KR20160131147A - Facilities for ginseng growing and grow method of ginseng using the same - Google Patents

Abstract

The present invention relates to an organic ginseng cultivation facility capable of controlling growth and an organic ginseng cultivation method using the same.
The organic ginseng cultivation facility of the present invention comprises a rainwater shielding means for shielding rainwater so as to prevent the rainwater from being sprayed directly on the inside of the ginseng in a house form; Soil filled, ginseng planted, movable cultivation boxes; A box positioning frame having a cultivation box rest portion in which the cultivation box is spaced apart from the ground; A heat insulating material disposed on the cultivation box inner surface; And a hot wire placed on the heat insulating material and adapted to heat the soil in the cultivation box which is placed on the top by emitting heat.
The organic ginseng cultivation facility and the cultivation method of the present invention can not only expose the ginseng in the cultivation facility directly to the rain water but also can not grow the ginseng without spraying the pesticide because the ginseng is not affected by the pathogenic bacteria on the ground, So that the quality of ginseng can be obtained and the cultivation period can be shortened.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an organic ginseng cultivation facility capable of controlling growth, and an organic ginseng cultivation method using the same.

The present invention relates to a house facility for cultivation of ginseng and a method for growing ginseng.

Since ancient times, ginseng has been used as a precious medicinal herb and is one of the crops that are sold at high prices and bring great income to the farming villages.

However, due to environmental changes, various kinds of ginseng are being cultivated and the use frequency of pesticides is increasing. The number of application times of pesticides is becoming a serious problem when considering eating ginseng for health.

In particular, recent consumers are interested in organic vegetables and fruits because of their high interest in well-being.

Therefore, if the level of pesticide application of ginseng is widely known to consumers, it is expected that the demand of ginseng will drop sharply.

In addition, it will be adversely affected exports of domestic ginseng, which is known as Korean Ginseng and is in high demand.

On the other hand, in order to sell ginseng as a high-value-added product, it was necessary to cultivate for 4 to 6 years for a considerably long time.

Since the conventional ginseng cultivation facility is cultivated in one place for many years, it is often placed in a weather disaster environment such as heavy snow, flood, typhoon, heavy rain, heat, drought in the cultivation process, .

Korean Patent Application No. 10-2008-0109632, Korean Patent Application No. 10-2010-0111512, and Korean Patent Application No. 10-2008-0061820, which are devised for solving such a problem, are merely technologies for cultivating ginseng in house facilities .

Korean Patent Application No. 10-2008-0109632 Korean Patent Application No. 10-2010-0111512 Korean Patent Application No. 10-2008-0061820

More particularly, the present invention relates to an organic ginseng-free organic ginseng which is capable of growing organic ginseng, providing an environment suitable for growth of ginseng, extending the growth of the ginseng by controlling the temperature of the soil, and the like It is intended to provide ginseng cultivation facility and ginseng cultivation method which can control growth.

In the present invention, the ginseng is allowed to grow in the movable cultivation box in the house, and the cultivation box is spaced upward from the ground, so that it is not affected by the pathogenic bacteria in the soil.

In addition, the boxed table on which the cultivation boxes are placed is formed by stacking heat rays on the heat insulating material, so that when the heat is applied through the heat rays, the soil temperature in the cultivation box placed on the box surface table can be increased, thereby extending the growth period.

For the growth of ginseng, the water sprayed on the cultivation box is collected in the drainage duct so as not to affect the cultivation box located at the bottom.

In addition, the water supplied to the ginseng in the cultivation facility is supplied as magnetized hexagonal water, so that the ginseng is prevented from being exposed to pathogenic bacteria, so that the growth of ginseng is made very smoothly.

That is, in the organic ginseng cultivation method of the present invention, the upper part of the ginseng is blocked so that rainwater is not sprayed directly on the ginseng, and the water necessary for the growth of the ginseng is supplied through the pipe.

In addition, the soil is filled in the movable cultivation box, and the ginseng is planted by being planted so that the cultivation box is positioned at the upper part from the ground, so that the ginseng of the cultivation box is not affected by the pathogen of the ground.

In addition, the ginseng is cultivated by controlling the growth of ginseng by applying heat to the soil inside the cultivation box through the heat line by placing the heat insulator and the heat line on the insulator and the upper part of the growth box of the box box frame where the cultivation box is placed.

