KR20180001000A - Installation for Development into a Aquaponics System - Google Patents

Abstract

The present invention relates to an aquaponics system, and more specifically to a device for building an aquaponics system. According to the present invention, the device comprises: a cultivation unit which provides a plant cultivation space in which plants are cultivated; a drain support unit which is disposed below the cultivation unit to hold and support the cultivation unit; a support unit which is joined to the drain support unit, and supports the drain support unit such that the cultivation unit and the drain support unit can be spaced apart above a water reservoir at a fixed distance; a water supply unit which is joined to and supported by the drain support unit, withdraws water stored in a water reservoir for the plants cultivated in the plant cultivation space of the cultivation unit to survive, and supplies the water drawn from the water reservoir toward the cultivation unit; and an air supply unit which is joined to and supported by the drain support unit, and supplies air for fish or the like living in the water stored in the water reservoir to survive. Accordingly, the device of the present invention can conveniently transform or develop the aquarium or water tub previously installed in settings such as homes or offices into an aquaponics system, and can reduce the installation costs in the realization of an aquaponics system.

Description

{Installation for Development of a Aquaponics System}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to aquaponics, and more particularly, to a hypothetical scheme for constructing an aquaponics system capable of changing or developing an aqua phonics system in which a water tank, ≪ / RTI >

Recently, interest in aquaponics is increasing. Aqua phonix is a combination of aquaculture, which means fish, and hydroponics, which means hydroponic cultivation of plants. It uses fish feces as a nutrient for plants and uses natural purified water by the biologic action of plants as a form of fish It is a method of artificial plant cultivation. Aqua phonix can cultivate plants in a eco-friendly way while simultaneously cultivating fish and plants.

In addition, there is also an ornamental advantage in that plants such as plants and fish such as aquarium fish can be viewed together. Therefore, installing an Aqua phonix system in a home or office is a great help for the improvement of the environment.

As the interest in the aqua phonics has increased, many products and related technologies have been studied and introduced. Among such technologies related to aquaponics are Korean Patent No. 10-1551748 entitled " Plant Growing Apparatus and Operation Method, hereinafter Prior Art 1 ", and Korean Patent No. 10-106262 (entitled " A combination hydroponic cultivation apparatus, and the following prior art 2).

Prior Art 1 discloses a technique relating to aquaponix which can simultaneously circulate water with a single pump and supply oxygen to a fish and is easy to install and move, and can be equipped with only one pump and is easy to install and move Technical features are disclosed.

Prior art 2 discloses a technique in which an aquarium and a hydroponic cultivation apparatus are constructed of a single aqua phonix apparatus so as to improve the indoor environment of a home or an office.

However, even if the prior arts 1 and 2 are employed, the following problems have been encountered.

That is, as in the prior art 1 or the prior art 2, a product or technology in which a fish tank or a water tank is integrally combined with an aqua phonics system is mostly used. Therefore, there is a non-economic factor that if you want to equip Aqua phonics system with Aqua phonics system in the reality that already aquarium fish such as aquarium fish are widespread in home or office, There was an unreasonable problem.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems of the prior art and to provide an aqua phonics system And to provide a hypothesis device for the construction.

According to another aspect of the present invention, there is provided a hypothesis apparatus for constructing an aquaponics system, including: a cultivation unit for providing a plant cultivation space in which plants are grown; A drainage receiving unit positioned below the rearing unit to support and support the rearing unit; A supporting part coupled to the drain receiving part and supporting the drain receiving part so that the rearing part and the drain receiving part may be spaced apart from the upper side of the water tub; And water supplied from the water tank is supplied to the rearing unit side so that the plants cultivated in the plant growing space of the rearing unit can survive, A water supply part; And an air supply unit coupled to the drainage receiving unit and supplying air so that fishes and the like in the water stored in the water storage tank can survive.

Here, the re-creating unit includes at least one re-port unit, the re-port unit comprising: a port bottom; A port wall coupled upward from a rim of the port bottom to form the plant cultivation space in which the plant and soil can be stored together with the port floor; And an inlet disposed above the bottom of the port, the air being supplied with air from the outside so that external air can be delivered to the soil on the upper side of the bottom of the port and to the root side of the plant. May be included as another feature.

