KR102258842B1 - Seafood sterilization and purification system - Google Patents

Abstract

The present invention relates to a marine product sterilization and purification system. The marine product sterilization and purification system, which has an effect of protecting the environment, comprises: a barge hull floating on a water surface and including a concave water storage unit; an engine room including a power unit formed on one side of the barge hull and configured to provide power for movement, a pump driven by receiving power from a power supply unit and configured to suck in and supply seawater, and a disinfectant supply unit supplying a disinfectant; a water tank installed on the barge hull and configured to store seawater discharged from the pump; a mixing box connected to be in communication with a side surface of the water tank; a circulation power unit detachably installed inside the mixing box and configured to continuously circulate seawater in the water tank by sucking and discharging the seawater in the water tank; and a disinfectant supply hose connected to the disinfectant supply unit and configured to supply the disinfectant to the inside of the mixing box.

Description

Seafood sterilization and purification system

The present invention relates to a sterilization and purification system for aquatic products, and more particularly, to a sterilization and purification system for aquatic products for washing laver and seaweed in a seaweed farm while moving the water surface using a barge.

Generally speaking, there are two major methods for culturing laver: the non-hydrochloric acid cultivation method, which removes blemishes by artificially exposing them to sunlight for a certain period of time, and the hydrochloric acid treatment method, which removes blemishes and harmful bacteria by spraying hydrochloric acid on the seaweed immersed in water.

Although the above acid treatment method can bring about shortening of harvest and reduction of labor, there are drawbacks in that pollution of the sea and quality of laver are deteriorated.

The pollution of the sea is particularly serious. In fact, the use of organic acid is recommended, but cheap industrial hydrochloric acid is often used.

As a result, it is found that the production of organic matter decreases and various living things disappear on the seabed near the farm.

The hydrochloric acid-free treatment method can prevent pollution of the sea or harvest excellent quality laver due to natural cultivation, but it has the disadvantage of being laborious and the harvesting period being consumed a lot. In other words, if the seedlings are immersed in the sea for a long time, moss or green blemishes will grow on the seedlings and the foot supporters, etc., and there is a defect that deteriorates the quality of the laver. The stock method was used.

However, since the side-type is an operation for turning the hair artificially, the efficiency of the operation is reduced, and in particular, damage to the hair or damage to the seedling occurred in the process of turning the hair over.

And the holding method using the tide has a disadvantage in that the installation of the hair is complicated and the time of exposure to sunlight cannot be controlled, so that the harvest is reduced.

In order to exclude this disadvantage, a method of raising the hair by the power of the current of seawater by installing a wing blade in the buoy was devised (Public No. 1997-0005045), but this device does not achieve its intended purpose due to the weak tidal force of the actual seawater. couldn't

On the other hand, the present inventor has applied for and obtained a patent for "Seafood Sterilization and Purification System" in Korean Patent Application No. 10-2020-0037124 (registration number 10-2158727).

The present invention can block environmental protection and human harm by excluding the use of hydrochloric acid by mixing water and ozone to have disinfection performance. A water tank is provided in the hull to improve the cleaning performance of seaweed, and it is attached to the water tank. The purpose of providing a sterilizing and purifying system for marine products that can improve sterilization by providing a circulation power unit in the mixing box with a sterilizing agent is sucked and discharged along with the pumping operation of the circulation power unit and supplied to the water tank, and the water in the water tank is circulated. There is this.

The above object of the present invention, the barge hull floating on the water surface and formed with a concave water reservoir; An engine room formed on one side of the barge hull and provided with a power unit providing power for movement, a pump driven by receiving power from the power supply unit and sucking and supplying seawater, and a disinfectant supply unit supplying a sterilizer; and a water tank installed on the barge hull and storing seawater discharged from the pump; a mixing box connected to the side of the water tank; a circulation power unit that is detachably installed inside the mixing box and continuously circulates inside the water tank by sucking and discharging seawater in the water tank; It can be achieved by a seafood sterilization and purification system including a sterilant supply hose connected to the sterilant supply unit to supply the sterilant to the inside of the mixing box.

According to the present invention, by excluding the use of hydrochloric acid by mixing water and ozone to have disinfection performance, environmental protection and harmfulness to the human body can be blocked, and disinfection water is widely used in the disinfection chamber to improve the cleaning performance of seaweed. It can be dispersed, and the sterilizing agent is sucked and discharged along with the pumping operation of the circulation power unit and supplied to the water tank, and there is an effect that the sterilization action can be improved as the water in the water tank is circulated.

