KR102565917B1 - A Filtration Plant Port and Fish Hydroponic Cultivator with the Same - Google Patents

Abstract

The present invention relates to a plant pot with a filter and a hydroponic cultivation device for fish farming having such a plant pot, comprising: a body part; It includes a filtering member inserted into the main body, and a planting tube capable of planting plants is provided in the main body, filtering water through the filtering member and fixing the plants planted in the planting tube to grow at the same time. A plant pot may be provided.
In addition, the present invention is a tank for breeding fish; Plantations where plants are planted while maintaining a predetermined water level; A cover member including a circulation system for supplying breeding water from the tank to the plantation and returning water from the plantation to the tank, and provided on top of the plantation; and a plant pot detachably provided to the cover member, wherein the plant pot includes: a main body; It includes a filtering member inserted into the main body, and a planting tube capable of planting plants is provided in the main body, and fish farming for filtering water through the filtering member and growing plants planted in the planting tube at the same time. A hydroponic cultivation device may be provided.

Description

Plant port combined with filter and aquaculture hydroponic cultivation device having such a plant port {A Filtration Plant Port and Fish Hydroponic Cultivator with the Same}

The present invention relates to a plant pot with a filter and a hydroponic cultivation system for fish farming equipped with such a plant pot.

In general, in the aquaculture hydroponic cultivation of the circulation filtration method, which is cultivated with organic matter generated from by-products of fish farming, disease and mortality of fish due to the generation of fish excrement and other residual substances, ammonia, nitrite, etc. generated in the aquaculture tank To prevent this, separate physical and biological filtration devices must be installed.

However, this method has a problem that the installation cost of the filtration device increases. Because of these economic problems, the aquaculture hydroponic cultivation method has not been widely spread despite the advantage of not using pesticides and chemical fertilizers.

The present invention was invented to solve the above conventional problems, and the problem to be solved by the present invention is to collect organic waste in a filtration filter, which is a filtration member, through a plant port for aquaculture hydroponic cultivation that can also function as a filter and filter it. It is to provide a filter-combined plant pot and a fish farming hydroponic cultivation device equipped with such a plant pot so that organic matter, ammonia, nitrite, etc. are decomposed by the action of microorganisms living inside the filter and purified water is supplied to fish.

The solution of the present invention is the body portion; Including a filtering member inserted into the body portion,

A planting tube for planting plants may be provided in the main body, and a plant port may be provided to filter water through the filtering member and fix the plants provided in the planting tube to grow.

Another solution of the present invention is a water tank for breeding fish; Plantations where plants are planted while maintaining a predetermined water level;

A circulation system for supplying the breeding water in the tank to the plantation and returning the water in the plantation to the tank,

a cover member provided on top of the plantation; Including a plant pot detachably provided to the cover member,

The plant pot, the main body portion; Including a filtering member inserted into the body portion,

A planting tube for planting plants is provided in the main body,

An aquaculture hydroponic cultivation device may be provided for growing plants planted in the planting tube while filtering water through the filtering member.

As such, the present invention provides a plant pot provided with a filtering member, and has an air injection pipe and a water flow pipe to inject air so that water is more reliably introduced into the filtering member of the plant pot to improve water flow In this configuration, more oxygen is provided to aerobic microorganisms that like oxygen included in the filtration member, so that filtration performance can be improved. Accordingly, the plant pot of the present invention can contribute to the growth of plants and also take charge of physical and biological filtration.

The fish farming hydroponic cultivation device equipped with a plant pot according to the present invention increases the plant cultivation area and increases the size of the fish tank, so that even if the input of fish feed increases, there is no additional space or cost, and substances such as ammonia and nitrite that are harmful to organic matter and organisms can be efficiently removed to maximize facility cost reduction and production efficiency.

According to the present invention, knowledge of the circulation filtration system essential for fish breeding in aquaculture hydroponics can be achieved without a large burden on facility costs, as well as effective water quality management as the number of plant ports increases as much as the number of plants. Even farmers who do not have enough of this can be able to grow aquaculture hydroponically.

1 is an exploded perspective view of a filter member and a plant pot according to the present invention.
2 is an exploded perspective view of an assembled elongated plant pot according to the present invention.
Figure 3 is a combined cross-sectional view of the plant pot of the present invention.
4 is an overall configuration diagram of the fish farming hydroponic cultivation device of the present invention.
5 is a perspective view showing the plantation structure of the aquaculture hydroponic cultivation device of the present invention.
Figure 6 is a front view of Figure 5;

Hereinafter, specific details for carrying out the present invention will be described in detail based on the accompanying exemplary drawings.

1 is an exploded perspective view of a filter member and a plant pot according to the present invention.

2 is an exploded perspective view of an assembled elongated plant pot according to the present invention.

Figure 3 is a combined cross-sectional view of the plant pot of the present invention.

