KR20030092771A - Method for cleaning electrolysis apparatus for nondetergent washing machine - Google Patents

Abstract

PURPOSE: A cleaning method of an electrolyzer for a nondetergent washing machine is provided to improve reactivity of electrolysis and reliability by cleaning the electrolyzer with supplying constant voltage to the anode and the cathode repeatedly after washing and dehydrating. CONSTITUTION: The washing course is set in finishing final dehydration(401), and water is supplied to an electrolyte chamber and a washing water chamber through first and second supply ports(403). Constant voltage is supplied to an anode and a cathode for two minutes(405). A control unit checks the passage of the predetermined time(407), and a current amount detecting unit detects current between the anode and the cathode(409). The control unit compares the detected current amount with the predetermined value(410), and drains water through the first and second drain ports from the electrolytic chamber and the water chamber in case of the current amount to be over the predetermined value(411). Water from the electrolytic chamber and the washing water chamber is drained and washing is finished in case of the detected current amount to be less than the predetermined value(413).

Description

METHOD FOR CLEANING ELECTROLYSIS APPARATUS FOR NONDETERGENT WASHING MACHINE}

The present invention relates to a method for cleaning an electrolytic device of a detergent-free washing machine, and more particularly, to a method for cleaning an electrolytic device of a detergent-free washing machine to improve electrolytic reactivity.

A general washing machine is a device that removes various contaminants attached to clothes, bedding, etc. by using the emulsification of the detergent, friction action of the water flow due to the rotation of the washing blades (pulsator), and impact effect on the laundry by the pulsator. to be.

The washing machine currently used, as shown in FIG. 1, generally supplies water to the water tank 10 through the water tank 10, the washing tank 20 installed in the water tank 10, and the water supply pipe 30. A water supply valve 31 for blocking, a drain valve 41 for draining or blocking the washing water in the washing tank 20 through the drain pipe 40, and a pulsator 50 for mixing the washing water and the laundry during washing and rinsing. And a clutch 60 for transmitting or blocking power from the motor 65 to the rotary shaft of the pulsator 50, the water supply valve 31, the drain valve 41, the pulsator 50, and the driving motor 65. ) And a control unit 80 for controlling the clutch 60 and the like according to the stored program.

Such a conventional electric washing machine washes laundry using a synthetic detergent. That is, the laundry is put into the washing tank 20, the synthetic detergent is added, and then the power switch is turned on, and then the controller 80 first opens the water supply valve 31 to supply water to the water tank 10 through the water supply pipe 30.

And when the appropriate amount of water is introduced into the water tank 10 according to the amount of laundry, the water level sensor (not shown) sends a signal to the controller 80, closes the water supply valve 41 to stop the supply of water. Subsequently, the controller 80 rotates the motor 65, operates the clutch 60, and rotates the pulsator 50 to generate water flow.

The pulsator 50 is operated for a time input in advance to the controller 80, the clutch 60 is interrupted by the timer (not shown) to stop the operation. Then, the controller 80 opens the drain valve 40 and discharges the washing water to the outside through the drain pipe 40.

After all the water is discharged to the reservoir 10, the controller 80 closes the drain valve 41 and opens the water supply valve 41 to rinse again to supply water into the reservoir 10. Then, the washing tank 20 is rotated to rinse. At this time, since the conventional washing machine uses a synthetic detergent, the rinsing operation is normally performed twice to wash away the detergent remaining in the laundry.

Therefore, since the conventional washing machine uses a synthetic detergent, a rinsing operation has to be performed two or more times for washing the synthetic detergent.

In addition, synthetic detergents have the advantage of washing the laundry by improving the washing power, but is the main cause of polluting the environment, such as water quality.

Therefore, recently, various detergents have been developed and used to reduce environmental pollution. For example, vegetable detergents and detergents are strongly developed and used to obtain the same washing effect in a small amount by increasing the washing power.

However, these synthetic detergents do not fundamentally prevent water pollution, and are only a method of reducing pollution, so the direct effect of reducing water pollution is weak.

Recently, however, a washing machine having an electrolysis device for washing laundry with basic washing water using an electrolysis reaction has been released to prevent environmental pollution due to such detergents.

In the electrolytic apparatus of the conventional washing machine as described above, after each washing stroke, the electrolyte catalyst is accumulated in the electrolytic apparatus, and the internal contamination of the electrolytic apparatus not only reduces the electrolytic reactivity but also the washing power of the laundry. This causes a decrease.

