JP6113621B2 - Washing machine - Google Patents

Description

  Embodiments described herein relate generally to a washing machine.

  Some washing machines are equipped with a sterilization device, and this sterilization device sterilizes water with ozone or the like. When bath water after bathing is supplied into a washing tub for washing, the supplied water is sterilized by a sterilization apparatus and used.

  The washing machine of the conventional configuration is configured to sterilize when water is supplied from the bathtub to the washing tub (one-pass sterilization type), or sterilized when water is circulated between the inside and outside of the washing tub. It is the structure (circulation sterilization type) In the case of the one-pass sterilization type, since the sterilization time is short, it cannot be sufficiently sterilized. In the case of the circulation sterilization type, when the detergent concentration is high as in the washing process, the detergent may be decomposed when passing through the sterilization device. The performance is reduced, and it cannot be sterilized sufficiently.

Japanese Patent No. 4869058

  Then, the washing machine which can fully disinfect the water in a washing tub is provided.

  The washing machine of the present embodiment includes a water tank for receiving water for washing clothes, a sterilization purification device for sterilizing and purifying water using ultraviolet light and a photocatalyst, and a bath water supply connected to an inlet of the sterilization purification device. And a circulating water supply channel connected to the inlet of the sterilization and purification device. And the tap water supply channel connected to the inlet of the sterilization purification device, the sterilization purification water supply channel for supplying the sterilized and purified water connected to the outlet of the sterilization purification device, A circulation pump for supplying water in the water tank to the sterilization and purification device through the circulation water supply channel.

The figure which shows the internal structure of the drum type washing machine by 1st Embodiment. Diagram showing processing details of control circuit (bath water course) Diagram showing processing contents of control circuit (tap water course) Diagram showing processing contents of control circuit (bath cleaning course) FIG. 1 equivalent view showing the second embodiment FIG. 1 equivalent diagram showing the third embodiment

Hereinafter, a plurality of embodiments will be described with reference to the drawings. In each embodiment, substantially the same components are denoted by the same reference numerals, and description thereof is omitted.
(First embodiment)
First, FIG. 1 is a longitudinal sectional view showing an overall schematic configuration of the drum type washing machine of the first embodiment. As shown in FIG. 1, the outer box 1 has a hollow square box shape having a front plate and a bottom plate, and is installed on the floor so that the bottom plate is horizontal. A water tank 2 is accommodated in the outer box 1.

  The water tank 2 receives water for washing clothes and is supported on the bottom plate of the outer box 1 via an elastic support mechanism (not shown). A drum motor (not shown) is fixed to the water tank 2 so as to be located outside the water tank 2. This drum motor has a rotating shaft protruding into the water tank 2, and a drum (not shown) is fixed to the rotating shaft of the drum motor so as to be positioned inside the water tank 2. The drum is used to put clothes, and is rotated by a drum motor.

  As shown in FIG. 1, a water supply valve 3 is fixed in the outer box 1. The water supply valve 3 has an inlet 4, a water injection outlet 5, a priming outlet 6a, and a sterilization purification outlet 6b. The inlet 4 of the water supply valve 3 is connected to a tap. The water supply valve 3 is electrically switched between a water injection state, a priming water state, a sterilization and purification state, and a closed state. In the water injection state of the water supply valve 3, tap water is discharged from the water injection outlet 5, in the priming water state of the water supply valve 3, tap water is discharged from the priming water outlet 6a. It is discharged from 6b. In the closed state of the water supply valve 3, tap water is not discharged from any of the water injection outlet 5, the priming water outlet 6a, and the sterilization purification outlet 6b.

  The water injection outlet 5 of the water supply valve 3 is connected to the detergent case 7 as shown in FIG. The detergent case 7 is for the user to put in detergent, bleach and softener, and is fixed in the outer box 1. The detergent case 7 is connected to the water tank 2 through the water inlet 8, and when the water supply valve 3 is in a water injection state, tap water enters the water tank 2 from the water inlet 5 of the water supply valve 3 through the detergent case 7 and the water inlet 8. In a state where the detergent-softening agent is poured into the detergent case 7, it is poured into the water tank 2 together with tap water.

  A bath water pump 9 is fixed in the outer box 1 as shown in FIG. This bath water pump 9 sucks up bath water in the bathtub, and has an inlet 10, a water injection outlet 11 and a priming water inlet 12. The priming water inlet 12 is connected to a priming water outlet 6 a of the water supply valve 3 through a tubular priming water passage 13 and a detergent case 7. In the priming water state of the water supply valve 3, tap water is supplied as priming water from the priming water outlet 6 a of the water feeding valve 3 into the bath water pump 9 through the detergent case 7, the priming water passage 13 and the priming water inlet 12. A check valve 14 is interposed in the priming water passage 13, and the check valve 14 prevents the bath water from flowing back from the priming water inlet 12 and the priming water passage 13 toward the detergent case 7.

