KR100995533B1 - Flooring materials and construction mathod of flat-fish farm and aquatic plant - Google Patents

Abstract

The present invention is to create a flat farm environment of the flounder in the same environment as the ecosystem, to maximize the income by reducing the decrease in sales due to diseases and stress in the same period, and to secure competitiveness and produce added value by producing excellent varieties at the time of shipment The present invention relates to a flooring manufacturing method, a product thereof, and a water tank in which the flooring material is installed.

To this end, the present invention lays a clay layer on the inner bottom surface of the land farm tank and covers the sand layer on the top of the clay layer, and the clay layer is uniformly compacted to a thickness of 50 to 60 cm from the bottom surface of the fish farm to circulate and maintain water quality. The sand layer is uniformly covered with a thickness of 10 ~ 20cm from the clay layer to maintain the ecological habit of the flounder.

Flounder, nursery, flooring

Description

Floating materials and construction mathod of flat-fish farm and aquatic plant

The present invention relates to a method for manufacturing a flooring material of aquaculture farms and its tank and the flooring material is installed. In detail, the present invention creates the land farm environment of the flounder in the same environment as the ecosystem, to maximize the income by reducing the decrease in sales due to diseases and stress in the same period, to secure competitiveness and create added value by producing excellent varieties at the time of shipment The present invention relates to a method of manufacturing flooring materials for flounder farms, and a product thereof and a tank in which the flooring material is installed.

Flounder farming is divided into aquaculture tank and offshore cage farming. In the offshore cage farming, it is possible to secure high adaptability and stability due to the rearing of the flounder in its native ecosystem. It has the disadvantages of damage caused by natural disasters such as typhoon, red tide and disease.

On the other hand, in the case of terrestrial tank farming, it is easy to observe the color, swimming status, and food intake of the flounder, and it is suitable for the ecology of the flounder living in the benthic life, and it controls the environmental factors such as dissolved oxygen, salinity, water temperature and mining quantity. Recently, the majority of aquaculture farms have been operated on land tanks due to the advantages of easy to do and easy access to farms for farm management.

However, in the case of the land tank, due to the problem of artificially constructing the farm facilities on land, due to concerns about environmental problems and spatial limitations of the amount of seawater, it is necessary for the ecological habits of the flounder, that is, the environmental facilities other than the basic facilities. It is a reality that no separate facility has been provided, and in particular, the bottom of the farm is often troublesome to manage the farm due to the occurrence of moss.

This can be said to be the same as harvesting healthy farmed fish by preparing a haven by putting fish houses for fish in the sea, and establishing a more stable farming environment by installing jars for farming octopus.

In particular, in the case of most fish including flounder, since the impact on the stress and the degree of adaptation due to environmental factors affect not only the quality of the product but also the survival rate, the land fish farms have been concentrated on the convenience of the work. The reality is that there is a lack of consideration for the ecological environment.

In the conventional land tank farms as described above, it takes considerable time to adapt to the rearing environment because the breeding environment is different from the ecological environment. It is a problem to maximize aquaculture efficiency due to deterioration of commodity value due to prolonged shipments and differences in naturalization rate compared to natural products.

Therefore, the present invention, while maintaining the advantages of the ease of management of flounder farming in the land tank farm, and the production method of the farm flooring material for fast harvesting and expensive quality as the growth rate increases by increasing the growth rate The purpose is to provide.

In order to achieve this object, the present invention has the following features.

A clay layer is placed on the inner bottom surface of the land farm tank, and a sand layer is applied to the top of the clay layer to realize the bottom of the farm.

At this time, silica (SiO ₂ ) and alumina (Al ₂ O ₃ ) contained in the clay agglomerates and precipitates the organic suspension in water and helps the circulation to smoothly maintain the water quality of the farm. Make a clay base on the statue. In addition, sand is deposited on the clay layer as a suitable space for reducing the habit and stress of the flounder living in the benthic life.

