.

The control unit (not shown) operates the raw water pump P2 and the raw water sprayer 430 to convert the raw water in the raw water can 410 into a mist form and inject it into the container 100 when the operation signal is inputted. The control unit (not shown) receives the humidity value from a humidity sensor (not shown) provided inside the container 100, and selectively operates the raw water pump P2 and the raw water sprayer 430 according to the humidity value.

Although the present invention has been described based on various embodiments, it is intended to exemplify the present invention. Those of ordinary skill in the art will appreciate that the embodiments may be modified or modified on the basis of the above embodiments. However, since the scope of the present application is defined by the following claims, such modifications and variations can be construed as being included in the following claims.

100: container 110: windshield
120: container cover 200: ginseng cultivation zone
210: Cover 220: Flower pot insert
221: bottom plate 222, 224: first and second oblique side plates
300: Nasal solution spraying device 310:
320: Nutrient solution piping 330: Fluid sprayer
340: Nutrient solution heater 350: Nutrient solution cooler
400: raw water spraying device 410: raw water bottle
420: raw water pipe 430: raw water sprayer
440: raw water heater 450: raw water cooler
B: reinforcing bar D1: bottom plate drain
D2: Cover drain G: Guide slope
H11, H13: Sprayer coupling hole H21, H23: Flower pot insertion hole
I: Coupling step P1: Nutrient pump
P2: Raw water pump P11: Cover coupling projection
R11: Cover engaging recesses P21, P22: First side plate engaging projection
R21, R22: first side plate engaging groove P31: second side plate engaging projection
R31: second side plate engaging groove

Claims (7)

delete delete delete In the ginseng cultivation system,
Container;
A ginseng cultivating unit provided inside the container and having a large number of pollen insertion holes for supporting ginseng pollen and forming a closed space therein;
And a nutrient solution spraying device comprising at least one of a first heater and a first cooler for supplying a nutrient solution in a confined space of the ginseng growing stand in the form of mist and controlling the temperature of the nutrient solution,
The ginseng cultivation zone
Two covers that engage with both longitudinal ends thereof;
And a pot insertion slot extending in the longitudinal direction between the two covers and having the pot insertion hole in the upper oblique side plate,
The pollen insert
A bottom plate having a drain hole that is downwardly recessed and has a drain slope that goes down toward the drain hole;
A first inclined side plate whose lower side is coupled to one end of the bottom plate and whose upper side is inclined toward the center of the bottom plate;
And a second oblique side plate joined to the other end of the bottom plate and having an upper side inclined toward the center of the bottom plate and engaged with the upper side of the first oblique side plate. Cultivation system. 5. The method of claim 4,
Wherein the bottom plate has a coupling step at its longitudinal end,
The ginseng cultivation system according to claim 1, wherein the first and second oblique side plates are provided with engaging projections or engaging grooves at the longitudinal ends thereof. 5. The apparatus according to claim 4, wherein the first and second oblique side plates
And a guide inclined portion coupled to an upper end side of the bottom plate at an inner side of a lower end portion and inclined downward toward the center of the bottom plate. 5. The container according to claim 4, wherein the container
sash;
Illuminance sensor;
And a blind controlled to selectively open and close the window according to an illuminance value of the illuminance sensor.

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