JPH0710762A - Gargle for stomatitis - Google Patents

Abstract

PURPOSE:To obtain acidic water produced by the electrolysis as a gargle for the stomatitis. CONSTITUTION:In an electrolyzer for tap water composed of an electrolytic cylinder 1 directly connected to a tap water faucet 5 for branching salted tap water and then feeding the salted tap water to the side 2 of an anode and the side 3 of a cathode, a power source device for applying a prescribed voltage and a prescribed current to electrodes of the electrolytic cylinder and solenoid changeover valves 61 and 63 installed on the respective discharge sides on the sides of the anode and cathode, the salted tap water is treated in amount of 2.5l per min with the electrolyzer to directly use acidic water obtained from the side of the anode as a treating gargle for the stomatitis. The acidic water produced by the electrolysis is used to cure the stomatitis for about 2-3 days by daily gargling several times. This acidic water has excellent effects as a therapeutic agent for the stomatitis.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to gargle water for stomatitis, which is effective for treating so-called stomatitis (generally referred to as "oral mucosa inflammation"; the same applies hereinafter).

[0002]

2. Description of the Related Art Generally, stomatitis has catarrhal, aphthous, ulcerative, etc. depending on its disease type.
Recently, infections with viruses, fungi (for example, monilia), vitamin deficiency, hematological diseases, warm plastic, chemical, and mechanical stimulation can be mentioned.

The most common symptom is aphthous stomatitis, which is the most common, and the oral mucous membrane is reddish, has pain, bad breath, and swollen local lymph gland.

Treatments include avoidance, avoiding the collection of cigarettes and other stimulants, gargling (cleansing the oral cavity), applying a drug (for example, an ointment for oral mucosa of corticosteroids), administering antibiotics, etc. Treatment is taking place. In particular, among the above-mentioned treatments, gargle (cleansing of the oral cavity) was generally performed simply by gargle with tap water or a gargle having a bactericidal action including commercially available povidone iodine and the like.

[0005]

However, it is the present situation that the effects of all of the above-mentioned treatments for stomatitis, which are generally performed, are still unclear. If it becomes stomatitis, gargling etc. There was no choice but to entrust it to natural healing while encouraging and treating like treatment.

[0006]

Means for Solving the Problems The inventors of the present application, while studying electrolyzed water obtained by electrolysis of tap water, gargle several times a day with acidic water obtained by electrolysis, It was discovered that severe and slight injuries of the stomatitis can be healed easily, and acid water produced by this electrolysis was used as mouthwash for mouth inflammation.

That is, the acidic water produced by this electrolysis is directly connected to a tap, and after salting, branches are branched and supplied to the anode side and the cathode side, and a predetermined voltage and current are applied to the electrodes of this electrolysis tube. In a tap water electrolysis device comprising a power supply device for applying a voltage and electromagnetic switching valves provided on the outflow side on each of the anode side and the cathode side, 1 to 2.
5 liters of salted tap water is treated and the acidic water obtained from the anode side is used as it is as mouthwash for treating stomatitis.

[0008]

[Function] Although detailed knowledge on the treatment is not clear when using this electrolyzed acidic water as mouthwash for stomatitis, the chlorine gas generated by the electrolytic reaction is probably dissolved in water in a gas hydrated state. Therefore, it is presumed that the oxidative power of chlorine gas has a rapid and strong bactericidal action, which may have a remarkable effect on stomatitis.

[0009] That is, since chlorine oxidizes amino groups on the surface of microorganisms, it exhibits a very broad antibacterial action against bacteria, fungi, viruses, etc., and has a remarkable effect on stomatitis. It is supposed to be.

Acidic water produced by electrolysis is due to both chlorine gas and an extremely low PH value, but the rapid and strong bactericidal effect is mainly due to chlorine gas. In addition, the antibacterial effect can be found only with a low PH value, but the rapidity thereof is impaired. Therefore, when the acidic water produced by this electrolysis is used as mouthwash for mouth sores, these low PH values are used.
The value and the effect of chlorine gas will be synergistic and effective in treating stomatitis.

