KR20130113829A - Apparatus for manufacturing sterilized water having ion exchange resin filter - Google Patents

Abstract

PURPOSE: An apparatus for manufacturing sterilized water is provided to maintain an optimal sterilization degree by adding the process of controlling acidity using an ion exchange resin filter. CONSTITUTION: An apparatus for manufacturing sterilized water comprises a raw water supply part (10); an ion exchange resin filter (40); an electrolyzer (20) connected to the ion exchange resin filter; and an electrolytic material supply part (30). The ion exchange resin filter receives raw water from the raw water supply part. The electrolyzer is equipped with an electrolyzing sterilization device including a cathode plate and an anode plate. The electrolytic material supply part supplies an electrolytic material to the electrolyzer. The electrolytic material is a salt containing Cl. The pH of the sterilized water is controlled by the ion exchange resin filter. [Reference numerals] (10) Raw water supply part; (20) Electrolyzer; (30) Electrolytic material supply part; (40) Ion exchange resin filter; (50) Sterilized water cork

Description

Apparatus for manufacturing sterilized water having ion exchange resin filter}

The present invention relates to a sterilizing water production apparatus comprising an ion exchange resin filter. More specifically, the present invention is a sterilized water including an ion exchange resin filter which can produce a non-acidic hypochlorous acid water by adjusting the pH by passing through the ion exchange resin filter in the process of producing the sterilized water using electrolysis It relates to a manufacturing apparatus.

As the demand for more hygienic and safe eating habits and lifestyle is increasing, interest in sterilization water is increasing. To this end, sterilization is performed to sterilize raw water supplied by a direct method such as tap water supplied through a faucet, or by storing sterilized water after storing water in a sink or a water tank to make the stored water sterilized. Conventional sterilizing water is a sterilizing water having a sterilizing power of hypochlorous acid (HOCl) or sodium hypochlorite (NaOCl) by introducing raw water into an electrolytic cell having a pair of electrodes and then adding salts such as hydrochloric acid or salt as an electrolytic material. Create

Electrolyzed water produced in an electrolytic cell is an aqueous solution having a useful function produced by adding an electrolytic material such as saline or hydrochloric acid to raw water such as tap water and electrolyzing. Electrolyzed water can be largely divided into electrolytic drinking water and electrolytic sterilization water. Electrolyzed drinking water is weak alkaline electrolytic water for drinking purposes, and electrolytic sterilization water is for sterilization, strong acidic electrolytic water, unacidic electrolytic water and sodium hypochlorite. The electrolytic sterilization water is generated at the positive (+) side of the electrode when it is electrolyzed by adding an electrolytic material of salt or hydrochloric acid to water.

In the case of HCl, which is conventionally used as an electrolytic material, by maintaining a low pH, it is possible to make a sterilizing material having a high sterilizing power without the need for a separate pH adjusting agent. On the other hand, the production of sterilized water using HCl has a problem that it poses a risk factor while promoting psychological anxiety for the user.

As a conventional sterilizing water production apparatus may be mentioned Korean Patent No. 10-0853347. The above-cited invention uses an electrolysis device to produce sterile water by converting chlorine ions contained in water into a sterilizing material without the addition of a separate sterilizing material, and can also control the concentration of the generated sterilizing material to improve power efficiency. It relates to a manufacturing apparatus that can be made. That is, a NaCl supply tank 20 is installed between the flow meter 32 and the electrolytic cell 10 of the flow control unit 30 to adjust the concentration of hypochlorous ion, and the NaCl supply tank 20 is an electrolytic cell 10. In order to control the concentration of hypochlorite ions in the influent flowing into the) to add a predetermined amount of NaCl.

However, the following problems occur when the sterilizing water production apparatus disclosed in the registered patent is actually used.

When the NaCl solution is added to the electrolyzer to carry out the electrolytic process, pH of about 7 to 8 can be maintained, but this causes a problem that it is difficult to maintain an optimal sterilization pH of about 5 to 6.

Korean Patent Registration No. 10-0853347

Accordingly, the present invention solves the problems of the prior art, by adding a salt containing Cl in the electrolytic cell to the process of producing the electrolytic water in addition to the process of adjusting the acidity using an ion exchange resin filter to optimize the degree of sterilization It is to provide a non-acidic hypochlorous acid production sterilizing water apparatus and method comprising an ion exchange resin that can maintain.

