KR102541690B1 - Spray type hydroponic cultivation device - Google Patents

Abstract

The present invention relates to a spray-type hydroponic cultivation device that is easy to install with a simple configuration and can provide maximum production. It includes a spray hole and a discharge port for discharging foreign substances inside the housing to the outside, and the upper side of the housing is formed in a dome shape protruding upward and includes an opening for receiving the stem of the crop. And, it relates to a spray type hydroponic cultivation device that simultaneously provides an improved decay inhibitory effect and growth promoting effect of crops to be cultivated through this.

Description

Spray type hydroponic cultivation device {Spray type hydroponic cultivation device}

The present invention relates to a spray-type hydroponic cultivation device, and more particularly, to a hydroponic cultivation method in which crops are suspended and nutrients are sprayed to the roots, wherein the nutrient solution is pulverized into fine particles using ultrasonic waves and sprayed on the crops, thereby producing a high-pressure method. It relates to a spray-type hydroponic cultivation device capable of growing crops vertically by utilizing an effective space and having high cultivation efficiency even with a relatively small amount of nutrient solution.

Hydroponics is a method of growing terrestrial plants using nutrient solution (water with nutrient medium added) without soil. The nutrient solution dissolved in nutrients necessary for crop growth is absorbed by the roots of crops instead of soil, and cultivation by providing nutrients to crops. way to do it

In general, hydroponic cultivation is used to grow crops by configuring the roots of crops to be submerged in a solid medium containing nutrient solution, or to grow crops by planting crops in a cultivation box and supplying nutrient solution to the roots. has the advantage of being able to protect plants from various diseases and pests and obtaining high yields in a short period of time without using pesticides because crops receive nutrients from various growth promoters and nutrient solution diluted with nutrients.

However, in the case of a conventional hydroponic cultivation apparatus in which roots are immersed in a nutrient solution in a solid medium, the roots of crops are grown in a state in which they are immersed in a nutrient solution, and oxygen supply to the roots is not smooth, which can cause the roots to rot. It is cumbersome to check the nutrient solution from time to time and manage the nutrient solution, and since a large amount of water must be stored and used in the solid medium, equipment and maintenance costs are incurred to produce a structure with rigidity that can support it, In addition, there is a problem that the water consumption is very high, and on the contrary, economic inefficiency may occur.

In addition, as shown in FIG. 1, in the conventional hydroponic cultivation apparatus of planting crops in a cultivation box and supplying nutrient solution to the roots, a plurality of crops are generally planted in one cultivation box and nutrient solution is applied to the roots through spray nozzles. It is configured to spray and the root is immersed in water to solve the problem of decay, but the range of spray is wide and it is difficult to properly spray only on the roots of crops, so there is a problem in that the nutrient solution sprayed on it is excessively used. Due to the irregular shape of the roots or not adjacent to the nozzle, spraying is not properly performed in some parts, which may cause a problem of unbalanced growth of a plurality of crops.

Korean Patent Publication No. 10-2013-0009323 "Hydroponic Cultivator (2013.07.15.)"

The present invention has been made to solve the above problems, and the object of the present invention is to decompose the nutrient solution to be supplied to the crops into fine particles using ultrasonic waves and supply the nutrient solution to the crops, and the nutrient solution decomposed into fine particles is By being configured to be efficiently sprayed in the device containing the, it is to provide a spray type hydroponic cultivation device that can provide the maximum amount of production with the minimum amount of nutrient solution while solving the imbalance problem of oxygen supply and spray.