To this end, the organic ginseng cultivation facility of the present invention has a house-shaped rainwater shielding means for shielding rainwater so that rainwater is not sprayed directly on the ginseng inside.

Also, the soil is filled, the ginseng is planted, and there is a movable cultivation box.

In addition, the box box frame has a cultivating box rest portion in which the cultivating box is spaced upward from the ground.

Also, it has a heat insulating material placed on the inner surface of the cultivation box.

It also has a heat line that is placed over the insulation and emits heat to heat the soil in the growing box that is placed on top.

The organic ginseng cultivation facility and the cultivation method of the present invention can not only expose the ginseng in the cultivation facility directly to the rain water but also can not grow the ginseng without spraying the pesticide because the ginseng is not affected by the pathogenic bacteria on the ground, So that the quality of ginseng can be obtained and the cultivation period can be shortened.

Also, if the growing box for ginseng growth is grown in a multi-stage cultivation method with the upper and lower gaps being spaced apart, if the water injected in the growing box is collected in the drainage duct so as not to affect the cultivation box located at the lower part, Ginseng, which is located in the cultivation box, is not affected by falling water, and thus the growth of ginseng is smooth.

When the water required for growth is supplied as magnetized hexagonal water, it is further prevented that the ginseng is exposed to the pathogen, so that the growth of ginseng is more smoothly performed.

According to the present invention, the leaves, flowers and fruits of ginseng can be used as edible or medicinal materials by cultivating non-chemical ginseng.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view for explaining a cultivation facility of organic ginseng capable of controlling growth of the present invention
FIG. 2 is a schematic view for explaining a water molecule converting and sterilizing device which is a component of the present invention, and is a schematic view showing a structure in which a sterilizing body is coil-
FIG. 3 is a schematic view for explaining a water molecule conversion sterilizing device constituting a component of the present invention, which is a schematic view of a structure in which a sterilizing body is in the form of a coil,
A: Front view
B: SS section
4 is a schematic view for explaining a water molecule conversion sterilizing apparatus of the present invention in which a vortex is formed by a vortex forming protrusion in a water molecule conversion sterilizing apparatus which is a component of the present invention
A: Front view
B: EE profile
FIG. 5 shows a water-molecule converting and disinfecting device of the present invention, in which a coil-shaped sterilizing body is formed on the left and right sides of a spiral wound coil shape, schematic
Figure 6 is a schematic view of the sterilization body located in Figure 5;
7 is a schematic view for explaining a box frame and the like which are components of the present invention

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

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

The present invention relates to a facility for organic cultivation of ginseng.

Most of these facilities are in the form of a house, and a space in which the ginseng is grown is formed in the house. The facility of the present invention is also in the form of a house.

However, the meaning of a house is not only a vinyl house but also a facility including a glasshouse.

However, the object of the present invention is to provide an organic ginseng cultivation facility and a cultivation method which can cultivate organic organic ginseng without pesticide and provide an environment suitable for growth of ginseng, in particular, an environment for prolonging the growth period of ginseng.

The inventors of the present application have found that the reason why ginseng is infected through long-term research and efforts is influenced by temperature, humidity, light amount and the like, but such conditions are indirect or affect the growth of the ginseng. It was concluded that the water and soil supplied for the contamination were contaminated with pathogens.

In addition, it was concluded that the temperature of the ginseng is higher than that of the air in which the ginseng grows because of the temperature. When the temperature of the soil in which the ginseng is grown is set at a temperature suitable for growth The results of the study were also obtained that the growth period of ginseng is longer.

That is, if the temperature of the soil in which the ginseng is grown in the early spring is increased, the ginseng sprouts are released earlier and the roots are better developed. If the temperature of the soil is increased in the late autumn, the leaves will remain for a longer time, It is getting longer.

This extension of the growth period was merely extended much longer than when the air temperature of the room where the ginseng was grown was increased.

Based on these experimental results, the inventor of the present application has found that the upper part of ginseng is blocked so that rainwater is not directly sprayed on the ginseng, the water required for the growth of ginseng is supplied through the pipe, And the ginseng is planted and grown so that the cultivation box 65 is spaced apart from the ground and the heat insulating material 80 is placed on the cultivation box guiding portion 71 of the box frame 70 in which the cultivation box 65 is placed. And the ginseng is grown by controlling the growth of ginseng by applying heat to the soil in the cultivation box 65 through the heat line 85 by locating the heat line 85 at the upper part thereof.

