KR20180076761A - Container Type Aquaponics Cultivation System With Micro-organism Based Filter - Google Patents

Abstract

The present invention relates to a container type aquaponics cultivation system with a micro-organism based filter, and more particularly, introduces an apparatus capable of cultivating crops in extreme environments by installing an aquaponics plant cultivation device. The container type aquaponics cultivation system with the micro-organism based filter can be installed without restriction of space and climate by downsizing and modularization.

Description

Technical Field [0001] The present invention relates to a container type aquaponics cultivation apparatus having a microbial filter,

The present invention relates to a container type aquaponics cultivation apparatus having a microbial filter, and more particularly, to an apparatus for cultivating a crop in an extreme environment by installing an aqua phonix cultivation apparatus in a container.

Aqua phonics is a combination of aquaculture and hydroponics. It is a sustainable cyclic farming method in which fish feces are used to make liquid fertilizers, grow plants, and then live fish again with purified water. Aqua phonics farming system adopts the principle that the natural ecosystem that we live in is adopted as it is, and it corresponds to environmentally friendly organic farming method in which the harmful element can not be used because of fish which is vulnerable to chemicals such as pesticides. In addition, since the nutrient solution continuously circulates, the water consumption can be minimized, which is more advantageous than the conventional hydroponic cultivation method.

However, in spite of the above advantages, such an aqua phonix cultivation apparatus does not have an aqua phonix cultivation apparatus which is made to be able to be used in desert, Antarctic bases, We need a device.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

DISCLOSURE OF THE INVENTION The present invention has been made to overcome the above problems, and it is an object of the present invention to provide an aqua phonix cultivation system that can be miniaturized enough to be constructed inside a cargo container and can be exported to a region having a climate unsuitable for agriculture, It is an object of the present invention to provide a container type aqua phonix cultivation apparatus having a microbial filter capable of operating a dedicated cultivation facility.

In order to accomplish the above object, a container type aquaponics cultivation apparatus having a microbial filter according to the present invention includes a container, a plant cultivation unit, a microbial filter tank, a nutrient solution supply pipe, a fish culturing unit, a feeder, And a disaster liquid supply device.

The container may be integrally transported and includes a nutrient solution chamber provided at one side of the inner space and a cultivation chamber provided at a longer side than the nutrient solution chamber at one side of the nutrient solution chamber.

The plant growing section includes a plurality of cultivating trays provided in a cultivating room and composed of a plurality of layers, and a plurality of light boxes respectively installed on top of each cultivating tray.

The microbial filter tank is installed in the cultivation room, and is configured to supply the nutrient solution to the cultivation tray and to recover the nutrient solution supplied to the cultivation tray. According to an embodiment, the microbial filter tanks may be comprised of one tank or may be located respectively below the plant growing section.

Microbial filter tanks include tanks, nutrient feed pumps, sieving nets, air pumps, and media.

The tank stores the nutrient solution before sending it to the growing tray.

The nutrient feed pump is configured to pump the nutrient solution contained in the tank to the growing tray.

The screen is installed inside the tank and serves to filter out the nutrients from the plant growing section.

The air pump supplies air into the tank to supply oxygen to the nutrient solution.

The microbial filter tank has a first space and a second space with a sieve interposed therebetween. The first space is connected to the recovery pipe, the second space is connected to the supply pipe, and the second space is formed with an air pipe connected to the air pump .

The medium may be accommodated within the tank and may be composed of a plurality of microorganisms for culturing the microorganisms.

The mediator has a hollow portion, and a plurality of intersecting plates provided so as to intersect each other in the hollow portion may be formed to intersect with each other. According to the embodiment, the medium has a structure capable of widening the surface area so that the microorganism can be cultured, and any shape can be used as long as the surface area can be widened.

The mediator may be accommodated in the second space and may be accommodated in the second space without the mesh.

The nutrient supply line is installed in the cultivation room, is connected to the microbial filter tank, is installed between the cultivation tray and the light box, and is configured to supply the nutrient solution to the cultivation tray.

