TWI252266B - Washing machine - Google Patents

Abstract

The washing machine (1) according to the present invention is internally provided with the following: an ion elution unit (100) for causing a pair of metallic electrodes (113 and 114) to externally elute metallic ion component; an input unit which receives an input operation for instructing execution of an operation necessitating supply of water added with metallic (silver for example) ion component; and a controlling unit (80) which enables the ion elution unit (100) to externally elute the metallic ion component before being added to water and then enables the supply of the metallic -ion added water to be commenced. The input unit may consist of a course selecting button (205) for selecting any of a plurality o washing courses including a ""metallic ion added water supplying course"" and a start button (206) for instructing the washing machine 1 to commence a washing process. Alternatively, the input unit may consist of a silver ion water supplying button (207).

Description

1252266 玖, invention description: [Technical field to which the invention pertains] The body and the washing tub are included. In particular, the present invention is an electric motor capable of dissolving metal. The present invention relates to a washing machine capable of disinfecting each part of a washing machine capable of sterilizing a washing machine equipped with an ion dissolving unit by adding ions between electrodes. . [Prior Art] = When a laundry is washed in a clothes machine, a finishing agent such as a softener or a sizing agent is usually added to the rinse water. In addition, antibacterial finishing is added to the laundry. ...to further the preservation of the concept of sanitation, it is necessary to use the tanning of the clothes that have been washed. However, in recent years, due to the surge in female employment and the separation of young families from their parents, no one has increased in the daytime (4) families. The family was forced to dry the laundry in the 'indoor location' of the house. Even when someone is at home, it is still necessary to dry the laundry in the indoors in the rainy days. In contrast to drying clothes in the sun, t in the indoor position of the house, dry and washed clothes. 'Bacteria and fungi easily breed themselves on these washed clothes. This trend is high humidity and low temperature prevailing in the rainy season. Quite obvious, thus resulting in an extended time to completely dry all washed laundry. In addition, depending on the breeding conditions of the bacteria, the clothes that have been washed may have an unpleasant temperament, and the σ fruit is present in the 豕n, etc., which is usually chased in the indoor position and dried. Any antibacterial treatment of washed laundry to prevent bacteria and fungi from recreating on their own clothing is an urgent need. Recently, there have been various kinds of clothes composed of fiber materials which have been previously treated with antibacterial treatment and deodorization treatment. All use of antibacterial and deodorant treatments, and the implementation of antibacterial and deodorant finishing has gradually declined. However, textile products that have been prepared for individual households are quite difficult. Inter-effects are repeated with the usual sputum in order to respond to the above requirements. Various ideas have been developed to use the anti-g treatment to organize the f-washed clothing after completing each of the conventional programs. For example, 'Reference Patent Document 4 mentions an electric washing machine equipped with an ion generating unit capable of producing metal ions such as silver ions and copper ions which individually exert an antibacterial function. Another reference to Patent Document 2 refers to a washing machine capable of sterilizing rinsing water by the effect of generating an electric field. Another reference Patent Document 3 mentions a washing machine equipped with a silver ion adding unit capable of adding silver ions to the rinsing water. Another reference to Patent Document 4 relates to a water treatment apparatus capable of supplying silver ions. The reference patent documents cited above include the following documents: [Reference Patent Document 1] The present invention discloses a Japanese Patent Publication No. -05-74487 (1993) [Reference Patent Document 2] Japanese Patent Laid-Open No. 2000-93691 [ Japanese Patent Laid-Open Publication No. 2000-325953, the entire disclosure of which is incorporated herein by reference. It is possible to supply water that automatically adds 91818.doc 1252266 into the metal ion while performing the washing routine, and then can use the antibacterial treatment to treat the washed clothes, and thus, even when using the antibacterial treatment to process the single piece of floor cloth (floor cloth), it is also necessary to perform a whole set of washing routines including washing, % washing and dehydration by operating the washing machine. As a result, even if a single conventional program for washing only one floor cloth is forced to consume a large amount of water and electricity, water and electric energy are wasted due to a predetermined washing routine, thereby causing a lot of pain to the user. If the user is forced to separately purchase and install the water treatment unit specified in the above referenced Patent Document 4, additional space is required, thus forcing the use = an additional burden. This is by no means required by all users. SUMMARY OF THE INVENTION The present invention has been achieved to completely solve the above problems. The main object of the present invention is to provide a user with a washing machine loaded with an ion dissolving unit capable of dissolving a plurality of electrodes from the antibacterial metal ion component by adding a voltage between the metal electrodes, thereby whenever necessary, The washing machine can completely eliminate waste caused by consuming unnecessary energy resources and time by supplying water having added metal ions in an amount compatible with the intended purpose of the individual user. In order to achieve the above object, a washing machine according to the present invention comprises: an input sheet 70 which inputs an operation for performing supply of water to which metal ions have been added, and a control member for responding for input via the input The input of the finger of the above operation is activated by a single click, and the above metal electrode can dissolve the metal ion component in the water before starting to supply the water to which the metal ion has been added. It should be noted that the indication package for the activation of the operational input via the input unit 91818.doc 1252266 includes the indications described below: the selection process of the metal ion-added water for the use of the added metal. An indication of the washing process of the ionic water and another indication for initiating the washing process. 2 • Only activates the indication of the supply of water to which metal ions have been added. Upon receipt of the above indication from the input unit, the control unit causes the ion/separation unit to detach from the metal ion component and then causes the supply of water to which the metal ion has been added. Therefore, whenever necessary, the user of the washing machine can receive the supply of the metal ion-added water only by inputting a specific command via the input unit without driving the washing machine to execute the entire washing routine including washing, rinsing, and dehydrating. Therefore, even when only one piece of the floor cloth is washed, the user can visually wash the (tetra) body by previously storing the supplied metal ions added in a container such as a washbasin or a tub or in a washing tub. The supplied metal ions-added water is used for the amount of washing and the floor covering is treated with a sputum finishing effect. As a result, when there are only a few washable objects, the user can eliminate the waste caused by the unnecessary consumption of water and electric energy required by the entire washing program, and in addition, the user can shorten the washing very much. Less time required to wash objects. In addition, since the metal ion-added water can be extracted from the washing machine itself, the user can save the additional device for generating the metal ion-added water independently of the washing machine, and the user can also avoid worrying about the setting of the additional device. Location and the cost of purchasing this additional device. [Embodiment] 9l8l8.doc 1252266 Referring now to Fig. 1 to Fig. 1, 1 乂 p 1 1 The following is the first form of the present invention. Λ Fig. 1 is a vertical cross-sectional view showing the overall structure of a washing machine 相关 which is related to a target case, each of which is on the eve of the moon. Washing Machine 6 The wind farm 70 fully automatic system is constructed and equipped with a casing 〇 〇 驽 双 1 1 1 1 以 以 以 以 以 以 以 以 以 以 以 以 以 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 A top surface flat plate u made of a synthetic resin material is superposed on the top surface opening i' where the top surface flat plate 11 is fastened to the outer casing 10 using screws. In Fig. 1, 'you are on the left side corresponding to the front side of the washing machine and the right side is equivalent to the back side thereof, and is configured such that the back panel 12 made of synthetic resin material is superimposed on the top surface plate u placed on the back side of the washing machine i On the top surface, the back panel 12 is fastened to the outer casing 10 or the top surface flat plate 11 using screws. A base member 13 made of a synthetic resin material is superposed on the bottom opening of the outer casing 10, and the base member 13 is fastened to the outer casing 10 using screws. Should;; the idea, the catalogue removes the description of the screw mentioned above. The leg members 14a and 14b are disposed on the four corners of the base member 13 to support the outer casing on the floor. The leg members l4a disposed on the front side respectively include a twisting device and a screw foot device. The height level of the washing machine 1 can be adjusted by rotating the foot device 丨 4a. The other leg members 14b on the back side are fixedly coupled to the base member 13. An opening 15 allowing the washable laundry to enter the washing tub 30 (which will be described later) is formed through the top surface flat plate 11. The cover device 16 is coupled via a hinge portion 17 9 818 . doc 10 1252266 ', a top 4 surface plate 1 ,, the cover device 16 is rotated within the vertical surface itself and covered downward for allowing the washable material to self The top side enters the opening 15 . The water tank 20 and the washing (four) 3 inch are respectively arranged in the outer casing (four), wherein the washing bucket 3 is also used as a dewatering bucket. The water tank 20 and the washing tub 30 are each formed in a cylindrical cup shape opened at the respective top surfaces. The water tanks and the washing tubs L are respectively disposed in the vertical direction by the material axis, and are arranged coaxially so that the water tank 20 can be set to the outside and the washing tub 3 can be set inside. The sink 2 is suspended by the four units of the suspension device 21. The suspension means 21 are placed in four positions by the angular phase H of the bottom portion of the outer surface of the water tank 2 and the inner surface of the outer casing (7). Based on this configuration, four of the suspension devices 21 and the like support the water tank 2, so that the water tank 2 can swing itself in the horizontal surface. The gas 30 includes a tapered circumferential wall that slightly expands toward the top side. Except for a plurality of dehydration holes 3ι which are annularly disposed at the topmost portion. The circumferential wall of the sea does not have any openings for allowing liquid to pass through. In other words, the 4 wash I barrels 30 兀 do not have through holes. Set the ring balancer to the edge portion of the top opening of the washing tub. When the washing tub 30 is rotated at a high rate for dehydrating the washed laundry, the balancer 32 functions to suppress the oscillation of the washing tub 3. The pulsator 33 is placed on the bottom surface of the inside of the washing tub 30 to generate a washing water flow or a rinsing water flow in the washing tub 30. The drive unit Tt4G is mounted on the bottom surface of the water tank 2G. The drive unit buckle includes a motor 41, a clutch mechanism 42, and a brake mechanism 43. The dewatering shaft 44 and the pulsator shaft 45 respectively protrude upward from the central portion of the drive unit 40. From the body of 9I818.doc 1252266, wherein the dewatering shaft 44 is disposed on the outer side and the pulsator shaft 45 is disposed on the inner side ' thereby forming a biaxial configuration. The water tank 20 card 4 is inserted from the bottom side to the top side of the dewatering shaft 44, In addition, by supporting the washing tub 3〇, the pulsator shaft 45 is further inserted into the washing tub 3 after passing through the water tank 20 from the bottom side to the top side, and then supported by The pulsator 33 is coupled to the pulsator 33. To prevent water from leaking outward, a sealing device is disposed between the dewatering shaft 44 and the water tank 20, and other sealing devices are also disposed between the dewatering shaft 44 and the pulsator shaft 45. A water supply valve 5 that electromagnetically opens and closes itself is placed in a space below the back panel 12. The water supply valve 5 is equipped with a connecting pipe 51 that protrudes outwardly through the back panel 12. The connecting pipe 51 and the For transport The water supply hose (not shown) for the urban water is connected. The water supply valve 5 conveys the city water to the container-shaped water supply injection opening 53 disposed at a position facing the inside of the washing tub 30. The reduced water supply injection opening 53 has The configuration shown in Fig. 2. Fig. 2 presents a schematic vertical sectional view of the water supply injection opening 53. The front portion of the water supply injection opening 53 is kept open to allow a suction 53a (throwning case) to be inserted therethrough. According to the present embodiment, the interior of the drawer 5" is divided into two parts disposed on the left side and the right side. The left side portion constitutes a detergent storage chamber 54 for containing a detergent. The right side portion constitutes a space for accommodating after washing treatment a finishing agent storage chamber of the finishing agent. The water supply injection opening 524a is formed through the bottom of the aging/depositing agent storage chamber 504, wherein the opening 54a is opened to the inside of the water filling opening 53. The siphon 57 is located in the finishing agent storage. Inside the chamber 55, another water injection opening 56 for pouring water into the washing tub 30 is formed at a position below the drawer 53& of the water supply injection opening 53. 91818.doc !252266 Siphon Officer 57 pack P b 57a vertically standing on the bottom surface of the finishing agent storage chamber 55 and a cap-shaped outer tube covering the inner tube 57a externally. A water is formed between the "Hai interior official 57a and the outer tube 57b for allowing water Through the opening, the bottom of the inner tube 57a opens to the bottom of the water supply injection opening brother. A predetermined gap is maintained between the lower end of the outer tube 57b and the bottom surface of the finishing agent storage chamber to provide a water injection raft. When the water in the agent storage chamber ^ exceeds the top edge of the inner tube 57a, the siphon button activates its operation to allow water to pass through the siphon tube 57, and then the water is aspirated from the finishing agent storage chamber. Then, the water flows into the bottom of the water supply injection opening 53, and finally falls into the washing tub 3 through the water filling opening 56. The water valve 50 includes a main water supply valve 5〇a and a secondary water supply valve $. The main water supply 50a is designed to accommodate a relatively large flow rate, and the water supply room is designed to accommodate a relatively small flow rate of 5 sen. By providing the main water supply valve 5Ga and the secondary water supply valve 50b with mutually different internal structures, the magnitude of the flow rate can be changed. Alternatively, the difference in flow magnitude can be achieved by assembling devices for limiting flow rates that each have a different throttle rate but maintain the same valve configuration. The connecting valve 51 can be operated in common with the main water supply valve core and the secondary water supply valve. The main i'K valve 50a is connected to the opening on the page P of the water supply injection opening η by the main water supply passage 52a. s Xuan opening to the detergent storage room Μ open. Therefore, water flowing out of the autonomous water supply chamber at a relatively large flow rate is poured into the detergent storage chamber 54 from the main water supply passage 52a. On the other hand, the secondary water supply valve is connected to the opening of the top i of the water supply injection opening 53 by the secondary water supply passage 52b. The opening is! (4) The storage room 55 is open. Therefore, the water flowing out of the secondary water supply valve 5〇b at a negligible flow rate is more specific from the secondary water supply passage 52b into the finishing agent storage chamber 918I8.doc 1252266. The passage for allowing water to flow from the main water supply valve 5 (10) through the detergent storage chamber 54 to the wash tank 3 is independent of the flow for allowing water to flow from the secondary water supply valve 50b via the finish storage chamber 55 to the wash tub 3 Another channel of 〇. Returning to Fig. 1, the drain hose 60 is fastened to the bottom of the water tank 2G to discharge water from the tank 20 and the soap oil to the outer casing (7). Water from the water pipe into the drain hose 60 towel. The drain #61 is connected to a portion close to the outer circumference of the bottom surface of the water tank, and the drain pipe 62 is connected to a portion near the center of the bottom surface of the water tank 20. By enclosing the connected portion of the draining member 62 inwardly, the annular diaphragm is tightened on the bottom surface of the inner portion of the groove 2. The annular sealing member 64 is fastened to the top of the ring. 64 maintains an external circumferential surface contact port of a disk 65 fastened to the surface of the washing tub & 形成, and forms an independent drainage space between the water tank 20 and the washing tub 3〇 66 is connected to the inside of the washing tub 3 via a drain pipe 67. The drain "2 is equipped with a drain valve capable of electromagnetically opening and closing itself to form an air collector 69 at the upstream portion of the drain width 68 of the drain g 62, & 7〇 extends outward from the air collector 69. The water level switch 71 is connected to the odor, the end of the page as a member for detecting the amount of water in the washing tub 30 or in the water tank 20. The control early 80 is placed on the front side of the outer casing 1 and below the top surface flat plate 1. Upon receiving the operation command signal input by the user via the operation display panel unit 81 set on the surface of the top surface of the top surface, the control device 80 transmits an operation command signal to the drive unit 仂 for the 91818.doc 1252266 water valve. 50 and drain valve 68. The control unit 8A includes a drive circuit 12 (see Fig. 9) for driving the ion dissolving unit _ (described later). Details of operating the display panel 81 will also be described later. The flow detecting member 185 is disposed in a water supply passage ranging from the main water supply center to the main water supply passage 52a. The detection member 185 in the system can be constructed by a conventional flow meter. Although it is illustrated in Fig. i that the θ r brother stream I detecting member 1 85 appears to belong to the water supply valve 5. However, the set position is not limited to the water supply passage, but may be set to feed the ion dissolving unit (10) or the water supply injection opening 53 as well. The flow rate can also be detected by calculating the flow rate based on the change in the amount of water per unit time measured by the water level or based on the time required to change the unit water amount. The ion dissolving unit 1〇〇 incorporated in the washing machine i is coupled to the downstream side of the main water supply pipe A. Referring now to Figures 3 to 1B, the configuration of the ion-dissolving unit (8) and the appropriate function when it is loaded into the washing machine i will be separately described below. Fig. 3 is a partial plan view for explaining the relationship between the water supply valve 50, the ion elution sheet 100, and the water supply injection opening 53, which are respectively disposed in the washing machine 1. Both ends of the ion-dissolved single Tt 100 are directly connected to the main water supply valve 5 () a and the water supply, and the ionic dissolution unit alone constitutes the entire main water supply passage 52a. The stalk is connected to the secondary water supply wall 5b by a tube which protrudes from the water supply injection opening 53 via a hose to constitute a secondary water supply passage 52b. In the schematic block diagram shown in Fig. 1, for convenience of explanation, the water supply valve 5 〇 ion ridge and the water supply injection opening 53 are respectively shown on the kneading surface of the washing machine 1 and on the surface. However, it should be understood that in actual washing machine workers, components such as 91818.doc 1252266 are not placed on the front and back of the washing machine, but instead, the components are placed in alignment in the left and right directions. 4 to 8 illustrate the configuration of the ion dissolving unit 1A, respectively. 4 is a top view of the ion dissolving unit 1〇〇. Fig. 5 is a vertical sectional view showing the ion dissolving unit 1A along the line of the arrow shown in Fig. 4. Figure 6: A vertical cross-sectional view of the ion dissolving unit along the line b to b marked with arrows shown in Figure 4; On the other hand, Fig. 7 illustrates a horizontal sectional view of the ion dissolving unit 1QQ. Figure 8 illustrates a perspective view of the electrode loaded within the ion dissolving unit. The ion-dissolving unit (8) is provided by a transparent or translucent synthetic resin (colored or colorless) or a shell made of a translucent synthetic resin material. & ιι〇 includes a top surface open housing 110a and a cover device U0b for covering the top surface opening (see Fig. 5). The formed housing U()a has a generally rectangular shape I. A water injection weir (1) is formed at the end of the longitudinal direction, and a fourth (four) is formed into the discharge material 112. The formed water injection 埠 (1) and drainage 埠 112 points: have a official shape. The cross-sectional area of the discharge material 112 is smaller than the water injection 埠丨

