KR102549610B1 - Root plant hydroponic cultivation pot - Google Patents

Abstract

The present invention inhibits the growth of fine roots of root crops and promotes the growth of main roots during hydroponic cultivation of root crops such as ginseng, increases the thickness, and grows root crops in an even and linear form overall Hydroponic cultivation of root crops Regarding the port, the hydroponic cultivation port according to the present invention has an inlet into which root crops are inserted open at the upper end, an outlet through which nutrient solution can be discharged at the lower end, and sprayed from the outside on the side. A port body in the form of a hollow tube formed through a plurality of holes so that the nutrient solution can flow into the port body; A support member installed to be movable up and down in the pot body to support the lower end of the root crop, and a spring disposed between the support member and the lower portion of the pot body to apply elastic force upward to the support member, root crops an elastic part configured to gradually move downward while the support member compresses the spring as it grows; and a support member installed at the inlet side of the pot body to support the top of the root crop with respect to the pot body.

Description

Root plant hydroponic cultivation pot

The present invention relates to an apparatus for hydroponic cultivation of root crops, and more particularly, to a root crop having a space for accommodating root crops so that the root crops can grow evenly during hydroponic cultivation of root crops such as ginseng. It relates to a pot for hydroponic cultivation.

In general, ginseng is a very slow-growing crop, which sprouts from the brain head once a year, grows leaves, and grows over several generations. From sowing to production, it takes 3~4 years for fresh ginseng and 5~6 years for medicinal ginseng, which is very unfavorable for capital recovery and management.

In addition, ginseng is cultivated for a long time in the same soil, and since a fixed sunshade greenhouse for cultivation is open, it suffers a lot of damage from diseases and pests. To prevent this, chemical pesticides are often used.

Recently, in order to grow ginseng in an eco-friendly way without using pesticides or fertilizers, a hydroponic cultivation method has been developed in which ginseng is grown by supplying nutrient solution in a certain place without growing in soil.

In Korean Patent No. 10-0959254, the first step of purification is carried out by transferring ginseng seedlings to a storage greenhouse at 15 ° C after release, storing them for 1 to 2 days, and then decorating them, and storing the decorated ginseng seedlings in a greenhouse for 1 to 2 days to obtain the greenhouse After adapting to the environment, the second step of acclimatization is performed in which the seedlings are planted in a bed, and a nutrient solution is prepared and cultivated by spraying the nutrient solution to the roots of the seedlings through a mist nozzle to harvest clean fresh ginseng and ginseng leaves. Disclosed is a "method for producing clean fresh ginseng and ginseng leaves" using a spray mirror ginseng hydroponic cultivation system.

In this way, in the conventional method of hydroponic cultivation by spraying a chemical solution on root crops such as ginseng, the root crop creates many fine roots during the growth process to absorb nutrients in the drug solution, but the thickness of the main root becomes thin and the quality deteriorates. In addition, there is a problem of low marketability due to severe variation in the length or thickness of root crops.

In addition, since root crops should not be exposed to light as much as possible during the growth process, they grow hidden under the bed, so it is difficult to check the growth state, and accordingly, it is difficult to accurately recognize the harvest time.

Republic of Korea Patent No. 10-0959254 Republic of Korea Patent No. 10-1802874 Republic of Korea Patent Publication No. 10-2020-0004638

The present invention is intended to solve the above problems, and an object of the present invention is to suppress the growth of fine roots of root crops and promote the growth of main roots during hydroponic cultivation of root crops such as ginseng to increase the thickness, and overall even and linear It is to provide a port for hydroponic cultivation of root crops capable of growing root crops in the form.

Another object of the present invention is to provide a port for hydroponic cultivation of root crops that can accurately recognize the harvest time by allowing easy recognition with the naked eye from the outside when the root crops grow to a target size.

In order to achieve the above object, a port for hydroponic cultivation of root crops according to one form of the present invention has an opening at the upper end into which root crops are inserted and an outlet through which nutrient solution can be discharged at the lower end. A port body in the form of a hollow tube; and an elastic part installed in the pot body to apply an upward elastic force to elastically support the lower end of the root crop accommodated in the pot body and gradually move downward as the root crop grows.

