JP2003144793A - Washing machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent corrosion of a tank or a passage by chlorine gas generated in an acid ion water tank. SOLUTION: This machine is provided with an ion water generating means, an alkaline and an acid ion water tank to accumulate alkaline ion water and acid ion water, respectively, and a washing means to which ion water is supplied for washing. The ion water generating means is disposed above the acid ion water tank.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a washing machine,
In particular, washing is performed using ionized water such as alkaline ionized water and acidic ionized water.

[0002]

2. Description of the Related Art For washing clothes, dry cleaning using a dry cleaning solvent and washing with water using a detergent are known.

[0003]

However, in dry cleaning, there is a possibility that skin failure may occur due to poor drying of the petroleum solvent which is a dry cleaning solvent, and the process is shifting to washing with water. However, in washing with water, a large amount of water is used and also a large amount of detergent is used, so that the components in the detergent may cause environmental problems and pollution problems.

An object of the present invention is to provide a washing machine which reduces environmental and pollution problems by using alkaline ionized water and acidic ionized water produced by electrolysis of saline solution.

[0005]

A washing machine of the present invention comprises an ion water producing means for producing alkaline ionized water and acidic ionized water, an alkaline ionized water tank for storing alkaline ionized water and acidic ionized water, and an acidic ionized water. A tank,
And a washing means for washing with the supplied ionized water. Further, the ionized water generating means is arranged above the acidic ionized water tank.

The generated acidic ionized water produces chlorine gas in the tank. When chlorine gas increases, it flows back from the acidic ion water tank to the ion water generator, and near the acidic ion water outlet, sodium chloride in the chlorine gas and the ion water generator forms sodium chloride. 20 may get stuck. Therefore, the ionized water generator is placed higher than the acidic ionized water tank so that chlorine gas, which is heavier than air, will come to the bottom.

Further, chlorine gas generated in the acidic ionized water tank is recovered in the buffer tank by washing the ionized water. This prevents chlorine gas from corroding the tank or passage.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION A washing machine according to an embodiment of the present invention has a washing means, for example, a washing machine 2 as shown in FIG. The washing machine 2 is for washing an article to be washed, for example, laundry such as clothes and linen, and has a washing tub 2a,
The washing tub 2a has a basket 2c for storing laundry. A washing liquid 2b for washing laundry is supplied to the washing tub 2a. After washing, the cleaning liquid 2b is collected in the buffer tank 56 via the discharge valve 42.
40 provided between the washing tub 2a and the valve 42 is a filter for collecting coarse dust.

This washing machine further has an ion water supply means, and this ion water supply means is provided with an ion water generator 4. This ionized water generator 4 has an ion exchange membrane 4c inside, and electrolyzes the saline solution supplied from the saline solution tank 10 to generate the acidic ionized water 6a of about pH 2.7 on the positive electrode 4a side, About pH 1 on the minus electrode 4b side
0.5 alkaline ionized water 8a is produced. The acidic ionized water 6a and the alkaline ionized water 8a are taken out from the ionized water outlets 20 and 22, respectively, and supplied to the acidic ionized water tank 6 and the alkaline ionized water tank 8.

In the acidic ionized water tank 6, HO
Cl + H ⁺ + Cl ⁻ is contained and shows acidity, and it also has HOCl hypochlorite which has a bactericidal effect. Also,
The alkaline ionized water tank 8 accommodates Na ⁺ + OH ⁻ and represents alkali.

The acidic ion water tank 6 and the alkaline ion water tank 8 are provided with liquid level gauges 6b, 6c and 8b, 8c for detecting the liquid level of the acidic ion water 8a and the alkaline ion water 8a, respectively. Liquid level gauges 6b, 8
Reference numeral b is a minimum liquid level gauge that detects the minimum liquid level and prevents it from falling below this liquid level. Liquid level gauges 6c and 8c are maximum liquid level gauges that prevent the liquid level from becoming higher than this liquid level.

Acid ion water 6a in the acid ion water tank 6
And the alkaline ionized water 8a in the alkaline ionized water tank 8
Are outlets 24, 26, valves 30, 32, respectively.
Taken out through.

The extracted acidic ionized water and alkaline ionized water are supplied to the washing tub 2a through the flow rate setting valve 34 (four-way valve). At the time of washing, a small amount of the detergent in the detergent storage unit 36 is supplied to the washing tub 2a through the valve 38 to enhance the washing effect.

In the acidic ionized water tank 6, hypochlorous acid H
OCl and H ⁺ + Cl ⁻ are produced, but when the internal pressure is high and the pH is 5 or less, HOCl + H ⁺ is gradually generated.
+ Cl ⁻ → Cl ₂ + H ₂ O is changed to increase chlorine gas. Further, due to the above chemical change, the pH of the acidic ionized water becomes a slightly high value.

When the chlorine gas in the acidic ionized water tank 6 increases, it flows back from the acidic ionized water tank to the ionized water generator 4, and chlorine gas and sodium in the ionized water generator 4 near the acidic ion water outlet 20. There is a possibility that sodium chloride will be formed by the ions and the acid ion water outlet 20 will be clogged. Therefore, the ionized water generator 4 is arranged at a position higher than the acidic ionized water tank 6 so that chlorine gas, which is heavier than air, will come to the bottom.