In the spray type hydroponic cultivation device of the present invention, the housing for accommodating the root portion of the crop; In the movement passage having a predetermined length connected to the through hole at the lower inner side of the housing, a spray nozzle spirally arranged along the phase movement passage to supply the nutrient solution, and receiving the nutrient solution from the injection nozzle, decomposes it into fine particles and moves upward. Nozzle to spray; And a discharge port provided inside the housing, wherein the upper portion of the housing is formed in a dome shape protruding into the room, and includes an opening at the center for accommodating the stem of the crop, wherein the opening is at the center of the housing. It is formed to be depressed downward as it goes to the side, and is located below the uppermost side of the dome portion protruding upward, so that the cross section is formed in the form of a hook that is bent downward on both sides based on the opening, and the spray hole is formed in the opening It is formed in the lower part of the housing facing the upper and lower portions of the housing, and the nutrient solution of fine particles sprayed upward from the spray hole minimizes outflow to the outside through the opening and moves downward along the upper end face of the housing. It is characterized by doing.

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In addition, the housing is characterized in that the cross-sectional area of the opening is formed smaller than the cross-sectional area of the remaining area except for the upper part of the housing.

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In addition, it is connected to the nozzle, characterized in that it further comprises; an ultrasonic atomizer for atomizing the nutrient solution supplied to the crop using ultrasonic waves and delivering it to the nozzle.

At this time, the ultrasonic atomization device further includes a blower, and the atomized nutrient solution is sprayed into the housing by the blower.

In addition, the housing has an inner space capable of accommodating a plurality of crops, and the opening is located on the top of the housing and is provided to correspond to the number of crops accommodated in the housing.

At this time, the spray hole is characterized in that provided to correspond to the opening.

In addition, the housing is characterized in that it is formed by including at least one of wood, rubber, resin, paper.

In addition, the gas outlet is characterized in that formed on the bottom surface of the housing except for the spray hole.

The spray type hydroponic cultivation device of the present invention according to the configuration as described above is configured so that the nutrient solution can be evenly supplied to the roots while the appropriate amount of nutrient solution stays for a certain time in the space where the crop is accommodated, using a minimum amount of nutrient solution Since it is possible to grow crops and has high space utilization, it is possible to grow vertical crops, so it is economical to obtain a high yield compared to the area. In addition, by spraying the nutrient solution while the roots of the crops are suspended in the air, the growth rate of the crops is fast and the effect of inhibiting the propagation of bacteria on the roots can be provided. It has the effect of providing high production.

1 is a conventional spray type hydroponic cultivation device
2 is a perspective view of the present invention
3 is a cross-sectional view of the present invention
4 is a conceptual diagram of nutrient solution spraying of the present invention
Figure 5 is a block diagram of the present invention comprising an ultrasonic atomizer and a blower
Figure 6 is a perspective view of another embodiment of the present invention accommodating a plurality of crops in the housing
Figure 7 is a cross-sectional view of another embodiment of the present invention accommodating a plurality of crops in the housing

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to the usual or dictionary meaning, and the inventor appropriately uses the concept of the term in order to explain his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, various alternatives may be used at the time of this application. It should be understood that variations may exist.

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. Since the accompanying drawings are only examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

The present invention is a device for spray-type hydroponic cultivation, which sprays nutrient solution decomposed into fine particles using ultrasonic waves to the roots of crops. By configuring it to be evenly distributed, it is possible to obtain the effect of suppressing the decay of crops and the effect of promoting growth, and it is a device for providing productivity improvement through cost reduction.

Therefore, in the spray type hydroponic cultivation device of the present invention, the housing 100 for accommodating the root portion of the crop 1 is located in the inner lower part of the housing 100, and a through hole is formed to spray the nutrient solution upward. It is configured to include a spray hole 120 and a discharge port 130 provided inside the housing 100 to discharge foreign substances to the outside, the upper part of the housing 100 is formed in a dome shape protruding upward, and crops It is characterized in that it comprises an opening 110 for accommodating the stem of (1).