The elastic part may include a support member installed in the pot body to be movable up and down to support the lower end of the root crop, and a spring disposed between the support member and the lower portion of the pot body to apply elastic force upward to the support member. can

A stopper protrusion limiting a lowering position of the support member may be formed on an inner surface of the pot body.

A plurality of holes are formed through the side surface of the pot body so that the nutrient solution injected from the outside can flow into the pot body.

The pot for hydroponic cultivation of the present invention is installed in close contact with the outer surface of the root crop elastically on the inlet side of the port body to support the upper part of the root crop with respect to the pot body, and the root crop grows to a target length or more so that the root crop When the upper part comes up to the upper side of the pot body, it may further include a support member made of a flexible material that is exposed to the outside while coming up to the upper side of the inlet of the pot body.

In the hydroponic cultivation port according to another aspect of the present invention, an inlet into which root crops are inserted is opened at the upper end, an outlet through which nutrient solution is discharged is formed at the lower end, and nutrient solution sprayed from the outside on the side. A port body in the form of a hollow tube formed through a plurality of holes to be introduced into the port body; A support member installed to be movable up and down in the pot body to support the lower end of the root crop, and a spring disposed between the support member and the lower portion of the pot body to apply elastic force upward to the support member, root crops an elastic part configured to gradually move downward while the support member compresses the spring as it grows; and a support member installed at the inlet side of the pot body to support the top of the root crop with respect to the pot body.

The support member is installed to be in close contact with the outer surface of the root crop elastically at the entrance of the pot body to support the upper portion of the root crop with respect to the pot body, and when the root crop grows to a target length or more, the upper portion of the root crop is attached to the pot body. When it comes up, it is preferable that it is made of a flexible material that is exposed to the outside while coming up to the upper side of the inlet of the port body.

According to the present invention, since the pot for hydroponic cultivation is installed in a form surrounding the outside of the root crop, the space in which the fine roots of the root crop can grow is restricted, so that the growth of the fine roots is suppressed and the growth of the main roots is promoted. Crops can be leveled and straightened at the same time.

In addition, when the root crops grow to a target size in the pot, there is an effect of harvesting the root crops by easily recognizing the harvest time through the support member protruding from the upper side of the inlet of the pot body.

1 is a cross-sectional view showing the configuration of a hydroponic cultivation system according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of a pot for hydroponic cultivation according to an embodiment of the present invention.
3 and 4 are cross-sectional views showing an operating example of the pot for hydroponic cultivation shown in FIG.

The embodiments described in this specification and the configurations shown in the drawings are only one preferred example of the disclosed invention, and there may be various modifications that can replace the embodiments and drawings in this specification at the time of filing of the present application.

Hereinafter, with reference to the accompanying drawings, a port for hydroponic cultivation of root crops will be described in detail according to the following embodiments.

1 to 4 are views showing a port for hydroponic cultivation of root crops according to an embodiment of the present invention.

1 shows an embodiment of a hydroponic cultivation system for hydroponic cultivation of ginseng as a root crop. A bed 20 installed to close the upper surface of 10), a port 100 installed by being inserted into the port installation hole 21 formed to penetrate vertically through the bed 20, and the inside of the housing 10 Including a nutrient solution sprayer 30 for spraying the nutrient solution. The nutrient solution sprayer 30 is preferably configured to inject the nutrient solution from the side of the port 100.

2 to 4, the pot 100 is a hollow tube-shaped pot body 110 in which a root crop R is inserted and accommodated, and an elastic force is applied upward to the inner space of the pot body 110 An elastic part that is installed to support the lower end of the root crop (R) accommodated inside the pot body 110 elastically and gradually moves downward as the root crop grows, the root crop at the entrance side of the top of the pot body 110 It includes a support member 130 that is installed to be elastically in close contact with the outer surface of (R) and supports the upper part of the root crop (R) with respect to the pot body (110).

