WO2023035723A1 - Dispositif de traitement de vêtement et procédé de traitement de vêtement associé - Google Patents

Dispositif de traitement de vêtement et procédé de traitement de vêtement associé Download PDF

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Publication number
WO2023035723A1
WO2023035723A1 PCT/CN2022/099841 CN2022099841W WO2023035723A1 WO 2023035723 A1 WO2023035723 A1 WO 2023035723A1 CN 2022099841 W CN2022099841 W CN 2022099841W WO 2023035723 A1 WO2023035723 A1 WO 2023035723A1
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WIPO (PCT)
Prior art keywords
clothes
laundry
atomizing
processing device
water box
Prior art date
Application number
PCT/CN2022/099841
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English (en)
Chinese (zh)
Inventor
于翰武
徐永洪
张立君
赵雪利
Original Assignee
青岛海尔洗涤电器有限公司
海尔智家股份有限公司
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.)
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Publication date
Priority claimed from CN202111063558.0A external-priority patent/CN115787241A/zh
Priority claimed from CN202111523021.8A external-priority patent/CN116263022A/zh
Priority claimed from CN202210089811.8A external-priority patent/CN116536884A/zh
Application filed by 青岛海尔洗涤电器有限公司, 海尔智家股份有限公司 filed Critical 青岛海尔洗涤电器有限公司
Priority to AU2022343213A priority Critical patent/AU2022343213A1/en
Publication of WO2023035723A1 publication Critical patent/WO2023035723A1/fr

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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F39/00Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00 
    • D06F39/02Devices for adding soap or other washing agents

Definitions

  • the invention relates to the technical field of clothes treatment, and specifically provides a clothes treatment device and a clothes treatment method thereof.
  • Clothes processing equipment is equipment capable of washing, rinsing, dehydrating and/or drying clothes
  • common laundry processing equipment includes washing machines, clothes dryers, all-in-one washing and drying machines, and clothes care machines.
  • washing and drying clothes are not only for washing and drying clothes, but also for clothes such as wrinkle removal, deodorization, disinfection, sterilization, bleaching, softening or fragrance enhancement.
  • Washing is a clothing treatment method that can eliminate the wrinkles of clothes and disinfect and sterilize clothes. Clothes will be wrinkled after wearing for a long time. There are residual compressive stress and residual tensile stress on the inside and outside of the surface respectively, and the fibers are tight and unable to relax automatically.
  • the steam can moisten the fibers of the clothes, which can effectively relieve the irregular tension of the fibers of the clothes and eliminate the original stress residue, so that the clothes become smooth and soft, and some clothes will have residual odor after wearing for a long time or after going to special occasions , steam washing can realize the disinfection and sterilization of clothes, and eliminate the residual odor of clothes.
  • steam washing has become more and more popular among users.
  • a step of steam washing is usually added, or in some washing machines, the clothes are steam washed for a period of time before washing the clothes.
  • steam washing is realized by installing a steam generator on the all-in-one washer-dryer, such as a heating-type steam generator, which forms steam through heating and passes it into the clothes processing cylinder.
  • Steam can realize the steam washing of clothes, or use an ultrasonic atomizer, which is welded together with the water inlet system, and use the water inlet system to realize the water supply of the ultrasonic atomizer, and then use the ultrasonic wave to make the water become
  • the atomized liquid droplets that are fine particles enter into the clothes processing cylinder to realize the atomized washing of clothes.
  • Using a heating steam generator will consume more electric energy, while using an ultrasonic atomizer will save some electricity compared to a heating steam generator, but it will affect the water of the ultrasonic atomizer when it is combined with the water inlet system when scale is generated. supply.
  • the limitation of the above-mentioned product structure leads to relatively simple steam washing or atomization washing of clothes, which cannot meet the various needs of users.
  • the present invention aims to solve the above-mentioned technical problems, that is, to solve the problem that the existing clothes processing equipment has a relatively single method of steam washing or atomization washing due to its own structural limitations, and cannot meet the various needs of users.
  • a laundry processing device the laundry processing device includes a connected laundry processing cylinder and a window pad, and the laundry processing device further includes
  • the ultrasonic atomizer has a plurality of atomizing heads independent of each other, and the plurality of atomizing heads can respectively contain the same or different laundry treatment agents.
  • a base is arranged on the window pad, and the ultrasonic atomizer is detachably arranged on the base.
  • an insertion cavity is formed on the base, and the shell of the ultrasonic atomizer can be inserted into the insertion cavity in a plug-in manner.
  • a first guide structure is formed on the base, a second guide structure is formed on the housing, and the first guide structure guides and cooperates with the second guide structure to The housing can be guided into the plug-in cavity.
  • the first guide structure includes a first slope and a second slope formed on the inner wall of the base, the first slope and the second slope are oppositely arranged, so
  • the second guide structure includes a third slope and a fourth slope formed on both sides of the outer wall of the housing, the first slope guides and cooperates with the third slope, and the second slope guides and cooperates with the fourth slope .
  • a first positioning structure is formed on the base, a second positioning structure is formed on the housing, and the first positioning structure cooperates with the second positioning structure.
