KR101345130B1 - Manufacture method for treating agent of activation for laver, manufacturing apparatus for treating agent of activation for laver, processing apparatus for treating agent of activation for laver - Google Patents

Abstract

The present invention relates to a method for manufacturing a treatment agent for activating laver, an apparatus for manufacturing a treatment agent for activating laver and an apparatus for processing a treatment agent for activating laver. The apparatus for manufacturing a treatment agent for activating laver comprises a dilution part for diluting edible hydrochloric acid by diluting the edible hydrochloric acid with raw water; a supply part arranged next to the dilution part and supplying the edible hydrochloric acid and the raw water; an electrolysis part connected to the dilution part and generating electrolyzed water by electrolyzing the diluted hydrochloric acid; and a storage part connected to the electrolysis part and capable of storing electrolyzed water.

Description

A manufacturing method for treating agent of activation for laver, manufacturing apparatus for treating agent of activation for laver, processing apparatus for treating agent of activation for laver}

The present invention relates to electrolyzed water obtained by electrolyzing seawater and dilute hydrochloric acid as an active treatment agent for aquaculture.

In general, Kim is one of the indispensable cups of our table. The amount of seaweed consumed is about 10 billion pieces per year, and it is known to consume about 200 pieces per person per year. 5 pieces of laver contains enough nutrients for one egg.

This laver is farmed at sea. However, as marine pollution causes depletion of seawater nutrients, the growth of seaweed is slowed, and microbes, greens, and diatoms, which cause various diseases in seaweeds, grow violently, resulting in decreased seaweed productivity. In order to increase the gimbal is treated with a laver active agent.

The government 'notified on the criteria for the use of seaweed farming active treatment in order to prevent marine environmental pollution in the treatment of seaweed active treatment for removing seaweed and diatoms. Among the active treatment components announced by the government, the organic acid content was lowered to 20.00% or more to 15.00% or more, and the total inorganic acid content was changed from 9.50% or less to 8.00% to 9.50% or less, and the electrolytic water active treatment hypochlorous acid obtained by electrolyzing seawater. The chlorine ions contained in hydrochloric acid were diluted to prepare a laver active treatment agent containing less than 3.5% of chlorine ions to be used for laver aquaculture.

However, some fishermen illegally use industrial hydrochloric acid mixed with seawater, avoiding the use of government-approved active treatment agents and relatively easy to work with. The use of hydrochloric acid has contaminated the marine environment and damaged the image of seaweed, a natural food. In particular, since waste hydrochloric acid is used, heavy metals are polluting the sea.

In addition, although the electrolyzed water electrolyzed seawater not only improves the color of seaweed, but also has an excellent effect on the growth and control of seaweed bottle, it is a reality that fishermen avoid using it because no manufacturing device, its manufacturing method and processing device have been developed. .

When electrolyzing seawater, 90% of sodium hypochlorite (Naocl) and 10% of hypochlorous acid (HOCL) are produced. Sodium hypochlorite (Naocl) is PH 9 ~ 10, chlorine gas (CL ₂ ) is shown as PH 2-3.

Seaweed treatment is best for neutral hypochlorous acid, but when only seawater is delivered, the main component of Lax, which is strong alkaline water, sodium hypochlorite (NAOCL) is produced by the content of NAcl in seawater. If used, the seaweed may die.

In addition, chlorine ion concentration for the removal of green seaweed or diatoms attached to gimbal requires 1% to 2% of active agent, but electrolyzed water that meets the government's notification standard has low chlorine ion concentration, so large quantity must be transported from land to sea. It is a reality that fishermen who are uncomfortable with the inconvenience and the manufacturing apparatus and the processing method are evading.

Accordingly, there is a demand for an electrolyzed water device and a method of treating the electrolyzed water, which are configured to be used directly in a ship, or to be easily transported and treated.

Patent Publication No. 10-2011-0062964 (2011.06.10) Patent Publication No. 10-2007-0075362 (2007.07.18)

The present invention provides a method for producing a laver active agent, a manufacturing apparatus thereof, and a laver active agent treatment device which can prevent environmental pollution and simplify the treatment of the laver active agent.