So that the cultivation box 65 is spaced apart from the ground so that the ginseng of the cultivation box 65 is not affected by pathogens on the ground.

The organic ginseng cultivation facility for this purpose has a rainwater shielding means 200 for shielding rainwater so as to prevent the rainwater from being sprayed directly on the inside of the ginseng in a house form.

Also, the soil is filled, the ginseng is planted, and the movable cultivation box 65 is provided.

The box box frame 70 is provided with a cultivating box guiding portion 71 in which the cultivating box 65 is spaced upward from the ground.

Further, it has a heat insulating material (80) placed on the growth box inner surface portion (71).

It also has a heat line 85 which is placed on a heat insulating material 80 and which is adapted to heat the soil in the growing box 65 which is placed on top by emitting heat.

The rainwater shielding means 200 may have a shape in which the vinyl 201 is overlaid like a vinyl house or a roof in which a rainwater is not introduced, such as a glass greenhouse, may be formed.

The cultivation box 65 in which the ginseng is cultivated may be made of various materials such as synthetic resin, wood, and iron, but synthetic resin is preferable.

Such a cultivation box 65 is filled with soil suitable for the cultivation of organic ginseng, and it is preferable that such soil is free of ginseng-related pathogens.

The cultivation box 65 preferably has a structure in which the supplied water is drained downward.

If drainage is not possible, it is difficult to supply adequate amount of water.

The structure in which drainage is performed can be implemented in various forms such as a structure in which a drain hole is formed or a structure in which drainage is performed through a small pore or the like.

The box frame 70 may be formed of iron or the like, and the box box 71 may be formed by connecting a plurality of pipes 71a as shown in the drawing.

The heat insulating material (80) is for preventing heat emitted from the heat ray (85) from being moved downward and lost.

Such a heat insulating material 80 may be used in various industrial fields.

The heat line 85 is for heating the soil in the cultivation box 65 and may be in the form of a wire.

The present invention is also applicable to a multi-stage cultivation method.

In this case, as shown in the accompanying drawings, the box frame 70 is implemented such that a plurality of box boxes 71 are provided so that a plurality of box boxes 65 can be arranged with a space between them.

However, there are problems to be considered when applying the present invention to a multi-stage cultivation method.

In the general multi-stage cultivation method, even if the water discharged from the upper cultivation box 65 falls to the lower cultivation box 65, it does not become a big problem.

However, in the case of the present invention for the organic cultivation of ginseng, when the water discharged from the cultivation box 65 located at the upper part drops to the ginseng in the cultivation box 65 located at the lower part, there arises a problem in the growth of ginseng.

In particular, it is possible that the cultivation of organic ginseng itself may be difficult due to the disease.

For this reason, when the present invention is applied to the multistage cultivation method and the ginseng is cultivated, water supplied for the growth of ginseng is sprayed into the cultivation box 65, and the injected water is sprayed to the cultivation box 65 It is clogged by the water blocking plate 88 on the upper portion of the cultivation box housing portion 71 so as not to be affected and is allowed to flow collectively in the direction of the drainage path 90 without being moved downward.

The ginseng is cultivated in multiple stages while water is not dropped in the cultivation box 65 located at the lower part.

The organic ginseng cultivation facility for this purpose comprises a cultivation box 65 in which water discharged to the lower part of the cultivation box 65 is positioned between each cultivation box inside part 71 and the cultivation box 65 above the cultivation box 65, (Not shown).

In addition, a water drainage passage 90 is provided to allow the water located above the water shutoff plate 88 to flow and collect so that the collected water can be discharged without affecting the lower cultivation box 65.

The water blocking plate 88 may be made of synthetic resin, steel, glass, or the like, but it may be made of a synthetic resin material having low heat transfer efficiency.

As shown in the accompanying drawings, it is preferable that the drainage passage 90 is formed on the rear side of the water shutoff plate 88.

In the present invention, since the rainwater is blocked, the water required for the growth of ginseng can be supplied through the hose or the like and sprayed directly by the operator.

However, it is more preferable to include the growth water supply means 100 for supplying water necessary for growing through the pipe.

