KR101477087B1 - Aeroponic apparatus - Google Patents

Abstract

The present invention relates to an aeroponic apparatus capable of smoothening the supply of nutrients or moisture to roots of crops, improving the ventilation, minimizing the root blight due bacteria, and cultivating a large amount of crops in a minimized space, by sonicating a nutrient liquid to spray a fine particle type of nutrients. The aeroponic apparatus comprises: a water bath filled with a nutrient liquid and having a nutrient liquid supply tube formed at one side, wherein the nutrient liquid supply tube communicates with the water bath; a sonicating unit installed on an inner surface of the water bath, and sonicating the nutrient liquid filling the water bath; a circulating fan installed above the sonicating unit and circulating the nutrient liquid, which is decomposed by the sonicating unit, toward an upper side; a spray supply tube vertically connected to an upper portion of the circulating fan to communicate with the circulating fan, provided to be able to be divided in multiple stages, and having a plurality of catching projections, which are formed on an outer circumferential surface and spaced apart from each other above and below, and a plurality of penetration holes, which penetrate the outer circumferential surface below the catching projections; a plurality of mesh trays fixed and inserted into the spray supply tube and thus caught on the catching projections, and formed of a mesh net; a transparent case assembled at an upper end of the water bath to be able to be disassembled, and surrounding the mesh trays; and a transparent lid assembled at an upper end of the transparent case to be able to disassembled, and formed of a transparent material.

Description

[0001] AEROPONIC APPARATUS [0002]

More particularly, the present invention relates to an apparatus for spraying hydroponic cultivation, and more particularly, to an apparatus for spraying hydroponic liquids in a fine particle state, And to a spraying hydroponic cultivation apparatus capable of minimizing a disease and cultivating a large amount of crops in a minimum space.

Generally, in order to cope with the tendency of consumption of four seasons regardless of the decrease of agricultural land due to industrial development and the season of production of agricultural products (season), hydroponic cultivation method which can mass produce agricultural products, Is spreading.

In hydroponic cultivation method of agricultural products, hydroponic cultivation in which plants are cultivated using only water in which various necessary nutrients are dissolved without using soil is grown in an appropriate size by cultivating seedlings from the grapevine, and cultivating the nutrient in a state in which the cultivated plate is transplanted The reed plate is formed by molding an absorbent material such as a general hard synthetic resin or glass wool into a plate shape, and a cup-shaped reed ball capable of inserting and fixing the root portion of the plant is formed on the reed plate, have.

Therefore, by using a separate support frame, the reed plate is fixed on the upper side of the ground and at a predetermined height, and the plant is planted on the reed plate, and then the nutrient solution is fed to the lower side of the reed plate. Conventional hydroponic cultivation equipment used for hydroponics cultivation is a system in which plants are actually accommodated and cultivated and a nutrient solution is supplied through a nutrient supply pipe on a substrate of a certain standard equipped with drainage means to flow slowly And the plantation plate transplanted with the crop through the planting hole is arranged close to the plantation so that the roots of the crop can be impregnated with the nutrients to absorb the nutrients.

The conventional hydroponic cultivation apparatus has a problem that the root of the crop is always contained in the nutrient solution and is supplied with the nutrients, which inhibits the respiration of the root and thus the root portion is corrupted and the growth of the crop is extremely low.

In addition, the flow of nutrients is very gentle, and the space of the nutrient solution and the separation space of the plate are very narrow, resulting in poor ventilation. As a result, the temperature of the bottom of the nutrient solution and the culture plate becomes excessively high The roots of the crops are prone to necrosis or pests and diseases due to good activity conditions of germs, and temperature control work such as installation of a separate heat exchanger is required in order to prevent such problems.

In addition, since the flow of the nutrient solution on the substrate is slow, a large amount of water is retained. In order to support the weight of such heavy water, a high supporting rigidity is required in the facility.

In addition, the conventional hydroponic cultivation apparatus requires a large power unit for circulating nutrients, and it takes a lot of time and manpower to manage the nutrients such as disinfection, heating, filtration and cooling of the nutrients, .

