KR200303777Y1 - A clean water and sterilization device of the seawater - Google Patents

Abstract

The present invention allows the fine air bubbles to slowly rise while the seawater in the tank passes through a special structure, while remaining as large as possible in the structure. It was made to be possible.

The present invention is introduced through the inlet (1) seawater is mixed with air by the venturi (3) is injected into the inner cylindrical cup (9) through the injection pipe (6) while finely crushed fine bubbles rise upwards Ozone ultraviolet lamp in the state in which the contaminants in the sea water are released to the outside through the air outlet 17, and only the purified water flows into the sterilization water purification chamber 14 through the bubble isolation porous plate 12. It is sterilized by (15) to be discharged through the discharge port 16 and then introduced to the water tank again, the injection pipe (6) to delay the time that the seawater mixed with the fine bubbles from the cylindrical cup (9) rises upwards ) The rising stop plate 18 is installed on the top to discharge the pollutants in the water as efficiently as possible.

Description

Clean water and sterilization device of the seawater

The present invention relates to a water purification and sterilization apparatus of seawater, and in particular, after mixing with the air supplied through the venturi while inflowing the seawater in the tank, the fine air bubbles stay in the aeration chamber to the maximum to effectively discharge the residue in the seawater to the outside. The purified water along with the discharge box is allowed to flow back into the tank.

In general, saltwater fish release a large amount of secretions that increase water pollution and bacterial growth.

Therefore, in the sashimi, etc., the filtration tank is installed at the bottom or the side of the tank to purify the seawater, but the pollutant can be discharged only during regular cleaning, and it has been a cumbersome drawback.

Ozone is a light blue gas obtained by discharging in dry gaseous oxygen as an isotope of oxygen. Ozone is also generated when ultraviolet rays, X-rays, and cathode rays collide with the air, and mainly have strong sterilization, deodorization, and bleaching effects. It is greatly contributing to environmental cleanup.

Ultraviolet rays have the property of destroying the nucleic acids of microorganisms, so they are widely used to sterilize microorganisms in the air or in water.

Referring to the conventional ozone generator for generating the ozone, the submerged ozone generator of the Korean Utility Model Publication No. 94-4467 forms an insulating protrusion between the opposite electrode wires wound in an insulator alternately and doublely wound electrode wire by a crimping wire Is a device that generates ozone by contacting the opposing electrode lines with the auxiliary electrode by inserting a groove on the upper and lower surfaces of the insulator.

However, such a conventional ozone generator has a problem in that its configuration is complicated, resulting in difficulty in manufacturing process and increase in manufacturing cost.

In addition, the conventional ozone generator for the aquarium of the Republic of Korea Utility Model Publication No. 90-16403 was used for sterilization or water purification by connecting the ozone generator to a conventional oxygen generator used in the aquarium or fish farm.

However, such a conventional ozone generator also has a problem such that the structure is complicated and the manufacturing cost is increased because it is used by connecting the ozone generator to a general oxygen generator.

In addition, the conventional ozone generator for ornamental fish of the Republic of Korea Utility Model Publication No. 88-3872 is to operate the ozone generator that generates a high pressure by using a semiconductor to operate with an electric bubble generator, but harmful nitrogen oxides in proportion to the ozone generation amount There is a problem to generate at the same time.

In addition, each of the prior art has a problem in that the configuration is complicated because it was a method of generating ozone from the outside to supply to the tank, and because it is a method of sterilizing only depending on ozone has a problem that does not have sufficient sterilization effect in the tank.

The present invention is to solve such a conventional problem, the object of the present invention is to remove the harmful pollutants contained in the seawater in the tank with fine air bubbles to reduce the number of cleaning, ozone and ultraviolet sterilization treatment The purpose of the present invention is to provide fresh water and sterilization equipment to reduce the cost and shorten the manufacturing process by manufacturing the seawater water purification device as an integrated type, so that the fish can be kept fresh. .

1 is a schematic overall configuration of the present invention

<Code Description of Main Parts of Drawing>

1: Inlet 2: Union

3: Venturi 4: Air control valve

5: foam container 6: spray pipe

7: Pollutant outlet 8: Transparent tube

9: cylindrical cup 10: body

11: hole 12: perforated plate

13: Block 14: Sterilization water chamber

15: ozone ultraviolet lamp 16: discharge outlet

17: outlet 18: rise stop plate

19: Aeration room 20: Fire fighting equipment

21: lid

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

1 is an overall schematic configuration of the present invention, the inlet (1) installed above the main body 10 so that the seawater from the water tank and the union (2) connected to the inlet (1) for detachment from the pipe And, it is connected with the union (2), venturi (3) for mixing the air flowing through the air control valve (4) and the seawater and the venturi (3) is connected to the lower side and the seawater Foam collector (5) to pass through and discharge the residue through the outlet 17, and the longitudinally installed through the L-shaped elbow (6A) below the foam collector (5) A raised stop plate 18 installed above the pipe 6 and the injection pipe 6 to maintain the residence time of the seawater mixed with the bubbles in the aeration chamber 19 so that the bubbles can discharge the pollutants as much as possible. ) And a contaminant coupled to the top of the bubble collector (5). The transparent tube 8 allows the naked eye to observe the discharge state of the outlet 7 and the contaminants, and moves downward through the injection tube 6 to be installed below the injection tube 6. Cylindrical cup (9) which serves to make a role, and is installed in the lower surface of the winch cup 9 and a plurality of holes (11) are formed so that the bubble separation porous plate (12) to pass the filtered and purified water only; Is formed on one side of the porous plate 12 in a lengthwise direction to pass through the purified water to the lower portion of the membrane 13 and, through the lower portion of the barrier membrane 13 flows into the sterilization water purification chamber 14 It is composed of an ozone ultraviolet lamp 15 for sterilizing water and a discharge port 16 for discharging the water sterilized through the ozone ultraviolet lamp 15 to an external water tank again.

