KR20190085284A - Aquaponics system with boiler - Google Patents

Abstract

The present invention relates to an aquaponics system having a boiler, which improves the productivity, comprising: a structure for forming first to third compartments; a nutrient solution discharge line; a heating boiler; a biofilter; a nutrient solution storage chamber; a cultivation bed; and a boiler.

Description

Aquaponics system with boiler {Aquaponics system with boiler}

The present invention relates to an aqua phonics system having a boiler, and more particularly, to a boiler having a boiler, which is capable of forming a single system including a hydroponic cultivation unit, a water tank, and seedlings in one structure, To an aqua phonics system.

In general, the plant cultivation method of aqua phonix is a method for cultivating hydroponic plants and the like in an environmentally friendly manner by supplying a nutrient solution containing excretion from the fish culture.

A plant cultivation system of Registration No. 10-1370075 has been proposed as a prior art for the cultivation method of aquaponix plants, and the contents thereof are as follows.

As shown in Fig. 1, a water tank 100 that provides a fish food space includes:

And a pump 700 for pumping the primary nutrient solution in the primary nutrient solution reservoir. The pump 700 is a pump for feeding the primary nutrient solution in the primary nutrient solution reservoir, A biofilter 200 comprising:

The biofilter (200) according to any one of claims 1 to 3, further comprising: an upper portion of the biofilter (200) which is spaced upward from the filler receiving portion of the biofilter (200) so as to provide a growing space for the plant to be cultivated in the filler receiving portion A lighting device (600) for illuminating;

A solid filter 300 which is supplied with the primary nutrient solution pumped by the pump 700 of the biofilter 200 and discharges the solid matter contained in the primary nutrient solution into a filtered secondary nutrient solution;

At least a part of the nutrients contained in the secondary nutrient solution are absorbed and removed by the plant, and at least a part of the fish excrement from the water tank A plant cultivation apparatus (400) for discharging a third nutrient solution which has been removed by a plant and whose water quality has been purified;

And a nutrient recovery channel (500) connected to the water tank and recovering the tertiary nutrient solution purified by plants discharged from the plant cultivation apparatus (400) into the water tank.

The plant cultivation apparatus 400 includes a cultivation bed 410 arranged in multiple layers by a frame 420 and an illumination unit 430 in each cultivation bed 410.

Specifically, with respect to this prior art,

The water tank, biofilter, solid fuel unit, plant cultivation unit, and lighting unit are constituted independently of each other, so that a large area is required to construct each facility in a comprehensive manner, have.

In addition, since planting apparatuses are stacked in a multi-stage manner, artificial light must be provided for each layer, so that the maintenance cost such as equipment cost and electricity cost is increased, and productivity is lowered. And the like.

In addition, there is a problem that seedlings to be planted in a growing bed can not be linked in one place and they must be supplied in a separate place.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the problems of the conventional construction described above, and it is an object of the present invention to provide an aquarium and a facility, The present invention also provides an aqua phonics system including a boiler for cultivating a plant and providing seedlings by providing seedling germination means on one side thereof.

A solution for implementing the above-mentioned object will be described as follows.

A first, second, and third compartments divided into upper and lower divisions between two sidewalls formed on the ground;

A fish tank for supplying water from outside to the first compartment, which is a lower one side of the structure, and for breeding fish;

A nutrient solution number line connected to the water level portion of the casting tank to supply the nutrient solution to the third compartment at the other side and a solid filter provided at a proper position of the nutrient solution number line;

A biofilter including a filling member such as a rock or a medial in which a lot of voids exist so that various microorganisms can be inhabited in a filter box containing a nutrient solution falling from the nutrient liquidated water line provided in the third compartment;

A nutrient solution storage room separately provided below the biofilter to collect nutrient solution discharged through the bell siphon;

The planting bed is provided in the upper compartment and has a planting pot at a predetermined distance from the top of the planting pot, and a nutrient solution is supplied from the nutrient solution storage chamber to the pump. And a boiler including the boiler.

The heating unit may further include a heating boiler provided in the second compartment so as to be maintained at a predetermined temperature at which the fish can live in the fish tank.

The filter box may further include a bell siphon which is provided on one side of the filter box so as to intermittently supply the nutrient solution to the seedling port while the seedlings box in which the seedling port is inserted is placed on the filter box.

The present invention effectively arranges the respective components to be linked by a single structure, so that it can be applied to a lot of sites as compared with existing facilities, so that the initial investment cost can be remarkably reduced, There is an effect of improving productivity by linking system.

In addition, the seedling is germinated by a single linking process without germinating the seedlings at a separate facility in the plant growing process, so that the plant cultivation can be performed more effectively.

1 shows an example of a configuration of the prior art
Figure 2 is a diagram showing the overall configuration system of the present invention.
3 is a partially enlarged view of the biofilter portion in the present invention.
4 is a cross-sectional view showing the configuration of a bell siphon in the present invention

The present invention may have various modifications and various embodiments, and specific embodiments thereof will be described in detail with reference to the detailed description and examples of the drawings.

3 is a partially enlarged view of the biofilter portion according to the present invention, and FIG. 4 is a cross-sectional view showing the construction of a bell siphon according to the present invention. Explain.

The structure 100 includes the upper partition 120 and the first, second and third compartments 131, 132 and 133 divided into a plurality of stages in the lower part between the side walls 110 formed on the ground. Steel structures may be applied, but concrete structures may be applied.

A bubble generator 210 is provided through the air compressor 220 so that water can be selectively supplied to the first compartment 131, which is a lower side of the structure 100, by connecting a water supply line and a pump to the outside, And a fish tank 200 is provided so as to have a breeding condition.

