WO2009054120A2 - Machine à laver - Google Patents

Machine à laver Download PDF

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Publication number
WO2009054120A2
WO2009054120A2 PCT/JP2008/002971 JP2008002971W WO2009054120A2 WO 2009054120 A2 WO2009054120 A2 WO 2009054120A2 JP 2008002971 W JP2008002971 W JP 2008002971W WO 2009054120 A2 WO2009054120 A2 WO 2009054120A2
Authority
WO
WIPO (PCT)
Prior art keywords
mist
perforated basket
washing tub
washing machine
washing
Prior art date
Application number
PCT/JP2008/002971
Other languages
English (en)
Other versions
WO2009054120A3 (fr
Inventor
Takayuki Nakada
Hiroshi Suda
Masaharu Machi
Original Assignee
Panasonic Electric Works Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Panasonic Electric Works Co., Ltd. filed Critical Panasonic Electric Works Co., Ltd.
Priority to EP08843275A priority Critical patent/EP2215300A2/fr
Priority to US12/734,216 priority patent/US20100242547A1/en
Priority to CN200880112522A priority patent/CN101835932A/zh
Publication of WO2009054120A2 publication Critical patent/WO2009054120A2/fr
Publication of WO2009054120A3 publication Critical patent/WO2009054120A3/fr

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Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F35/00Washing machines, apparatus, or methods not otherwise provided for
    • D06F35/005Methods for washing, rinsing or spin-drying
    • D06F35/008Methods for washing, rinsing or spin-drying for disinfecting the tub or the drum