area. The X fine is placed by arranging the longitudinal direction of the shell 110 to its horizontal direction. The bottom surface of the body 110 & placed in the horizontal direction constitutes a slanting surface that is gradually inclined (see Fig. 5). More specifically, the drain raft 112 is disposed at the lowest level of the interior space of the casing 110. The cover device 110b is fastened to the housing (10) using four screws m (see Figure 4). A 171 (see FIG. 5) is inserted between the housing 110a and the cover device u〇b. The mountain coats 91818.doc 1252266 are disposed opposite to each other with respect to the laminar electrodes 113 and 114 (see Fig. 6) along the water flow direction from the water injection port 111 to the drain water (1). In the case where water is present in the shell n〇, a predetermined amount of electricity is added to the electrodes 113 and 114, and metal ions for constituting the metals of the electrodes (1) and 114 are eluted from the anodes of the electrodes (1) and (1) by way of example. Configuring a pair of silver plates each having a size of 2 cm "mm dryness of 1 mm span and a distance of about 5 mm" to position the electrodes (1) and 114 〇 It should be understood that the electrodes 113 and 114 are not only composed of silver, but may be used. A metal capable of producing an antibacterial metal ion. For example, in addition to silver, copper or an alloy of silver or copper or zinc may be selected. It should be noted that silver ions eluted from the silver electrode are eluted from the copper electrode. The copper ion and the dissociated ion from the zinc electrode respectively exert excellent antibacterial effect and disinfection effect. In addition, the alloy electrode composed of silver and copper can simultaneously dissolve silver ions and copper away from the sub-particle, thereby ensuring antibacterial Effect and disinfection effect. Depending on the presence or absence of added voltage, the ion dissolving unit 丨(8) may select a mode for dissolving metal ions or for eliminating the elution of metal ions. In addition, by controlling the duration of the addition of current or voltage, the amount of metal ions dissolved can also be controlled or adjusted as compared to systems used to cause metal ions to elute from a metal ionophore such as "zeolite". Since the ion dissolving unit 1 can electrically select a mode of dissolving metal ions outward, and can also electrically adjust the density of the metal ions, it provides a more advantageous functional convenience. The above electrodes 113 and 11 4 are not excellently mutually compatible. Parallel placement. According to the top view of Figure 7, it is related to the flow through the crust, by the interval from the upstream side to the next 91818.doc 1252266, in other words, the conical shape is placed on the self-filling electrode. 11 3 and the side reduction electrode 1 1 3 and 1 1 4 1 1 1 to the drain 埠 1 1 2 direction 1 14 (see Figure 7). 丨口Η永: ^ Λ and 馐U〇a shape from The end of the main water raft is also tapered to the other end of the drain raft 112. The cross-sectional area of the inner space of the shell U 逐渐 gradually decreases from the upstream side to the downstream side. Team, and _ pair of terminals 115 and m. The terminals 115 and 116 are formed at a position at the upstream end portion of the electrodes 113 and 114 by hanging from the bottom edges of the electrodes 113 and 114. The human electrode 113 and the terminal 115 and the other electrode are formed. U4 and the other electrode u6 are integrally molded by using the same metal component respectively. The terminals 115 and U6 respectively extend through the through hole formed through the bottom wall of the casing iiox to the bottom surface of the casing u〇a. As shown, the watertight sealing member 72 is applied at a position where the terminals 115 and 116 collectively pass through the housing 11 Oa. The watertight sealing member 172 is combined with a second sleeve 175 (which will be described later) to form a double seal. The system 'by this prevents water from leaking through the location with the terminals. An insulating nib 73 is integrally formed under the bottom surface of the casing 11 Oa to insulate the terminals 115 and 116 from each other (see Fig. 6). The terminals 115 and 116 are respectively connected to the drive circuit 12A attached to the control unit 8A via a cable (not shown). Portions of the terminals 11 5 and 161 remaining in the casing 11 are protected by a sleeve made of an insulating material, including the first sleeve 174 and the second sleeve 175. The first sleeve 1 74 is made of a synthetic resin material which is engaged with the root portions of the terminals i 1 5 and n 6 91818.doc -18-1252266. A portion of the sleeve 174 is enlarged from the sides of the electrodes 113 and 114, thereby forming a projection. The projections are engaged with recesses formed on the electrodes Η 3 and Π 4, respectively (see Figs. 6 and 7). Due to this configuration, the electrodes 113 and 114 can be prevented from being detached from the first sleeve 174. The second sleeve PS is made of soft rubber, which buryes the gap between the first sleeve 174 and the casing u〇a, and in addition, the second sleeve i 75 also prevents water from passing through the second sleeve 1 The gap between itself and the center of the casing 1 and the second sleeve 175 leak from the gap between I and the electrodes ι 3 and 114. As described above, the terminals 115 and 丨16 are respectively disposed on the upper sides of the electrodes 113 and U4, and the supporting portions on the upstream sides of the electrodes 113 and 114 are constituted by the first sleeves 174 coupled to the terminals ι 5 and 116. The fork-shaped support member 176 is disposed on the inner surface of the cover member u〇b to be compatible with the position of the first sleeve 174 (see FIG. 6). The support member 176 holds the top edge of the first sleeve 174. The first set of 175 buryes the gap between the first sleeve 174 and the housing u〇a, thereby forming a -si body support structure. The fork-shaped support member 176 uses its long claw fishing and short claw hooks to hold the poles i i 3 and i i 4 . Due to this configuration, the interval between the electrodes m and (1) can be appropriately maintained even on the cover device 11 Ob. The downstream side portions of the children 113 and 114 are also supported by a support member disposed on the inner surface of the casing. Another fork-shaped support member (7) is erected on the bottom wall of the casing 110a. Another from α, another The fork-shaped support member 178 is suspended from the cover device 110bm# surface opposite to the above-described support device 177 (see FIGS. 5 and 8). "The downstream side of the electrodes 113 and 114 is not held by the support devices 丨77 and Π8. The upper bottom edge and the top edge are such that they are immovable 91018.doc 19 1252266, as shown in FIG. 7, configured such that the surfaces of the electrodes 113 and Π 4 are opposite each other, and the surfaces on the opposite sides are respectively disposed to A space is created between the surface and the inner surface of the shell 1 1 〇. In addition, as shown in FIG. 8, in addition to the portions in contact with the support devices 176, 177 and 177, the electrodes 11 3 and 114 are respectively arranged such that they can also be at the top and bottom edges thereof. A space is created between the inner surface of the shell and the shell. As further shown in Figures 5 and 7, a space is also created between the edges on the upstream and downstream sides of the electrodes 113 and 144 and the inner surface of the casing 11 。. If it is desired to reduce the width of the casing 11〇, the surfaces of the electrodes 113 and 114 facing each other and their opposite surfaces may be in close contact with the inner wall of the casing 110. In order to prevent the electrodes 113 and 114 from coming into contact with impurities, a filter composed of a sieve is disposed at each upstream side of the electrodes 113 and 114. In the present embodiment, as shown in Fig. 2, the filter 18〇〇81) is disposed inside the connecting pipe. Although the filter 180 (181) itself functions to prevent impurities from penetrating into the water supply valve 5, b However, the 疋5 hai filter 180 (181) also serves as the upstream side filter of the ionic dissolving unit 1 。. Each chain consisting of a filter meshes the black 毋 10 A/1., a __

The proper location of the otter 112.

“The prostitute is placed in the position mentioned above. The additional condition of the downstream side of the electrode is in the range of 9l8l8.doc -20- 1252266. The filter, the device 1 800 and 1 8 1 can be placed in the water supply. Any position within the channel. It should be noted that the filters 1 80 and 1 8 1 may be detached from the water supply channel as needed to eliminate accumulated impurities and deposits that cause filter clogging, respectively. The configuration of the driving circuit 120 of the ion dissolving unit 1 is shown in Fig. 9. Fig. 9 shows a specific block diagram of the driving circuit 120. The transformer crimping 122 is connected to a commercially available AC power source 121. The transformer 122 reduces the AC current of 100 volts to a predetermined level. Voltage. The AC voltage output from transformer 122 is rectified by full-wave rectification circuit i 23 and then converted to a constant DC voltage by constant voltage circuit 124. Constant current circuit 125 is coupled to constant voltage circuit 124. Independent of The electrode drive circuit 15 changes the internal resistance value, and the constant current circuit 125 supplies a constant amount of DCf flow to the electrode drive circuit 150 (which will be described later). The swollen < one pole body 126 is connected to The commercially available power supply i2i is connected in parallel with the transformer 122. The capacitor 127 is used to level the output of the self-rectifying diode 126. The DC voltage 'and then converted by the other constant voltage circuit 128; the constant DC voltage, and Next, the constant DC voltage is supplied to the microcomputer 13 and then, the microcomputer 13 activates the operation of the triode Ac switch i29 connected between the end of the primary coil of the transformer 122 and the power source 121. As shown in FIG. 9, the electrode driving circuit 15 includes the (10) type transistors Q1 to Q4, the pair of - the linings 11 and the D2, and the resistors R1 to R7 which are connected to each other. : 'Transistor Q1 and Ermei Office, ", and constitute a photocoupler 151, f electric Japanese body Q2 and two poles ΓΊ 桎 桎 桎 共同 共同 共同 共同 共同 共同 共同 共同 共同 共同 共同 共同 共同 另一 另一 光电 光电 光电 光电The polar body D1 fish Fi touches Wu ' ^ /, the same constitutes - optocoupler, and the transistor ς 91818.doc 1252266 and Q2 together constitute a photovoltaic transistor. The ancient self-microcomputer 130 outputs a high-level DCf voltage to the line (1) temple, and at the same time, when the microcomputer 130 also outputs a low-level 〇 [voltage or a signal (曰 电 么) to the line (4), the diode It is turned on (10) to cause the transistor Q2 to be turned on (10). When the transistor is turned on, the current flows through the resistors R3, R4, and R7, thereby biasing the base of the pair of Japanese body q3. Causes transistor Q3 to turn on 〇N. On the other hand, since the diode (1) remains 〇FF, the transistor Q1 (4) is kept OFF, and therefore, the transistor MQ4 is also kept at FF. When in this state, the DC current flows from the electrode crucible 13 on the anode side to the electrode 114 on the cathode side, thereby causing the ion dissolving unit 1 to generate metal cations and metal anions. When the DC current is unidirectionally transported to the ion dissolving unit 1 for a long period of time, the electric-electrode 113 on the anode side is gradually worn, and in addition, an impurity such as aque〇us calcium is deposited on the cathode side electrode 114 itself. on. Further, chlorides and sulfides derived from the metal components of the electrodes 113 and 114 are also deposited on the surfaces of the electrodes 113 and 114. In this way, the functional performance of the ion dissolving unit 100 is again reduced. In order to prevent this from occurring, in the present embodiment, it is configured such that the electrode driving circuit 150 is operated by the polarities of the inverted electrodes 113 and 114. When the polarities of the electrodes 11 3 and 114 are inverted, the microcomputer 13 switches its control operation by inverting the DC voltage flowing through the lines L1 and L2 so that the DC current flows through the electrodes 11 3 and 11 4 in the reverse direction. In this case, the transistors Q1 and Q4 are turned on 〇N, and the transistors Q2 and Q3 are turned off 〇FF, respectively. By applying the 91818.doc -22- 1252266 microcomputer 13 相反 the opposite work & ' whenever the predetermined opposite value is reached, the microcomputer 130 continuously performs the above switching operation. In the case where the value of the DC current flowing between the electrodes Η 3 and 114 is lowered by the resistance change in the electrode driving circuit 15 5 , especially due to the change in the resistance in the electrodes U3 and U 4 'the constant current circuit 125 The output voltage is boosted, thereby preventing the current value from being further reduced. However, after prolonging the accumulated service hours, the use period of the ion dissolving unit i (10) itself expires. In this case, 'even when performing various measures such as the following, it is no longer possible to prevent the current value from being lowered: the polarity of the inverted electrodes 113 and ι 4. Switching the operation mode to the wire mode, with the poem being used to maintain the specific The duration of the polarity is longer than the normal duration (4), or the impurities deposited on the electrodes 113 and 114 are forcibly removed by boosting the output voltage from the constant current circuit Π5. Therefore, the electrode driving circuit 150 is provided with a current component including the current presumption circuit (10), and the member is phased such that the current flowing between the electrodes 113 and 114 of the (IV) sub-dissociated single-(10) actually reaches a predetermined state. At the minimum current value, the current side circuit 16 detects the current flowing through the voltage generated in the resistor (4), and the photodiode (1) of the detector (6) detects that the information has been _to the minimum power = via photoelectric The transistor Q5 is transmitted to the microcomputer 13A. In response, the microcomputer 130 drives the alarm member ΐ3ι via the line 以 to generate a predetermined alarm signal. The alarm member 131 is disposed on the operation display unit 80.

