JPH10216748A - Ozone water making method and apparatus therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently obtain ozone water from a small amt. of water. SOLUTION: This apparatus is equipped with a forming container 3 capable of storing pure water, an ozone generator 5 forming ozone, the ozone supply pipe 12 piercing the upper lid 1 of the forming container 3 airtightly to supply ozone to the inner upper part of the forming container 3 from the ozone generator 5, the excessive ozone discharge pipe 7 piercing the lid 1 airtightly to discharge excessive ozone in the forming container 3 to an ozone removing device 8 and a stirring mechanism 13 stirring the pure water 2 stored in the forming container 3 and ozone is brought into contact with the surface of the pure water 2 stored in the forming container 3 and the pure water 2 is stirred by the stirring mechanism 13 to form ozone water and ozone water is obtained from a small amt. of the pure water 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an ozone water generation method and an ozone water generation apparatus.

[0002]

2. Description of the Related Art FIG. 5 shows an example of a conventional ozone water generation apparatus. This ozone water generation apparatus has a detachable lid 1 at an upper part and a storage container capable of storing pure water 2 therein. 3
An oxygen generator 4 for extracting oxygen in the air, and an ozone generator 5 for performing surface discharge or voiceless discharge on oxygen sent from the oxygen generator 4 to generate ozone (O ₃ ).
And a bubble generator 6 that releases the ozone sent from the ozone generator 5 into the liquid of the pure water 2 stored in the generation container 3, and generates ozone that is released without remaining in the pure water 2. The apparatus includes an excess ozone discharge pipe 7 leading to the outside of the container 3, and an ozone remover 8 for decomposing ozone discharged from the excess ozone discharge pipe 7 by a catalytic reaction. The oxygen generator 4, the ozone generator 5, All the ozone removers 8 are arranged outside the production container 3.

[0003] The air bubble generator 6 airtightly closes the lid 1 so that the upstream end in the air supply direction communicates with the ozone discharge port of the ozone generator 5 and the downstream end in the air supply direction is located near the inner bottom of the production vessel 3. It comprises an ozone gas supply pipe 9 penetrating therethrough, and a bubble forming section 11 provided at the tip of the ozone gas supply pipe 9 and having a large number of gas discharge holes 10.

The excess ozone discharge pipe 7 airtightly penetrates the lid 1 so that the upstream end in the air supply direction is located above the inside of the production vessel 3, and the downstream end in the air supply direction has the ozone flow of the ozone remover 8. It communicates with the entrance.

When generating ozone water using the ozone water generation apparatus shown in FIG. 5, pure water 2 is placed inside a generation vessel 3.
The bubble generator 11 of the bubble generator 6 is stored so as to be immersed in the pure water 2, and the lid 1 is airtightly attached to the production container 3.

Next, an oxygen generator 4, an ozone generator 5,
The ozone remover 8 is operated to discharge the ozone sent from the ozone generator 5 into the pure water 2 stored in the production container 3 via the bubble generator 6.

The ozone released from the bubble generator 6 rises in the pure water 2 in a bubble state, and fine bubbles of ozone remain in the pure water 2 to convert the pure water 2 into ozone water. It is planned.

[0008] Ozone that does not remain in the pure water 2 is discharged to an ozone remover 8 through an excess ozone discharge pipe 7 and decomposed by the ozone remover 8 into a state harmless to the human body.

[0009]

However, in the ozone water generating apparatus shown in FIG.
If the shape and the number of zeros and the supply amount of ozone to the bubble generator 6 are not properly set, the bubbles of ozone rising in the pure water 2 liquid will be too large, and Air bubbles may not easily remain, or ozone may be decomposed.

Further, a surfactant is added to the pure water 2 stored in the production vessel 3, and an object to be sterilized and washed is immersed in the pure water 2, and the ozone water of the pure water 2 is added as described above. When an ozone bubble passes through the liquid of pure water 2, pure water 2 to which a surfactant is added foams, and the ozone water of the pure water 2 Cannot be achieved.

Further, when the liquid level of the pure water 2 stored in the production vessel 3 is lower than the bubble forming part 11 of the bubble generator 6, ozone cannot be passed through the pure water 2 liquid. However, it is not possible to convert a small amount of pure water 2 into ozone water.