Referring to FIGS. 1 to 3 , the plant pot 10 of the present invention may include a body portion 100 and a filtering member 200 inserted into the body portion 100 .

The body portion 100 is formed with a plurality of through holes 102 along the circumferential direction, and a planting tube 110 in which plants P are planted is provided at the center of the inside, and the body portion 100 and the planting tube 110 A space is formed between the ), and the air injection pipe 120 and the water flow pipe 130 may be formed in the space.

In an embodiment of the present invention, the main body portion 100 may be formed in a cylindrical shape and may have a perforated plate structure in which a plurality of through holes 102 are formed.

In addition, the planting tube 110 may have an open top and a bottom, or may have a through hole formed therein so that plant roots may grow even though the bottom is blocked, and a plurality of through holes 111 may be formed along the circumferential surface.

The air injection pipe 120 may be injected with air into the inside by the blower 360, may be formed of a structure that protrudes upward from the main body 100 and is bent in one direction, and may control the amount of air injection. A valve 122 may be formed.

In addition, the air injection pipe 120 may be connected to the water flow pipe 130 in communication.

The water flow pipe 130 is provided in a space formed between the body portion 100 and the planting pipe 110, and the inlet pipe 131 disposed at a predetermined position in the space, and the lower part of the inlet pipe 131 The moving pipe 132 formed in communication and formed along the circumference of the planting pipe 110, the discharge pipe 133 provided on one side of the moving pipe 132 and formed to protrude upward from the main body 100 to discharge water. It can be done.

The inlet pipe 131 may be formed in plurality along the moving pipe 132 .

A plurality of inlet holes 131a may be formed in the inlet pipe 131 along the longitudinal direction. A lower part of the discharge pipe 133 may be connected in communication with the air injection pipe 120 so that air is supplied and discharged together with water.

The inlet pipe 131 of the water flow pipe 130 may be disposed in a state inserted into the filter member 200 provided in the space between the body portion 100 and the planting pipe 110 .

Therefore, when the breeding water passes through the plant pot 10, the breeding water first flows into the main body portion 100 through the plurality of through-holes 102 formed on the circumferential surface of the main body portion 100, and the through-hole 102 Breeding water passing through can be filtered while passing through the filtering member 200. At this time, when the control valve 122 of the air injection pipe 120 is opened in an adjusted state and air is injected through the blower 360, air is injected along the inside of the air injection pipe 120 and provided to communicate Air may be supplied into the discharge pipe 133 of the water flow pipe 130 .

The air supplied into the discharge pipe 133 rises upward along the longitudinal direction of the discharge pipe 133 while forming bubbles, and then the water is guided toward the upper end of the discharge pipe 133 by the rising force (buoyancy) of the bubbles. flow can be formed.

Accordingly, the flow power of water can be improved throughout the water flow pipe 130, and the water passing through the passage hole 102 of the body portion 100 passes through the filter member 200 and then the inlet pipe 131 ) Pass through the inlet hole 131a, move along the inlet pipe 131, pass through the moving pipe 132, move to the discharge pipe 133 again, and can be discharged to the upper body portion 100. By inducing such a flow of water, the filtering function of the filtering member 200 can be further improved. The filtering member 200 may be made of a urethane-based porous sponge or fibrous material that is elastic, durable, and resistant to moisture.

Organic matter included in the breeding water is primarily physically filtered while passing through the filtering member 200, so that debris and the like can be filtered out. Simultaneously with physical filtration, biological filtration in which ammonia and nitrite are decomposed and converted into nitrate by a large amount of aerobic bacteria inhabiting the filter member 200 can be performed. The converted nitrate can be supplied as a plant nutrient,

1 and 2, the body portion 100, the water flow pipe 130, the air injection pipe 120, and the filtering member 200 may be provided as one, but are not limited thereto, and the cultivation area 310 Depending on the water depth, the length can be extended by detachably assembling a plurality of them. Through this, the amount of the filtering member 200 is increased, and as the amount of the filtering member 200 is increased, the filtering area is widened to improve the filtering performance.

In addition, the base member 104 may be assembled at the lower end of the body portion 100, and the center of the base member 104 communicates with the planting tube 110 so that the plant P passes through and the roots of the plant grow. A through hole 104a is formed, and a plurality of through holes 104b through which water passes may be formed around the through hole 104a in a circumferential direction.

4 is an overall configuration diagram of the fish farming hydroponic cultivation device of the present invention.

Figure 5 is a perspective view showing the structure of the plantation 310 of the aquaculture hydroponic cultivation device of the present invention.

Figure 6 is a front view of Figure 5;

Referring to FIGS. 4 to 6 , the present invention may provide a fish farming hydroponic cultivation device 300 provided with a plant pot 10 .

