KR20000014726A - Ozone dissolving method using hot wind in air drop ozone washing machine - Google Patents

Abstract

PURPOSE: An ozone dissolving method of an air drop ozone washing machine is provided to minimize the distributed ozone by converting to a safe oxygen by dissolving and by removing the distributed ozone terribly generated in a rinsing process of the washing machine by a hot wind. CONSTITUTION: The distributed ozone dissolving method of the air drop ozone washing machine contains: a first step to continuously generate an air drop and an ozone after supplying water when a washing process is finished, and to perform a rinsing agitation while blowing a hot air into a washing tub by driving a hot wind generating device; a second step to finish the drive of the hot wind generating device, and to perform a balance dehydration to balance the washing after draining; a third step to finish the rinsing process by repeatedly performing the first and the second steps again, and to convert to the dehydration process.

Description

Method for resolving ozone using heating air in air bubble-ozone washing machine

The present invention relates to a method for decomposing ozone in an air bubble ozone washing machine, and in particular, an air bubble capable of minimizing the ozone by converting the ozone generated in the rinse stroke of the washing machine into hot air by removing it. The present invention relates to a method for decomposing ozone in an ozone washing machine.

In general, an ozone washing machine is used to wash ozone when washing laundry in order to take advantage of the characteristics of ozone (O ₃ ), 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 that has a function of dissolving and disinfecting laundry by dissolving it in the water. In general, the ozone concentration of ozone water can be adaptively controlled according to the amount of laundry or the water pressure and the contamination of laundry when water is supplied. It is possible to perform the optimal sterilization / disinfection function.

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 that harmonizes the ozone and air bubbles, some oxygen is ozonated while oxygen (O ₂ ) in the air compressed by the air bubble generator passes through the ozone generator, and the remaining air and ozone are stored in the water tank. It is supplied to the washing tank through the lower nozzle to improve the washing effect based on air bubbles and ozone.

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 a part of the unreacted ozone is not dissolved in the wash water. After rising to the surface there is a problem that causes the odor to spread to the atmosphere.

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 early stage of washing, hydroxide ions (OH ⁻ ) are activated by a builder, an auxiliary component added to increase the washing performance. 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.

On the other hand, in order to solve the above problems of the ozone zone, Korean Utility Model Application No. 98-9674 is provided with a ceramic catalyst on the hose to generate and supply air bubbles to decompose ozone introduced into the washing tank into a radical form into the washing tank. By supplying, ozone was prevented from dissolving in wash water and leaving as it is to air.

On the other hand, the ozone is usually generated in the rinsing stroke, because the ozone gas in the washing stroke is adsorbed to the detergent and the laundry (mainly detergent liquid), the concentration of ozone generated is low, but the detergent liquid in the rinsing stroke This is because there is no mixture which can adsorb ozone gas because it is relatively clear without water.

In addition, ozone is stable at room temperature but rapidly decomposes at high temperature to generate oxygen. In the present invention, ozone concentration is decomposed by decomposing ozone diffused into the atmosphere by using hot air from a heater during a rinsing cycle. This paper suggests ways to minimize this problem.

The present invention has been made in order to solve the above-described conventional problems, the object of the present invention is to minimize the ozone dissolving in the wash water is not dissolved in the wash water and unreacted to diffuse into the atmosphere, in particular during the rinsing stroke It is to provide a method for decomposition of ozone in an air bubble ozone washer to reduce the ozone concentration by decomposing the ozone contained in the air inside the washing machine with oxygen by increasing the temperature inside the washing machine by hot air.

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

2A is a schematic representation of an air bubble ozone washing machine employed in accordance with the present invention.

2B is a schematic representation of another air bubble ozone washer employed in accordance with the present invention.

Figure 3 is a block diagram of an air bubble ozone washer with ozone decomposition apparatus employed in accordance with the present invention.

Figure 4a is a flow chart illustrating a washing process of the air bubble ozone washing machine according to the present invention.

Figure 4b is a flow chart illustrating a rinsing process including the ozone decomposition process in the air bubble ozone washing machine according to the present invention.