Furthermore, another feature of the present invention is that a plurality of air discharge holes are formed on the outer surface of the air inlet tube so that external air introduced into the air inlet tube is transmitted to the root side of the plant.

The drain support unit may include at least one drain support unit, wherein the drain support unit includes: a unit support for supporting the grow port unit so that the raise port unit can be seated; A collecting body provided below the unit pedestal for collecting water drained from the re-porting unit side; A drain valve provided below the water collecting body for interrupting the falling of the water collected in the water collecting body; And a side frame provided on the outer side of the unit pedestal and having a plurality of engaging grooves for engaging with a neighboring drain supporting unit.

Furthermore, another feature of the present invention is that a seating frame is formed on the lower side of the bottom of the port of the re-porting unit so as to be inserted into the unit support of the drain supporting unit.

Here, the supporting unit may include: a support support for supporting and supporting the drain support unit; And a support rod coupled to a rim of the support pedestal and supporting the support pedestal so that the support pedestal is spaced a predetermined distance apart from the water tank.

Further, the water supply unit may include: a water intake pipe for taking water stored inside the water tank; A water supply pipe connected to a part of the lower side so as to communicate with the water intake pipe and guiding the water taken from the water intake observation side to move upward; A water supply pipe connected to the water supply pipe to support the water supply pipe; A water supply pump which is coupled to the water supply pipe and receives water stored inside the water tank through the water intake pipe and the water supply pipe to provide a force to be supplied to the rear port unit side; A water distribution pipe connected at one end to communicate with the water supply pipe and guided so that water moved through the water supply pipe is distributed and supplied to the rear port unit; And a water supply valve provided in the water supply and distribution pipe for controlling supply of water to the re-port unit.

The water supply pipe may be hinged between the water supply pipe and the water supply pipe support so as to adjust the angle of connection between the water supply pipe and the water supply pipe support.

Further, the water supply pipe and the water supply pipe support may be fastened and fixed to the side frame of the drainage supporting unit.

Here, the air supply unit may include a water tank air pipe for supplying air to the water stored inside the water tank; An air supply pipe connected to a part of the lower side so as to communicate with the water tub air pipe and guiding the movement of air so that air can be supplied to the water tank side or the rear port unit side; An air supply pipe support coupled to the air supply pipe to support the air supply pipe; An air pump coupled to the air supply pipe and providing a force to supply air to the water tank side or the rear port unit side; And an air distribution valve coupled to the air supply pipe and interrupting the inflow of air into the air intake port side of the rear port unit.

Further, the air supply pipe may be hinged between the air supply pipe and the air supply pipe support so as to adjust the angle of engagement between the air supply pipe and the air supply pipe support.

Further, the air supply pipe and the air supply pipe support may be fastened and fixed to the side frame of the drainage supporting unit.

The hypothetical apparatus for constructing an aquaponics system according to the present invention has the effect of easily changing or developing an aquarium or a water tank already installed in a home, an office or the like into an aqua phonics system.

In addition, since the conventional aquarium or water tank is used, there is an economical effect of reducing the construction cost in implementing the aqua phonics system.

In addition, there is also an air purifying effect that can purify the indoor air by using the roots of plants grown in the Aqua phonix system.

1 is a perspective view schematically showing a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention.
2 is a front view schematically showing a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention.
3 is a schematic view illustrating a cultivation port unit in a hypothesis apparatus for constructing an aquaponics system according to an embodiment of the present invention.
4 is a plan view schematically showing a drainage supporting unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention.
5 is a cross-sectional view schematically illustrating a cultivation port unit and a drainage supporting unit in a hypothetical apparatus for constructing an aquaponix system according to an embodiment of the present invention.
6 is a perspective view schematically illustrating a water supply unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention.
7 is a perspective view schematically illustrating an air supply unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view schematically showing a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention. FIG. 2 is a schematic view of a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention. FIG. 3 is a schematic view of a cultivation port unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention. FIG. 4 is a schematic view of a cultivation port unit for constructing an aquaponix system according to an embodiment of the present invention. 5 is a sectional view schematically showing a re-port unit and a drain support unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention, and Fig. 6 is a cross- 1 is a perspective view schematically illustrating a water supply unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention; And FIG. 7 is a perspective view schematically showing an air supply unit in a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention.