1 is a perspective view showing a seafood sterilization and purification system according to the present invention;
2 is a plan view showing a seafood sterilization and purification system according to the present invention;
3 is a side view showing a seafood sterilization and purification system according to the present invention;
4 is a partially enlarged perspective view of a seafood sterilization and purification system according to the present invention;
5a and 5b are cross-sectional views showing a seafood sterilization and purification system according to the present invention;
6 is a plan view showing a seafood sterilization and purification system according to another embodiment of the present invention;
7 is a side view showing a seafood sterilization purification system according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail based on the accompanying drawings.

The terms to be described below are defined in consideration of the functions in the present invention, and it is specified that they should be interpreted as concepts consistent with the technical spirit of the present invention and meanings commonly or commonly recognized in the art.

In addition, when it is determined that a detailed description of a well-known function or configuration related to the present invention may obscure the gist of the present invention, the detailed description thereof will be omitted.

Here, the accompanying drawings are illustrated by exaggerating or simplifying a part for convenience and clarity of explanation and understanding of the configuration and operation of the technology, and each component does not exactly match the actual size.

Among the accompanying drawings, FIG. 1 is a perspective view showing a seafood sterilization and purification system according to the present invention, FIG. 2 is a plan view showing a seafood sterilization and purification system according to the present invention, and FIG. 3 is a side view showing a seafood sterilization and purification system according to the present invention, 4 is a partially enlarged perspective view of the aquatic product sterilization and purification system according to the present invention, FIGS. 5A and 5B are cross-sectional views showing the aquatic product sterilization and purification system according to the present invention, and FIG. 6 is a seafood sterilization and purification system according to another embodiment of the present invention 7 is a side view showing a seafood sterilization and purification system according to another embodiment of the present invention.

1 to 4, the aquatic products sterilization and purification system according to an embodiment of the present invention, the barge hull 100 is floated on the water surface and the water reservoir 120 is concavely formed; A power unit 360 that is formed on one side of the barge hull 100 and provides power for movement, a pump 320 that is driven by receiving power from the power supply unit 310 and sucks and supplies seawater, and a sterilizer an engine room (G) in which a disinfectant supply unit 340 to supply is installed; and a water tank 4 installed in the barge hull 100 and storing seawater discharged from the pump 320, a mixing box 5 connected to the side of the water tank 4, and the mixing box (5) is detachably installed inside the circulating power unit 6 for sucking and discharging seawater in the water tank 4 to continuously circulate it in the water tank, and to supply the disinfectant to the inside of the mixing box 5. It is configured to include; a sterilant supply hose 342 connected to the sterilant supply unit 340 .

The power supply 310 is a generator is used.

The pump 320 is driven by the power of the power supply 310 to suck seawater and supply it to the water tank 4 through the drain pipe 322 . Therefore, the suction pipe 321 of the pump 320 is formed outside the barge hull 100, it is possible to suck seawater through the suction pipe 321.

The water tank 4 is detachably coupled to the inside of the barge hull 100 .

If necessary, separate the water tank (4) to clean or sterilize from the outside, so that repair work can be done conveniently.

The mixing box 5 is attached to the side of the water tank 4 , and an opening 52 is formed to communicate with the water tank 4 , and the circulation power unit 6 is mounted inside the mixing box 5 .

One end of the disinfectant supply hose 342 connected to the disinfectant supply unit 340 is introduced into the mixing box 5 and installed.

The circulation power unit 6 operates a pump, and a body 62 having a built-in motor and waterproof performance is opened at the lower portion of the body 62 to form a suction port 64,

An impeller 66 is formed inside the suction port 64 , and a discharge port 68 is formed on the side surface of the main body 62 .

Therefore, the water in the mixing box 5 is sucked by the rotational driving of the impeller 66 and discharged into the water tank 4 through the discharge port 68 .

In this process, the disinfectant supplied from the disinfectant supply hose 342 installed in the mixing box 5 is directly sucked into the impeller 66 of the circulation power unit 6 and stirred by high-speed rotation, so it is sufficiently mixed with the water in the mixing box. can be dissolved.

Therefore, the circulation power unit 6 is able to simultaneously perform agitation and dissolution of the disinfectant by high-speed rotation at the same time as suction. .

In addition, a water supply pipe (L1) connected to the discharge port (68) of the circulation power unit (6) is installed inside the water tank (4).

Preferably, the water supply pipe (L1) is disposed along the upper surface or the lower surface of the bottom 204 of the water storage unit 120, and the end (L1-2) of the water supply pipe (L1) is curved in an arc shape to discharge water (sterilized water) to form a vortex.

Meanwhile, as shown in FIG. 2 , a water dispersing member 500 is formed inside the water supply pipe L1 to finely disperse the discharged water, thereby making it possible to evenly mix ozone, oxygen, and water.

The water dispersing member 500 is formed in the flange joint pipe, is formed on either side or either side of the flange joint pipe in the water flow direction, and the two half-moon type dispersion plates 520 and 520 ' are coupled to each other up and down. It is configured in an X' shape, and is configured by welding one or a plurality of parts in contact with the inner side of the flange joint.

