KR101330560B1 - Fish farms's water supply system - Google Patents

Abstract

The present invention relates to a water supply system of aquaculture farms capable of draining seawater into a tank of aquaculture farms for farming fish on land, and draining seawater in the aquaculture farms outside of the farms. Cause A bi-directional pump can be installed in the connection line between the sea and the fish farm to facilitate water supply and drainage, as well as to measure the pollution level of wastewater discharged from the reservoir between the bi-directional pump and the fish farm. The present invention relates to a water supply system of aquaculture farms in which a pollution measuring sensor is installed and used for backwashing of filters and strainers or discharged to a drain according to the pollution degree.
According to the present invention, one side of the first connection line divided into bifurcated on one side is connected to the water supply line, the other side is connected to the drain line, the bi-directional pump connected to the water tank through the second connection line installed on the other side; A strainer installed at the tip of the water supply line to filter foreign substances contained in the seawater upon inhalation of the seawater; A filtration filter installed at one side of the strainer and filtering the seawater sucked through the strainer; A water supply valve installed at the other side of the filtration filter and operated by a water supply valve sensor to control the opening and closing of the water supply line; It is installed in the drainage line is operated by the drain valve sensor to control the opening and closing of the water supply line; consisting of, wherein the water supply valve sensor and the drain valve sensor is operated by the command of the controller connected as a cable of the farm A water supply system is provided.

Description

Fish farms's water supply system

The present invention relates to a water supply system of aquaculture farms capable of supplying seawater into a tank of aquaculture farms for farming fish on land, and draining sewage and wastewater in the aquaculture farms outside of the farms. In addition to the two-way pump installed in the connection line between the sea and the fish farm as a source of supply, it is possible to smoothly supply and drain water, as well as to measure the contamination level of the wastewater drained from the reservoir between the two-way pump and the reservoir. The present invention relates to a water supply system of aquaculture farms, which can be equipped with a pollution level sensor, which can be used for backwashing of filters and strainers or discharged to a drain depending on the pollution level.

Recently, aquaculture farms are being widely used to attract fish by bringing seawater in accordance with the expansion and development of aquaculture technology to secure fishery resources.

Such a farm is a space for artificially farming live fish while supplying feed after storing seawater or fresh water in a closed aquaculture tank, and extending it into the sea to farm live fish using sea water, that is, sea water. The water inlet pipe is installed and a pump is installed in the water inlet pipe so that the seawater introduced in the process of inhaling seawater is filtered through a filtration device such as a filter to filter out foreign substances, and then it is supplied to an aquaculture tank for live fish. Will form.

However, the conventional aquaculture farm water supply system as described above is provided with a suction pump and a drain pump separately, and a plurality of suction lines and drain lines are separately installed in each pump, including a spare, and a drain is additionally provided separately from the drain line. The installation process and the installation system had a complicated problem, the number of lines to be installed has a problem that the overall cost of equipment and installation time increases, and the complexity of the facility and system is easy for users to use efficiently There were various problems such as difficult.

The present invention has been invented to solve the above problems, by installing a two-way pump that can perform the function of the suction pump and drain pump at the same time intake pipe and connection line extending into the sea as a source of a separate drain The purpose is to provide a water supply system for farms that can be operated easily and efficiently by suppressing the use of unnecessary lines.

In addition, between the two-way pump and aquaculture tank storage tank is installed a pollution degree measuring sensor that can measure the pollution of the wastewater drained from the water tank and can be used for backwashing the filter and strainer installed in the intake pipe according to the pollution degree Another purpose is to provide a farming water supply system that can facilitate backwashing without the need for additional washing lines, and that wastewater with high levels of contaminants can be drained through drain lines.

The present invention for achieving the above object is connected to the water tank through one side of the first connection line divided into bifurcated on one side is connected to the water supply line, the other side is connected to the drain line, the second connection line is installed on the other side A bidirectional pump; A strainer installed at the tip of the water supply line to filter foreign substances contained in the seawater upon inhalation of the seawater; A filtration filter installed at one side of the strainer and filtering the seawater sucked through the strainer; A water supply valve installed at the other side of the filtration filter and operated by a water supply valve sensor to control the opening and closing of the water supply line; It is installed in the drainage line is operated by the drain valve sensor to control the opening and closing of the water supply line; consisting of, wherein the water supply valve sensor and the drain valve sensor is operated by the command of the controller connected as a cable of the farm Provide a water supply system.

The water supply system of aquaculture farms of the present invention by installing a bi-directional pump that can perform the function of suction and drainage at the same time to the water supply line and the connection line of the reservoir is installed in the sea of the seabed as a supply source to suppress the use of unnecessary lines There is an effect that can be easily and efficiently operated, and the installation cost can be reduced by eliminating the unnecessary line installation, it is possible to reduce the installation period.

In addition, between the two-way pump and the reservoir is installed a pollution degree measuring sensor that can measure the pollution of the wastewater discharged from the reservoir, and according to the measurement value of the sewage and wastewater in the reservoir and a separate backwash facility There are several effects, including the ability to backwash individual lines, including filtration filters and strainers, without the need to backwash.