Published Japanese Patent Application No. 2006-0028351 (Mar. 29, 2006)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

It is an object of the present invention to provide a method and apparatus for ultrasonically dissolving a nutrient solution and spraying the nutrient solution in a fine particle state so that nutrients and water supply to the root of a crop can be smoothly supplied and ventilation is improved, The present invention provides a spraying hydroponic cultivation apparatus capable of cultivating a large amount of crops.

It is also an object of the present invention to provide a spraying hydroponic cultivation apparatus capable of adjusting the amount of spray supplied to a crop through an intensity control by an ultrasonic vibrator.

It is also an object of the present invention to provide a spraying and hydroponic cultivation apparatus which supplies air to a circulating fan through a communicating pipe to smoothly supply and circulate the spray while smoothly supplying oxygen to the crop.

It is also an object of the present invention to provide a spraying hydroponic cultivation apparatus provided with a ventilation hole to facilitate the ventilation in the apparatus smoothly and smoothly.

In order to achieve the above object, a "spraying hydroponic cultivation apparatus" according to the present invention comprises: a water tank filled with a nutrient solution and installed on one side so as to be connected to a nutrient solution supply pipe; An ultrasonic disintegration unit provided on an inner surface of the water tank and configured to decompose the nutrient solution filled in the water tank by ultrasonic waves; A circulation fan installed at an upper portion of the ultrasonic wave decomposition unit and circulating the nutrient solution decomposed by the ultrasonic wave decomposition unit to the upper side; And a plurality of stopping jaws are vertically spaced apart from each other on an outer circumferential surface of the circulating fan, and a plurality of through holes are formed through the outer circumferential surface of the lower stopping jaw, A spray supply pipe for spraying the sprayed water; A plurality of mesh trays fixed to the spray supply pipe so as to be caught by the respective latching jaws, the mesh trays being formed of mesh meshes; A transparent passage formed in a detachable manner at the upper end of the water tank to surround the mesh tray and formed of a transparent material; A transparent cap detachably assembled to the upper end of the transparent tube and formed of a transparent material; .

The ultrasonic wave decomposing unit of the " spraying water hydroponic cultivation apparatus "according to the present invention comprises a closed case which is hermetically installed on the inner surface of the water tank in the form of surrounding the circulation fan, And a supply control valve which is installed between the inside of the water tank and one side of the closed case to supply the nutrient solution of the water tank to the inside of the closed case.

The ultrasonic wave decomposing unit of the " spraying water hydroponic cultivation apparatus "according to the present invention further comprises an adjustment dial which is connected to the ultrasonic vibrator to adjust the intensity of the ultrasonic vibrator and is provided outside the water tank .

Further, the circulation fan of the "spraying water hydroponic cultivation apparatus" according to the present invention is further characterized in that the circulation fan is provided so as to communicate between the closed case and the outside of the water tub, and communicates the circulation fan with the outside air .

Further, the transparent lid of the " spray hydroponics cultivation apparatus "according to the present invention comprises: a vent hole formed at the upper end of the transparent lid to communicate with the outside air; a sealing cap detachably coupled to the upper end of the vent hole for opening / , And the like.

As described above, the present invention as described above, by ultrasonically decomposing a nutrient solution and spraying it in a fine particle state, provides nutrients and moisture to the root of the crop smoothly, thereby improving ventilation, minimizing the harmful effects of roots caused by bacteria, It is possible to cultivate a large amount of crops, thereby enabling the crops to be easily cultivated in a home or an indoor space.

Further, the present invention can control the amount of spray supplied to the crop through the intensity control by the ultrasonic vibrator, and thus the convenience of use and operation is remarkably improved.

In addition, the present invention provides a circulating fan that supplies air to a circulating fan through the communicating tube to smoothly supply and circulate the spray, smoothly supply oxygen to the crop, thereby improving operational precision and stability, And the growth environment is improved.

Further, the present invention has an effect that ventilation is provided easily and smoothly in the apparatus, thereby improving the convenience of ventilation operation.