Accordingly, the present invention has been created to solve the above problems, the present invention by supplying a constant voltage to the cathode and the anode after each washing and dehydration stroke is finished by washing the electrolysis device, it is possible to improve the electrolytic reactivity It is an object of the present invention to provide a method for cleaning an electrolysis device of a detergent-free washing machine.

Technical means according to the present invention for achieving the above object,

A power supply unit for supplying constant tap water to the cathode and the anode after supplying neutral tap water to the inside of the electrolysis device, a current amount sensing unit for sensing the amount of current flowing through the cathode and the anode, and an electrolysis device according to the amount of current in the current amount sensing unit In the washing method of the electrolysis device comprising a control unit for controlling the discharge of tap water,

a) establishing a wash stroke after the final dewatering stroke is finished;

b) supplying tap water to the wash water room and the electrolyte room of the electrolysis device, and then supplying a constant voltage having a polarity corresponding to the cathode and the anode;

c) checking whether a predetermined time has elapsed and if it is determined that the predetermined time has elapsed, detecting an amount of current flowing between the cathode and the anode; And

d) comparing the detected current amount with a predetermined value, and if the detected current amount exceeds a predetermined value, the tap water supplied to each of the washing water room and the electrolyte room is drained, and then the process proceeds to step b), and the detected current amount If it does not exceed a predetermined value is characterized in that the step of terminating the washing stroke of the electrolysis device by draining the tap water in the wash water room and the electrolyte room.

According to the present invention, an electrolysis device is provided by repeatedly performing a washing process for supplying a constant voltage of a polarity corresponding to a cathode and an anode after supplying tap water in the wash water room and the electrolyte room a predetermined time until the current amount does not exceed a predetermined value. It is possible to prevent the degradation of electrolysis reactivity to the internal contamination of the product, and to further improve the reliability of the product.

1 is a view showing the configuration of a general washing machine.

2 is a view showing the configuration of an electrolysis device of a washing machine to which the present invention is applied.

3 is a flowchart illustrating a process of washing the electrolytic apparatus of the detergent-free washing machine according to the present invention.

<Explanation of symbols for main parts of drawing>

70 electrolysis device 71 electrolyte room

73: laundry room 74: anode

75: cathode 77: ion exchange membrane

78, 87: the first water supply port and the second water supply port

79, 80: a first drain and a second drain

85: current amount detection unit 90: power supply unit

95: control unit

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view showing the configuration of an electrolysis device of a washing machine to which the present invention is applied, and FIG. 3 is a flowchart showing a washing process of the electrolysis device according to the present invention. In the electrolytic apparatus of the washing machine to which the present invention is applied, as shown in FIG. 2, the electrolytic apparatus 70 installed on the bottom surface of one side of the reservoir (not shown) is provided with a positive electrode 74, and an aqueous electrolyte solution. An ion exchange membrane (71), into which an electrolyte chamber (71) to be introduced and a cathode (75) are installed, and a washing water chamber (73) for supplying tap water, and which divide the electrolyte chamber (71) and the washing water chamber (73) ( 77), wherein the wash water room (73) includes a first water inlet (78) for introducing tap water and a second drain (80) for discharging basic wash water generated in the wash water room (73). .

In addition, the electrolysis device 70 according to the present invention has a second water supply port 87 for supplying tap water to the electrolyte room 73 and a first drain port for discharging tap water of the electrolyte room 73 during a washing stroke. (79) further comprising: a current amount detecting unit (85) for detecting an amount of current flowing between the cathode (75) and the anode (74), and a constant voltage (Vcc) supplied to the anode (74) and the cathode (75). It further includes a power supply unit 90 for generating a, and a control unit 95 for performing a washing stroke of the electrolytic device according to the current amount of the current amount detecting unit 85.

When described with reference to the accompanying drawings, the washing process of the electrolysis device of the washing machine having the electrolysis device according to the present invention provided as follows.

When the final dehydration stroke is completed, the main control unit (not shown) of the washing machine sets the washing stroke. That is, tap water is introduced into the electrolyte chamber 71 and the washing water chamber 73 through the first water supply port 78 and the second water supply port 87, respectively.