Seaweed active treatment agent manufacturing apparatus according to an embodiment of the present invention is a dilution unit for diluting edible hydrochloric acid and raw water to reduce the concentration of edible hydrochloric acid, disposed adjacent to the dilution unit, respectively, the edible hydrochloric acid and raw water And a supply unit for supplying, an electrolytic unit connected to the dilution unit to electrolyze the dilute hydrochloric acid to form electrolytic water, and a storage unit connected to the electrolytic unit and capable of storing electrolytic water.

The supply unit includes an edible hydrochloric acid supply unit and a raw water supply unit, and the edible hydrochloric acid supply unit has an outlet formed at an upper side thereof, supports a tank in which the edible hydrochloric acid can be stored, and the outlet. It may include a support for tilting the tank toward the dilution.

The base is supported on the bottom surface and one side is hinged to one side of the bottom of the tank and one side is connected to the other side of the base, the other side is connected to the other side of the bottom of the tank, the base is hinged It may include a link driving unit for rotating based on.

The laver active treatment agent manufacturing apparatus may further include a mixing unit provided between the dilution unit and the electrolytic unit.

The mixing unit includes a tube connecting the dilution unit and the electrolytic unit, the tube through which dilute hydrochloric acid can pass, and a rotatable inside of the tube, for mixing edible hydrochloric acid of dilute hydrochloric acid passing through the tube and raw water. can do.

The laver active treatment agent manufacturing apparatus may further include a laver active treatment agent treatment device which is connected to the storage unit and accommodates the electrolytic water, and which can be passed by the laver.

The laver active treatment agent treatment apparatus is connected to the active treatment agent treatment tank that can be accommodated, raw water can be passed, the storage tank that is adjacent to the active treatment agent treatment tank and can accommodate the electrolytic water, and the storage tank It is arranged in the active treatment agent treatment tank, it may include a replenishment supply for introducing the electrolytic water of the storage tank to the active treatment agent treatment tank.

The laver active treatment agent treatment apparatus according to an embodiment of the present invention, the raw water can be accommodated, and the laver active treatment agent treatment tank that can pass through the balm, the laver active treatment agent treatment tank, the laver active treatment agent can be accommodated A storage tank and connected to the storage tank are arranged in the laver active treatment tank, and may include a supplementary supply for introducing the laver active treatment agent of the storage tank into the laver active treatment tank.

The laver active treatment apparatus may further include a guide disposed in the laver active treatment tank and allowing the laver to be submerged in the laver active treatment agent.

According to an embodiment of the present invention, a method of preparing a laver active treatment agent mixes raw water and edible hydrochloric acid at a concentration of about 35% at a ratio of 4: 1 to 10: 1 to form a dilute hydrochloric acid having a concentration of 2% to 9%, Electrolysis results in the formation of 2% to 9% of chlorine ion electrolytic water laver active agent, and 2% to 9% seaweed activator of chlorine ion diluted with sea water to produce a laver active agent containing 1% to 2% chlorine ion. Form.

According to an exemplary embodiment of the present invention, raw water and edible hydrochloric acid having a concentration of about 35% are mixed at a ratio of 4: 1 to 10: 1 to form a dilute hydrochloric acid having a concentration of 2% to 9%, and the dilute hydrochloric acid is electrolyzed to provide chlorine ion 2 Forming an electrolytic water laver active agent of% to 9%, dilute the laver active agent with 2% to 9% chlorine ions again with seawater to reduce the chlorine ion concentration to 1% to 2%. Even if the laver is treated with laver during the use of the laver active agent, laver does not die, but only harmful microorganisms, greens, and diatoms die. As a result, it is possible to reliably protect the laver from the young leaves.

According to one embodiment of the present invention, the acidity (pH) of the seawater is recovered within a short time by using an environmentally friendly laver active treatment agent, and the sediment and COD are suitable for the farmland stockpile standard, so that the impact on the marine ecosystem is not significant. Do not.