[0011]

EXAMPLE FIG. 1 is a diagram showing an outline of a method for producing acidic water by electrolysis used as mouthwash for mouth inflammation of the present invention. In FIG. 1, reference numeral 1 denotes an electrolytic cylinder having a width of 19 cm, a height of 15 cm, and a capacity of 1.25 m ³ , in which an anode side electrode 2 and a cathode side electrode 3 are arranged with an electrolytic membrane 4 interposed therebetween. Anode-side electrolysis tube region 2 ₁ and cathode-side electrolysis tube region 3 ₁ are provided around the periphery. Reference numeral 15 denotes a salting device for adding a predetermined amount of salt to tap water, which is connected to a tap 16 and a pipe 16 connecting the anode side electrolytic cylinder region 2 ₁ and the cathode side electrolytic cylinder region 3 ₁ with a predetermined Venturi pipe principle. It is a salting device that mixes salt water at a specific rate. Therefore, the salting device 15 comprises a venturi section 17, a saline storage section 18 and a saline flow rate adjusting valve 19. Piping 16 coming out of the salting device 15
Are branched by the branching unit 20, and the flow valve 1
Anode-side electrolytic cylinder region 2 ₁ and cathode-side electrolytic cylinder region 3 _{1 of the} electrolytic cylinder 1 by means of pipes 21 and 22 through 3, 14 respectively.
It is connected to the. In addition, these anode side electrolytic cylinder regions 2
₁ and the cathode side electrolytic cylinder region 3 ₁ are respectively connected to the pipes 23, 2
4 is configured so that the treated electrolyzed water flows out.

On the other hand, the electrodes 2 and 3 of the electrolysis tube 1 are each supplied with a relay means 12 using a commercial 100 V as a power source.
The DC power supply device 11 is arranged so that a DC voltage current of 48 V and 40 A is applied between the electrodes via the.

Further, in the pipes 23 and 24, an electromagnetic switching valve 6 for changing the outflow of electrolyzed water, respectively.
₁ and 6 ₂ are provided. These electromagnetic switching valves 6 ₁ and 6 ₂ are configured so that, in synchronization with the relay means 12, a constant amount of anode water or cathode water always flows out from only one of them. This is because the electrode 2,
It is necessary to prevent the deterioration of No. 3 and the like, and in order to remove this, a reverse voltage is applied to the electrodes. However, in order to prevent the efficiency of the electrolytic treatment from decreasing due to that, the reverse voltage is applied. Even when applied, it is for collecting the acidic water that is the anode water, respectively.

In the present embodiment, the valve 7 is directly provided in the outflow pipe 23 so that the acidic water can be used at a treatment flow rate, while the pipe 23 is provided with a branch portion 25, through which the branch portion 25 The treated acidic water was configured to be able to be stored in the tank 8. Providing such a tank 8 is an effective means when a large amount of treated acidic water is used at the same time, or when the acidic water is heated and used as described later.

That is, as will be described later, a great effect has been found in heating the treated acidic water to use as gargle water, and in the present embodiment, the heating step is performed inside the tank 8. A heater 9 was arranged, and a current of 100 V and 10 amps was applied to the heater 9 to heat the heater. Note that reference numeral 10 is a stopper provided in the tank 8. Therefore, by twisting the plug 10, it is possible to constantly obtain electrolytic acid water heated to a range of about 30 ° C to 40 ° C, which is used as gargle water.

A method of operating this apparatus to obtain electrolytic acidic water will be described.

First, one of the electrodes is used as a positive electrode and the other is used as a negative electrode so that a direct current of 48 V and 40 A is applied between these electrodes. Then, the water tap 5 is operated to adjust the flow rate of about 1 liter to 2.5 liters per minute so as to flow into the electrolytic tube 1.

If the treatment is continued for about 20 minutes as it is, about 2
0 liters of acid water is treated and can be used from valve 7 respectively or stored in tank 8. Tank 8
When is near full, the heater 9 is energized to start heating. The acidic water heated in this way is ready for use as mouthwash.

On the other hand, if the electrolytic treatment is continued for a long time,
Since the efficiency of the electrodes is reduced, in this embodiment, the relay means 12 is operated and the current flow is switched after a predetermined time elapses. That is, the electrode used so far as the positive electrode is switched to the negative, and the electrode used so far as the negative electrode is switched to the positive. Then, in accordance with this, the solenoid valves 61 and 62 are switched, and the anode side electrolytic cylinder region 2 has been used so far.
The region used as 1 is used as the cathode side electrolytic cylinder region, and the region used as the cathode side electrolytic cylinder region 31 is used as the anode side electrolytic cylinder region. To allow water to be stored in the valve 7 or the tank 8, respectively.