In more detail, the present invention is a device using a spray-type hydroponic cultivation method, wherein the spray-type hydroponic culture is a crop (1) by spraying a nutrient solution to the roots of the crop (1) in a state in which the crop (1) is suspended and suspended in the air. ) to grow crops (1) by supplying nutrients to the roots. At this time, the housing 100 of the present invention is characterized in that it accommodates the root portion of the crop 1, and the upper portion of the crop 1 excluding the root of the crop 1 is of the housing 100. It is preferable to be exposed to the outside of the housing 100 through the opening 110 formed at the top. Accordingly, since the nutrient solution is sprayed only on the roots where the crop 1 can directly absorb nutrients, there is an advantage in that the nutrient solution can be used more efficiently.

Referring to FIGS. 2 and 3 , the housing 100 of the present invention is characterized in that the upper portion of the housing 100 is formed in a dome shape protruding upward. More specifically, the opening 110 is formed in the upper portion of the housing 100, and a portion excluding the opening 110 is formed in a dome shape in a curved shape, and the opening ( 110) is formed with a diameter that can sufficiently accommodate the stem of the crop (1) according to the type of crop (1), the upper side of the crop (1) except for the root of the crop (1) in the opening (110), That is, the stem of the crop 1 is formed to be positioned. At this time, the opening 110 is preferably formed in a central portion of the upper portion of the housing 100, and may be formed in a shape in which curvature is gradually relieved from the opening portion to the lower side of the housing 100. By forming the opening 110, external air can be introduced into the housing 100 accommodating the crops 1, and thus oxygen required for the roots of the crops 1 can be supplied to prevent oxygen deficiency. There is an effect of solving the problem of lack of dissolved oxygen, which can prevent the decay of the crop (1) by

At this time, in the housing 100, it is preferable that the cross-sectional area of the opening 110 is smaller than the cross-sectional area of the remaining area of the housing 100 excluding the opening 110. The opening 110 is for positioning the stem of the crop 1 to the outside of the housing 100, and one end of the housing 100 is open so that external air can flow into the housing 100. As formed, it can be used as a passage through which oxygen can flow into the housing 100. Therefore, even in the upper portion of the housing 100 formed in a dome shape, the cross-sectional area of the opening 110 is smaller than the other cross-sectional areas of the lower portion of the housing 100, other than the upper portion of the housing 100. Preferably, the opening 110 is formed with a cross-sectional area of at least a certain level capable of accommodating the stem of the crop 1, and has a cross-sectional area that can minimize the outflow of the nutrient solution sprayed inside the housing 100. It is appropriate to form

Referring to FIG. 4, the present invention is to provide improved production efficiency compared to the amount of nutrient solution sprayed, and a minimum amount of nutrient solution is sprayed inside the housing 100, and the sprayed nutrient solution is applied to the housing 100. In order to be evenly sprayed while staying inside, the housing 100 is characterized in that the opening 110 is recessed toward the inside of the housing 100. More specifically, the opening 110 of the housing 100 is positioned lower than the uppermost side of the housing 100 formed in a dome shape, and thus the cross section of the upper portion of the housing 100 is formed in a hook shape. It becomes. This is because when the nutrient solution is sprayed upward of the housing 100 from the spray hole 120 located in the lower part of the housing 100, the sprayed nutrient solution is moved to the inner upper end of the housing 100, and the nutrient solution moved to the upper end. This is to move to the side of the housing 100 along the upper hook shape of the housing 100 and move to the lower side of the housing 100, and the nutrient solution sprayed upwards evenly is moved to the upper hook of the housing 100. While moving to the side and lower sides of the housing 100 along the cross section of the shape, the nutrient solution is evenly sprayed inside the housing 100, and more uniformly applied to the roots of the crop 1 accommodated inside the housing 100. It provides the effect of distributing the nutrient solution.