Here, the clay layer is laminated to be uniformly chopped to a thickness of 50 ~ 60cm in the bottom surface of the culture tank in order to maintain the circulation and water quality of the water stored in the tank. In addition, the sand layer is uniformly covered with a thickness of 10 ~ 20cm from the clay layer to maintain the ecological habit of the flounder.

In addition, the present invention is installed on the floor surface prepared as described above and the drainage portion for draining the water from the inside to the outside is formed, the drainage portion is formed in the drain pipe connected to the outside from the inner bottom, The tip is positioned higher than the sand layer of the flooring material to prevent the outflow of sand and to arrange the other end of the drain pipe to the outside, to provide a water tank of the farm is configured to drain the water at a lower position than the end disposed on the inner floor.

As described above, the present invention, the composition of the clay layer and the sand layer as the flooring material to create an environment almost the same as the natural ecosystem of the flounder, so as to secure the competitiveness of the early shipment due to the increase in the growth rate and the survival rate in the same period and increase the sales You can get the effect.

In addition, the present invention is the same as the bottom color of the actual ecological environment to obtain a blackening ratio close to the natural product has the effect of creating a value-added recognition of expensive commodity value.

An embodiment to which the present invention is applied will be described in detail with reference to the accompanying drawings.

1 is a schematic view of a cultured farm produced by the manufacturing method according to the present invention, Figure 2 is a cross-sectional view of the bottom of the cultured farm produced by the manufacturing method according to the present invention, Figure 3 is an enlarged cross-sectional view of the drain of the water tank according to the present invention.

Referring to the drawings, the farm for carrying out the present invention is a tank (1) for raising the flounder, a pump (2) for supplying water to the inside of the tank (1), the inside of the tank (1) It consists of a flooring 3 embodied to provide optimal conditions for the flounder to grow.

At this time, the water tank (1) is based on the water tank installed on the land, the pump (2) is installed in the inside of the water tank to inject water supplied from the outside, the pipe by the supply of water, pipes, etc. Connected.

The flooring material (3) is composed of a clay layer (4) for maintaining the water quality suitable for breeding and a sand layer for reducing the stress and thereby increasing the growth rate by maintaining the wet flounder.

The clay layer (4) is a silica (SiO ₂ ) and alumina (Al ₂ O ₃ ) on the bottom surface of the farm to agglomerate and precipitate the organic suspension in the water and to help smooth circulation to maintain the water quality of the farm To form a dense layer of 50-60 cm thick.

In this case, when the clay layer 4 is formed to a thickness of less than 50 cm, the efficiency of flocculation and precipitation of the organic suspension in water is lowered. When the clay layer 4 is formed more than 60 cm, the efficiency of flocculation and precipitation of the organic suspension is significantly different. On the other hand, due to the nature of terrestrial aquaculture where there is a limitation in the depth of the tank, the number of aquaculture is reduced due to the excessive lamination.

In addition, the sand layer 5 is a suitable space for reducing the habit and stress of the flounder living in the benthic life, and considering the thickness of the cultured flounder, the sand layer 5 is submerged in the sand layer 5 so that it can act like an ecosystem. It consists of a layer of sand.

At this time, when the sand layer (5) is laminated less than 10cm, considering the average thickness of the flounder, the degree of lamination is difficult to maintain the same as the natural ecosystem for the flounder to grow, it is difficult to see if the stacking more than 20cm Excessive stacking height due to the depth limitation of one tank will result in a reduction in the number of farmed flounder.

The flooring material 3 as described above is installed on the bottom surface of the inside of the water tank 1 as described above, and the drainage part for draining water from the water tank 1 by installing the flooring material 3 ( 10) has the following configuration.

The drain portion 10 is formed by forming a drain pipe portion 11 communicated from the inner bottom to the outer side. At this time, the end of the drain pipe portion 11 that is located inside the water tank 1 is positioned higher than the sand layer 5 of the flooring material 3 to prevent the outflow of sand during drainage. In addition, the other end of the drain pipe portion 11, that is, the end located outside the water tank 1 is disposed lower than the end of the water pipe portion 11 installed inside the water tank 1 to smoothly drain water. Configured to proceed.