According to one embodiment of the present invention, it is expected that an eco-friendly seaweed is made to minimize the impact on the environment and at the same time help to improve the quality and stable production. As a result, consumers can purchase laver with confidence by producing and supplying high-quality laver.

According to an embodiment of the present invention, the laver active treatment agent manufacturing apparatus and laver active treatment agent processing apparatus is installed in the vessel, in particular the laver active treatment agent is stored in the storage tank installed on the vessel, so the laver active treatment agent is put in a drum or a barrel The transport from land to ship can be omitted. Accordingly, it is possible to minimize the working time and fatigue of the seaweed active agent treatment, it is possible to reduce the logistics costs due to the transport of seaweed active agent.

According to an embodiment of the present invention, the tank of the supply portion is inclined by the link driving portion to supply edible hydrochloric acid to the dilution portion. When the tank is tilted, the outlet of the tank faces the dilution space of the dilution unit, so that high concentration of edible hydrochloric acid may not flow to the bottom. Accordingly, it is possible to prevent the environmental pollution problem that can be caused by the edible hydrochloric acid flows to the floor.

1 is a block diagram of a device for producing laver active treatment agent according to an embodiment of the present invention.
Figure 2 is an enlarged view of the edible hydrochloric acid supply unit shown in FIG.
3 is an operation of the edible hydrochloric acid supply unit shown in FIG.
4 is a perspective view showing the mixing unit shown in FIG.
5 is a perspective view showing a laver active treatment agent treatment apparatus according to an embodiment of the present invention.
6 is a cross-sectional view of the laver active treatment agent treatment apparatus shown in FIG.
7 is a block diagram showing the production of the laver active treatment agent according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

Then, a laver active treatment agent manufacturing apparatus according to an embodiment of the present invention will be described with reference to FIG.

1 is a block diagram of a device for producing laver active treatment agent according to an embodiment of the present invention.

Referring to FIG. 1, the laver active treatment agent manufacturing apparatus 1 according to the present embodiment includes a dilution unit 10, a supply unit 20, an electrolytic unit 30, and a storage unit 40. The laver active treatment device manufacturing apparatus 100 may be installed on land or on a ship. When the laver active treatment device manufacturing apparatus 100 is installed in the vessel can be directly produced laver active treatment in the laver farm. This minimizes the cost, time and labor required to transport laver actives.

The dilution unit 10 according to the present embodiment mixes edible hydrochloric acid and raw water having a concentration of about 35% to lower the concentration of edible hydrochloric acid. Raw water and edible hydrochloric acid are mixed in a ratio of 4: 1 to 10: 1. Since the amount of raw water input is higher than that of edible hydrochloric acid, the concentration of edible hydrochloric acid may be lowered. By the ratio of seawater and edible hydrochloric acid, the concentration of edible hydrochloric acid can be lowered from 2% to 9%. Thus, the edible hydrochloric acid may be diluted hydrochloric acid. And raw water that lowers the concentration of edible hydrochloric acid is sea water that can be used directly in the seaweed farm. But the enemy can be fresh water.

As such, the dilution unit 10 for lowering the concentration of edible hydrochloric acid is formed in a box shape having a dilution space. Meanwhile, a stirrer (not shown) for mixing edible hydrochloric acid and raw water may be installed in the dilution space. The structure of the dilution unit 10 having a dilution space may be variously formed.

The supply part 20 is arranged adjacent to the dilution part 10. The supply unit 20 supplies edible hydrochloric acid and raw water to the dilution unit 10, and includes an edible hydrochloric acid supply unit 21a for supplying edible hydrochloric acid and a raw water supply unit 21b for supplying raw water.

The edible hydrochloric acid supply unit 21a supplies edible hydrochloric acid to the dilution unit 10 without flowing to the bottom. The edible hydrochloric acid supply part 21a includes a tank 22 and a support part 23.