In the figure, reference numeral 1A is an inlet control valve, 20 is a cleaning tool, 21 is a lid.

However, although not shown, the water level observation window is installed on the discharge port 16 side to adjust the water level by adjusting the valve, and the injection state observation window is installed in the central part of the main body 10 to check whether the device is normally operated. It is possible to easily check the discharge state of the filtered contaminants by attaching a transparent acrylic tube to the discharge port 17 side, the position of the inlet 1 and the discharge port 16 can be changed.

The operation of the present invention configured as described above will be described.

First, the seawater in the tank is introduced through the inlet 1 installed at the upper end of the main body 10 by a motor installed in the outer tank, and the inflow can be adjusted through the inlet control valve 1A.

At this time, the inlet (1) has a venturi (3) is coupled through the union (2), the upper end of the venturi (3) is provided with an air control valve (4) to the outside of the lid 21 is an air control valve The amount of air flowing into the venturi 3 can be adjusted by means of adjusting (4).

Therefore, the sea water flowing through the union (2) is introduced into the bubble collecting container (5), and then flows downward through the injection pipe (6) connected to the bubble collecting container (5) below the lower injection pipe (6) While hitting the cylindrical cup (9) installed in the water drops will rise upwards.

That is, the seawater comes down through the injection pipe (6) and once again moves to the upper portion of the aeration chamber (19) by the cylindrical cup (9) installed below the injection pipe (6) at this time the debris mixed in the seawater The water is moved upward by the water droplets, and then stays for a while by the rising stop plate 18.

Therefore, the rising time of the contaminants in the seawater is maintained by the rising plate 18 to maintain the residence time of the seawater mixed with the bubbles in the aeration chamber 19, while the bubbles are removed as much as possible The bubble isolating is moved toward the discharge port 16 through a plurality of holes 11 formed in the porous plate 12.

At this time, it is possible to control the amount of this discharge residue by the air control valve (4) connected to the venturi (3), when the amount of foam discharge is excessive, the air control valve (4) is closed to reduce the amount of air injection while foaming If the emissions are low, loosen the air control valve (4) to increase the air injection.

In addition, a transparent tube 8 made of a transparent acrylic tube is installed on the discharge port 17 side from which the waste is discharged, so that the user can check the discharge of the residue visually. I can regulate it.

On the other hand, the ozone ultraviolet lamp installed in the sterilization water purification chamber 14 when the water from which the contaminants have been removed as much as possible reaches the sterilization water purification chamber 14 inside the blocking membrane 13 through the hole 11 of the bubble isolation porous plate 12. Sterilized by ozone generated from (15).

Therefore, the purified and sterilized water is discharged back to the water tank through the discharge port 16 so that the clean water and sterilized seawater can be maintained in the water tank.

Meanwhile, the present invention can easily disassemble the bubble collecting container 5 by turning the union 2 coupled to the inlet 1 of the main body 10, so that the bubble collecting container 5, the aeration chamber 19, and the like are easy. It can be cleaned, and the cleaning plate 20 can be opened to clean the porous plate 12.

As described above, the present invention installs a bubble container, a cylindrical cup, a bubble isolation porous plate, and an ozone ultraviolet lamp to purify the seawater, and thus has excellent sterilization and water purification ability of the seawater, The structure is simple by unifying, and it is easy to separate and clean the bubble collector by combining the union at the inlet as well as to make the bubble contained in the water droplets temporarily by the rising bottom plate and then to the outside through the bubble collector at the top. Since it is discharged as, it is effective to discharge pollutants in water as efficiently as possible.

Claims (2)

It is installed above the main body, and the inlet which the seawater from the tank flows in, Union for detaching the inlet and venturi, Venturi for mixing the air flowing through the upper air control valve and the seawater flowing through the inlet, Is connected to the venturi and passing through the seawater to the bottom and the bubble collector to discharge the residue upwards, And the transparent pipe which allows the naked eye to observe the discharge state of the pollutant and the pollutant discharged coupled to the upper side of the foam collector, An injection pipe coupled to the longitudinally downward direction of the bubble container, It is installed on the upper end of the injection pipe and the rising bottom plate to maintain the residence time of the sea water mixed with the bubble in the aeration chamber to allow the bubbles to discharge the maximum contaminants, A cylindrical cup installed to surround the lower end of the injection pipe and configured to move the water in the injection pipe upward; It is installed on the lower portion of the cylindrical cup and formed with a plurality of holes, the separation of the porous plate separating only the filtered water passing through the debris, A barrier film formed on one side of the porous plate in a lengthwise direction to allow the purified water to pass therethrough; An ozone ultraviolet lamp for sterilizing purified water introduced into a sterilization water purification chamber through a lower portion of the barrier membrane; And a discharge port for discharging the sterilized water through the ozone ultraviolet lamp back to an external water tank. The seawater purification and sterilization apparatus of claim 1, wherein an elbow having an L-shape is installed in the bubble collection container to spray seawater mixed with bubbles downward and discharge contaminants upward.