JPH1121960A - Washhand device of ozonized water - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a washhand device of ozonized water, which prevents electrical leakage or electrical short of an electric system such as an ozonizer or the like and is excellent in durability. SOLUTION: This washhand device of ozonized water is provided with an ozone gas generator 11 equipped with an ozonizer 3 generating ozone gas and an air pump 2, an ozonized water generator 12 equipped with a dissolving tank 4 conducting ozone gas through a gas pipe 7 and dissolving it into water to produce ozonized water and a ozonized water storage tank 5, and a delivery pipe 63 leading the ozonized water 50 from the storage tank 5 to the washhand place. In this case, the ozone gas generator 11 and the ozonized water generator 12 are separately arranged from each other by a partition wall 13 and connected to each other through the gas pipe 7 connecting the ozonizer 3 and the dissolving tank 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to the treatment of tap water with ozone in hotels, restaurants, hospitals, food factories, schools, homes, and the like.
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ozone water hand washing machine for generating ozone water used for washing and sterilizing hands and fingers, and particularly to an ozone water hand washing machine in which an ozone gas generation section and an ozone water production section are separately provided.

[0002]

2. Description of the Related Art Conventionally, use of ozone water has been proposed as an example of using sterilizing water for hand washing or the like (Japanese Patent Application Laid-Open Nos. 6-55049 and 6-144806).
In general, the ozone water generator includes the ozone gas generation section and the ozone water production section. The ozone gas generation section has an air pump, an ozonizer for generating ozone gas by discharge from air, and the like. The water production unit has a tank containing water, such as a dissolution tank for dissolving the ozone water in water. This gives
The ozone water is led out to the handwashing area by a flush pipe and used as sterilizing water for handwashing.

[0003]

However, the conventional ozone water generator has the following problems. That is, in the conventional ozone generator, the ozone gas generation unit and the ozone water production unit are housed in a single case without being separated from each other. However, the ozone gas generator is an electric system that operates an ozonizer or the like using electricity. On the other hand, the ozone water producing section is provided with a water system such as a dissolution tank for dissolving ozone gas in water.

Therefore, water may leak from a tank containing water, such as the above-mentioned dissolving tank, or a pipe to the above-mentioned tank due to long-term use. In such a case, the water may enter the electric system such as the air pump and the ozonizer to cause an electric leakage or an electric short. In addition, the above-mentioned conventional ozone water generator is disposed around a humid water such as a hand-washing place for convenience when introducing water into the ozone water generator or using ozone water. Therefore, also in this case, moisture infiltrates, and the above-described problems occur.

The present invention has been made in view of the above-mentioned conventional problems, and is intended to provide an ozone water hand washing machine which can prevent electric leakage and electric short of an electric system such as an ozonizer and has excellent durability. is there.

[0006]

According to a first aspect of the present invention, there is provided an ozone gas generating section having an ozonizer for generating ozone gas and an air pump for feeding air to the ozonizer, and introducing the ozone gas through a gas pipe and converting the ozone gas into water. An ozone water producing unit having a dissolving tank for dissolving ozone water by dissolving ozone water therein, a storage tank for introducing ozone water in the dissolving tank, and a drain pipe for leading the ozone water from the storage tank to a hand washing place. An ozone water hand washing machine comprising: an ozone gas generation unit and an ozone water production unit which are separated from each other by a partition for partitioning the ozone water generation unit and an ozone water production unit, and connect the ozonizer and the dissolving tank to each other. An ozone water hand washer connected by the gas pipe.

Next, the operation of the present invention will be described. In the present invention, the ozone gas generator and the ozone water generator are separated from each other by a partition for partitioning the two. Therefore, the electrical system that is the ozone gas generator is
The partition wall is completely separated from the water system that is the ozone water production unit. Therefore, even in the case where water leaks from the dissolving tank, the storage tank, the ozone water pipe, or the like in the ozone water producing section, water does not enter the ozone gas generating section. Therefore, it is possible to prevent electric leakage of an electric system such as an ozonizer or electric short circuit due to moisture or water leakage. In addition, it has excellent durability.

Next, it is preferable that the ozone gas generating section and the ozone water producing section are housed in separate cases, respectively. In this case,
Both can be located in completely separate locations. For this reason, it is possible to more reliably prevent electric leakage of an electric system such as an ozonizer and electric short-circuit.

Next, as in the third aspect of the present invention, the first case for storing the ozone gas generating section is disposed at a position away from the hand washing place, and the second case for storing the ozone water producing section. Is preferably installed in a hand washing place. In this case, the water pipe and the ozone water discharge pipe can be shortened because the ozone water production section is provided in the hand washing place. Also, in a location away from the humid place
The ozone gas generating section of the electric system is provided. For this reason, it is possible to more reliably prevent electric leakage of an electric system such as an ozonizer and electric short-circuit. Therefore, it has excellent durability.

