KR102111794B1 - an apparatus of ion water - Google Patents

Abstract

The present invention relates to an ion water generating device for washing seaweed (a seawater ion device in addition to washing seaweed), and more specifically, to install foreign water condensed in seaweed using ion water, an ion water (sea water ion) generating device is installed on one side of the washing tank. It relates to an ionized water generating device that ionizes and sterilizes seawater through an ionized water generating device and supplies it to a steaming washing container.
The composition is as follows.
In the ion water generating apparatus 200 for ionizing sea water by magnetic force
A plurality of magnets are accommodated in the inner space portion 210 of the ion water generating tube 211, but the length direction of the plurality of magnets is located in the length direction of the ion water generating tube 211,
The width direction of the magnet 250 is positioned along the inner circumference of the inner circumference of the ion water generating cylinder 211, but is located between the inner wall of the ion water generating cylinder 211 and the center of the ion water generating cylinder 211
The seawater flows into the central portion of the ionized water generating vessel 211 by the motor pump 100 and the magnet 250
The length of the front 101 and the end 203 of the magnet 250 passes through the magnet 250
Ion water generating apparatus for washing the seaweed, characterized in that it comprises a configuration that moves to the sterilization chamber 240 via between the back wall 202 and the inner wall of the ion water generating tube 211.

Description

An apparatus of washing water for laver washing {an apparatus of ion water}

The present invention relates to an ion water generating device for washing seaweed (a seawater ion device in addition to washing seaweed), and more specifically, to install foreign water condensed in seaweed using ion water, an ion water (sea water ion) generating device is installed on one side of the washing tank. It relates to an ionized water generating device that ionizes and sterilizes seawater through an ionized water generating device and supplies it to a gold washing container.

In particular, the present invention relates to a technique for evenly dispersing the sea water in the ionized water generating apparatus and ionizing it evenly by magnetic force.

In general, the manufacturing process of Haitai collects the sea otter from the sea and keeps the freshness while storing it together with sea water in a storage tank on the land, and removes this material that washes the sea otter and separates and removes the sea otter and foreign matter. It can be largely divided into a process, a cutting process of cutting the debris from which the foreign matter has been removed, to an appropriate length, and a drying process of drying the cut leaf into thin rectangular paper shapes.

During the manufacturing process of the Haitai, the harvesting process is carried out using a ship, so that the net of hanging bodies of the driving body rotates through the upper part of the rotating blade of the driving body rotated by the power received from the ship, and the rotating force of the rotating blade is applied to the net. The suspended lobule is collected with a collection container provided at the bottom of the driving body. In the process of harvesting these sea lobsters, the collection work is done quickly, so sea debris caught in the net (tree leaves, schiropol fragments, wood fragments), and foreign substances attached to the sea lobules (seaweed, seaweed, sea creatures, not seaweed) and nets Separate ropes, nylon strings, etc. must be collected at the same time.

Therefore, in the process of removing foreign matter after the harvesting process of the thawed lobe, it is necessary to remove the foreign matter mixed in the thawed lobe. I have relied on hand-picking by hand.

Particularly, since the harvesting work of the sea otter lobes is performed in the winter when the weather is cold, there is a difficulty that it is difficult to smoothly perform the manual work due to the cold weather, and thus there is a problem in that the removal of foreign matter from the sea lobster is not efficient.

In order to solve the problems arising from the above-described manual operation, a device having a configuration for automatically separating foreign matters mixed in the thalamus lobes by mechanical driving , such as registration numbers 10-0260649 and 20-0219205, is proposed. It has been done,

The properties of Haitai medulla made of fibers and large amounts of Haitai medulla are not well treated.

Also, in the class-type fishing ground where seaweed is farmed after the end of January during the process of aquaculture, adherent diatoms are attached to the lobe of the seaweed, which adversely affects the growth and quality of the seaweed. The situation is that an acid treatment agent is used.

The reason why the acid treatment agent is used in the above is that the adaptability to acid is stronger than that of blue or diatom bacteria, so if the acidity is appropriately adjusted, it is possible to grow while removing the blue or diatom bacteria adsorbed on the seaweed. Because it can improve the quality of the seaweed,

In particular, the acidic ionized water not only washes the leaf with sea water, but also removes weeds such as diatoms, such as bacterial fungi and red rot, in a short time, so that it can prevent various diseases such as rot and nutrients in the sea water. This is because it has the advantage of promoting growth and improving the taste and aroma of the seaweed by allowing it to be absorbed sufficiently.

