KR20190106237A - Multi level grow out tank system module - Google Patents

Abstract

The present invention has an effect that many fish can be cultured in a small area by a water tank module having a multi-layer structure. The water tank module is effective in preventing spread of contamination or infectious diseases since the water tank is separated into multiple layers. The water tank module comprises: a first water treatment module, a second water treatment module, and a treated water introduction pipe.

Description

Multi level grow out tank system module

The present invention relates to a tank module, and more particularly to a multi-layer tank module applicable to the intelligent smart land indoor aquaculture system of the circulating filtration method.

In general, aquaculture farms, such as land tanks or open fields, are continuously supplying and discharging fresh water. The breeding water generated in the breeding process is a nutrient from waste products emitted by feed and living organisms and the surrounding environment. Water quality deteriorates due to eutrophication caused by the inflow of nitrates or phosphates. In order to deal with this, a lot of costs are involved, and in reality, the facilities for treating wastewater are not normally equipped and are discharged to rivers and underground, causing environmental pollution.

In order to solve the above problems, 'Korean Patent Publication No. 10-07222260' includes an injector for spraying the mixed water bubbles in the breeding tank water, by floating the organic matter inside the breeding tank and supply oxygen There is disclosed a configuration of a land tank breeding system that prevents deterioration of water quality without exchanging breeding water and does not deposit wastewater on the bottom of the breeding tank.

In addition, the Republic of Korea Patent Publication No. 10-2010-0087684 relates to a building farm, a plurality of structures having a multi-layered structure, and a fish stay space formed on each floor of the structure to form fish Aquaculture tank, water supply unit for supplying water to the culture tank, excreta discharge unit for collecting and discharging the excreta or fodder of the fish farmed in the culture tank, and excreta or fodder of the fish connected to the excreta discharge unit Bundong production department to produce the soil through the earthworm breeding, circulating filtration unit installed in the culture tank to circulate and filter the water in the culture tank, and music suitable for fish farmed on each floor of the structure Supply power to the growth facilitator that generates sound waves and vibrations to promote fish growth, the water supply part and the excreta discharge part, the soil production part, the circulation filtration part, and the growth promotion part. The number of power from renewable energy able to discloses a configuration having a power supply to produce.

In addition, the Republic of Korea Patent Publication No. 10-0999299 relates to a complex farming apparatus and method that combines land fish farming and crop cultivation for fusion of land fish farming and crop cultivation. The generated solid organics are used for earthworm breeding to obtain fecal soil, and the waste aquaculture water dissolved in farmed water is used for crop cultivation. At this time, fecal soil is also used to reduce farming costs while contributing to the recycling of waste resources and environmental protection. Disclosed is a combined farming apparatus and method for fusing fish farming and crop cultivation.

However, the conventional components are used to filter the excretion or feed residues of fish or shellfish that are farmed in the aquarium, or to generate music, sound waves or vibrations suitable for the fish or shellfish to promote the growth of the fish or shellfish or in the aquaculture process. It is only about recycling the generated solid organic matters, it is Dissolved oxygen (hereinafter referred to as 'DO') which represents the water temperature, water level, dissolved oxygen of the water in the aquarium, and hydrogen exponent (hereinafter referred to as 'DO'). It is not known to improve the growth conditions of fish and shellfish.

Korean Registered Patent No. 10-1831962 (Circulation filtration system and circulation filtration method of block type prefabricated farm) Korea Patent Registration No. 10-1803993 (Circulation filtration device for preventing white spot disease in fish in tank)

Accordingly, the present invention has been proposed in consideration of the above-mentioned matters, and the present invention is to provide a multi-layered tank module that can grow many fish in a small area through a tank module having a multi-layered structure.

Multi-layered water tank module according to embodiments of the present invention is provided with a first water treatment module including a Bio-Gill, a second water treatment module including a microbial treatment tank and a plurality of layers, and treated between each layer. It includes treated water inlet piping through which water can be inflowed or outflowed.

Aquarium module having a multi-layer structure according to an embodiment of the present invention has the effect that can be farmed a large number of fish in a small area.

In addition, the multi-layered water tank module according to the present invention has the effect that the water tank is separated into multiple layers to prevent contamination or the spread of infectious diseases.

1 is a block diagram showing the configuration of a multi-layer tank module according to an embodiment of the present invention.
2 is a block diagram showing a detailed configuration of a multi-layer tank module according to an embodiment of the present invention.
3 is a configuration diagram showing a detailed configuration of a multi-layer tank module according to an embodiment of the present invention.

Before describing the embodiments according to the present invention in detail, the present invention is not limited to the configuration shown in the following detailed description or the accompanying drawings, and may be used or performed in various ways.

Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.

That is, as used herein, the expressions "mounted", "installed", "connected", "connected", "supported", "coupled", and the like, do not indicate or limit the other. It is used in a wide variety of terms, including both direct and indirect mounting, installation, connection, connection, support, and coupling. The expressions "connected", "connected" and "coupled" are not limited to physical or mechanical connections, connections or couplings.

In the present specification, terms indicating directions, such as top, bottom, downward, upward, rearward, bottom, front, rear, and the like, are used to describe the drawings, but these terms are referred to relative to the drawings for convenience (normally viewed). When). Terms indicating this direction should not be taken as limiting or limiting the present invention in any form.