The present invention has been made in view of the above-mentioned circumstances, and has as its object to efficiently generate ozone water from a small amount of pure water.

[0013]

In order to achieve the above object, in the method for producing ozone water according to the first aspect of the present invention, ozone is supplied to an upper portion of the inside of a production vessel storing pure water, and Is brought into interfacial contact with the liquid surface of pure water.

In the method for generating ozone water according to a second aspect of the present invention, ozone is generated from oxygen contained in the air by discharging the air above the inside of the generation container storing the pure water. The ozone is brought into interfacial contact with the liquid surface of pure water.

According to a third aspect of the present invention, in addition to the procedure of the first or second aspect of the present invention, ozone water is added to the surface of the pure water. When contacting, pure water is stirred.

According to a fourth aspect of the present invention, there is provided an ozone water generating apparatus capable of storing pure water, an ozone generator for generating ozone, and an ozone generator for generating ozone from the ozone generator. And an ozone supply pipe for supplying to the ozone supply line.

Further, in the ozone water generating apparatus according to the fifth aspect of the present invention, a generation container capable of storing pure water, and an ozone generator configured to discharge ozone to generate ozone from oxygen contained in air. And the discharge section of the ozone generator is arranged above the inside of the production container.

[0018] In the ozone water generating apparatus according to the sixth aspect of the present invention, in addition to the configuration of the ozone water generating apparatus according to the fourth or fifth aspect of the present invention, pure water stored in the generating vessel is stirred. A stirring mechanism is provided.

In the ozone water generating apparatus according to the seventh aspect of the present invention, in addition to the configuration of the ozone water generating apparatus according to the fourth or fifth aspect of the present invention, the apparatus can be slid on the inner bottom of the generating container. And a moving member movably disposed directly below the bottom of the production container, and the stirring member and the moving member are formed so as to be magnetically attracted to each other.

In the method for producing ozone water according to the first aspect of the present invention, the ozone supplied above and inside the production vessel comes into interface contact with the liquid surface of the pure water stored in the production vessel,
Generates ozone water.

In the ozone water generating method according to a second aspect of the present invention, the ozone generated from the oxygen contained in the air above the inside of the production container by the discharge discharges the ozone water stored in the production container. Interfacial contact with the surface generates ozone water.

In the ozone water generation method according to the third aspect of the present invention, when the ozone is brought into interface contact with the liquid surface of the pure water stored in the generation container, the ozone water concentration is saturated by stirring the pure water. Reduce time to reach state.

In the ozone water generating apparatus according to a fourth aspect of the present invention, ozone is supplied from the ozone generator through the ozone supply pipe to the upper inside of the production vessel, and the ozone is stored in the production vessel. To make ozone water by interfacial contact.

In the ozone water generating apparatus according to a fifth aspect of the present invention, the ozone generator generates ozone from oxygen contained in the air above the inside of the generating container, and the ozone water is stored in the generating container. Interface contact with the liquid surface of
Generates ozone water.

In the ozone water generating apparatus according to the sixth aspect of the present invention, when the ozone is brought into interfacial contact with the liquid surface of the pure water stored in the generating vessel, the pure water is stirred by a stirring mechanism, and the ozone water concentration is reduced. Reduce the time it takes to reach saturation.

In the ozone water generating apparatus according to the present invention, when the moving member is moved when the ozone is brought into interface with the liquid surface of the pure water stored in the generating container, the stirring member is moved to the generating container. The pure water is agitated by sliding the inner bottom portion of the, and the time until the ozone water concentration reaches a saturated state is shortened.

[0027]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a first example of an embodiment of an ozone water generating apparatus according to the present invention. In the figure, portions denoted by the same reference numerals as those in FIG. 5 represent the same components.

In the ozone water generator shown in FIG. 1, ozone (O ₃ ) sent from the ozone generator 5 is used instead of the bubble generator 6 (see FIG. 5) in the conventional ozone water generator.
Has an ozone supply pipe 12 that supplies the oxygen gas to the upper inside of the production container 3, and the oxygen generator 4, the ozone generator 5, and the ozone remover 8 are all disposed outside the production container 3.