In order to solve the above problems, the present invention sterilizing water production apparatus raw water supply unit; An ion exchange resin filter receiving raw water from the raw water supply unit; An electrolytic cell connected to the ion exchange resin filter and equipped with an electrolytic sterilization means having a positive electrode plate and a negative electrode plate; And an electrolytic material supply unit supplying an electrolytic material to the electrolytic cell.

It may be preferred that the electrolytic material is a salt containing Cl.

It may be preferred that the electrolytic material is KCl or NaCl.

It may be desirable to adjust the pH of the sterilized water through the ion exchange resin filter.

It may be preferable that the electrolytic material supply unit receives raw water directly from the raw water supply unit.

It may be preferable that a filter for removing the scale remaining in the raw water to be supplied is arranged in the outlet means of the raw water supply unit.

The electrolytic material supply unit may preferably supply an electrolytic material on the front end of the ion exchange resin filter or the front end of the electrolytic cell.

The ion exchange resin filter may be preferably connected to the rear end of the electrolytic cell.

It may be preferable that the raw water supply unit directly supplies raw water to the ion exchange resin filter.

The sterilizing water production apparatus may further include a control unit electrically connected to the raw water supply unit, the electrolytic cell, and the electrolytic material supply unit to selectively operate.

The controller may adjust the concentration of the sterilized water finally discharged by adjusting the amount of raw water supplied from the raw water supply unit.

The controller may adjust the concentration of the sterilized water finally discharged by adjusting the amount of power applied to the positive electrode plate and the negative electrode plate of the electrolytic sterilization means.

The control unit may adjust the concentration of the sterilized water finally discharged by adjusting the amount of the electrolytic material supplied from the electrolytic material supply unit.

In the present invention, an apparatus for preparing sterilizing water including an ion exchange resin filter may further include using an ion exchange resin filter in addition to a process of preparing electrolytic water by adding an electrolytic material such as a salt containing Cl to an electrolytic cell together with raw water supplied from a raw water supply unit. By adding a process to adjust the acidity, it is possible to maintain an optimum degree of sterilization.

1 is a view showing a first embodiment of the sterilizing water production apparatus according to the present invention,
2 is a view showing a second embodiment of the apparatus for producing sterilizing water according to the present invention;
3 is a view showing a third embodiment of the sterilizing water production apparatus according to the present invention,
4 is a view showing a fourth embodiment of the sterilizing water production apparatus according to the present invention, and
5 is a block diagram showing a coupling relationship with the components of the present invention centered on the control unit.

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

First, the sterilizing water production apparatus 100 according to the first embodiment of the present invention will be described with reference to FIGS. 1 and 5.

Sterilization water production apparatus 100 is sterilization having a sterilization power through the electrolysis action on the raw water supply unit 10, the raw water supplied from the raw water supply unit 10 for storing and supplying raw water in a state directly connected to the tap water (1) The electrolyzer 20 for generating water, the electrolytic material supply unit 30 for supplying the electrolytic material on the flow path connecting the raw water supply unit 10 and the electrolyzer 20, and the electrolytic cell 20 are connected to the rear end of the electrolyzer 20. Ion exchange resin for the user to use the sterilized water passed through the ion exchange resin filter 40, the ion exchange resin filter 40 to adjust the pH of the sterilized water through the ion exchange operation for the sterilized water discharged from the Sterilizing water cock 50 disposed on the flow path connected to the rear end of the filter 40, and the sensor 70 for measuring the ion concentration of the sterilized water discharged through the ion exchange resin filter 40 .

The sterilizing water production apparatus 100 includes a filter (not shown) which is disposed at the outlet of the raw water supply unit 10 and removes the scale remaining in the raw water supplied.

In the electrolyzer 20, electrolytic sterilization means having a positive electrode plate and a negative electrode plate is mounted.

Meanwhile, the present invention may further include a controller 60 electrically connected to the raw water supply unit 10, the electrolyzer 20, the electrolytic material supply unit 30, and the sensor 70. The controller 60 may determine whether the pH concentration of the sterilized water measured by the sensor 70 satisfies the preset reference concentration range. If the reference concentration range is not satisfied, the concentration of sterilizing water is controlled by adjusting the supply of raw water from the raw water supply unit 10, the amount of power applied to the electrolytic sterilization means of the electrolytic cell 20, or the amount of electrolytic material supplied from the electrolytic material supply unit 30. Can be adjusted to within the reference concentration range.

