KR20210092056A - Siphon apparatus of aquaponics system - Google Patents

Abstract

An objective of the present invention is to provide an improved siphon device of an aquaponics system, with a structure in which inlet/outlet holes and a drain hole are integrally formed so as to allow introduction and discharge of water while maintaining functions of a drainable siphon while being used in an aquarium filter or an aquaponics cultivation device. According to an embodiment of the present invention, the siphon device of an aquaponics system comprises: a main body forming different inlet/outlet paths so that an external solution is introduced thereinto and then discharged; a first inlet/outlet part forming a first inlet/outlet path so that a solution flowing in through a lower part of the main body from the outside of the main body is guided to an upper part of the main body and then discharged to the outside; and a second inlet/outlet part forming a second inlet/outlet path so that a solution in the vicinity of the main body is introduced into the inside of the main body through a side portion of the main body and then discharged to the outside of the main body through the lower part of the main body.

Description

SIPHON APPARATUS OF AQUAPONICS SYSTEM

The present invention relates to a siphon device for an aquaponics system.

In general, aquaponics is a term that combines aquaculture and hydroponics. Aquaponics farming is a circular farming method in which the secretions generated from fish culture are converted into nitrates through nitrification of bacteria and provided as nutrients for plants, and the filtered water is then provided back to the fish. Among these aquaponics farming methods, the Media Bed method maximizes nitrification by multiplying aerobic bacteria by repeating the operation of filling and draining the media, that is, the filter medium. A siphon is a way to repeat the operation of filling and draining water indefinitely without power. The aquaponics system uses a bell-shaped bell siphon.

In the bell siphon, when water is supplied to the container and it rises to a certain water level, a siphon is formed and drainage starts. Since the amount of drainage is greater than the supply amount, when the water goes down to a certain level, air enters and the siphon stops and the water level rises again. However, in order to use the bell siphon, there is an inconvenience of assembling parts by cutting a PVC pipe or the like. In addition to the bell siphon, which functions as a drain, an inlet and outlet for supplying water must be made separately. In addition, there is the inconvenience of having to adjust the water quantity or pipe diameter so that the siphon is properly generated according to the amount of water discharged or the amount of drainage.

An embodiment of the present invention is to provide a siphon device of an aquaponics system improved with an integrated structure of an inlet/outlet port and a drain port so that water can enter and exit while maintaining the function of a drainable siphon when used in an aquarium filter or aquaponics growing machine.

The siphon device of the aquaponics system according to an embodiment of the present invention includes a body that forms different entry and exit paths so that an external liquid is introduced and discharged inside, and a liquid that flows from the outside of the body through the lower part of the body is transferred to the upper part of the body. a first entrance/exit portion that forms a first entry/exit path to flow to the outside of the body, and the liquid around the body is introduced into the inside of the body through the side of the body to the outside of the body through the lower part of the body and a second entry/exit portion forming a second entry/exit path to flow out.

The main body may be formed in a cylindrical structure having an inner space having an upper portion and a lower portion partially opened, and a plurality of openings provided at the lower side of the corresponding side.

The first entrance/exit portion is provided at a position corresponding to the first inlet portion on the other side of the body and is connected to the liquid supply portion on one side along the height direction of the body and is provided at a position corresponding to the first inlet portion including the inlet of the first entrance/exit path. It may include a first outlet for discharging the liquid introduced through the unit to the outside of the first entrance and exit path.

The first inlet may be connected to a guide pipe connected to a separately provided submersible motor, and may penetrate through the inside along the longitudinal direction of the body and be connected to the first outlet.

The first outlet guides the liquid flowing out from the end of the first entry/exit path, a fastening part having a female screw on an inner circumferential surface, and a male screw on an outer circumferential surface coupled to the fastening part, have a partially cut incision groove and a fastening part In the coupled state, it may include a water outlet amount adjusting unit for adjusting the water outlet amount of the liquid flowing out according to the degree of opening of the incision groove.

The second entry/exit portion has a plurality of inlets along the circumferential direction from the lower side of the side along the height direction of the main body, and a second inlet for guiding the liquid flowing into the body from the outside of the body, and a first entry/exit path from the inside of the body It may include a second outlet provided separately from the second outlet for discharging the liquid introduced through the second inlet to the outside of the body.