  As shown in FIG. 1, a sterilization and purification unit (sterilization and purification device) 15 is disposed in the outer box 1 at a lower position than the water tank 2. The sterilization and purification unit 15 includes a cylindrical unit case 16, an ultraviolet lamp 17 provided coaxially in the unit case 16, and a photocatalyst 18 provided so that the ultraviolet lamp 17 passes through the unit case 16. And have.

  The unit case 16 is supported by the bottom plate of the outer box 1 and is held horizontally by being arranged in parallel to the bottom plate. The unit case 16 is filled with water. A bath water inlet 16a, a circulating water inlet 16b, and a tap water inlet 16c are provided at one end of the unit case 16 (left end in FIG. 1). . An outlet 16d is provided at the other end of the unit case 16 (the right end in FIG. 1).

In the sterilization and purification unit 15 having the above-described configuration, the ultraviolet lamp 17 is in a state where water such as bath water is injected into the unit case 16 through the bath water inlet 16a (circulation water inlet 16b and tap water inlet 16c). Is energized, ultraviolet light is irradiated from the ultraviolet lamp 17 to the photocatalyst 18. When the photocatalyst 18 is irradiated with ultraviolet rays, electrons in the valence band are excited on the surface of the photocatalyst 18 and move to the conduction band, so that holes are formed in the valence band and the water molecules are oxidized. Hydroxy radicals (OH radicals) are generated. At the same time, the electrons moved to the conduction band reduce water molecules to generate hydrogen peroxide (H ₂ O ₂ ). Since these generated chemical species have a strong oxidizing action, they have a high sterilizing power and a power to decompose organic matter stains. Thereby, the germs remaining in the water injected into the unit case 16 can be sterilized, and the organic contaminants remaining in the water can be decomposed. The sterilized water is discharged from the outlet 16 d of the unit case 16.

  In the present embodiment, since the ultraviolet lamp 17 is installed in a horizontal state, the dispersion of the enclosed gas in the ultraviolet lamp 17 can be kept uniform. Further, since the sterilization and purification unit 15 is disposed in the lower part of the outer box 1 of the drum-type washing machine, the lower part of the outer box 1 has less vibration of the washing machine itself, so vibrations and shakings are caused by ultraviolet lamps. 17 can be reduced. Furthermore, since the sterilization and purification unit 15 is disposed at the lower front portion in the outer box 1, maintenance is good in the event that the sterilization and purification unit 15 breaks down.

  As shown in FIG. 1, the bath water inlet 16 a of the unit case 16 is connected to the water injection outlet 11 of the bath water pump 9 through a tubular water injection passage (bath water supply channel) 21. In the operation state of the bath water pump 9, bath water in the bathtub is injected into the unit case 16 from the water injection outlet 11 of the bath water pump 9 through the water injection passage 21 and the bath water inlet 16a. The bath water flows in the unit case 16 from one end to the other end, and is discharged from the outlet 16 d of the unit case 16.

  As shown in FIG. 1, the outlet of the water tank side switching valve 22 is connected to the outlet 16 d of the unit case 16. The water tank side switching valve 22 has an inlet, a water injection outlet 23 and a detergent charging outlet 24. The water injection outlet 23 is connected to the water tank 2 via a tubular water injection passage 25, and the detergent charging outlet 24 is connected to the detergent case 7 via a tubular detergent charging passage 26. This water tank side switching valve 22 is electrically switched between the detergent charging state and the water pouring state. In the detergent charging state of the water tank side switching valve 22, water is injected into the water tank 2 from the outlet 16 d of the unit case 16 through the detergent charging outlet 24, the detergent charging passage 26, the detergent case 7, and the water inlet 8. In the water injection state of the water tank side switching valve 22, water is injected into the water tank 2 from the outlet 16 d of the unit case 16 through the water injection outlet 23 and the water injection passage 25.

  As shown in FIG. 1, a circulation pump 29 is disposed at the lower part in the outer box 1. The circulation pump 29 has an inlet 30 and an outlet 31 and is disposed below the sterilization and purification unit 15. The inlet 30 of the circulation pump 29 is connected to the lowest part of the water tank 2 through a tubular circulation passage 32. When the circulation pump 29 is in operation, the water in the water tank 2 passes through the circulation passage 32 and the inlet 30 and the circulation pump 29. After being sucked in, it is discharged from the outlet 31. A filter 33 is interposed in the circulation passage 32, and the filter 33 captures foreign matters such as lint from the water.

  As shown in FIG. 1, the outlet 31 of the circulation pump 29 is connected to the inlet of the circulation pump side switching valve 35 via a connecting pipe 34. The connection pipe 34 is formed of a material having high strength such as metal, and the circulation pump 29 and the circulation pump side switching valve 35 are mechanically connected via the connection pipe 34 so that an operator can be single. It is integrated so that it can be handled as an object. A circulation pump unit is constituted by the circulation pump 29 and the circulation pump side switching valve 35.