The electrolytic material stored in the electrolytic material supply unit 30 may be a salt including Cl, specifically, may be any one of a group consisting of KCl, NaCl, and the like. The electrolytic material may be applicable to any salt form including Cl. The electrolytic material may be supplied in an ionized form in water.

On the other hand, the electrolytic material supply unit 30 is made of a separate cartridge to accommodate the electrolytic material in the solid form can be detachably mounted on the sterilizing water production apparatus 100. In this case, the electrolytic material supply unit 30 may receive the raw water directly from the raw water supply unit 10.

The ion exchange resin filter 40 has an ion exchange resin therein. The ion exchange resin is coupled to the cation to meet the cations ^{(Na +, Mg 2 +,} Ca 2 +) of the raw water or the electrolytic water in the state with H ⁺ ion release H ⁺ ions, an ion exchange resin. Ion exchange resins can be as long as for any mubang to meet the cation ^{(Na +, Mg 2 +,} Ca 2 +) release H ⁺ ions. At this time, when the released H ⁺ ions are mixed into the generated sterilized water, the pH of the sterilized water is lowered. This serves as the pH adjuster mentioned above.

That is, according to the present invention, the ion-exchange resin can be used to produce HOCl-type bactericidal substances having high sterilizing power without applying strong acid such as hydrochloric acid.

The sterilizing water pH concentration discharged in the first embodiment 100 can be adjusted to pH 2 to 3, preferably within the concentration range of pH 4-6.

Next, the sterilizing water production apparatus 200 according to the second embodiment of the present invention will be described with reference to FIG. 2. Hereinafter, in comparison with the sterilizing water production apparatus 100 according to the first embodiment, the same parts will be omitted, and different parts will be mainly described.

The ion exchange resin filter 40 in the sterilizing water production apparatus 200 receives raw water directly from the raw water supply unit 10. The ion exchange resin filter 40 ionizes the supplied raw water and supplies it on a flow path connected to the rear end of the ion exchange resin filter 40.

The pH concentration of the sterilized water discharged in the second embodiment 200 is preferably in the concentration range of pH 4-6.

Next, the sterilizing water production apparatus 300 according to the third embodiment of the present invention will be described with reference to FIG. 3. Hereinafter, in comparison with the sterilizing water production apparatus 100 according to the first embodiment, the same parts will be omitted, and different parts will be mainly described.

The ion exchange resin filter 40 in the sterilizing water production apparatus 300 is disposed on a flow path connecting the raw water supply unit 10 and the electrolytic cell 20. That is, the raw water from the raw water supply unit 10 flows into the electrolytic cell 20 in an ionized state while passing through the ion exchange resin filter 40. The electrolytic material supply unit 30 supplies an electrolytic material on a flow path connected to the rear end of the ion exchange resin filter 40, and the ionized water to which the electrolytic material is added flows into the electrolytic cell 20.

The reference pH concentration of the sterilized water discharged in the third embodiment 300 is adjustable to an acidity of pH 4 to 5, preferably within the concentration range of pH 4-6.

Next, the sterilizing water producing apparatus 400 according to the fourth embodiment of the present invention will be described with reference to FIG. 4. In the following description, the same parts are omitted from the sterilized water production apparatus 300 according to the third embodiment, and different parts will be mainly described.

The electrolytic material supply unit 30 supplies the electrolytic material on the flow path connecting the raw water supply unit 10 and the ion exchange resin filter 40, and the raw water to which the electrolytic material is added flows into the ion exchange resin filter 40.

The reference pH concentration of the sterilized water discharged in the fourth embodiment 400 is adjustable to an acidity of pH 3 to 4, preferably within the concentration range of pH 4-6.

On the other hand, in the sterilizing water production apparatus (100, 200, 300, 400) according to the first to fourth embodiments of the present invention, the raw water discharged from the raw water supply unit 10 is directly mixed with the sterilizing water discharged from the sterilizing water cock 50 to adjust the concentration This may be possible.

In addition, in the sterilizing water production apparatus (100, 200, 300, 400) by controlling the amount of the electrolytic material supplied from the electrolytic material supply unit 30 can be adjusted the concentration of the sterilized water finally discharged.

In addition, the sterilizing water production apparatus (100, 200, 300, 400) can adjust the concentration of the sterilizing water generated by controlling the amount of electrical energy applied to the electrolytic sterilization means in the electrolytic cell (20).