1 is a schematic perspective view of a spraying hydroponic cultivation apparatus according to the present invention,
2 is a schematic partial exploded perspective view of a spraying hydroponic cultivation apparatus according to the present invention,
3 is a schematic vertical cross-sectional view of a spraying hydroponic cultivation apparatus according to the present invention,
4 is an enlarged view of the main part of Fig. 3,
FIG. 5 is a schematic vertical cross-sectional view showing the spraying hydroponics plant according to the present invention in use.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

FIG. 1 is a schematic perspective view of a spraying hydroponic cultivation apparatus according to the present invention, FIG. 2 is a schematic partial exploded perspective view of a spraying hydroponic cultivation apparatus according to the present invention, and FIG. 3 is a schematic perspective view of a spray hydroponic cultivation apparatus according to the present invention And FIG. 4 is an enlarged view of the main part of FIG.

As shown in the figure, the spraying hydroponic cultivation apparatus according to the present invention comprises a water tank 10, an ultrasonic wave disassembling unit 20 installed inside the water tank 10, A plurality of mesh trays 50 installed on the spray supply pipe 40 and a plurality of mesh trays 50 mounted on the upper end of the water tank 10, And a transparent lid 70 fitted to the upper end of the transparent cylinder 60.

The water tank 10 is installed to communicate with the nutrient solution supply pipe 11 on one side and is configured to fill the nutrient solution or water into the nutrient solution supply pipe 11 to receive the nutrient solution or water, It provides a place where all devices are installed. The water tank 10 is preferably formed in a cylindrical shape as shown in the drawing, but the present invention is not limited thereto.

The nutrient solution supply pipe 11 serves to provide a passage through which the nutrient solution or water can be injected from the outside of the water tank 10 into the inside of the water tank 10. Through the nutrient solution supply pipe 11, the user injects or replenishes the nutrient solution or water into the water tank 10 as necessary.

The ultrasonic wave decomposing unit 20 is installed on the inner surface of the water tank 10 and finely decomposes the nutrient solution filled in the water tank 10 to form a spray.

The ultrasonic disintegration unit 20 has a sealing case 21 hermetically installed on the inner surface of the water tub 10 so as to surround the circulation fan 30, And a supply control valve 23 provided in communication with the inside of the water tub 10 and one side of the airtight case 21 to communicate with each other.

The airtight case 21 is accommodated in the water tank 10 while receiving the components including the ultrasonic vibrator 22 in an enclosed state while being supplied through the supply control valve 23 from the water tank 10 It serves to contain nutrients. In addition, the sealing case 21 also serves to support the lower end of the spray supply pipe 40.

The ultrasonic transducer 22 is a known electronic device that generates ultrasonic vibration by the supply of power. The ultrasonic transducer 22 functions to ultrasonically vibrate the nutrient solution or water flowing into the sealing case 21 to form a fine particle spray.

The supply control valve 23 is adapted to supply the nutrient solution of the water tank 10 to the inside of the closed case 21 in a regulated state. The feed regulating valve 23 is preferably an electromagnetic valve or a solenoid valve operated together with the operation of the ultrasonic transducer 22, but the present invention is not limited to this, Various known supply adjusting means for supplying a predetermined amount into the inside of the case 21 can be used.

The ultrasonic wave decomposition unit 20 further includes an adjustment dial 24 connected to the ultrasonic vibrator 22 in an electric signal and installed outside the water bath 10. The adjustment dial 24 may be operated by a user to adjust the intensity of the ultrasonic vibrator 22. As the vibration intensity of the ultrasonic transducer 22 is adjusted by the control dial 24, the amount of the nutrient solution generated by the ultrasonic transducer 20 can be adjusted according to the user's intention.

The circulation fan 30 is installed on the upper part of the ultrasonic wave decomposition unit 20 and functions to circulate the nutrient solution decomposed by the ultrasonic wave decomposition unit 20 to the upper side. That is, the circulation fan 30 functions to flow the spray generated by the ultrasonic decomposition unit 20 to the mesh tray 50 side. The circulating fan 30 serving as such is a known electric device in which the blades are activated by the supply of electric power to move one side of the air to the other side.