Definitions

  • This invention relates to a washing machine which is provided with an electrostatically atomizing device for generating a mist of charged minute water particles having a good effect for eliminating molds.
  • Japanese patent application publication no. 2004-194876 discloses a prior art washing machine.
  • the prior art washing machine comprises a housing, a washing tub, a perforated basket, a rotating mechanism, and a controller.
  • the washing tub is integrally incorporated in the housing.
  • the washing tub is configured to contain wash and rinse water inside of the washing tub.
  • the perforated basket is configured to contain laundry.
  • the perforated basket is rotatably mounted in the washing tub with leaving a space between the washing tub and the perforated basket.
  • the perforated basket is rotated by the rotating mechanism.
  • the rotating mechanism is mounted underneath the washing tub.
  • the rotating mechanism includes a motor and a shaft.
  • the shaft is coupled to a bottom of the perforated basket.
  • the motor is configured to rotate the shaft, thereby rotating the perforated basket.
  • the motor is configured to move by receiving an electrical power.
  • the controller controls an operation of the washing machine.
  • the other type of the washing machine further comprises a dryer.
  • the washing machine is supplied with the water from a spout.
  • the water from the spout is contained in the washing tub.
  • the perforated basket with laundry is rotated by the rotating mechanism, so that the clothes are washed and rinsed. After washing and rinsing the clothes, the water in the washing tub is drained by way of the drainage. Then, the perforated basket is rotated by the rotating mechanism, so that the clothes are spin dried.
  • the spin dried laundry is dried by the dryer.
  • the space is formed between the washing tub and the perforated basket. Therefore, the water is remained on an inside of the washing tub and on an outside of the perforated basket. In addition, the water is also remained at inner circumference surface of perforations of the perforated basket. The remained water causes a growth of the mold. The mold is collected on the inside of the washing tub, the outside of the perforated basket, and the perforations of the perforated basket. Even in the other type of the washing machine having the dryer, it is difficult to prevent the growth of the molds by drying off the water in the washing tub. In addition, it is not enough to eliminate the molds by means of drying the inside of the washing tub and the outside of the perforated basket. Disclosure of Invention
  • This invention is achieved to solve the above problem.
  • the object of this invention is to sterilize and deodorize the space between the perforated basket and the washing tub and to eliminate the molds on the washing rub and the perforated basket.
  • the washing machine in accordance with the present invention comprises a housing with a washing tub, a perforated basket, and a rotating mechanism.
  • the washing tub is formed with a tub opening.
  • the perforated basket is mounted in the washing tub with leaving a space around the perforated basket.
  • the perforated basket is configured to rotate relative to the washing tub.
  • the rotating mechanism is provided for rotating the perforated basket when washing and spin drying.
  • the feature of the invention resides in that the washing machine further comprises an electrostatically atomizing device and a duct.
  • the electrostatically atomizing device is mounted to the housing.
  • the electrostatically atomizing device is configured to electrostatically atomize water for generating a mist of charged minute water particles.
  • the duct extends from the electrostatically atomizing device to supply the mist into the space.
  • the electrostatically atomizing device generates the mist of the charged minute water particles.
  • the mist of the charged minute water particles is sent into the washing tub and the space between the perforated basket and the washing tub.
  • the mist of the charged minute water particles deodorizes and sterilizes the space and inner circumference surfaces of perforations.
  • the mist of the charged minute water particles eliminates the molds on the washing tub and the perforated basket. Therefore, it is possible to obtain the washing machine without the molds on an inside of the washing tub, an outside of the perforated basket, and the perforations of the perforated basket, while deodorizing and sterilizing the space and perforations.
  • the washing tub is formed with a mist inlet which is connected to the first duct.
  • the washing machine further comprises a drain valve and a controller.
  • the drain valve is configured to drain the water from the washing tub.
  • the controller is configured to provide a spin dry mode of rotating the perforated basket with the drain valve opened for draining the water from the washing tub.
  • the controller is configured to permit the electrostatically atomizing device to generate the mist of the charged minute water particles and is configured to rotate the perforated basket subsequent to the spin dry mode.
  • the washing machine further comprises a shutter.
  • the shutter is configured to open and close the mist inlet.
  • the shutter is configured to open, only while the electrostatically atomizing device generates the mist.
  • the water in the washing tub never flows to the electrostatically atomizing device.
  • the electrostatically atomizing device it is possible for the electrostatically atomizing device to send the mist into the washing tub when the electrostatically atomizing device generates the mist of the charged minute water particles.
  • the washing machine further comprises a second duct.
  • the second duct is configured to supply the mist to an inside of the perforated basket.
  • the second duct is provided with a duct opening disposed in closely adjacent relation with the tub opening.
  • the mist of the charged minute water particles is also sent to the inside of the perforated basket. Therefore, it is possible to supply the mist of the charged minute water particles to the spin dried laundry and the heat dried laundry.