The control unit 95 generates a control signal for providing the constant voltage Vcc from the power supply unit 90, and the power supply unit 90 receiving the control signal outputs the constant voltage Vcc, and the constant voltage ( Vcc) is a constant voltage coinciding with the positive electrode 74 of the electrolyte chamber 71 and the negative electrode 75 of the washing water chamber 73. This constant voltage Vcc is the washing with the positive electrode 74 of the electrolyte chamber 71. The cathode 75 of the male chamber 73 is provided for a predetermined time (about 2 minutes).

At this time, the current amount detecting unit 85 detects the amount of current flowing between the positive electrode 74 and the negative electrode 75, where the detected current amount is supplied to the control unit 95. The controller 95 compares the detected current amount with a predetermined value stored in advance.

In this case, when it is determined that the input current amount exceeds a predetermined value, the controller 95 drains the tap water supplied to each of the washing water room 73 and the electrolyte room 71 and then resupplied the detected current amount. If it does not exceed the predetermined value, the tap water in the washing water room 73 and the electrolyte room 71 is drained to finish the washing stroke of the electrolysis device 70.

A washing process of the electrolytic apparatus according to the present invention will be described with reference to FIG. 3.

When the final dehydration stroke is finished, the main control unit (not shown) of the washing machine sets the washing stroke (step 401). Then, the tap water is introduced into the electrolyte chamber 71 and the washing water chamber 73 through the first water supply port 78 and the second water supply port 87 (step 403).

The control unit 95 generates a control signal for providing the constant voltage Vcc from the power supply unit 90, and the power supply unit 90 receiving the control signal outputs the constant voltage Vcc, and the constant voltage ( Vcc) matches the polarities of the anode 74 of the electrolyte chamber 71 and the cathode 75 of the washing water chamber 73, respectively, and the anode 74 and the cathode 75 for a predetermined time (about 2 minutes). (Step 405).

Thereafter, the controller 95 checks whether a predetermined time has elapsed (step 407), and when it is determined that the predetermined time has elapsed, the current amount detecting unit 85 detects a current amount between the positive electrode 74 and the negative electrode 75. (Step 409), the sensed current amount is supplied to the controller 95.

Here, the controller 95 compares the detected current amount with a predetermined value stored in advance (step 410), and removes tap water of each of the electrolyte rooms 71 and the washing water room 73 when the current amount exceeds the predetermined value. Drain through the first and second drains 79, 80 (step 411). When the drainage of the electrolyte chamber 71 and the washing water chamber 73 is completed, the first and second water supply holes 78 and 87 of the electrolyte chamber 71 and the washing water chamber 73 are again provided. Proceed to step 403 to water the tap water.

On the other hand, if the detected amount of current does not exceed a predetermined value, the tap water in the electrolyte room 71 and the washing water room 73 is drained (step 413), and the washing process is terminated.

As described above, the electrolytic device cleaning method of the detergent-free washing machine according to the present invention, by supplying a constant voltage to the cathode and the anode after supplying the tap water in the wash water room and the electrolyte room, It is possible to prevent the degradation of electrolysis reactivity to contamination and further improve the reliability of the product.

While the invention has been shown and described with respect to specific preferred embodiments thereof, the invention is not limited to the embodiments described above, and is commonly used in the art to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Anyone with knowledge will be able to make various variations.

Claims (1)

A power supply unit for supplying constant tap water to the cathode and the anode after supplying neutral tap water to the inside of the electrolysis device, a current amount sensing unit for sensing the amount of current flowing through the cathode and the anode, and an electrolysis device according to the amount of current in the current amount sensing unit In the washing method of the electrolysis device comprising a control unit for controlling the discharge of tap water, a) establishing a wash stroke after the final dewatering stroke is finished; b) supplying tap water to the wash water room and the electrolyte room of the electrolysis device, and then supplying a constant voltage having a polarity corresponding to the cathode and the anode; c) checking whether a predetermined time has elapsed and if it is determined that the predetermined time has elapsed, detecting an amount of current flowing between the cathode and the anode; And d) comparing the detected current amount with a predetermined value, and if the detected current amount exceeds a predetermined value, the tap water supplied to each of the washing water room and the electrolyte room is drained, and then the process proceeds to step b), and the detected current amount When the water does not exceed a predetermined value, the washing method of the electrolysis device, characterized in that the step of draining the tap water in the wash room and the electrolyte room to end the washing stroke of the electrolysis device.