In addition, the present invention can decompose the nutrient solution into fine particles using ultrasonic waves and spray it inside the housing 100, and the upper end surface of the housing 100 is formed in a hook shape, so that the nutrient solution sprayed in the form of mist Since it is possible to stay inside the housing 100 for a longer time while minimizing outflow to the outside of the housing 100 through the opening 110, the sprayed nutrient solution can be absorbed by the roots of the crop 1 as much as possible. time is provided, and thus, there is an effect of efficiently cultivating the crop (1) using a minimum amount of nutrient solution. That is, the nutrient solution sprayed upward along the inner surface of the housing 100 moves downward again, and the effect of spraying the roots of the crop 1 twice with one spraying can be obtained. At this time, the upper cross-sectional area of the opening 110 is formed to be narrower than the lower cross-sectional area of the opening 110 to further minimize the leakage of the nutrient solution to the outside by the opening 110. In addition, the inner circumferential surface of the opening 110 is formed of a material that can dynamically change the cross-sectional area according to the size of the stem of the crop 1, such as rubber or coated paper, so that the growth of the stem of the crop 1 Accordingly, the size of the opening 110 can be flexibly changed and the growth efficiency of the crop 1 can be improved.

Referring to FIG. 1, in one embodiment of the present invention, the housing 100 may be formed in an oval shape with upper and lower sides rounded, which is the housing in which the roots of the crop 1 are accommodated ( 100) includes sufficient space to supply oxygen to the roots, but the area where the nutrient solution is sprayed can be further minimized, thereby reducing the amount of nutrient solution used and miniaturizing the size of the housing 100. It has the effect of improving space utilization.

The housing 100 is formed including the spray hole 120 and the outlet 130, and the spray hole 120 is a through hole formed in the lower part of the housing 100, and is supplied to the crops 1. It is formed to supply the nutrient solution to the crops 1 by spraying the nutrient solution to the inside of the housing 100, and the outlet 130 is formed in the form of foreign substances or mist that may be formed inside the housing 100. It is characterized in that it is formed as a hole penetrating the outside of the housing 100 in order to discharge the liquefied nutrient solution to the outside without being absorbed by the roots among the nutrient solution to be sprayed. The nozzle 120 and the outlet 130 may be provided in plurality in the housing 100 as needed, and the nozzle 120 corresponds to the number of crops 1 provided in the housing 100. It is desirable to be provided as much as possible.

At this time, referring to FIG. 4 , in one embodiment of the present invention, the injection hole 120 is provided with a spray nozzle 121 so that the nutrient solution is evenly distributed over a wider range when the nutrient solution is sprayed inside the housing 100. It can be, the injection nozzle 121 is characterized in that arranged in a spiral. In the spray hole 120, the spray nozzle 121 for spraying the nutrient solution may be spirally arranged in the spray hole 120, and the movement passage 122 connected to supply the nutrient solution to the spray hole 120 from the outside. The injection nozzle 121 may be arranged in a spiral shape along. When the spray-type hydroponic cultivation device of the present invention delivers the nutrient solution to the nozzle 120 through the ultrasonic atomizer 200 that decomposes the nutrient solution into fine particles using ultrasonic waves, the ultrasonic atomizer 200 and the nozzle The injection nozzle 121 may be spirally disposed at a position near the discharge port 120 in the moving passage 122 to which the nutrient solution is connected, and the nutrient solution is spirally disposed at the injection port 120. It moves along the spray nozzle 121 and is sprayed into the housing 100, so that the nutrient solution decomposed into fine particles can be sprayed over a wider range and evenly distributed to the roots of the crops 1. can In addition, in one embodiment of the present invention, the injection hole 120 is preferably located in the lower center of the housing 100 to evenly spray the nutrient solution inside the housing 100, and the outlet 130 is It does not matter if foreign matter inside the housing 100 is formed to be discharged at a location other than the location where the injection hole 120 is formed, and in one embodiment, the discharge hole 130 is located near the injection hole 120 on the lower side of the housing 100. It is desirable to be positioned so as to facilitate placement of the foreign material.