At this time, the end of the drain pipe portion 11 of the outside of the tank (1) forms a drainage groove 12 on the outer surface of the tank (1) in order to be arranged lower than the end of the drain pipe portion 11 of the inside of the tank (1) It is configured to be located inside the drainage groove 12.

Comparative Example 1

In Comparative Example 1, clay was added to a thickness of 55 cm so as to maintain the ecological habits of the flounder on the bottom surface of the tank 1 having a width of approximately 330.58 m 2 (100 pyeong), and it was uniformly compacted, and 15 cm of The sand was uniformly covered with a thickness to manufacture and install the flooring material (3) formed of the clay layer (4) and the sand layer (5), and the experiment was conducted in a more stringent environment.

The flounder was cultivated in the above-mentioned groundwater tank and aquaculture environment, and the results as shipped in Table 1 were obtained.

Comparative Example 2

In Comparative Example 2, aquaculture was carried out using an antibiotic as usual in an existing land tank without a separate floor made of concrete or the like.

The flounder was cultivated in the above-mentioned land tank and aquaculture environment, and the results as shown in Table 1 were obtained for the shipment at the time of shipment.

<Comparison Result>

Example 1
(No flooring) Example 2
(Clay + sand flooring) Remarks
Shipments Survival rate Shipments Survival rate Shipments 1st year 5,600 Kg
80% 6,300 Kg 90% -Annual stocks were converted to 100 pyeong based on different stocks. 2nd year 4,200Kg 70% 5,400Kg 90%
Environment Clay layer none 55 cm -The aquaculture environment other than the comparison is the same. Sand layer none 15 cm Antibiotic
Whether or not to use use Until shipment
not used

Referring to Table 1, when the flooring material (3) manufactured by the present invention is used, it is increased to 12.5% in the first year and 28.6% in the second year, compared with the shipments from the existing land tank (1). Was found.

In addition, despite the characteristics of flounder high susceptibility to disease, aquaculture tanks using the flooring material (3) shows almost the same survival rate every year, which proves that stable farming is performed, and keeps the shipment rate working every year. This suggests that cost can be predicted.

In particular, in the embodiment of the present invention, despite the strict experimental conditions that do not use the antibiotic at all until the shipment, it was found that the result of the higher shipping rate than the conventional aquaculture tank can be obtained, the health of the flooring It is confirmed that the flounder can be farmed, which is excellent in preventing disease.

1 is a schematic view of a farm that is installed flooring according to the present invention.

2 is a cross-sectional view of the flooring according to the present invention.

Figure 3 is an enlarged cross-sectional view of the drain of the water tank according to the present invention.

<Explanation of symbols for main parts of the drawings>

1: water tank 2: pump

3: flooring 4: clay layer

5: sand layer 10: drainage

11: drain pipe portion 12: drain groove

Claims (5)

Lay a clay layer (4) on the inner bottom surface of the flounder land farm tank (1), and a sand layer (5) on top of the clay layer (4), The clay layer (4) is a method of manufacturing the flooring material of the flounder farm, characterized in that it is uniformly chopped to a thickness of 50 ~ 60cm in the bottom surface of the fish farm (1) in order to maintain the circulation and water quality of the water stored in the tank. The method of claim 1, The sand layer (5) is a flooring manufacturing method of the flounder farm, characterized in that the laminated uniformly covered with a thickness of 10 ~ 20cm from the clay layer (4) in order to maintain the ecological habit of the flounder. A flooring product of a flounder farm prepared by the method of claim 1 or 2. The drainage part 10 for installing the flooring material 3 manufactured by the method of claim 1 or 2 on the floor and draining water from the inside to the outside is formed, The drain portion 10, A drain pipe part 11 is formed to communicate with the outside from the inner bottom, and the end of the drain pipe part 11 is positioned higher than the sand layer 5 of the flooring material 3 to prevent the outflow of sand, and the drain pipe part 11 The other end of the) is disposed in the outside, but the tank of the flounder farm configured to drain the water at a lower position than the end disposed on the inner bottom. delete

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