1 and 2, a hypothetical apparatus for constructing an aquaponics system according to an embodiment of the present invention includes a water tank for providing a space for living organisms such as fishes to be cultivated as an aquaponix system A drainage receiving portion, a support portion, a water supply portion, and an air supply portion.

The cultivation area provides a plant cultivation space where plants are grown. Such a rewinding section includes at least one or more rewriting port units.

Referring to FIG. 3, the harvest port unit 200 includes a port bottom 210, a port wall 220, and an air inlet 230.

The port bottom 210 constitutes the bottom of the cultivation port unit 200 as shown and forms a plant cultivation space together with the port wall 220. And the port bottom 210 supports the soil and plants loaded within the harvest port unit 200.

A drain hole 215 is formed in the port bottom 210 so that the water supplied for cultivation of the plant can be drained. It is preferable that the catching net 217 is positioned above the drain hole 215 to prevent the soil from being discharged through the drain hole 215.

A lower portion of the port bottom 210 is preferably formed with a seating frame 240 which is inserted into a unit support 310 of a drain support unit 300 to be described later. The seating frame 240 is inserted into the unit support 310 of the drainage support unit 300 and is seated thereon so that the drainage port unit 200 is stably supported by the drainage support unit 300.

The port wall 220 is coupled upward from the rim of the port floor 210 to form the planting space in which the plant and soil can be stored with the port floor 210.

The air inlet 230 is provided above the port bottom 210 as shown. The air inlet pipe 230 receives air from the outside so that external air supplied through the air supply unit 500 can be transmitted to the soil located at the upper side of the port bottom 210 and the root side of the plant.

On the outer surface of the air inlet pipe 230, a plurality of air discharge holes 235 are formed so that the air introduced into the air inlet pipe 230 is transmitted to the root side of the plant. The air introduced into the air inlet pipe 230 is supplied to the soil and the root of the plant through a plurality of air discharge holes 235. The air is purified by the roots of the plant and is discharged to the upper side of the recycling port unit 200. Therefore, indoor air purification by the root of the plant is performed.

3 (c), the inlet port 230, which is the air of the neighboring port port unit 200, or the inlet port 230 of the air supply port 500, which will be described later, An air connection port 250 is formed to allow the air connection pipes 260 and 265 to communicate with the air connection ports 250 and 265.

2 and 5, when the air connection pipes 260 and 265 are inserted into the air connection port 250, the air connection pipes 260 and 265 communicate with the air inlet pipe 230. Accordingly, air can be introduced into the inlet pipe 230 through the air connection pipes 260 and 265 from the air supply unit 500 side.

The drainage support part is located below the rearing section and supports the rearing section.

The drainage receiving portion may include at least one drainage receiving unit 300. [

4, the drain support unit 300 includes a unit support 310, a collector 320, a drain valve 330, and a side frame 340. As shown in FIG.

The unit pedestal 310 supports the cultivation port unit 200 so that the cultivation port unit 200 can be seated.

The retention frame 240 of the repositioning port unit 200 is inserted into the unit rest 310 of the reattachment unit 300 so that the repositioning port unit 200 is stably supported by the drainage supporting unit 300.

The water collecting body 320 is provided on the lower side of the unit pedestal 310 and collects the water drained from the side of the re port unit 200. [ That is, the water discharged through the drain hole 215 of the rear port unit 200 falls downward, and the water to be dropped falls into the water collector 320. For this purpose, the collector 320 may have an inverted pyramid shape as shown in FIG.

The drain valve 330 is provided on the lower side of the water collector 320. Then, the falling of the water collected in the water collecting body 320 is interrupted. That is, the discharge of the water collected in the water collecting body 320 is selectively performed by opening and closing the drain valve 330. When water is collected in the water collecting body 320, the water in the water collecting body 320 is moved to the water tub 10 side through the drain valve 330 to be described later according to the user's selection.

