KR102051029B1 - Water Supply System for Fish Facility with Water Temperature Control and Virus Sterilization - Google Patents

Abstract

The present invention relates to a water supply system for fish farming facility supply, capable of controlling water temperature and sterilizing virus, which comprises: a raw water inlet pipe; a virus sterilizer; a filtering device; a water tank; a machinery chamber, and an underground container. According to the present invention, a growing environment of a fish can be optimized.

Description

Water Supply System for Fish Facility with Water Temperature Control and Virus Sterilization

The present invention relates to a water supply system for supplying raw water, which is supplied with air to increase the oxygen content, by adjusting the water temperature in the water tank after the virus sterilization and filtered raw water are introduced into the water tank. Preferably, fresh water or sea water is used as raw water, and the raw water is used to supply fish farms and fish farms to sterilize noroviruses, vibrios, and cholera bacteria. After adjusting the water temperature, supplying oxygen to the water inside the water tank to increase the oxygen content in the water to adjust the water temperature and oxygen content to help the fish grow appropriately, and collect the rainwater on the top of the water tank The temperature of the water tank through the geothermal heat pump and the underground pump using the underground container to control the water temperature In addition, it can control the temperature of raw water flowing into the sterilizer, and can control the water temperature and virus to stop the inflow of raw water and optimize the growth environment of the fish when rapid contaminants such as sea or river oil spills. The present invention relates to a water supply system for supplying fish farms capable of sterilization.

Recently, many problems are caused by pollution of the feed water supplied to the fish farming facilities such as fish farms and sashimi. Contamination of the feed water is caused by urban development and contaminates most of the water including the nearby rivers and the sea, and the contaminated water is purified and supplied to fish farming facilities such as fish farms and sashimi restaurants. Difficult to remove bacteria can cause problems in hygiene, the oxygen content of the feed water is low, it is difficult to grow fish at high temperature in summer or low temperature in winter. In particular, Korea prefers live fish sashimi, and since the unsealed water supply to polluted ports is supplied to fish farms and sashimi houses as described above, it is supplied with good water quality and adequate water temperature for hygiene problems and fish farming facilities. Creating a growing environment for fish is emerging as an important task.

 In general, sashimi restaurants selling live fish in coastal tourist spots use sea water from the sea and put them in tanks. The web is entangled like a spider web, and it greatly hurts the aesthetics of the tourist spot.In terms of facilities, the tube exposed to the outside is vulnerable to bad weather such as typhoons and tsunamis. There is a problem that time and economic costs are incurred due to construction.

In addition, barnacles, water and foreign substances are introduced at the same time in the process of inhaling the sea water using the intake pipe motor, the pipeline blockage occurs frequently. In particular, from the environmental point of view, most of the seawater intake pipes are installed near the inner port where the ships are anchored with 50m or 70m hoses. Since the wastewater mixed with the wastewater is filtered only in a short form, it is vulnerable to harmful bacteria and heavy metals such as heavy metals.

However, even though there are problems as described above, the situation still does not adequately solve water purification problems such as seawater. In addition, it is difficult to remove harmful bacteria in relation to the technology using the seawater and the seawater supply, and the suitable water temperature branch is hardly realized.

On the other hand, the prior art for adjusting the temperature of the feed water supplied to the fish farming facility, etc. Korean Patent No. 10-1055350 (corrugated heat pump system) is the well and the vertical well formed on the ground so that groundwater, surface water, seawater flows into the A heart pump for discharging the water collected in the well and a heat pump that produces cooling and heating water using the water supplied through the heart pump, and stores the cooling and heating water generated in the heat pump, and supplies the stored cooling and heating water to the load side. Characterized in that the heat storage tank to perform the heating and cooling of. On the other hand, Korean Patent No. 10-0954234 (Health nursery heat pump heating and cooling device using seawater) relates to a heat pump and heating device for fishery nursery using sea water, and is located close to the sea As a clean energy source, it is an infinite clean energy source in nearby seas such as Jeju-do and East-West south coast where it has favorable location conditions. High-performance environment that optimally meets the growing conditions of fisheries nursery with the heat pump heat source. Provides a friendly, energy-saving aquatic nursery heat pump heating and cooling system to keep the seawater temperature supplied to aquaculture nursery tanks in a year-round way artificially, reducing fish stress caused by rapid changes in water temperature and Promoting the survival and growth of fish, The present invention relates to a heat pump heating and cooling system for aquatic nurseries using seawater, which shortens the period and enables the production of superior seedlings, thereby improving incomes of fishers and strengthening the national competitiveness. And since the life of the device is limited by the use of the circulating water, there is a problem that the above technology is not effective because it is not practically used in the device suitable for coastal areas.