  • the mist of the charged minute water particles in the perforated basket adheres to the spin dried laundry and the heat dried laundry. That is, the laundry in the perforated basket is deodorized and sterilized by the mist of the charged minute water particles.
  • Fig. 1 shows a sectional side view of the washing machine in a first embodiment
  • Fig. 2 shows a sectional side view of the washing machine in a second embodiment
  • FIG. 3 shows a sectional side view of the electrostatically atomizing device being incorporated into the washing machine in the first and the second embodiment
  • FIG. 4 shows a simplified flow-sheet of the washing machine in the first embodiment
  • FIG. 5 shows a simplified flow-sheet of the washing machine in the second embodiment. Best Mode for Carrying Out the Invention
  • Fig. 1 shows a washing machine of a first embodiment in this invention.
  • X direction shows a front side of the washing machine and Y direction shows an upper side of the washing machine.
  • the washing machine in this invention comprises a housing 100, a perforated basket 200, a rotating mechanism 300, and an electrostatically atomizing device 400.
  • the washing machine further comprises a dryer and a controller which are not shown in the drawings.
  • the washing machine is configured to receive an electric power from an outside electric power source through a power wire (not shown).
  • the controller controls the operation of the washing machine.
  • the housing 100 has a washing tub 110, a water supply path 180, a door opening
  • the washing tub 110 is provided for containing the water.
  • the washing tub 110 is formed into cylindrical shape and is formed at its front end with a tub opening 120 and its rear end with a bottom 130.
  • the washing tub is disposed to have its axis inclined from a horizontal plane.
  • the washing tub 110 is formed with a mist inlet 140.
  • the washing tub 110 is provided with a shutter 150.
  • the shutter 150 is configured to prevent the water from flowing to the electrostatically atomizing device 400.
  • the shutter 150 is configured to open and close the mist inlet 140.
  • the shutter is controlled by the controller to open and close the mist inlet 140.
  • the door 160 is configured to open and close the door opening 170.
  • the door opening 170 is formed to communicate with the tub opening 120 to pass laundry into the perforated basket 200.
  • the water supply path 180 is provided for supplying the water to the washing tub 110.
  • the water supply path 180 is provided with a water supply valve 181.
  • the water supply valve 181 is configured to open and close to pour the water into the washing tub and stop supplying the water to the washing tub.
  • the drain 182 is provided with a drain valve 183.
  • the drain valve 183 is configured to open and close to drain the water and stop draining the water from the washing tub 110.
  • the first duct 141 is arranged to connect a tip of the atomizing barrel to the washing tub 110.
  • the first duct 141 has its one end fixed to the mist inlet 140. Therefore, the electrostatically atomizing device 400 is connected to the washing tub 110 through the first duct 141.
  • the perforated basket is provided for washing the laundry.
  • the perforated basket is formed to have its inside where laundry and detergent are put into.
  • the perforated basket 200 is formed to have a cylindrical shape, an axis, and perforations.
  • the perforated basket has its one end with a bottom and its other end with a basket opening 210.
  • the perforated basket 200 is mounted in the washing tub 110 and to make a space cooperative with the washing tub 110. Therefore, the perforated basket 200 is mounted in the washing tub 110 with leaving a space 500 around the perforated basket 200 and is inclined from the horizontal plane.
  • the perforated basket 200 is configured to rotate relative to the washing tub 110.
  • the perforated basket 200 is mounted to have its bottom facing to the bottom of the washing tub 110.
  • the rotating mechanism 300 has a motor 310 and a shaft 320 having its one end being held by the motor 310.
  • the shaft is rotated by the motor 310.
  • the shaft has its other end being fixed with the bottom 220 of the perforated basket 200. Therefore, the perforated basket 200 is rotated by the motor 300.
  • the dryer is for drying the laundry in the perforated basket 200.
  • the dryer includes a heater and a fan.
  • the dryer is connected to the outside of the washing machine through the intake duct which is not shown.
  • the dryer is connected to the washing tub through air outlet which is not shown.
  • the fan is configured to send the air from the heater to the washing tub 110. In this way, the air flows from the outside of the housing through the heater to the washing tub 110. Consequently, the air heated by the heater is sent to the washing tub 110.
  • the dryer is capable of sending air which is not heated without using the heater.
  • Fig. 3 shows the electrostatically atomizing device 400 employed in this washing machine.
  • the electrostatically atomizing device is provided for generating a mist of charged minute water particles.
  • the electrostatically atomizing device 400 includes an emitter electrode 410, an opposed electrode 420, an atomizing barrel 430, a high voltage source 440, and a Peltier module 450.
  • the atomizing barrel 430 is formed into a tube-shape.
  • the atomizing barrel incorporates the emitter electrode 410, the opposed electrode 420, and the Peltier module 450.
  • the atomizing barrel 430 is formed at its circumference wall with apertures 431.
  • the atomizing barrel 430 has the apertures 431 which are configured to pass the air from the outside of the atomizing barrel 430.
  • the atomizing barrel 430 is connected to the other end of the first duct 141.
  • the emitter electrode 410 is formed into a pole shape and to have an axis.
  • the emitter electrode 410 is disposed at an inside of the atomizing barrel 430 and to have the axis aligned to an axial direction of the atomizing barrel 430.
  • the emitter electrode 410 is formed at its tip with an emitter end 411 and its rear end with a flange 412.
  • the opposed electrode 420 is formed into a ring shape with a circular window 421.
  • the opposed electrode 420 is held at a tip of the atomizing barrel 430. Therefore, the opposed electrode 420 is disposed at an opposed relation to the emitter electrode 410.