At this time, water can be injected from the root portion of ginseng so as not to touch the leaves of ginseng.

However, as described above, pathogens may be transferred through water and ginseng may become diseased.

However, the use of chemical sterilization after water treatment can not be regarded as the cultivation of organic ginseng.

The inventor of the present application has found a way to smoothly supply water by sterilizing the water through a mechanical method, and found out a structure that supplies the molecular structure of the water in a state of absorption in a smooth state.

More specifically, the growth water supply unit 100 of the present invention includes a water molecule conversion and sterilizing apparatus 100a for applying magnetic force to water to be supplied so as to be supplied through a process of converting water into magnetization and hexagonalization.

The sterilizing apparatus for converting water molecules has a shape of a water molecule conversion stone rod 110 for converting water molecules into magnetic and hexagonal water by applying magnetic force to the water to be flowed.

Since the water molecule conversion structure using magnetism (structure for magnetizing hexagonal water) is well known, a description of the general structure is omitted.

However, in order to use it for the cultivation of organic ginseng, it is necessary to make the production efficiency of the magnetized hexagonal water and the effect of sterilization treatment excellent.

The usual magnetized hexagonal water is also sterilized.

However, even if it is magnetized hexagonal, it is difficult to obtain the effect of complete sterilization treatment, and it is difficult to expect the sterilizing effect of water which is not magnetized hexagonal even though it is influenced by magnetic force.

Therefore, the better the efficiency of magnetization hexagonalization, the better the effect of disinfection treatment.

Conventional water molecule conversion devices that use magnetism to magnetize hexagonal water have low efficiency, and when the magnetized hexagonal water is directly used, the sterilizing effect is low, so it was difficult to expect effects related to sterilization.

In order to solve this problem, according to the present invention, a strong magnetic force is generated in the flowing water to make magnetized hexagonal water, and at the same time, the silver-containing sterilizing body 130 in which water is located outside the water molecule converting stone rod 110, So that the water is mixed with the strong sterilization treatment by silver.

That is, the water is mixed with the sterilization body 130 containing silver and mixed while being mixed to improve the efficiency of magnetization and hexagonalization.

In addition, instead of merely effecting the sterilization treatment by silver, the silver-containing sterilization body 130 is brought into contact with the silver-containing sterilization body 130 while becoming magnetized hexagonal water, so that the sterilization treatment effect by silver is further improved. The effect of sterilization treatment is better when magnetized hexagonal water is contacted with silver than it is.

For the same reason, the water molecule conversion sterilizing apparatus of the present invention can be configured to include a housing 120 having a hollow 121 connected to a line through which water flows and through which water flows.

In addition, it is possible to have a water molecule converting stone rod 110 which is located in the housing 120 and applies a magnetic force to the water flowing along the hollow 121 so that the water to be flowed becomes magnetized hexagonal water.

In addition, the sterilizing body 130, which is located outside the water molecule conversion rotary bar 110 and flows along the hollow 121 to make contact with water to be magnetized hexagonal, and is made of silver or coated with silver Respectively.

The structure for connecting the above-described housing 120 to a line through which water flows may be a shape having a groove or protrusion formed with a spiral for bolting.

In addition, the water molecule conversion rotary bar 110 may be a conventional one in which a plurality of permanent magnets are arranged in a row, and the same polarity faces each other.

In addition, the sterilizing body 130 may be formed in the form of a mesh net or may be in the form of a coil wound while forming the helix 131.

In the case of a coil having a helical line 131, the water molecule is converted into a shape that is wound while forming a helix in the user's stone rods 110 or positioned at an interval T1 between the water molecule converting stone rods 110 .

This configuration is superior to the case in which the sterilizing body 130 is formed in a mesh net shape, and the efficiency of the water mixing is increased because the change in the flow of the flowing water increases.

Even when the sterilizing body 130 is in the form of a coil, there is a large change in the flow of water in the form in which the water molecule converting stone is located at a distance T1 from the user.

It is also preferable that the sterilizing body 130 is wound so as to form a gap T2 between the spiral 131 and the spiral 131 wound.

If there is no gap (T2) between the helix and the helix, the change of the water flow is small and the change of the magnetic force is relatively small, and it is difficult to expect the effect of filtering foreign matter having magnetism in the water.