Therefore, it is more eco-friendly and can be effectively used to worry about salt corrosion by using sterilized and purified seawater supply and seawater temperature control and efficient and rainwater as circulating water to sashimi and fish farms in coastal regions to maximize the life of the device. A water supply system for supplying fish farms with water temperature control and virus sterilization with a filtration system and a virus sterilization system in the heat pump and water storage tank was devised.

Korea Patent Registration No. 10-1055350 (2011.08.08.) Korea Patent Registration No. 10-0954234 (2010.04.21.)

The technical problem to be achieved by the present invention is to remove harmful contaminants, including harmful bacteria from the feed water supplied to the fish farm, and to provide a feed water having an appropriate temperature and oxygen saturation to optimize the growth environment of the fish to prevent harmful bacteria and pollutants It is equipped with a virus sterilizer and a filtration device to remove, temperature control using rainwater, geothermal and heat pumps, and water supply for fish farming facilities that can inject oxygen into the supply water using an air supply pump and virus sterilization. To provide a system.

In order to solve the above problems and to achieve the object, the water supply system for supplying fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention includes a raw water inlet pipe 10, a virus sterilization apparatus 20, It consists of a filtration device 30, water tank 100, machine room 200 and underground container 300, the raw water inlet pipe 10 is to be taken in fresh water or sea water and introduced into the water tank ( 10) through the virus sterilization device 20 to sterilize the norovirus, Vibrio and cholera bacteria and the filtration device 30 to remove contaminants through the raw water is introduced into the water tank 100, and the water The tank 100 adjusts the water temperature of the introduced raw water, supplies oxygen to the fish farming facility through the outlet pipe 110, and the machine room 200 is the roof 140 of the water tank 100. Rainwater collection pipe 150 and the rainwater collection pipe fixed to the outer surface of the Rainwater is introduced into the machine room 200 through the rainwater supply pipe 158 connected to the 150 to adjust the water temperature to the heat pump 210 installed inside the machine room 200, and then the water tank 100 through the circulation pipe 160. It passes through the inside to adjust the temperature of the raw water in the water tank 100, the outside air is introduced through the air inlet pipe 222 using the air supply pump 220 provided on one side of the machine room 200 After adjusting the air temperature with the air cooling tank 224 to inject air into the water tank 100 through the air supply pipe 226, the underground container 300 is circulated through the water tank 100 The rain water subjected to the water temperature control by the pipe 160 passes through the heat dissipation pipe 310 installed inside the underground container 300 and the air-conditioning and heating device 320 using geothermal heat, and is then sent to the heat pump 210 of the machine room 200. .

The water tank 100 is provided with an outer wall 120 forming an outer surface and an inner wall 130 inward, and the circulation pipe 160 starts from the machine room 200 in a thread form in the inner wall 130. Ascending upward and descending downward in the form of a screw thread from the upper side of the inner wall body 130 to the outer side of the inner wall body 130, and connected to the underground container 300, wherein the circulation pipe 160 has an inner surface and an outer wall body of the inner wall body 130. 120) is supported by a circulation pipe support 125, which is attached to a plurality of inner surfaces.

