KR970004390Y1 - Acidity water manufacturing apparatus - Google Patents

Abstract

None.

Description

Acid water generator

The present invention relates to an acidic water generator, and more particularly, to an acidic water generator configured to be portable by using an electrolytic cell together with a reservoir by a non-flowing water method.

As a conventional apparatus, Japanese Unexamined Patent Application Publication No. Hei 3-98690 is invented by the inventor.

According to the above-described invention of the present inventors, there is a principle of continuously producing electrolytic generated water by filling an electrolyte in the anode and cathode chambers separated by partition walls and applying a DC voltage to the electrolyte.

This electrolyte is adjusted so that the electrolyte is dissolved in the drinking water, and it is electrolytically suitable for obtaining electrolytically generated water. As the electrolyte, salt and potassium chloride are often used.

When a voltage is applied to the DC voltage, hydrogen ions are reduced in the vicinity of the negative electrode (-) to generate hydrogen gas, and the hydrogen ions in the electrolyte are consumed. Cations other than hydrogen ions form hydrogen ion pairs, and the solution in the cathode chamber gradually becomes basic.

On the other hand, in the vicinity of the anode, the hydroxyl ions in the electrolyte are reduced to generate oxygen gas, and the hydroxide ions in the electrolyte are consumed. Anions other than hydroxyl ions form acid with hydrogen, and the solution in the anode chamber becomes acidic. Thus the water is electrolyzed.

The basic ionized water produced in this way has a good taste and contains abundant calcium ions. In addition, since the activity is high, the various wastes can be dissolved and released into the body when entering the body. In this regard, it has been expected as a beverage that is beneficial to health.

However, such a conventional electrolytic method employs a running water method, and in the case of using tap water or spring water, piping of water facilities is required, and various various connector fittings for connecting to the water facilities are required. On the other hand, in some cases it is impossible to pipe the water supply facility in this case is impossible to use, there is a disadvantage in that a lot of place restrictions in use.

In addition, since a large amount of treated water must be continuously produced, the capacity is increased and the structure of the processing apparatus is complicated, and it is difficult to obtain a desired basic or acidic treated water.

The present invention has been devised in view of the above points, and in the present invention, it is configured to be manufactured in a portable manner, and the generated water to be treated is conveniently made to have a desired accurate acid or alkalinity by a time controller. .

1 schematically shows the principle of construction of the device according to the present invention.

* Explanation of symbols for main parts of the drawings

1: anode chamber 2: cathode chamber

3: anode 4: cathode

5: bulkhead 6: time control device

The main configuration of the acidic water generating device according to the present invention for achieving the above object, as shown in Figure 1, the electrolytic cell consisting of the anode chamber 1, the cathode chamber 2, and the semi-permeable partition wall (5) It consists of a reservoir. That is, the partition 5 is placed in the middle and two spaces are formed. For example, the left side of the partition wall 5 is a reservoir for acidic water generated and stored, and on the contrary, the right side of the partition wall 5 is an alkaline water generated and stored. 1 is a view for explaining the principle of the device according to the present invention is not particularly limited structurally.

The apparatus according to the present invention fills a lean electrolyte solution with water to be treated in a cathode chamber () side electrolytic cell and an anode chamber (1) side electrolyte tank provided through a semipermeable partition wall, that is, two reservoir tanks. As lean electrolyte solution, sodium chloride (saline), potassium chloride, etc. are dissolved as an electrolyte, and when a direct current voltage is applied to the cathode chamber and the anode chamber, OH radicals or C1 radicals are generated by electrolysis to retain the electrolyzed water.

In addition, in the present invention, by connecting the time control device 6 so that the voltage is applied to the positive electrode 3 and the negative electrode 4 of the electrolytic cell for a predetermined time, the water generated by electrolysis according to the time setting of the time control device 6 is OH. Allow the content of radicals or C1 radicals to be controlled.