1 is an illustration of a water supply system of aquaculture farms of the present invention.
2 is a cross-sectional view of the bidirectional pump of the present invention.

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

1 is an exemplary view of a water supply system of aquaculture farm of the present invention, Figure 2 is a cross-sectional view of the bidirectional pump of the present invention.

The present invention not only can smoothly supply and drain water through the sea as a source using a single pump and a simplified line, but also utilize it for backwashing or draining by measuring the pollution degree when the wastewater is discharged. It relates to aquaculture plant water supply system 100 that can be discharged.

As described above, the farm water supply system 100 of the present invention is connected to the water supply line 2 through one side of the first connection line 1 divided into two forks as shown in FIG. 1, and drained through the other side. A bidirectional pump 6 connected to the line 3 and connected to the water storage tank 5 of the farm through the second connecting line 4 on the other side to suck and discharge sea water and fresh water; A strainer (7) installed at the tip of the water supply line (2) to filter out foreign substances contained in suction of sea water and fresh water; A filtration filter (8) installed at one side of the strainer (7) to filter seawater and fresh water sucked through the strainer (7); A water supply valve 10 installed at the other side of the filtration filter 8 and operated by a water supply valve sensor 9 to control the opening and closing of the water supply line 2; It is installed in the drain line (3) is operated by the drain valve sensor 11, the drain valve 12 to control the opening and closing of the water supply line (2); consists of.

At this time, the strainer (7) is attached to the tip of the water supply line (2) installed on the seabed in order to supply seawater, etc. to the water reservoir (5) of the farm, seawater and various shellfish in the sea inside the water supply line (2) during water supply It serves as a primary filtration to prevent foreign substances such as shells and the like along with sea water, and the filtration filter 8 serves as a secondary filtration to filter out fine foreign substances contained in seawater and fresh water introduced through the strainer 7. Do it.

The water supply valve sensor 9 and the drain valve sensor 11 are operated by a command of the controller 14 connected as a cable 13, where the water supply valve 10 is operated by the water supply valve sensor 9. When the water supply line 2 is opened, the drain valve 12 of the drain line 3 installed on the opposite side is closed, and on the contrary, the drain valve 12 is operated by the drain valve sensor 11 so that the drain line 3 is closed. When open, the water supply valve 10 of the water supply line 2 installed on the opposite side is closed.

That is, the water supply line (2) and the drainage line (3) maximizes the effects of water supply and drainage, and at the same time, when the waste water is discharged, the filtration filter (8) that can be generated by the inflow of waste water into the water supply line (2) In order to prevent the breakage of the strainer 7, including in advance, it is preferable that the water supply line 2 and the drain line 3 are formed in a structure that does not open and close at the same time.

Here, to briefly describe the structure of the bidirectional pump 6, an inlet is formed at one side as shown in FIG. 2, and an outlet (an inlet and an outlet is changed depending on the rotational direction of the impeller) of the other side. The housing 15 is formed, and the impeller 16 is installed in the inner center of the housing 15 is rotated in both directions, the rotation radius of the impeller 16 by the rotation of the impeller 16 naturally sea water and The vortex chamber 17 into which fresh water flows is formed.

In addition, the impeller 16 is formed of a material such as neoprene or nitrile or natural rubber, so that special treatment is performed so that foreign matter does not adhere to the surface, thereby increasing durability and wearability, and improving performance of the bidirectional pump 6. At the same time, it is structured to extend the service life.

In addition, as shown in FIG. 1, the second connection line 4 connecting the bidirectional pump 6 and the reservoir 5 is connected as a controller 14 and a cable 13 to be discharged through the reservoir 5. If the pollution degree is low according to the pollution degree of the wastewater discharged by installing the pollution degree measuring sensor 18 which can measure the pollution degree of the wastewater, it is discharged to the water supply line 2 and includes the filtration filter 8. It is also used for backwashing the strainer (7), and if the degree of contamination is severe is configured to be discharged to a separate drain installed in the outside through the drain line (3).

Referring to the operation and operation of the water supply system 100 of the farm according to the present invention having such a structure and configuration in detail, first, by operating the two-way pump (6) as shown in FIG. The suction direction should be such that the rotation direction of the direction is counterclockwise.

In this case, the controller 14 transmits an operation command to the drain valve sensor 11 to operate the drain valve 12 to transmit a command to the water supply valve sensor 9 in a state in which the drain line 3 is closed, thereby supplying a water supply valve ( The operation of opening the water supply line 2 by operating 10) must be preceded.

When the two-way pump 6 is operated in the state in which the water supply line 2 is opened as described above, a large amount of sea water flows through the water supply line 2 installed on the sea floor by the rotational force of the impeller 16. As the strainer 7 is installed at the tip of 2), foreign matters such as seaweed and various shells of the sea in the water supply process can be prevented from flowing in with the seawater.

As described above, the first filtered sea water passing through the strainer 7 enters the filtration filter 8 through the water supply line 2, and the introduced sea water and fresh water are fine foreign substances by the filtration action of the filtration filter 8. Is filtered through a second filtration process.