The roof 140 of the water tank 100 is installed to open and close the lid 142 on one side, the outer ladder 170 and the inner ladder 172 is attached to the outside and inside, respectively, the lid The operator can move through the 142, one side of the inner surface of the water tank 100 is installed with a water temperature sensor 180 for measuring the water temperature, the water tank 100 to measure the amount of raw water The high water level sensor 182 and the low water level sensor 184 are attached.

The underground container 300 is a plurality of heat dissipation ring 312 is attached to the outer surface of the heat dissipation tube 310 installed therein, a predetermined heat dissipation tube 310 section passes through the air conditioning unit 320, the machine room 200 The worker moves using the manhole 330 and the ladder 332 provided on one side of the ground.

Rainwater collected from the rainwater collection pipe 150 is filtered through the rainwater filter 152 and moved to the machine room 200, but the rainwater filter 152 is a nonwoven fabric filter supported by the bag filter flange 154 ( 156 is attached and the rain water is filtered while passing through the nonwoven fabric filter 156, the check valve (158) in the rain water supply pipe 158 under the rain water filter 152 to prevent the rain water from flowing back in the machine room 200 159).

The raw water inlet pipe 10 is attached to one side before the raw water is injected into the virus sterilization device (16) is attached to the contaminant sensor 12 to determine the degree of contamination to prevent the inflow and inflow of raw water to the raw water inlet valve (14) In addition, the virus sterilization device 20 installs a distribution screen 22 at a position where raw water is introduced to filter foreign matter having large particles, distributes and supplies the raw water into the virus sterilization device 20, and a virus sterilization device ( 20) A plurality of UV lamps or UVLEDs 24 are installed therein, and ozone is introduced through an ozone injection hose 28 from an ozone generator 26 installed outside to sterilize viruses, and a virus sterilizer 20 It provides a water supply system for supplying fish farm facilities capable of controlling water temperature and virus sterilization of raw water passing through the virus sensor 16 and then measuring the virus through the filtration device 30.

As described above, the water supply system for supplying fish farm facilities capable of temperature control and virus sterilization according to the present invention has the following effects.

(1) The present invention removes harmful bacteria and contaminants contained in the feed water by the virus sterilizer and the filtration device, and supplies them to the fish farm to prevent death and contamination of the fish.

(2) The present invention is environmentally friendly using rainwater as the circulating water required for temperature control, and after adjusting the temperature of the circulating water with geothermal and heat pumps to adjust the temperature of the supply water, the air supply to the oxygen supply water Increase the content.

(3) The present invention prevents the supply of contaminated feed water by stopping the inflow of raw water when the raw water taken out using the pollutant sensor is rapidly polluted.

1 is a schematic diagram of a water supply system for supplying fish farms capable of temperature control and virus sterilization according to an embodiment of the present invention.
2 is a flow chart and a schematic diagram of the rain water (circulating water) of the water tank of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing the circulation pipe support of the water tank of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention.
Figure 4 is a schematic diagram of the underground container of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention.
Figure 5 is a schematic diagram showing the rainwater intake of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention.
Figure 6 is a schematic diagram showing the raw water intake of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention.

The name of the present invention is a "water supply system for fish farming facilities capable of controlling water temperature and virus sterilization" to describe the details so that a person skilled in the art can easily know, and a separate description that can be sufficiently inferred is omitted, if necessary Examples And drawings. In addition, terms defined in the present specification and claims are not limited to interpretation and may vary according to the intention or custom of the operator and should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention.

In one aspect of the invention,

1 is a schematic diagram of a water supply system for supplying water temperature control and virus sterilization according to an embodiment of the present invention, Figure 2 is a water temperature control and virus sterilization facility supply according to an embodiment of the present invention Flow chart and schematic diagram of the rain water (circulating water) of the water tank of the water supply system for water, Figure 3 is a circulation tube of the water tank of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention Figure 4 is a cross-sectional view showing a pedestal, Figure 4 is a schematic view of the underground container of the water supply system for fish farming facilities capable of temperature control and virus sterilization according to an embodiment of the present invention, Figure 5 is a water temperature according to an embodiment of the present invention Schematic diagram showing the rainwater intake of the water supply system for fish farming facilities capable of adjusting and sterilizing the virus, Figure 6 is a water temperature control and bar according to an embodiment of the present invention The water supply system of the present invention is described in detail below with reference to FIGS. 1 to 6 as a schematic diagram showing raw water intake of the water supply system for fish farming facility supply capable of sterilizing virus.