  As shown in FIG. 1, the circulation pump side switching valve 35 has an inlet, a sterilization outlet 37, and a bypass outlet 38. The sterilization outlet 37 is connected to the circulating water inlet 16b of the unit case 16 of the sterilization purification unit 15 via a tubular sterilization passage (circulation water supply channel) 39, and the bypass outlet 38 is connected via a tubular bypass passage 40. It is connected to the water tank 2. The circulation pump side switching valve 35 is electrically switched between the sterilized state and the bypass state. In the bypass state of the circulation pump side switching valve 35, water discharged from the outlet 31 of the circulation pump 29 is injected into the water tank 2 through the connection pipe 34, the bypass outlet 38 and the bypass passage 40. In the sterilized state of the circulation pump side switching valve 35, water discharged from the outlet 31 of the circulation pump 29 is injected into the unit case 16 through the connecting pipe 34, the sterilization outlet 37, the sterilization passage 39, and the circulating water inlet 16b. . This water flows through the unit case 16 from one end to the other end, and is discharged from the outlet 16 d of the unit case 16.

  Now, the tap water inlet 16c of the unit case 16 of the sterilization and purification unit 15 has a sterilization of the water supply valve 3 via a tubular tap water passage (tap water supply channel) 41 and a detergent case 7, as shown in FIG. It is connected to the purification outlet 6b. In the sterilization and purification state of the water supply valve 3, tap water is injected into the unit case 16 from the sterilization and purification outlet 6 b through the detergent case 7 and the tap water passage 41. This tap water flows in the unit case 16 from one end to the other end, and is discharged from the outlet 16 d of the unit case 16.

  As shown in FIG. 1, a cover 43 is attached to the front plate of the outer box 1. The cover 43 is operable between a closed state and an open state, and closes the maintenance port from the front in the closed state. This maintenance port is formed at the lower end of the front plate of the outer box 1, and the sterilization and purification unit 15, the circulation pump 29, the filter 33, and the circulation pump side switching valve 35 are in the open state of the cover 43. Maintenance is enabled by inserting a hand into the outer box 1 through the maintenance port from the front.

  A control circuit 44 is fixed in the outer box 1 as shown in FIG. The control circuit 44 electrically controls the drum motor, the water supply valve 3, the bath water pump 9, the ultraviolet lamp 17, the water tank side switching valve 22, the circulation pump 29, and the circulation pump side switching valve 35 to electrically control the inside of the drum. The clothes are to be washed and have a CPU, a ROM and a RAM. The control circuit 44 corresponds to a washing means and a tank washing means. An operation course switch and a start switch (both not shown) are connected to the control circuit 44. Each of the driving course switch and the start switch can be operated by the user. When the operation course switch is operated, the control circuit 44 selects one of the plurality of operation courses including the tap water course, the bath water course, and the tank cleaning course according to the operation content of the operation course switch. . When the start switch is operated, the control circuit 44 starts the operation course selection result.

  The control circuit 44 sequentially performs the washing process, the rinsing process 1, the intermediate dehydration process, the rinsing process 2, the intermediate dehydration process, the rinsing process 3 and the final dehydration process as the bath water course and the tap water course, respectively.

FIG. 2 shows the processing contents of the control circuit 44 when the bath water course is executed. The control circuit 44 turns on the sterilization and purification unit 15 (that is, the ultraviolet lamp 17) in step S10, drives the bath water pump 9 in step S20, supplies bath water into the aquarium 2, and supplies the bath water to the set water level. Store. In this bath water course, bath water at a set water level is stored in the water tank 2 in each of the washing step, the rinsing step 1, the rinsing step 2 and the rinsing step 3. When the bath water for the washing process is stored in the water tank 2 in the bath water course, the control circuit 44 sets the water tank side switching valve 22 to the detergent input state and the circulation pump side switching valve 35 to the bypass state. Then, the ultraviolet lamp 17 is turned on and the bath water pump 9 is started to operate. In this state, bath water is injected into the water tank 2 from the outlet 11 of the bath water pump 9 through the water injection passage 21, the sterilization purification unit 15, the detergent charging passage 26, the detergent case 7, and the water injection port 8. It is sterilized and purified by ultraviolet rays from the ultraviolet lamp 17 and chemical species (OH radical, H ₂ O ₂ ) generated by the photocatalyst 18 when passing through the inside.

  When the operation of the bath water pump 9 is started, the control circuit 44 determines whether or not the detergent charging time has elapsed. The detergent charging time is set to a time required for pouring the detergent in the detergent case 7 into the water tank 2, and when the control circuit 44 determines that the detergent charging time has elapsed, the water tank side switching is performed. The valve 22 is switched to the water injection state. In this state, bath water is injected into the water tank 2 from the outlet 11 of the bath water pump 9 through the water injection passage 21, the sterilization purification unit 15, and the water injection passage 25, and is sterilized and purified when passing through the sterilization purification unit 15. Is done. That is, in the washing process of the bath water course, the sterilized and purified bath water is stored in the water tank 2 so that the clothes in the drum are washed with the sterilized and purified bath water.