However, when the gap T2 is formed between the helix and the helix, a change in the magnetic force is large, a change in the flow of water is large, and an effect of filtering foreign substances having magnetic properties in the interval T2 can be obtained.

If the gap is too small, it is difficult to expect the effect and the water flow change becomes too small. Therefore, the interval T2 is preferably 0.5 to 1.5 times as large as the spiral thickness.

In the present invention, the housing 120 may further include vortex forming means 141 for allowing water to flow while rotating in the hollow 121, so that the flow of water can be further strengthened.

When the change in the flow of water is increased, the time during which the flowing water is in contact with the sterilizing body 130 is prolonged and the contact ratio is also improved. Since the water is uniformly influenced by the magnetic force, the effect of changing water molecules (magnetization and hexagonalization) And the effect is also excellent.

The vortex forming means 141 may be implemented in various forms of vortex forming means applied in various industrial fields.

Specifically, it may be realized in the form of a propeller 41 located in front of the housing 120.

That is, the flowing water is rotated by the vortex forming means 141 in the form of a propeller.

If the propeller-type object is rotated by the flowing water, the effect of forming the vortex becomes greater.

In another embodiment, the vortex forming protrusion 42 may be formed as a spiral in the hollow 121 of the housing 120.

In the present invention, the sterilizing body 130 may be formed as a coil having a coil shape while forming a helix, but a coil having a helix formed as the diameter becomes narrower toward the top.

This type of sterilizing body 130 is characterized in that it can increase the contact rate with water.

In particular, when a plurality of the hollows 121 are positioned as shown in FIG. 5, it is possible to increase the contact rate with water while changing the flow of the water.

In the accompanying drawings, reference numeral 22 denotes an interval-forming member for positioning the stone bar for converting water molecules, and reference numeral 23 denotes a sterilizing body mounting guide for positioning the sterilizing body.

The inventor of the present application found out that when the ginseng is cultivated after the long research and effort, if the proper amount of light is set, the disease does not become less and serious disease does not occur.

However, it was necessary to set the conditions suitable for the growth of ginseng according to the season rather than simply making the light quantity constant.

When the conditions suitable for the growth of ginseng were established, the quality of ginseng was improved because the ginseng grew healthy and the growth was very smooth.

Specifically, it is necessary to increase the amount of light in the early growth stage (spring) of the ginseng, which starts leafing, so as to prevent the leaf from being laughed so that the disease is less, and the light quantity should be relatively lowered in the middle (summer) And even if a disease occurs, the spraying of the pesticide is not generated to the extent necessary.

Of course, when a disease requiring the spraying of the pesticide is generated, the ginseng can be taken out to the outside of the house for ginseng cultivation at the early stage of development to prevent spread of the disease.

In the present invention, only the cultivation box 65 in which bottled ginseng is located can be moved and separated.

For this reason, it is preferable that the shading means 10 for reducing the light transmission amount of the space in which the ginseng is cultivated is provided.

It is also preferable to have a controller 20 for controlling the movement of the light shielding means 10 so that the light amount of the space in which ginseng is grown is within a set range based on the input data.

The light shielding means 10 may be of the same type as a light shielding net used for cutting off light in a normal ginseng cultivation facility.

Of course, it may be a cloth or film that can shield the light even if it is not in the form of a light shielding net.

The controller 20 controls the light amount of the ginseng cultivation space by controlling the operation of the light shielding means 10 in the form of a central processing unit (CPU) of a computer or a controller 20 of various electronic apparatuses.

In order to input data for controlling the light-shielding means 10 to the controller 20, the operator may check and input the growth state of the ginseng every time. However, if the condition of the light amount is inputted for each time, So that the light amount can be adjusted.

In order to control the light intensity of the ginseng cultivation space, when a plurality of light shielding net 11 is positioned and the light amount of the ginseng cultivation space is to be reduced, the light shielding net may cover the upper and side portions of the house, .

That is, another light-shielding net is placed on one light-shielding net.

Of course, a plurality of light-shielding networks having different light transmittance may be provided, and a shading network matching the light amount setting of the ginseng cultivation space may be configured to block the ginseng cultivation space.

In addition, the light amount of the ginseng cultivation space can be adjusted by allowing the shade net to cover the upper part of the house and adjust the opening degree of the side.