In order to overcome any problem such as a short circuit generated in the electrode driving circuit 150 t 91818.doc -23- 1252266, a current detecting member ' is provided to detect that the current has just exceeded the predetermined current maximum value. In response, the microcomputer 130 activates the operation of the alarm member 13 based on the detection signal outputted from the current detecting means. The current detecting means is constituted by a current detecting circuit 丨61. In addition, the voltage detecting circuit 162 detects the effect once the voltage output from the constant current circuit 125 has decayed below a predetermined minimum value. In response, the microcomputer 13 activates the operation of the alarm member i3i. The metal ions generated by the ion dissolving unit 1 are transported into the washing tub 3 in accordance with the successive steps described below. When the main water supply valve 50a is opened, water flows through the main water supply passage 52a. If it is necessary to supply a relatively large amount of water, it is recommended to open the secondary water supply valve 5〇b so that the water is also delivered to the secondary water supply passage 52b. When the metal ion dissolving process is performed, the water from the main water supply valve 5a flows by itself by filling the inner space of the ion dragon away from the unit 100. At the same time, the driving circuit 120 adds a DC voltage between the electrodes 113 and 114, whereby the ions constituting the metal elements of the electrodes are dissolved in the water. When the metal element constituting the electrode is composed of silver (Ag), the electrode (113) on the anode side generates a reaction defined as "-Ag + e, whereby the silver ion Ag + is dissolved in water. Between the electrodes 113 and 114 The flowing current consists of a DC current. The metal ion-added water flows into the detergent storage chamber 54, and then the water flows through the water injection port and another water injection port 56, and finally flows into the washing tub 30. For example, when When a predetermined amount of metal ion-added water is supplied into the washing tub 30, initially, the metal ion-added water is poured into the washing tub to a predetermined amount 'and then 'the urban water without the metal ion is added 91818 .doc -24- I252266 / breaks into the washing tub 30 up to the predetermined water level. Then, once it is recognized that the density of the metal ions in the water stored in the washing tub 3 has reached a predetermined value, in order to respond from the control unit 80 A signal for suspending the operation of the water supply, that is, suspending the operation for adding the DC voltage to the electrodes 113 and 114. When the field can detect the amount of the flowing water, even if the ion dissolving unit 8(8) generates gold in advance Ion and no longer produce metal ions 'and even if the main water supply valve 50a continues to supply water' and finally fills the water with a predetermined amount of water: 30 when the water supply is suspended, it is still possible to ensure that the water is added to the required density. One of the quantitative metal ions. As described above, in the washing machine cartridge according to the embodiment of the present invention, the terminal worker 5 is integrally formed with the electrode 113, and the other terminal 116 is also integrally formed with the other electrode 114, Separately made of the same metal element as each other. Due to this configuration, unlike the case where different metal parts are bonded to each other, a potential difference cannot be generated between the electrodes 113/U4 and the terminals 115/116, and corrosion is not generated. The manufacturing step can be simplified due to the combination of the components. In order to gradually narrow the interval between the electrodes 3 and 114 from the upstream side toward the downstream side, the interval is provided in the form of a taper. Even when the electrodes 11 3 and 11 4 have become thinner as the water flow wears, it is difficult to generate oscillation, and the thinned electrodes 113 and 114 can hardly break themselves. The thinned electrodes 113 and 114 are excessively deformed to cause a short circuit. The electrodes 113 and 114 are respectively held by creating a space between the two electrodes and the inner surface of the case 110. Due to this configuration, it is almost impossible to cause the metal layer. The electrodes 113 and 114 are grown up to the inner surface of the shell 11 and, in addition, there is no need to worry about a short circuit between the opposing electrodes 113 and 114. 91818.doc -25 - 1252266 The electrodes 1 13 and 114 are combined, but the cycle is increased. Wear and tear. In addition, there is a problem. In the actual terminals 115 and 116, although the terminals 1 1 5 and 1 16 are individually and correspondingly the electrodes 11 3 and 1 14 will inevitably follow the operation. The terminals 115 and 丨16 are respectively worn in %, and 'retained in the terminals 1 1 5 and 1 16 interior 116 are broken during operation. Partially protected by the first sleeve 174 composed of an insulating material and the second sleeve 175 composed of a soft rubber, and therefore, the terminals ι 5 and ι 6 can be hardly worn by conduction of electric energy. In this way, the terminal (1) is prevented again, and in the electrodes U3 and m, the terminals 115 and 116 are respectively disposed at portions which are more inward than the upstream side edge. The electrodes 113 and 114 gradually wear from the narrow portion between them. The edge portions of the electrodes 113 and 114 are quickly ground, however, 'because the terminals 115 and 116 are not disposed at the extreme ends of the electrodes 113 and ι 4', respectively, they are disposed at the last & the upstream side of the electrodes 113 and 114, respectively. . L is, so there is no need to worry about causing wear from the edges of the electrodes ^ and ^4 until the terminals 115 and 117 are worn, and there is no need to worry about further fragmentation of the terminals from the root portion. The upstream sides of the electrodes 113 and 114 are held by the first sleeve 174 and the support member 176, respectively. On the other hand, the downstream sides of the electrodes 113 and 114 are respectively held by a pair of supporting members 177 and 178. Based on this configuration, the electrodes η 3 and 11 4 are firmly supported at the upper private side and the downstream side, and therefore, both of them do not oscillate in the flowing water. Therefore, it is impossible to cause the electrodes 113 and 114 to be broken by self-oscillation. Terminals 115 and 116 individually pry themselves down by penetrating the bottom wall of housing ii 〇 a. Due to this configuration, even when steam is brought into contact with the shell i ^ 〇91818.doc -26-1252266 (it should be noted that steam is easily infiltrated into the washing machine 1 when washing the laundry with hot bath water) or by using running water cooling When the crust 10 produces a chrome on the outer surface of the casing 11, the dew drops along the electricity connected to the terminals 及5 and 161, and does not remain at the terminals 115 and 116 and the casing 11 () Between the interface. Therefore, there is no need to worry about causing dew to create a short circuit between the terminals 丨i 5 and 丨丨6. Since the longitudinal direction of the casing 11a is horizontally arranged, it can be easily disposed on the sides of the electrodes 113 and 114 by projecting the terminals 115 and 116 downward to be lower than the bottom wall of the casing 11. The terminal 115 and the crucible 16. The drain port 112 of the ion dissolving unit 1 has a cross-sectional area smaller than the cross-sectional area of the water injecting port ln, and thus, generates a considerable impedance in the water channel. Therefore, via the water injection port 1U The water flowing into the shell 11 () fills the inside of the shell 11 () without generating air bubbles (aerial p〇〇1) therein, thereby completely immersing the electrodes 11 j and 11 4 again. It is a problem caused by the fact that the free portion of the electrodes 13 and 11 4 is completely independent of the generation of metal ions to keep the free portion in a molten state. Not only the cross-sectional area of the drain 璋 11 2 is smaller than that of the water injection 埠u丨The area, and the cross-sectional area of the internal space of 110 is also gradually decreased from the upstream side to the downstream side of the ion dissolving unit 1 (10). Due to this effect, it is difficult to generate irregular flow of water and foam inside the crust. Therefore, the water flow can be smoothed. The foaming residue produces a molten residue of the metal element on the electrodes 11 3 and 11 4. In addition, since the metal ions quickly leave the electrodes u 3 and n 4 and do not return, the efficiency of metal ion dissolution can be promoted. The dissolution unit 100 is placed in the main water supply passage 52a through which a large amount of water flows. As a result, the metal ions are immediately carried away from the shell no without returning to the 91818.doc -27-1252266 electrodes 113 and 114, thus improving The efficiency of metal ion dissolution. The drain 埠 112 is placed at the lowest position of the inner space of the shell 11 。. Due to this effect, when the water supply to the ion dissolving unit (10) is stopped, the water in the ionic dissolving unit 1 is self-draining 槔 ii 2 ^ Full outflow. Therefore, there is no need to worry that the water causing the residual 4 in the shell will be bundled in the winter' and y will further cause malfunction or damage of the ion dissolving unit 100. The filter 180 is disposed at the upstream side of the electrodes 113 and 114. Because of the configuration, when the solid impurities are present in the water to the ion dissolving unit 100, the solid impurities are filtered and the device 180 is safely captured without reaching the electrodes 113 and (1). It is feared that the impurities cause damage to the electrodes (1) and (1), and further there is no need to worry that the gap between the electrodes causes a short circuit to cause a flow of an overcurrent 'or cause a golden foot due to the presence of impurities. Another 181 is disposed at the electrode (1) and the downstream side of m. Even if the electrodes (1) and 114 are worn or become fragile or debris flow away, the fragments can be captured by the filter (8) without flowing into the downstream side. The fragments of the electrodes 113 and 114 cause an oblique π, A " treasure. The outer moon % acts as a damage to the article on the downstream side C7 as loaded into the washing machine in the ion dissolving unit 100! In this implementation = where the fines (10) and 1δ1, otherwise impurities may "adhere to the washed clothing. In fact, it may cause impurities 2: = debris to contaminate or damage the washed clothes. In addition, if In the case where the impurities and or the fragments of the electrode are still adhered to the washed laundry, the drying and drying treatment is used to treat the washed laundry, and the washed green 91820.doc -28 - 1252266 People who come into contact with clothing may feel uncomfortable, and in extreme cases, those who have been washed may have suffered from those who are not forgiving. 181 and 181 can safely prevent such accidents. (4) Health... ° It is not always necessary to place filters 丨8〇 and 丨8丨 for filtering, 1 800 and/or 1 8 1 without problems, either or both of 180 and 181 If it is determined that the filter is not removed, the filter is continuously attached to the metal (4) threaded towel, and the electrodes 113 and ι 4 are gradually worn, thereby reducing the amount of eluted ions outward. The electrodes 113 and 114 are used for the long-term service duration. After that, the amount of metal ions dissolved outward will not become It is difficult or desirable to ensure the amount of metal ions. To prevent such conditions, it is configured such that the ion dissolving unit 1〇〇 can be replaced with a new ion dissolving unit as needed, and in addition, when the electrodes 113 and 114 are used When the expiration has expired, the used electrode can also be replaced by a new electrode. In addition, the expiration of the expiration of the electrodes 113 and 114 can be notified to the user via the operation display unit 81 to urge the user to replace it. The ion dissolving unit 100 has expired to perform maintenance. In the process of driving the ion dissolving unit 100, the constant current circuit 125 of the driving circuit 120 controls the voltage level so that the value of the current flowing between the electrodes 113 and 114 It can become constant, thereby stabilizing the elution amount of the metal ions so that it remains constant per unit time. The amount of metal ion elution per unit time remains within the range, by appropriately controlling the water flowing through the ion dissolving unit 1 The concentration of the metal ions in the washing tank 3 can be appropriately controlled by the enthalpy and ion ionic duration, so that the dissolved metal ions can be easily ensured. The required density. 91818.doc -29- 1252266 For a pair of electrodes 丨丨3 and 11 4, scale is precipitated on one of the electrodes used as a cathode. When the DC current is continuously delivered without inverting the electrode When the amount of scale deposited after the polarity of Π3 and 114 rises, the dc current can no longer smoothly flow in the electrode, whereby it is difficult to appropriately dissolve the metal ions in a predetermined ratio. In addition, in this way, a To the problem of wear, the only one of the two electrodes used as the anode itself wears earlier than the other. To prevent such a situation, the polarity of the electrodes 113 and 114 is periodically inverted. DC current at the electrode 113 Flows between 114 and 114. When the polarity of the electrodes is inverted, a specific phenomenon occurs. Specifically, for example, when the metal ions are composed of silver ions, at the moment when the polarity of the electrodes is just inverted, due to the reverse reaction defined as "Ag++e--Ag", the dissolved silver ions are returned to the electrodes. . In order to solve this problem to correctly invert the polarity of the electrodes 113 and ι 4, a lower device has been introduced. Figure 10 presents a timing diagram for illustrating the functional operation of the individual components associated with the operation of the polarity of the inverted electrodes A and B in the process of dissolving metal ions. For example, for one of the series of processes including washing, rinsing, and dehydrating, if the user selects the "feed metal ion" mode of operation during the final rinsing step, the final rinsing step corresponds to the ion leaching step. According to the timing chart of Fig. 1, initially, the main water supply valve 5〇a and the secondary water supply valve 5〇b are not connected to 〇n (meaning open). At the same time, the transformer 122 of the drive circuit 1 is also turned on. N. At this time, no voltage is applied to the electrode a (any one of the electrodes 113 and 114) and the electrode B (the other electrode). 91818.doc -30- 1252266 When the above situation exists in the field, first, a pair of current detections are separately checked. The measurement circuit 1 60 and 1 6 1 remain silent and confirm that the minimum possibility of error detection has been eliminated, thereby preventing the metal ions from being dissolved at an inappropriate density. When there is a confirmation time of 1, the current detection The operation of circuits 160 and 161 has thus been confirmed. In the next step, the Dc current is conducted to electrodes A and B. The first voltage is added to the electrode a and the other electrode B is maintained at the ground voltage. Electrode A is equivalent to the anode, and The pole 3 corresponds to the cathode. After the private pressure addition daytime T2 elapses, the operation for adding the DC voltage to the electrode A is suspended. Then, the activation is added to the electrode B during the suspension (4). The electrode A is kept at the ground voltage. In this case, the electrode B corresponds to the anode and the other electrode a corresponds to the cathode. In other words, the polarities of the electrodes A and B have been inverted. 2 After the past again, the pause is used to add D (: voltage to the ▲ of the electrode. Then, the polarity of the electrodes A and B is inverted again within 3 times of the electric I addition pause time. ^The above is repeated by alternately The voltage addition time τ2 and the voltage addition pause time Τ3, it periodically reverses the polarity of the electrodes 113 and ι4. The polarity is constantly inverted until the predetermined amount of metal ions can be eluted outward. In the following description, the voltage is added to the time T2 and The sum of the voltage addition pause time τ3 is defined as the π ion dissolution time ''4.) In order to secure an effective member for controlling the ion solvation operation, the inventors of the present invention confirmed after the various studies. Eluting operation