  Further, the control circuit 44 sets the water tank side switching valve 22 to the water injection state and the circulation pump side switching valve 35 to the bypass state when the bath water for the rinsing steps 1 to 3 is stored in the water tank 2 in the bath water course. And Then, the ultraviolet lamp 17 is turned on and the bath water pump 9 is started to operate. In this state, the bath water is injected into the water tank 2 from the outlet 11 of the bath water pump 9 through the water injection passage 21, the sterilization purification unit 15 and the water injection passage 25, and is sterilized and purified when passing through the sterilization purification unit 15. The That is, in each of the rinsing steps 1 to 3 of the bath water course, the sterilized bath water is stored in the water tank 2 so that the clothes in the drum are rinsed with the sterilized bath water.

  When the control circuit 44 stores the bath water at the set water level in the water tank 2 in step S20, the control circuit 44 proceeds to step S30, and whether the process currently being executed is the “washing process or rinsing process 1” or “after the rinsing process 2”. Is determined. Here, when it is determined that the “washing process or rinsing process 1”, the process proceeds to step S40, and the sterilization and purification unit 15 (ultraviolet lamp 17) is turned off. Then, it transfers to step S50, makes the circulation pump side switching valve 35 a bypass state, and transfers to step S60. Here, the operation of the circulation pump 29 is started (turned on), the water in the water tank 2 is circulated through the circulation passage 32, the filter 33, and the bypass passage 40, and the water in the water tank 2 is bathed on the clothes in the drum from above. This water circulation is performed without going through the sterilization and purification unit 15 in the off state of the ultraviolet lamp 17. Thereby, in the washing process and the rinsing process 1 of the bath water course, high concentration detergent water can be prevented from being injected into the sterilization and purification unit 15. Thereafter, when the operation of the washing process or the rinsing process 1 is completed, the process proceeds to step S70, and the operation of the circulation pump 29 is stopped (off).

  On the other hand, if it is determined in step S30 that the current process is the rinsing process 2 or later (rinsing process 2 or rinsing process 3), the process proceeds to step S80, and the circulation pump side switching valve 35 is switched to the sterilized state. Then, the process proceeds to step S90, where the circulation pump 29 is started (turned on), and the water in the water tank 2 is circulated through the circulation passage 32, the filter 33, the sterilization and purification unit 15, and the water injection passage 25. Pour the water from the top onto the clothes in the drum. This circulation of water is performed via the inside of the sterilization and purification unit 15 when the ultraviolet lamp 17 is on. Thereby, in the rinsing process 2 and the rinsing process 3 of the bath water course, the water in the water tank 2 is sterilized and purified. Thereafter, when the operation of the rinsing process 2 or the rinsing process 3 is completed, the process proceeds to step S100, the operation of the circulation pump 29 is stopped (turned off), and further the process proceeds to step S110, where the sterilization and purification unit 15 (ultraviolet lamp 17). ) Off.

  FIG. 3 shows the processing contents of the control circuit 44 when the tap water course is executed. In step S210, the control circuit 44 supplies tap water into the water tank 2 and stores the tap water in the water tank 2 up to a set water level. This tap water course stores tap water at a set water level in the water tank 2 in each of the washing step, the rinsing step 1, the rinsing step 2 and the rinsing step 3. The tap water is injected into the water tank 2 from the water injection outlet 5 of the water supply valve 3 through the detergent case 7 and the water inlet 8 when the water supply valve 3 is in a water injection state.

  When the control circuit 44 stores the tap water at the set water level in the water tank 2 in step S210, the control circuit 44 proceeds to step S220, and whether the process currently being executed is the “washing process or the rinsing process 1” or “after the rinsing process 2”. Is determined. Here, when it is determined that it is the “washing process or rinsing process 1”, the process proceeds to step S230, and the circulation pump side switching valve 35 is set to the bypass state, thereby closing the sterilization passage 39 and the bypass passage 40. Open. Subsequently, the process proceeds to step S240, and the circulation pump 29 is started (turned on).

  When the operation of the circulation pump 29 is started, in the washing process and the rinsing process 1 of the tap water course, the water in the water tank 2 is circulated between the inside and the outside of the water tank 2 through the circulation passage 32, the filter 33 and the bypass passage 40. The water in the aquarium 2 is poured onto the clothes in the drum from above. This water circulation is performed without passing through the sterilization and purification unit 15 when the ultraviolet lamp 17 is off. In this case, in each of the washing process and the rinsing process 1 of the tap water course, high-concentration detergent water containing a large amount of detergent is stored in the water tank 2, and this high-concentration detergent water is stored in the sterilization and purification unit. 15 can be prevented from being injected. Thereafter, when the operation of the washing process or the rinsing process 1 is completed, the process proceeds to step S250, where the circulation pump 29 is stopped (turned off).