Meanwhile, as shown in FIG. 4 , the dispersing member 700 is mounted at the end of the water supply pipe L1 and the discharged water is crushed, so that the mixing rate of the disinfectant can be improved.

The dispersing member 700 includes a dispersing plate 710 having an upwardly convex umbrella shape, and a connecting rod 720 connecting the dispersing plate 710 and an end outlet L1-2 of the water supply pipe L1.

Accordingly, the sterilizing water discharged from the discharge port L1 - 2 may be supplied to the water storage unit 120 while being sprayed in all directions after colliding with the inner circumferential surface of the dispersing member 700 .

Dispersed sterilizing water is randomly dispersed, but when a tornado-shaped groove (not shown) is formed on the inner circumferential surface of the dispersing member 700, the sterilizing water can be dispersed in the tornado direction, thereby exerting the effect of forming a vortex. .

By dispersing the sterilizing water in this way, a wide range can be reached, and the sterilizing water stored in the water storage unit 120 can be widely mixed, so that the sterilization and cleaning performance can be improved.

Preferably, the water supply pipe (L1) may be attached to the upper surface of the bottom surface (204) of the water tank (4) as shown in Figure 5a.

Alternatively, as shown in FIG. 5B , the water supply pipe L1 may be attached to the lower surface of the bottom surface 204 of the water reservoir 120 .

In addition, the water supply pipe (L1) may be formed with a plurality of nozzle holes.

Meanwhile, as shown in FIGS. 4 to 5 , the disinfectant supply unit 340 includes an ozone generator 344 that generates ozone; and an ozone supply pipe 346 connecting the discharge port of the ozone generator 344 and the mixing box.

The disinfectant supply unit 340 supplies ozone and oxygen, and after supplying the seawater in the water tank into the mixing box, it is sucked into the circulation power unit and can be dissolved in the seawater while being stirred at the same time.

A method of generating ozone from the ozone generator 344 includes a silent discharge method, an electrolytic method, a photochemical method, and the like, and the silent discharge method is widely used as a method of generating a large amount of ozone.

The principle of silent discharge method is to generate ozone by applying a high voltage of alternating current (6,000~18,000V), putting a dielectric such as glass or ceramic between opposite electrodes, and injecting air or oxygen into this discharge space.

In one embodiment of the present invention, the supplied sterilizing agent is to be mixed in a ratio of 88 to 90 wt% oxygen: 10 to 12 wt% ozone. The oxygen supply increases the dissolved amount of oxygen.

If the amount of ozone mixed with the oxygen amount of 88 wt% to 90 wt% is less than 10 wt%, the sterilizing power of laver may be lowered, and if it is more than 12 wt%, there may be a risk of seaweed being oxidized.

Clean tap water with an ordinary dissolved oxygen amount is usually 7.7 to 10 ppm, but the dissolved oxygen amount according to the present invention was measured to be 18 to 20.3 ppm at 14.4° C. of sea water with a dissolved oxygen amount meter.

Microorganisms and bacteria parasitic on gimbal can be removed by sterilizing them with the sterilizing power of ozone and oxygen. The above disinfectant and ozone are dissolved in water and have strong oxidizing power as ozone water. Therefore, strong oxidizing power can sterilize all pathogens.

As general agricultural and aquaculture waters do not react with oxygen in the air like flowing valley water, in order to remove and sterilize various impurities dissolved in the water, oxygen necessary for purification is artificially injected to enrich the dissolved oxygen in the polluted water. It prevents infection caused by harmful bacteria, promotes the growth of laver, and can grow quickly.

Meanwhile, FIG. 6 is a plan view showing a seafood sterilization and purification system according to another embodiment of the present invention, and FIG. 7 is a side view showing a seafood sterilization and purification system according to another embodiment of the present invention.

The aquatic products sterilization and purification system according to another embodiment of the present invention,

A pump 320 that is driven by receiving power from the power supply 310 and sucks and supplies seawater;

A water tank 4 in which the seawater discharged from the pump 320 is stored, and

A mixing box 5 connected to the side of the water tank 4 and

A circulation power unit (6) that is detachably installed inside the mixing box (5) to suck and discharge seawater in the water tank (4) and continuously circulate it inside the water tank (6);

and a disinfectant supply hose 342 connected to the disinfectant supply unit 340 to supply the disinfectant to the inside of the mixing box 5 .

The mixing box 5 is attached to the side of the water tank 4 , and an opening 52 is formed to communicate with the water tank 4 , and the circulation power unit 6 is mounted inside the mixing box 5 .

One end of the disinfectant supply hose 342 connected to the disinfectant supply unit 340 is introduced into the mixing box 5 and installed.