Next, it is preferable that the undissolved ozone gas in the storage tank is returned to the dissolution tank through a surplus gas pipe. In this case, undissolved ozone gas can be recovered and reused without the need for activated carbon or ozone killer for treating undissolved ozone gas. Therefore, the size and cost of the device can be reduced.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION

First Embodiment An ozone water hand-washing machine 1 according to an embodiment of the present invention is shown in FIGS. The ozone water hand washing machine 1 of this example is
An ozone gas generator 11 (right side in FIG. 1) having an ozonizer 3 for generating ozone gas and an air pump 2 for feeding air to the ozonizer 3, the ozone gas is introduced through a gas pipe 7, and the ozone gas 30 is dissolved in water. Tank 4 for producing ozone water 50 by heating and storage tank 5 for introducing ozone water 50 in the dissolution tank 4
And an ozone water producing unit 12 (left side in FIG. 1) having the following. In addition, ozone water 5 from the storage tank 4 to the hand washing place
It has a flush pipe 63 for leading out zero.

The ozone gas generating section 11 and the ozone water producing section 12 are separated from each other by a partition 13 for partitioning the two. The two are connected by the gas pipe 7 connecting the ozonizer 3 and the dissolving tank 4.

Here, a specific configuration of the ozone water hand washing machine 1 will be described with reference to FIGS. The ozone water hand washing machine 1 in the present embodiment comprises an ozone gas generation unit 11 and an ozone water production unit 12, both of which are partitioned by a partition 13.
It is housed in individual cases 10. The ozone water generator 11 houses an air pump 2 and an ozonizer 3. The ozonizer 3 has an ozone gas generation electrode 31 built therein. On the other hand, the ozone water producing section 12 contains a dissolution tank 4 and a storage tank 5.
Note that, in the dissolution tank 4, a scattered gas 41 for dispersing and dissolving the ozone gas 30 in water is provided.

In each connection, an air pipe 71 is connected between the air pump 2 and the ozonizer 3. A gas pipe 7 connecting the ozonizer 3 and the dissolving tank 4 is provided with a communication hole 13 formed in a partition 13.
1 is inserted. A gas pipe 72 is connected between the gas pipe 7 and the melting tank 4 via check valves 741 and 742. A surplus gas pipe 73 is connected between the check valve 742 of the gas pipe 72 and the storage tank 5 via a check valve 743. The gas pipe 72, the surplus gas pipe 73, and the check valves 741, 742, 743 are located in the ozone water producing unit 12.

On the other hand, the solenoid valve 611 connected to the water pipe 60
A water inlet pipe 61 is connected between the tank and the dissolution tank 4 via a valve 612. Ozone water pipes 621 and 622 are connected between the dissolving tank 4 and the storage tank 5. A water outlet pipe 63 is connected to the storage tank 5. The water inlet pipe 61, the ozone water pipe 621,
622, water pipe 63, solenoid valve 611, valve 612,
It is present in the ozone water producing unit 12.

In connection with the electric connection, the power supply cord 8 is connected to the terminal 80. An electric wire 81 is connected to the solenoid valve 611 from the terminal 80 through the communication hole 131 of the partition wall 13. In addition, electric wires 82, 83, 84 are connected from the terminal 80 to the air pump 2, the ozonizer 3, and the cooling fan 85, respectively.

Next, regarding the operation of the present embodiment, first, the passage of the ozone gas will be described. As shown in FIGS. 1 and 2, in the ozone gas generator 11, the air pump 2
Air serving as a source of ozone gas is sent to the ozonizer 3 via an air pipe 71. Then, the creeping discharge type ozonizer 3 generates the ozone gas 30 by the discharge chemistry using the air (dotted line in FIG. 2) as a raw material. Then, the ozone gas 30 generated from the ozonizer 3 is sent to the ozone water producing unit 12 through the gas pipes 7 and 72 as shown by a broken line in FIG.

At this time, the check valves 741 and 742 introduce the ozone gas sent through the gas pipe 7 to the dissolving tank 4 without backflow. Dissolution tank 4
In the above, the ozone gas 30 is sent into the water in the dissolution tank 4 in the form of fine bubbles by the gas 41 made of a porous ceramic material.

Next, the passage of water and ozone water will be described. As shown by the solid line in FIG. 2, when the valve 601 provided on the water pipe 60 is opened, water in the water pipe is introduced into the dissolution tank 4 via the water inlet pipe 61.

On the other hand, the solenoid valve 61 provided in the water pipe 60
Reference numeral 1 denotes an open state when the power of the ozone water hand washing machine 1 is turned on. The opening of the valve 612 is set to a constant value in advance. Therefore, the flow rate of the water introduced into the dissolution tank 4 is always constant.