The second division room 132 is provided with a nutrient solution number line 300 connected to the level portion of the casting vessel 200 to supply the nutrient solution to the third partitioning compartment 132 on the other side, The solid filter 400 is disposed at an appropriate position of the fish body, so as to filter out fish body slurry that can not be diluted in the nutrient solution to be fed.

A heating boiler 500 is provided in the second compartment 132 of the structure 100 so that the fish can be maintained at a predetermined temperature at which the fish can be stored in the fish tank 200, So that the water can be stably heated to provide water at an appropriate temperature.

The filter box 610 that houses the nutrient solution falling from the nutrient liquidated water line 300 provided in the third partitioning room 133 of the structure 100 is provided with a large- And a biofilter 600 having a filling member 620 such as a biofilter.

And a seedling box 630 placed on top of the filter box 610 to place the seedlings port 640 while intermittently supplying the nutrient solution to one side of the filter box 610 at the seedling port 640 And a bell siphon (700) for allowing the nutrient solution to flow downward

And a nutrient solution storage chamber 800 for collecting nutrient solutions separately provided under the biofilter 600 and discharged through the bell siphon 700. The nutrient solution storage chamber 800 is provided in the third division chamber 133 It is preferable to form it in the basement to secure space.

A growth bed 900 provided in an upper partition 120 formed on an upper part of the structure 100 and positioned at a predetermined interval with each plant growing port 920 through an upper plate 910 do.

The nutrient solution is supplied from the nutrient solution storage chamber 800 to the pump 810 through the liquid supply line 820 to the upper division chamber 120 and then supplied to the upper compartment 120 through the water pipe 930, (200). ≪ / RTI >

Hereinafter, the operation states of the present invention will be described.

The lumps of the excrement or the like which are not diluted in the nutrient solution during the feeding of the excrement produced while raising fish to the fish tank 200 through the nutrient solution water line 300 in a diluted state are supplied to the nutrient solution water line 300 And is supplied to the biofilter 600 provided in the third compartment 133 while being filtered by the solid filter 400 provided therein.

If the nutrient solution number line 300 is located at the set water level position of the fish tank 200 and the water level falls below the set water level position in the above process, the nutrient solution is not supplied and the water level is exceeded.

The nutrient solution supplied to the biofilter 600 functions to convert ammonia contained in fish excrement to nitrite and convert nitrite to nitrate by microorganisms such as bacteria in the filling member 620 The nutrient solution provided from the fish tank 200 is converted into a nutrient solution useful for plants by the biofilter 600 to provide a nutrient solution suitable for hydroponic cultivation.

The nutrient solution thus converted is stored in the nutrient solution storage chamber 800 through the bell siphon 700 and at the same time the nutrient solution intermittently contacts the lower portion of the seedling box 630 during the operation of the bell siphon 700 So that seedlings can be germinated by supplying nutrients to seedlings.

The nutrient solution stored in the nutrient solution storage chamber 800 is supplied to the growth bed 900 provided in the upper partition 120 provided in the upper part of the structure 100 through the liquid supply line 820 by the pump 810 So that the nutrient solution is supplied to each plant redistribution vessel 920 arrayed on the plate 610.

When the nutrient solution is supplied to the growing bed 900 and the set water level is exceeded, the water is discharged from the water tank 200 through the water pipe 930, which is provided in a vertical phase, so that the plant can be hydroponically cultivated.

Industrial Applicability As described above, the present invention can be efficiently applied to a plurality of construction units so that each construction unit is connected to each other by a single structure. Therefore, the present invention can be applied to a much smaller area than existing facilities and greatly improve the economical efficiency.

In addition, it is possible to perform plant cultivation more effectively by supplying germinated seedlings together by a single linking process without germinating seedlings in a separate facility during the plant growing process.

100: Structure 110: Side wall
120, 131, 132, 133:
200: fish tank 300: nutrient liquid number line
400: Solid filter 500: Heating boiler
600: Biofilter 610: Filter box 620: Filling member 630: Seed box
640: seedlings port
700: Bell Siphon 800: Nutrient storage room
820: liquid supply line
900: Growing bed 910: Formal plate
920: cultivation port 930: drainage pipe

Claims (3)

An aquaponix system for growing a plant in a nutrient solution from a fish tank for breeding fish,
A first, second, and third compartments divided into upper and lower divisions between two sidewalls formed on the ground;
A fish tank having a condition capable of breeding fish in a first compartment of the structure; And a solid filter in the second compartment to supply the nutrient solution to the third compartment, the third compartment being connected to the water surface level of the fish tank;
A heating boiler provided in a second compartment of the structure to maintain a predetermined temperature at which the fish can dwell in the water tank;
A biofilter including a filling member for receiving a nutrient solution dropped from a nutrient liquidated water line provided in a third compartment of the structure so that various microbial bacteria can be stored in the filter box;
A bell siphon for allowing the incoming nutrient solution to be withdrawn downward intermittently to one side of the filter box and a nutrient solution storage room for separately storing the nutrient solution discharged through the bell siphon separately below the biofilter;
A cultivating bed provided in an upper compartment formed on an upper part of the structure for vertically arranging the plant growing ports in a horizontal plane through a plate;
And supplying the nutrient solution to the upper compartment through the liquid supply line from the nutrient solution reservoir to the pump, and discharging the nutrient solution through the water pipe provided in the vertical phase when the predetermined level is exceeded. Aquaponics system.
The boiler according to claim 1, further comprising a seedling box positioned above the filter box to position the seedling pot so as to intermittently supply the nutrient solution to the seedling pot by the bell siphon. Aquaponics system.
The aqua phonics system according to claim 1, wherein the nutrient solution storage room is located underground.

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