  • the ultrasonic atomizer further includes a driver arranged on the base, a first positioning structure is formed on the driver, and a second positioning structure is formed on the housing , the first positioning structure is positioned and matched with the second positioning structure.
  • the driver is arranged outside the insertion cavity
  • the first positioning structure includes at least one positioning column formed on the driver
  • the second positioning structure includes At least one positioning hole is formed on the housing
  • the positioning posts are positioned in a one-to-one correspondence with the positioning holes
  • a passing structure is formed on the base to allow the positioning posts to pass through.
  • the driver is a wireless driver
  • the wireless driver has one of the primary coil and the secondary coil
  • the ultrasonic atomizer has the primary coil and the secondary coil
  • the primary coil is coupled to the secondary coil
  • At least one of the base and the ultrasonic atomizer is provided with a magnetic attraction structure, and the base and the ultrasonic atomizer pass through the magnetic attraction structure connect.
  • the ultrasonic atomizer is arranged on the upper part of the window pad.
  • the ultrasonic atomizer is located within an angle range between 60° leftward deflection and 60° rightward deflection of the vertical plane where the axis of the window pad is located.
  • all the atomizing heads are arranged towards the inside of the clothes treatment cylinder, and all the directions of the atomizing heads are arranged in a direction compared with the vertically downward direction. Angle range from 60° to 120°.
  • the present invention can use the ultrasonic nebulizer to achieve atomized washing of clothes, ensuring the energy-saving advantage of ultrasonic nebulization care, without consuming too much electric energy, and the mist produced by the ultrasonic nebulizer
  • the atomized particles are small and can be evenly distributed on the clothes.
  • the atomization temperature is low, and it will not cause damage to high-grade or high-temperature-resistant fabrics such as silk and mink. Users can also flexibly spray multiple fogs according to their own needs.
  • Different or the same clothing treatment agents are added to the chemical head to realize multiple care for clothes, so that users can customize the care of clothes, realize personalized clothes care experience, meet the various needs of users, and do not need Combined with the water inlet system to realize water supply and improve user experience.
  • the user can disassemble the ultrasonic atomizer at any time, which is convenient for the user to flexibly add laundry treatment agents according to their own needs, and can flexibly carry out personal cleaning according to their own needs.
  • the fast plug-in of the ultrasonic nebulizer can be realized through the plug-in method, thereby improving the assembly efficiency.
  • first guide structure and the second guide structure can facilitate the guide installation of the ultrasonic nebulizer, further improve the assembly efficiency, and ensure that the installation is in place.
  • the positioning of the ultrasonic atomizer can be realized through the first positioning structure and the second positioning structure, so as to ensure that the ultrasonic atomizer will not move when the ultrasonic atomizer is installed in place and during the operation of the clothes treatment equipment , Improve the installation stability of the ultrasonic nebulizer.
  • the driver, the base and the ultrasonic atomizer can all be fixed together, so that the relevant structures for ultrasonic atomization can be installed in one place, and the product has a higher degree of integration, which facilitates centralized cleaning, inspection, and replacement of the product and maintenance to further enhance the user experience.
  • the use of wireless drivers is more convenient for the layout of the product structure than the wired drive method, avoiding the limitation of the installation position due to the layout of the wiring harness, providing better flexibility for the design of the clothes processing equipment, and reducing the difficulty of product design , At the same time avoid the problems of pulling, friction, corrosion and other problems in the traditional wire harness assembly process, as well as frequent disassembly for a long time will lead to poor contact, short circuit and other accidents, improve the safety of clothing processing equipment and the service life of each component.
  • the magnetic connection of the ultrasonic nebulizer can be realized through the magnetic structure, which improves the assembly efficiency, facilitates the arrangement of the product structure, does not occupy too much space, and simplifies the design of the structure.
  • the arrangement of the ultrasonic atomizer on the upper part of the window mat can facilitate the ultrasonic atomizer to spray water mist into the clothes treatment cylinder, so as to achieve uniform coverage on the clothes, so that the clothes are evenly wetted, and the treatment effect on the clothes is improved.
  • ultrasonic atomizer on the vertical plane where the axis of the window pad is located is within an angle range between 60° to the left and 60° to the right, so that the water mist sprayed on the clothes can cover the clothes more evenly On the surface, ensure the uniform wetting of the clothes, and further improve the treatment effect on the clothes.
  • a clothes processing device which includes a box body, a clothes treatment cylinder and a door device, the clothes treatment cylinder is arranged in the box body, and the box body is formed with a clothes delivery port, the door device is used to open and close the clothes delivery port, the clothes delivery port is connected to the clothes processing cylinder through a connecting member,
  • the laundry treatment device further includes an atomizing device containing a laundry treatment agent, the atomization device is arranged on the laundry treatment cylinder, the door device and/or the connecting member, and the atomization device has a direction toward At least one outlet is provided inside the laundry treatment cylinder so that the atomization device sprays atomized gas into the laundry treatment cylinder.