In the water supply system for supplying fresh or sea water to the fish farming facility,

The water supply system

Raw water inlet pipe 10, virus sterilization device 20, filtration device 30, the water tank 100, the machine room 200 and the underground container 300

The raw water inlet pipe 10 is taken from fresh water or sea water and introduced into the water tank 100 through the raw water inlet pipe 10 virus sterilization apparatus 20 for sterilizing norovirus, Vibrio and cholera bacteria and After passing the filtration device 30 to remove contaminants, the raw water is introduced into the water tank 100,

The water tank 100 controls the water temperature of the introduced raw water, and supplies the oxygen to the fish farming facility through the outlet pipe 110 after supplying oxygen,

The machine room 200 is rainwater to the machine room 200 through the rainwater collection pipe 150 and the rainwater supply pipe 158 connected to the rainwater collection pipe 150 fixedly installed on the outer surface of the roof 140 of the water tank 100. By adjusting the water temperature to the heat pump 210 installed in the machine room 200 by passing through the water tank 100 through the circulation pipe 160 to adjust the temperature of the raw water in the water tank 100 Using the air supply pump 220 provided on one side of the machine room 200, the outside air is introduced through the air inlet pipe 222 to control the air temperature with the air cooling tank 224, and then the air supply pipe 226. Inject air into the water tank 100 through) to increase the amount of dissolved oxygen,

The underground container 300 is a cooling and heating device 320 using the heat dissipation pipe 310 and the geothermal heat installed in the underground container 300 to the rain water is adjusted to the circulation pipe 160 passed through the water tank 100 inside the underground container 300 ) Is passed to the heat pump 210 of the machine room 200 again.

Fresh water or seawater is used as raw water to feed fisheries or restaurants using fish as raw materials. The raw water is taken into the raw water inlet pipe 10 and introduced into the water tank 100, and the raw water using the air supply pump 220. To increase the oxygen content in the rainwater to collect the rainwater collection pipe 150 is used as a circulating water.

On the other hand, the circulating water passing through the underground container 300 may be adjusted in the water tank 100 by adjusting the temperature of the raw water flowing through the inside of the underground container 300.

The water tank 100 is provided with an outer wall 120 forming an outer surface and an inner wall 130 therein, and the circulation pipe 160 starts from the machine room 200 in a thread form in the inner wall 130. Ascends upward and descends downwardly from the upper portion of the inner wall body 130 to the outer wall of the inner wall body 130, and is connected to an underground container. The circulation pipe 160 has an inner surface of the inner wall body 130 and an inner wall body 120. It is supported by a circulation pipe support 125 which is attached to a plurality of surfaces.

The raw water flowing into the water tank 100 through the raw water inflow pipe 10 flows between the outer wall 120 and the inner wall 130 to overflow the inner wall 130 to control the temperature of the raw water and to contain oxygen. Have or have a through-hole installed on one side of the inner wall body 130 has a flow of raw water between the outer wall and the inner wall. On the other hand, when there is no through-hole, the outlet pipe 110 penetrates into the inner wall and is discharged to the outside of the water tank 100.

On the other hand, the circulation pipe 160 is a pipe that sends the rain water (circulating water) passing through the heat pump 210 to the tube and the underground container 300 inside the water tank and the pipe to the machine room 200 from the underground container 300 Collectively.

The roof of the water tank 100 is installed to open and close the lid 142 on one side, the outer ladder 170 and the inner ladder 172 is attached to the outside and inside, respectively, the lid 142 The operator can be moved through the water tank, one side of the inner surface of the water tank 100 is installed with a water temperature sensor 180 for measuring the water temperature, the high water level sensor for measuring the amount of raw water inside the water tank (100) 182 and the low water level sensor 184 are installed.