For the purpose of the banquet, and for the purpose of the project f > _L Ma K the current electrode of the same wear, respectively, the voltage addition time Τ 2 should be 1 9 9 Le less, and Tian · ^ shirt Time to suspend the voltage application Τ3 91818.doc 1252266 In addition, it is also preferable to apply a DC voltage of 丨〇V and a DC current of approximately 29 mA. The scale deposited on the surface of the electrode during the period of the cathode cycle is emitted outward during the period of the anode cycle. In this way, scale deposits are prevented from being deposited on the surface of the electrode, whereby metal ions can be stably dissolved. Further, when the time T3 is performed to suspend the addition of the electric material in the course of the inverted polarity, the metal ions dissolved in the electrode serving as the anode from one of the electrodes quickly exit the anode electrode through the water flow. Therefore, it is not feasible to recover the previously dissolved metal ions even when the anode has been inverted as a cathode. As a result, electrical energy can be saved from unnecessary consumption for dissolving metal ions. Since the door has a time for damaging the voltage to the electrode, an irregular distribution of the density of metal ions in the water can be taken, thereby providing an evenly distributed antibacterial effect to the washed laundry. In order to cause a predetermined value of DC current to flow through the electrodes 13 and 14, the constant current circuit 125 changes the DC voltage applied to the electrodes. Since the amount of elution of the metal ions is proportional to the current flowing between the electrodes 113 and 114 per unit time, it is also possible to stabilize the reaction by dissolving the metal ions by stabilizing the DC current value, and it is also easy to calculate. The amount of metal ions that have been dissolved. A DC voltage is applied to the electrodes 113 and 114 before supplying water to the ion dissolving unit 1〇〇. Due to this configuration, metal ions can be safely dissolved from the start of an operation for adding a DC voltage to the electrodes 113 and 114, whereby a predetermined total amount of metal ions can be safely supplied to the washed laundry. At the time when the DC voltage is initially applied to the electrodes 1丨3 and 丨丨4, the predetermined time is passed through 91818.doc -32 - 1252266, and the current pre-measure circuits 16A and ΐ6ι respectively activate their respective Bo test operations. The DC current flowing through the electrodes U3 and m is continuously monitored by the current detecting circuits 16A and i6i until the "ionization time is short." Then, based on the current detection circuit 160 and 161 As a result, the drive circuit 120 activates its own control operation. As described above, immediately after the start of adding the Dc to the electrodes U3 and m, the flowing current remains unstable during this period, and therefore, current detection

Circuits 160 and 161 do not perform their respective detections of day, day, and f A m-lights, but they start their respective operations only after the flow current is completely stabilized, so that the detection can be performed with higher accuracy. Flow current. If the current detecting circuit 161 has separately measured that the DC current flowing through the electrodes 113 and U 4 has abnormally exceeded the predetermined value range, the warning member 131 warns the user of the effect. Enabling the user to recognize that the ionization dissociation unit 100 is no longer possible to ensure a predetermined amount of dissolved metal ions due to the generation of abnormal current values, whereby the washed laundry cannot be treated with the desired antibacterial treatment. And the user can also be aware that the ion dissolving unit 100 requires an adjustment or repair work to be performed immediately. When the current detecting circuits 160 and 161 have actually measured the abnormal current value, it is suggested that the operation of the money laundering 1 can be stopped. By suspending the washing machine, the user can use the antibacterial treatment to organize the functional failure of the washed laundry without realizing that the washing machine cannot be expected by the user.

In the case of It, avoid further operation of the washing machine. In addition, the washing operation can also be performed by: arranging it to φ χ 1 Dingda electric k detecting circuit 160 and 161 actually detecting an abnormal electric current 9l8l8.doc -33 - 1252266 In the process of metal ion solvation