The electrolyzer thus constructed has the ability to constantly purify 1 to 2.5 liters of acidic water per minute at all times, and the acidic water obtained by this treatment is gargle water for stomatitis. Used as.

As the treatment of stomatitis, the following clinical example was performed. In addition, the acidic water used as the gargle water in this case is acidic water obtained by the above-mentioned apparatus by the treatment of 1 liter / min under the above voltage / current value, and its PH value is In the measurement immediately after collection, PH 2.4-2.
7 was used.

1. Floor example 1 (Severely injured patient) Date and time of treatment October 25, 1992 Place Ome City Hospital Stomatitis condition Erosive stomatitis (mucous membrane sores) Gargling frequency 4-5 times / day Recovery days 4 days

2. Floor example 2 (patient with trauma) Date of treatment November 1, 1992 Venue Ome City Hospital Stomatitis condition Flat squamous sickness (pain on oral mucosa) Gargling frequency 3-4 times / day Recovery days 3 days

3. Floor example 3 (patient with minor injury) Date of treatment October 20, 1992 Place Ome City Hospital State of stomatitis Catarrhal stomatitis (whole mucous membrane swollen) Gargles 3 times / day Recovery days 2 days

[0025]

EFFECTS OF THE INVENTION As is apparent from the above-mentioned floor examples, in the gargle water using the acidic water by electrolysis according to the present invention, the stomatitis was healed in about 2-3 days each by gargle several times a day.

This is an extremely excellent effect as a therapeutic drug for stomatitis.

[Brief description of drawings]

FIG. 1 is a diagram showing an outline of a method for producing acidic water by electrolysis used as mouth irrigation water.

[Explanation of symbols]

1 ... electrolyte tube 2 ... anode electrode 2 ₁ ... anode electrode region 3 ... cathode electrode 3 ₁ ... cathode electrolyte tube region 4 ... electrolyte membrane 5 ... Water Plug 6 ₁ , 6 ₂ ... Electromagnetic switching valve 7 ... Valve 8 ... Tank 9 ... Heater 10 ... Plug 11 ... DC power supply device 12 ... Relay means 13, 14 ... -Flow valve 15 ... Salting device 16 ... Piping 17 ... Venturi part 18 ... Saline storage part 19 ... Saline flow control valve 20 ... Branch part 21, 22 ... Piping 23, 24 ... Piping 25 ... Branch

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshiyuki Miura, Kidoguchi, Kisogata-cho, Yuri-gun, Akita Prefecture 12-2 (72) Tetsuya Murai, Kamikitamori, Kushigata-cho, Yuri-gun, Akita Prefecture 184-5 Miura Denshi Co., Ltd.

Claims (5)

[Claims] 1. An electrolytic tube which is directly connected to a tap, is salted and then branched to be supplied to an anode side and a cathode side, a power supply device for applying a predetermined voltage and current to electrodes of the electrolytic tube, Obtained from the anode side of the electrolysis tube in an electrolyzer for salted tap water consisting of an electromagnetic switching valve provided on each of the anode side and the cathode side and electrolyzed at a given flow rate and a given voltage and current. Gargle water for stomatitis, which is mainly composed of acidic water. 2. The gargle water for stomatitis according to claim 1, wherein the acidic water is treated with 5 to 10% of salted tap water. 3. The acidic water is applied with a voltage and current of 48 V and 40 A to the anode and cathode of the electrolytic cylinder to treat the salted tap water at a treatment rate of 1 to 2.5 liters per minute. Gargle water for stomatitis according to claim 1 or 2, wherein 4. The acidic water is used by temporarily storing the acidic water obtained from the anode side and then heating it to about 30 ° C. to 40 ° C. before use. Mouthwater for canker sores. 5. The mouthwash for stomatitis according to any one of claims 1 to 4, wherein the acidic water has a PH value immediately after being obtained, which is between PH 2.4 and 2.7.