The second outlet may have a cylindrical pipe shape elongated in the height direction, the lower part may be exposed to the outside of the body, and the upper part may have a predetermined curvature and widely open outwardly. Here, the second outlet may be formed in a shape surrounding the first inlet and outlet. And the second outlet may have the same height as the highest water level inside the body. A lower portion of the second outlet may be provided with a male thread on a circumferential surface. It may further include a fixing part having a female thread on the inner circumferential surface and being fastened to the lower part of the second outlet to maintain a fixed state of the body.

The siphon device of the aquaponics system according to an embodiment of the present invention is easy to install in the aquaponics system by forming an inlet and outlet and a drain hole integrally, and separate inlet and outlet ports are unnecessary by arranging the inlet and outlet ports inside. Accordingly, there is an effect that the user can control the amount of water discharged for a smooth siphon action.

1 is an exploded perspective view illustrating a coupling relationship of a siphon device of an aquaponics system according to an embodiment of the present invention.
2 is an exploded cross-sectional view illustrating a coupling relationship between a siphon device of an aquaponics system according to an embodiment of the present invention.
3 is a diagram illustrating a flow of water in an aquaponics cultivator using a siphon device of an aquaponics system according to an embodiment of the present invention.
4 is a diagram schematically illustrating fish culture and hydroponics using a siphon device of an aquaponics system according to an embodiment of the present invention.

The terminology used herein is for the purpose of referring to specific embodiments only, and is not intended to limit the invention. As used herein, the singular forms also include the plural forms unless the phrases clearly indicate the opposite. The meaning of "comprising," as used herein, specifies a particular characteristic, region, integer, step, operation, element and/or component, and other specific characteristic, region, integer, step, operation, element, component, and/or group. It does not exclude the existence or addition of

Although not defined otherwise, all terms including technical and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs. Commonly used terms defined in the dictionary are additionally interpreted as having a meaning consistent with the related technical literature and the presently disclosed content, and unless defined, they are not interpreted in an ideal or very formal meaning.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily carry out the embodiments of the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein.

1 is an exploded perspective view illustrating a coupling relationship of a siphon device of an aquaponics system according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view illustrating a coupling relationship of a siphon device of an aquaponics system according to an embodiment of the present invention. It is an isolated cross-section. 1 and 2 , the siphon device 100 of the aquaponics system according to an embodiment of the present invention includes a body 301 , a first input/exit unit 110 , and a second input/exit unit 210 . In addition, by forming the inlet and outflow function and drainage function in an integrated structure, it is possible to implement the water input and output function while maintaining the drainable siphon function in an aquarium filter or aquaponics growing machine. The siphon device 100 of the aquaponics system according to the embodiment of the present invention can be installed in an aquaponics cultivation machine divided into a fish tank 403 and a cultivation vessel 402 as shown in FIG. 3 , so for example, Explain. 3 is a view showing the flow of water in an aquaponics grower using a siphon device of an aquaponics system according to an embodiment of the present invention, and FIG. 4 is a siphon device of an aquaponics system according to an embodiment of the present invention. It is a diagram schematically showing fish farming and hydroponics using

The main body 301 forms different entry and exit paths so that the external liquid flows in and is discharged. The main body 301 may be formed in a cylindrical structure having an inner space having an upper portion and a lower portion partially opened, and a plurality of openings provided at the lower side of the corresponding side. The outer wall of the body 301 may be formed to be completely waterproof to prevent external water from flowing into the interior.

The first entry/exit part 110 guides the liquid flowing in through the lower part of the body 301 from the outside of the body 301 to the upper part of the body 301 so as to flow out of the body 301 to the outside of the first entry/exit path ( 110a) may be formed. The first inlet and outlet 110 may include a first inlet 101 and first outlets 102 and 103 . The first inlet 101 may include an inlet 302 of the first entry/exit path 110a, and may be connected to an underwater motor 401 serving as a liquid supply unit from one side along the height direction of the body 301 . The first inlet 101 may be connected to a guide pipe connected to a submersible motor 401 separately provided in the fish tank 403 , and penetrates through the inside along the longitudinal direction of the body 301 to the first outlet 102 . , 103) can be connected. That is, the first inlet 101 is connected to the underwater motor 401 in the fish tank 403 to form an inlet passage in the form of an inlet and outlet pipe for raising water to the cultivation vessel 402, and the main body 301 functions as a siphon. ) and connected to the first outlets 102 and 103 through the inside to form the first inlet and outlet 110 . The first inlet 101 and the first outlets 102 and 103 may be provided on the inlet side and the outlet side of the first inlet/outlet 110 , respectively.