3, the value of the thunderstorm 4, P is detected within a range, the alarm ^ ^ ^ ^ then 仟 iJl into the limit to make it not ^, the bad by the bow into this method, even if § has been One by noise or its analogue a,,,.  The fault of life is double. When detecting and temporarily detecting an abnormal current value, the user continues to operate the washing machine u until the washing process is completed. Alternatively, the ion dissolving unit 1 can be driven as described below. First, the ion solubilizer fs1T4 is adjusted so as to correspond to the amount of water used in the washing machine i, in other words, corresponding to the water level in the washing tub 30. According to this method, the amount of water used for properly adjusting the ion dissolution time is correspondingly determined. In this way, the washed laundry can be treated with urban water filled with metal ions having a density of the shirt. Due to this method, it is possible to prevent the treatment of the washable clothing from the station π or the phase containing water of the highly concentrated metal ion component to the improper antimicrobial treatment due to the insufficient density of the metal ion component. In addition, the time T2 for adding a voltage to the electrodes 113 and ι 4 and/or the time for suspending the voltage to the electrodes are adjusted separately to make it possible to use the amount of water and/or the ion immersion time. 4 corresponding. By introducing the above method, by appropriately adjusting at least any one of the voltage addition time 2 and the voltage addition pause time T3, the amount of available water or the ion dissolution time T4 can be used to compensate for the dissolution from the electrodes 113 and 114. The difference between the metal ions. Therefore, the wear rate between the electrodes n 3 and 丨丨4 can be made equal, and in addition, the electrodes 丨丨3 and 114 can be prevented from being biased to the unidirectional polarity, thereby preventing scale from being on the cathode side (equivalent to Any of the electrodes n 3 and 丨丨 4 9I8l8. Doc -34 - 1252266 electrodes that remain as the cathode for a duration ^, the gate is longer than the other electrode) deposit a large amount of themselves to prevent metal ions from dissolving when the armor turns the cathode electrode into an anode in the next sequence. The antibacterial effect that penetrates into the washed laundry can be stably maintained for a longer period of time. In addition, the detection is based on traffic detection. The result of the flow detected by the profit member 185 is adjusted to add a voltage of 5 fk to the electrodes 117 and 114 and/or to add the voltage to the lanthanum electrode. Time D3 or ionic dissolution time D4.贯 By connecting the washing machine 1 to the Italian, the main water pressure and the tubular resistance between individual families when using the city water. The coefficient of force in Syria is not the same. Even the aperture of the water supply valve 50 is in the washing machine! The portion remains constant and the flow rate of water flowing through the ion dissolving unit 100 is also not stable. By appropriately adjusting the flow rate _' in the ion dissolving unit 100 based on the result of the flow (4) measuring member 185 (4), the amount of elution of the metal ions can be appropriately adjusted corresponding to the flow rate of water. Thus, it is possible to provide wash water having a minimum varying metal ion component density so that all washable laundry can be uniformly treated using the < In order to ensure this effect, a condition for agitating the washing tub against the washing water so that the metal ions can be completely diffused in the washed laundry can be suppressed. When the current detecting circuit 160 detects that the DC current value flowing through the electrodes u 3 and ii 4 is kept below a predetermined value, it is configured such that the amount of water supplied to the ion dissolving unit 100 can be reduced, and the ion dissolving can be extended as well. The duration of time. The predetermined amount is achieved by implementing the above method even when the current value is maintained to ensure 91818. The level required for the metal ions of doc-35- 1252266 is stable when the metal ions are dissolved, 'in other words, even when it is not able to flatten the flow of water for the reduced supply, the long water supply The total amount of 嫱 is _ ..., s1, so that a predetermined 疋 · metal ion can be appropriately dissolved until k 4 _ ', ' ς . Therefore, it is possible to treat the washed laundry with a stable anti-slipping treatment. No-resistance A system for supplying urban water with metal ions added as an initial feature of the present invention will be described. Fig. 11 exemplifies the overall construction of the washing machine 1 and the display panel 81. The application of various manipulation operations is sufficient for the user to receive the gold ion water that has been added and to receive the actual information about the real-time operating state of the washing machine. The operation display panel 81 is equipped with various operation buttons and display lamps including operation buttons and display lamps related to the state of the metal ions. According to this embodiment, silver ions are used as the metal ion component. Therefore, I, silver ions are indicated at the relevant portions of the operation button and the display lamp. The specific configuration of the operation display panel 81 will be described below. Among the various operation buttons and display lamps provided by the operation display panel 81, and the metal The ion-related operation buttons and display lamps include the following: a silver ion amount selection button 201 (for inputting metal ions), a silver ion amount measurement 202, and a silver ion density selection button 2〇3 (for inputting metal ions). Density), silver ion mobility meter 204, process selection button 205 (first input unit), STAR button 206 (second input unit), silver ion water supply button 2〇7 (third input unit), silver Ion water supply lamp 208, water supply time setting button 2〇9 (water supply time input unit) and water volume button 2 10 (for inputting water to be supplied 91818. Doc -36- 1252266 quantity). The function of setting the water supply time “9” and the water quantity button 210 will be described after the weighing. By "Silver ion! Select button 2 (H' user sets the required amount of silver ions to be added to the supplied water in the city. In response to the metal input via the silver ion selection button 2〇1 (silver) The input amount of ions, the driving circuit 120 changes the magnitude of the sinking to be added to the electrodes 113 and 114, and thus, the amount of silver ions to be dissolved from the ion dissolving unit 1〇〇 can be eroded. It is possible to press the silver ion (4) to press (4) to appropriately adjust the amount of silver ions to be contained in the supplied city water. When the user presses the silver ion amount selection button 2〇1, the silver ion meter 2 Second, the amount of silver ions corresponding to the input amount is displayed. For example, the amount of silver ions; Xiayi 202 includes a plurality of vertically aligned LEDs. For example, f, when the user presses the silver ion 篁 select button 2 〇 i twice The two LEDs of the silver ion meter 2〇2 will be illuminated. As a result, the user can easily recognize the actual amount of silver ions contained in the supplied water. ^ By pressing the silver ion density selection button 2〇 3, the user set to be added to the provided The density of the metal (silver) ions in the water of the city. In response, in order to ensure the density of the silver ions selected by the silver ion density selection button 2〇3, the control unit 80 controls the operation of the drive circuit 12, which then The ion dissolving unit 100 corresponds to the flow detected by the flow detecting member i 85 and is outwardly separated from the silver ions. The density of the metal ions contained in the urban water, in other words, the metal ions per unit time The amount of elution is judged by the current value flowing to the electrodes 113 and 114, and is also determined by the flow rate of water flowing through the ion dissolving unit 100. Therefore, 杵91818. Doc - 37 - 1252266 The unit 80 controls the current flowing to the electrodes 1丨3 and 1丨4 to correspond to the amount of water to be supplied to the ion dissolving unit 丨00. For example, when the amount of water flowing through the ion-dissolving unit is kept constant, the control unit 80 controls the driving circuit 12A so that the high-value current can be supplied to the electrode when the density of the metal ions has been set high. 113 and 114, and conversely, a low value current can be delivered to the electrodes 11 3 and 11 4 when the density σ of the metal ions has been lowered. More specifically, when the flow detecting means 丨85 has detected the actual amount of water flowing into the ion dissolving unit 100, based on the result detected by the flow detecting means 185, the control unit 8 The current value informs the drive circuit 12 that the water for the city to which the metal ion corresponding to the target value is added can be supplied to the ion dissolving unit 1〇〇 in a timely manner. Therefore, the user can appropriately adjust the density of the silver ions contained in the supplied water by merely pressing the silver ion and the degree selection button 2〇3. The control can be added to the upper limit of the voltage of the driving circuit 12A or the electrode Η3, and the right cannot deliver the high-value current to the electrodes 113 and 114, and is controlled by controlling the amount of water to be supplied to the ion-dissolved single Si(8). The unit can appropriately control the density of metal ions.曰: When the user presses the silver ion density to select, the silver ion density meter: 204 does not correspond to the specific silver ion density of the input data. For example, the silver ion density meter 2〇4 includes a plurality of vertically arranged (four). For example, when the user presses the silver ion density to select 203 times, in response, 'the silver ion is poor. Three LEDs of 204 are placed in the mountain. Therefore, the user can easily recognize the actual density of the silver ions added to the water supplied to the reservoir by simply controlling the silver ion mobility meter 204. 91818. Doc -38· 1252266 ▲ ^ Body] 'only by monitoring the number of illuminated LEDs on the silver ion meter 2〇2 and the silver ion density leaf gauge 2-04& the height position of the illuminated (four) The user can easily identify the amount and density of silver ions. In the case where many of the LEDs are illuminated or until the LEDs at the top are also illuminated, this sounds: a larger amount of silver ions have been set via the input or silver ions have been set to a higher degree. By way of example, by providing "10 seconds" or "3L" or, "high density" or "low density" in front of the LEDs or at ^^, The identification performance of the display is further improved, and the user can more easily recognize the amount and density of silver ions. The process selection button 2 提供5 is provided to select a plurality of predetermined washing process orders. For example, the washing The Su process includes the "H) minute process, "hard wash I,", soft soothing process, ", "drying process", ", blanket washing process" and metal ion water supply process. The VIII “metal ion water supply process” separately supplies urban water that has been added with metal ion damage. The process can be selected and input by pressing (4) 7 which will be described later in the silver ion supply. For other washing courses, the duration of the washing, rinsing, and dehydrating and the amount of detergent and finishing agent that can be added vary. When the hunting process selection button 205 is pressed to select any other washing process other than the "metal ion water supply process", t corresponding to the selected process will be clicked. On the other hand, when f has selected the "metal ion water supply process", the silver ion water supply lamp 208 will illuminate. When any washing process other than the "metal ion water supply process" has been selected, the "metal ion coating washing process" can be additionally selected. With proper washing 91818. Doc - 39 - 1252266 At the same time, the "metal ion coating washing process" uses an antibacterial treatment to treat the washed laundry by delivering the metal ion-added water to the city water during the rinsing process. The "metal ion coating washing process can be selected by pressing "silver ion coating and washing strip button and lamp" 2 11 . For example, in the case of pressing the process selection button 2 〇 5, After the hard washing process, when the metal ion coating washing process is selected by pressing "metal ion coating and washing button and lamp"211, the lamp 211 will light up, thus making the washing machine 1 in use The antibacterial treatment to process the washed laundry while running the f'hard washing process''. The user instructs the washing machine i to start the washing routine by pressing the "START" button 206. For example, after the washing process is activated by pressing the progress selection button 2〇5, when the user presses the "START" button 2〇6, the selected washing course will be executed. The START button 206 also serves as a water supply pause command button for enabling the user to instruct the washing machine 1 to suspend a predetermined operation such as supplying water to which the metal ion component has been added during the washing routine. In other words, after the start of the wash routine by pressing the START button 206, when the user presses the START button 206 again, the actual operation being performed will be suspended. It is also permissible to provide an operation pause button independent of the start button 2〇6 for operating the display panel δ1. As a third input member, a supply button 2〇7 to which silver ions have been added is provided for instructing supply of city water added to the metal ion component. When the user initially presses the supply button 2〇7 of the water to which silver ions have been added and presses the START button 206, the control unit 8 including the microcomputer 13〇 stimulates 91818. Doc -40- 1252266 The operation of transporting municipal water containing silver ion components added thereto. Therefore, when the supply button of the water to which silver ions have been added is torn, it produces such an effect that the metal ion water supply process has been immediately selected by the command input by pressing the button 2〇7. The control unit 8 can be allowed to immediately activate the supply of the city water with the metal ion component added without the manual operation of waiting for the user to press the START button 2〇6. In this case, 'Since the silver ion has been added via direct compression The water supply button 207 performs an operation for transporting the city water to which the metal ion component is added, so that the user benefits from the convenience of manipulation. When the supply of the water having the metal ion component is added, and then, when When the user presses the supply button 2{)7 of the water to which the silver ion has been added, the supply button 2〇7 for suspending the water to which the silver ion has been added is also used as a water supply suspension command alone, which will be pressed by the latter (4) It is used to supply the operation of adding urban water with metal components. More specifically, #user initially presses the supply button of water with added silver ions to indicate the control unit (9) The supplied button is being executed for supplying water for adding urban water with silver ions. It is also possible to provide the operation display panel 81 with a supply button 207 independent of the water to which silver ions have been added - for suspending the addition of metal When the water of the city of the ion has been referred to * when the operation of supplying the city water to which the metal ion is added is performed, the supply lamp of the water to which the silver ion has been added is lit, wherein the lamp 2 〇 8 includes, for example, an LED. For example, when By pressing the process to select the button (10) D metal ion water supply process " or when the user presses the supply of silver ion added water according to (4) 7, the silver ion water has been added 9l818. Doc 1252266 The user can confirm that the supply light 208 is lit. By monitoring the lit lamp 2〇8, it is recognized that the timely application of the metal ion-added water based on the above configuration, it should be understood that the ampoule is inserted into the display panel 8 1 including the process selection Button 205, STARTi±^^ 4 ugly 2 0 6 and the supply of silver ion-added water 207, the input 胄 胄 别 别 别 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自 各自The operation of the command for the operation of the water in the city of the ancient bee is performed by causing the metal ion group unit 80 to perform a control. In this embodiment, the portion is self-dissolved from the ion dissolving unit 100 in the water before the start of the water supply is started, and the control operation is responded to. The input operation via the input port described above will be described below with reference to a water supply for the supply of metal ions (silver ions) for the supply of metal ions (silver ions) in response to an instruction input via the operation display panel 81. Drop it out. This description relates to the case of a silk-to-floor cloth or another case where water is supplied via a laundry m. (4) The city water to which metal ions are added is transported into the soap oil. First, by pressing the process selection button 205 or the supply button 207 to which the silver ion has been added, the user selects, the supply process of the metal ion water has been added. Meanwhile, by pressing the silver ion amount selection button 2〇1 Or the silver ion density selection button 203' user needs to set the required amount of the silver ion component or the desired density of the silver ion component. Next, the user presses the START button 206, and then, in response to the control unit 80 The predetermined signal, the main water supply valve 5〇a and the driving circuit 12〇 respectively perform the predetermined operation. Therefore, a predetermined amount of the metal (silver) ion component is dissolved from the ion-dissolving unit 100 and finally diffused into the water. 53 will add 91818. Doc -42- 1252266 City with a predetermined amount of silver ions is supplied to the washing tank within 3 inches. Next, when the user concludes that the required amount of water has been supplied, the user again presses the START button 206 and the supply button 207 to which the silver ion has been added. In response, the control unit 8 transmits the predetermined signal to the main water supply valve 5a and the drive circuit 120, thereby stopping the water supply. The water supply operation can be ended immediately after pressing the above input button: or a few seconds after the end of the operation for eliminating the deposit deposited on the electrodes 113 and 114. The above description also relates to a plurality of input modes for indicating the supply of city water with metal addition + components added. These input modes can be classified into the following two modes. The first-input mode includes the step of selecting the "supply process of the added metal ion water" by pressing the process selection button 205, followed by the step of pressing the START button 206. The second input mode includes pressing the added The supply of silver ion water is in the step of (4) 7, followed by another step of pressing the START button 206. The third input mode only includes the step of pressing the supply button 2〇7 of the water to which the silver ions have been added. In fact, it can be introduced Any of the three wheeling modes can also introduce all of the three in-and-out modes. The schematic block diagram shown in Figure 11 places the input phase mentioned above with the above three The input mode is compatible. Alternatively, the light-in button can be allowed to be 'compatible with at least one of the three input modes. For example, if it is configured to introduce only the first input mode, it can be allowed to be saved. The provision of the supply button 207 for the addition of silver ion water. As described above, the laundry m according to this embodiment of the present invention is characterized by a basin self-go structure comprising: an input device comprising a process selection (four) 91818. Doc -43- 1252266 New 205, START button 206 and supply button 2〇7 of water to which silver ions have been added, which respectively receive the wheel for performing the operation of supplying urban water to which the metal ion component is added And a control member comprising a control unit (10) for dissolving the metal ion component from the ion dissolving unit 1 in response to an input operation activated by the input device, and then adding a metal ion at the beginning of the supply The component of the city diffuses the metal ion component into the water prior to use. Knowing the above configuration, 纟 only operate the above-mentioned input for the supply of urban water to which metal ions are added as needed (4), and the user no longer needs to perform the whole set of washing including washing treatment, rinsing treatment, and dehydration treatment. The program, on the other hand, allows the user to extract only the water from the washing machine. The result 'even when the washable object includes only a single piece of floor cloth for a day, the user can pour the supplied metal ion-added water into a container such as a washbasin, and then by the supply Water with metal ions is added to simply wash and organize the laundry to use the antibacterial: handle the laundry. As a result, even when there are only a very large number of 々, +%% of the users, it is possible to eliminate the unnecessary consumption of water and electric energy required by the entire set of washing routines and the short washing time. Buy and "fine" = the addition of metal (4) plus the total amount of the required amount that can be extracted from the washing machine 1; therefore, it is not required to be separately installed in addition to the washing machine 1 to produce, ^ the specific required water of the ion water The device, and therefore the user, may have no concern about the location of the device. And for the purchase of the device, the additional required 91818. Doc -44- 1252266 Cattle and 3, in the case of using only the barrel in multiple cycles from the washing machine 1 will be added: the metal ion component of the city water is drawn into the bathtub, even if the y washing clothes are too large to wash When the tub 30 cannot be accommodated, the user can also provide anti-g treatment for the silky garments. In other words, it is also possible to apply an antibacterial treatment to an object having a size exceeding that allowed for the operation of the washing machine 1, in addition to being incapable of being included in the washing 30 due to excessive staining such as a pair of dirty shoes or the like. The user can also apply antibacterial treatment to the outside of the washing machine 1 in the case of washing, rinsing and dewatering the object of the program. The washing machine according to the embodiment mentioned above, various input device advancements include. a first input unit for selecting one of a plurality of washing processes (process selection suspension 2G5), the plurality of filament processes including supply of water for added metal ions for water to which metal ions have been added The second input unit (STARTS button 206) which starts the washing process with the washing machine 1 is not used. The control member mentioned above enables the first input unit to select a supply process of water to which metal ions have been added, and then when an instruction for starting a washing (water supply) operation is input by the second input unit: causing the start Supply water with added metal ions. ¥ Initially by the younger brother - turn into the 7Γ '1? -η, early, choose the metal ion water for the deer to enter the private and the receiver has been: the input unit indicates the start of the washing process, ^' Supply water with added metal ions. Therefore, the service start has been input: From time to time, the control member is caused to start supplying water to which metal ions have been added, and therefore, only the metal ion-added water can be supplied to the user for washing treatment. As a result, prepare μ, +, reach j, , , . As the case of 4 above, the unnecessary energy elimination can be eliminated. 9I8I8. Doc -45- 1252266 consumption. The input unit of the above-described washing machine 1 according to the present embodiment further includes a t-wheeling unit (supply of water to which silver ions have been added (4) 7) for referring to the supply of water to which metal ions have not been added. On the other hand, even in this case, whenever it is necessary to supply the water to which the metal ions have been supplied, since the control member can respond to the instruction from the third input unit to start supplying the water to which the metal ions have been added, only Water to which metal ions have been added is supplied to the user without performing other washing treatment. As a result, the apparatus may include a configuration for starting supply of water to which metal ions have been added when the t input unit generates an indication that the supply of the added force; the metal ion is started. In the above case, unnecessary energy consumption can be eliminated. In addition, since the supply of the metal ion-added water can be started by the direct input operation activated by the third input unit, the user can easily understand the operation method, and thus the control is improved. The washing machine cartridge according to the present embodiment further includes a water supply pause indicator (e.g., a START button 206 or a supply button 2〇7 of water to which silver ions have been added) for instructing the control member 80 to stop supplying water to which metal ions have been added. When the water supply pause indicator produces an indication to suspend the water supply, the control member 80 causes the supply of the metal ion-added water to be stopped. Due to the above configuration, when the user desires to suspend the supply of the metal ion-added water via the water supply suspension indicator as needed, the user can be prevented from further receiving the metal ion-added water exceeding the actual demand. In this case, it is safe to prevent the supply of metal ions from being supplied beyond the actual demand, and also to prevent uneconomical consumption. In addition, since it can be based on self-water supply, 91818. Doc -46· 1252266 The supply of water to ions is also improved by the indication of direct transmission of the stop indicator and the addition of the stop is enabled, so that the user can easily understand the convenience of the operator. ...