In addition, the terms "first", "second", "third", and the like as used herein are for illustrative purposes only and should not be considered as meaning relative importance.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Intelligent smart land indoor aquaculture system according to a preferred embodiment of the present invention includes a water treatment module and a multi-layered water tank.

The water treatment module may include a drum filter, a bio gill, a microbial treatment tank, a stabilizer tank, and a collection tank.

Drainage part of the present invention is a drip tray, connecting plate, drainage shelf consisting of a plate-shaped frame is sequentially connected to form a structure of the upper and lower straits, when the overall frame of the drainage is in the form of a step structure surrounding the center in the form of a step In the upper surface, the center has a rectangular structure having an empty space.

The drip tray consists of a plate-shaped vertical frame and a horizontal frame. When the horizontal frame is connected to the lower part of the filter tank and generally viewed from the side cross-section, the drip frame is installed on the left and right sides of the filter tank in the form of a "b". Have

The vertical frame of the drip tray and the filter tank are installed in parallel, and the horizontal frame of the drip tray is connected therebetween to form a space where the upper part is opened and the lower part is concave to collect and drain the breeding water drained from the glass tank.

The horizontal frame of the drip tray may be formed with a through hole having a certain diameter to move the collected breeding water to the outside or the filter tank.

On the other hand, if the breeding water collected at the corners of the drip tray is not discharged and is passed for a long time, odors are generated by the nutrients contained in the breeding water. Therefore, the freely adjustable and drip frame can also be installed in a structure that can be discharged to the drain drain smoothly. As a basic embodiment of the present invention is shown by designing a structure having a gradient having a slope of 1 °-5 ° as close to the drain.

Tank according to an embodiment of the present invention may be configured in three types A ~ C.

Type A has one drain hole, and the bottom frame of the drip tray consists of a gradient with slopes in up, down, left, and right directions as the breeding water moves closer to the drain so that the breeding water can move around the filter tank. Can be.

Type B is a structure having two drains, and partitions are formed on one side of the drains centered around the filtration tank so that the inside of the drip tray can be divided into upper, lower or left and right compartments. Each compartment has a structure having an inclination in the same direction as the partition is formed, and the drainage bottom is formed in the bottom of the drip tray when the inclination starts, the breeding water can be smoothly drained by the force of gravity. Because the inclination of Type B is larger than that of Type A, it is appropriate to install it in a tank where a large number of breeding sheep are collected or drainage is to be made in a short time.

Type C has the same structure as the type A inclined frame of the bottom of the drip tray. The drainage is formed in each of the top, bottom, left and right directions of the bottom of the drip tray and has a total of four drains. When the amount of breeding water drained through the drain is less than the amount of breeding water collected, the problem of overflowing the breeding water outside the drip tray can be solved.

The connecting plate may consist of a plate-shaped vertical frame and a horizontal frame, and the horizontal frame of the connecting plate is connected to the drip tray, and the vertical frame is connected to the drainage shelf to serve as a medium for connecting the two components.

The drainage shelf is connected in a horizontal direction with the vertical frame of the connecting plate, and the upper side of the drainage shelf has a space for installing a plurality of glass tanks, and the lower side has LED lighting for supplying a light source to each tank. This can be installed.

At the corner edges of the upper surface of the drainage shelf four sides, a prevention jaw is formed at a height higher than that of the upper surface to prevent the glass tank from falling out of the drainage shelf at the boundary of the prevention jaw.

The raceway tank of the multi-layer structure has a lower depth than the existing one and maintains a well-insulated closed circulation system, which enables the constant temperature of optimal water temperature and forced heat recovery circulation of indoor air. In the first 30-kg / m³ breeding densities, 9.04g, 9.07cm large-mouth bass can be reared up to about 30g after 60 days.

According to the experimental results, it can be estimated that the 30g large-mouth bass can be reared in the semi-circulation filtration system even at the stocking density of 100-125kg / m³. The results of Experiment 2 show that the first large-mouth bass with 36.7 ± 2.9 g and 14.4 ± 0.5 cm in breeding densities in the range of 18-36 kg / m³ can grow to about 68 g after 60 days. Could. At this time, it is possible to minimize fish size variability while obtaining an optimal growth rate if the stocking density of 70 kg / m³ is not exceeded.

 The tank is made of transparent acrylic or glass material so that the fish housed in the tank installed next to each other can recognize. Therefore, it may have a learning effect between breeding fish and depending on the fish species, if the fish housed in the tank facing each other in the breeding of fish and fish are more dominant than the number of fish and fish housed together in the tank for breeding purposes It can interfere. However, it is possible to increase the effect required as a separate tank because the isolation side wall can be blocked from recognizing the facing tank.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

Claims (2)

A first water treatment module including Bio-Gill;
A second water treatment module including a microbial treatment tank; And
A multi-layered water tank module provided with a plurality of layers and provided with a treatment water inflow pipe through which treatment water may flow in or out between each layer.
According to claim 1, The multilayer structure tank module,
The multi-layered water tank module further comprises any one of DO, PH, temperature and salinity sensors capable of measuring the water treatment state of the first and second water treatment modules.

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