  • the opposed electrode is formed with the circular window 421 which is configured to flow the air from the inside of the atomizing barrel to the outside of the atomizing barrel.
  • the high voltage source 440 is configured to apply a high voltage between the emitter electrode 410 and the opposed electrode 420 so as to generate the high electric field between the emitter electrode 410 and the opposed electrode 420.
  • the high voltage source 440 includes a transformer to apply a predetermined voltage between the emitter electrode 410 and the opposed electrode 420.
  • the high voltage source is configured to apply a negative voltage (e.g. -4.6kV) to the emitter electrode 410.
  • the opposed electrode 420 is grounded.
  • the Peltier module 450 includes a pair of electrically conductive circuit plate 45 IA, 45 IB and a plurality of thermoelectric conversion elements 452.
  • the conductive circuit plate 45 IA, 45 IB is made of electrical insulation material such as alumina and aluminum nitride.
  • the thermoelectric conversion elements 452 are made of a thermoelectric conversion material such as Bi Te based.
  • a plurality of the thermoelectric conversion elements 452 are arranged in parallel between the electrically conductive circuit plate 45 IA and the electrically conductive circuit 45 IB.
  • the conductive circuit plate 45 IA and 45 IB is configured to be energized from a power source not shown in the drawings, so that a voltage is applied to the thermoelectric conversion elements 452.
  • the Peltier module 450 has the conductive circuit plate 45 IA as a cooling side and the conductive circuit plate 45 IB as a heat radiating side.
  • the Peltier module 450 is thermally coupled to the flange 412 of the emitter electrode 410 through a cooling plate 460. Therefore, the Peltier module 450 is configured to cool the emitter electrode 410 when the conductive circuit plate 45 IA is cooled.
  • the conductive circuit plate 45 IB is coupled to a heat radiating fin 470. Therefore, heat of the conductive circuit plate 45 IB transfers to the heat radiating fin 470 when the conductive circuit plate 45 IB is heated.
  • the heat radiating fin 470 is configured to be cooled by the air which flows from the outside of the housing 100.
  • the electrostatically atomizing device 400 is incorporated into the housing 100 to have the heat radiating fin 470 which is exposed to the air flow. Therefore, the heat radiating fin 470 is immediately cooled by the air from the outside of the housing 100.
  • the electrostatically atomizing device 400 generates the mist of the charged minute water particles as follows.
  • the Peltier module 450 is energized by the power source, so that the voltage is applied to the thermoelectric conversion elements. Then the thermoelectric conversion elements transfer the heat from the conductive circuit plate 45 IA to the conductive circuit plate 45 IB. Consequently, the thermoelectric conversion element 452 cools the conductive circuit plate 45 IA.
  • the cooling plate 460 which is thermally coupled to the conductive circuit plate 45 IA is cooled.
  • the cooling plate 460 is thermally coupled to the flange 412 of the emitter electrode 410. Therefore, the emitter electrode 410 is cooled by the cooling plate 460.
  • the Peltier module 450 cools the emitter electrode 410 which are thermally coupled by the cooling plate 460. So, a cooled emitter electrode 410 condenses vapor within surrounding the air into the water on the surface of the emitter electrode 410. In this way, the water is supplied to the emitter electrode 410, thereby supplied to the emitter end 411.
  • the emitter electrode 410 is formed to have a porous structure. In this case, the water supplied to the emitter electrode 410 is moved to the emitter end 411 by the capillary action.
  • the high voltage source 440 is configured to apply a high voltage between the emitter electrode 410 and the opposed electrode, so that the high voltage electrical field is generated between the emitter electrode 410 and the opposed electrode 420.
  • the high electrical field pulls the water which is held on the emitter end 411 toward the opposed electrode 420.
  • the electrical field forms a Taylor cone at the water held on the emitter electrode 410.
  • the high electrical field causes a high concentration of the electrical charge at the tip of the Taylor cone so as to cause a high Coulomb force at the tip of the Taylor cone.
  • breakups are caused at the tip of the Taylor cone.
  • the break up is so-called Rayleigh Breakup.
  • the mist of the charged minute water particles of nanometer sizes is generated from the Taylor cone of the water which is held on the emitter end 411.
  • the mist of the charged minute water particles of nanometer sizes is negatively charged by the emitter electrode 410 applied with the negative voltage.
  • the mist of the charged minute water particles of nanometer sizes is carried by an ion wind which flows from the emitter electrode 410 to the opposed electrode 420 and is discharged through the circular window 421 of the opposed electrode 420.
  • the mist of the charged minute water particles has small diameters of about nanometer sizes. Therefore, the mist is capable of spreading and floating in the air over an extended time period, thereby adhering to substances.
  • the mist of the charged minute water particles of nanometer sizes includes radicals. Therefore, the mist of the charged minute water particles of nanometer sizes has deodorizing effect and sterilizing effect. Furthermore, the mist of the charged minute water particles has effect of eliminating molds.
  • this electrostatically atomizing device 400 is disposed in the housing 100.
  • the electrostatically atomizing device has the atomizing barrel 430 being connected with the washing tub 110 by way of the first duct 141.
  • the housing 100 comprises a fan 143.
  • the fan 143 is configured to flow the air from an air flow path 144 through apertures 431 and the first duct 141 to the washing tub 110. That is, the fan 143 is configured to send the air from the outside of the atomizing barrel 430 through the apertures 431 to the inside of the atomizing barrel 430.
