KR20220088235A - Filter and Fish Hydroponic Cultivator with the Same - Google Patents

Abstract

The present invention relates to a filtration member and a hydroponic culture apparatus for fish having such a filtration member, comprising: a main body for filtering water having a predetermined size; Including a plurality of through-holes formed at intervals in the body portion,
The through hole includes a first inclined hole and a second inclined hole formed to have inner diameters narrow in a direction opposite to each other, and a third passage hole is formed in a portion where the first inclined hole and the second inclined hole meet, and through the through hole When water passes, the flow rate of water is increased and the pressure is lowered due to the passage narrowing from the first inclined hole to the third passage hole, which causes a venturi phenomenon in the vicinity of the third passage hole. A filtration member may be provided in which a large amount of water is introduced therein to facilitate filtration.
In addition, the present invention is a plantation to maintain a predetermined water level; a cover member including a circulation system for supplying breeding water to the cultivation area and reducing the water in the cultivation area to a water tank, the cover member being provided on the top of the cultivation area, and having one or more plant pots for planting plants detachably; One or more filtration members are provided inside the plantation and are coupled to the bottom surface of the cover member to filter water; Water filtered through the filter member is supplied and includes a tank for culturing fish, wherein the filtering member may be provided with a hydroponic aquaculture device for fish farming in which a plurality of through-holes are formed.

Description

Filter and Fish Hydroponic Cultivator with the Same

The present invention relates to a filtration member and to a hydroponic aquaculture apparatus provided with such a filtration member.

As industrialization and urbanization progress, the need for eco-friendly and convergence aquaculture technology is emerging. Because of this necessity, aquaculture hydroponics combining plant cultivation and fish farming has been tried for a long time, and for this, physical and biological filtration of farmed water is essential. Ammonia, nitrite, etc. are generated and accumulated in high concentrations due to fish excrement and other residues from the aquaculture tank, which causes disease and death of fish. In order to prevent this, a separate physical and biological filtering device must be installed.

However, this method has a problem in that the installation cost of the filtration device increases. Due to these economic problems, aquaponics hydroponics is not widely used despite the advantage of not using pesticides and chemical fertilizers.

The present invention was invented to solve the above problems, and the problem to be solved by the present invention is to efficiently remove ammonia and nitrite, which are by-products of fish culture in breeding water, in aquaponics in aquaculture, while nitrate and the like are nutrients for plant cultivation. It is to provide a filtration member for removing solids such as debris and the like, and a hydroponic aquaculture apparatus for aquaculture having such a filtration member.

The solution of the present invention has a body portion for filtering water having a predetermined size;

Including a plurality of through-holes formed at intervals in the body portion,

The through hole is formed of a first inclined hole and a second inclined hole formed to have an inner diameter narrow in a direction facing each other,

A third passage hole is formed in a portion where the first inclined hole and the second inclined hole meet,

When the water passes through the through hole, the flow rate of water increases and the pressure decreases as the first inclined hole passes through the third through hole, so that the venturi phenomenon of attracting water inside the filtration member occurs, and the flow force of this water As a result, more oxygen can be provided to the aerobic microorganisms attached to the inside of the filtration member, thereby inducing a more active physical and biological filtration action.

Another solution of the present invention is a plantation that maintains a predetermined water level while water is circulated; a cover member provided on the plantation site and having one or more plant pots for planting plants; One or more filtration members provided under the cover member and submerged in the water of breeding water in the cultivation area to filter the water; A hydroponic aquaculture apparatus may be provided in which water filtered through the filtering member is supplied to include a tank for culturing fish, wherein the filtering member has a plurality of through-holes formed therein.

As described above, the present invention eliminates the need for a separate filtration device by providing the filtration member to the cover member for aquaponics. Therefore, even if the scale of aquaponics grows, it is possible to obtain the economical effect that the equipment installation and maintenance cost does not need to increase, and the effect that a lot of equipment installation space is not required.