The side frame 340 is provided outside the unit pedestal 310. A plurality of fastening grooves 345 are formed in the side frame 340 so as to be fastened to the neighboring drainage supporting unit 300. May be fastened to the neighboring drainage supporting unit 300 through the coupling groove 345 as shown in FIG. 5 and FIG. 1, and may be fastened to the air supply unit or the water supply unit to be described later. The tightening of the side frame 340 with the air supply unit or the water supply unit will be described later.

The supporting portion is coupled to the drain receiving portion, and supports the drain receiving portion so that the rearing portion and the drain receiving portion are spaced apart from the upper side of the water tank 10 by a predetermined distance.

Such supports include support pedestals 120, 130 and support rods 110, as referenced in FIGS. 1 and 2.

The support stands 120 and 130 support and support the drain support unit 300.

The support rods 110 are joined to the rim portions of the support supports 120 and 130. The support stands 120 and 130 are spaced apart from the water tub 10 by a predetermined distance to support the support stands 120 and 130, respectively.

The drain support unit 300 and the re-port unit 200 are supported by the support supports 120 and 130 and the support rods 110.

The water supply part 400 is coupled to and supported by one side of the drainage receiving part. Then, the water stored in the water tank 10 is taken out so that the plants cultivated in the plant growing space of the growing unit can be survived, and the water taken from the water tank 10 is supplied to the rearing unit side.

The water supply unit 400 includes a water intake pipe 410, a water supply pipe 420, a water supply pipe support 430, a water supply pump 440, water supply and distribution pipes 450 and 460, and a water supply valve 470.

The water intake pipe 410 is a pipe for taking in the water stored inside the water tub 10.

It is preferable that the water intake pipe 410 is formed with a plurality of water intake holes (not shown) on the outer surface thereof so that the water stored in the water tank 10 can be collected. And the water intake pipe 410 is preferably located near the inner bottom of the water tank 10 and immersed in the water stored in the water tank 10

The water supply pipe 420 is connected to a part of the lower side so as to communicate with the water intake pipe 410. And guided so that water taken from the water intake pipe 410 side is moved upward.

The water supply pipe support 430 is coupled to the water supply pipe 420 to support the water supply pipe 420. It is preferable that the water supply pipe 420 and the water supply pipe support 430 are hinged to each other so that the angle of connection between the water supply pipe 420 and the water supply pipe support 430 can be adjusted.

It is preferable that the water supply pipe 420 and the water supply pipe support 430 are fastened and fixed to the side frame 340 of the drainage supporting unit 300. 6, fastening means 620 and 622 for fastening between the water supply pipe 420 and the water pipe support 430 and the side frame 340 are exemplarily shown.

Since the water pipe 420 and the water pipe support 430 are hinged to each other and the water pipe 420 and the water pipe support 430 are fastened to the side frame 340 in this manner, the water pipe and the water pipe support 430 can be adjusted in a stable manner.

The water pump 440 is coupled to the water supply pipe 420 and receives the water stored inside the water tub 10 through the water intake pipe 410 and the water supply pipe 420 to supply the force to the side of the recharge port unit 200 to provide.

That is, the water supply pump 440 sucks the water stored in the water tank 10 through the water supply pipe 420 and the water intake pipe 410, and the water which is lifted up through the water supply pipe 420 flows into the water supply distribution pipes 450 and 460 .

The water supply and distribution pipes 450 and 460 are connected to communicate with the water supply pipe 420 at one end thereof and guide the water to be distributed through the water supply pipe 420 to be distributed to the re-port unit 200 side. The water supply valve 470 is provided in the water supply and distribution pipes 450 and 460 to intermittently supply water to the recharge port unit 200 side.

Water can be selectively supplied to the plants cultivated in the cultivation port unit 200 through the operation of opening and closing the water supply valve 470.

The air supply part 500 is coupled to and supported by the other side of the drainage receiving part. Then, air is supplied to allow the fish and the like in the water stored in the water tank 10 to survive.

The air supply unit 500 includes a water tank 510, an air supply pipe 520, an air supply pipe support 530, an air pump 540 and air distribution valves 550 and 560, as shown in FIG. do.