<Explanation of symbols for main parts of the drawings>

4: air bubble generator 5: ozone generator

7: nozzle 8: heater

9: blowing fan 30: micom

40: air bubble generation drive unit 50: ozone generation drive unit

80: heater driving unit 90: blowing fan driving unit

The ozone decomposing method in the air bubble ozone washing machine according to the present invention includes an air bubble generator for receiving and compressing external air, and an ozone generator for converting a part of oxygen in the compressed air discharged from the air bubble generator into ozone. And a nozzle for supplying the gas discharged through the ozone generator to the washing water through the back of the washing tank, and selectively generated heat based on a microcomputer formed on one side of the washing tank to control the overall operation of the washing machine. In washing, rinsing, and dehydrating strokes of an air bubble ozone washing machine having a hot air generating means for raising the temperature, when the washing stroke is completed, air bubbles and ozone are continuously generated after water supply, and the hot air generating means is driven to hot in the washing tank. Rinse for a predetermined time while blowing air to decompose ozone in the air A first step of agitating, a second step of terminating the driving of the hot air generating means and performing balance dehydration for balancing the laundry after drainage, and without driving the hot air generating means when the predetermined time elapses; And a third step of repeating the first step and the second step once more to terminate the rinsing step and to switch to the dehydration step.

In the third step, when the first and second steps are repeated once more, the hot air generating means is driven.

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, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2A is a schematic diagram of an air bubble ozone washing machine employed in accordance with the present invention, wherein the air bubble generator 4 generates compressed air for generating air bubbles and delivers the air to the ozone generator 5, wherein the ozone generator 5 is A portion of oxygen in the compressed air from the air bubble generator 4 is ozonated and delivered to the nozzle 7 through the hose 6, which is installed on the lower surface of the washing machine and applied through the hose 6. Compressed air containing oxygen and ozone is sprayed into a number of droplets through a plurality of nozzle holes formed in the upper portion and is supplied to the inside of the washing tank (2) through the bottom surface of the reservoir (1) on the side of the pulsator (3) The conventional air bubble ozone washer further comprises a heater 8.

In this configuration, the heater 8 is formed on one side of the upper part of the water storage tank 1 and the washing tank 2, and selectively generates heat under the control of a microcomputer (not shown) to store the water storage tank 1 and the washing tank 2. The internal air, that is, the air inside the washing machine, is heated to increase the temperature of the internal air to decompose the ozone into stable oxygen.

Meanwhile, in another air bubble ozone washing machine shown in FIG. 2B, a separate blowing fan 9 is provided at the rear of the heater 8 to drive the heat generated by the driving of the heater 8 to drive the blowing fan 9. The internal air is continuously sucked into the inlet of the duct and discharged to the outlet of the duct so that hot air is circulated inside the washing machine to decompose the ozone contained in the air into stable oxygen.

3 is a block diagram of an air bubble ozone washing machine including the ozone decomposition apparatus according to the present invention, the key input unit 10, the sensor unit 20, the microcomputer 30, the air bubble generation drive unit 40, ozone It includes a generation driving unit 50, the display unit 60, the laundry driving unit 70, and includes only the heater driving unit 80 as the hot air generating means or the heater driving unit 80 and the blowing fan driving unit 90.

In this configuration, the microcomputer 30 displays the current washing status through the display unit 60 on the basis of washing information such as washing, rinsing, and dehydration stroke set based on a predetermined key signal of the key input unit 10, On the basis of the washing information and various detection signals from the sensor unit 20, the washing drive unit 70 which drives the rotation of the washing tank and the stirring, water supply, and drainage of the pulsator is controlled. On the basis of the air bubble generation and the ozone generating drive unit 40 and ozone generating drive unit 50 for generating ozone selectively drive control, in particular to increase the temperature of the air inside the washing machine, the heater drive unit 80 or the heater drive unit ( 80) and the blower fan drive unit 90 are selectively driven to decompose and remove the ozone.

Next, the washing process according to the present invention in the air bubble ozone washing machine having the above-described configuration, and in particular the rinsing process for the decomposition of the ozone, will be described in detail with reference to FIGS. 4A and 4B.

First, the washing process will be described with reference to FIG. 4A on the basis of a purge course having a total washing time of 18 minutes.

First, when the washing stroke is started in the washing, rinsing, and dehydrating washing process, the microcomputer 30 generates an air bubble by controlling the air bubble generating driver 40 to inject air bubbles from the lower part of the washing tank into the washing water (step 400).

At this time, the air bubble generation drive unit 40 generates the air bubbles intermittently by repeatedly performing the on control for 1 minute and 30 seconds and the off control for the next 30 seconds.

Next, the microcomputer 30 determines whether 4 minutes have elapsed since the start of the washing stroke (step 402), and continuously controls the air bubble generation drive unit 40 intermittently with the above-described control method after 4 minutes has elapsed, and ozone is generated. The driving unit 50 also turns on for 1 minute and 30 seconds, and repeatedly turns off for the next 30 seconds to generate ozone intermittently and to put it into the wash water (step 404).