As described above, the apparatus for producing sterilizing water according to the present invention manufactures sterilizing water through a process of ionizing and electrolyzing raw water through the ion exchange resin filter 40 and the electrolytic cell 20. To summarize, refer to.

First, raw water is supplied from the tap water 1 to the raw water supply unit 10 and stored. The raw water stored in the raw water supply unit 10 is supplied to the electrolytic cell 20. In the process of supplying the raw water to the electrolytic cell 20, by supplying the electrolytic material from the electrolytic material supply unit 30 to the raw water, it is possible to easily generate the non-acidic hypochlorous acid water on the electrolytic cell 20.

On the other hand, on the flow path through which the sterilizing water from the electrolytic cell 20 is discharged, ionized water passing through the ion exchange resin filter 40 which receives raw water directly from the raw water supply unit 10 is supplied. The supply of the ionized water is responsible for controlling the pH concentration of the sterilized water discharged from the electrolytic cell 20. The controller 60 may adjust the acidity of the non-acidic hypochlorous acid water by adjusting the amount of raw water flowing from the raw water supply unit 10 to the ion exchange resin filter 40.

That is, according to the present invention, chlorine ions (Cl ⁻ ) decomposed from the salt containing Cl supplied from the separate electrolytic material supply unit 30 are hypochlorous acid (HOCl), which is a sterilizing substance through electrolysis in the electrolytic cell 20. Is converted. In addition, the ion exchange resin filter 40 may be used to adjust the pH in the sterilized water in which electrolysis is performed.

As described above, the apparatus for preparing sterilizing water including the ion exchange resin filter according to the present invention further adds an electrolytic material, such as a salt containing Cl, to an electrolytic cell together with raw water supplied from a raw water supply unit to prepare electrolytic water. Optimal sterilization can be maintained by adding a process to adjust the acidity using a filter.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the present invention can be changed.

10: raw water supply
20: electrolyzer
30: electrolytic material supply unit
40: ion exchange resin filter
50: sterilization cock
60:
70: detection sensor
100: sterilizing water manufacturing apparatus

Claims (13)

Raw water supply;
An ion exchange resin filter receiving raw water from the raw water supply unit;
An electrolytic cell connected to the ion exchange resin filter and equipped with an electrolytic sterilization means having a positive electrode plate and a negative electrode plate; And
An electrolytic material supply unit supplying an electrolytic material onto the electrolyzer;
≪ / RTI >
Sterile water production apparatus.
The method of claim 1,
The electrolytic material is characterized in that the salt containing Cl,
Sterile water production apparatus.
3. The method of claim 2,
The electrolytic material is characterized in that KCl or NaCl,
Sterile water production apparatus.
The method of claim 1,
Characterized in that the pH of the sterilized water is adjusted through the ion exchange resin filter,
Sterile water production apparatus.
The method of claim 1,
The electrolytic material supply unit is characterized in that the raw water is supplied directly from the raw water supply unit,
Sterile water production apparatus.
The method of claim 1,
Characterized in that the filter for removing the remaining scale in the raw water supplied to the outlet means of the raw water supply unit,
Sterile water production apparatus.
The method of claim 1,
The electrolytic material supply unit is characterized in that for supplying an electrolytic material on the front end of the ion exchange resin filter or the front end of the electrolytic cell,
Sterile water production apparatus.
The method of claim 1,
The ion exchange resin filter is characterized in that connected to the rear end of the electrolytic cell,
Sterile water production apparatus.
The method of claim 8,
The raw water supply unit is characterized in that for supplying the raw water directly to the ion exchange resin filter,
Sterile water production apparatus.
The method of claim 1,
The sterilizing water production apparatus,
And a control unit electrically connected to the raw water supply unit, the electrolytic cell, and the electrolytic material supply unit to selectively operate.
Sterile water production apparatus.
11. The method of claim 10,
The controller is characterized in that for adjusting the concentration of the final sterilized water discharged by adjusting the amount of raw water supplied from the raw water supply,
Sterile water production apparatus.
11. The method of claim 10,
The control unit is characterized in that for controlling the concentration of the sterilized water finally discharged by adjusting the amount of power applied to the positive electrode plate and the negative electrode plate of the electrolytic sterilization means,
Sterile water production apparatus.
11. The method of claim 10,
The control unit is characterized in that for controlling the concentration of the sterilized water finally discharged by adjusting the amount of the electrolytic material supplied from the electrolytic material supply unit,
Sterile water production apparatus.

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