2 and 3, the tank 22 stores edible hydrochloric acid to be supplied to the dilution unit 10. Located higher than the dilution portion (10). An entrance 221 is formed on the upper side of the tank 22. The entrance 221 includes an inlet 221a through which edible hydrochloric acid flows in and an outlet 221b through which edible hydrochloric acid is discharged. The inlet 221a is formed in the upper surface of the tank 22, and the outlet 221b is formed in the circumferential surface of the tank 22. As shown in FIG. The outlet 221b protrudes toward the dilution portion 10.

On the other hand, a stopper 221c for controlling edible hydrochloric acid is provided at the outlet 221b. An elastic body 221d is coupled to the stopper 221c. The elastic body 221d imparts an elastic force in the direction in which the plug 221c blocks the outlet 221b.

And at least a portion of the tank 22 is formed with a transparent window along the vertical length direction. The transparent window is marked with a scale to check the flow rate of edible hydrochloric acid.

Such a tank 22 may be made of a synthetic resin strong corrosion resistance.

The supporting part 23 tilts the tank 22 toward the dilution part 10 so that edible hydrochloric acid can be supplied to the dilution part 10. The support 23 includes a base 24 and a link driver 25.

The base 24 is disposed below the tank 22. The base 24 separates the tank 22 from the bottom surface. Accordingly, the height of the tank 22 may be adjusted by the base 24.

Base 24 is disposed on the bottom surface, one side protrudes the upper side. The protruding base 24 is hingedly connected to one side of the bottom surface of the tank 22. Tank 22 may be rotated about the hinge.

The link drive 25 tilts the tank 22. The link driver 25 includes a link 251 and an actuator 252.

The link 251 is disposed between the other side of the base 24 and the other side of the bottom surface of the tank 22. The link 251 has a preset length. At this time, the length of the link 251 is longer than the other protruding length of the base 24. The lower side of this link 251 is hingedly connected to the base 24. The upper side of the link 251 is hingedly connected to the tank 22. The link hinge 251a is formed at the center of the link 251. The link 251 may be folded or unfolded by the link hinge 251a.

Actuator 252 includes a rod and a housing. The interior of the housing is empty. The working fluid such as compressed air or hydraulic oil may be stored in the housing. One side of the rod is coupled to the housing. The rod can move with the flow of working fluid. Accordingly, the rod can be inserted into the housing or withdrawn.

The housing of such an actuator 252 is hingedly connected to the base 24. The other side of the rod is hingedly connected to the link hinge 251a.

Accordingly, when the rod is inserted into the housing, the link 251 is folded. At this time, the tank 22 maintains a horizontal state. However, when the rod is withdrawn from the housing, the link 251 is in an extended state. When the link 251 is unfolded, the tank 22 is inclined toward the dilution unit 10 based on the hinge. When the tank 22 is inclined, the outlet 221b faces the dilution unit 10. At this time, the edible hydrochloric acid in the tank 22 may be introduced into the dilution space of the dilution unit 10 through the outlet (221b).

Meanwhile, although the link driver 25 has been described as the link 251 and the actuator 252, the link driver 25 may be formed only of an actuator. Although not shown in the drawings, the actuator may connect the base 24 and the tank 22 to adjust the inclination of the tank 22 according to the operation of the actuator. The link driver 25 may be formed in various ways such as a rack pinion and an X-link.

The structure of the raw water supply part 21b is formed similarly to the saline supply part 20. Accordingly, detailed description of the raw water supply unit 21b will be omitted.

However, the configuration of the raw water supply unit 21b may be configured differently from the saline supply unit 20. At this time, it may be formed such as a pump to supply the sea water directly to the dilution unit (10).

The electrolytic unit 30 applies electrical energy to the dilute hydrochloric acid to cause oxidation and reduction reactions. The electrolytic unit 30 is connected to the dilution unit 10. Dilute hydrochloric acid may be introduced into the electrolytic unit 30. At this time, dilute hydrochloric acid is introduced into the electrolytic unit 30 by the pumping force of the pump.