丨丹丨 includes a structure that can result in water passing through the above-mentioned input; batch/pre-preset. After the duration of the input operation performed by Pingyi (for example, ίο sec.), the supply of the added metal is removed from the fixed surface of the water to which the metal ion has been added. In order to suspend the water supply, the user does not need to be forced to wash the basin. Open either hand' and therefore, the user can use both hands to secure a wash basin filled with water of considerable weight. Therefore, the heart and the worry cause the supplied metal ions to overflow the container, so that the user can safely complete the work for supplying the required amount of water. In addition: even when the user receives the water of the added metal ions that is transported to, for example, a relatively large bucket without using the two-handed holding bucket, even if the user leaves the scene for any reason and forgets that the water supply operation is being performed, The ground is supplied with water to which metal ions have been added without fear of causing water to overflow from the washbasin, thus making the user feel at ease. The laundry (1) according to the present embodiment may further include a water supply time input unit / for the time of inputting and inputting water for supplying the metal ions to be added. The water supply time input unit can be constituted by the water supply time setting indicated by _: button 209. For example, one of the preset time units can be selected as the water supply time setting by presetting a number of water supply time units such as "leap seconds,,, "μ seconds" and 3 seconds. According to (4) 9 according to the μ frequency corresponding to 9I818. Doc -47- 1252266 Water supply time. In the case of the water supply time, after the water supply duration preset by the water supply time input unit after the supply of the metal ion-added water is started, the transfer is transmitted to the main water supply valve 5Qa and the drive circuit (4). In order to suspend the water supply, the control member causes the supply of the water to which the metal ions have been added to be stopped. Even when the process is still in progress, the user does not need to individually instruct the control member: the step of "stopping the water" and thus the user can borrow The use of two-handed holding container to receive the added metal ion water. In addition, even when the user opens the scene due to any original, the user can be prevented from forgetting to indicate the termination of the current (the water V will otherwise lead to the addition of metal ions). The water continuously overflows from the container. In addition, as described above, the range of the duration of the water for supplying the added metal ions can be selected from the plurality of water supply time units, and the user can press the water supply time as needed. Set button 2〇9 to select the desired water supply duration. In addition, the user can select and receive (for example) added metal as needed. The size of the container of ionic water corresponds to the duration of the water supply. Even when using a large container such as a bucket, the user is never exposed to the inconvenience caused by manual work of water supply repeated for a short supply of water. In the washing machine cartridge of the embodiment, the control member may be configured such that the waiter can supply the metal ion-added water only during the period in which the second input unit (START button 2〇6) is kept pressed. This configuration can be performed by The control unit 80 is caused to maintain the supply of the metal ion-added water in the process of pressing the START button for starting the water supply process; and the control unit 80 can also transmit an nickname to the main water supply valve and drive. Circuit 12 〇 to stop 91818. Doc -48- !252266 is implemented by the water supply process associated with stopping the pressing of the START button 206. Similarly, the above-described control member may maintain the supply of the metal ion-added water only during the period in which the third input unit (the supply button 207 to which the silver ion has been added) remains input. In the above configuration, since the metal ion-added water can be supplied in combination with pressing the second or third input unit, the user can continue to transport the metal ion-added water or stop supplying the added metal while the required amount of water has been reached. Ionic water. Therefore, a free water supply program that is judged by the user can be realized, so that the amount of water to be supplied can be finely adjusted. In the washing machine 1 according to the present embodiment, the above-described control member 8A may be configured to maintain supply of water to which metal ions have been added until the second input unit has been released from being pressed for a preset duration (for example, 2 seconds). After the predetermined period. Similarly, the control member 8A can also be configured such that it can maintain the supply of water to which the thirsty ions have been added until a predetermined duration elapses after the third input unit has been released from the state in which the preset duration has been pressed. It is further configured such that the signal for inputting the predetermined duration can be accepted only at the beginning of the water supply process or it can be accepted at any stage until the end of the water supply process. According to the above configuration, even when the user continues to receive the metal ion-added water for a long time, the user does not need to continuously press the second or third input unit until the predetermined amount of the metal ion-added water is supplied. Therefore, the burden on the user is minimized. The washing machine 1 according to the present embodiment is further provided with a metal ion amount input unit (silver ion amount selection button 201) for appropriately setting the supplied 91818. Doc -49- 1252266 The amount of metal ions in the water to which metal ions have been added. The above control member functions to appropriately adjust the elution from the ion elution unit 1 to the extent of elution of the metal ions so as to correspond to the amount of metal ions pre-set by the metal ion input unit. According to the above configuration, in the function of the metal ion amount input unit, the user will be able to freely set the amount of metal ions to be added to the wash water according to his or her own judgment. Thus, for example, even when the user needs to use a highly effective antibacterial treatment to treat the washed laundry, the user will be able to receive urban water containing a specific amount of metal ions compatible with the desired antibacterial effect. supply. As a result, the user can easily and surely achieve the highly effective antimicrobial treatment required. The washing machine according to the embodiment further includes: a metal ion density input unit (silver ion start/selection button 2〇3) for setting the density of the metal ions in the supplied water in the city; and A flow detecting member (flow detecting member 185) for detecting the actual flow rate of the city water supplied to the ion dissolving unit. In order to ensure a specific density of the metal ion component set by the metal ion density input unit, the control member 8 functions to function to cause dissolution from the ion dissolving unit 1 and detection by the flow detecting member. A specific amount of metal ion component that is compatible with the flow rate. According to the above configuration, when the specific density of the metal ion component has been set by the metal ion density input unit, based on the control function of the control member 80, the ion dissolving unit 100 is dissolved and detected by the flow detecting member. A corresponding amount of metal ion component is continuously applied, thus ensuring an appropriate density of the metal ion component. Therefore, even when the amount of water supplied to the washing machine is 9l8l8. Doc -50- 1252266 When there is a subtle change in the water pressure of the city in each location and partial area of the actual installation of the washing machine 1 'If the user still needs to implement a higher antibacterial treatment, then it is independent of the variable The amount of water causes the metal ion density transmission unit to appropriately set the density of the metal ion component, and the user will be able to stably ensure the desired density of the metal ion component. As a result, it is independent of the washing machine 1. The location and area where the user is present will be able to provide the user with the antibacterial treatment effect to stably handle the washed laundry. In addition, the washing machine 1 according to the embodiment further includes: a supplyable water 1 input unit for setting the amount of added metal ions to be supplied to the washing tub 3 or the sink 2; and a flow detecting A member for detecting a flow rate of water to be supplied to the ion dissolving unit 100. In order to ensure a certain amount of water supply that can be supplied by the water supply input unit, the control member 80 can also function by itself for only the duration of the flow detected by the flow detecting member. Water supplied with metal ions is supplied. The above-described supplyable water input unit can be constituted by, for example, the water amount button 210 shown in Fig. 11. By pressing the water amount button 21A, the supplyable water amount can be input by specifying (e.g., "3L,," "5L,", and "10L". Alternatively, a supplyable amount of water may be set to correspond to the water level used in the washing routine including washing, rinsing, and dewatering, in other words, the amount of water used in the washing program. In this way, the user can set an appropriate supplyable amount of water by using the water amount button 2丨〇 whenever water is supplied to the washing tub 30 or the water tank 20. When the water supply amount has been set by operating the water amount button 210, the control unit 80 functions to function with the actual 91818 detected by the flow detecting member 185. Doc 51 1252266 The flow rate corresponds to the specific 捭蟢 main μ hold-time to open the water supply valve 50' and then cause the metal ions from the ion to contain ^ - 1 A A . 4-* The ridge is separated from the early 兀 兀 wo, whereby the water to which the metal ions have been added can be poured into the washing tank 30 U U U times the water tank 20 into the amount set by the water amount button 21 。. As described above, the control member 80 causes the metal ions to be dissolved from the ion elution early 100 in a specific (four) time corresponding to the actual flow rate produced by the flow rate measurement (10), thereby making it possible to add the metal ion-added water. The cleaning bucket 30 or the tank 20 is supplied with the amount set by the supplyable water amount input unit. Because of =, the variable flow I' user independent of the city water delivered to the ion dissolving unit can stably receive the correct amount of water added to the gold layer ions. The i (four) unit supplies the metal ion-added water to a specific amount preset by the supplyable water input unit and, therefore, once the supply of the (iv) ionic water is terminated, the control member 80 (for example) by closing the water supply chamber The brother stopped the water supply. In this way, once the supply of a predetermined amount of metal ion-added water is terminated, the water supply is automatically stopped, and therefore, the user desires individual manipulation to stop the water supply. In this way, the user can use both hands to hold the barn, thereby improving the handling convenience. Further, according to the above configuration, the washing tub 30 or the sink 20 can be used as a substitute for the capacity. Specifically, 'since the metal ion-added water is stored in the washing tub 3G or the water tank 2G', the user can directly house the washable article into the washing tub 30 or the sink 20, so that the antibacterial can be easily used. Processing to treat the object of the washable strip. Because & 'users do not need to prepare containers individually. In addition, even if the size of the washing exceeds the capacity of a container such as a washbasin or a bucket, it is not necessary to implement a complete set of washing routines, 91818. Doc -52- 1252266 The user can also use the washing tub 30 or the sink 20 instead of the container, whereby the antibacterial treatment can also be used to treat the above-mentioned washing objects. Further, as described above, the supply of the metal ion-added water supplied to the washing tub 30 or the water tank 20 is automatically stopped by the control function performed by the control member 80 and thus, even when the user is forced to leave the scene, the use You can also leave this place with peace of mind. Further, the washing machine 1 according to the present embodiment further includes: a supplyable water amount input unit (water amount button 210) for presetting the supply amount of the metal ion-added water to be delivered to the washing tub 3 or the water tank 20. And a water amount detecting member (water level switch 71)' for detecting the actual amount or water level of the metal ion-added water delivered to the washing tub 3 or the sink 2 . The control member 80 can be configured such that it can function to cause the amount of water or water level detected by the water quantity member to actually reach the amount of water corresponding to the water supply amount preset by the water supply input unit or At the same time as the water level, the supply of water to which metal ions have been added is stopped. According to the above configuration, when the amount of water or water level detected by the water quantity component has reached a specific water quantity or water level corresponding to the water supply quantity preset by the water supply quantity input unit, by (for example) _ water supply (4) The control member 8 〇 causes the water to which the metal ions have been added to be temporarily transported to the washing (4) or the water to 2 〇. As a result, the user can benefit from various advantages in the same manner as described above. The first 'user can save the execution of the water supply suspension process, and instead, the user can use both hands to hold the container. Second, the antibacterial treatment required for the mashing is replaced by the use of the washing tub 30 or the sink 20. The first can be easily implemented. The cause is to automatically suspend the water supply. The user can 91818. Doc -53 - Ϊ252266 Leave the scene with peace of mind. In addition, as described above, a plurality of previously available water supply units can be selected, and the specific supplyable water inlet can be selected from the input unit, and the user can select and use the receiving place as needed. The size of the grain of the water supplied, the quantity of objects that can be washed, and the amount of water that is actually available in response to the amount of water required. As a result, the user can correctly receive a specific amount of water that is compatible with the intended use of the user, thereby enhancing operational advantages. The washing machine cartridge according to the present embodiment further includes a water amount detecting member (water level switch 71) for detecting the amount of water or the water level of the metal ion-added water which is sent to the washing tub 3 or the sink 2 . The control member may also be configured such that once the amount of water or water level detected by the water amount detecting member has reached a specific amount of water or water level that may cause the supplied metal ion-added water to overflow from the water tank 2 (ie, When the amount of water or water level corresponding to the maximum storage capacity of the water tank 20), the L control member 80 causes the supply of water to which metal ions have been added to be stopped. According to the above configuration, due to the control operation of the control unit 8A, based on the result detected by the water amount detecting member, the washing of the washing tub 3 or the sink is automatically stopped before the water to which the metal ions have been added finally flows out of the water tank 20. 2〇 Supply water with added metal ions. Therefore, it is possible to prevent the waste of the supplied metal ions from being supplied, so that the metal ion-added water is effectively used only for practical purposes. When the water to which the metal ions have been added is supplied to the washing tub 3 or the sink 2, if the water-like odor continues indefinitely, the water to which the metal ions have been added may flow out from the water tank 20 to make the floor be The overflowing water is saturated. However 91818. Doc-54 - 1252266 However, according to the above configuration, when the amount of water supplied reaches the maximum allowable level of the water tank 2, even when the water supply operation is being performed, the control unit is forced to stop supplying the water to which the metal ions have been added. When the instruction is executed, the control unit 80 never accepts a request for implementing the water supply process even if the user attempts to perform the process for starting the water supply. Therefore, it is possible to prevent the metal ion-added water from flowing out of the water tank 2G to saturate the floor surface, thus ensuring that the user can use the washing machine 1 with peace of mind. Further, the washing machine i according to the present embodiment is further provided with a throwing box (drawer 53a)' for transporting the detergent and finishing in the running washing process. The metal ion-added water may be supplied to the washing tub 3 or the water tank 20 via another path (four) separated from a path through the drawer 〇. For example, as shown in FIG. 2, the above configuration may be formed by a branch water passage and a branch water passage bifurcation at an appropriate position on the upstream side of the upstream side of the pumping lion box (4) in the water supply injection (four); and the hunting water channel 52a may be forked; The above configuration is realized by conveying the water to which the metal ions have been added to the path of the washing tub 3G or the sink 2 . The branch water passage can be electronically controlled by a solenoid valve. Alternatively, the branch water passage may include a system, in any one of the two sides of the suction side (four) a side and the water supply side required by the user, the 兮糸β pull 丄 糸, the first fine is rotated or transferred electromagnetic The valve only causes either of the two sides to receive the supplied water while the other side of the water supply remains closed. There is a residual residue that remains adhered to the cleaning agent and/or finishes due to incomplete dissolution during the cleaning process of the cleaning agent or finish. Doc -55 - !252266 Incidents of the throwing box (for the automatic transfer of the drawer 5 3 a). However, according to the above configuration, since the metal ion-added water can be supplied without passing through the drawer 523a, there is no need to worry about the residual substance which is mixed with the detergent and the finishing agent when the water to which the metal ion has been added is supplied, whereby the user It can safely receive clean water with added metal ions. The washing machine 1 according to the present embodiment is further provided with a drain unit (e.g., a drain valve 68). The drain valve 68 can be configured to be able to close itself to retain flow. A configuration can be implemented which is used to cause the control unit 80 to perform a control if the optical sensor for detecting the presence or absence of the container in the washing tub 3 fails to detect the presence of the container therein Operation is to close the drain valve 68 and place the drain valve 68 in a state of retaining flowing water. Alternatively, by previously installing a drain stop button on the operation display panel 81, the control unit 80 can be allowed to perform a control operation to close the drain valve 68 when the user presses the drain stop button. Unlike the direct indication of the latter method of stopping the draining process, the former method provides an operating advantage since the former method dispenses with the execution of an instruction to stop the draining treatment. If the drain valve 68 in the washing machine 1 is kept in the closed state (in which the water flow is stopped), the supply to the washing can be easily stored by eliminating the manual work of draining the drain hose 60 by lifting the top end of the drain hose 60. Water of metal ions has been added to the tank 3 or the water tank 20. Due to the above configuration, any washable object can be safely treated using an antibacterial treatment by applying water to which metal ions have been added in the washing tub 30 or the water tub 20 without using a container. 91818. Doc - 56 - 1252266 2 The washing machine 1 according to the present embodiment is provided with a step - for increasing the discharge of the water stored in the washing tub 30 or the sink 2Q as a drain valve. The drain valve 68 can be maintained in a state capable of draining water. The presence or absence of the container inside the washing tub 3 is detected by pre-installing an optical sensor in the washing tub 30, and the control unit 80 is caused to be executed when the optical sensor detects the container. The control operation to open the drain valve 68' is configurable for placing the drain valve 68 in a drainable state. Alternatively, the method can also be executed by providing a drain button on the operation display panel 81. When the user presses the drain button, it is configured to enable the control unit 8 to perform a control operation. To open the drain valve Μ. Unlike the latter method, which requires an indication for drainage, the former method dispenses with the indication for drainage, and thus the 'pre-method' provides an operational advantage. The drain valve 68 of the right washing machine 1 is kept open during the period of operation for supplying the metal ion-added water to, during and/or after the operation of the container (ie, in a drainable state), even if it is supplied The water to which the metal ions are added overflows the container, and the overflowed water is also discharged through the drain hose without remaining in the washing tub 30. If the metal ion-added water is concentrated in the washing tub 30 of the washing machine 1, it will cause the washing machine i to rust or be stained. On the other hand, according to the above configuration, since the metal ion-added water is discharged from the container, rust spots and stains are not generated. In addition, further manipulation convenience is provided in this manner since the user does not need to undergo dehydration treatment when draining the overflowed water. In the washing machine cartridge according to the embodiment, the washing tub 3 is provided with a dewatering through hole only at the top portion of the side thereof, wherein the washing tub 3 is smashed with 91818 by a sealing member. Doc -57- 1252266 The sink 20 is separated. In this configuration, since the washing tub 30 has a dewatering through hole only at the top portion of its side, the metal ion-added water supplied to the washing tub 30 will be water unless the actual amount of water or the water level reaches the height position of the top through hole. It does not flow into the water tank 20. In this case, as compared with the case where water having added metal ions is supplied to the water tank 2 and the washing tub 30 through a plurality of dewatering through holes formed at the sides, it can be reduced to achieve the same water level. In the water, change 3 to save water consumption. In addition, there is no need to further transfer water into the space between the washing tub 30 and the water tank 20. It should be noted that in this case, even when the object is placed in the washing tub 30, the water supplied to the spaced portion is not brought into contact with the object to be treated using the antibacterial treatment. This in turn leads to waste and does not contribute to the antimicrobial treatment. Therefore, water can be efficiently stored to directly contribute to the antibacterial treatment. The ion dissolving unit 1 (10) provided in the washing machine according to the present embodiment combines a plurality of electrodes ι 3 and 114 for dissolving the metal ion component in water. The control unit 8G causes the metal ion component to be dissolved from the electrode in which one of the electrodes is dissolved with a smaller amount of metal ions. In order to make the electrodes 113 and 114 ^ the electrode which is equivalent to the metal ion which escapes a small amount, the electrode may be separated from the metal ion component by the first bath in the positive strip. The other electrode having a different electrode is conceived to be a plurality of metal ion components that escape from the metal ion component, and the plurality of electrodes 113 U4 supplied by the edge of the ion eliminator is exposed to the outside during the washing process. In the case of escaping the metal ion component, if it is not 10, it is configured so that the stalk is switched from the polarity of the electrodes 113 and 114 to 91818. Doc •58- 1252266 Electrodes 1 1 3 and 1 1 4 will wear as evenly as possible. However, in fact, depending on the amount of load that can be used and the amount of water, any of the electrodes 113 and 114 is prone to wear earlier than the other. For example, assuming that the electrode 113 dissolves the metal ion component earlier than the other electrode 114 during the washing process, the electrode Μ# itself is susceptible to a lesser degree of wear. Therefore, it is configured such that the control unit 8 causes the polarity of the DC power added to the electrodes η 3 and 114 to be inverted, so that the electrode (1) and the two of the two kinds of metal ions escape. The electrode is 'out of the metal ion component' earlier than the other electrode. In the above examples, the electrode process escaps a smaller amount of metal ion