That is, ozone is oxygenated due to weak alkalinization of the wash water, and only an air bubble is generated until about 4 minutes in the early stage of washing in which ozone is oxygenated, thereby preventing unnecessary waste of ozone.

Next, the microcomputer 30 determines whether 12 minutes have elapsed since the start of the washing stroke, that is, 8 minutes have passed after 4 minutes have elapsed (step 406).

At this time, when 12 minutes have elapsed after the start of washing, the air bubble generating driver 40 and the ozone generating driver 50 are continuously turned on to inject air bubbles and ozone into the washing water (step 408).

That is, during the eight minutes of the mid-wash, the solubility of the ozone is increased by slightly neutralizing the wash water, thereby generating ozone to increase the washing efficiency.

Then, it is determined whether 18 minutes of washing end time has elapsed (step 410), and when 18 minutes has elapsed, the washing drive unit 70 is controlled to switch to a rinsing stroke (step 412), and the washing stroke is terminated.

Next, a rinsing process including the ozone decomposition method using hot air according to the present invention will be described with reference to FIG. 4B.

First, when the washing stroke is finished and switched to the rinsing stroke, water for rinsing is performed (step 500).

Next, the washing tank is rinsed and stirred (step 502), air bubbles and ozone are continuously generated, and the hot air generating means is driven to raise the temperature in the washing machine (step 504).

At this time, since the concentration of detergent is low in the rinsing cycle, the ozone cannot easily be adsorbed and diffused into the air.If the air temperature in the washing machine rises due to the hot air generated by the driving of the heater, the unsorption vessel contained in the air is not available. Ozone is easily broken down and converted into oxygen.

Next, it is determined whether 3 minutes, which is one rinsing time, has elapsed (step 506). When 3 minutes have elapsed, the driving of the hot air generating means is stopped (step 508), and drainage is performed (step 510).

Then, balance dehydration is performed to prevent twisting of the laundry and maintain balance (step 512), and watering is performed (step 514).

Next, the above-described rinsing process (steps 502 to 512) is performed once more without driving the hot air generating means, that is, the rinsing process is performed twice (step 516), and the rinsing process is terminated.

On the other hand, by operating the hot air generating means in two rinsing process it is possible to further minimize the ozone zone.

In other words, as described above, the ozone is a serious occurrence in the rinsing stroke, and thus, the hot air generating means is driven to convert the ozone into the oxygen in the pyrolysis manner in the rinsing stroke.

Therefore, the hot air generating means may continue to be driven for the time that the rinsing stroke proceeds, such as air bubbles and ozone generation.

On the other hand, the washing course applied a purge course (18 minutes washing, 2 rinsing), the water level was applied to a high level of 93ℓ, the water temperature is 24 ℃, detergent 1g / 1ℓ, the weight of the weight 6kg, air bubbles and ozone generator Doses were 2700 cc / min and 40 mg / hr, respectively. As a result, the ozone was 0 ppm in the washing stroke and 0.1 ppm in the rinsing stroke.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

As described above, according to the present invention, by reducing the ozone zone by the thermal decomposition method in the rinsing stroke, it is possible to protect the use environment of the washing machine, and also the ozone resistance of various washing machine parts (for example, plastic, rubber, etc.). This has the effect of improving the problem.

Claims (2)

An air bubble generator that receives and compresses external air and discharges it, an ozone generator that converts some of the oxygen in the compressed air discharged from the air bubble generator into ozone, and the gas discharged through the ozone generator through the back of the washing tank. Air bubble ozone washer having a nozzle for supplying water and a hot air generating means formed on the upper side of the washing tank and selectively generating heat based on a microcomputer that controls the overall operation of the washing machine to generate and circulate hot air into the washing tank. In washing, rinsing, dehydration stroke, A first step of continuously generating air bubbles and ozone after water supply and rinsing and stirring for a predetermined time while driving the hot air generating means to blow hot air into the washing tank when the washing stroke is finished; A second step of, after the predetermined time has elapsed, stop driving the hot air generating means and perform balance dehydration to balance laundry after draining; And a third step of repeating the first step and the second step without the hot air generating means once again to end the rinsing step and converting it into a dehydration step. Ozone Decomposition Method. [Claim 2] The ozone decomposition using hot air in the air bubble ozone washing machine according to claim 1, wherein the third step is performed while driving the hot air generating means when the first and second steps are repeated once more. Way.