KR20040015481A - Disinfection washing machine - Google Patents

Abstract

PURPOSE: A sterilization washing machine is provided to consume electrodes evenly by keeping balance of oxidation and reduction between first electrodes and second electrodes with arranging first electrodes between second electrodes. CONSTITUTION: A washing machine includes a sterilized water supply apparatus, and the sterilized water supply apparatus has at least first two electrodes and a second electrode larger than the first electrode. The second electrode is arranged between the first electrodes, and two times as large as the first electrode. Two positive silver plates(320a,320b) are arranged between two negative silver plates(322a,322b) to perform oxidation and reduction between positive and negative silver plates. Uneven wear of the silver plates is prevented with performing oxidation evenly in the positive silver plates. The density of silver solution is uniform, and the silver plates are used evenly with uniform oxidation.

Description

Sterilization Washing Machine {DISINFECTION WASHING MACHINE}

The present invention relates to a washing machine, and more particularly, to a sterilizing washing machine having a sterilizing water supply device for sterilizing laundry.

The silver solution is dissolved in water by generating silver ions (Ag ⁺ ), and is also used as an antibacterial or bactericide. The silver solution has been reported to sterilize (sterilize) about 650 kinds of bacteria. In particular, silver solution, unlike other antibiotics, is characterized by no resistance and is very safe because it is not toxic at all. The silver solution can be prepared by electrolysis, chemical decomposition, or grinding. The most effective of these is the electrolysis method, which dissolves and dissolves silver ions in water.

The sterilizing washing machine is a washing machine employing a sterilizing water supply device for preparing and supplying a silver solution to sterilize laundry through the antibacterial and sterilizing action of the silver solution. The conventional sterilizing washing machine and the sterilizing water supply device will be described with reference to FIGS. 1 and 2 as follows.

1 is a cross-sectional view showing a conventional sterilizing washing machine. As shown in FIG. 1, a water tank 104 is installed inside the main body case 102 for fresh water of the wash water, and a washing tank 106 is installed inside the water tank 104 so as to be rotatable. In addition, a pulsator 108 for forward and reverse rotation is installed in the washing tank 106 to form a washing stream, and a lower portion of the water tank 104 drives to rotate the washing tank 106 and the pulsator 108. The device 110 is installed. The drive device 110 is composed of a drive motor 112 and a power transmission device (114). The drive motor 112 is rotated by receiving power, and the power transmission device 114 allows this rotational force to be selectively transmitted to the pulsator 108 and the washing tank 106. A belt 116 for transmitting power is connected between the drive motor 112 and the power transmission device 114.

2 is a cross-sectional view showing a conventional sterilizing water supply device. First, laundry is put into a sterile washing machine, and when the washing course is set after the power is supplied, the washing water is supplied into the water tank 104. The wash water being supplied is dissolved in the detergent while passing through a detergent dissolving device (not shown), and is supplied into the water tank 104 together with the detergent. When the user selects the sterilization washing course, the inlet valve 204 of the sterilizing water supply device 120 is opened and water is supplied into the storage container 122 together with the water supply operation. When the positive and negative voltages are applied to the four silver plates 220a, 220b, 222a, and 222b of the sterilizing water supply device 120, silver ions are generated to prepare silver solution sterilizing water. This silver solution sterilizing water is supplied into the washing tank 106 to sterilize the laundry.

In FIG. 2, water supplied through the inlet 202 of the storage container 122 is first filled in the first space 210 of the storage container 122 and rectified to stabilize the flow rate and flow, and the first space 210. ) Flows beyond the first partition 206 toward the second space 214. The water flowing into the second space 214 after passing through the first space 210 is filled in the second space 214 at a level corresponding to the height of the second partition 208, and the second space 214 is filled with water. After the water is filled, the third space 224 flows beyond the second partition 208 and is supplied to the water tank 104 through the outlet 216. After the wash water including the sterilizing water is filled in the water tank 104, the pulsator 108 is rotated to wash the laundry, and bacteria are sterilized by the sterilizing water during the washing.

The sterilizing water supply device 120 is configured such that voltages of positive and negative polarities are applied to the four silver plates 220a, 220b, 222a, and 222b, respectively. In the positive polar plates 220a and 220b, oxidation occurs to generate silver ions, and a part of the silver ions are attached to the negative polar plates 222a and 222b and reduced. If the remaining silver ions that are not attached to the negative polar plates 222a and 222b remain in the water, the water becomes a silver solution. At this time, the amount of silver ions generated, that is, the concentration of the silver solution, is proportional to the amount of current flowing through the four silver plates 220a 220b, 222a, and 222b or the magnitude of the applied voltage.