The ozone supply pipe 12 hermetically penetrates the lid 1 such that the upstream end in the air supply direction communicates with the ozone discharge port of the ozone generator 5 and the downstream end in the air supply direction is located above the inside of the production vessel 3. doing.

The ozone water generating apparatus shown in FIG. 1 has a stirring mechanism 13 for stirring the pure water 2 stored in the generating container 3.

The stirring mechanism 13 includes a stirring member 14 made of a permanent magnet slidably disposed on the inner bottom of the production container 3.
A moving member 16 which is provided inside a casing 15 disposed directly below the bottom of the production container 3 so as to be rotatable along the container circumferential direction, and in which the stirring member 14 is made of a magnetically attractable metal plate.
And is constituted by.

The stirring member 14 has such a magnetic force that the stirring member 14 can be magnetically attracted to the moving member 16 through the bottom of the production container 3 and is driven by a driving device (not shown). When the rotating member 16 is rotated, the stirring member 14 slides on the inner bottom of the generation container 3 following the rotation of the moving member 16.

When ozone water is generated by the ozone water generation apparatus shown in FIG. 1, pure water 2 is stored in the generation container 3 and the lid 1 is attached to the generation container 3 in an airtight manner.

The moving member 16 of the stirring mechanism 13 is rotated, and the stirring member 14 is slid with respect to the inner bottom of the production container 3.

Next, the oxygen generator 4, the ozone generator 5,
The ozone remover 8 is operated, and the ozone sent from the ozone generator 5 is supplied to the production vessel 3 via the ozone supply pipe 12.
And the inside of the production container 3 is made into an ozone atmosphere.

The ozone released from the ozone supply pipe 12 comes into interface contact with the liquid surface of the pure water 2 stored in the production vessel 3, and the ozone molecules are mixed into the pure water 2 liquid to form pure water. Ozonation of the water 2 is achieved.

Ozone not mixed into the pure water 2 is discharged to an ozone remover 8 through an excess ozone discharge pipe 7 and decomposed by the ozone remover 8 into a state harmless to the human body.

As described above, in the ozone water generating apparatus shown in FIG. 1, ozone water is generated by bringing ozone into interface with the liquid surface of pure water 2, so that ozone is surely mixed into the liquid of pure water 2. Thus, ozone water can be efficiently generated from a small amount of pure water 2.

Further, since ozone is not passed through the pure water 2, even if a surfactant is added to the pure water 2 stored in the production container 3, the pure water 2 does not foam and the pure water 2 does not bubble. Can be sterilized and washed.

Further, when the pure water 2 is converted into ozone water, the pure water 2 is stirred by the stirring mechanism 13, so that the time required for the ozone water concentration to reach a saturated state can be shortened.

FIG. 2 is a graph showing the relationship between the supplied ozone gas concentration (ppm) and the ozone water concentration (mg / l). The solid line indicates the measurement when ozone water was generated from the ozone water generator shown in FIG. The broken line shows the theoretical value based on the equilibrium ozone water concentration according to Henry's law.

As can be understood from this graph, FIG.
In the ozone water generation device shown in (1), ozone water having an ozone water concentration close to the theoretical value can be obtained.

The measured values in FIG. 2 are based on the assumption that the interface contact time of ozone with the liquid surface of the pure water 2 is 10 minutes. Therefore, if the interface contact time is extended, the ozone water shown in FIG. It is considered that the concentration of ozone water generated by the generator can be closer to the theoretical value.

FIG. 3 shows a second example of the embodiment of the ozone water generating apparatus according to the present invention. In the figure, the parts denoted by the same reference numerals as those in FIG. 1 represent the same parts.

The ozone water generating apparatus shown in FIG. 3 includes a generating vessel 18 having a detachable lid 17 on an upper part thereof,
And a plurality of storage trays 19 disposed inside the oxygen generator 4, the oxygen generator 4, the ozone generator 5, the ozone remover 8
Are arranged outside the production container 18.

The lid 17 has an ozone supply pipe 12 and an excess ozone discharge pipe 7, and a downstream end of the ozone supply pipe 12 in the air supply direction and an upstream end of the excess ozone discharge pipe 7 in the air supply direction.
Penetrates hermetically so as to be located above the inside of the.