The fish farming hydroponic cultivation device 300 includes a plantation 310, a water tank 320, a water pump 330 for supplying water into the plantation 310, and a water temperature of water supplied into the plantation 310 suitable for plant and fish growth. It may be composed of a heater or cooler 340 to control, a water supply pipe 350, a blower 360 to supply air to the plant pot 10, and the like. Fish can be raised in the water tank 320 , and plants can be grown in the cultivation area 310 .

Referring to FIG. 5 , a cover member 312 in which a plurality of plant pots 10 are detachably placed may be provided above the cultivation area 310 . The cover member 312 may be made of an opaque material, and may block sunlight to prevent green algae from occurring in the water in the cultivation area 310 .

6 is a front view in which the plant pot 10 of the present invention is provided in a plurality of arrangement structures in the cultivation area 310, and the plurality of plant pots 10 can be detachably placed on the cover member 312 at intervals .

10... plant pot
100... body part 102... through hole
104 ... base member 104a ... through hole
104b ... through hole
110... planting pipe 111... through hole
120 ... air injection pipe 122 ... regulating valve
130 ... water flow pipe 131 ... inlet pipe
131a ... inlet hole 132 ... moving pipe
133... Discharge pipe 200... Filtration member
300 ... Aquaculture hydroponics apparatus 310 ... Plantation
312... cover member 320... water tank
330... water pump 340... heater or cooler
350... water supply pipe 360... blower
P... plants

Claims (7)

body part;
a filtering member inserted into the body portion;
including,
A planting tube for planting plants is provided in the main body,
The body portion is formed with a plurality of through holes along the circumferential direction,
The filtering member is inserted into the space formed between the main body and the planting pipe,
An air injection pipe for injecting air and a water flow pipe for passing water are formed at a predetermined position in the space,
The air injection pipe and the water flow pipe are connected in communication with each other so that air from the air injection pipe is supplied into the water flow pipe,
The water flow pipe,
An inlet pipe disposed at a predetermined position in the space;
A moving pipe formed in communication with the lower part of the inlet pipe and formed along the circumference of the planting pipe;
A discharge pipe provided on one side of the moving pipe and provided on the upper part of the main body so that water is discharged,
A plurality of inlet holes are formed in the inlet pipe along the longitudinal direction,
The discharge pipe is connected in communication with the air injection pipe so that air is supplied,
The inlet pipe of the water flow pipe is provided in the space between the body portion and the planting pipe and is disposed in a state inserted into the filtering member,
Growing plants planted in the planting tube at the same time as filtering water through the filtering member,
Air is supplied into the discharge pipe of the water flow pipe provided to be in communication while the air is injected along the inside of the air injection pipe,
The air supplied into the discharge pipe rises upward along the longitudinal direction of the discharge pipe while forming bubbles,
A flow in which water is guided toward the upper end of the discharge pipe is formed by the rising force of the bubbles, and the flow force of water is improved throughout the water flow pipe, thereby improving the filtering function of the filter member.
According to claim 1,
The planting tube is a plant pot in which an upper end is open to plant plants and a lower end is open or a through hole is formed so that plant roots can grow.
delete delete delete According to claim 1,
The main body and the filtering member are connected to a plurality so as to extend in the longitudinal direction of the plant pot.
fish tanks;
Plantations where plants are planted while maintaining a predetermined water level;
A circulation system for supplying the breeding water in the tank to the plantation and returning the water in the plantation to the tank,
a cover member provided on top of the plantation;
a plant pot detachably provided to the cover member;
including,
The plant pot,
body part;
a filtering member inserted into the body portion;
including,
A planting tube for planting plants is provided in the main body,
The body portion is formed with a plurality of through holes along the circumferential direction,
The filtering member is inserted into the space formed between the main body and the planting pipe,
An air injection pipe for injecting air and a water flow pipe for passing water are formed at a predetermined position in the space,
The air injection pipe and the water flow pipe are connected in communication with each other so that air from the air injection pipe is supplied into the water flow pipe,
The water flow pipe,
An inlet pipe disposed at a predetermined position in the space;
A moving pipe formed in communication with the lower part of the inlet pipe and formed along the circumference of the planting pipe;
A discharge pipe provided on one side of the moving pipe and provided on the upper part of the main body so that water is discharged,
A plurality of inlet holes are formed in the inlet pipe along the longitudinal direction,
The discharge pipe is connected in communication with the air injection pipe so that air is supplied,
The inlet pipe of the water flow pipe is provided in the space between the body portion and the planting pipe and is disposed in a state inserted into the filtering member,
Growing plants planted in the planting tube at the same time as filtering water through the filtering member,
Air is supplied into the discharge pipe of the water flow pipe provided to be in communication while the air is injected along the inside of the air injection pipe,
The air supplied into the discharge pipe rises upward along the longitudinal direction of the discharge pipe while forming bubbles,
Aquaculture hydroponic cultivation device in which a flow of water is guided toward the upper end of the discharge pipe by the rising force of the bubbles, and the flow power of water is improved throughout the water flow pipe to improve the filtration function of the filter member. .