That is, the water in the electrolytic cell constituted by the reservoir as described above is allowed to continue the electrolysis for a predetermined time by the time controller 6 in the state of being stored, but can be made into a predetermined acidic or alkaline water according to the setting of the time There is convenience. For example, when the time is set to 7 minutes or more, the acidic water can be generated so that the electrolysis is increased by that much and the acidity is about pH 2.7 or more.

In the generated water, if the unstable ion species, OH radicals and C1 radicals, are decomposed, that is, they do not have the desired predetermined radicals, they are put back into the electrolytic cell to have a desired constant concentration by electrolysis control by time setting. It is possible.

On the other hand, OH radicals or C1 radicals contained in the acidic water produced at a certain concentration are thus highly reactive, thus exhibiting bactericidal effects on various bacteria by destroying the cell membrane or performing oxidative degradation of proteins. Done.

The following example is a test to see the sterilization effect of the acidic water produced by the device of the present invention.

(Example 1)

Raw water is poured into the anode chamber 1 and the cathode chamber 2, and 1% sodium chloride is dissolved, through the semi-permeable partition 5, through the anode 3 and the cathode 4 A DC voltage of 15 V was applied, and current was allowed to flow for 1 minute by the time controller 6 to generate and leave OH radicals or C1 radicals. And, after three days, the acidic water produced as described above was partially collected in the water tank and tested for bactericidal activity against E. coli and general bacteria.

The results are shown below.

First, the bacterial suspension of 10 ⁵ was adjusted and mixed with the acidic water collected as described above to investigate the sterilization characteristics over time as follows.

30 seconds 1 minute 10 minutes 1 hour

Escherichia coli 0 0 0 0

General bacteria 10 ² 0 0 0

(Example 2)

Raw water is placed in the anode chamber 1 and the cathode chamber 2, and 1% of sodium chloride is dissolved, through the semipermeable partition 5, through the anode 3 and the cathode 4; A DC voltage of 15V was applied, and current was flowed by the time controller 6 for 1 minute to generate OH radicals or C1 radicals, and the water in the reservoir was left for 30 days. Then, some of the generated acidic water was collected from the reservoir and the sterilizing effect of the acidic water against E. coli and general bacteria was examined.

First, the bacterial suspension of 10 ⁵ was adjusted, left for 30 days, and mixed with a small amount of acidic water collected. And the case of examining the sterilization characteristics over time is as follows.

30 seconds 1 minute 10 minutes 1 hour

Escherichia coli 0 0 0 0

General bacteria 10 ³ 0 0 0

As shown in the above embodiment, even after only 1 minute electrolytic treatment by the time control device 6 of the acid water generator according to the present invention, the generated acid water maintains sterilization characteristics for almost 1 month. It can be confirmed, and its sterilizing power when mixed with the bacteria, but showed a bactericidal effect that can kill all bacteria even after 1 minute.

According to the acidic water generating device according to the present invention as described above, since the electrolytic cell itself becomes a water tank, it does not need a water tank in particular, and can be manufactured with a simple structure as a whole, so it is very easy to manufacture portable.

Further, according to the time controller 6, since the acidity of the treated water to be treated is possible only by controlling the time, there is an advantage that it is very easy to generate as the treated water having the desired precise acidity desired, and the treated acidity. The produced water also showed very good bactericidal effect of E. coli and general bacteria.

Therefore, the generated water treated by the present invention can play a role as a functional water in addition to the drink for health, for example, can be applied to oral disinfection, affected area, etc., which also has no side effects and harmless to the human body Therefore, it can be applied to various industrial uses such as the medical field, or applied to the human body, and its use value is very laid.

Claims (1)

In an acidic water generating apparatus having a known anode chamber, a cathode chamber, and an electrolytic cell including a semipermeable partition, the storage tank is configured to accommodate the treated water around the semipermeable partition of the electrolytic cell, and the anode (3) and The cathode 4 is connected to a time control device 6 for applying a voltage for a set time, and radicals are changed according to the time control of the time control device 6. An acidic water generator, characterized in that configured to generate generated water.