  • the air in the atomizing barrel 430 with the mist of the charged minute water particles flows from the inside of the atomizing barrel 430 through the circular window 421 to the outside of the atomizing barrel 430. Therefore, the mist of the charged minute water particles is carried to the washing tub 110 through the first duct 141 and the mist inlet 140.
  • the mist of the charged minute water particles is generated by the electrostatically atomizing device 400.
  • the mist of the charged minute water particles is carried from the atomizing barrel 430 to the space 500 between the washing tub 110 and the perforated basket 200 by the air flow caused by the fan 143.
  • the mist of the charged minute water particles adheres to the molds on the inside of the washing tub, the outside of the perforated basket, and the perforations of the perforated basket 200.
  • the mist of the charged minute water particles includes the radicals. Therefore, the radicals of the mist eliminate the molds. That is, it is possible to obtain the washing machine which is configured to eliminate molds on the inside of the washing tub 110 and the outside of the perforated basket 200.
  • the controller is configured to provide a washing mode, a spin dry mode, a heat dry, and a washing tub cleaning mode.
  • the washing mode is for washing and rinsing the laundry.
  • the spin dry mode is for spin drying the laundry.
  • the heat dry mode is for heat drying a spin dried laundry.
  • the washing tub cleaning mode is for eliminating the molds on the inside of the washing tub 110, the outside of the perforated basket 200 and the perforations of the perforated basket 200.
  • Each of the modes is performed on the basis of the mode that users select via a control panel not shown in the drawings.
  • the washing machine is configured to separately perform one of the above modes.
  • the washing machine washes the laundry as follows.
  • the washing machine has an initial condition that the water supply valve 181, the drain valve 183, and the shutter 150 are closed.
  • the laundry and the detergent are put in the perforated basket 200 in advance, and subsequently the washing mode is selected via the operation panel.
  • the water supply valve 181 is opened by the controller, so that the water is supplied to the washing tub 110.
  • the water supply valve 181 is closed and the perforated basket 200 is rotated by the controller. In this way, the washing machine starts a washing of the laundry by rotating the perforated basket 200. After finish washing the laundry, the laundry is rinsed.
  • the washing machine spin dries a wet laundry as follows.
  • the drain valve 183 is opened by the controller, so that the water in the washing tub 110 is drained through the drain 182.
  • the controller is configured to recognize a finish of draining the water after the elapse of a sufficient time for draining the water from the washing tub 110.
  • the controller is also possible to employ the controller being configured to recognize a finish of draining the water by other means.
  • the washing tub 110 further comprises a water level detector for detecting a water level in the washing tub 110.
  • the water level detector is configured to detect a condition that there is no water in the washing tub, and is configured to generate the signal when the water level detector detects the above condition.
  • the controller is configured to recognize a finish of draining the water in accordance with the condition that there is no water in the washing tub 110. After a finish of draining the water, the controller controls the rotating mechanism to rotate the perforated basket 200. Therefore, the water is extracted from the laundry, so that the laundry is spin dried. That is, the washing tub 110 contains no water and the laundry is spin dried.
  • the washing machine dries a spin dried laundry as follows.
  • the drain valve 183 is closed with starting the dryer by the controller.
  • the air flows from the outside of the housing to the heater according to the start of the fan of the heater.
  • the air reached to the heater is heated and is sent to the washing tub 110 by the air flow that the fan causes.
  • the controller further controls the rotating mechanism 300 to rotate the perforated basket 200, so that the hot air is uniformly spread to the entire perforated basket.
  • the heated air is supplied to the laundry. In this way, the laundry is dried by the hot air.
  • the washing machine performs as follows.
  • the controller controls the electrostatically atomizing device 400 to generate the mist of the charged minute water particles and controls the fan 143 to send the air from the outside of the housing 100 to the washing tub 110.
  • the controller controls the shutter 150 to open the mist inlet 140.
  • the controller controls the rotating mechanism 300 to rotate the perforated basket 200.
  • the mist of the charged minute water particles is generated by the electrostatically atomizing device 400.
  • the mist of the charged minute water particles rides on the air flow generated by the fan 143 and is sent to the washing tub 110 through the first duct 141.
  • the mist of the charged minute water particles reached to the space 500 rides on an air flow which is generated by the rotation of the perforated basket 200.
  • the mist of the charged minute water particles is filled in the space 500.
  • the mist of the charged minute water particles adheres to the molds on the inside of the washing tub 110 and the outside of the perforated basket 200.
  • the mist of the charged minute water particles adheres to the molds at the inner circumference surface of the perforations of the perforated basket 200. Consequently, the molds are eliminated by the mist of the charged minute water particles.
  • the controller controls the electrostatically atomizing device 400 to stop generating the mist and controls the shutter 150 to close the mist inlet after the elapse of a predetermine period of time.
  • the controller opens the drain valve 183 to drain the water and controls the water supply valve 181 to stop supplying the water to the washing tub as a first step.
  • the controller controls the washing machine to perform the washing tub cleaning mode.
  • the controller is configured to recognize a finish of drainage after the elapse of a predetermined period of time.