The aquaculture part is provided in a nutrient solution chamber and cultured in a fish tank. The nutrient solution tank is connected to the microbial filter tank to supply the nutrient solution to the microbial filter tank and recover the nutrient solution recovered from the cultivation tray to the microbial filter tank.

The feeder is installed in the nutrient chamber and can be connected to the farmer's aquaculture farm and feed the farmer's farm.

The trace element feeder is installed in the nutrient chamber and can be connected to the aquaculture part and supply trace elements to the fish culture part.

The disaster liquid supply device is configured to supply the control liquid to the cultivation tray.

In addition, the container type aquaponics cultivation apparatus having a microbial filter may further include a recovery pipe connected to the microbial filter tank, installed at a lower portion of the cultivation tray, for recovering the nutrient solution and moving the microbial filter tank to the microbial filter tank.

The apparatus for cultivating aquaponics in a container equipped with a microbial filter according to the present invention having the above-described structure has the effect of making the aqua phonics cultivation apparatus compact and modularized so that it can be installed without restriction of space and climate.

These facilities can be used for efficient organic farming in places such as Antarctic bases and very large vessels where there is a severe climate and water supply is limited. In addition, it can be used as a special plant for sprouting vegetables or a facility for small seedling growing There is an effect.

1 is a perspective view showing the inside of a container type aquaponix cultivation apparatus according to an embodiment of the present invention.
2 is a side view of a container type aquaponics growing apparatus according to an embodiment of the present invention.
3 is a view showing a plant growing unit of a container type aquaponics growing apparatus according to an embodiment of the present invention.
4 is a view showing a microorganism filter tank of a container type aquaponics cultivation apparatus according to an embodiment of the present invention.
5 is a view showing a medium accommodated in a microorganism filter tank of a container type aqua phonics cultivation apparatus according to an embodiment of the present invention.
FIG. 6 is a view showing the actual shape and various shapes of the medium accommodated in the microbial filter tank of the container type aquaponics cultivation apparatus according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a container type aquaponics cultivation apparatus having a microbial filter according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

A container type aquaponics cultivation apparatus having a microbial filter includes a container 100, a plant growing unit 110, a microbial filter tank 120, a nutrient solution supply pipe 130, a fish culturing unit 140, a feeder 150, A trace element feeder 160, and a control liquid feeder 170.

The container 100 may be integrally transported and may be provided with a longitudinally long space formed therein so that the nutrient solution chamber 180 formed at one side of the inner space is longer than the nutrient solution chamber 180 at one side of the nutrient solution chamber 180 And a cultivation room 190 provided as a space. In the present embodiment, the container 100 basically uses the ISO standard 40-ft container 100, but it can be configured in various sizes, and it is also possible to use the own production container 100 which is not ISO standard.

The plant growing unit 110 includes a plurality of cultivation trays 200 and a plurality of light boxes 210 installed in the cultivation room 190 and disposed on the respective cultivation trays 200. As shown in FIGS. 1 and 2, a plurality of plant growing units 110 may be installed with a central path therebetween.

Referring to FIG. 3, the plant growing unit 110 of the container-type planting apparatus includes a plurality of cultivation trays 200 installed in each layer of the plant growing unit 110, where the plants are cultivated. The cultivation tray 200 may be configured to be separated from the plant growing unit 110 so that a necessary work can be performed in a more comfortable working space.

The nutrient solution supply pipe 130 is installed in the cultivation room 190 and is connected to the microorganism filter tank 120 and installed between the cultivation tray 200 and the light box 210 to supply the nutrient solution to the cultivation tray 200 . The nutrient solution supply pipe 130 installed in the cultivation tray 200 may include a plurality of nozzles 340 sprayed downwardly, that is, toward the cultivation tray 200, and the nozzles 340 may be spaced apart at regular intervals. According to the embodiment, a plurality of the nutrient solution supply pipes 130 may be installed on one side and the other side of the cultivation tray 200.