Referring to FIG. 5, the spray-type hydroponic cultivation device is an ultrasonic atomization device 200 capable of dissolving the nutrient solution sprayed on the crops 1 into fine particles and delivering the nutrient solution to the nozzle 120 to spray the nutrient solution Characterized in that it is configured to further include, characterized in that the ultrasonic atomization device 200 is a device that atomizes the nutrient solution supplied to the crops 1 using ultrasonic waves and delivers it to the nozzle 120. The ultrasonic atomization device 200 is preferably connected to the housing 100 through a nutrient solution movement passage such as a pipe or a nozzle through which the atomized nutrient solution can be moved. When the housing 100 is composed of a plurality, One ultrasonic atomizer 200 is formed to be connected to each of the plurality of housings 100, so that the atomized nutrient solution can be sprayed to the plurality of housings 100 using one ultrasonic atomizer 200. It is desirable to form In addition, the nutrient solution atomized using the ultrasonic atomization device 200 can be decomposed into water molecules having a size of 0.1 to 1 μm, which is easy for the roots to absorb the nutrient solution. Since most of it can be absorbed by the roots, the amount of nutrient solution remaining in the housing 100 can be minimized, and consequently outflow can be minimized, so there is not enough space to treat foreign substances through the outlet 130. Even so, there is an advantage in that it is possible to minimize the occurrence of bewilderment due to runoff while being able to install the spray-type hydroponic cultivation device without being limited to the installation location.

At this time, in order to easily move the nutrient solution atomized into fine particles by the ultrasonic atomizer 200 to the housing 100, the ultrasonic atomizer 200 may further include a blower 210. The blower 210 is a device capable of generating wind having a predetermined pressure, and by further comprising the blower 210, the nutrient solution atomized by the ultrasonic atomizer 200 is generated by the blower 210. It can be easily moved along the moving passage connecting the ultrasonic atomizer 200 and the housing 100 by the wind and sprayed into the housing 100 through the nozzle 120 with an appropriate pressure. There are advantages. In addition, when the distance between the ultrasonic atomizer 200 and the housing 100 is more than a certain amount, a plurality of blowers 210 and / or the ultrasonic atomizer 200 may be provided in the moving passage as needed, , The atomized nutrient solution, which is lighter in weight than the original state, moves smoothly along the moving passage connected to a certain length or more by the blower 210 and / or the ultrasonic atomizer 200, and the nozzle 120 After reaching, it may be formed to be sprayed into the housing 100.

In addition, the housing 100 is preferably formed of a material including at least one of wood, rubber, resin, and paper, and in addition to the above material, the temperature difference between the inside and outside of the housing 100 can be maintained for a longer time. Any material with low thermal conductivity can be used. When the nutrient solution atomized by the ultrasonic spray device is sprayed into the housing 100, the liquefaction phenomenon of the atomized nutrient solution due to the difference between the temperature inside the housing 100 and the temperature outside the housing 100 is maximized. In order to slow down, the housing 100 is formed of a material with low thermal conductivity to suppress the liquefaction of the atomized nutrient solution, so that the nutrient solution in the form of a mist sprayed into the housing 100 maintains an atomized state for a longer period of time. It has the effect of maintaining and staying inside the housing 100.

Referring to another embodiment of the present invention with reference to FIGS. 6 and 7, the housing 101 is formed to have an inner space capable of accommodating a plurality of crops and can accommodate the roots of a plurality of crops 1, and the opening (110) is characterized in that it is formed in correspondence with the number of a plurality of crops (1). At this time, the housing 101 is formed with a plurality of openings 110, and a plurality of domes including a plurality of openings 110 on the upper side of the housing 101 so that all of the openings 110 are connected. It is characterized by being formed in the form. In more detail, the lower side of the housing 101 is formed with a certain width or more to accommodate a plurality of crops 1, and the upper side of the housing 101 has an upper end surface of the housing 101 formed by a hook, That is, the shape of a dome in which the plurality of openings 110 are formed to be recessed into the housing 101 from the height of the uppermost end of the housing 101 corresponds to the number of crops 1 accommodated and is formed to be connected to each other. It can be. At this time, it is preferable that the injection hole 120 is provided to correspond to the opening 110, and a plurality of the injection holes 120 are located in the lower part opposite to the opening 110, respectively, so that one crop ( 1) It is preferable that each injection hole 120 is arranged to spray the atomized nutrient solution to the root. In addition, a plurality of the nozzles 120 may be connected to one of the ultrasonic atomizer 200, and the ultrasonic atomizer 200 is configured to include the blower 210, by the ultrasonic atomizer 200 The atomized nutrient solution is moved by the blower 210 and may be configured to distribute and spray the nutrient solution to the plurality of spray holes 120, respectively. In addition, the outlet 120 may be provided in the housing 101 without limitation in a plurality as needed.