3, the circulation fan 30 is installed inside the closed case 21. However, the circulation fan 30 is not limited to this and may be configured to cause the fine particle spray to flow into the mesh tray 50 Or may be installed at various positions that can circulate the spray itself within the transparent cylinder 60.

The circulation fan 30 further includes a communication pipe 31 installed to communicate between the closed case 21 and the outside of the water tub 10. The communicating tube 31 communicates the circulating fan 30 with the outside air so that outside air can be supplied to the inside of the apparatus through the communicating tube 31 together with the operation of the circulating fan 30, So that the spray can be circulated more smoothly.

The communicating tube 31 may be connected to the inside of the transparent tube 60 so as to circulate air and spray inside the transparent tube 60.

The spray supply pipe 40 is vertically connected to the upper portion of the circulation fan 30 so as to be able to be decomposed into multiple stages and has a plurality of spacing jaws 41 vertically spaced from each other on the outer circumferential surface thereof, A plurality of through holes 42 are formed in the lower portion of the mesh tray 50 so as to penetrate the outer circumferential surface of the mesh tray 50. By spraying the spray raised by the ultrasonic disassembling portion 20 and the circulating fan 30 to the lower side of the mesh tray 50 And at the same time provides a place where the mesh tray 50 is installed.

Since the spray supply pipe 40 is constructed to be assembled and disassembled into multiple stages, a user can disassemble the spray supply pipe 40 to facilitate assembly and disassembly of the mesh tray 50, 50) can be made more easily by planting and harvesting and managing crops.

The catching jaw 41 is adapted to allow the mesh tray 50 to be fixed in a state where the mesh tray 50 is sandwiched between the spray supply pipes 40. The through holes 42 are formed in the through- And serves as a passage for discharging to the lower portion of the mesh tray 50.

The mesh tray (50) is fixed to the spray supply pipe (40) so as to be caught by each of the catching jaws (41) and is formed as a mesh network. The seeds of the crops grow on the upper surface, So that it can grow smoothly.

That is, the mesh tray 50 is capable of stably growing while receiving spray from the seed of the crop to the adult body smoothly.

The mesh tray 50 having such a function has holes of various sizes depending on the size of the seed of the crop to be cultivated. That is, it is preferable that the mesh tray 50 is manufactured such that the seed of the crop to be cultivated is supported without passing through the mesh network of the mesh tray 50, and the mesh tray 50 is a seed It can be used in accordance with the size of the battery.

In addition, a plurality of mesh trays (50) are installed vertically along the spray supply pipe (40), so that the crop can be cultivated in the multi-stage in the present apparatus.

The transparent tube 60 is detachably assembled to the upper end of the water tank 10 so as to surround the mesh tray 50 and is formed of a transparent material so as to surround the mesh tray 50 And serves to protect the crop grown in the mesh tray 50 from the external environment.

The transparent lid 70 is detachably assembled to the upper end of the transparent tube 60 and is made of a transparent material so that the transparent tube 60 can be opened and closed.

The transparent lid 70 includes a vent hole 71 formed at the upper end thereof and a sealing cap 72 detachably coupled to the upper end of the vent hole 71. The vent hole 71 allows the air inside the transparent case 60 to be vented to the outside and the vent hole 71 can be opened or closed.

FIG. 5 is a schematic longitudinal sectional view showing the spraying hydroponic cultivation apparatus according to the present invention.

The use of the apparatus will be described with reference to FIG. First, the user disassembles the transparent lid 70, the transparent cylinder 60, and the spray supply pipe 40, and sows the seed of the crop on the mesh tray 50.

Thus, the spray tube 40 is reassembled in a seeded state in the mesh tray 50, and the transparent tube 60 and the transparent lid 70 are assembled.

In this state, the user injects the nutrient solution into the water tank 10 through the nutrient solution supply pipe 11.