The underground container 300 is a plurality of heat dissipation ring 312 is attached to the outer surface of the heat dissipation tube 160 installed therein, a predetermined heat dissipation tube 310 section passes through the air conditioning unit 320, the machine room 200 The worker moves using the manhole 330 and the ladder 332 provided on one side of the ground.

The underground container 300 may further increase the temperature by circulating the outer circumferential surface of the heat dissipation ring 312 and the air conditioning unit 320 by further adding a geothermal device to the underground container 300 underground.
Rainwater collected from the rainwater collection pipe 150 is filtered through the rainwater filter 152 and moved to the machine room 200, but the rainwater filter 152 is a nonwoven fabric filter supported by the bag filter flange 154 ( 156 is attached and the rain water is filtered while passing through the nonwoven fabric filter 156, the check valve (158) in the rain water supply pipe 158 under the rain water filter 152 to prevent the rain water from flowing back in the machine room 200 159).

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The raw water inlet pipe 10 is attached to the contaminant sensor 12 on one side before the raw water is injected into the virus sterilization device 20 to determine the degree of contamination to prevent the inflow and inflow of raw water to the raw water inlet valve 14 In addition, the virus sterilization apparatus 20 installs a distribution screen 22 at a position where raw water is introduced to filter foreign matter having large particles, distributes and supplies the raw water into the virus sterilization apparatus 20, and a virus sterilization apparatus ( 20) A plurality of UV lamps or UVLEDs 24 are installed therein, and ozone is introduced through an ozone injection hose 28 from an ozone generator 26 installed outside to sterilize viruses, and a virus sterilizer 20 Raw water passing through the virus is measured by the virus sensor 16 and then introduced into the filtration device (30).

The contaminant sensor 12 prevents the inflow of contaminated water by closing the raw water inlet valve 14 when oil leakage or rapid deterioration of water by a vessel occurs in the sea shore or river, and the virus sterilization device 20 By removing harmful bacteria such as norovirus, Vibrio bacteria and cholera bacteria, water is evenly introduced into the virus sterilizer 20 through the distribution screen 22 to remove the bacteria by contacting the raw water to the UV lamp or UVLED 24. .

On the other hand, the present invention is further provided with an automatic control device, the raw water inflow, raw water inflow prevention, heat pump, rain water (circulating water) purified air supply and cooling and heating device operation and the raw water discharge from the water tank can be automatically operated, remote Adjustment and manual operation are also possible. In addition, the material constituting the present invention can be made using a variety of materials, such as stainless steel, steel, concrete, wood, PE, PVC, FRP, epoxy coating.

As described above, the water supply system for fish farming facilities capable of controlling water temperature and virus sterilization according to the present invention removes harmful bacteria and contaminants contained in the feed water by virus sterilization and filtering devices and supplies them to fish farming facilities. Prevents death and pollution, and is eco-friendly by using rainwater as the circulating water necessary for temperature control, and after adjusting the temperature of the circulating water with a geothermal and heat pump, it controls the temperature of the supply water and supplies air by supplying air To increase the oxygen content in the water, and stop the inflow of raw water to prevent the supply of contaminated water if the raw water taken by using the pollutant sensor is suddenly contaminated.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technology to which the present invention belongs is within the equivalent scope of the technical spirit of the invention and the claims to be described below. Various modifications and variations are possible, of course.

