KR100326658B1 - Ozone washing method in air bubble ozone wash-machine - Google Patents

Abstract

The present invention relates to an ozone washing method for controlling the ozone concentration of the wash water by using air bubbles and ozone. In the washing process, when ozone is dissolved in the wash water, it reacts with the weakly alkaline wash water and undergoes a self-decomposition reaction. As ozone dissolution rate is lowered and harmful ozone is generated, harmful air bubbles are generated.In the washing process, only air bubbles are put in (1 minute on, 1 minute off), and the rinsing water is close to neutral during the rinsing stroke. It is designed to optimize ozone concentration in water by simultaneously introducing ozone (air bubbles: 1 minute on, 1 minute off / ozone: continuous input) and to maximize cleaning and sterilizing power by eliminating ozone.

Description

Ozone washing method in air bubble ozone wash-machine}

According to the present invention, when ozone is dissolved in the wash water during the washing stroke, the dissolution rate of ozone is lowered by the self-decomposition reaction and the ozone harmful to the human body is generated by the self-decomposition reaction. Air bubble ozone to optimize ozone concentration in water by removing ozone at the same time while maintaining the above steps, while rinsing water is close to neutral during rinsing operation. An ozone washing method of a washing machine.

In general, ozone washer is used by dissolving ozone in washing water in order to take advantage of the characteristics of ozone, that is, excellent in oxidizing power and promoting decomposition of organic substances, sterilization, removal of odor components and decomposition of surfactants in detergents. It refers to a washing machine having a function to perform the sterilization and disinfection of laundry, and it is possible to control the ozone concentration of ozone water adaptively according to the amount of laundry or the water pressure and the contamination of laundry when water is supplied. It is able to perform sterilization / disinfection function of.

On the other hand, the air bubble washing machine is to increase the washing effect by removing the compressed air generated by using the air pump during the washing stroke by supplying air bubbles to the laundry through the bubble supply nozzle installed in the lower part of the washing machine reservoir. The bubble supply nozzle of the air bubble washing machine is fixed to the water tank of the lower part of the pulsator, and bubbles generated from the air bubble generator including the air pump are sprayed into numerous air bubbles through a plurality of holes formed in the nozzle via a hose, thereby storing the water tank. It is configured to be supplied with.

On the other hand, in the air bubble ozone washing machine which harmonizes the ozone and air bubbles, oxygen in the air compressed by the air bubble generator passes through the ozone generator, and part of the oxygen is ozonated. It is supplied to the washing tank through the air bubble and ozone to improve the washing effect.

1 is a schematic diagram of a conventional air bubble ozone washing machine using ozone as described above.

In the same figure, the air bubble generator 4 generates compressed air for generating air bubbles and delivers it to the ozone generator 5, which ozone generator 5 carries oxygen in the compressed air from the air bubble generator 4; A part of ozone is delivered to the nozzle 7 through the hose 6, and the nozzle 7 is installed on the lower surface of the washing machine, and the compressed air containing oxygen and ozone applied through the hose 6 is upper part thereof. It is configured to be sprayed into a number of drops through a plurality of nozzle holes formed in the supply to the inside of the washing tank (2) through the bottom surface of the reservoir (1) on the side of the pulsator (3).

In such a configuration, the air bubble generator 4 is operated to generate compressed air in the process of washing in the state in which the proper washing water is fresh in the washing tank 2, and the ozone generator 5 is operated to produce air bubbles. Part of the oxygen in the compressed air generated from the generator 4 is ozonated.

Next, compressed air containing ozone and oxygen is injected into the washing tank 2 through the nozzle 7 provided on the lower surface of the washing machine through the hose 6.

Then, the air bubbles generated through the nozzle 7 come into contact with the laundry located in the washing tank 2 to separate foreign matters remaining on the cloth from the cloth, and the ozone in the compressed air at this time is like the air bubbles. It is dissolved in the wash water while being supplied into the washing tank 2 to increase the washing efficiency such as sterilization and disinfection.

However, ozone has a very short time to react with organic matter in the wash water, so the probability of ozone not being dissolved in the wash water is very high, and part of the unreacted ozone that is not dissolved in the wash water is the surface of the wash water. There is a problem in that the odor is caused by the spread to the atmosphere after emergence.

In addition, if the ozone diffused in the air is above the appropriate value (0.1 ppm in the atmospheric ozone concentration limit value) to 0.12 ppm or more, there is a problem that may harm the human body, such as respiratory failure or visual impairment.

In addition, typically a washing machine the number of washing uses a detergent, detergent is dissolved in order to remove contaminants from the laundry are hydroxide ions since the weak alkaline (OH ^-) Formula 1 below, this is the medium of ozone originally unstable It is continuously decomposed and finally stabilized by generating oxygen.

In other words, when washing detergent by dissolving the standard amount of detergent in the wash water, and looking at the change in pH (pH), 10.5 before washing, 10.1 during washing, 7.6 after one rinsing, 7.6 after two rinsing Similar to pure wash water (pH: 7), 7.2 is shown.

That is, before washing, after washing, the pH is about 10, and the alkalinity is weak. In the initial stage of washing, hydroxide ions (OH-) are activated by a builder, an auxiliary component added to increase the cleaning performance of the detergent. This is because it is present more than hydrogen ions (H +), it is neutralized in the rinsing step to show a neutral pH of about 7.