  • the washing machine further comprises a water level detector which is configured to detect the water level in the washing tub 110 and which is configured to generate a signal when there is no water in the washing tub 110. With this configuration, it is also possible to obtain the controller which is configured to recognize the finish of drainage by receiving the signal.
  • the washing machine with the above configuration comprises the shutter 150.
  • the controller controls the shutter 150 to open the mist inlet 140 only when the electrostatically atomizing device 400 generates the mist of the charged minute water particles. Therefore, the water in the washing tub never flows to the electrostatically atomizing device 400. With this arrangement, it is possible to prevent the accident of the electrostatically atomizing device.
  • the mist of the charged minute water particles spreads to the entire portion of the space 500.
  • the mist of the charged minute water particles adheres to the molds on the inside of the washing tub 110 and the outside of the perforated basket 200. Consequently, the mist of the charged minute water particles eliminates the molds on the inside of the washing tub 110 and the outside of the perforated basket 200. In this way, the inside of the washing tub 110 is cleaned by the mist of the charged minute water particles.
  • the washing machine in this embodiment comprises the electrostatically atomizing device which has above mentioned elements.
  • the energized emitter electrode has a high potential.
  • other substances in the housing is not energized by the high voltage source. Therefore, there is a difference in electrical potentials between the emitter electrode 400 and the other substances.
  • the mist of the charged minute water particles is generated from the water on the emitter electrode 400.
  • an electrostatically atomizing device having a water supply tank as a water supply means instead of the Peltier module.
  • the water supply tank is configured to supply the water to the emitter electrode.
  • FIG. 2 shows a second embodiment of the washing machine in this invention.
  • the washing machine of this embodiment comprises almost the same elements shown in the first embodiment excepting features shown in this embodiment. Therefore, the elements same as the first embodiment are not explained in this embodiment.
  • the elements same as the first embodiment are shown by the same numerals with a suffix letter of "B".
  • the washing machine in the second embodiment comprises a housing 10OB, a perforated basket 200B, a rotating mechanism 300B, and an electrostatically atomizing device 400B.
  • the washing machine further comprises a dryer and a controller which are not shown in the drawings.
  • the washing machine is configured to receive an electric power from an outside electric power source through a power wire (not shown).
  • the controller controls the rotating mechanism 300B and the electrostatically atomizing device 400B.
  • the housing IOOB further has a second duct 145B and a directional control valve 146B.
  • the directional control valve 146B is arranged at the mid portion of the first duct 14 IB. Therefore, the first duct 14 IB is branched by the directional control valve 146B.
  • the second duct 145B has its one end connected to the directional control valve 146B.
  • the second duct 145B is provided for supplying the mist of the charged minute water particles into the perforated basket 200B.
  • the second duct 145B is formed at its other end with a duct opening 147B.
  • the second duct 145B is disposed to have the duct opening 147B being located at the tub opening 120B. That is, the second duct 145B is provided with the duct opening 147B disposed in closely adjacent relation with the tub opening 120B.
  • an electrostatically atomizing device 400B is connected to the inside of the perforated basket 200B via the second duct 145B.
  • the housing IOOB further comprises a shutter 15 IB.
  • the shutter 15 IB is configured to prevent the water from flowing to the electrostatically atomizing device 400B through the second duct 145B.
  • the shutter 15 IB is controlled by the controller to open and close the duct opening 147B.
  • the directional control valve 146B is controlled by the controller to pass and stop passing the mist of the charged minute water particles.
  • the directional control valve 146B is moved into a first position, a second position, and a third position.
  • the directional control valve 146B is positioned to open the first duct 14 IB and to close the second duct 145B. Therefore, the electros equipically atomizing device 400B is connected to the space 500B.
  • the directional control valve 146B is in the second position, the directional control valve 146B is positioned to close the first duct 14 IB and to open the second duct 145B.
  • the electrostatically atomizing device 400B is connected to the inside of the perforated basket 200B.
  • the directional control valve When the directional control valve is in the third position, the directional control valve 146B is positioned to open each of the first duct 141B and the second duct 145B. Therefore, the electrostatically atomizing device 400B is connected to each of the space and the inside of the perforated basket 200B.
  • the washing machine with above arrangement is capable of connecting the electrostatically atomizing device 400B to the inside of the perforated basket 200B by positioning the directional control valve 146B to the second position. Therefore, the mist of the charged minute water particles is generated by the electrostatically atomizing device.
  • the mist of the charged minute water particles is carried from the electro- statically atomizing device 400B to the inside of the preforated basket 200B by the air flow from the outside of the housing IOOB through the second duct 145B to the inside of the perforated basket 200B.
  • the mist of the charged minute water particles in the perforated basket adheres to the laundry, thereby deodorizing and sterilizing the laundry.
  • the controller is also configured to provide a washing tub cleaning mode.
  • the washing machine is performed as follows.
  • the controller controls the electrostatically atomizing device 400B to generate the mist of the charged minute water particles and controls the fan 143B to send the air from the electrostatically atomizing device 400B to the washing tub HOB.