The first outlets 102 and 103 are provided at a position corresponding to the first inlet 101 on the other side of the main body 301 to allow the liquid introduced through the first inlet 101 to pass through the first entry/exit path 110a. ) can be discharged outside. The first outlets 102 and 103 serve to supply water to the cultivation vessel 402 , and the amount of water may be adjusted with the water outlet adjusting unit 103 so that the siphon may occur smoothly. The first outlets 102 and 103 may include a fastening unit 102 and a water outlet adjusting unit 103 . The fastening unit 102 functions as a female screw provided inside the main body 301, and the water outlet adjusting unit 103 is partially screwed to the fastening unit 102 and adjusts the water outlet through the exposed portion according to the degree of fastening. It can function as a male thread. The fastening part 102 guides the liquid flowing out from the end of the first entry/exit path 110a, and a female screw 101a may be provided on the inner circumferential surface. The water outlet adjusting unit 103 is provided with a male screw 103a on an outer circumferential surface coupled to the fastening unit 102 , has a cut-out groove 103b partially cut in the height direction, and is coupled to the fastening unit 102 , the cut-out groove According to the degree of the opening of the (103b), the amount of water flowing out can be adjusted. That is, the water output amount adjusting part 103 is formed in the form of a male screw having a gap in the vertical direction, and the water output amount can be increased or decreased in proportion to the size of the gap of the exposed cutout groove 103b by turning the water output amount adjusting part 103. . For example, when the fastening area of the water outlet adjusting unit 103 is increased when the screw is coupled, the opening area of the cut-out groove 103b is also narrowed, thereby reducing the amount of water discharged. On the other hand, when the fastening area is loosened when the screw is coupled, the opening area of the cut-out groove 103b is also widened, so that the amount of water discharged can be increased. Alternatively, other methods for regulating the water output may be applied. For example, a method of adjusting the amount of water discharged by attaching a valve to a position where water is discharged from the first outlets 102 and 103 or using a variable resistance or the like may be used.

The second entry/exit part 210 is a liquid in the vicinity of which the body 301 is located is introduced into the inside of the body 301 through the side of the body 301, through the lower portion of the body 301 to the outside of the body 301 A second entry/exit path 210a may be formed to flow out into the The second inlet and outlet 210 may include a second inlet and a second outlet 212 . The second inlet has a plurality of inlets 302 along the circumferential direction from the lower side of the side along the height direction of the main body 301 and can guide the liquid flowing into the interior of the main body 301 from the outside of the main body 301. . The plurality of inlets 302 may serve as a strainer to block foreign substances from entering the cultivation vessel 402 while guiding water to be introduced into the body 301 at the same water level as the cultivation vessel 402 .

The second outlet 212 may be provided separately from the first entry/exit path 110a inside the main body 301 to discharge the liquid introduced through the second inlet to the outside of the main body 301 . The second outlet 212 has a cylindrical pipe shape elongated in the height direction so that the siphon phenomenon occurs, the lower part is exposed to the outside of the main body 301 and the upper part 203 has a predetermined curvature and is outwardly formed. It may be formed in the shape of a stand pipe having a widely opened shape. The second outlet 212 may be formed in a shape surrounding the first inlet/outlet 110 positioned inside from the outside. That is, the inner diameter of the second outlet 212 is wider than the outer diameter of the first inlet and outlet 110 , and the liquid introduced through the space between the second outlet 212 and the first inlet and outlet 110 is removed. It can be discharged to the outside of the body 301 . The second outlet 212 may have the same height as the highest water level inside the body 301 . Here, the highest water level inside the main body 301 is the same as the highest water level in the cultivation vessel 402 . Accordingly, that is, the height of the uppermost end along the longitudinal direction of the second outlet 212 may be maintained equal to the height of the highest water level of the cultivation vessel 402 . The siphon may not occur or the siphon may not stop depending on the ratio of the water discharged to the cultivation vessel 402 through the first outlets 102 and 103 and the water discharged from the drain 201 to the fish tank 403 . In addition, if the water quantity is adjusted using the water discharge amount adjusting unit 103, the optimum water discharge amount at which the siphon is generated and stopped can be determined. In particular, in order to smoothly repeat the siphon phenomenon, the upper portion 203 of the second outlet portion 212 may have a larger diameter than the lower portion, or a wing for inducing the flow of water may be installed. Since the lower portion of the second outlet 212 functions as the drain 201, it may be formed to penetrate the bottom of the cultivation vessel 402.