Therefore, when ozone is introduced from the start of washing, the originally unstable ozone self-decomposes itself, that is, finally The decomposition rate is accelerated as the pH increases, that is, the more alkaline the washing water, and this self-decomposition eventually causes a problem of reducing the washing effect by ozone.

In addition, activated carbon, etc., was additionally installed as a ozone absorber generated by the ozone self-decomposition reaction, but it only caused an additional cost increase and was not a fundamental method of removing ozone.

The present invention has been made in order to solve the above-mentioned conventional problems, in the washing stroke, when ozone is dissolved in the wash water, it reacts with the weakly alkaline wash water, and the dissolution rate of ozone is lowered by the self-decomposition reaction and harmful to human body. As ozone is generated, only air bubbles are put in (1 minute on, 1 minute off) during washing, and rinsing water is close to neutral during rinsing, so air bubbles and ozone are added simultaneously (air drops: 1 minute). ON, 1 minute off / ozone (continuous input) to optimize the ozone concentration in the water, fundamentally remove the ozone and provide maximum cleaning and disinfection.

1 is a schematic diagram of a typical air bubble ozone washing machine.

2 is a block diagram of an air bubble ozone washing machine according to the present invention;

3 is a flow chart showing a washing process of the air bubble ozone washing machine according to the present invention.

<Explanation of symbols for the main parts of the drawings>

200: microcomputer 210: key input unit

220: water supply valve drive unit 240: washing / hemming stroke drive unit

250: air bubble generation drive unit 260: ozone generation drive unit

A feature of the present invention for achieving the above object is to remove only the air bubbles without washing ozone in the washing stroke in order to fundamentally remove the ozone generated by the reaction of the weakly alkaline washing water and the ozone injected into the detergent dissolved. In the 1 minute on / 1 minute off cycle into the wash water and neutral in the water components during the rinsing stroke without the risk of ozone generation, the air bubble and ozone at the same time, the air bubbles in the 1 minute on / 1 minute off cycle, Ozone is continuously added to the rinse water to remove the ozone radically and improve the dissolution rate of ozone to maximize the washing effect and sterilization effect.

The specification of the bubble pump (bubble pump) is 2700 ㏄ / min, the ozone generator (40 mg / hour) is connected to one tube as shown in Figure 2 is configured to be introduced through the bottom of the washing tank.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, an ozone washing method of an air bubble ozone washing machine of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of the air bubble ozone washer according to the present invention, Figure 3 is a flow chart showing the washing process of the air bubble ozone washer according to the present invention.

The washing method according to the present invention comprises the steps of determining whether the stroke to be performed in the future as shown in Figure 3 washing stroke; In the case of the washing stroke, the process of injecting water and air bubbles in a 1 minute on / 1 minute off cycle; In the case of a rinsing stroke, the step of continuously introducing ozone in addition to the washing stroke process; It consists of the process of performing the following washing / rinsing / dehydration stroke.

The above washing method will be described in detail.

When the user turns on the washing machine and inputs the desired washing mode and washing process through the key input unit 210, the microcomputer 200 first determines whether the washing stroke is performed. (S 301)

When the microcomputer 200 determines that the washing stroke is performed, the microcomputer 200 operates the water supply valve driving unit 220 to inject washing water into a washing tank (hereinafter referred to as a drum), and then performs the washing stroke. The microcomputer 200 starts by operating the washing stroke driving unit 240 and also operates the air bubble generating driving unit 250 to inject air bubbles into the washing water during the 1 minute on / 1 minute off cycle. 302, S 303)

When the washing stroke is finished, the process proceeds to the rinsing stroke (S 305 or less) after performing the dehydration process. (S 304)

When it is determined that the rinsing stroke is performed by the microcomputer 200, the rinsing stroke is performed by operating the water supply valve driving unit 220 in the microcomputer 200, inserting the rinsing water into the drum, and then rinsing in the microcomputer 200. It starts by operating the stroke drive unit 240, and also operates the air bubble generation drive unit 250 and the ozone generation drive unit 260, the air bubbles in the wash water during the rinsing stroke 1 minute on / 1 minute off cycle, ozone is continuously (S 305, S 306)

When the rinsing cycle is finished, the microcomputer 200 determines whether the rinsing process is the last rinsing after performing the dehydration process, and terminates after performing the number of rinsing cycles specified by the user. (S 307, S 308)

While the invention has been shown and described with respect to particular embodiments, those skilled in the art will recognize that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the appended claims. Anyone can easily know.

The present invention has been made in order to solve the above-mentioned conventional problems, in the washing stroke, when ozone is dissolved in the wash water, it reacts with the weakly alkaline wash water, and the dissolution rate of ozone is lowered by the self-decomposition reaction and harmful to human body. Since there is a problem that ozone is generated, only the air bubbles are injected at a predetermined time interval during the washing stroke, and the rinsing water is close to the neutral during the rinsing stroke, thus optimizing the ozone concentration in the water by simultaneously adding ozone while maintaining the above steps. It fundamentally removes ozone and maximizes cleansing and sterilizing power.

Claims (1)

In the ozone washing method of an air bubble ozone washing machine having an air bubble generator, an ozone generator, and a nozzle for supplying air bubbles / ozone to the washing water through the back of the washing tank, Generating only air bubbles at predetermined time intervals without generating ozone during the washing stroke; The ozone washing method of the air bubble ozone washing machine, comprising the step of continuously generating ozone during the rinsing stroke to prevent the forced ozone from reacting with the weakly alkaline washing water.