As described above, the seawater having undergone both the first and second filtration processes passes through the water supply valve 10 and rides through the first connection line 1 to form an inlet formed at one side of the bidirectional pump 6 as shown in FIG. 2. When the inflow into the water storage tank (5) of the aquaculture farm is introduced into the housing (15) through the second connection line (4) connected to the outlet formed on the other side through the vortex chamber (17) where the impeller (16) is rotated. The watering process in 5) is completed.

On the contrary, in the case of draining, the process may be performed in the opposite process to the series of water supply as described above. That is, as shown in FIG. 1, the impeller 16 is rotated as opposed to the water supply by operating the bidirectional pump 6. The direction becomes clockwise so that the sewage and wastewater fresh in the reservoir 5 can be sucked into the vortex chamber 17 of the bidirectional pump 6.

In this process, sewage and wastewater introduced into the bidirectional pump 6 by the second connection line 4 pass through the pollution degree measuring sensor 18 installed between the bidirectional pump 6 and the reservoir 5. At this time, the pollution degree is measured by the pollution degree sensor 18, and the measured value is transmitted to the controller 14 connected as the pollution degree sensor 18 and the cable (13).

Then, the controller 14 receiving the measured values of the sewage and the wastewater transmits a closing command to the water supply valve sensor 9 when the pollution degree is higher than the reference value according to a predetermined reference value, and at the same time, an open command to the drain valve sensor 11. Will be delivered.

Therefore, the water supply valve sensor 9 issued with the closing command operates the water supply valve 10 to close the water supply line 2, and the drain valve sensor 11 issued with the open command operates the drain valve 12 to drain the water. It will open the line (3).

Accordingly, the sewage and the wastewater introduced into the bidirectional pump 6 are discharged to a separate drain installed outside through the drain valve 12 through the drain valve 12 through the first connection line 1. .

On the contrary, when the pollution degree measurement value of the sewage and wastewater is less than or equal to the reference value of the controller 14, the controller 14 transmits a closing command to the drain valve sensor 11, and at the same time, an open command is transmitted to the water supply valve sensor 9. Done.

Then, the drain valve sensor 11 issued with the closing command operates the drain valve 12 to close the drain line 3, and the water supply valve sensor 9 issued with the open command operates the water supply valve 10 to supply water. It will open the line (2).

Accordingly, sewage and wastewater introduced into the bidirectional pump 6 pass through the water supply valve 10 through the first connection line 1 and enter the filtration filter 8 through the drain line 3 to be filtered. (8) is backwashed, and is also introduced into the strainer (7) via the filtration filter (8) to backwash the strainer (7).

Therefore, additional benefits of simultaneously backwashing each line including the filtration filter 8 and the strainer 7 can be obtained simultaneously with the discharge of the sewage and wastewater depleted in the reservoir 5.

As described above, the water supply system 100 of the farm according to the present invention is a bidirectional pump capable of simultaneously performing suction and drainage functions at a connection line between the water supply line 2 and the water storage tank 5 extending into the sea of the seabed as a supply source ( 6) By installing unnecessary lines, users can easily and efficiently operate by suppressing unnecessary lines, and installation costs can be reduced and unnecessary installation periods can be reduced by eliminating unnecessary lines. There is.

In addition, between the two-way pump (6) and the reservoir (5) is installed pollution degree measuring sensor (18) which can measure the pollution degree of the waste water discharged from the reservoir (5) in the reservoir (5) according to the measured value With the discharge of fresh water and wastewater, there are various effects such as backwashing each line including the filtration filter 8 and the strainer 7 without a separate backwashing facility.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be clear to those who have knowledge.

1: first connection line 2: water supply line
3: drainage line 4: second connection line
5: reservoir 6: bidirectional pump
7 strainer 8 filter filter
9: water supply valve sensor 10: water supply valve
11: drain valve sensor 12: drain valve
13: cable 14: controller
15 housing 16 impeller
17: Vortex chamber 18: Pollution degree measuring sensor
100: farm water supply system

Claims (2)

One side of the first connection line (1) divided into bifurcated on one side is connected to the water supply line (2), the other side is connected to the drain line (3), the water tank through the second connection line (4) installed on the other side A bidirectional pump 6 connected with 5; A strainer (7) installed at the tip of the water supply line (2) to filter foreign substances contained in the seawater upon inhalation of the seawater; A filtration filter 8 installed at one side of the strainer 7 to filter the seawater sucked through the strainer 7; A water supply valve 10 installed at the other side of the filtration filter 8 and operated by the water supply valve sensor 9 to control the opening and closing of the water supply line 2; It is installed in the drain line (3) is operated by the drain valve sensor 11, the drain valve 12 to control the opening and closing of the water supply line (2); consisting of, the water supply valve sensor 9 and the drain valve sensor ( 11) aquaculture farm water supply system, characterized in that it is operated by the command of a controller 14 connected as a cable 13.
According to claim 1, The second connection line (4) connecting the two-way pump (6) and the reservoir (5) is connected to the controller 14 and the cable 13, the degree of pollution of the wastewater discharged through the reservoir (5) Water supply system of aquaculture farms, characterized in that the pollution measuring sensor 18 is installed to measure the.

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