The basic sterilizing water supply uses two silver plates of positive and negative polarity. If the flow rate of the water supplied to the sterilizing water supply device having the two silver plates is too fast, the silver solution of sufficient concentration cannot be prepared by the oxidation of silver ions in the two silver plates alone. Therefore, increasing the number of silver plates to four or more, as shown in Figure 2, it is possible to produce a silver solution of sufficient concentration even at a relatively high flow rate.

However, as shown in FIG. 2, if the polarities of the four or more silver plates 220a, 220b, 222a, and 222b provided in the sterilizing water supply device are alternately installed in the order of (-) (+) (-) (+) (-) The (+) polar silver plate 220a located between the two silver plates 222a and 222b of the polarity has more oxidation due to the two silver plates 222a and 222b of the polarity, so that the (+) polar silver plate 220b positioned at the end Consumes faster than In addition, since the amounts of oxidation in the two (+) polar silver plates 220a and 220b are different, the concentration of the silver solution is not uniform.

The sterilizing water supply apparatus of the sterilizing washing machine according to the present invention has a uniform consumption of each electrode by arranging two electrodes of the same polarity adjacent to each other and separately placing electrodes of the opposite polarity when using four or more even electrodes. The purpose is to make it happen. In addition, when using three or more odd electrodes, electrodes of relative polarity are separated from each other by one electrode located at the center, and the size of the electrode located at the center is twice as large as that of the electrodes of opposite polarity disposed at both sides. Another goal is to balance the consumption of the electrodes.

1 is a cross-sectional view showing a conventional sterilizing washing machine.

Figure 2 is a cross-sectional view showing a conventional sterilizing water supply device.

3 is a cross-sectional view showing a sterilizing water supply device of the sterilizing washing machine according to the present invention.

Figure 4 is a sectional view showing another embodiment of the sterilizing water supply apparatus according to the present invention.

Figure 5 is a sectional view showing another embodiment of the sterilizing water supply apparatus according to the present invention.

In the sterilizing washing machine according to the present invention for this purpose, the sterilizing water supply device includes at least two first electrodes and at least one second electrode larger than the first electrode. The first electrode is disposed between the second electrodes. As a result, the oxidation and reduction between the first electrode and the second electrode are balanced so that the consumption of the electrode is unbiased and uniform.

Referring to Figures 3 to 5 a preferred embodiment of the sterilizing water supply apparatus of the sterilizing washing machine according to the present invention. In the description of FIGS. 3 and 4, reference numerals of some components of the sterilizing washing machine follow those of FIG. 1. 3 is a cross-sectional view showing a sterilizing water supply apparatus of the sterilizing washing machine according to the present invention. As shown in FIG. 3, four silver plates 220a, 220b, 222a, and 222b are installed in the sterilizing water supply device 350 according to the present invention, and a larger number of silver plates may be expanded in even units as necessary. have. The four silver plates 220a, 220b, 222a, and 222b are supplied with voltages of (+) and (-) polarities, respectively, and two silver plates having either one of the two polarities, (+) and (-), are adjacent to each other. To be placed.

The laundry is put into the sterilizing washing machine according to the present invention, and when the washing course is set after the power is supplied, the washing water is supplied into the water tank 104. The wash water being supplied is dissolved in the detergent while passing through a detergent dissolving device (not shown), and is supplied into the water tank 104 together with the detergent.

When the user selects the sterilization washing course, the inlet valve 204 of the sterilizing water supply device 350 is opened and water is supplied into the storage container 122 together with the water supply operation. When power is applied to the two silver plates 220 and 222 of the sterilizing water supply device 350, silver solution sterilizing water is prepared. This silver solution sterilizing water is supplied into the washing tank 106 to sterilize the laundry.

That is, the water supplied through the inlet 202 of the storage container 122 is first filled in the first space 210 of the storage container 122 and rectified to stabilize the flow rate and flow, and the water of the first space 210. It flows beyond this 1st partition 206 to the 2nd space 214. As shown in FIG. The water flowing into the second space 214 after passing through the first space 210 is filled in the second space 214 at a level corresponding to the height of the second partition 208, and the second space 214 is filled with water. After the water is filled, the third space 224 flows beyond the second partition 208 and is supplied into the washing tank 106 through the outlet 216. At this time, the water in the second space 214 is gradually flowed toward the third space 224 while maintaining a certain amount of fresh water. In this process, the four silver plates 320a, 320b, 322a, and 322b and silver through the electrolysis of water The solution sterilizing water is prepared, and the prepared sterilizing water is supplied to the washing tank 106 through the outlet 216. This sterilization water production operation is continuously performed during the water supply.