The inventors of the present application have found that, in addition to controlling the light intensity in the process of cultivation of ginseng-free pesticides, when the temperature and humidity of the ginseng cultivation space are appropriately maintained, the disease occurrence is further reduced.

Of course, if both the temperature and the humidity conditions were properly maintained, the occurrence of the disease was minimized, and the disease was hardly caused.

The optimal temperature for emergence of ginseng leaves was 10 ~ 15 ℃, and it was 21 ~ 25 ℃ for leaf growth.

At 30 ℃ or more, the photosynthesis stopped and the amount of breathing increased. When the days exceeded 30 ℃ for more than 7 days, high temperature obstacle occurred.

In summer, if the outside temperature is above 30 ℃, the temperature inside the ginseng field will rise to 33 ~ 34 ℃ higher than the external temperature by 3 ~ 4 ℃ and the high temperature disruption will occur due to the decrease in photosynthesis , And it was concluded that the inhibition of muscle mass and the muscle weight were decreased.

Therefore, the facility of the present invention may further include a temperature measuring means 30 for measuring the temperature of the space in which the ginseng is cultivated (the temperature measuring means 30 preferably has a temperature sensing sensor)

In addition, it may further comprise a temperature adjusting means 40 for adjusting the temperature of the space in which the ginseng is grown.

In addition, the controller 20 controls the driving of the temperature regulating means 40 so that the temperature of the space in which the ginseng is grown is within the set range.

The temperature regulating means 40 can be implemented in various forms.

Specifically, when the temperature of the space where the ginseng is cultivated is equal to or greater than a predetermined value, water can be injected into the inside or the outside of the house facility to thereby lower the temperature of the space where the ginseng is grown. have.

In addition, when the temperature of the space in which the ginseng is cultivated is greater than a predetermined value, it is also possible to provide cold wind supply means for supplying cold air to the inside of the house facility so that the temperature of the space where the ginseng is cultivated is lowered.

In addition to the above-described method, the present invention can be implemented in various forms, but it is preferable that the water injector 41 is provided in consideration of economical efficiency.

A humidity measuring means 50 for measuring the humidity of the room where the ginseng is grown for controlling the humidity of the ginseng cultivation space. (The humidity measuring means 50 preferably has a humidity measuring sensor)

In addition, it is possible to further include a humidity adjusting means for adjusting the humidity of the space in which the ginseng is grown.

In this configuration, the controller 20 controls the driving of the humidity control means so that the humidity of the space in which the ginseng is grown is within the set range.

The humidity controlling means may be a form including a humidifier for spraying water when the humidity of the room where the ginseng is cultivated is less than a set value.

The humidifier in the above description may be in the form of the water injector 41 described above.

In other words, the humidification effect occurs only by spraying water, and when the water at a temperature lower than the temperature of the ginseng cultivation space is injected into the house for ginseng cultivation, a cooling effect of lowering the temperature can be obtained.

In the structure having the humidifier, the controller 20 can lower the humidity by ventilating the room where the ginseng is grown when the humidity of the room where the ginseng is cultivated is higher than a predetermined value.

For ventilation, it is possible to simply open the top or side of the house for cultivating ginseng to naturally ventilate, but forced ventilation may be performed by driving the ventilating fan.

In the present invention, the upper part (which may be both upper and lower sides) of the ginseng cultivation facility is blocked by the vinyl 201 or the like so as to prevent the rainwater from falling down into the ginseng cultivation space, ) Is positioned, the amount of light can be adjusted.

Of course, there is a need to implement the vinyl that is laid on the house facility so that it is folded or rolled up as needed, or opened to the contrary.

The temperature of the ginseng cultivation space can also be controlled by opening or blocking such vinyl.

The structure of the apparatus for allowing the cultivation space to be opened or closed by the vinyl in the house for cultivating crops (such as a vinyl house) or the structure of the vinyl to be spread over the house is already well known, so a detailed description thereof will be omitted.

This technique can also be applied to the adjustment of the amount of light through the driving of the light-shielding net.

In other words, it is possible to control the amount of light in the ginseng cultivation space by applying the technique of covering the house with vinyl, but by covering the light shielding network instead of the vinyl.

The soil for cultivation of ginseng was P.H 6-7. The increase of rice husk and coco peat ratio resulted in a satisfactory effect even if PH was slightly increased.