  • the atomization device includes a water box and an atomization sheet, the water box is arranged on the clothes treatment cylinder, the door device and/or the connecting member, so The outlet is formed on the water box, and a water chamber for containing the laundry treatment agent is formed in the water box, the number of the outlet is one and communicated with the water chamber, the atomizer A sheet is provided on the outlet.
  • the outlet is provided with a first sealing member and a sealing pressure ring, the atomizing sheet is accommodated in the first sealing member, and the sealing pressure ring is attached to A side of the first sealing member close to the inside of the laundry treating tub.
  • a decorative shell is clamped on the side of the water box facing the inside of the laundry treatment cylinder, and an opening communicating with the outlet is formed on the decorative shell.
  • the water box is further formed with an electrical chamber, the electrical chamber is isolated from the water containing chamber, and the electrical chamber can accommodate the Connected harness.
  • the atomization device further includes a wireless charging component for supplying power to the atomizing sheet, the wireless charging component is connected to the water box, and the wireless charging component A portion is located within the electrical chamber.
  • the wireless charging assembly includes a fixing member, an induction coil, an inductance element, a first circuit board and a second circuit board, and the fixing member is arranged on the clothes processing cylinder, the On the door device and/or the connecting member, the fixing member is connected to the water box, the induction coil and the inductance element are both arranged on the fixing member, and the induction coil is sleeved on the inductance On the outside of the element, the first circuit board is connected to the induction coil, and the second circuit board is connected to the inductance element.
  • the fixing member includes a fixed inner plate and a fixed outer plate, the fixed inner plate is connected with the water box, and the fixed outer plate is fixed on the clothes processing cylinder, door
  • a first hollow columnar structure is formed on the fixed outer plate
  • a second hollow columnar structure is formed on the fixed inner plate
  • the second hollow columnar structure is sleeved on the first
  • the induction coil is set on the second hollow columnar structure
  • the inductance element is set in the first hollow columnar structure
  • the first circuit board is set on the fixed inner plate
  • the second circuit board is arranged on the fixed outer board.
  • an installation opening is formed on the water box, an installation rib is formed on the inner wall of the installation opening, an installation groove is formed on the edge of the fixed inner plate, and the installation rib is arranged on The mounting groove is used to fix the fixed inner plate on the water box.
  • the water box includes a box body and a box cover, the box body is arranged on the laundry treatment cylinder, the door device and/or the connecting member, and the outlet formed on the box body,
  • An abutment member and a snap-in member are arranged between the box cover and the box body, and when the box cover and the box body are installed, the box cover is first abutted by the abutment member On the box body, the box cover and the box body are clamped and fixed by the clamping member.
  • a second sealing member is provided between the box body and the box cover, and a through opening is formed on the second sealing member, and the clamping member includes a The first clamping piece on the box cover and the second clamping piece arranged on the box body, the first clamping piece passes through the opening and is clamped and fixed with the second clamping piece.
  • the water box further includes a feed cover, a feed port is formed on the cover, a first spiral groove is formed on the feed cover, and a first spiral groove is formed on the feed port.
  • a second helical groove is formed, and the feeding cap is helically connected with the feeding port through the first helical groove and the second helical groove.
  • a handle ring is rotatably connected to the outer surface of the feeding cover, and the handle ring can be rotated in a non-lifting state and accommodated in the feeding port.
  • a third sealing member is provided between the feeding cover and the feeding port.
  • the atomization device includes a water box and a plurality of atomization sheets, and the water box is arranged on the clothes treatment cylinder, the door device and/or the connecting member , the water box is formed with a plurality of water chambers for containing the same or different laundry treatment agents, the number of the outlets is multiple and are all formed on the water box, the water chambers, the There is a one-to-one correspondence between the outlets and the atomizing sheets, the outlets communicate with the corresponding water-holding chambers, and the atomizing sheets are arranged on the corresponding outlets.
  • the laundry processing device is a clothes dryer
  • the connecting member is a front support structure of the clothes dryer.
  • the clothes processing device is an all-in-one washer-dryer
  • the connecting member is a window pad of the all-in-one washer-dryer
  • the clothes treatment device includes a box body, a clothes treatment cylinder and a door device, the clothes treatment cylinder is arranged in the box body, the box body The body is formed with a clothes delivery port, the door device is used to open and close the clothes delivery port, the clothes delivery port is connected with the clothes processing cylinder through a connecting member,
  • the laundry treatment device further includes an atomizing device containing a laundry treatment agent, the atomization device is arranged on the laundry treatment cylinder, the door device and/or the connecting member, and the atomization device has a direction toward at least one outlet provided inside the laundry treatment drum,
  • the laundry treatment method includes:
  • Atomizing gas is sprayed to the laundry in the laundry treating tub.
  • the present invention can directly contain the laundry treatment agent in the atomization device, and the atomization device is arranged on the laundry treatment cylinder, the door device and/or the connecting member, and the clothes are treated by atomization.
  • the agent is directly dispersed into the clothes treatment cylinder, so as to realize the atomized washing treatment of the clothes.
  • only one atomization device capable of containing the clothes treatment agent can be installed to realize the atomized washing of the clothes, which greatly improves the Simplifies the atomization structure, avoids taking up too much space, and improves the scope of application of the atomization structure.