When ozone water is generated by the ozone water generation apparatus shown in FIG. 3, a plurality of storage plates 19 storing pure water 2 are arranged inside the generation container 18, and the lid 17 is attached to the generation container 18. Wear it tightly.

Next, the oxygen generator 4, the ozone generator 5,
The ozone remover 8 is operated, and the ozone sent from the ozone generator 5 is supplied to the production vessel 1 via the ozone supply pipe 12.
8 and the inside of the production container 18 is made into an ozone atmosphere.

The ozone released from the ozone supply pipe 12 comes into interface contact with the liquid surface of the pure water 2 stored in each storage dish 19, and the ozone molecules are mixed into the pure water 2 liquid. And the pure water 2 is converted into ozone water.

Ozone not mixed into the pure water 2 is discharged to the ozone remover 8 via the excess ozone discharge pipe 7 and decomposed by the ozone remover 8 into a state harmless to the human body.

As described above, in the ozone water generating apparatus shown in FIG. 3, ozone is generated by bringing ozone into interface with the liquid surface of pure water 2, so that ozone is surely mixed into the liquid of pure water 2. Thus, ozone water can be efficiently generated from a small amount of pure water 2.

Since ozone is not passed through the pure water 2, even if a surfactant is added to the pure water 2 stored in the production vessel 18, the pure water 2 does not foam and the pure water 2 does not bubble. Can be sterilized and washed.

FIG. 4 shows a third embodiment of the ozone water generating apparatus according to the present invention. In FIG. 4, the same reference numerals as those in FIG. 1 denote the same parts.

The ozone water generation apparatus shown in FIG. 4 has a generation container 21 having a detachable lid 20 at the top and capable of storing pure water 2 therein, and generates ozone from oxygen contained in air by discharge. An ozone generator 22 and a stirring mechanism 13 for stirring the pure water 2 stored in the generation container 21 are provided.

The ozone generator 22 is housed in the lid 20 so that the discharge part 23 is exposed downward.

The stirring mechanism 13 includes a stirring member 14 made of a permanent magnet slidably disposed on the inner bottom of the production container 21 and a casing 15 directly below the bottom of the production container 21 so as to be rotatable along the container circumferential direction. The stirring member 14 is constituted by a moving member 16 made of a metal plate capable of being magnetically attracted.

When the ozone water is generated by the ozone water generation apparatus shown in FIG. 4, the pure water 2 is stored in the generation container 21 and the lid 20 is attached to the generation container 21 in an airtight manner.

Next, a discharge is generated by the discharge part 23 of the ozone generator 22 to generate ozone from oxygen contained in the air inside the production container 21, and the inside of the production container 21 is made into an ozone atmosphere.

The ozone generated by the ozone generator 22 comes into interface contact with the liquid surface of the pure water 2 stored in the generating container 21, and the ozone molecules are mixed into the pure water 2 liquid to form pure ozone. Ozonation of the water 2 is achieved.

The total amount of ozone generated by the ozone generator 22 is limited by the oxygen contained in the air in the production container 21. After the pure water 2 is converted into ozone water, the lid 20 is removed from the production container 21. Since the amount of ozone released to the outside at this time is extremely small, the ozone water generating apparatus shown in FIG. 4 does not have a configuration corresponding to the ozone remover 8 in FIGS.

As described above, in the ozone water generating apparatus shown in FIG. 4, ozone is generated by bringing ozone into contact with the liquid surface of the pure water 2, so that the ozone is surely mixed into the liquid of the pure water 2. Thus, ozone water can be efficiently generated from a small amount of pure water 2.

Since ozone is not passed through the pure water 2, even if a surfactant is added to the pure water 2 stored in the production container 21, the pure water 2 does not foam and the pure water 2 does not bubble. Can be sterilized and washed.

Further, when the pure water 2 is converted into ozone water, the pure water 2 is stirred by the stirring mechanism 13, so that the time required for the ozone water concentration to reach a saturated state can be shortened.

Further, since the discharge type ozone generator 22 is provided in the lid 20, the size of the apparatus can be reduced to a shape suitable for generating a small amount of ozone water.