The electrolytic unit 30 according to the present embodiment is a known electrolytic cell. The electrolytic cell according to this embodiment is a diaphragm electrolytic cell. However, if edible hydrochloric acid and raw water are not diluted and the seawater flows directly into the electrolyzer, the electrolyzer may be a diaphragm.

The detailed configuration of the electrolytic unit 30 is the same as the electrolytic cell of the known configuration, detailed description thereof will be omitted.

In addition, electrolyzing dilute hydrochloric acid at a concentration of 2% to 9% in the electrolytic unit 30 according to the present embodiment generates chlorine ions with a seaweed active treatment agent having about 2% to 9% electrolytic water. At this time, the sodium hypochlorite component, which is a strong alkaline number, is minimized. As a result, the laver active treatment agent is produced that can be used safely even in laver laver.

And the electrolytic unit 30 is provided with a sensor (not shown) for measuring the chlorine ion concentration. When the chlorine ion concentration detected by the sensor is less than or equal to the setting, the amount of edible hydrochloric acid and edible hydrochloric acid injected into the dilution unit 10 may be adjusted through the supply unit 20.

The reservoir 40 is formed in a container shape. A laver activator with about 2% to 9% chlorine ions can be stored. The storage 40 is formed with a cap so that the seaweed active agent does not leak. The storage unit 40 may be made of stainless steel or synthetic resin having excellent corrosion resistance.

On the other hand, the laver active treatment device manufacturing apparatus 100 according to an embodiment of the present invention may further include a mixing unit (50).

1 and 4, the mixing unit 50 is disposed between the dilution unit 10 and the electrolytic unit 30. This, the mixing section 50 includes a tube 51 and a fan 52.

The tubular body 51 is formed in predetermined length. The tubular body 51 connects the dilution unit 10 and the electrolytic unit 30. The space of the dilution part 10 and the electrolytic part 30 is connected through the internal space of the tubular body 51. In addition, a pump (not shown) is coupled to one side of the tube 51 located in the dilution unit 10. Due to the pumping force of the pump, dilute hydrochloric acid may be supplied to the electrolytic unit 30 through the tube 51.

The fan 52 is arranged along the longitudinal direction inside the tubular body 51. The fan 52 may rotate inside the tube 51. The fan 52 can be rotated by the pressure of the dilute hydrochloric acid passing through the tube 51. However, the fan 52 may rotate by receiving power from a motor (not shown) installed outside.

The fan 52 which rotates inside the tube body 51 stirs dilute hydrochloric acid passing through. Accordingly, the dilute hydrochloric acid passing through the tube 51 can be precisely mixed.

However, the mixing unit 50 according to the present embodiment may be disposed between the electrolytic unit 30 and the storage unit 40 to stir the electrolyzed water.

Meanwhile, the laver active treatment agent manufacturing apparatus 100 according to an embodiment of the present invention may further include a laver active treatment agent processing apparatus.

5 and 6, the laver active treatment agent 200 according to the present embodiment dilutes the laver active agent and seawater to form about 1% to 2% of chlorine ions of the laver active agent. Such a laver active treatment agent processing apparatus 200 is installed on a vessel (not shown) equipped with a laver active treatment agent manufacturing apparatus 100.

The laver active treatment agent processing apparatus 200 according to the present embodiment includes a laver active treatment agent treatment tank 21, a storage tank 212, and a replenishment supply unit 213.

The laver active treatment tank 21 and the storage tank 212 are stacked in the vertical direction because they are installed in a narrow vessel. Seaweed or fresh water may be accommodated in the seaweed treatment tank 21. The upper surface of the laver active treatment agent treatment tank 21 is opened. The gimbal 300, which is the growth of laver, can pass through the laver active treatment agent treatment tank 21. Both sides of the laver active treatment agent treatment tank 21 in the longitudinal direction are formed in a streamlined shape. The damage of the laver growing on the laver passing by the streamlined sides can be minimized.

And both sides of the laver active treatment agent treatment tank 21 is provided with a guide 211 along the longitudinal direction so that the gimbal passing through the laver treatment tank 21 can be submerged in seawater.