However, among the acid treatment agents, sulfuric acid or hydrochloric acid, which is classified as an inorganic acid, has a strong acidity of pH 1.0 to 2.0, which has an excellent effect on sterilization and disinfection such as removing diatoms and wastes, but significantly reduces the food value of Kim as an illegal inorganic acid harmful to the human body. Let it go,

It has a strong stimulus and bitter taste on the Kim Yeop-che, making it a considerable distance from consumers.

It causes destruction, and its use is regulated as much as possible.

In addition, citric acid, chitosan, glacial acetic acid, and gelatin, which are used as acid treatment agents for organic acids, are expensive, and their effectiveness is somewhat less than that of inorganic acids such as hydrochloric acid. .

Therefore, among various methods for obtaining an acid treatment agent that is both an organic acid and an excellent efficacy, a method of producing acidic organic acid ion water using a special electrolysis method may be considered. Until now, such ion water is only used for farming or fertilizer use.

It was used but was not used at all in the farm, and the ionized water exhibited a rather low acidity of pH 3.0 or higher, and its sterilization effect was lowered. Therefore, it was insufficient to combat diatoms containing harmful bacteria that inhibited the growth of farmed seaweed. It was a lot of circumstances.

In this way, the seaweed contaminated by various germs in the fishing ground is moved to the land to be washed It is washed with sea water while stirring with input , but the washing is not performed well, so there is a limit to producing good seaweed (Ref . No. 20-0219205).

In order to solve this, a number of foreign substances are removed from the fishing ground for the following purposes.

A second acidic water inlet pipe and a second alkaline inlet pipe are formed on the positive electrode plate and the negative electrode plate of the electrolytic cell, and the second acidic water inlet pipe is connected to the middle of the second alkaline water inlet pipe to form a weakly acidic water supply pipe for supplying weakly acidic water. On one side of the power supply device, a voltage converter is installed to change the intensity of the voltage supplied to the positive and negative plates to form acidic ionized water from pH2.0 to pH3.0. The purpose of the present invention is to provide a method and apparatus for the production of non-toxic ionic water capable of cultivating high-quality seaweed that can obtain an optimal sterilization effect in eradication.

The problem here is power Use Evenly, hot water Electrolyzer  The problem that the entire hot water does not ion because it is not dispersed within

In addition, there is a disadvantage that sterilization is not performed because a sterilizer is not provided.

In view of the above-mentioned problems, the present invention installs an ionized water generating device on one side of the Kim washer (1) to wash foreign substances that have been constricted on Kim using ionized water. Provided is an ion water generating device for supplying to a container, but particularly relates to a technique for allowing sea water to be evenly dispersed and distributed by an internal force in an ion water generating device.

If you look at the composition by the accompanying drawings

One side of the ion water generating device 200 is connected to the discharge pipe 101 for pumping and discharging sea water by the motor pump 100, and the other side 200 'of the ion water generating device 200 is wet (steamed from the fishing ground) (Referring to) is connected to the washing tub (1) for washing.

The ionized water generating device 200 receives an ionized water generating vessel 211 in which a plurality of magnets 250 for ionizing seawater are accommodated in the space 210, and seawater passing through the ionized water generating vessel 211. It is composed of a sterilization room 240 in which an ultraviolet sterilization lamp 230 for sterilization and an ozone generator 231 are accommodated.

A plurality of magnets are accommodated in the inner space portion 210 of the ion water generating tube 201, but the length direction of the plurality of magnets is located in the length direction of the ion water generating tube 211,

The direction of the width (corresponding to the diameter) of the magnet 250 is positioned along the inner circumference of the inner circumference of the ion water generating tube 211, but is located between the inner wall of the ion water generating tube 201 and the center of the ion water generating tube 211 in,

The seawater flows into the central portion of the ionized water generating vessel 211 by the motor pump 100 and the magnet 250

The length of the front 101 and the end 203 of the magnet 250 passes through the magnet 100

It is configured to move to the sterilization chamber 240 via the back surface 202 and the inner wall of the ionized water generating tube 211.

In the longitudinal direction of the front surface 201 of the magnet 250, a protruding portion 251 protruding into the central portion 211 'of the ionized water generating tube 211 is formed, and the ionized water generating tube is disposed in the longitudinal direction of the rear surface 202 of the magnet 250. (211) It is configured to form a projecting portion 252 facing the inner wall direction so that vortices are generated at the point where seawater discharged from the motor pump 100 passes through the projecting portion 251 and the projecting portion 252.

