JPH07185550A - Electrolytically formed water - Google Patents

Abstract

PURPOSE:To normalize the fermentation in intestine and to eliminate active oxygen by incorporating a specific dissolved oxygen in a formed water formed at the cathode side by electrolysis of water with a partition to accelerate reducing reaction in living body. CONSTITUTION:The dissolved oxygen of 2-6ppm is incorporated in the formed water formed at the cathode by electrolysis of water with partition. And the dissolved oxygen has -100-(-750)mV oxidation reduction potential and the formed water having hydrogen ion concn. of pH7.5-10 is used. By drinking the electrolytically formed water having low concn. dissolved oxygen in this way, the activity of active oxygen in living body is suppressed, the function as a scavenger is accelerated and the effect of medical care effective for sickness by metabolic disease or sickness by immunological function lesion observed in antigen-antibody reaction is shown.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to electrolyzed water produced on the cathode side by electrolysis of water, and to electrolyzed water having a remarkably low dissolved oxygen concentration.

[0002]

2. Description of the Related Art With the recent pollution of natural environment, the demand for electrolyzed water by electrolysis of water is remarkably increasing in order to secure safe drinking water with good taste. Furthermore, applied research on the treatment of diseases of electrolyzed water has begun. In general, electrolysis produced by electrolysis of water produces acidic electrolysis by applying a DC voltage using an inert electrode through a partition wall such as a semipermeable uncharged membrane or a charged membrane having ion selectivity. Water and basic electrolyzed water are generated on the respective electrode sides. In addition, when electrolyzing, there are a pool type in which the source water is allowed to stand and electrolyze, and a flowing water type in which the source water flows at a constant flow rate. Currently, the flowing water type that can instantly generate is the mainstream. In particular, the running-water type is becoming widespread in order to make it easier to use for drinking at home. When the basic electrolysis-generated water thus generated on the cathode side is taken into the body by drinking, it exerts the physiological action of dissolving various waste products and discharging it to the outside of the body, causing abnormalities in the intestine. It is also expected to be applied to medical treatment as suppressing fermentation.

[0003]

However, in the above-mentioned conventional technique, since only the production efficiency is pursued, the ions produced as a result of the oxidation-reduction reaction caused by the electrode action by the electric energy pass through the partition wall. As a result, it is difficult for oxygen ions dissolved in the cathode side to be transferred to the anode side because of the low proportion of transported oxygen, and the result is that the dissolved oxygen concentration of the source water is almost the same as or slightly lower than the dissolved oxygen concentration. . Further, since the electrode area is made as small as possible in order to improve the efficiency of the electrolysis apparatus, the transport amount of ionized dissolved oxygen is reduced.

As described above, the basic electrolysis-generated water having a dissolved oxygen concentration almost equal to or slightly lower than that of the source water induces an increase in active oxygen produced in the living body when taken in the living body. As a result, it may result in serious damage to the biological defense function. Even if the in-vivo defense mechanism is composed of an anaerobic mechanism, water of low dissolved oxygen is required for a living body in which approximately 70% is composed of water on average. The present invention has been made to solve these problems, and an object thereof is to provide basic electrolyzed water containing a low concentration of dissolved oxygen and having a stronger reducing property.

[0005]

The electrolytically produced water of the present invention comprises:
The produced water is produced on the cathode side by electrolysis of water through the partition wall, and contains 2 to 6 ppm of dissolved oxygen. In addition, the electrolytically generated water of the present invention is 2 to 6
It is characterized by containing dissolved oxygen of ppm and having an oxidation-reduction potential in the range of -100 to -750 mV. Further, the electrolyzed water of the present invention is 2 to 6 p.
It contains pm of dissolved oxygen and has a redox potential of -100 to-
750 mV, and the hydrogen ion concentration is pH 7.5.
It is characterized by being 10 to 10.

[0006]

In the case of a flowing water type electrolyzer, the electrolyzed water of the present invention can be obtained by increasing the electrode area as much as possible and controlling the flow rate of the source water. Further, in the case of a reservoir type electrolysis device, it can be obtained by controlling according to a factor expressed as a function of electrolysis time. The electrolyzed water of low-concentration dissolved oxygen thus obtained suppresses the activity of active oxygen in the living body and accelerates the function as a scavenger, and also acts to smoothly perform the homeostasis function even with a decrease in superoxide dismutase. Have.

[0007]

EXAMPLES The present invention will be described below with reference to examples. (Example 1) Platinum electrode electrode area 500 cm ² , current 4
A, tap water is electrolyzed under the condition that the flow rate of source water is 1 liter, the dissolved oxygen concentration is 6 ppm from the cathode side, and the redox potential is -1.
Electrolyzed water having a hydrogen ion concentration of 00 mV and a pH of 7.5 was obtained. Of the 24 patients with chronic hepatitis, this electrolyzed water was given to 12 people in the target group (41 to 55 years old) by 3 liters per day, and 12 people in the control group (43 to 52 years old) received normal tap water 3 times daily. The patient was allowed to drink 1 liter and a liver function test was performed one month later. The results are shown in Table 1.

(Example 2) Using an electrolyzed water producing apparatus, produced water having a dissolved oxygen concentration of 2 ppm, a redox potential of -750 mV and a hydrogen ion concentration of pH 10 was obtained as electrolyzed water on the cathode side. Of the 24 patients with chronic hepatitis, 12 people of the target group (46 to 55 years old) drink 3 liters of this generated water daily, and 12 people of the control group (47 to 56 years old) drink 3 liters of normal tap water every day. After drinking, the liver function test was performed one month later. The results are shown in Figure 2.

The liver is an important organ in the living body, has an extremely large number of oxidoreductases, and is decomposed and synthesized. In particular, the detoxification reaction is a reduction reaction, and when the detoxification reaction does not proceed, it is active. The production of oxygen is accelerated, resulting in various diseases. The present invention, by appropriately controlling the dissolved oxygen concentration during reductive electrolysis,
It is possible to have therapeutic effects on many other cases.

[0010]

As described above in detail, the basic electrolyzed water obtained by the present invention has a dissolved oxygen concentration of 2%.
Redox potential of -100 to -750 mV
In addition, by controlling the hydrogen ion concentration to pH 7.5 to 10, the reduction reaction in vivo is promoted, and as a result, the fermentation in the intestine is normalized and active oxygen is eliminated. Promote the work of. Therefore, it can be an effective therapeutic means for diseases caused by metabolic disorders and diseases caused by immune dysfunction, which is seen in antigen-antibody reaction.

[Brief description of drawings]

FIG. 1 is a chart showing the results of Example 1.

FIG. 2 is a chart showing the results of Example 2.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Hana Oka Takayoshi 1041 Ueda, Ueda City, Nagano Prefecture (72) Inventor Hidemitsu Hayashi 2-5-13 Sakuragaoka Nakamachi, Nishi-ku, Kobe City, Hyogo Prefecture

Claims (3)

． [Claims] 1. Water produced by electrolysis of water through a partition wall on the cathode side, which contains 2 to 6 ppm of dissolved oxygen. 2. The produced water produced on the cathode side by electrolysis of water through the partition wall contains 2 to 6 ppm of dissolved oxygen, and has an oxidation-reduction potential of −100 to −750 mV. Electrolyzed water to do. 3. The produced water produced on the cathode side by electrolysis of water through a partition contains 2 to 6 ppm of dissolved oxygen, has an oxidation-reduction potential of −100 to −750 mV, and has a hydrogen ion concentration. Has a pH of 7.5 to 10. Electrolyzed water.