  • the use of the atomizing sheet can realize the dispersal of the clothes treatment agent, which is beneficial to inject the atomized gas on the clothes in a large area, is good for fully combining with the fibers of the clothes, and improves the treatment effect on the clothes.
  • the first sealing member can seal the outlet, so that the laundry treatment agent in the water box will not overflow from the gap between the outlet and the atomizing sheet, improving the sealing effect, and the sealing pressure ring can seal the first sealing member. Squeeze, so that the seal between the first sealing member and the outlet is tighter, and the sealing effect is improved.
  • the decorative shell can improve the overall aesthetics without affecting the spraying of the atomized gas.
  • the electrical chamber and the water chamber are isolated from each other, preventing the laundry treatment agent in the water chamber from flowing into the electrical chamber and causing a short circuit in the wiring harness, thereby improving the electrical safety of the laundry treatment device.
  • the use of wireless charging can reduce the use of wire harnesses, and avoid the excessive volume of the atomizing device due to the limited space for wiring harnesses.
  • short-distance wireless charging can be realized by means of electromagnetic induction wireless charging, thereby reducing the cost of wireless charging.
  • first hollow columnar structure and the second hollow columnar structure are nested together to realize the mutual positioning of the fixed inner plate and the fixed outer plate, and to realize the fixation of the induction coil and the accommodation of the inductance element, making the overall structure more compact, Conducive to the layout of the space.
  • the fixed inner plate is directly installed on the installation port of the water box, so that the overall structure is more compact, which facilitates the arrangement of space.
  • box body and the box cover are connected by the abutment member and the snap-in member to realize the rapid assembly of the box cover and the box body.
  • the precise clamping of the latter improves the assembly efficiency.
  • the second sealing member can realize the sealing between the box body and the box cover, preventing the laundry treatment agent from flowing out from the gap between the box cover and the box body, and at the same time, the first clip and the second clip can not only realize
  • the clamping and fixing between the box body and the box cover can also position the second sealing member, so as to ensure that the second sealing member does not shift in position and avoid affecting the sealing effect of the second sealing member.
  • the feed port can realize the addition of the laundry treatment agent, and the screw connection between the feed cover and the feed port can facilitate the screwing in and out of the feed cover, thereby realizing the opening and closing of the feed port, quick assembly, and convenient clothing treatment Addition of agents.
  • the handle ring can not only realize the screwing in and out of the feeding cap, but also can be accommodated in the feeding port, thereby avoiding its occupation of space, and facilitating the atomization device and the laundry processing cylinder, the door device and/or the connecting member assembly.
  • the third sealing member can realize the sealing between the feed cover and the feed inlet, so as to ensure that the laundry treatment agent will not overflow from the feed inlet.
  • the same or different laundry treatment agents can be accommodated in the multiple water-holding chambers, thereby providing higher flexibility for the atomization of the laundry treatment agent, It can realize personalized delivery of users and improve user experience.
  • a laundry treatment device which includes a laundry treatment cylinder and an atomizing device containing a laundry treatment agent, and the atomization device has at least An outlet for the atomizing device to spray atomized gas into the laundry treatment cylinder.
  • the clothes treatment device further includes a base, and the atomizing device is detachably connected to the base.
  • the atomizing device includes a water box and an atomizing sheet, the outlet is formed on the water box, the atomizing sheet is arranged at the outlet, and the base A guide structure is provided between the seat and the water box, and the guide structure can guide and install the water box on the base.
  • the guide structure includes a first columnar accommodating structure formed on the water box and a second columnar accommodating structure formed on the base, and the second columnar accommodating structure A structure is inserted into the first columnar receiving structure.
  • a water containing chamber and an electrical chamber isolated from each other are formed inside the water box, the water containing chamber communicates with the outlet, and the first columnar containing structure formed on the inner wall of the electrical chamber.
  • the clothes treatment equipment further includes a charging assembly, the charging assembly is connected to the atomizing sheet through a wire harness, the wire harness is arranged in the electrical chamber, and the charging assembly Set on the electrical chamber and/or the base.
  • the charging component is a wireless charging component, a part of the wireless charging component is arranged on the base, and another part of the wireless charging component is arranged in the electrical chamber superior.
  • the wireless charging assembly includes an induction coil, an inductance element, a first circuit board and a second circuit board, the induction coil is sleeved on the first columnar accommodation structure, and the The inductance element is arranged in the second columnar accommodation structure, the first circuit board is connected to the induction coil, the second circuit board is connected to the inductance element, the induction coil or the first circuit The plate is connected with the atomizing sheet through the wire harness.
  • the first circuit board is clamped on the inner wall of the electrical chamber.
  • a first limiting structure is formed on the inner wall of the electrical chamber, and the first limiting structure abuts against the induction coil to keep the induction coil sleeved. on the first columnar containing structure.
  • the first limiting structure includes a first limiting rib and a second limiting rib formed on the inner wall of the electrical chamber, the first limiting rib and the second limiting rib are formed on the inner wall of the electrical chamber.