Soil content was satisfactory when it was prepared by adding peat moss, coco peat, rice hull, dolomite, and castor oil.

1. Box
3. Vinyl
10. Shading means
11. Shining net
20. Controller
30. Temperature measurement means
40. Temperature control means
41. Water sprayer
50. Humidity measurement means
65. Cultivation box
70. Box frame
71. Growing Box Box
71a. pipe
80. Insulation
85. Heat line
88. Water barrier plate
90. Drainage
100. Growth water supply means
100a. Water molecule conversion sterilizer
100b. pipe
110. Water molecule conversion user stone
120. Housing
121. Hollow
122. An interval-
123. Sterilization body guide
130. Sterilization body
131. Spiral
140. Vortex formation means
141. Propeller
142. Vortex-forming protrusions
200. Rainwater blocking means
201. Vinyl

Claims (6)

In the facility for the cultivation of ginseng,
A rainwater shielding means (200) for shielding rainwater so as to prevent the rainwater from being scattered directly on the inner ginseng in a house form;
Soil-filled, ginseng-planted, movable cultivation boxes 65;
A box placing frame (70) having a cultivation box holding portion (71) in which the cultivation box (65) is spaced upward from the ground;
A heat insulation material (80) placed on the growth box inner surface (71);
And a heat ray (85) placed on the heat insulating material (80) and adapted to heat the soil in the soil cultivation box (65) placed on the top by emitting heat.
The method according to claim 1,
The box frame 70 has a plurality of box boxes 71 arranged at upper and lower intervals to house a plurality of box boxes 65,
A water blocking plate 65 is provided between each of the cultivation box guiding parts 71 and the upper cultivation box 65 to prevent the water discharged to the lower part of the cultivation box 65 from falling down to the cultivation box 65 located at the lower part. (88);
And a drainage passage (90) for allowing the water located above the water shutoff plate (88) to flow and collect so that the collected water is discharged without affecting the lower cultivation box (65). Possible organic ginseng cultivation facility.
3. The method according to claim 1 or 2,
A water molecule converting and disinfecting apparatus 100a for supplying water necessary for the growth of ginseng through magnetization and hexagonalization by supplying magnetic force to water to be supplied through a process of supplying water through a pipe and magnetizing and hexagonalizing the water to be supplied, And a feeding means (100) for feeding the organic ginseng.
The method of claim 3,
The water molecule conversion and sterilizing apparatus 100a includes a housing 20 connected to a line through which water flows and having a hollow 21 through which water flows;
A water molecule converting stone rod 10 placed in the housing 20 to apply magnetic force to water flowing along the hollow 21 so that the water to be flowed becomes magnetized hexagonal water;
A sterilizing body 30 which is located outside the water molecule converting stone 10 and flows along the hollow 21 so that the water becomes magnetized hexagonal water and is made of silver or coated with silver; Organic ginseng cultivation facility with adjustable growth.
In the cultivation method of ginseng,
The upper part of the ginseng is cut off so that the rainwater is not sprayed directly on the ginseng, the water necessary for the growth of the ginseng is supplied through the pipe, the soil is filled in the movable cultivation box 65 and the ginseng is cultivated, The ginseng of the cultivation box 65 is prevented from being affected by pathogenic microorganisms in the ground and the ginseng of the cultivation box 65 is placed on the upper part of the cultivation box inner surface 71 of the box frame 70 The ginseng is grown while controlling the growth of the ginseng by applying heat to the soil in the cultivation box 65 through the heat insulating material 80 and the heat line 85 on the upper part thereof, Organic ginseng cultivation method using cultivation facility.
6. The method of claim 5,
A plurality of the cultivation boxes (65) are spaced upward and downward, and the ginseng is cultivated by a multi-stage cultivation method.
The water supplied for the growth of ginseng is sprayed into the cultivation box 65 and the water is sprayed to the water blocking plate 88 on the upper portion of the cultivation box crotch portion 71 so as not to affect the cultivation box 65 located below The organic ginseng cultivation facility capable of controlling the growth of the ginseng is arranged so that the ginseng is cultivated while preventing the water from dropping in the cultivation box 65 located at the lower part so that the organic ginseng cultivation facility can be moved Ginseng cultivation method.

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