The storage tank 212 is disposed below the seaweed treatment agent treatment tank 21. The storage tank 212 may store the laver active agent having a chlorine ion concentration of 2% to 9% prepared in the laver active agent manufacturing apparatus 100. The storage tank 212 is connected to the storage unit 40. However, the storage tank 212 may be directly connected to the electrolytic unit 30 to function as the storage unit 40.

Storage tank 212 is closed to prevent leakage of the laver active agent. On the other hand, in order to control the pressure by the internal chlorine gas of the storage tank 212, a pressure regulator (not shown) is formed in the storage tank 212.

Since the storage tank 212 is installed directly on the ship, the process of transporting the container containing the seaweed active agent to the ship can be omitted. Accordingly, the fatigue of the worker can be minimized and the laver active treatment can be easily carried out.

The replenishment supply unit 213 connects the storage tank 212 and the seaweed treatment agent treatment tank 21. One side of the replenishment supply unit 213 is located in the storage tank 212. One side of the replenishment supply part 213 is provided with a pump 231a. The other side of the replenishment supply part 213 is located in the seaweed treatment agent treatment tank 21. At this time, the other side of the replenishment supply unit 213 is branched. Injection holes are formed in the branched replenishment supply unit 213. In addition, a check valve (not shown) is provided in the injection hole. The check valve prevents the electrolytic water of the steaming treatment agent treatment tank 21 from flowing back to the replenishment supply section 213.

On the other hand, the laver active treatment agent treatment tank 21 is provided with a sensor (not shown) for measuring the chlorine ion concentration. When the measured value of the chlorine ion concentration sensed by the sensor is smaller or larger than the set value, the replenishment supply unit 213 supplies the laver active agent in the storage tank 212 to the laver active agent treatment tank 21 or stops the supply. .

In addition, the laver active treatment agent treatment tank 21 may be provided with a stirring device (not shown) for mixing the laver active treatment agent introduced from the storage tank (212) and sea water. The stirrer allows the laver active treatment agent to be uniformly mixed with the seawater in the treatment tank 21 as a whole.

The laver active treatment agent treatment apparatus according to an embodiment of the present invention is similar to the laver active treatment agent treatment apparatus shown in FIGS. 1 to 6. Accordingly, a detailed description of the laver active treatment agent treatment apparatus according to an embodiment of the present invention will be omitted.

Next, with reference to Figure 7, it will be described with respect to the laver active treatment manufacturing method according to an embodiment of the present invention.

The laver active treatment preparation method according to the present embodiment includes a dilution step (S1), an electrolysis step (S2), a chlorine ion forming step (S3).

In the dilution step (S1), raw water and edible hydrochloric acid at a concentration of about 35% are mixed at a ratio of 4: 1 to 10: 1. At this time, the raw water and edible hydrochloric acid may be stirred through a stirrer. When edible hydrochloric acid and raw water are mixed, a concentration of about 35% of edible hydrochloric acid is formed at a concentration of 2% to 9%. Thus, edible hydrochloric acid forms dilute hydrochloric acid as dilute hydrochloric acid.

In the electrolysis step (S2), the oxidation and reduction reactions occur by adding electrical energy to the dilute hydrochloric acid. Electrolyzed dilute hydrochloric acid produces electrolytic water laver active agent that maintains 2% to 9% chlorine ion. Such a laver active agent may be stored in the storage unit.

In the chlorine ion formation step (S3), when the chlorine ion is diluted by mixing the seaweed active agent having 2% to 9% with seawater, the concentration of chlorine ion may be about 1% to 2%.