The pot body 110 has a hollow tube shape in which an inlet into which the root crop R is inserted is opened at the upper end and a plurality of outlets 112 through which the nutrient solution is discharged are opened at the lower end. In addition, a plurality of holes 113 are formed through the side surface of the port body 110 so that the nutrient solution injected from the external nutrient solution sprayer 30 (see FIG. 1) can flow into the port body 110. Of the nutrient solution introduced into the pot body 110 through the hole 113, the nutrient solution not absorbed by the root crop R flows out through the outlet 112 at the bottom of the bottom surface of the housing 10 of the hydroponic cultivation system. It can be reused after being collected by falling.

A flange 114 is formed on the edge of the inlet of the port body 110 to protrude outward in the radial direction so that it can be engaged with the periphery of the port installation hole 21 of the bed 20.

The size of the pot body 110 may be variously manufactured according to the type and cultivation period of the root crop R to be cultivated.

The elastic part is installed inside the pot body 110 to elastically support the lower part of the root crop R, and is installed to be movable up and down in the pot body 110 to support the lower part of the root crop R It includes a support member 121 and a spring 122 disposed between the support member 121 and the lower end of the pot body 110 to apply elastic force to the support member 121 upward. Therefore, as the root crop R grows, the supporting member 121 gradually moves downward while compressing the spring 122 .

A stopper protrusion 123 for limiting the lowering position of the support member 121 is formed on the inner surface of the pot body 110 to protrude. Therefore, when the root crop R grows and the support member 121 descends and comes to a position in contact with the stopper projection 123, even if the root crop R grows, the support member 121 is further moved by the stopper projection 123. It is prevented from descending more than that, and the root crop R gradually rises upward.

The support member 130 is installed at the upper entrance side of the pot body 110 to support the upper part of the root crop R with respect to the upper end of the pot body 110, and the support member 130 is the pot body 110 ) It may be made of a flexible and elastic material such as a sponge that is elastically installed in close contact with the outer surface of the root crop (R) at the inlet. The support member 130 supports the upper part of the root crop R with respect to the pot body 110 while the root crop R is growing, and then the root crop R grows to a target length or more so that the root crop R grows. When the upper part comes up to the upper side of the inlet of the pot body 110, it is exposed to the outside while going up to the upper side of the inlet of the pot body 110 together with the root crop (R). Therefore, the user recognizes that the root crop R has grown to the target length through the support member 130 protruding upward from the inlet of the pot body 110, and thus harvests the root crop R.

A port 100 having this configuration operates as follows.

As shown in FIG. 3, inserting the support member 130 on top of the root crop R, inserting the root crop R through the inlet of the pot body 110, and then inserting the support member 130 into the pot body It is fixed by press-fitting into the inlet of (110). Then, the port body 110 is inserted into the port installation hole 21 of the bed 20 of the hydroponic cultivation system. At this time, the flange 114 formed on the edge of the upper inlet of the port body 110 is seated on the periphery of the port installation hole 21.

In this way, in a state where the upper part of the root crop R is fixed to the pot body 110 by the support member 130, the nutrient solution is sprayed from the side of the pot body 110 with the nutrient solution sprayer 30 to perform hydroponic cultivation. . The nutrient solution sprayed in the form of mist from the nutrient solution sprayer 30 flows into the pot body 110 through the hole 113 formed on the side of the pot body 110 and then reaches the root crop R. By doing so, nutrients and moisture are supplied to the root crop (R) to grow the root crop (R).

At this time, the pot body 110 surrounds the outside of the root crop R, and since the nutrient solution is supplied to the root crop R through the pot body 110, the root crop R is buried in the soil by the pot body 110. It has an enveloping effect. In addition, since the space where the small roots of the root crop R can grow is restricted by the pot body 110, the growth of the small roots is suppressed and the growth of the main roots is promoted.