When the nutrient solution is supplied from the nutrient solution supply pipe 130, the nutrient solution flows into each layer of the plant growing unit 110 at a constant height, and the nutrient solution is supplied to the plants. The supplied nutrient solution is recovered to the microbial filter tank 120 after a predetermined time, and the nutrient solution is replenished through circulation with the fish culturing unit 140. In addition, the photosynthesis of plants is performed through an artificial light source. In this embodiment, a light box 210 can be used.

As shown in FIG. 3, the light box 210 is independently constructed at the upper part of the cultivation tray 200, and can be detachably installed considering maintenance and repair convenience. LEDs whose wavelengths are adjusted according to crops, and the like can be used.

1 and 2, the microorganism filter tank 120 is installed in the cultivation room 190, and is configured to supply the nutrient solution to the cultivation tray 200 and to recover the nutrient solution supplied to the cultivation tray 200. The capacity of the microorganism filter tank 120 according to the embodiment varies depending on the size of the plant growing unit and can be independently positioned below the plant growing unit 110 of the plant growing unit 110, But may be provided at a capacity capable of purifying the water supplied to all the plant growing section 110 at one time

The microbial filter tank 120 includes a tank 220, a nutrient supply pump 230, a sieve 240, an air pump 250, and a medium as shown in FIG.

The tank 220 stores the nutrient solution until it is sent to the cultivation tray 200.

The nutrient supply pump 230 is installed outside the tank 220 to pump the nutrient solution contained in the tank 220 to the cultivation tray 200.

The filter 240 is installed inside the tank 220 to filter the nutrient solution introduced from the plant growing unit 110. The screen 240 may have a plate shape and a plurality of through holes may be formed, and a fine mesh may be formed in the through hole to filter the soil that has partially flowed in the cultivation tray 200.

1 and 4, the air pump 250 is installed in the nutrient solution chamber 180 and is connected to the air pipe 280 installed in the tank 220. The air pump 250 is connected to the inside of the tank 220 to maintain the dissolved oxygen amount in the nutrient solution. Air is supplied.

The microbial filter tank 120 has a first space 290 and a second space 300 with the sieve 240 interposed therebetween and the first space 290 is connected to the recovery pipe 360 and the second space 300 And the air pipe 280 connected to the air pump 250 may be installed in the second space 300 as described above.

The mediator may be contained within the tank 220 and may be composed of a plurality of microorganisms. Referring to FIG. 5 and FIG. 6 (a), the medium has a hollow portion 310, and a plurality of intersecting plates crossing each other inside the hollow portion 310 may be formed to intersect with each other. The cross plate includes a transverse cross plate (320) and a vertical cross plate (330).

According to the embodiment, the medium has a structure capable of widening the surface area so that the microorganism can be cultured as shown in Fig. 6 (b), and any shape can be used as long as the surface area can be widened.

The mediator may be accommodated in the second space 300 and may be accommodated in the second space 300 without the mesh.

1 and 3, the aquarium culture unit 140 is installed in the nutrient solution chamber 180 and is cultured in the form of fish, and is connected to the microbial filter tank 120 to supply the nutrient solution to the microbial filter tank 120, So that the nutrient solution recovered from the tray 200 to the microbial filter tank 120 is recovered again. The nutrient solution contained in the fish culturing unit 140 may be sent to the microbial filter tank 120 through a separate feed pump 350 installed in the nutrient solution chamber 180.

The feeder 150 is installed in the nutrient chamber 180 and is connected to the aquarium culture unit 140 and can supply the feed to the aquarium culture unit 140. According to the embodiment, the feeder 150 may be manually supplied and automatically supplied at a predetermined time.

The trace element feeder 160 is installed in the nutrient solution chamber 180 and is connected to the aquarium culture unit 140 and can supply trace elements to the fish culture station 140. According to the embodiment, the trace element feeder 160 can be manually fed and automatically fed at a predetermined time.