components. Due to this configuration, the same as causing the metal ion component to be eluted from the electrodes of the electrodes which are likely to escape a larger amount of the metal ion component during the normal sacrificial treatment, which prevents the electrode (1) And 114 uneven J wear [by this step to prevent it from being subjected to the elution of metal ions 'and h - insufficient 'and also prevent it from shortening its own lifespan. The operation instructions for controlling the start and stop of the water supply operation have thus been explained by referring to various function buttons mounted on the operation display panel 81. However, the actual choice of water supply operation is not limited to one described above. In particular, a drive button can also be provided on the drive circuit 12A to enable the drive to activate a predetermined operation that causes the supply or withdrawal of water to which the metal ions have been supplied. In addition, a -movable mechanism may be provided at a position close to the top surface plate U-^ knife or near the water supply port 53 to cause the operation to start or stop the supply by the operation and the *w teaching movement mechanism Water with & metal ions added. In addition, it can also be allowed to cause non-contact sexy such as optical sensors 91818. Doc -59· 1252266 The presence or absence of the reactor system - the container is activated to start and stop the water supply. I am configured to make the movable mechanism be placed close to the location of the water and the water. , 卩 is used to cause the movable mechanism to receive input via a switch by rotating itself when pressed, and further configured such that when the container for storing water is placed under the water supply port 53 Press (4) to turn off the water supply, and then when the switch is released, stop the water supply process. Further, in the present invention, the additional control operation is preferably performed in the case where the supply process of the above-described metal ion-added water has been selected. The preferred additional control operations are described below. In the case of cattle, the stage of taking out the washed clothes after the dehydration treatment in the normal washing routine is completed, if the user requests to apply the silver ion-added water and (4) the metal ion components respectively apply the Washing clothing, then - Weisui treatment termination, in the process of pressing the supply of silver ion water supply 207 as the standby mode (or power supply mode), the user (four) process selection button 2〇 5. It should be noted that the order of pressing the above-mentioned buttons and the supply of the water to which the silver ions have been added and the other combinations are not limited to the above examples, but additional control functions may be added to the above buttons. Optional outside. Then, since the process selects 4c of 4 205 [thth, after the drain valve 68/^ is closed, the added water is supplied to the washing tub 3〇 by a predetermined amount, and the control unit of the washing machine 1 is 80. The rinsing treatment and/or the dehydration treatment are activated. Soil; describe the configuration' as an example, if it is required to use a metal ion component in various washed objects to coat a body such as a double-short machine. Doc -60- 1252266 P knife 3 temple bellow! The metal ion component can be used to coat the washed objects _ 17 so that the user inadvertently forgets to take a predetermined step for using the metal ion group before the start of the washing process, and knowing to handle the washed object\ The treatment for the metal ion coating treatment is immediately added. In addition, when dehydration treatment is required after completion of the TiO metal ion coating treatment by the rinsing treatment, the batch burying may be additionally performed in this manner, and the control unit 80 may be configured to mainly control the supply of the added metal. Various operations of the ionic water and the temple are used to add the rinsing treatment and/or dehydration treatment to the previous metal ion sub-filtration treatment. Alternatively, a control operation for implementing a process for performing sterilization and several treatments in a dewatering tank may be added instead of performing the above process. In this case, 'requires a treatment for controlling sound, φ, 、, and ice-washing. This rinsing mode is used for washing water that has been added with metal ions. In the case of the tub 30, the washing tub 30 and/or the rotary wing are rotated. As described above, based on the supply of the silver ion-added water, the control unit 80 mainly controls the supply of silver ions: and the hunting and the above-mentioned main control operations are available. The separate control performed by one of the washers of the washing machine 1 is selected as a combination of the eucalyptus wood, and the operability of the washing machine i can be improved, and the hygienic condition of the inside of the drying machine 1 can be maintained. It also promotes the maintenance of the washing machine 1. The invention has been described in detail by reference to the preferred embodiments of the invention. It should be understood, however, that the target of the present invention is not limited to the one described above, and may be implemented by adding various changes and modifications within the scope of the essence of the invention. this invention. , 91818. Doc 61 1252266 Further, the present invention is applicable not only to the fully automatic washing machine as set forth in the above description of the above embodiment, but also to the invention including, for example, a horizontal cylinder type (roller type), tilting Various types of washing machines, type, washing machine and dryer or double layer type or the like. Advantageous features of the washing machine 1 according to the present invention can be expressed as follows. (1) A washing machine 体现 embodied by the present invention is internally loaded with an ion dissolving unit 100 which can cause a driving circuit 120 to add a DC voltage between the electrodes 113 and 114 via a plurality of electrodes 1 and 1 disposed therein. Dissolving the metal ion component, wherein the washing machine 1 is internally provided with a supply process of supplying the added metal ion water of the city water to which the metal ion component is added, wherein 'the process is selected 'the laundry W can start its operation to supply Water with metal ions added. In a conventional washing machine, the application of the antibacterial treatment is carried out as one of the successive steps of the washing treatment. For example, when the user only requires the use of antibacterial treatment to treat a minimum amount of clothing such as a floor covering, however, even in this case the user is forced to run based on predetermined sequential steps of the conventional washing program. washing machine. It is also not possible to use anti-mite finishing in a washing machine to treat any non-washable object such as a pair of shoes. However, according to the configuration of the present invention, the city water to which the metal ion component is added can be transported via a selectable operation performed by the user, and therefore, the user can immerse the object in the water to which the metal ion component is added. It is easy to use antibacterial finishing to handle any kind of object. Therefore, the user can eliminate the need to go through the entire set of washing programs. In this way, users can suppress water and electricity by eliminating wasteful consumption of energy resources. Doc -62- 1252266 can be consumed to save energy. In addition, users can quickly perform antibacterial treatment without spending a lot of time. (2) The washing machine according to the present invention is internally loaded with an ion dissolving unit J 丨 in a structure, and the engraving is carried out in the plural by loading inside The electrodes η 3 and 1 ^ are superimposed by the V-driven circuit 1 2 0 to add a DC voltage between the electrodes 11 3 and 11 4, and the metal ion component is dissolved in water. In the inside of the washing machine 1, the clothes are provided with a supply switch for supplying the water of the city to which the metal ion component is added, and the water to which the fish is added. When the switch is input, the supply of water to which the metal ion component is added is started. According to the configuration &, when the user directly inputs the water supply switch, the operation of supplying water with the metal ion component is started, thereby convincing the user that the simple method for knowing the water supply system is for manipulation and One of the advantages of the operation of the washing machine of the present invention. (7) The washing machine according to the present invention described in the first-first paragraphs (1) and (7) is characterized in that the step is characterized by a configuration which causes the supply of the water to which the present genus " genus ions has been added, upon the input of the predetermined switch. According to this configuration, the user can suspend the supply whenever necessary, and B m ^ 8 and therefore, the user can supply water added with the damage of the Meng ion group. In addition, since the user can directly stop supplying the K port to which the metal ion component is added by directly using the input switch, the user can easily understand how to start and stop the supply of the metal ion-added water. Provides ease of manipulation. (4) The washing machine 1 according to the present invention described in any of the preceding paragraphs (1), (7), and (3) is further characterized by a structure of -m 4 && λ, which results in the addition of a metal ion group The supply of water stops after a duration of m. 91818. Doc-63- 1252266 According to this configuration, the supply of water to which the metal ion component is added can be stopped after a predetermined period of time, and thus, even when the user uses both hands to fix a container such as a washbasin for receiving metal ions When the water of the component is supplied, the user does not need to be forced to release any of the hands to press the button for stopping the water supply operation. In addition, the user can continue to use his hands to fix the container containing the increased weight of water, and therefore, there is no need to worry about the water overflowing out, so that the user can safely complete the supply of the metal ion-added water. In addition, even when the user leaves the site for any reason and forgets that the water supply process is already in progress, there is no need to worry about continuing the water supply process, and therefore there is no need to worry about further causing water to overflow from the container. (5) The washing machine 1 according to the present invention described in the paragraph (4) is further characterized by a configuration which provides a plurality of time units for carrying out supply of water to which the metal ion component is added. According to the manufacturing, the user can select the duration for supplying the water to which the metal ion component is added as needed to correspond to the size of the container for receiving the water to which the metal ion component is added, and thus the user can There is no need to go through the manual steps for the repetition of the water that has been added to the input of the metal ion group via a container during the short period of the water supply, thus providing a further (6) description in the paragraph of the previous paragraph (1) = = Ming washing machine 1 into n is configured as a feature 'This configuration enables the continuous supply of water added with a metal ion component while the switch for starting to supply the water is finally in accordance with the configuration, the metal ion implant can be added in combination with the input switch supply Part of the water, and therefore, when visually confirming the actual supply situation, at the maximum of 91818. Doc -64 - !252266 It has been confirmed that the user can continue to supply water with a metal ion component before the supply of the required amount of water is stopped, thus providing a convenient convenience. [7] The washing machine 1 according to the present invention described in any of the preceding paragraphs (1) to (7) is further characterized by a configuration that allows the switch for starting the water supply to be held by the user even if it is caused by the switch for starting the water supply The supply of the metal ion component is continuously performed after the predetermined duration is set and the input switch is set. 7 According to this configuration, even in the case where the user is forced to continuously receive the water to which the metal ions are added for a long time, the user does not need to experience the physical burden caused by continuously pressing the input switch until the water supply process is completed, thereby reducing The user suffers a negative ^, thus providing a convenient step-by-step operation. (8) The washing machine 1 according to the present invention described in any of the preceding paragraphs (1) to (7) is characterized in that the structure is such that the metal ion component to be added to the water is added The density becomes visible as needed. According to this configuration, in the case where the user desires to use a highly effective antibacterial treatment to organize the washed object, the antibacterial water to which the metal ion component compatible with the high antibacterial effect desired by the user is added can be supplied. Therefore, the user can easily handle any washed object using a highly effective antibacterial treatment compatible with the desired antibacterial effect. (9) The washing machine 1 according to the present invention as described in any of the preceding paragraphs (1) to (8) further characterized by a configuration having a water for detecting the water passing through the ion dissolving unit Flow detection component of traffic, and connected to 91818. Doc-65 - 1252266, based on the results detected by the flow detecting means, allows the control member to control the density of the metal ion component of the ion bath away from the unit 1 〇 向外. Since the water of the urban water service changes depending on the geographical condition of the local area and the set position of the water storage tank, the actual flow rate in the local household is OK. According to the above configuration, however, by appropriately controlling the arrangement of the dissolved metal ion component to correspond to the flow rate of the supplied water, the metal ion component can be supplied based on the stable density independent of the flow. In this way, the user can stably receive the supplied water containing the metal ion component having the desired density, thereby enabling the user to perform stable antibacterial treatment. (10) The washing machine 1 according to the present invention described in any of the preceding paragraphs (1) to (9) is further characterized by a configuration having a water for measuring the flow of water through the oblique dissolution unit The flow rate (4) of the flow is to supply a predetermined amount of water. According to this configuration, it is possible to provide a stable amount of water to which the metal ion component is added, independently of the change in flow rate, whereby the user can stably receive a more precise amount of water to which the metal ion component is added. (11) The old-step of the washing machine according to the present invention as described in any of the preceding paragraphs (1) to (10) is characterized in that it is provided for use in the washing machine 3 or in the sink 2G The actual amount of water or water level detecting member is configured such that when the amount of water or the water level reaches a predetermined amount of water or water level, the supply of water to which metal ions are added is stopped. According to the configuration, the plate can be blindly smashed. A pre-watering or water level corresponding to the addition of metal ions to the washing machine 1 to wash the «30 or sink, and therefore, 91818. Doc -66- 1252266 The user does not need to prepare the granules individually, thus providing the required amount of water. It is only convenient for handling the steps of receiving water with added metal ions. In addition, it can be accurately supplied to the laundry according to the present invention described in the machine (the above), and the structure is characterized by the configuration of the present invention. The configuration can be selected as needed when transporting water to which metal ions have been added. Multiple water units. According to this configuration, the user can select one of the predetermined water amount units as needed to correspond to the capacity size or the required amount of water. Further operability is provided by λ because a certain amount of water that is compatible with the intended purpose of the user can be properly supplied. () The washing machine according to any one of the paragraphs of any of the first paragraphs (1) to (12) is characterized by the structure of the washing machine, which has a structure for picking up the health washing machine. ! The amount of water in the washing bucket 3g or water (4) or the amount of water in the water level is measured and measured. It is configured such that the water supply can be stopped and/or started at a predetermined amount or level of water that does not cause the water stored in the wash tub 30 or the sink 2 to escape. According to this configuration, the water stored in the sink 2G of the laundry 1 which is disposed in the outside of the washing tub 30 can be prevented from overflowing to additionally cause water to permeate the floor surface, thus making it possible for the user to use the laundry heart with peace of mind. (14) The washing machine 1 according to the present invention as described in any of the preceding paragraphs (1) to (13) is further characterized by a configuration having a function for processing in the process of washing The cleaning agent and/or the finishing agent are automatically delivered to the dispensing tank 30, and the g-technique is only a dish and supplies the metal ion-added water from the special position on the upstream side of the throwing box. . 91818. Doc -67- 1252266 Automatically transports detergent and/or finishing agent from the throwing box to the scrubbing oil during the running process. 'However, there may be occasional occurrences of residual substances (4) of detergent or finish attached to the throwing box that are not completely dissolved in the water to remain therein. On the other hand, according to the above configuration, the metal ion-added water can be supplied without the throwing box, and therefore, there is no need to worry about the residual substance of the detergent and/or the finishing agent mixed in the water to which the metal ion to be supplied is to be supplied. Thereby, the user can receive water having added metal ions. (10) The washing machine 1 according to the present invention described in any of the preceding paragraphs (1) to (10) is characterized by a _ configuration in which the drain unit of the washing machine 1 is maintained in a state in which water can be retained. According to this configuration, in order to store the metal ion-added 7jC' in the washing tub 3 of the washing machine, the user can store the metal ion-added ice in the washing tub (10) without lifting the top of the drain hose to prevent The water is drained. Therefore, the user can simply use the washing tub of the washing machine i as a container for receiving water to which metal ions have been added, thus providing further manipulation convenience 0 (16) in the previous paragraphs (1) to 4) Any of the paragraphs described in the description of the washing machine 1 according to the present invention is characterized in that the drainage unit of the washing machine 1 is maintained in a drainable state. According to this configuration, since the water from the sink of the water having received the added metal ions is directly discharged from the washing machine i, the user does not need to worry about the generation of the washing tub remaining in the washing machine 1 in the washing tub 30. 30 internal water caused by rust or stains. In addition, the user can save the need to go out 9l818. Doc -68- 1252266 requires additional dewatering for the overflow of water, thus providing further ease of handling. (17) The washing machine 1 according to the present invention described in any of the preceding paragraphs (1) to (16) is further characterized by a configuration of a washing tub 3〇, the side of the washing tub 3〇 being used for upward opening There is no through hole at all except for a single through hole through which the discharged water is allowed to pass, wherein the washing tub 3 is separated from the water tank 20 via a sealing mechanism and a valve, wherein it is configured such that it is stored in the washing tub 3 when the valve is kept closed. Water within 0 can never enter the sink 2 〇. According to this configuration, in comparison with the case where the metal ion-added water is supplied to the washing tub and the water tank 20, the above system can reduce the amount of water required to achieve the same water level as the case to be compared, in other words, reduce the water consumption. . In addition, the above configuration can eliminate the need for supplying water to which metal ions are added for the interval between the washing tub 3' of the washing machine i and the water tank 20. If water to which the metal ion component is added is added to the interval, since the antibacterial treated object cannot be immersed in the water to which the metal ion component is added, it will only cause wasteful consumption without contributing to the antibacterial treatment. Due to the above reasons, the user can efficiently store water to which metal ions have been added to effectively perform the antibacterial treatment. (18) The washing machine 1 according to the present invention as described in any of the preceding paragraphs (1) to (17) is further characterized by a configuration in which the loading is performed to separately dissolve the metal ion component during the washing process The ions of the plurality of electrodes are dissolved away from the monotium 100, wherein it is configured such that during the washing process only the amount of metal ion component that causes the one of the two electrodes to start to dissolve in water is more soluble than the other electrode Dissolve a small amount of metal ion components 91818. Doc -69- 1252266 After the start of the supply of washing water. According to the configuration, the present invention is compared with the case where the electrode which is eluted outward by a relatively large amount of metal ions by any one of the two electrodes during the normal sacrificial treatment starts to be detached. It can prevent the pair of electrodes from being unevenly worn, and also prevent the situation that the amount of the ions is insufficient, and also prevents it from shortening its own use period. Industrial Applicability: The washing machine embodied by the present invention can be effectively operated by using a specific amount of water having a metal ion component added to it compatible with the intended purpose of the user. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects and advantages of the present invention will be apparent from the description of the preferred embodiments illustrated in the appended claims. FIG. 2 is a vertical cross-sectional view of the washing machine 1 shown in FIG. 1 and the water opening; FIG. 3 is a view showing the inside of the machine shown in FIG. Partial top view of the part; Fig. 4 is a top view of the washing machine gas, and the ion dissolving unit of the mouth shown in Fig. 1; Fig. 5 is a rod along the rod shown in Fig. 4;垂直The vertical screenshot taken by Α; Figure 6 is a vertical screenshot taken along line B~B of Figure 4 as shown in Figure 4; horizontal section view; Figure 7 is the ionic dissolution unit shown in Figure 4. 91818. Doc -70- 1252266 Figure 8 is a perspective view of the electrode of the ion-dissolving unit type shown in Figure 7; Figure 9 is a diagram for driving the ion-dissolving diagram shown in Figure 7; Figure 10 shows that the polarity inversion operation of the electrode of π 卩 on the NVC 图 卩 所示 图 图 在于 在于 在于 在于 在于 在于 在于 在于 在于 在于 在于 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由(Operation of the individual component components of the executed ion; and Figure U is a top view for illustrating the operational configuration of the washing machine shown in Fig. . Early [Graphical representation of the symbol] 1 Washing machine 10 housing 11 Top surface plate 12 Back panel 13 'Base device 14 Foot device 15 Opening 16 Cover device 17 Hinge portion 20 Sink 21 Suspension device 30 Wash tub 31 Dewatering through hole 32 Ring balancer 33 Pulsator 91818. Doc 1252266 40 Drive unit 41 Motor 42 Clutch mechanism 43 Brake mechanism 44 Dehydration shaft 45 Pulsator shaft 50 Water supply valve 50a Main water supply valve 50b Secondary water supply valve 51 Connection pipe 52a Main water supply passage 52b Secondary water supply passage 53 Container-shaped water supply injection opening 53a - , pumping 54 detergent storage chamber 54a water supply injection opening 55 finishing agent storage chamber 56 water injection 埠 57 siphon 57a inner tube 57b outer tube 60 drainage hose 61, 62, 67 drain tube 63 annular diaphragm 91818. Doc -72- 1252266 64 Annular Sealing Device 65 Disc 66 Drainage Space 68 Drain Valve 69 Air Collector 70 Pipe 71 Water Level Switch 80 Control Unit 81 Operation Display Panel 100 Ion Dissolution Unit 180, 181 Filter 185 Flow Detection Member 110 housing 110a housing 110b cover device 111 water injection port 112 drainage port 113, 114 electrode 115, 116 terminal 120 drive circuit 121 AC power supply 122 transformer 123 full-wave rectifier circuit 124, 128 constant voltage circuit 9l818. Doc -73 - 1252266 125 Constant current circuit 126 Rectifier diode 127 Capacitor 129 Triode AC switch 130 Microcomputer 13 1 Alarm member 150 Electrode drive circuit 151-152 Photocoupler 160, 161 Current detection circuit 162 Voltage detection circuit 163 Photocoupler 170 Screw 171 Sealing ring 172 Watertight sealing member 173 Insulation wall 174 First sleeve 175 Second sleeve 176-178 Fork support device 201 Silver ion selection button 202 Silver ion meter 203 Silver ion Density selection button 204 Silver ion density meter 205 Process selection button 206 START button 91818. Doc -74- 1252266