The circulation power unit 6 operates a pump, and a body 62 having a built-in motor and waterproof performance is opened at the lower portion of the body 62 to form a suction port 64,

An impeller 66 is formed inside the suction port 64 , and a discharge port 68 is formed on the side surface of the main body 62 .

Therefore, the water in the mixing box 5 is sucked by the rotational driving of the impeller 66 and discharged into the water tank 4 through the discharge port 68 .

In this process, the disinfectant supplied from the disinfectant supply hose 342 installed in the mixing box 5 is directly sucked into the impeller 66 of the circulation power unit 6 and stirred by high-speed rotation, so it is sufficiently mixed with the water in the mixing box. can be dissolved.

Therefore, the circulation power unit 6 is able to simultaneously perform agitation and dissolution of the disinfectant by high-speed rotation at the same time as suction. .

In addition, a water supply pipe (L1) connected to the discharge port (68) of the circulation power unit (6) is installed inside the water tank (4).

Preferably, the water supply pipe (L1) is disposed along the upper surface or the lower surface of the bottom 204 of the water storage unit 120, and the end (L1-2) of the water supply pipe (L1) is curved in an arc shape to discharge water (sterilized water) to form a vortex.

The present invention is not limited by the above-described embodiments and the accompanying drawings, and various modifications and applications not illustrated are possible without departing from the technical spirit of the present invention, as well as substitution of components and other equivalent embodiments. Since it can be changed, it should be construed as being included within the scope of the present invention for modifications and applications of the features of the present invention.

100: barge hull, 4: water tank
5: Mixing box 6: Circulating power unit
62: body 64: intake port
66: impeller 68: outlet
320: pump 321: suction pipe
340: disinfectant supply unit 342: disinfectant supply hose

Claims (6)

The barge hull 100 is floated on the water surface and the water reservoir 120 is concavely formed;
A power unit 360 that is formed on one side of the barge hull 100 and provides power for movement, a pump 320 that is driven by receiving power from the power supply unit 310 and sucks and supplies seawater, and a sterilizer an engine room (G) installed with a disinfectant supply unit 340 to supply; and
a water tank 4 installed in the barge hull 100 and storing seawater discharged from the pump 320;
a mixing box (5) connected to the side of the water tank (4);
a circulation power unit (6) which is detachably installed inside the mixing box (5) and continuously circulates inside the water tank (6) by sucking and discharging seawater in the water tank (4);
and a disinfectant supply hose 342 connected to the disinfectant supply unit 340 to supply the disinfectant to the inside of the mixing box 5;
The mixing box (5) is formed on the side of the water tank (4), an opening (52) is formed to communicate with the water tank (4), and a circulation power unit (6) is mounted inside the mixing box (5),
A marine product sterilization and purification system, characterized in that the one end of the sterilant supply hose 342 connected to the sterilant supply unit 340 is introduced into the mixing box (5). delete The method of claim 1,
The circulation power unit 6 operates a pump, and a motor is built-in and a body 62 having a waterproof performance, and a suction port 64 is formed through an opening in the lower portion of the body 62,
An impeller 66 is formed inside the suction port 64, and a discharge port 68 is formed on the side surface of the body 62,
Aquatic products sterilization and purification system, characterized in that the water in the mixing box (5) is sucked by the rotational driving of the impeller (66) and discharged into the water tank (4) through the discharge port (68). The method of claim 3,
A water supply pipe (L1) connected to the outlet (68) of the circulation power unit (6) is installed inside the water tank (4),
and a dispersing member 700 mounted at the end of the water supply pipe (L1) to improve the mixing rate of the disinfectant while the discharged water is crushed,
The dispersing member 700 includes a dispersing plate 710 having an upwardly convex umbrella shape, and a connecting rod 720 connecting the dispersing plate 710 and the discharging port L1-2 at the end of the water supply pipe L1. A marine product sterilization and purification system characterized. A pump 320 that is driven by receiving power from the power supply 310 and sucks and supplies seawater;
A water tank 4 in which the seawater discharged from the pump 320 is stored, and
A mixing box 5 connected to the side of the water tank 4 and
A circulation power unit (6) that is detachably installed inside the mixing box (5) to suck and discharge seawater in the water tank (4) to continuously circulate it inside the water tank (6);
and a disinfectant supply hose 342 connected to the disinfectant supply unit 340 to supply the disinfectant to the inside of the mixing box 5;
The mixing box (5) is attached to the side of the water tank (4), an opening (52) is formed to communicate with the water tank (4), and a circulation power unit (6) is mounted inside the mixing box (5),
The aquatic products sterilization and purification system, characterized in that the inside of the mixing box (5) is formed by introducing one end of the disinfectant supply hose (342) connected to the disinfectant supply part (340).

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