  On the other hand, in step S220, when the control circuit 44 determines that the current process is the rinsing process 2 or later (rinsing process 2 or rinsing process 3), the process proceeds to step S260, and the sterilization and purification unit 15 (ultraviolet lamp 17). Turn on. Then, the process proceeds to step S270, and the sterilization passage 39 is opened and the bypass passage 40 is closed by setting the circulation pump side switching valve 35 to the sterilization state. Subsequently, the process proceeds to step S280, and the operation of the circulation pump 29 is started (ON).

  When the operation of the circulation pump 29 is started in step S280, the control circuit 44 causes the water in the water tank 2 to flow in the circulation passage 32, the filter 31, the unit case 16 (sterilization) in each of the rinsing process 2 and the rinsing process 3 of the tap water course. It circulates between the water tank 2 and the sterilization purification unit 15 through the purification unit 15) and the water injection passage 25. This circulating water is sterilized and purified when it passes through the sterilization and purification unit 15. The clothes in the drum are bathed with water that has been sterilized and purified from above. Thereafter, when the current process (rinsing process 1 or rinsing process 2) ends, the process proceeds to step S290, and the circulation pump 29 is stopped (turned off). Further, the process proceeds to step S300, where the sterilization and purification unit 15 (ultraviolet lamp 17) is turned off.

  FIG. 4 shows the processing contents of the control circuit 44 when the tank cleaning course is selected. The control circuit 44 supplies tap water to the set water level in the water tank 2 by setting the water supply valve 3 to the water injection state in step S410. Then, the process proceeds to step S420, and the sterilization and purification unit 15 (ultraviolet lamp 17) is turned on. Subsequently, the process proceeds to step S430, and the sterilization passage 39 is opened by setting the circulation pump side switching valve 35 to the sterilization state, and the water injection passage 25 is opened by setting the water tank side switching valve 22 to the water injection state. .

  Next, the process proceeds to step S440, and the control circuit 44 starts (turns on) the circulation pump 29. Thereby, the tap water in the aquarium 2 is sterilized and purified by circulating between the aquarium 2 and the sterilizing and purifying unit 15 with the ultraviolet lamp 17 turned on. The water tank 2 is circulated and washed. Thereafter, when the operation of the tank cleaning course is completed, the process proceeds to step S450, the operation of the circulation pump 29 is stopped (off), and further, the process proceeds to step S460, where the sterilization purification unit 15 (ultraviolet lamp 17) is turned off. .

  According to this embodiment having the above-described configuration, bath water is injected into the water tank 2 through the sterilization and purification unit 15, so that sterilization and purification can be performed when the bath water is poured from the bathtub into the water tank 2. Moreover, since the water in the water tank 2 is configured to circulate between the sterilization and purification unit 15 and the water tank 2, it can be sterilized and purified even when the water in the water tank 2 is circulated. Even when the sterilization and purification capacity of 15 is low, the bath water can be sufficiently sterilized.

  Further, in the washing process and the rinsing process 1, the circulation pump side switching valve 35 is set in a bypass state so that the water in the water tank 2 is circulated along the bypass passage 40. When water is high, the water in the water tank 2 can be prevented from being injected into the sterilization and purification unit 15. Thereby, it is possible to prevent the detergent component in the water from being decomposed by the ultraviolet rays, and it is also possible to prevent the detergent component in the water from being stored in the sterilization and purification unit 15. Moreover, in the rinsing process 2 and the rinsing process 3, the water in the water tank 2 is circulated through the sterilization purification unit 15 by setting the circulation pump side switching valve 35 to the sterilized state. If the concentration of the detergent in the water is not relatively high, it can be sterilized and purified while circulating the water in the water tank 2.

  Moreover, in the washing process of the bath water course, the detergent in the detergent case 7 can be poured into the aquarium 2 together with the sterilized bath water by setting the water tank side switching valve 22 to the detergent input state. Furthermore, it was set as the structure which circulates the tap water in the water tank 2 through the sterilization purification | cleaning unit 15 by making the circulation pump side switching valve 35 into a sterilization state in a tank washing | cleaning course. Thereby, since the inside of the water tank 2 can be washed with tap water purified by sterilization, the washing effect of the water tank 2 can be enhanced.

  In the tank cleaning course described above, when tap water is supplied in step S410, the water supply valve 3 is set to the water supply state, and the water tank 2 is supplied from the water injection outlet 5 of the water supply valve 3 through the detergent case 7 and the water injection port 8. The tap water was stored up to the set water level in the water tank 2 by injecting into the water tank 2, but the water supply method 1 may be changed as follows.