Thereafter, in the dissolution tank 4, the ozone gas 30 and the water are mixed, and the ozone gas is dissolved in the water to produce ozone water 50. The ozone water 50 is introduced into the storage tank 5 through ozone water pipes 621 and 622, as shown by a dashed line in FIG. Then, the ozone water 50 is stored in the storage tank 5 in order to balance the concentration. In the storage tank 5, the undissolved surplus ozone gas volatilizes from the ozone water 50. The liquid surface of the ozone water 50 is located above the connection position of the water discharge pipe 63 and below the connection position of the surplus gas pipe 73.

The ozone water 50 is supplied to the outlet pipe 63.
Through the ozone water discharge pipe 64 to a hand washing place for use. On the other hand, the undissolved surplus ozone gas in the storage tank 5 is sent to the dissolution tank 4 via the surplus gas pipe 73 and the gas pipe 72 and reused.

The effect of this embodiment will be described. As described above, in the ozone water hand washing machine 1 in this example,
The water and ozone water 50 pass only through the ozone water producing section 12 and do not pass through the ozone gas generating section 11.
Therefore, even in the event that water leaks from the dissolution tank 4, the storage tank 5, the ozone water pipes 621, 622, etc., the water remains in the ozone water production unit 12. Therefore, it is possible to prevent electric leakage and electric short-circuit of electric systems such as the air pump 2 and the ozonizer 3 due to water leakage.

Next, the undissolved ozone gas generated in the storage tank 5 is returned to the dissolution tank 4. Therefore, no activated carbon or ozone killer for treating undissolved ozone gas is required, and undissolved ozone gas can be recovered and reused. Therefore, downsizing of the device,
Cost reduction can be achieved.

Embodiment 2 The ozone water hand washer 1 in this embodiment has a first case 110 and a second case 120 as shown in FIG. Then, the ozone gas generator 1 shown in the first embodiment
1 is housed in the first case 110, and the ozone water producing unit 12 shown in the first embodiment is housed in the second case 120, respectively.

The second case 120 is provided in the hand washing area 91.
On the other hand, the first case 110 is arranged at a position near the ceiling 92. First case 110 and second case 120
A gas pipe 7 for supplying ozone gas is disposed between the two.

In this embodiment, since the second case 120 for accommodating the ozone water producing section 12 is provided in the hand washing place 91, the water pipe 60 and the ozone water discharge pipe 64 can be shortened. Further, the ozone gas generator 1 of the electric system
The first case 110 for housing the first case 1 is disposed at a position away from the hand washing place 91 which is a humid place. Therefore, it is possible to prevent an electric system such as the ozonizer 3 and the air pump 2 from leaking or shorting due to infiltration of moisture. Therefore, it has excellent durability. Also, in this embodiment, the same operation and effect as those of the first embodiment can be obtained.

[0028]

As described above, according to the present invention, it is possible to prevent electric leakage and electric short-circuit of an electric system such as an ozonizer.
An ozone water hand washer with excellent durability can be provided.

[Brief description of the drawings]

FIG. 1 is a layout diagram of an ozone water hand-washing machine according to a first embodiment.

FIG. 2 is an explanatory view of an ozone water production process in the first embodiment.

FIG. 3 is a layout diagram of an ozone water hand washing machine according to a second embodiment.

[Explanation of symbols]

 1. . . 10. Ozone water hand washing machine, . . Ozone gas generator, 110. . . 1st case, 12 . . Ozone water production department, 120. . . Second case, 13; . . Partition wall, 131. . . 2. communication hole, . . Ozonizer, 4. . . Melting tank, 5. . . 6. storage tank, . . Gas pipe, 73. . . Surplus gas pipe,

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI C02F 1/50 550 C02F 1/50 550D

Claims (4)

[Claims] 1. An ozone gas generator having an ozonizer for generating ozone gas and an air pump for feeding air to the ozonizer, and a dissolving unit for introducing the ozone gas through a gas pipe and dissolving the ozone gas in water to generate ozone water. An ozone water hand-washing machine comprising an ozone water producing section having a tank and a storage tank for introducing ozone water in the dissolving tank, and a water outlet pipe for leading the ozone water from the storage tank to a hand washing place, The ozone gas generating section and the ozone water producing section are separated from each other by a partition for partitioning the two, and the two are connected by the gas pipe connecting the ozonizer and the dissolving tank. And ozone water hand washing machine. 2. The ozone water hand-washing machine according to claim 1, wherein the ozone gas generation unit and the ozone water production unit are housed in separate cases. 3. The case according to claim 2, wherein the first case for storing the ozone gas generating unit is disposed at a position distant from the hand washing place, while the second case for storing the ozone water producing unit is disposed at the hand washing place. Ozone water hand washer characterized by being. 4. The method according to claim 1, wherein the undissolved ozone gas in the storage tank is:
An ozone water hand-washing machine characterized by being returned to the melting tank through an excess gas pipe.