The control liquid feeder 170 is configured to feed the control liquid to the cultivation tray 200. The control liquid is harmful to the fish in the aquarium culture unit 140 when mixed with the nutrient solution, so that the control liquid can be directly connected to the cultivation tray 200 through a separate tube.

As shown in FIGS. 3 and 4, the container type aquaponics cultivation apparatus having a microbial filter is connected to the microbial filter tank 120 and is installed at a lower portion of the cultivation tray 200, And a return pipe 360 for moving the filter tank 120 to the filter tank 120.

The recovery pipe 360 is connected to a drainage unit (not shown) formed at a lower portion of the multi-layered cultivation tray 200 to move the nutrient solution to the first space 290 of the microorganism filter tank 120.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: Container
110: Plant Growth Department
120: Microbial filter tank
130: nutrient supply pipe
140: Aquaculture Department
150: Feeder
160: Trace element feeder
170: Control liquid feeder
180:
190: Cultivation room
200: Cultivation tray
210: Lightbox
220: tank
230: Suction pump
240: Filter
250: air pump
260: medium
270: Air conditioner
280: air piping
290: First space
300: Second space
310:
320: transverse plate
330: Vertical cross plate
340: nozzle
350: Feed pump
360: collection pipe

Claims (10)

A container including a nutrient solution chamber provided at one side of the inner space and a cultivation chamber provided at a space longer than the nutrient solution chamber at one side of the nutrient solution chamber,
A plant growing unit installed in the cultivation room and including a plurality of cultivation trays constituted by a plurality of layers and a plurality of light boxes respectively installed on the respective cultivation trays;
A microbial filter tank installed in the cultivation room and supplying the nutrient solution to the cultivating tray and recovering the nutrient solution supplied to the cultivating tray;
A nutrient solution supply line installed in the cultivation room, connected to the microbial filter tank and provided between the cultivation tray and the light box, for supplying the nutrient solution to the cultivation tray; And
A corn culturing unit installed in the nutrient solution chamber and cultured in a fish culture tank and connected to the microbial filter tank to supply the nutrient solution to the microbial filter tank and to recover the nutrient solution recovered from the cultivation tray into the microbial filter tank;
Wherein the container-type aqua phonix cultivation apparatus comprises: The method according to claim 1,
Wherein the microbial filter tank is located below the plant growing section. 3. The method according to claim 1 or 2,
The microbial filter tank includes a tank for storing nutrient solution;
A nutrient supply pump for pumping the nutrient solution contained in the tank to the growing tray;
A filter installed inside the tank for filtering the nutrient solution introduced from the plant growing section;
An air pump for supplying air into the tank;
A plurality of mediums accommodated in the tank for culturing microorganisms
Wherein the container-type aqua phonix cultivation apparatus comprises: The method of claim 3,
Wherein the mediator has a hollow portion and a plurality of intersecting plates crossing each other are formed in the inside of the hollow portion so as to intersect with each other. The method of claim 3,
Further comprising a recovery pipe connected to the microbial filter tank and installed at a lower portion of the cultivation tray for recovering the nutrient solution and moving the microbial filter tank to the microbial filter tank. The method of claim 3,
Wherein the microbial filter tank has a first space and a second space with a filtering net therebetween, the first space being connected to the return pipe, the second space being connected to the supply pipe, Wherein the air piping is connected to the at least one container. The method according to claim 6,
Wherein the medium is accommodated in the second space by receiving a plurality of the medium in the mesh. The method according to claim 1,
Further comprising a feeder installed in the nutrient solution chamber and connected to the fish culture unit and feeding the fish to the fish culture unit. The method according to claim 1,
Further comprising a micro-element feeder installed in the nutrient solution chamber and connected to the fish culture unit and supplying the micro-elements to the fish culture unit. The method according to claim 1,
Further comprising a control liquid supply device installed in the nutrient solution chamber and supplying a control liquid to the cultivation tray.

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