Further, chlorine gas corrodes the tank and passage. In order to prevent this corrosion, the chlorine gas in the acidic ionized water tank 6 is collected by the pump 54 into the buffer tank 56 through the chlorine extraction passage 50 made of Teflon (registered trademark) having chlorine resistance and mixed. ing. 5
8 is used when draining the laundry drainage in the buffer tank 56. Reference numeral 60 is an overflow outlet for discharging the mixed water 56a in the buffer tank 56 when it overflows.

6d in the acidic ionized water tank 6 and 8d in the alkaline ionized water tank 8 are outlets for overflow which are taken out when the acidic ionized water and the alkaline ionized water overflow. The acidic ionized water and the alkaline ionized water taken out from the overflow outlet are collected in the ionized water generator 4 via the valve (three-way valve) 46 and one side through the ejector pump 16 and the valve 18. The acidic ion water and the alkaline ion water discharged from the other output of the valve 46 are collected in the buffer tank 56 via the valve 42. In addition, 14 is a check valve, and 12 is a stop valve for city water.

Next, the operation of the washing method using alkaline ionized water and acidic ionized water will be described. First, the laundry is stored in the basket 2c of the washing machine 2. Flow rate setting valve 3
2 is opened, and the alkaline ionized water 8a in the alkaline ionized water tank 8 is taken out and supplied to the washing tub 2a. Further, the flow rate setting valve 30 is opened to take out the acidic ionized water 6a from the acidic ionized water tank 6 and supply it to the washing tub 2a to adjust the pH in the washing tub 2a. At this time, the mixing ratio of the alkaline ionized water and the acidic ionized water is set so that the concentration of HOCl hypochlorous acid in the washing tub is 0.05 ppm or more, which has a bacterial effect. Further, the washing area is set to pH 8.5 to 12.4. After supplying a predetermined amount, valves 30, 3
Close 2 At this time, a small amount of detergent in the detergent storage unit 66 is supplied. Then, the basket 2c is rotated to wash the laundry.

After washing, the valve 42 is opened and the washing liquid 2b is discharged to the buffer tank 56 through the filter 40 and the valve 42. After draining the washing liquid, the basket 2c is rotated at high speed for dehydration.

After the dehydration, the flow rate setting valves 30 and 32 are opened, the acidic ionized water 6a in the acidic ionized water tank 6 and the alkaline ionized water 8a in the alkaline ionized water tank 8 are taken out and supplied to the washing tub 2a, and the washing tub 2a. Adjust the pH inside. At this time, the mixing ratio of the alkaline ionized water and the acidic ionized water is set so that the HOCl in the washing tub has a bacterial effect of 0.05 ppm or more. Then, the rinsing area is set to pH 5.5 to 8.5. After supplying a predetermined amount, the valves 30 and 32 are closed and the basket 2c is rotated to start rinsing the laundry.

After rinsing, the valve 42 is opened and the rinsing liquid is discharged to the buffer tank 56 through the filter 40 and the valve 42. After discharging the rinsing liquid, the basket 2c is rotated at a high speed for dehydration.

After dehydration, the valve 28 is opened and city water is supplied to the washing tub 2a via the valve 28. After supplying a predetermined amount, the valve 28 is closed and the car 2c is rotated to start rinsing.
After rinsing with city water, the valve 42 is opened, and the rinsing liquid is discharged to the buffer tank 56 via the filter 40 and the valve 42. After discharging the rinsing liquid, the basket 2c is rotated at a high speed for dehydration. Then, it is dried.

In the buffer tank 56, alkaline ionized water and acidic ionized water are mixed and discharged.

[0024]

EFFECTS OF THE INVENTION There is no fear that the acid ion water outlet 20 will be clogged, and the tank and passage can be washed without being corroded, and environmental and pollution problems can be reduced.

[Brief description of drawings]

FIG. 1 is a schematic view of a washing machine showing an embodiment of the present invention.

[Explanation of symbols]

2 washing machine 2a washing tub 2b cleaning solution 2c basket 4 Ion water generator 6 acidic ionized water tank 6a Acid ionized water 8 alkaline ionized water tank 8a Alkaline ionized water 24 Acidic ion water outlet 26 Alkaline ion water outlet 54 pumps 56 buffer tank

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Kyozo Onishi             3-56, Nishi-Awaji, Higashiyodogawa-ku, Osaka-shi, Osaka             Sansan Electric Co., Ltd. (72) Inventor Hiroyasu Murata             3-56, Nishi-Awaji, Higashiyodogawa-ku, Osaka-shi, Osaka             Sansan Electric Co., Ltd. F term (reference) 3B155 AA01 AA15 AA21 BA06 CA02                       CA16 CB06 CB40 GA00 MA03                 4D002 AA18 AB01 AC10 BA02 CA06                       DA35                 4D061 DA03 DB07 DB08 EA02 EB02                       EB04 EB13 ED13

Claims (2)

[Claims] 1. A ionic water producing means for producing alkaline ionic water and acidic ionic water, an alkaline ionic water tank and an acidic ionic water tank for respectively storing alkaline ionic water and acidic ionic water, and ionic water being supplied for washing. And a washing means, wherein the ionized water generating means is arranged above the acidic ionized water tank. 2. The washing machine according to claim 1, wherein chlorine gas generated in the acidic ionized water tank is recovered in the buffer tank after washing the ionized water.