10: raw water inlet pipe 158: rainwater supply pipe
12: pollutant sensor 159: check valve
14: raw water inlet valve 160: circulation pipe
16: virus sensor 170: external ladder
20: virus sterilizer 172: internal ladder
22: distribution screen 180: water temperature sensor
24: UV lamp or UVLED 182: high level sensor
26: ozone generator 184: low water level sensor
28: ozone injection hose 200: machine room
30: filtration device 210: heat pump
100: water tank 220: air supply pump
110: outlet pipe 222: air inlet pipe
120: outer wall body 224: air cooling tank
125: circulation pipe support 226: air supply pipe
130: inner wall 300: underground container
140: roof 310: heat pipe
142: lid 312: heat dissipation ring
150: rainwater collection pipe 320: air conditioning unit
152: rainwater filter 330: manhole
154: bag filter flange 332: ladder
156 nonwoven fabric filter

Claims (6)

In the water supply system for supplying fresh or sea water to the fish farming facility,
The water supply system
It consists of raw water inlet pipe, virus sterilizer, filtration device, water tank, machine room and underground container.
The raw water inlet pipe is taken from fresh water or seawater and introduced into a water tank, and then the water is passed through a virus sterilizer for sterilizing norovirus, vibrio and cholera bacteria, and a filtration device to remove contaminants. Inflowing raw water into the tank,
The water tank regulates the water temperature of the introduced raw water, supplies oxygen to the fish farming facility through the outlet pipe after supplying oxygen,
The machine room flows rainwater into the machine room through the rainwater collection pipe fixed to the outer surface of the roof of the water tank and the rainwater supply pipe connected to the rainwater collection pipe to adjust the water temperature with a heat pump installed inside the machine room, and then through the water tank through the circulation pipe The temperature of the raw water in the water tank is passed through the inside, and the outside air is introduced through the air inlet pipe by using the air supply pump provided on one side of the machine room. Through the water tank,
The underground container is the water temperature control, characterized in that the rain water through the water temperature control to the circulation pipe passed through the water tank through the heat dissipation tube installed in the underground container and the air-conditioning unit using geothermal heat, and send to the heat pump of the machine room again. Water supply system for fish farming facilities capable of germs and viruses. According to claim 1,
The water tank is provided with an outer wall and an inner wall forming an outer surface, and the circulation pipe starts from the machine room and rises upward in the form of a thread in the inner wall, and descends downward in the form of a thread from the upper part of the inner wall to the outer side of the inner wall. Connected to an underground container, the circulation pipe is a water supply system for supplying water temperature control and virus sterilization, characterized in that supported by a plurality of circulation pipe support is installed on the inner wall and the outer wall inner surface. According to claim 1,
The roof of the water tank is installed to open and close the lid on one side, the external ladder and the internal ladder is attached to the outside and inside, respectively, the operator can move through the lid, the inner surface of the water tank Water supply system for water temperature control and virus sterilization, which is equipped with a water temperature sensor for measuring the water temperature on one side, and a high water level sensor and a low water level sensor for measuring the amount of raw water are installed inside the water tank. . According to claim 1,
The underground container is provided with a plurality of heat dissipation rings are attached to the outer surface of the heat dissipation tube installed therein, a predetermined heat dissipation tube section passes through the air-conditioning device, the worker moves by using a manhole and a ladder provided on one side of the machine room ground. Water supply system for fish farming facility with water temperature control and virus sterilization. According to claim 1,
Rainwater collected from the rainwater collection pipe is filtered through the rainwater filter and moved to the machine room, but the rainwater filter is attached to the nonwoven fabric filter supported by the bag filter flange, and the rainwater is filtered while passing through the nonwoven fabric filter. Water supply system for fish farming facility supplying water temperature control and virus sterilization, characterized in that the check valve is installed in the rainwater supply pipe below the rainwater filter to prevent the backflow. According to claim 1,
The raw water inlet pipe is attached to one side before the raw water is injected into the virus sterilization device is attached to the contaminant sensor to determine the degree of contamination to prevent the inflow and inflow of raw water to the raw water inlet valve, the virus sterilization device is the location where the raw water inflow Distributing large particles by distributing large screens, distributing raw water to virus sterilizers, plural UV lamps or UVLEDs are installed inside virus sterilizers, and ozone injection hoses installed outside. Water supply for fish farming facilities capable of controlling water temperature and virus sterilization, characterized in that by introducing ozone to sterilize the virus, the raw water passing through the virus sterilization device is measured by the virus sensor and then introduced into the filtration device. system.

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