  • the second limiting ribs are respectively arranged on both sides of the first columnar accommodation structure along the radial direction of the first columnar accommodation structure, and the first limiting ribs and the second limiting ribs are both connected to the first limiting ribs.
  • the induction coil is against each other.
  • the atomization device further includes a decorative case, and the decorative case is connected to the water box through a plurality of snapping structures, and the snapping directions of the multiple snapping structures are different from each other.
  • the decorative shell closes the lower part of the electrical chamber, and the electrical chamber is used to accommodate the wire harness connected to the atomizing sheet.
  • the decorative case includes a first part and a second part that are connected to each other at a set angle, and the outlet is disposed near the junction of the first part and the second part
  • the plurality of snapping structures include a first snapping structure and a second snapping structure
  • the first snapping structure connects a side of the first part away from the second part to the water box
  • the second clamping structure connects a side of the second part away from the first part to the water box
  • the first clamping structure and the second clamping structure have different clamping directions.
  • the plurality of snap-in structures further include a third snap-in structure, and the third snap-in structure connects the connection between the first part and the second part to the The water box is connected, and the first clamping structure and the second clamping structure are different from the clamping directions of the third clamping structure.
  • the set angle ranges from 90° to 180°.
  • a third columnar accommodation structure is formed on the water box, the first magnetic member is accommodated in the third columnar accommodation structure, and a fourth columnar accommodation structure is formed on the base.
  • the second magnetic part is accommodated in the fourth columnar accommodation structure, and the position of the third columnar accommodation structure on the water box corresponds to the position of the fourth columnar accommodation structure on the base , the first magnetic part is magnetically attracted to the second magnetic part.
  • the axis of the third columnar accommodating structure is collinear with the axis of the fourth columnar accommodating structure.
  • the atomization device further includes a feed cover, a feed inlet is formed on the water box, a first spiral groove is formed on the feed cover, and the feed cover A second helical groove is formed on the mouth, and the feeding cap is helically connected to the feeding inlet through the first helical groove and the second helical groove.
  • a second limiting structure is formed on the first spiral groove
  • a third limiting structure is formed on the second spiral groove
  • the feeding cover passes through the first
  • the second limiting structure and the third limiting structure are limited to locked positions.
  • the second limiting structure is a limiting groove
  • the third limiting structure is a limiting protrusion
  • the second limiting structure is a limiting protrusion
  • the third limiting structure is a limiting groove
  • the limiting protrusion is a spherical protrusion
  • the limiting groove is a spherical groove
  • the atomization device further includes a handle ring, the handle ring is connected with the feeding cover, and the handle ring is set so that the feeding cover can be opposite to each other. Rotate in and out of the feed port.
  • the handle ring is rotatably connected to the outer surface of the feeding cover, and the handle ring can be rotated in a non-lifting state and accommodated in the feeding port .
  • the water box includes a box body and a box cover, the outlet is formed on the box body, and a plurality of clamping members pass between the box cover and the box body connect.
  • the clamping member includes a first clamping piece and a second clamping piece that are clamped to each other, the first clamping piece is arranged on the box cover, and the The second clamping piece is arranged on the box body, the first clamping piece is a clamping plate with a bayonet socket, the second clamping piece is an engaging protrusion, and the engaging protrusion is engaged on the in the bayonet.
  • the clothes treatment equipment includes a box body and a door device, the clothes treatment cylinder is arranged in the box body, a clothes insertion opening is formed on the box body, and the door The device is used to open and close the laundry insertion port, and the laundry insertion port is connected to the laundry processing cylinder through a connecting member,
  • the atomizing device is disposed on the laundry treatment tub, the door device and/or the connecting member.
  • an installation groove is formed on the laundry treatment cylinder, the door device and/or the connecting member, and the atomizing device is arranged in the installation groove.
  • the laundry processing device is a clothes dryer
  • the connecting member is a front support structure of the clothes dryer.
  • the clothes processing device is an all-in-one washer-dryer
  • the connecting member is a window pad of the all-in-one washer-dryer
  • the present invention can directly accommodate the laundry treatment agent in the atomization device, and directly disperse the laundry treatment agent on the clothes by atomization, thereby realizing the atomized washing treatment of the clothes. Only need to set up an atomization device capable of holding the laundry treatment agent to realize the atomization washing of the clothes, which greatly simplifies the atomization structure, avoids taking up too much space, and also improves the scope of application of the atomization structure , For example, in a clothes dryer, just put the laundry treatment agent into the atomizing device, and the atomized washing of the clothes can be realized through the atomizing sheet, without setting up a water inlet system and an atomizer that are fused together, There is also no need to set up drop boxes separately.
  • the detachable connection of the atomizing device to the base can facilitate disassembly and assembly of the atomizing device, thereby facilitating inspection, maintenance, replacement and liquid injection of the atomizing device.
  • the guide structure can realize the guide installation of the water box and the base, and improve the assembly efficiency.
  • the guide structure adopts the mutual insertion mode of the first columnar accommodation structure and the second columnar accommodation structure, which can ensure the precise docking of the water box and the base, improve the insertion accuracy, and further improve the assembly efficiency.