  In this water supply method 1, the control circuit 44 sets the water supply valve 3 to the sterilization and purification state, and taps the tap water from the sterilization and purification outlet 6 b of the water supply valve 3 through the detergent case 7 and the tap water passage 41. Inject into the unit case 16. At the same time, the control circuit 44 switches the water tank side switching valve 22 to the detergent charging outlet 24 and turns on the sterilization and purification unit 15 (ultraviolet lamp 17). Thereby, the tap water sterilized and purified by passing through the sterilization and purification unit 15 (that is, tap water containing chemical species such as generated OH radicals) is supplied to the detergent inlet 24 of the water tank side switching valve 22, By being poured into the water tank 2 from the detergent charging passage 26 and the detergent case 7 through the water injection port 8, the water is stored in the water tank 2 to the set water level.

  Thereafter, in the same manner as in the tank cleaning course described above, the circulation pump side switching valve 35 is sterilized, the water tank side switching valve 22 is set to a water injection state, and the circulation pump 29 is started to operate. The water in the tank 2 is circulated between the water tank 2 and the sterilizing and purifying unit 15 with the ultraviolet lamp 17 turned on to sterilize and purify, and the water tank 2 is circulated and washed with a stream of tap water that has been sterilized and purified.

  According to the water supply method 1 described above, since tap water poured into the sterilization and purification unit 15 contains almost no germs and organic substances, OH radicals generated by the action of ultraviolet rays and photocatalysts in the sterilization and purification unit 15 These chemical species are injected into the water tank 2 through the water tank side switching valve 22, the detergent inlet 24, the detergent inlet passage 26, the detergent case 7, and the water inlet 8 thereof while being contained in tap water. Thus, OH radicals and the like contained in tap water sufficiently remove germs and organic matter adhering to the water tank side switching valve 22, the detergent charging outlet 24, the detergent charging passage 26, the detergent case 7, the water inlet 8, and the water tank 2. Can be sterilized and decomposed. For this reason, the tank cleaning performance can be further improved.

  When the bath water or the stored water in the water tank 2 is sterilized and purified by the sterilization and purification unit 15, chemical species such as OH radicals generated by the action of ultraviolet rays and photocatalysts are generated so much in the sterilization and purification unit 15. Since there is not much quantity, it will be consumed when germs and organic matter contained in bath water or the stored water in the water tank 2 are sterilized and decomposed. For this reason, although the water discharged from the sterilization and purification unit 15 is sterilized and purified, it contains almost no OH radicals and so on. It is not directly decomposed by radicals or the like. That is, the germs and organic substances adhering to the water flow path and the water tank 2 are once included in the water passing through the water flow path and the water tank 2, and the water containing the various germs and organic substances is removed from the sterilization purification unit 15. By feeding into the inside, germs and organic substances contained in the water are sterilized and decomposed by OH radicals or the like. Therefore, the water supply method 1 described above can further sterilize and purify germs and organic substances adhering to the water flow path and the water tank 2.

  In the water supply method 1, the water tank side switching valve 22 is switched to the detergent charging outlet 24. Instead, the water tank side switching valve 22 is switched to the water injection outlet 23, and the sterilization purification unit 15 is operated. The discharged tap water (tap water containing OH radicals or the like) may be configured to be poured into the water tank 2 through the water injection outlet 23 and the water injection passage 25 of the water tank side switching valve 22 (referred to as water supply method 2). . Also in this water supply method 2, substantially the same effect as the water supply method 1 can be obtained.

  Further, in the tap water course (see FIG. 3), when the tap water is supplied to the set water level in the water tank 2 in the second and subsequent rinsing steps (step S210), the water supply method 1 or the water supply method 2 described above. You may comprise so that water may be supplied using. If comprised in this way, the water flow path and the inside of the water tank 2 can be sterilized and purified in the rinsing step.

(Second Embodiment)
FIG. 5 shows a second embodiment. In addition, the same code | symbol is attached | subjected to the same structure as 1st Embodiment. In the second embodiment, as shown in FIG. 5, a bath water pump side switching valve 51 is disposed between the outlet 11 of the bath water pump 9 and the water injection passage 21. Then, the outlet 16d of the sterilization purification unit 15 was connected to the water tank 2 via the water injection passage 25 (that is, the water tank side switching valve 22 of the first embodiment was not provided). This will be specifically described below.

  The bath water pump side switching valve 51 has an inlet 52, a detergent inlet 53 and a water inlet 54. The inlet 52 is connected to the outlet 11 of the bath water pump 9, the detergent charging outlet 53 is connected to the detergent case 7 via a tubular bypass passage 55, and the water injection outlet 54 is connected to the water injection passage 21.

  The bath water pump side switching valve 51 is electrically switched between the detergent supply state and the water injection state. When the bath water pump side switching valve 51 is in the detergent charging state, bath water is injected into the water tank 2 from the detergent charging outlet 53 through the bypass passage 55, the detergent case 7, and the water inlet 8. In the water injection state of the bath water pump side switching valve 51, the bath water is injected into the sterilization purification unit 15 through the water injection outlet 54, the water injection passage 21, and the bath water inlet 16.