Further, according to the present invention, since the filtration member can be provided in a structure detachable from the cover member for aquaponics, installation, replacement, cleaning, etc. can be facilitated.

Since the filtration member of the present invention has a structure in which a lot of pores are formed of a fibrous material having a surface and an inner surface or a urethane-based sponge material strong in durability and waterproofing, aerobic microorganisms are attached to the inside, including the surface of the filter member, and can grow without being detached. Therefore, physical filtration as well as biological filtration can be performed smoothly.

1 is a perspective view of a filtering element of the present invention;
2 is a side cross-sectional view of the filtering element of the present invention;
Figure 3 is a perspective view provided with a venturi tube member in the filtering member of the present invention.
Figure 4 is a perspective view showing the venturi tube member in the filtering member of the present invention.
5 is a perspective view in which the venturi tube member is separated from the filtration member of the present invention.
Figure 6 is a perspective view of the venturi tube member of the present invention.
7 is a front view of the venturi tube member of the present invention.
8 is a cross-sectional view of a hydroponic aquaculture apparatus equipped with a filtering member of the present invention.
9 is an overall configuration diagram of a fishpond hydroponic cultivation apparatus equipped with a filtering member of the present invention.

1 is a perspective view of a filtration member of the present invention, and FIG. 2 is a side cross-sectional view of the filtration member of the present invention. 1 and 2 , the filtration member 10 of the present invention may include a main body 11 for filtering water, and a plurality of through-holes 12 formed at intervals in the main body 11 . .

The main body 11 may be formed in a predetermined size, for example, may be formed in a rectangular parallelepiped shape to have a predetermined thickness.

Referring to FIG. 2 , the through hole 12 is disposed facing the first inclined hole 12a and the first inclined hole 12a, the inner diameter of which becomes narrower toward the inside from the front and rear surfaces of the main body 11 . The second inclined hole 12b and the third through hole 12c formed at a location where the first inclined hole 12a and the second inclined hole 12b meet may be formed.

Looking at the process in which water flows into the first inclined hole 12a, passes through the third passage hole 12c, and then passes through the second inclined hole 12b, from the first inclined hole 12a to the third passage hole 12c ), the passing speed is faster than in the vicinity of the first inclined hole 12a, and the pressure is lower than in the vicinity of the first inclined hole 12a and the second inclined hole 12b, and due to the low pressure, the third passage hole (12c) A venturi phenomenon of attracting water inside the peripheral main body 11 may occur.

In this way, while the water passes through the through hole 12, the water inside the main body 11 around the third through hole 12c exhibits the effect of flowing in, and the water in the main body 11 that flows into the through hole ( 12) while smoothly passing through the filtration member 10 together with the water passing through, more oxygen is provided to the aerobic microorganisms attached to the inside of the body 11, thereby actively inducing a physical and biological filtration action.

The filtration member 10 may be composed of a urethane-based porous sponge filtration filter or one of polyester, polyethylene, and polypropylene yarn, but is not limited thereto, and has durability and waterproofness and fine pores so that microorganisms are densely formed. If it is advantageous to attach, it can be used as a material for the filtration member 10 .

Organic matter included in the breeding water may be subjected to physical filtration through the filtration member 10 to filter out residues and the like. At the same time as undergoing physical filtration, biological filtration in which ammonia, nitrite, and the like are decomposed and converted into nitrate by a large amount of aerobic bacteria living in the filtration member 10 may be performed. The converted nitrate can be supplied as nutrients to plants,

In other words, the flow of water is induced due to the plurality of through-holes 12 formed in the filtering member 10 and satisfactorily passes through the filtering member 10 , so that residues in the breeding water are filtered and the filtering member 10 main body at the same time. Substances such as organic matter, ammonia, nitrite, and nitrate contained in the breeding water are decomposed and can be used as nutrients by the action of microorganisms, which are filter bacteria living in the part 11 .