  • the electrical chamber and the water chamber are isolated from each other, preventing the laundry treatment agent in the water chamber from flowing into the electrical chamber and causing a short circuit in the wiring harness, thereby improving the electrical safety of the laundry treatment device.
  • the use of wireless charging can reduce the use of wire harnesses, and avoid the excessive volume of the atomizing device due to the limited space for wiring harnesses.
  • short-distance wireless charging can be realized by means of electromagnetic induction wireless charging, thereby reducing the cost of wireless charging.
  • limiting the position of the induction coil through the first position-limiting structure can ensure that the induction coil does not fall off and ensure normal wireless charging.
  • the decorative shell can improve the overall aesthetics, and can seal the electrical chamber to prevent dirt from entering the electrical chamber.
  • the multiple clamping structures can ensure reliable connection between the decorative shell and the water box through clamping in different directions , to improve the connection effect.
  • the different locking directions of the first locking structure and the second locking structure can ensure the stable locking of the decorative case and the water box, and improve the reliability of the connection.
  • first clamping structure, the second clamping structure and the third clamping structure have different clamping directions and the clamping of different parts can ensure the stable clamping of the decorative case and the water box, further improving the reliability of the connection.
  • the water box and the base are magnetically connected to facilitate the disassembly and assembly of the water box and the base, so that the atomizing device can be disassembled from the base at any time, and the third columnar accommodation structure is used to accommodate the first magnetic part and use Accommodating the second magnetic component by the fourth columnar accommodation structure can realize the position limitation of the magnetic component and ensure the reliability of the magnetic connection.
  • the feeding cap is screwed to the feeding port and can be locked and limited, so as to facilitate the rapid addition of the laundry treatment agent.
  • the position limitation between the feed cover and the feed port can be realized by adopting the limit cooperation method of the limit protrusion and the limit groove, that is, during the spiral rotation of the feed cover relative to the feed port, the Through the cooperation of the limit protrusion and the limit groove, the rotation is locked, so that the rotation stop and lock between the feed cover and the feed port are realized, the connection effect is improved, and the failure of the screw connection is avoided.
  • the use of the spherical protrusion and the spherical groove in the position-limiting fit can increase the contact area of the position-limiting and improve the position-limiting effect.
  • the screw connection between the feeding cover and the feeding port can facilitate the use of the handle ring to screw the feeding cover in and out, so as to realize the opening and closing of the feeding port, which is quick to assemble and convenient for adding the laundry treatment agent.
  • the handle ring can not only realize the screwing in and out of the feeding cap, but also can be accommodated in the feeding port, thereby avoiding its occupation of space and facilitating the assembly of the atomizing device.
  • the box body and the box cover are connected by multiple clamping members, which can improve the connection effect between the box cover and the box body, and improve the assembly efficiency. Dirt and dirt are stored in the box body, which improves the service life of the atomizing device.
  • the atomizing device is arranged on the clothes treatment cylinder, the door device and/or the connecting member, and directly disperses the clothes treatment agent into the clothes treatment cylinder by means of atomization, so as to realize the atomized washing treatment of the clothes and realize the The close-range atomizing spray of the clothes ensures the atomization effect on the clothes.
  • the installation groove can accommodate the atomizing device, avoiding too much extra space occupied by the water box, and making full use of the original structure of the clothes treatment equipment.
  • Fig. 1 is a schematic structural view of an all-in-one washing and drying machine in Embodiment 1 of the present invention
  • Fig. 2 is a structural schematic diagram of the wireless driver, the base and the ultrasonic nebulizer of the all-in-one washing and drying machine in Embodiment 1 of the present invention
  • Fig. 3 is a structural schematic diagram of the wireless driver of the all-in-one washing and drying machine in Embodiment 1 of the present invention
  • Fig. 4 is a schematic structural view of the base of the washing and drying machine in Embodiment 1 of the present invention.
  • Fig. 5 is a structural schematic diagram 1 of the ultrasonic atomizer of the washing-drying machine in Embodiment 1 of the present invention.
  • Fig. 6 is a structural schematic diagram II of the ultrasonic atomizer of the washing-drying machine in Embodiment 1 of the present invention.
  • Fig. 7 is a cross-sectional view of the wireless driver, the base and the ultrasonic nebulizer of the all-in-one washing and drying machine in Embodiment 1 of the present invention
  • Fig. 8 is a schematic diagram of the overall structure of the atomization device in Embodiment 2 of the present invention.
  • Fig. 9 is a second schematic diagram of the overall structure of the atomization device in Embodiment 2 of the present invention.
  • Figure 10 is an exploded view of the atomization device in Example 2 of the present invention (the arrow shows the installation process of the atomization device);
  • Fig. 11 is the exploded view II of the atomizing device in Embodiment 2 of the present invention (the arrow shows the installation process of the atomizing device);
  • FIG. 12 is a schematic structural view of the box body of the water box of the atomization device in Embodiment 2 of the present invention.
  • Fig. 13 is a schematic structural view of the second sealing member of the atomization device in Embodiment 2 of the present invention.