In addition, the ultrasonic atomizing device 200 may be configured in plurality, and a plurality of the ultrasonic atomizing device 200 may be formed to be connected to one housing 100. At this time, it is preferable that the plurality of ultrasonic atomizers 200 are provided to atomize only different types of solutions among the solutions contained in the nutrient solution, and the plurality of ultrasonic atomizers 200 have different capacities for the housing. It can be formed to be sprayed on (100) to supply different types of solutions to crops (1) at different rates. This has the advantage that the nutrient solution is prepared by mixing different solutions, and the damage caused by the precipitate generated by mixing the different solutions can be minimized, so that the maximum production amount can be obtained compared to the cost.

As described above, the present invention has been described with specific details such as specific components and limited embodiment drawings, but this is only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiment. No, and those skilled in the art to which the present invention pertains can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the scope of the claims described later, but also all modifications equivalent or equivalent to the scope of the claims belong to the scope of the scope of the present invention. .

1: crops
100: housing 110: opening
120: injection hole 121: injection nozzle
130: outlet
200: ultrasonic atomizer 210: blower

Claims (10)

In the spray type hydroponic cultivation device,
Housing for accommodating the root portion of the crop;
A spray nozzle that is spirally disposed along the moving passage and supplies nutrient solution in a moving passage having a predetermined length connected to a through hole at the inner lower part of the housing, and receives the nutrient solution from the spray nozzle and disassembles it into fine particles and moves upward. Nozzle to spray; and
an outlet provided inside the housing;
including,
The upper part of the housing,
It is formed in a dome shape protruding upward and includes an opening for accommodating the stem of the crop at the center, wherein the opening is recessed downward toward the center of the housing, so that the uppermost portion of the dome portion protrudes upward. It is located downward, and the cross section is formed in the form of a hook that is bent downward on both sides based on the opening,
The injection hole is formed in the lower part of the housing facing the opening in the vertical direction,
Spray-type hydroponic cultivation device, characterized in that the nutrient solution of fine particles injected upward from the injection hole, the outflow to the outside through the opening is minimized and moves downward along the upper end surface of the housing.
delete According to claim 1,
the housing,
Spray type hydroponic cultivation device, characterized in that the cross-sectional area of the opening is formed smaller than the cross-sectional area of the remaining area except for the upper part of the housing.
delete According to claim 1,
The spray type hydroponic cultivation device further comprising a; ultrasonic atomization device connected to the nozzle and atomizing the nutrient solution supplied to the crops using ultrasonic waves to deliver the spray to the nozzle.
According to claim 5,
The ultrasonic atomization device further includes a blower,
Spray-type hydroponic cultivation device, characterized in that the atomized nutrient solution is sprayed into the housing by the blower.
According to claim 1,
The housing has an inner space capable of accommodating a plurality of crops,
The opening is
Located on the upper part of the housing and spray-type hydroponic cultivation device, characterized in that provided to correspond to the number of crops accommodated in the housing.
According to claim 7,
The nozzle is
Spray-type hydroponic cultivation device, characterized in that provided to correspond to the opening.
According to claim 1,
the housing,
Spray type hydroponic cultivation device, characterized in that formed by including at least one of wood, rubber, resin, paper.
According to claim 1,
The outlet is a spray type hydroponic cultivation device, characterized in that formed on the bottom surface of the housing except for the injection port.

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