As described above, the present invention provides an ionized water generating device that installs an ionized water generating device on one side of the dishwasher to ionize and sterilize seawater through an ionized water generating device, and supplies sterilized water to the washing container in order to wash the foreign matters confined to the seam using ionized water. However, in particular, the sea water is distributed evenly in the ion water generating device, and has an effect of evenly ionizing by magnetic force.

The above-mentioned effects are further revealed in specific contents.

1 is a perspective view of the present invention, the ion water generating device for washing the seaweed is installed in the washing container,
Figure 2 is a perspective view showing the inside of the ion water generating cylinder of the present invention,
3a, b) is a cross-sectional view showing the inside of the ionized water generating vessel as another embodiment of the present invention,
Figure 4 is a perspective view showing the interior of the ion water generator in the state of Figure 1,
5 is a cross-sectional view showing the interior of the ionized water generating apparatus in the state of FIG. 1 and showing a seawater flow process,
Figure 6 is a cross-sectional perspective view showing the interior of the ion water generating tube as another embodiment of the present invention.

The configuration will be described with reference to the accompanying drawings and an exemplary embodiment will be described.

One side of the ion water generating device 200 is connected to the discharge pipe 101 for pumping and discharging sea water by the motor pump 100, and the other side 200 'of the ion water generating device 200 is wet (sea state in the state collected from the fishing ground) It refers to a washing tub (not shown) for washing).

The ionized water generating device 200 receives an ionized water generating vessel 211 in which a plurality of magnets 250 for ionizing seawater are accommodated in the space 210, and seawater passing through the ionized water generating vessel 211. It is composed of a sterilization room 240 in which an ultraviolet sterilization lamp 230 for sterilization and an ozone generator 231 are accommodated.

The reason for doing so is to first ionize seawater by magnetic force in the ionized water generating vessel 211 and sterilize the germs contained in the seawater in the sterilization chamber 240.

A plurality of magnets are accommodated in the inner space portion 210 of the ion water generating tube 211, but the length direction of the plurality of magnets is located in the length direction of the ion water generating tube 211,

The direction of the width (corresponding to the diameter) of the magnet 250 is located along the inner circumference of the inner circumference of the ion water generating tube 211, but is located between the inner wall of the ion water generating tube 211 and the center of the ion water generating tube 211 in,

The seawater flows into the central portion of the ionized water generating vessel 211 by the motor pump 100 and the magnet 250

The length of the front 201 and the end 203 of the magnet 250 pass through the magnet 100

It is configured to move to the sterilization chamber 240 via the back surface 202 and the inner wall of the ionized water generating tube 211.

Here, by explaining the front surface 201 and the back surface 202 of the magnet 250 separately, it may be helpful to understand this.

To supplement the description, it is to use the entire magnetic force (front and back) of the magnet 250 of the present invention.

For example, if only the front magnetic force of the magnet is used, the longitudinal direction of the magnet must be long to obtain the magnetic force required for the ions. This adds a lot of cost, making it unrealistic in terms of economy.

In the longitudinal direction of the front surface 201 of the magnet 250, a protruding portion 251 protruding into the central portion 211 'of the ionized water generating tube 211 is formed, and the ionized water generating tube is disposed in the longitudinal direction of the rear surface 202 of the magnet 250. (211) It is configured to form a projecting portion 252 facing the inner wall direction so that vortices are generated at the point where seawater discharged from the motor pump 100 passes through the projecting portion 251 and the projecting portion 252.

The seawater discharged from the motor pump 100 passes through the narrow channel A, which is the projecting portion 251 and the projecting portion 252, and then continues to a wide second channel B, where the second channel B is As the water pressure decreases, the water spreads like a vortex phenomenon. At this time, the phenomenon of seawater mixing occurs.

The reason for doing this is that the edge of the seawater (the front of the magnet)

The seawater near to) receives a lot of self-power, but at the central (F) point, seawater receives less.

As a result, the entire seawater does not become ionic, and it is insufficient to serve as ionic water.

Therefore, if the seawater is turned over by passing through the narrow waterway A, the probability of the entire seawater becoming an ion increases.

As in the above, the seawater flows into the central portion of the ionized water generating tube 211 by the motor pump 100 and turns the end 203 of the magnet 250 to the back surface 202 of the magnet 250 and the ionized water generating tube 211 ) It is a configuration that passes between the inner walls and moves to the sterilization chamber 240.

Looking at the following configuration,

The ionized water generating vessel 211 accommodates a pipe-shaped shaft pipe 260 whose diameter decreases from the front to the rear where the seawater flows, and vortices are generated at the point where the seawater passes through the shaft pipe 260 and passes. It is a configuration to do.

The shaft tube 260 can be moved in the longitudinal direction of the magnet to change the position of the vortex.