The user turns on the power and supplies power to the ultrasonic transducer 22, the supply control valve 23 and the circulation fan 30 so that the supply control valve 23 is opened, Is introduced into the closed case 21 and the nutrient solution introduced into the closed case 21 is finely decomposed by the ultrasonic vibrator 22 to be in a spray state.

The spray thus generated is supplied to the spray supply pipe 40 together with the air sucked into the communication pipe 31 by the operation of the circulation fan 30.

The spray supplied to the spray supply pipe 40 is supplied to the lower part of each of the mesh trays 50 through the through holes 42 and supplied to the crop P arranged in the mesh tray 50. In addition, the spray supplied from the lower portion of the mesh tray 50 is circulated while passing through the mesh tray 50 while being supplied to the lower surface of the mesh tray 50 positioned thereon.

The spray of the nutrient solution generated by the ultrasonic vibrator 22 is continuously circulated by the circulation fan 30 in the transparent tub 60 and the roots of the crop P in the mesh tray 50 To feed the crop (P) with moisture and nutrients.

The oxygen contained in the air supplied by the circulating fan 30 is also supplied to the roots of the crop P together with the spray.

Particularly, the nutrient solution and the water sprayed in the form of fine particles are smoothly brought into contact with the root of the crop (P), so that nutrients and water supply to the crop (P) can be stably and smoothly supplied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Water tank
11: nutrient supply pipe
20: Ultrasonic decomposition unit
21: sealing case 22: ultrasonic vibrator
23: Supply control valve 24: Adjustment dial
30: Circulation fan
31: Communicator
40: Spray supply pipe
41: latching jaw 42: through hole
50: Mesh tray
60: Transparent container
70: transparent lid
71: ventilation hole 72: sealing cap
P: Crops

Claims (5)

A water tank (10) filled with a nutrient solution and installed on one side so as to be connected to a nutrient solution supply pipe (11);
An ultrasonic disintegration unit 20 installed on the inner surface of the water tank 10 for decomposing the nutrient solution filled in the water tank 10 by ultrasonic waves;
A circulation fan 30 installed on the ultrasonic wave decomposition unit 20 for circulating the nutrient solution decomposed by the ultrasonic wave decomposition unit 20 to the upper side;
A plurality of engagement protrusions 41 are formed on the outer circumferential surface so as to be vertically spaced apart from each other, and the engagement protrusions 41 of the engagement protrusions 41 A spray supply pipe 40 in which a plurality of through holes 42 are formed so as to pass through the outer peripheral surface of the lower portion;
A plurality of mesh trays (50) fixed to the spray supply pipe (40) so as to be caught by the respective catching jaws (41) and formed of a mesh mesh;
A transparent tube (60) detachably assembled to the upper end of the water tank (10) so as to surround the mesh tray (50) and formed of a transparent material;
A transparent lid 70 detachably assembled to the upper end of the transparent cylinder 60 and formed of a transparent material; Including,
The transparent lid (70)
A vent 71 formed at the upper end of the transparent lid 70 so as to communicate with outside air,
And a sealing cap (72) detachably coupled to an upper end of the ventilation hole (71) to open and close the ventilation hole (71).
The method according to claim 1,
The ultrasonic wave decomposition unit (20)
A sealing case 21 hermetically installed on the inner surface of the water tub 10 so as to surround the circulation fan 30,
An ultrasonic transducer 22 provided on the inner bottom surface of the closed case 21,
A supply control valve 23 provided in communication with the inside of the water tub 10 and one side of the closed case 21 to supply the nutrient solution of the water tub 10 to the inside of the closed case 21, Lt;
Wherein the spraying device is a spraying device.
3. The method of claim 2,
The ultrasonic wave decomposition unit (20)
A control dial 24 connected to the ultrasonic transducer 22 in an electric signal to control the intensity of the ultrasonic transducer 22 and installed outside the water tub 10,
Wherein the spraying apparatus further comprises a spray nozzle.
3. The method of claim 2,
The circulation fan (30)
A communicating pipe 31 communicating with the airtight case 21 and the outside of the water tub 10 to communicate the circulating fan 30 with the outside air,
Wherein the spraying apparatus further comprises a spray nozzle.
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