  • the controller controls the shutter 150B to open the first duct 14 IB.
  • the controller controls the shutter 15 IB to close the duct opening 147B.
  • the controller controls the directional control valve 146B to position the first position.
  • the controller controls the rotating mechanism 300B to rotate the perforated basket 200B. In this case, the mist of the charged minute water particles is generated by the electrostatically atomizing device 400B.
  • the mist of the charged minute water particles rides on the air flow generated by the fan 143B and is sent to the washing tub HOB through the first duct 14 IB.
  • the mist of the charged minute water particles reached to the space 500B rides on the air flow which is generated by the rotation of the perforated basket 200B. In this way, the mist of the charged minute water particles is filled in the space 500B.
  • the mist of the charged minute water particles adheres to the molds on the inside of the washing tub HOB and the outside of the perforated basket 200B. Furthermore, the mist of the charged minute water particles adheres to the mold at the inner circumference surface of the perforations of the perforated basket 200B. Consequently, the molds are eliminated by the mist of the charged minute water particles.
  • the controller controls the drain valve 183B to drain the water as a first step. After the first step, the controller controls the washing machine to perform the mold elimination mode.
  • the controller is configured to recognize a finish of drainage after the elapse of a predetermined period of time.
  • the washing machine further comprises a water level detector which is configured to detect the water level in the washing tub HOB and which is configured to generate a signal when there is no water in the washing tub 110 B. With this configuration, it is also possible to obtain the controller which is configured to recognize the finish of drainage by receiving the signal.
  • the controller is configured to further provide a deodorizing mode in addition to the washing mode, the spin dry mode, the heat dry mode, and the washing tub cleaning mode.
  • the deodorizing mode is for deodorizing and sterilizing the dried laundry or the spin dried laundry.
  • the washing machine performs as follows.
  • the controller controls the electrostatically atomizing device to generate the mist of the charged minute water particles and controls the fan 143B for sending the air from the electrostatically atomizing device 400B to the inside of the perforated basket 200B.
  • the controller controls the shutter 150B to close the mist inlet 140B.
  • the controller controls the shutter 15 IB to open the duct opening 147B.
  • the controller controls the directional control valve 146B to position the second position. Therefore, the mist of the charged minute water particles is generated by the electrostatically atomizing device 400B.
  • the mist of the charged minute water particles is sent to the inside of the perforated basket 200B through the second duct 145B.
  • the mist of the charged minute water particles reached to the inside of the perforated basket 200B adheres to the laundry which is dried or spin dried. In this way, the laundry is deodorized and sterilized by the mist of the charged minute water particles.
  • the controller controls the rotating mechanism 300B to rotate the perforated basket 200B when the mist of the charged minute water particles is supplied to the inside of the perforated basket 200B. In this case, it is possible to obtain the washing machine which is capable of deodorizing and sterilizing the laundry evenly.
  • the washing machine further comprises a heater for heating the air generated by the fan 143B.
  • the fan 143B is capable of sending a heated air through the atomizing barrel 430B to the inside of the perforated basket 200B.
  • the electrostatically atomizing device 400B generates a small amount of ozone in addition to the mist of the charged minute water particles.
  • the heated air accelerates the breakdown of the ozone.
  • the controller is configured to provide a wash program and a wash and dry program.
  • Fig. 4 shows the wash and dry program.
  • the wash and dry program includes the washing mode, the spin dry mode, the heat dry mode, and the deodorizing mode. Therefore, the washing machine is configured to perform each of the modes in series in the wash and dry program. Consequently, the heat dried laundry is deodorized by the mist of the charged minute water particles.
  • Fig. 5 shows the wash program.
  • the wash program includes the washing mode, the spin dry mode, and the deodorizing mode. Therefore, the washing machine is configured to perform each of the modes in series in the wash program. Consequently, the spin dried laundry is deodorized by the mist of the charged minute water particles. Therefore, it is possible to obtain the washing machine which is configured to deodorize and sterilize the laundry by the mist of the charged minute water particles and which is configured to eliminate the molds on the inside of the washing tub and the outside of the perforated basket.
  • the controller controls the directional control valve 146B at the third position in the washing tub cleaning mode.
  • the controller controls the shutter 150B and the shutter 15 IB to open the mist inlet 14B0 and the duct opening 147B, respectively. Consequently, it is possible to supply the mist of the charged minute water particles to the space 500B through the first duct 14 IB and to the inside of the perforated basket 200B through the second duct 145B. That is, it is possible to obtain the washing machine which has the washing tub being filled with the mist of the charged minute water particles when the washing machine is performed in the washing tub cleaning mode.
  • the controller controls the directional control valve 146B at the third position in the deodorizing mode.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Detail Structures Of Washing Machines And Dryers (AREA)
  • Accessory Of Washing/Drying Machine, Commercial Washing/Drying Machine, Other Washing/Drying Machine (AREA)
  • Main Body Construction Of Washing Machines And Laundry Dryers (AREA)