  An outlet 16 d of the unit case 16 of the sterilization and purification unit 15 is connected to the water tank 2 through a water injection passage 25. Therefore, in the water injection state of the bath water pump side switching valve 51, the bath water is sterilized and purified by the sterilization purification unit 15 and injected into the water tank 2 from the outlet 16 d through the water injection passage 25.

  When the bath water for the washing process is stored in the water tank 2 in the bath water course of FIG. 3, the control circuit 44 sets the bath water pump side switching valve 51 to the detergent input state and starts the operation of the bath water pump 9. When the bath water pump side switching valve 51 is in the detergent supply state, bath water is injected into the water tank 2 through the detergent case 7 from the bypass passage 55, and the detergent in the detergent case 7 is injected into the water tank 2 together with the bath water. This bath water pump side switching valve 51 is in a state where the detergent is put into the detergent for the duration of the detergent. The control circuit 44 turns on the ultraviolet lamp 17 and switches the bath water pump side switching valve 51 to the water injection state when the detergent charging time has elapsed since the bath water pump 9 was started. In the water injection state of the bath water pump side switching valve 51, the bath water is sterilized and purified in the sterilization purification unit 15, then injected into the water tank 2 through the water injection passage 25, and sterilized and purified in the water tank 2. The bath water is stored.

  The control circuit 44 turns on the ultraviolet lamp 17 when the bath water for the rinsing steps 1 to 3 is stored in the water tank 2 in the bath water course of FIG. And the bath water pump side switching valve 51 is made into a water injection state, and the bath water pump 9 is started to operate. In the water injection state of the bath water pump side switching valve 51, the bath water is sterilized and purified in the sterilization and purification unit 15, then injected into the water tank 2, and the sterilized and purified bath water is stored in the water tank 2. Stored.

  The control circuit 44 circulates when the water in the water tank 2 is circulated between the water tank 2 and the sterilization purification unit 15 in the tap water course of FIG. 2, the bath water course of FIG. 3, and the tank cleaning course of FIG. The pump-side switching valve 35 is sterilized, and the water in the water tank 2 is circulated along the circulation passage 32, the filter 33, the sterilization passage 39, the sterilization case 15, and the water injection passage 25 when the ultraviolet lamp 17 is on. The water in the water tank 2 is circulated while being sterilized and purified by the ultraviolet light from the ultraviolet lamp 17 and the photocatalyst 18.

  The configuration of the second embodiment other than that described above is the same as the configuration of the first embodiment. Therefore, in the second embodiment, substantially the same operational effects as in the first embodiment can be obtained. In particular, according to the second embodiment, the bypass passage 55 that branches on the upstream side of the water injection passage 21 is provided, and the bath water pump side switching valve 51 is put into the detergent state so that the bath water passes through the detergent case 7 from the bypass passage 55. Since it was set as the structure poured into the water tank 2, the detergent in the detergent case 7 can be poured into the water tank 2 together with the bath water without going through the sterilization purification unit 15. Moreover, the bath water can be injected into the water tank 2 through the sterilization and purification unit 15 by pouring the bath water pump side switching valve 51 into a water-filled state.

(Third embodiment)
FIG. 6 shows a third embodiment. In addition, the same code | symbol is attached | subjected to the same structure as 1st Embodiment. In the third embodiment, in the outer box 1, as shown in FIG. 6, the sterilization and purification unit 15 is disposed above the water tank 2.

  Specifically, the bath water inlet 16 a of the sterilization and purification unit 15 is connected to the outlet 11 of the bath water pump 9 through the water injection passage 21. The circulating water inlet 16 b of the sterilizing and purifying unit 15 is connected to the sterilizing outlet 37 of the circulation pump side switching valve 35 via the sterilizing passage 39. The tap water inlet 16 c of the sterilization and purification unit 15 is connected to the sterilization and purification outlet 6 b of the water supply valve 3 through the tap water passage 41 and the detergent case 7. The outlet 16 d of the sterilization and purification unit 15 is connected to the detergent case 7 via a tubular water injection passage 61.

  The control circuit 44 turns on the ultraviolet lamp 17 when the bath water for the washing process, the rinsing process 1, the rinsing process 2 and the rinsing process 3 is stored in the water tank 2 in the bath water course of FIG. . And the circulation pump side switching valve 35 is made into a bypass state, and the operation of the bath water pump 9 is started. In the operation state of the bath water pump 9, bath water is injected into the water tank 2 through the water injection passage 21, the sterilization purification unit 15, the water injection passage 61, the detergent case 7, and the water injection port 8. Accordingly, the bath water is sterilized and purified by the ultraviolet rays and the photocatalyst 18, and the sterilized and purified bath water is stored in the water tank 2.