  • FIG. 14 is a schematic structural view of the cover of the water box of the atomization device in Embodiment 2 of the present invention.
  • Fig. 15 is a schematic diagram of the installation of the atomizing device of the laundry treatment device in Embodiment 3 of the present invention.
  • Fig. 16 is a schematic diagram of the external structure of the atomizing device of the laundry treatment device in Embodiment 3 of the present invention.
  • FIG. 17 is a cross-sectional view of the internal structure of the atomizing device of the laundry treatment device in Embodiment 3 of the present invention.
  • Fig. 18 is a schematic diagram of the water box and the induction coil of the atomizing device of the laundry treatment device in Embodiment 3 of the present invention.
  • Fig. 19 is a schematic structural view of the cover of the water box of the atomizing device of the laundry treatment device in Example 3 of the present invention.
  • Fig. 20 is a schematic structural view of the feeding cover of the atomizing device of the laundry treatment device in Example 3 of the present invention.
  • Fig. 21 is a schematic diagram of the installation of the decorative shell of the atomizing device of the laundry treatment device and the box body of the water box in the third embodiment of the present invention.
  • Embodiment 1 of the present invention is described in conjunction with an integrated washer-dryer, the technical principle of the present invention is obviously also applicable to clothes dryers, washing machines, or multiple laundry processing equipment.
  • the adjustment or Changes do not constitute a limitation to the present invention, and all should be limited within the protection scope of the present invention.
  • the present invention provides a washing-drying machine, which aims to It enables users to realize multiple care for clothes according to their own needs, so as to realize personalized customization of clothes care, and then realize personalized clothes care experience, meet users' various needs, and improve users' experience.
  • the integrated washer-dryer of the present invention includes a box body 1 and a laundry processing cylinder arranged in the box body 1.
  • the laundry processing cylinder adopts a sleeve-type structure, that is, it includes an outer cylinder and is rotatably arranged on the outside.
  • the inner cylinder in the cylinder, the window pad 2 connects the opening of the outer cylinder with the clothes delivery port of the casing 1, the inner cylinder can be directly driven to rotate by a direct drive motor, and the belt can also be driven by the motor to drive the inner cylinder to rotate.
  • the outer cylinder is used to contain washing water
  • the inner cylinder is used to accommodate clothes and can turn them over
  • the window pad 2 is used to ensure the sealing between the outer cylinder and the box body 1 .
  • the integrated washing and drying machine of the present invention also includes an ultrasonic atomizer 3 arranged on the outer cylinder and/or window pad 2, the ultrasonic atomizer 3 has a plurality of atomizing heads 4 independent of each other, The plurality of atomizing heads 4 can respectively accommodate the same or different laundry treatment agents.
  • the ultrasonic nebulizer 3 can be arranged on the window pad 2 alone, or on the outer cylinder alone, or between the window mat 2 and the outer cylinder, that is, a part of the ultrasonic atomizer 3 is arranged on the window mat 2, The other part is set on the outer cylinder.
  • the number of atomizing heads 4 can be two, three, or other larger numbers, which can be flexibly set by those skilled in the art. All the atomizing heads 4 of the ultrasonic nebulizer 3 may share one ultrasonic atomizing sheet, or each atomizing head 4 may have its own independent ultrasonic atomizing sheet, and the ultrasonic atomizing sheet may be a ceramic atomizing sheet, or It is a microporous atomizing sheet, or other atomizing sheets capable of breaking up the structure of liquid water molecules through high-frequency resonance, which can be flexibly set by those skilled in the art.
  • each atomizing head 4 it is preferable to adopt each atomizing head 4 to have its own independent ultrasonic atomizing sheet, so as to realize alternate care, simultaneous care and sequential care of clothes by different atomizing heads 4, and can realize the above-mentioned different care methods switch.
  • alternate care means that one of the first atomizing head and the second atomizing head is turned on for a period of time and then turned off Turn on the other one of the first atomizing head and the second atomizing head for a period of time, then turn it off, and then repeat the above steps again.
  • Simultaneous care means that the first atomizing head and the second atomizing head are turned on at the same time.
  • One of the first atomizing head and the second atomizing head is turned on for a period of time, then turned off, and then the other of the first atomizing head and the second atomizing head is turned on for a period of time, then turned off, and then no atomization is turned on head.
  • the laundry treatment agent can be pure water, detergent, softener, softener, disinfectant, bactericide, bleach or fragrance enhancer, etc.
  • Different atomizing heads 4 can accommodate the same laundry treatment agent, Can also accommodate different laundry treatments.
  • the atomizing head 4 has a chamber, and the chamber can accommodate laundry treatment agents.
  • a liquid injection structure can be provided on the atomizing head 4.
  • the liquid injection structure is an insertion hole communicating with the chamber. The needle of the syringe is inserted into the insertion hole to realize liquid injection, or the atomizing head 4 is a split structure that can be disassembled.
  • the atomizing head 4 includes a base and a cover that is detachably connected to the base.
  • the cover and the base can be The chamber is formed on the base by screw connection, card connection or magnetic adsorption connection, etc.