On the other hand, the lower portion of the second outlet 212 may be provided with a male thread 202 on the circumferential surface. It may further include a fixing portion 204 having a female thread on the inner circumferential surface and fastened to the lower portion of the second outlet 212 to maintain the fixed state of the main body 301 . The lower end of the second outlet 212 becomes the outer wall of the drain hole, and a fixing male thread is provided for fixing to the bottom of the cultivation vessel 402, and a fixing part having a female thread to function as a fixing nut together with the packing ( 204) can be concluded. On the other hand, since the water drained through the drain hole falling vertically on the water surface may give stress to the fish, the second outlet 212 may be formed in a 90 degree elbow shape. In this case, the first inlet 101 may also have a shape corresponding to the shape of the drain hole.

3 is a view showing the flow of water in the aquaponics system using the siphon device of the aquaponics system according to an embodiment of the present invention. Referring to FIG. 3 , the contaminated water in the fish tank 403 through the first inlet 101 connected to the submersible motor 401 comes up to the cultivation vessel 402 functioning as a filter and a cultivator, and the filter medium 404 gap As it fills, the water level rises. At the same time, drainage starts in the body 301, which was filled with water at the same water level, and when the water level in the cultivation vessel 402 reaches the highest water level 405, a siphon is generated and the water level starts to decrease. When the water level of the cultivation vessel 402 goes down to the strainer 302 and reaches the lowest water level 406 , the siphon stops while the surrounding air is drawn into the body 301 , and the water level rises again.

The highest water level 405 in the cultivation vessel 402 is the same as the height of the second outlet 212, and bacteria inhabit the filter medium 404 in the cultivation vessel 402 to biochemically filter contaminated water. can In particular, sufficient oxygen is supplied to the filter medium 404 exposed as the water level rises and falls, so that an environment in which aerobic bacteria can actively reproduce can be created. Therefore, unlike the conventional closed type, water level filter, a large amount of ammonia present in the contaminated water is converted into nitrate, and the nitrate can be a good nutrient for plants grown in the filter medium above the highest water level (405). The water from which nitrates have been removed by the plants may be filtered and fed back to the fish tank 403 with water optimal for fish survival.

4 is a view schematically illustrating a state of fish culture and hydroponics in an aquaponics system using a siphon device of the aquaponics system according to an embodiment of the present invention. Referring to FIG. 4 , a filter and aquaponics grower for an aquarium equipped with a siphon device 100 in which an inlet and outlet and a drain port are integrally formed can have a simple structure and operation. That is, if the user drills a hole in the cultivation vessel 402 of an appropriate size and mounts the siphon device 100 in which the inlet and outlet ports and the drain ports are integrally formed, the filtration in the fish tank 403 can be solved. The cultivation vessel 402 can be used regardless of the shape, as long as it can be mounted on the top of the fish tank 403 . And the mounting height of the cultivation vessel 402 may be considered according to the type of plant to be grown in the cultivation vessel 402 .

