KR20010010606A - Washing method in air bubble Ozone- washing-machine - Google Patents

Abstract

PURPOSE: A method for ozone washing in an air bubble ozone washer is provided to remove efficiently a contaminant of washing laundry by forming an air bubble generator and an ozone generator with one body. CONSTITUTION: A method for ozone washing in an air bubble ozone washer comprises the following steps. A state of a water-supply valve is determined. The variation of a water level is checked and determined when the water-supply valve is opened. The air bubble and the ozone are generated to a predetermined water level if the result indicates the varied water level. The generated air bubble and ozone are injected into the water receiving hole. The generation of the air bubble and the ozone is stopped and a washing and a rinsing process is performed if the water is filled up to the predetermined water level.

Description

Washing method in air bubble Ozone- washing-machine}

The present invention is an air bubble ozone which improves the removal of contaminants and the sterilization effect of laundry by dissolving air bubbles and ozone in the incoming water by installing the air bubble generator and ozone generator integrally around the inlet of the air bubble ozone washing machine. It relates to a washing method of the 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. As it is supplied into the washing tank 2, it is dissolved in the washing water to increase washing efficiency such as sterilization and disinfection.

However, due to its characteristics, ozone has a short reaction time with organic matter in the wash water, and thus the probability of ozone being insoluble in the wash water is very high, and a part of the unreacted ozone that does not dissolve in the wash water rises to the wash water surface. After spreading into the atmosphere there is a problem that causes the odor.

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

Further, in the normally washing machine uses a detergent to remove contaminants from the laundry, detergent has a washing and dissolving weak alkali is due to hydroxide ions (OH ^-) once learned under the ozone originally unstable condition is a medium It is continuously decomposed as shown in 1 and finally stabilized by generating oxygen.

^{_{O 3 + OH - → HO 2}} + O 2 -

^{_{0 3 + O 2 - → O}} 3 - + O 2

_{^{O 3 - + H + → HO}} 3

HO ₃ → OH + O ₂

OH + O ₃ → HO ₄

HO ₄ → HO ₂ + O ₂

HO ₄ + HO ₄ → H ₂ O ₂ + 2O ₃

HO ₄ + HO ₃ → H ₂ O ₂ + O ₃ + O ₂

In other words, when washing detergent by dissolving the standard amount of detergent in washing water, the change in pH index (pH) is 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, when the washing machine has a large capacity, the laundry of the rated capacity could not be evenly flipped by the physical method, and there was a serious problem of washing between laundry located at the bottom and the top of the washing tank.

As a solution to the above-described air bubble ozone washing machine, there is a patent application No. 98-25080 of the applicant.

Patent application No. 98-25080 improves the washing effect by decomposing ozone into oxygen and generator oxygen (O) and supplying it into the washing tank to increase the oxidizing power, and the change of washing water containing detergent in the washing stroke, that is, pH and analyzing the conductivity to ozone disorder factor of hydroxide ion (OH ^-) when dissolved in the wash water to adjust the on / off time of the air bubbles and ozone generator to interrupt the action of so minimized to improve the solubility of the ozone by the ozone As it does not dissolve in the wash water and does not react, the washing efficiency is prevented and the increase in the concentration of ozone in the air is prevented, and in particular, the washing variation between the laundry can be minimized.

However, in the case of the conventional air bubble and ozone generating method described above, the air bubble and ozone generated by the air bubble generator and the ozone generator are injected at the bottom of the washing tank, so that the disturbance caused by the stirring of the pulsator of the washing machine is disturbed. As a result, the amount (dissolution rate) of ozone dissolved in the washing water introduced into the washing tank is lowered, thereby increasing the amount of ozone that is not dissolved, that is, ozone.

In other words, when the pulsator of the washing machine is stirred, washing water is also agitated. When ozone is injected in this state, the ozone dissolution rate is lowered and the ozone is increased than when the stirring is not performed.

In addition, there is a problem of environmental pollution due to the ozone.In this way, when the ozone dissolution rate is lowered in the wash water, the characteristic of ozone cannot be exhibited at the time of washing to the maximum, and contaminant removal and sterilization / disinfection functions are deteriorated.

An object of the present invention to solve the problem of the conventional air bubble ozone washer as described above, that is, the ozone dissolution rate of the wash water flowing into the air bubble ozone washer is reduced by the disturbing action of the pulsator of the washing machine is air It is to provide a washing method to maximize the dissolution rate of ozone by dissolving ozone directly in the incoming water by installing a drop and ozone generator around the inlet.