Figure 3 is a perspective view provided with a venturi tube member in the filtration member of the present invention, Figure 4 is a perspective perspective view showing the venturi tube member in the filtration member of the present invention, Figure 5 is a perspective view of the venturi tube member separated from the filtration member of the present invention , Figure 6 is a perspective view of the venturi tube member of the present invention, Figure 7 is a front view of the venturi tube member of the present invention.

Referring to FIG. 3 , the plurality of through holes 12 formed in the main body 11 of the filtration member 10 have different The venturi tube member 20 through which water can be introduced only through the water inlet tube 24 while being made of a material and having a smooth surface may be provided, respectively.

Referring to FIG. 6 , the venturi pipe member 20 includes a first water flow pipe 21 and a second water flow pipe 22 , and a first water flow pipe 21 and a second water flow pipe formed symmetrically with each other. (22) It may be made of a connection pipe (23) formed in communication between.

A plurality of inlet pipes 24 may be formed to communicate with each other at intervals on the outer circumferential surface of the connection pipe 23 .

The first water flow pipe 21 and the second water flow pipe 22 extend from the frame parts 21a and 22a and the frame parts 21a and 22a, respectively, so that the inner diameter through which the fluid passes is narrowed. It may be formed of photographic inclined portions 21b and 22b.

A plurality of through holes 21c and 22c may be formed in the frame portions 21a and 22a along the circumference.

The first water flow pipe 21 and the second water flow pipe 22 constituting the venturi pipe member 20 have inclined portions 21b and 22b whose inner diameter is narrowed in the frame portions 21a and 22a, respectively. ), when passing through the inside of the inclined portion 21b in the frame portion 21a of the first water flow tube 21, the pressure decreases as the flow rate of water increases, and passes through the connection tube 23 again When passing through the frame portion 22a through the inclined portion 22b of the second water flow tube 220, the flow rate of water may be slowed and the pressure may be increased. , water can be drawn through the inlet pipe 24 provided in plurality along the outer circumferential surface of the connection pipe 23 by the accelerated flow velocity and pressure difference when passing through the connection pipe 23 .

Therefore, by providing a plurality of venturi tube members 20 in the filtration member 10, the breeding water passes evenly and smoothly to the inside of the main body 11 of the filtration member 10, and organic matter and the like can be more reliably filtered and , substances such as ammonia and nitrite contained in the breeding water can be converted into plant nutrients such as nitrates due to biological filtration of aerobic microorganisms that have been supplied with more oxygen with a good water flow, thereby hydroponically cultivated fish with the present invention The device can be turned into an environment suitable for fish and plants to survive.

Referring to FIG. 7 , inside the first water flow pipe 21 and the second water flow pipe 22 , the diaphragm 25 may be formed in a cross shape to support the frame parts 21a and 22a, respectively. .

8 is a cross-sectional view of the aquaponics hydroponic cultivation apparatus 100 having the filtration member 10 of the present invention, wherein the aquaponics hydroponic cultivation apparatus 100 is a cultivation area 110 and a cultivation area 110 in which water, which is breeding water, is circulated and supplied. ) may include a cover member 120 that can be detachably covered on the upper portion.

The cover member 120 provided on the upper portion of the cultivation area 110 may be made of an opaque material, and may block sunlight to prevent the occurrence of algae in the cultivation area 110 .

A plurality of filtration members 10 are detachably provided while submerged in the breeding water along the longitudinal direction of the cultivation field 110 in which a predetermined water level is maintained at intervals inside the plantation 110, which is the lower part of the cover member 120. can

As an example of a structure in which the filtration member 10 is detachably attached to the cover member 120 , a ring is formed on the upper surface of the filter member 10 and a ring is also formed on the inner surface of the cover member 120 to be fitted with each other. can However, it is not limited to such a ring structure and may be implemented in various other detachable structures.