The water tank air pipe 510 is for supplying air to the water stored inside the water tank 10. Therefore, it is preferable that the water tank air pipe 510 is immersed in water in the water tank 10. [ In addition, it is preferable that a water tank air supply port 515 is formed on the outer surface of the water tank air pipe 510. Air is supplied to the water in the water tank (10) through the water tank air supply port (515). The air discharged through the water tank (510) helps the fish living in the water stored in the water tank (10) to survive.

The air supply pipe 520 is connected to a portion of the lower side communicating with the water tank 510. And guides the movement of the air so that air can be supplied to the water tub (10) side or the repositioning port unit (200) side.

The air supply pipe supporter 530 is coupled with the air supply pipe 520 to support the air supply pipe 520. The air supply pipe 520 is connected to the air supply pipe 520 to adjust the angle of engagement between the air supply pipe 520 and the air supply pipe support 530 And the air supply pipe support 530. The air supply pipe 530 is hinged between the air supply pipe 530 and the air supply pipe support 530.

In addition, it is preferable that the air supply pipe 520 and the air supply pipe support 530 are fastened and fixed to the side frame 340 of the drainage supporting unit 300. This is similar to the tightening between the water supply pipe 420 and the water supply pipe support 430 and the side frame 340 described above.

Since the air supply pipe 520 and the air supply pipe support 530 are hinged and the air supply pipe 520 and the air supply pipe support 530 are fastened to the side frame 340, And the air supply tube supporter 530 can be adjusted so as to be stably fixed.

The air pump 540 is coupled to the air supply pipe 520 and provides a force to supply air to the water tub 10 side or the rear port unit 200 side. The indoor air or the like is introduced into the air supply pipe 520 by the air pump 540 and moved to the air inlet pipe 230 side or the water tank air pipe 510 side to introduce air into the root of the plant or water in the water tank 10 .

The air distribution valves 550 and 560 are coupled to the air supply pipe 520. The air distribution valves 550 and 560 are connected to the air connection pipes 260 and 265 described above and are connected to the rear port unit 200 to the inlet pipe 230 side. Therefore, it is also possible to select air purification using the roots of the plants through the air distribution valves 550, 560.

In the hypothetical apparatus for constructing the aqua phonics system as described above, the supporting support of the supporting part is selected according to the size of the water tank already provided in the user's home or office, and accordingly, the number of the re- porting port unit and the drain supporting unit You can choose to develop your tank into an aquaponics system.

Particularly, the drainage supporting units can be connected to each other and one drainage port unit is seated on one drainage supporting unit. Therefore, it is possible to construct an aqua phonics system of a proper size according to the user's choice in consideration of the size of the water tank .

As described above, the hypothetical apparatus for constructing an aquaponics system according to the present invention has an advantage that an aquarium or a water tank already installed in a home or office can be easily changed or developed into an aqua phonics system.

In addition, since the existing aquarium or water tank is used, there is an advantage that the construction cost can be reduced in implementing the aqua phonics system.

In addition, since indoor air can be purified using the roots of plants grown in the aqua phonix system, there is also an advantage of contributing to improvement of indoor air cleanliness.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the scope of the present invention is to be construed as being limited only by the embodiments, and the scope of the present invention should be understood as the following claims and their equivalents.

10: Water tank
110: support rod 120, 130:
200: Cultivation port unit 210: Port bottom
215: drain hole 217:
220: Port Month 230: Air Entrance
235: air vent hole 240: seat frame
250: air connector 260, 265: air connector
300: drain support unit 310: unit support
320: Collector 330: Drain valve
340: side frame 345: fastening groove
400: Water supply part 410: Water intake pipe
420: water supply pipe 430; Water pipe support
440: Feed water pump 450, 460: Water feed pipe
470: Water supply valve
500: air supply part 510: water tank air pipe
520: air supply pipe 530: air supply pipe support
540: Air pump 550, 560: Air distribution valve

Claims (12)