Abstract

Cette invention concerne une machine à laver comprenant un logement équipé d'une cuve de lavage, d'un mécanisme rotatif, d'un panier perforé et d'un dispositif d'atomisation électrostatique. Le panier perforé est monté de manière rotative dans la cuve de lavage avec des espaces vides ménagés entre le panier perforé et la cuve de lavage. Le dispositif d'atomisation électrostatique est conçu pour générer une bruine de minuscules particules d'eau. La machine à laver est conçue pour acheminer la bruine de minuscules particules d'eau vers l'espace, de sorte que ce dernier soit rempli avec la bruine. Ce mode de réalisation permet d'éliminer les moissusures à l'intérieur de la cuve de lavage ainsi qu'à l'extérieur du panier perforé grâce au dispositif d'atomisation électrostatique.
PCT/JP2008/002971 2007-10-22 2008-10-20 Machine à laver WO2009054120A2 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
EP08843275A EP2215300A2 (fr) 2007-10-22 2008-10-20 Machine à laver
US12/734,216 US20100242547A1 (en) 2007-10-22 2008-10-20 Washing machine
CN200880112522A CN101835932A (zh) 2007-10-22 2008-10-20 洗衣机

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2007274237A JP4886652B2 (ja) 2007-10-22 2007-10-22 洗濯機
JP2007-274237 2007-10-22

Publications (2)

Publication Number Publication Date
WO2009054120A2 true WO2009054120A2 (fr) 2009-04-30
WO2009054120A3 WO2009054120A3 (fr) 2009-07-16

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Application Number Title Priority Date Filing Date
PCT/JP2008/002971 WO2009054120A2 (fr) 2007-10-22 2008-10-20 Machine à laver

Country Status (6)

Country Link
US (1) US20100242547A1 (fr)
EP (1) EP2215300A2 (fr)
JP (1) JP4886652B2 (fr)
CN (1) CN101835932A (fr)
TW (1) TW200938685A (fr)
WO (1) WO2009054120A2 (fr)

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US20080236208A1 (en) * 2007-03-27 2008-10-02 Matsushita Electric Works, Ltd. Washing machine
JP2014036788A (ja) * 2012-08-20 2014-02-27 Panasonic Corp 洗濯乾燥機
JP5699235B2 (ja) * 2014-02-20 2015-04-08 シスメックス株式会社 血液試料処理装置及び血液試料処理方法
TWI555896B (zh) * 2014-10-22 2016-11-01 Matsushita Electric Tw Co Ltd A washing machine with ducts
CN110528238A (zh) * 2018-05-24 2019-12-03 青岛海尔滚筒洗衣机有限公司 一种衣物处理装置及其控制方法
WO2019223570A1 (fr) * 2018-05-24 2019-11-28 青岛海尔滚筒洗衣机有限公司 Dispositif de traitement de vêtements et son procédé de commande

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Also Published As

Publication number Publication date
TW200938685A (en) 2009-09-16
US20100242547A1 (en) 2010-09-30
CN101835932A (zh) 2010-09-15
EP2215300A2 (fr) 2010-08-11
WO2009054120A3 (fr) 2009-07-16
JP4886652B2 (ja) 2012-02-29
JP2009100875A (ja) 2009-05-14

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