It should be noted that the ozone water generation method and the ozone water generation apparatus of the present invention are not limited to the above-described embodiment, and various changes can be made without departing from the scope of the present invention. It is.

[0067]

As described above, the ozone water generation method and the ozone water generation apparatus of the present invention can provide various excellent effects as described below.

(1) The method for producing ozone water according to any one of claims 1 to 3 of the present invention, and the claims 4 to 7 of the present invention.
In any of the ozone water generation devices described in the above, ozone water is generated by making ozone interfacial contact with the surface of pure water stored in the generation container, so that ozone is surely mixed into the pure water liquid, Ozone water can be efficiently generated from a small amount of pure water.

(2) The method for producing ozone water according to any one of claims 1 to 3 of the present invention, and the claims 4 to 7 of the present invention.
In any of the ozone water generators described in the above, since ozone is not aerated in the pure water liquid, even if a surfactant is added to the pure water stored in the production container, the pure water does not foam, An object immersed in pure water can be sterilized and cleaned.

(3) In any of the ozone water generation method according to the third aspect of the present invention and the ozone water generation apparatus according to the sixth and seventh aspects of the present invention, pure water is converted into ozone water. At this time, since the pure water is stirred, the time until the ozone water concentration reaches a saturated state can be shortened.

[Brief description of the drawings]

FIG. 1 is a first embodiment of an ozone water generating apparatus according to the present invention.
It is a conceptual diagram which shows the example of.

FIG. 2 is a graph showing a relationship between a supply ozone gas concentration and an ozone water concentration.

FIG. 3 shows a second embodiment of the ozone water generating apparatus according to the present invention.
It is a conceptual diagram which shows the example of.

FIG. 4 shows a third embodiment of the ozone water generating apparatus according to the present invention.
It is a conceptual diagram which shows the example of.

FIG. 5 is a conceptual diagram showing an example of a conventional ozone water generation device.

[Explanation of symbols]

 2 Pure water 3 Generation container 5 Ozone generator 12 Ozone supply pipe 13 Stirring mechanism 14 Stirring member 16 Moving member 18 Generation container 21 Generation container 22 Ozone generator 23 Discharge unit

Continued on the front page (72) Inventor Tetsuya Isayama 3-1-1, Toyosu, Koto-ku, Tokyo Ishikawajima-Harima Heavy Industries Co., Ltd. Tojin Technical Center (72) Inventor Katsuharu Yamamoto 3-1-1, Toyosu, Koto-ku, Tokyo No. Ishikawajima Harima Heavy Industries, Ltd. Tojin Technical Center (72) Inventor Yukihiro Kamase 3-1-1-15 Toyosu, Koto-ku, Tokyo Ishikawajima Harima Heavy Industries, Ltd. Tojin Technical Center

Claims (7)

[Claims] 1. A method for producing ozone water, wherein ozone is supplied to an upper inside of a production container storing pure water, and the ozone is brought into interfacial contact with a liquid surface of the pure water. 2. The method according to claim 1, wherein the ozone is generated from oxygen contained in the air by discharging the air above the inside of the production container storing the pure water, and the ozone is brought into interfacial contact with the liquid level of the pure water. Ozone water generation method. 3. The method for generating ozone water according to claim 1, wherein the ozone water is stirred when the ozone is brought into interface contact with the liquid surface of the pure water. 4. An apparatus comprising: a generating container capable of storing pure water; an ozone generator for generating ozone; and an ozone supply pipe for supplying ozone from the ozone generator to an upper inside of the generating container. Characterized ozone water generator. 5. A production container capable of storing pure water, and an ozone generator which discharges air to generate ozone from oxygen contained in the air, wherein a discharge part of the ozone generator is provided in the production container. An ozone water generation device, which is disposed above the inside. 6. The ozone water generator according to claim 4, further comprising a stirring mechanism for stirring the pure water stored in the generation container. 7. A stirring member slidably disposed on the inner bottom of the production container, and a moving member movably disposed directly below the bottom of the production container, wherein the stirring member and the moving member can be magnetically attracted to each other. The ozone water generation device according to claim 4 or 5, wherein the ozone water generation device is formed as described above.