As the root crop R grows inside the pot body 110, the lower end of the root crop R gradually pushes the support member 121 downward. When the root crop R grows to the target length and the supporting member 121 touches the stopper protrusion 123, even if the root crop R grows, the supporting member 121 is no longer lowered, so the root crop R ) rises upward as it grows further. Accordingly, the support member 130 inserted into the top of the root crop R protrudes upward from the inlet of the pot body 110.

When the user visually confirms that the support member 130 protrudes upward from the inlet of the pot body 110, it is determined that the root crop R has grown to the target length, and the support member 130 is held by hand and pulled. The member 130 and the root crop R can be easily separated from the pot body 110 and harvested.

Since the used pot 100 can be reused, other root crops R can be inserted into the pot body 110 in the same process as described above for hydroponic cultivation.

The hydroponic cultivation port 100 of the present invention can be installed and used in the hydroponic cultivation housing 10 as described above, but in addition, it can be used for hydroponic cultivation using a medium (soil) by adjusting the size of the port 100 do.

The embodiment of the above-described hydroponic cultivation port 100 has been described as for hydroponic cultivation of ginseng as a root crop (R), but in addition, it can be equally or similarly applied to hydroponic cultivation of various root crops such as licorice or bellflower as root crops. There will be.

In the above, the present invention has been described in detail with reference to the embodiments, but those skilled in the art to which the present invention belongs will be able to make various substitutions, additions, and modifications without departing from the technical idea described above. Of course, it should be understood that such modified embodiments also belong to the protection scope of the present invention, which is defined by the appended claims below.

R: root crops 1: hydroponic system
10: housing 20: bed
21: port installation hole 30: nutrient solution sprayer
100: port 110: port body
112: outlet 113: hole
114: flange 121: support member
122: spring 123: stopper projection
130: support member

Claims (7)

A port body in the form of a hollow tube having an inlet through which root crops are inserted at the upper end and an outlet through which nutrient solution can be discharged at the lower end of the port body; and,
an elastic part installed in the pot body to apply an upward elastic force and elastically supporting the lower end of the root crop housed in the pot body and gradually moving downward as the root crop grows;
including,
The elastic part includes a support member installed to be movable up and down in the pot body to support the lower end of the root crop, and a spring disposed between the support member and the lower portion of the pot body to apply elastic force upward to the support member. Pots for hydroponic cultivation of root crops. delete The pot for hydroponic cultivation of root crops according to claim 1, wherein a stopper protrusion for limiting the lowering position of the support member is formed on the inner surface of the pot body. The pot for hydroponic cultivation of root crops according to claim 1, wherein a plurality of holes are formed through the side surface of the pot body so that the nutrient solution injected from the outside can flow into the pot body. The method of claim 1, wherein the port body is installed in close contact with the outer surface of the root plant elastically on the inlet side of the pot body to support the upper part of the root plant relative to the pot body, and the root plant grows to a target length or more so that the upper part of the root plant A port for hydroponic cultivation of root crops further comprising a support member made of a flexible material that is exposed to the outside while rising to the upper side of the inlet of the pot body when it comes up to the upper side of the pot body. An inlet into which root crops are inserted is formed open at the upper end, an outlet through which nutrient solution can be discharged is formed open at the lower end, and a plurality of holes are provided on the side so that the nutrient solution sprayed from the outside can flow into the inside of the pot body. Port body in the form of a hollow tube formed to penetrate;
A support member installed to be movable up and down in the pot body to support the lower end of the root crop, and a spring disposed between the support member and the lower portion of the pot body to apply elastic force upward to the support member, root crops an elastic part configured to gradually move downward while the support member compresses the spring as it grows; and,
a support member installed on the inlet side of the pot body to support the top of the root crop with respect to the pot body;
Port for hydroponic cultivation of root crops comprising a. The method of claim 6, wherein the support member is installed to be elastically in close contact with the outer surface of the root crop at the inlet of the pot body to support the upper portion of the root crop with respect to the pot body, and the root crop grows to a target length or more. A port for hydroponic cultivation of root crops made of a flexible material that is exposed to the outside as it rises to the upper side of the inlet of the port body when the upper part of the port rises to the upper side of the port body.

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