In order to form an aqua phonics system in a tank that provides space for living creatures such as fishes,
A growing section providing a plant growing space in which the plant is grown;
A drainage receiving unit positioned below the rearing unit to support and support the rearing unit;
A supporting part coupled to the drain receiving part and supporting the drain receiving part so that the rearing part and the drain receiving part may be spaced apart from the upper side of the water tub;
And water supplied from the water tank is supplied to the rearing unit side so that the plants cultivated in the plant growing space of the rearing unit can survive, A water supply part; And
And an air supply unit coupled to the drainage receiving unit and supplying air so that fishes and the like in the water stored in the water storage tank can survive.
Hypothetical device for building aquaponix system.
The method according to claim 1,
The re-
At least one re-port unit,
The cultivation port unit comprises:
Port bottom;
A port wall coupled upward from a rim of the port bottom to form the plant cultivation space in which the plant and soil can be stored together with the port floor; And
An inlet disposed above the bottom of the port, the air being supplied with air from the outside so that external air can be delivered to the soil on the upper side of the bottom of the port and to the root side of the plant; ≪ / RTI >
Hypothetical device for building aquaponix system.
3. The method of claim 2,
On the outer surface of the air inlet,
Wherein a plurality of air discharge holes are formed so that external air introduced into the air inlet pipe is transmitted to the root side of the plant.
Hypothetical device for building aquaponix system.
3. The method of claim 2,
The drainage receiving portion includes:
At least one drainage supporting unit,
The drainage supporting unit includes:
A unit pedestal supporting the cultivation port unit so that the cultivation port unit can be seated;
A collecting body provided below the unit pedestal for collecting water drained from the re-porting unit side;
A drain valve provided below the water collecting body for interrupting the falling of the water collected in the water collecting body; And
And a side frame provided on the outer side of the unit pedestal and having a plurality of engaging grooves for engaging with a neighboring drainage receiving unit.
Hypothetical device for building aquaponix system.
5. The method of claim 4,
And a lower portion of the bottom of the port of the rear pot port unit,
And a seat frame inserted and seated in the unit pedestal of the drain supporting unit is formed.
Hypothetical device for building aquaponix system.
5. The method of claim 4,
The support portion
A support base for supporting and supporting the drainage supporting unit; And
And a support rod coupled to a rim of the support pedestal and supporting the support pedestal so that the support pedestal is spaced apart from the water tank at a predetermined interval.
Hypothetical device for building aquaponix system.
The method according to claim 6,
The water-
A water intake pipe for taking water stored inside the water tank;
A water supply pipe connected to a part of the lower side so as to communicate with the water intake pipe and guiding the water taken from the water intake observation side to move upward;
A water supply pipe connected to the water supply pipe to support the water supply pipe;
A water supply pump which is coupled to the water supply pipe and receives water stored inside the water tank through the water intake pipe and the water supply pipe to provide a force to be supplied to the rear port unit side;
A water distribution pipe connected at one end to communicate with the water supply pipe and guided so that water moved through the water supply pipe is distributed and supplied to the rear port unit; And
And a water supply valve provided in the water supply and distribution pipe for controlling supply of water to the recharge port unit.
Hypothetical device for building aquaponix system.
8. The method of claim 7,
Wherein the water supply pipe is hinged between the water supply pipe and the water supply pipe support so as to adjust an angle of connection between the water supply pipe and the water supply pipe support.
Hypothetical device for building aquaponix system.
8. The method of claim 7,
Wherein the water supply pipe and the water supply pipe support are fastened and fixed to the side frame of the drainage receiving unit.
Hypothetical device for building aquaponix system.
The method according to claim 6,
The air-
A water tub air pipe for supplying air to the water stored inside the water tub;
An air supply pipe connected to a part of the lower side so as to communicate with the water tub air pipe and guiding the movement of air so that air can be supplied to the water tank side or the rear port unit side;
An air supply pipe support coupled to the air supply pipe to support the air supply pipe;
An air pump coupled to the air supply pipe and providing a force to supply air to the water tank side or the rear port unit side; And
And an air distribution valve coupled to the air supply pipe, the air distribution valve interrupting the inflow of air into the air intake port of the re-porting unit.
Hypothetical device for building aquaponix system.
11. The method of claim 10,
Wherein the air supply pipe is hinged between the air supply pipe and the air supply pipe support so as to adjust an angle of engagement between the air supply pipe and the air supply pipe support.
Hypothetical device for building aquaponix system.
11. The method of claim 10,
Wherein the air supply pipe and the air supply pipe support are fastened and fixed to the side frame of the drainage supporting unit.
Hypothetical device for building aquaponix system.

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