  The control circuit 44 is a circulation pump when the water in the water tank 2 is circulated between the water tank 2 and the sterilizer 20 in each of the tap water course of FIG. 2, the bath water course of FIG. 3, and the tank cleaning course of FIG. The side switching valve 35 is sterilized and the ultraviolet lamp 17 is turned on. In the sterilized state of the circulation pump side switching valve 35, water in the water tank 2 is injected into the water tank 2 through the circulation passage 32, the sterilization passage 39, the sterilization purification unit 15, the water injection passage 61, the detergent case 7, and the water injection port 8. Then, it is circulated while being sterilized and purified in the sterilization and purification unit 15.

  The configuration of the third embodiment other than that described above is the same as the configuration of the first embodiment or the second embodiment. Therefore, also in the third embodiment, substantially the same effect as the first embodiment or the second embodiment can be obtained. In particular, according to the third embodiment, since the sterilization purification unit 15 is disposed in the vicinity of the detergent case 7, the piping between the detergent case 7 and the sterilization purification unit 15 is short and simple, The water tank side switching valve 22 and the bath water pump side switching valve 51 can be eliminated.

(Other embodiments)
In addition to the plurality of embodiments described above, the following configuration may be added.
In 1st Embodiment or 2nd Embodiment, you may comprise so that the bath water of a set water level may be stored in the water tank 2 by the same process as a washing process in each of the rinse processes 1-3 of a bath water course. .

  In the first embodiment, the second embodiment, or the third embodiment, the tap water at the set water level is stored in the water tank 2 by setting the water supply valve 3 to the water-filled state in the final rinsing step 3 of the bath water course. You may comprise.

  In the first embodiment, the second embodiment, or the third embodiment, the circulation pump 29 and the circulation pump side switching valve 35 are integrated by integrally forming the outlet of the circulation pump 29 and the inlet of the circulation pump side switching valve 35. Also good.

  In the first embodiment, the second embodiment, or the third embodiment, the connection port may be fixed to the outer box 1 and the bath water pump 9 may be connected to the connection port outside the outer box 1. That is, the bath water pump 9 may not be built in the outer box 1.

  In the first embodiment, the second embodiment, or the third embodiment, water stored in rainwater or the like may be poured into the water tank 2 by absorbing water with a bath water pump (water absorption pump) 9 instead of bath water. That is, water stored in a water source different from the water supply may be poured into the water tank 2.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  In the drawings, 1 is an outer box, 2 is a water tank, 3 is a water supply valve, 4 is an inlet, 5 is a water injection outlet, 6a is a priming water outlet, 6b is a sterilization purification outlet, 7 is a detergent case, 9 is a bath water pump, 13 Is a priming water passage, 15 is a sterilization purification unit (sanitization purification device), 16 is a unit case, 16a is a bath water inlet, 16b is a circulating water inlet, 16c is a tap water inlet, 16d is an outlet, 17 is an ultraviolet lamp, 18 Is a photocatalyst, 21 is a water injection passage (bath water supply passage), 22 is a water tank side switching valve, 25 is a water injection passage, 26 is a detergent introduction passage, 29 is a circulation pump, 32 is a circulation passage, 34 is a connecting pipe, and 35 is a circulation. Pump side switching valve, 39 is a sterilization passage (circulation water supply passage), 40 is a bypass passage, 41 is a tap water passage (tap water supply passage), 44 is a control circuit, 51 is a bath water pump side switching valve, and 55 is A bypass passage 61 is a water injection passage.

Claims (4)

A tank for receiving water for washing clothes,
A sterilization and purification device for sterilizing and purifying water with ultraviolet rays and a photocatalyst;
A bath water supply channel connected to the entrance of the sterilization and purification device;
A circulating water supply channel connected to the inlet of the sterilization and purification device;
A tap water supply channel connected to the inlet of the sterilization and purification device;
A sterilized and purified water supply channel connected to an outlet of the sterilizing and purifying apparatus and supplying sterilized and purified water to the water tank;
A washing machine comprising: a circulation pump for supplying water in the water tank to the sterilization and purification device through the circulation water supply channel. A water supply valve for injecting tap water into the water tank;
Tank cleaning means for cleaning the water tank with tap water in the water tank,
The tank cleaning means includes
By operating the circulation pump, the water in the water tank is supplied to the sterilization and purification device through the circulating water supply channel, and the sterilized and purified water is sterilized and purified by the sterilization and purification device. The washing machine according to claim 1, wherein the washing machine is circulated so as to be returned to the water tank through a water supply channel.   The laundry according to claim 2, wherein when tap water is injected into the water tank from the water supply valve, the tap water is injected from the water supply valve into the sterilization and purification device via the tap water supply channel. Machine. A water supply valve for injecting tap water into the water tank;
Washing means for performing a rinsing step of rinsing the clothing with tap water in the water tank a plurality of times after the washing step is completed,
The washing means includes
In the second and subsequent rinsing steps, by operating the circulating pump, the water in the water tank is supplied to the sterilizing and purifying device through the circulating water supply channel, and sterilized and purified by the sterilizing and purifying device. The washing machine according to any one of claims 1 to 3, wherein the water thus circulated is returned to the water tank through the sterilized and purified water supply channel.

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