Connect one side of the rod 261 that can slide the shaft tube 260 in front of the shaft tube 260,

The other side of the rod penetrates the ion water generating vessel 211 in front and is positioned outside the ion water generating vessel 211 to push or pull the rod 261 to move the shaft tube 260.

The reason for doing this is that when the water pressure of the motor pump 100 fluctuates, the discharge pipe 101 may be moved closer or farther. That is, it can be moved depending on the situation

In addition, the mechanical 262 is driven to periodically move or pull the rod to move the vortex position, so that the seawater is turned over at any position. This is more effective.

The following describes the technique of eradicating various bacteria contained in seawater.

In the sterilization chamber 240, there is an ozone generating unit 231 in which ozone is generated from an ozone generator (not shown), and an ultraviolet sterilization lamp 230 is accommodated, so that when seawater passes through the sterilization chamber 240, seawater is seawater. The germs contained in are sterilized.

This ozone sterilization and UV lamp technology is applied to the water sterilization device using the ozone sterilizer of Korea Registration No. 20-0180386 and the UV lamp of Registration No. 10-0955301.

It is shown in detail, and the technology for the ion water generating device is registration number 20-0459372,

Since it is described in detail in Publication No. 10-2012-0125904, a description thereof will be omitted.

Finally, as shown in FIG. 6, the shaft pipe 260 is installed in the longitudinal direction of the front surface 101 to guide the seawater passing through the shaft pipe 260 in front of the shaft pipe 260 toward the front wall surface of the magnet. A portion 265 is formed, but the guide portion 265 forms a pointed portion 266 in the front center of the shaft tube 260 and gradually moves toward the front wall surface with a magnet toward the front wall surface toward the front side of the pointed portion 267 It is composed.

When explaining the embodiment of the configuration is as follows.

As described above, the seawater is guided to the front of the magnet by guiding the seawater to the rear of the shaft tube 260, and the seawater ions are evenly generated by receiving the nutrients from the magnetic force.

Finally, the description of the Kim Washing Container (1) is described in Korean Intellectual Property Office Registration No. 20-0219205, and the description is omitted.

1: Washing container 100: Motor pump
101: discharge pipe 200: ion water generating device
200 ': Other side 201: Front
202: back side 203: end plate
210: space 211: ion water generator
211 ': central part 231: ozone generating part
230: sterilization lamp 240: sterilization room
250: magnet 251: protrusion
252: protrusion 260: shaft tube
261: bar 262: mechanical
265: guide portion 266: pointed portion
267: slope A: waterway
B: Second channel F: Central

Claims (3)

A plurality of magnets are accommodated in the inner space portion 210 of the ion water generating cylinder 211, but the longitudinal direction of the plurality of magnets is located in the longitudinal direction of the ion water generating cylinder 211,
The width direction of the magnet 250 is positioned along the inner circumference of the inner circumference of the ion water generating cylinder 211, but is located between the inner wall of the ion water generating cylinder 211 and the center of the ion water generating cylinder 211
The seawater flows into the central part of the ionized water generating vessel 211 by the motor pump 100.
The sterilization chamber 240 is passed through the longitudinal direction of the front surface 101 of the magnet 250 and the end 203 of the magnet 250, passing between the back surface 202 of the magnet 250 and the inner wall of the ionized water generating vessel 211. ) To the configuration,
In the longitudinal direction of the front surface 201 of the magnet 250, a protruding portion 251 protruding into the central portion 211 'of the ionized water generating tube 211 is formed, and the ionized water generating tube is disposed in the longitudinal direction of the rear surface 202 of the magnet 250. (211) by forming a projecting portion 252 facing the inner wall direction so that the seawater discharged from the motor pump 100 passes through the projecting portion 251 and the projecting portion 252 to generate a vortex,
By installing the shaft tube 260 in the longitudinal direction of the front surface 101 to form a guide portion 265 for guiding the seawater passing through the shaft tube 260 in front of the shaft tube 260 toward the front wall surface of the magnet,
The guide portion 265 includes a configuration consisting of an inclined portion (267) that forms a pointed portion (266) in the front center of the shaft tube (260) and gradually moves toward the front wall surface with a magnet toward the rear of the pointed portion,
Connect one side of the rod 261 that can slide the shaft pipe 260 to the front side of the shaft pipe 260, and the other side of the rod penetrates the ion water generating vessel 211 in front of the ion water generating vessel 211 outside. Positioned by pushing or pulling the rod (261) to move the shaft tube 260, characterized in that the configuration of the water washing device for washing laver.
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