The siphon device 100 of the aquaponics system according to an embodiment of the present invention has an inlet and outlet port and a drain port integrally formed on the outside, and in the aquaponics system, fish swim in the lower fish tank 403 and serve as a filter at the upper end. In the cultivation container 402, it is possible to produce a natural scene in which plants grow. Internally, the siphon device 100 of the aquaponics system continuously repeats water in and out and drainage to provide nutrients to plants and to supply filtered clear water to fish to enable semi-permanent fish farming and eco-friendly organic plant cultivation. can be implemented

As described above, the siphon device 100 of the aquaponics system according to the embodiment of the present invention is provided in the form of a ready-made product in which the inlet and outlet ports and the drain ports are integrally formed. Very useful for anyone who wants to make one. That is, a basic operation can be implemented by making a hole in the bottom of the cultivation vessel 402 of an appropriate size and fixing the main body 301 and then connecting the underwater motor 401 . With only one hole, both inflow and outflow and drainage are realized, and if the amount of outflow is adjusted while checking whether a siphon occurs, a siphon that is permanently repeated indefinitely can be completed. After filling the cultivation container 402 with an appropriate amount of media, the user can grow plants by sprinkling seeds, and clean water from which nitrates have been removed through the roots of plants is supplied to the fish, so that no water exchange or the water exchange cycle is minimized. However, it is possible to raise fish in a healthy way.

Although preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to carry out various modifications within the scope of the claims, the detailed description of the invention, and the accompanying drawings, and this is also It goes without saying that they fall within the scope of the present invention.

100 ; siphon device 101 ; first inlet
102; first outlet 103 ; Water output control unit
110 ; first input/output unit 204; fixed part
210; a second input/output unit 212 ; second outlet
301 ; body 302; inlet
401; submersible motor 402 ; cultivation vessel
403 ; fish tank 404 ; filter media

Claims (11)

A main body that forms different entry and exit paths so that external liquid flows in and out.
A first entry/exit portion for guiding a liquid flowing in through a lower portion of the main body from the outside of the main body to an upper portion of the main body to form a first input/exit path to flow out of the main body; and
A second entry/exit portion forming a second entry/exit path so that the liquid around the body is located is introduced into the inside of the body through the side of the body and flows out of the body through the lower part of the body
A siphon device of the aquaponics system comprising a. In claim 1,
The siphon device of the aquaponics system is formed in a cylindrical structure in which the main body has an inner space with an upper part and a lower part partially opened, and a plurality of openings are provided at the lower side of the corresponding side. In claim 1,
The first input/exit unit
A first inlet connected to the liquid supply from one side along the height direction of the body and including an inlet of the first entry/exit path, and
and a first outlet provided at a position corresponding to the first inlet on the other side of the main body to discharge the liquid introduced through the first inlet to the outside of the first inlet/outlet path. In claim 3,
The first inlet is connected to a guide pipe connected to a separately provided submersible motor, and the siphon device of the aquaponics system is connected to the first outlet through the inside along the longitudinal direction of the main body. In claim 4,
the first outlet
A fastening part that guides the liquid flowing out from the end of the first entry/exit path and is provided with a female screw on the inner circumferential surface, and
A male screw is provided on an outer circumferential surface coupled to the fastening portion, has a partially cut incision groove, and a water outlet amount adjusting unit for adjusting the water outlet amount of the liquid flowing out according to the degree of opening of the cutout groove in a state coupled to the fastening portion
A siphon device of the aquaponics system comprising a. In claim 1,
The second input/output unit
A second inlet having a plurality of inlets in the circumferential direction from the lower side of the side along the height direction of the body and guiding the liquid flowing into the inside of the body from the outside of the body, and
The siphon device of the aquaponics system including a second outlet provided separately from the first entry and exit path inside the body to discharge the liquid introduced through the second inlet to the outside of the body. In claim 6,
The second outlet has a cylindrical pipe shape elongated in the height direction, the lower part is exposed to the outside of the main body, and the upper part has a predetermined curvature and is widely opened outward. . In claim 7,
The siphon device of the aquaponics system in which the second outlet has a shape surrounding the first inlet and outlet. In claim 7,
The second outlet is a siphon device of the aquaponics system having the same height as the highest water level inside the body. In claim 7,
The lower portion of the second outlet is a siphon device of an aquaponics system that is provided with a male thread on a circumferential surface. In claim 10,
The siphon device of the aquaponics system further comprising a fixing part having a female thread on an inner circumferential surface and being fastened to a lower portion of the second outlet to maintain a fixed state of the main body.

Images