In addition, when there is a lot of water supplied to the inlet 202 in the process of manufacturing the sterilization water because the water inside the storage container 122 flows toward the drain pipe 118a through the discharge pipe 128, the interior of the storage container 122 It can be maintained at an appropriate level, it is possible to always produce a constant concentration of silver solution sterilized water. In addition, when the sterilizing water production operation is completed, the inlet valve 204 is closed to stop the water supply to the storage container 122, and at the same time, the power supply to the four silver plates 320a, 320b, 322a, and 322b is also stopped. At this time, the remaining water flows toward the outlet 216 through the remaining water discharge holes 206a and 208a under the two partitions 206 and 208 and is completely discharged. After the wash water including the sterilizing water is filled in the water tank 104, the pulsator 108 is rotated to wash the laundry, and bacteria are sterilized by the sterilizing water during the washing.

As shown in FIG. 3, when the two (+) polar silver plates 320a and 320b are concentrated adjacent to each other between the two (−) polar silver plates 322a and 322b, the (+) polar silver plates 320a and ( Oxidation and reduction are performed between the polar silver plate 322a, and oxidation and reduction are performed between another (+) polar silver plate 320b and (-) polar silver plate 322b. Therefore, the oxidation of the two silver plates 320a and 320b of the positive polarity is uniform, so that the consumption of the silver plate is not biased to any one. In addition, the concentration of the silver solution is also uniformed by the uniform oxidation action.

Figure 4 is a cross-sectional view showing another embodiment of the sterilizing water supply apparatus according to the present invention. As shown in FIG. 4, in the sterilizing water supply apparatus 450, the two negative plates 422a and 422b of the positive polarity are concentrated adjacent to each other between the two (+) polar silver plates 420a and 420b ( Oxidation and reduction are performed between the positive silver plate 420a and the negative silver plate 422a, and between the other positive silver plate 420b and the negative silver plate 422b. Oxidation and reduction take place. Even when the silver plate is arranged in such a structure, oxidation is uniformly performed at the two (+) polar silver plates 320a and 320b so that the consumption of the silver plate is not biased to one and the concentration of the silver solution is also uniform.

The polarity of the silver plate may be fixed to (+) or (-), or the (+) and (-) polarities may be alternately applied to each other. That is, if the polarities of (-) (+) (+) (-) and (+) (-) (-) (+) are alternately applied to the four silver plates 420a, 420b, 422a, and 422b, the four silver plates are alternately applied. The consumption of 420a, 420b, 422a, and 422b becomes uniform.

5 is a cross-sectional view showing still another embodiment of the sterilizing washing machine according to the present invention, showing a silver plate arrangement structure when the number of silver plates is odd. As shown in Fig. 5, in the case where the number of silver plates is an odd number, (+) polarity is applied to the two silver plates 520a and 520b, and the silver plate 522 of (-) polarity is disposed therebetween. In this case, when the silver plate 522 disposed at the center has twice the size of each of the other two silver plates 520a and 522b, the oxidation and reduction of the two silver plates 520a and 520b on both sides are balanced. Can be.

The sterilizing water supply apparatus of the sterilizing washing machine according to the present invention has a uniform consumption of each electrode by arranging two electrodes of the same polarity adjacent to each other and separately placing electrodes of the opposite polarity when using four or more even electrodes. To be done. In addition, when using three or more odd electrodes, electrodes of relative polarity are separated from each other by one electrode located at the center, and the size of the electrode located at the center is twice as large as that of the electrodes of opposite polarity disposed at both sides. Balance the consumption of the electrodes.

Claims (5)

A washing machine having a sterilizing water supply device, The sterilizing water supply device includes at least two first electrodes and at least one second electrode larger than the first electrode; Washing machine, characterized in that the second electrode is disposed between the first electrode. The method of claim 1, Washing machine, characterized in that the second electrode is more than twice as large as the first electrode. The method of claim 1, The washing machine according to claim 1, wherein an electrical signal of (-) polarity is applied to the first electrode and an electrical signal of (+) polarity is applied to the second electrode. The method of claim 1, The washing machine according to claim 1, wherein an electrical signal having a positive polarity is applied to the first electrode, and an electrical signal having a negative polarity is applied to the second electrode. In the sterilizing water supply device for supplying silver solution sterilizing water, The sterilizing water supply having at least one first electrode and at least two second electrodes; And the second electrode is disposed between the second electrodes to generate a silver solution through oxidation and reduction between the first electrode and the second electrodes.