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

2 is a schematic 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.

Figure 4 is a block diagram of a configuration of an air bubble ozone washing machine according to the present invention

<Explanation of symbols for main parts of drawing>

100: washing tank 200: air bubbles and ozone generator

300: inlet 310: outlet

A feature of the present invention for achieving the above object is an air bubble generating means for receiving and compressing the outside air after receiving the compressed air and ozone generating means for converting a part of oxygen in the compressed air discharged from the air bubble generating means into ozone Installed in the surrounding area, the gas (air and ozone) discharged through the ozone generating means flows in through the nozzle connected to the inlet port and directly dissolves in the wash water obtained to improve the dissolution rate to reduce the ozone and at the same time sterilize and disinfect It is an improvement in ability.

In addition, the washing water is also agitated by the disturbing action of the washing machine pulsator and the air bubble and ozone generator of the present invention is installed around the water inlet in order to prevent the dissolution rate of the ozone to wash water is lowered is formed integrally, Silver air bubble generator (Bubble pump) is 2700 ㏄ / min, Ozone generator is characterized by 100 mg / hour.

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

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

2 is a schematic diagram of an air bubble ozone washer according to the present invention, FIG. 3 is a flowchart illustrating a washing process of the air bubble ozone washer according to the present invention, and FIG. 4 is a block diagram of the air bubble ozone washer according to the present invention. .

The washing method of the present invention comprises the steps of determining whether the water supply valve is on as shown in FIG. Determining the water level change by detecting a water level change when the water supply valve is turned on; When the water level change is determined as the result of the determination in the above process, generating air bubbles and ozone until reaching the set water level, and directly injecting water into the water inlet; When the water level is reached, the water supply and air bubbles / ozone are stopped and the washing / rinsing stroke is performed.

This will be described in detail.

When the user turns on the washing machine and starts washing by selecting a desired washing mode, a washing process, and the like through a key input unit, the water supply valve is turned on, and the washing water introduced through the inlet 300 is connected to the washing tank through the outlet 310. 100) (S101, S102).

When water is stored in the washing tank 100 by water supply, the water level detection unit detects the presence or absence of the water level change and outputs it to the microcomputer (S103), and the water level change is generated from the information on the water level change input from the water level detection unit. If the microcomputer determines (S104), the air bubble and ozone generator 200 is controlled to drive the air bubble and ozone generator 200 (S105).

On the other hand, if the water supply valve is kept off or no water level change is detected during the above operation, an error signal is generated and the process proceeds to step S101 (S109).

In operation S105, ozone is generated by the operation of the air bubble and the ozone generator 200, mixed with water flowing into the water inlet 310, and stored in the washing tank 100.

At this time, since ozone is naturally dissolved in the water introduced without stirring the pulsator, the dissolution rate is increased, the generation of ozone is suppressed naturally, and the washing water stored in the washing tank 100 is ozone water.

Steps S101 to S105 are repeatedly repeated until the set water level is reached (S106), and when the water level is reached, the microcomputer stops the water supply by turning off the water supply valve, and also controls the air bubble and ozone generating driver to control the air bubble and ozone. The washing is terminated by stopping the generation and then performing the washing / rinsing stroke (S106 to S108).

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.

As described above, the air bubble ozone washing machine of the present invention forms an air bubble generator and an ozone generator integrally and is installed around the inlet port, and dissolves ozone directly in the water supplied through the inlet port, thereby making ozone water and introducing it into the washing tank. It is possible to prevent the phenomenon that ozone dissolution rate is lowered due to the disturbing action of the pulsator agitation in the ozone washing machine of the washing machine, to increase the washing effect (removal of contaminants) of the laundry, and to improve the sterilization treatment of the laundry.

Claims (2)

In the air bubble ozone washer having air bubble generating means and ozone generating means for receiving and compressing external air, The air bubble generating means and the ozone generating means are integrally formed and installed around the water inlet, the air bubbles and ozone are sprayed directly into the water flowing into the washing tank through the nozzle connected to the water inlet to make the wash water ozone, and wash / rinse stroke. Washing method of air bubble ozone washer, characterized in that to carry out. The method of claim 1, Determining whether the water supply valve is on; Determining the water level change by detecting a water level change when the water supply valve is turned on; When the water level change is determined as the result of the determination in the above process, generating air bubbles and ozone until reaching the set water level, and directly injecting water into the water inlet; Method of washing an air bubble ozone washing machine comprising the step of stopping the generation of water supply and air bubbles / ozone and performing a washing / rinsing stroke when the set water level is reached.