207 208 209 210 211 Dl-2 D3 L Ql-4 Q5 R Silver ion water supply button / supply button with added silver ion water silver ion water supply lamp / supply lamp with added silver ion water supply time setting button The amount of water is coated and washed according to the metal ion. The strip is printed as a diode diode photodiode line transistor optoelectronic transistor resistor 91818.doc -75-

Claims (1)

1252^33106740 Patent application Chinese application for the replacement of patent scope (94 years) Pick up, apply for patent Fanyuan: 1. - Washing machine, can be washed, rinsed and de-entrained in contain ·· 乂V its special ion The dissolving unit can cause the electrode to be out of the gold input unit, and the input refers to the dry material to the material/knowledge, and the operation of the water to be supplied to the sub-component is performed; and the control member is passed through the When the input unit receives the input command, the silk dissolving unit is immediately transferred to the special "ion component" so that it can be added into the water, and the above steps are not required to be performed, and then the process can be started. The supply of water to which metal ions have been added. 2. The washing machine of the first item of the range 1 includes the water supply stop two Si 'the unit is used to instruct the control member to stop supplying the water added to the ion Wherein the control unit stops the supply of the added metal away from the water by the water supply stop indicating unit, and the control member can stop the supply of the added metal water. It The clothes machine 'in which the control member can stop the supply of the metal ion-added water after the predetermined period of time is received upon receiving the input operation 7 L early through the input. 'The washing machine of claim 1 of the patent scope, The step-by-step includes an input unit for setting the time for supplying the added metal ions; wherein the added metal is supplied from the water supply time input unit After the water supply time set by the ppt d 91818-941014.doc of the ion water and the water supply time set by the Japanese distillate, the control structure - 1252266 will stop the supply of the metal ion-added water. The washing machine of the fourth item, wherein the water supply time can be selected from a plurality of preset water supply times. 6. The washing machine according to the third aspect of the invention, further comprising: a metal ion amount input unit, which is used for setting the supply The amount of the metal ion component to be contained in the water to which the metal ion has been added; wherein the control member is adjusted from the metal ion group dissolved by the (iv) sub-dissolving unit The amount of the metal ion component is the same as the amount of the metal ion component preset by the metal ion input unit. 7. The washing machine of claim 3, further comprising: a metal ion density input unit, a density for setting a metal ion component to be contained in the supplied metal ion-added water; and a flow detecting member for precharging a flow rate of water supplied to the ion dissolving unit; wherein the control member Causing the ion-dissolving unit to dissolve the outwardly-dissolving spot by the amount of the detecting member to be compatible with the flow-specific amount of metal sub-components to ensure that one of the metal ion density input units is pre-specified Density of metal ion components. 8. The washing machine of claim 1, further comprising: a water supply input unit for setting the amount of the added metal ion water to be supplied to a washing or a sink; and grasping a measuring member for (iv) a flow rate of water supplied to the ion dissolving unit; wherein the flow detecting member detects the control member such that the duration is compatible only with the flow rate by 91818-941014.doc I2S2266 The metal ion-added water is supplied internally, thus ensuring a certain amount of supplyable water preset by the supplyable water input unit. 9. The washing machine of claim 1, further comprising: a water supply input unit for setting an amount of the added metal ion water to be supplied to the washing tub or the water tank; a measuring member' for detecting the amount of water or water level of the metal ion-added water supplied to the washing tub or the sink; wherein a specific amount of water or water level detected by the water detecting member has reached When one of the water supply amount input units is preset to supply a certain amount of water or water level compatible with the water amount, the control member stops supplying the water to which the metal ion has been added. 10. The washing machine of claim 8, wherein the supplyable water amount set by the supplyable water input unit can be selected from a plurality of supplyable water amounts previously set. 11. The washing machine of claim 3, further comprising: a water amount debt measuring member for precharging the amount of water or water level of the metal ion-added water supplied to the washing tub or the sink; When the water (four) measuring member detects that the specific water amount or water level has reached - the amount of water or water level that causes the metal ion-added water to overflow from the washing tub, the control member stops supplying the added Metal ion water. The machine further comprises: a cleaning agent in the process of the washing process. 12. The laundry throwing box according to claim 1 of the patent scope, which is used for transporting any one of 91818-941014.doc ^ 3 - and finishing agent To the washing tub; wherein the metal ion-added water is supplied via another path separate from the path through the throwing box. The washing machine of claim 1, further comprising: a drain unit for discharging water stored in the washing tub or the water tank, wherein the drain unit is maintained in a state in which water can be retained. 14. The washing machine of claim i, further comprising: a drain sheet 70' for discharging water stored in the washing tub or the water tank, wherein the drain unit is maintained in a drainable state. A washing machine according to claim 8, wherein the washing tub has a dewatering through hole opened only in an upward direction of a side surface thereof, wherein the washing tub is separated from the water tank by a sealing mechanism. 16. The washing machine of claim i, further comprising: a plurality of metal electrodes for separating the metal ion component outward; wherein the control member causes any of the electrodes to produce a smaller amount of metal The electrode of the ionic component dissolves the metal ion component outward. 91818-941014.doc 4- 12 —I, Ben—§1 内容 ί ί ί 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 中文 中文 中文 中文 中文 中文 中文 中文 中文 中文 中文 中文 中文 I? < 131 150 5 ;3 ; f J 1 Bu _iA , lr :i S" S ; 1^\ ; |^ ! D : « -Jk | 91818.DOC 1252266 No. 09310674 专利 Patent Application Chinese Drawing Replacement Page (September 93) Main Water Supply Quantity Water Supply Quantity Transformer Electrode A Electrode B Detection Current ON OFF ON OFF ON OFF ON OFF ON OFF | Τ4 ▲ ..... T2T3 W] T1 Τ2 Τ3 22 TO *◄——~►峤X~— Repeat—►! I a ik Monitor current confirmation detection current Λ Detect preset water level 91818.DOC -10-