Since the use of a seaweed activator with a chlorine ion concentration of 1% to 2% does not cause marine pollution, and sodium hypochlorite is neutralized by strong acidic water, so no steam will be killed even if it is treated in the late stage seaweed.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

100: laver active treatment manufacturing device
10: dilution unit 20: supply unit
21a: edible hydrochloric acid supply 21b: raw water supply
22: tank 221: doorway
221a: entrance 221b: exit
221c: stopper 221d: elastomer
23: base 24: base
25: link driving unit 251: link
251a: link hinge 252: actuator
30: electrolytic unit 40: storage unit
50: mixing section 51: tube
52: fan
2: seaweed treatment agent processing device
21: seaweed treatment tank 211: guide
212: storage tank 213: replenishment supply
213a: pump

Claims (10)

In electrolyzing raw water, edible hydrochloric acid is used as a catalyst to produce uniform and strong electrolytic water.
Dilution unit for lowering the concentration of edible hydrochloric acid by diluting the supplied edible hydrochloric acid and raw water,
An electrolytic unit connected to the dilution unit and configured to electrolyze edible hydrochloric acid having a lower concentration by the dilution unit to generate electrolytic water;
A storage unit connected to the electrolytic unit and capable of storing the electrolyzed water, and
Mixing unit connecting the dilution unit and the electrolytic unit
Lt; / RTI >
The mixing unit
It includes a pipe connecting the dilution unit and the electrolytic unit and a fan that is rotatably disposed inside the pipe and mixes the edible hydrochloric acid and the raw water passing through the pipe.
Seaweed treatment agent manufacturing device. In claim 1,
It is disposed adjacent to the dilution unit, and further comprising a supply unit for supplying each of the edible hydrochloric acid and raw water to the dilution unit. 3. The method of claim 2,
The supply unit includes an edible hydrochloric acid supply unit and raw water supply unit,
The edible hydrochloric acid supply unit,
An outlet is formed at an upper side, and the tank may store the edible hydrochloric acid therein;
Support for supporting the tank and tilting the tank so that the outlet toward the dilution portion
Containing
Seaweed treatment agent manufacturing device. 4. The method of claim 3,
[0030]
A base supported on the bottom surface and hinged to one side of the bottom surface of the tank;
One side is connected to the other side of the base, the other side is connected to the other side of the bottom of the tank, the link drive unit for rotating the base relative to the hinge
Containing
Seaweed treatment agent manufacturing device. In claim 1,
The laver active treatment agent manufacturing apparatus is connected to the storage unit and the electrolytic water can be accommodated, and further comprising a laver active agent treatment device that can pass through. The method of claim 5,
The laver active treatment agent treatment apparatus,
A seaweed treatment tank, where raw water can be accommodated and seaweed can pass through,
A storage tank adjacent to the laver active treatment tank and containing electrolytic water; and
A replenishment supply unit connected to the storage tank and arranged in the laver active treatment tank to introduce electrolyzed water from the storage tank into the laver active treatment tank
Containing
Seaweed treatment agent manufacturing device. In electrolyzing raw water, edible hydrochloric acid is used as a catalyst to produce uniform and strong electrolytic water.
Dilution unit to lower the concentration of edible hydrochloric acid by diluting edible hydrochloric acid and raw water,
A supply unit including an edible hydrochloric acid supply unit supplying the edible hydrochloric acid to the dilution unit, and a raw water supply unit supplying the raw water;
An electrolytic unit connected to the dilution unit and configured to electrolyze edible hydrochloric acid having a lower concentration by the dilution unit to generate electrolytic water, and
The storage unit is connected to the electrolytic unit, the electrolytic water can be stored
Lt; / RTI >
The edible hydrochloric acid supply unit,
An outlet is formed on the upper side, and supports the tank and the tank in which the edible hydrochloric acid can be stored therein, and a support for tilting the tank so that the outlet faces the dilution unit.
Seaweed treatment agent manufacturing apparatus comprising a. In claim 7,
[0030]
A base supported on the bottom surface and hinged to one side of the bottom surface of the tank;
One side is connected to the other side of the base, the other side is connected to the other side of the bottom of the tank, the link drive unit for rotating the base relative to the hinge
Containing
Seaweed treatment agent manufacturing device. In claim 7,
The laver active treatment agent manufacturing apparatus is connected to the storage unit and the electrolytic water can be accommodated, and further comprising a laver active agent treatment device that can pass through. delete

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