As an example of another detachable structure, a protrusion may be formed on the inner surface of the cover member 120 , and an insertion groove into which the protrusion may be detachably fitted may be formed at a position corresponding to the upper end of the filtration member 10 . Of course, on the contrary, an insertion groove may be formed on the inner surface of the cover member 120 and a protrusion may be formed at a corresponding position of the upper end of the filtration member 10 .

In addition, a plurality of water supply pipes 130 for supplying breeding water to the inside of the cultivation area 110 may be connected to the cover member 120 , and a plant pot 140 capable of planting and growing plants (P) for hydroponic cultivation. ) may be detachably provided.

The plant pot 140 may be inserted into the through hole formed in the cover member 120 so that a part of the plant pot 140 is put into the planting area 110 to be submerged in water.

9 is an overall configuration diagram of a fishpond hydroponic cultivation apparatus equipped with a filtering member of the present invention. Referring to FIG. 9 , a plantation area 110 provided with a plurality of plant pots 140 in which plants P are planted, a water supply pipe 130 , a tank 150 in which various fish can live, and a water pump 160 . ), a heater or a cooler 170 may be provided.

The water tank 150 may be connected to the cultivation area 110 through a drain pipe 152 having an overflow pipe provided so that the water in the cultivation area 110 does not rise above a predetermined water level. That is, one end of the drain pipe 152 having an overflow pipe is inserted into the cultivation area 110 to be vertically provided at a predetermined height, and the other end of the drain pipe 152 is inserted into the water tank 150 . .

According to the present invention, the cover member 120 is a structure detachable from the plantation 110 , and since the filter member 10 is detachably coupled to the cover member 120 , cleaning or replacement of the filtering member 10 is not possible. can be done easily.

10... filter element 11... body part
12... through hole 12a... first bevel hole
12b... Second inclined hole 12c... Third passing hole
20... Venturi tube member 21... First water flow tube
22... Second water flow pipe 21a, 22a... Frame part
21b, 22b... Inclined part 21c, 22c... Through hole
23... connector 24... inlet pipe
25... diaphragm
100... Aquaponics aquaculture equipment
110... Plantation 120... Without cover
130... water supply line 140... plant port
150... Tank 152... Drain pipe
160... water pump 170... heater or cooler
P... plants

Claims (7)

a body part having a predetermined size and filtering water;
a plurality of through-holes formed at intervals in the body portion;
including,
The through hole is made of a first inclined hole and a second inclined hole formed so that the inner diameter is narrowed in the direction facing each other,
A third passage hole is formed in a portion where the first inclined hole and the second inclined hole meet,
When water passes through the third through-hole, the flow rate of water increases and the pressure decreases due to the passage that narrows as it passes through the third through-hole from the first inclined hole, thereby causing a venturi phenomenon in the vicinity of the third through-hole. Filtration member that facilitates filtration by increasing the amount of water flowing inside the main body.
According to claim 1,
A filtering member having a venturi tube member in the through hole to increase the flow rate of water.
3. The method of claim 2,
The venturi tube member,
A first water flow pipe and a second water flow pipe formed symmetrically to each other,
A filtration member comprising a connecting pipe formed in communication between the first water flow pipe and the second water flow pipe.
4. The method of claim 3,
A filtering member in which one or more inlet pipes are formed to communicate with each other at intervals on the outer peripheral surface of the connecting pipe.
A plantation site in which water maintaining a predetermined water level is provided and plants are planted;
a cover member provided on the plantation site and having one or more plant pots for planting plants detachably;
One or more filtration members are provided inside the plantation and are coupled to the bottom surface of the cover member to filter water;
a tank in which water filtered through the filtering member is supplied and fish are cultured;
including,
The filtration member is a hydroponic aquaculture device in which a plurality of through-holes are formed.
6. The method of claim 5,
Aquaponics culture apparatus in which a venturi tube member is provided in each of the through-holes of the filtering member.
6. The method of claim 5,
The filtration member is a hydroponic aquaculture device that is detachably coupled to the bottom surface of the cover member.

Images