  • the cover can be removed from the base, and then inject liquid into the chamber of the base. After the liquid injection is completed, the cover body is installed on the base.
  • the ultrasonic atomizer 3 can be disassembled from the window pad 2 and/or the outer cylinder as a whole, or the atomizing head 4 can be disassembled from the shell or the installation structure of the ultrasonic atomizer 3 alone, Those skilled in the art can flexibly set this.
  • the window mat 2 is provided with a base 5
  • the ultrasonic nebulizer 3 is detachably provided on the base 5 .
  • the base 5 can be made of a flexible material, such as the same or similar material as the window pad 2, such as rubber material, etc.
  • the base 5 is preferably made of a hard material, such as hard plastic or metal, so as to facilitate The ultrasonic nebulizer 3 is not easy to move when it is repeatedly installed and disassembled, and it also prevents the deformation of the base 5 after a long period of use.
  • the ultrasonic nebulizer 3 can be connected to the base 5 by means of screw connection, can also be connected by connection methods such as plug-in, card connection, bonding or magnetic adsorption, or can be connected by a combination of the above-mentioned connection methods. Personnel can set this flexibly.
  • an insertion cavity 51 is formed on the base 5 , and the shell of the ultrasonic nebulizer 3 can be inserted into the insertion cavity 51 in a plug-in manner.
  • the user can insert the shell of the ultrasonic nebulizer 3 into the insertion cavity 51 of the base 5 after the liquid injection into the atomizing head 4 is completed, so as to realize the installation.
  • the shell of the carburetor 3 is disassembled from the insertion cavity 51 of the base 5 .
  • a first guide structure is formed on the base 5
  • a second guide structure is formed on the housing, and the first guide structure and the second guide structure guide and cooperate so that the housing can be guided into the insertion cavity 51 .
  • the first guide structure and the second guide structure can adopt the guide cooperation mode of the guide groove and the guide bar, or adopt the guide cooperation mode of the guide slope, and the guide slope can be a straight slope or an arc slope.
  • the first guide structure includes a first slope 52 and a second slope 53 formed on the inner wall of the base 5, the first slope 52 and the second slope 53 are oppositely arranged, and the second guide The structure includes a third slope 31 and a fourth slope 32 formed on both sides of the outer wall of the housing, the first slope 52 guides and fits with the third slope 31, the second slope 53 guides and fits with the fourth slope 32, the first slope 52 and the second slope
  • the slopes 53 are all inclined outwards, that is, the distance between the first slope 52 and the second slope 53 gradually decreases along the insertion direction of the ultrasonic nebulizer 3, the third slope 31 is adapted to the first slope 52, and the fourth The slope 32 is compatible with the second slope 53 , and in this embodiment, the first slope 52 , the second slope 53 , the third slope 31 and the fourth slope 32 are all preferably arc-shaped slopes.
  • a first positioning structure is formed on the base 5
  • a second positioning structure is formed on the housing, and the first positioning structure is positioned and matched with the second positioning structure.
  • the positioning cooperation mode of the first positioning structure and the second positioning structure can adopt the cooperation mode of the positioning column and the positioning hole, can also adopt the cooperation mode of the positioning protrusion and the positioning groove, and can also adopt the mutual cooperation mode of the positioning stopper , those skilled in the art can flexibly set this.
  • a mutual positioning and cooperation between the driver and the housing of the ultrasonic nebulizer 3 may also be adopted.
  • the driver can be wired or wireless. Specifically, the driver is arranged on the base 5 , a first positioning structure is formed on the driver, a second positioning structure is formed on the casing, and the first positioning structure and the second positioning structure are positioned and matched.
  • the driver is arranged outside the insertion cavity 51
  • the first positioning structure includes at least one positioning post formed on the driver
  • the second positioning structure includes at least one positioning hole formed on the housing
  • the positioning post and the positioning hole are one by one
  • a passing structure is formed on the base 5 to allow the positioning column to pass through.
  • the number of positioning posts and positioning holes is two, and the passing structure can be a through hole that allows the positioning posts to pass through.
  • the diameter of the through hole can be greater than or equal to the outer diameter of the positioning posts.
  • the driver is a wireless driver 6, the wireless driver 6 has one of the primary coil and the secondary coil, and the ultrasonic nebulizer 3 has the other of the primary coil and the secondary coil,
  • the primary coil is coupled with the secondary coil.
  • the wireless driver 6 may include a housing and a driving board, the housing is fixed on the base 5, the driving board is arranged in the housing, and a circuit system is integrated in the driving board, and the circuit system can make the ultrasonic atomizing sheet resonate at high frequency.
  • the primary coil can be set on the drive board, and the secondary coil can be set on the ultrasonic atomizer 3.
  • the primary coil and the secondary coil are coupled to realize the drive plate. powered by.
  • the secondary coil can be disposed on the driving board, and the primary coil can be disposed on the ultrasonic nebulizer 3 .
  • At least one of the base 5 and the ultrasonic atomizer 3 is provided with a magnetic attraction structure, and the base 5 and the ultrasonic atomizer 3 are connected through the magnetic attraction structure.
  • a magnetic attraction structure can be provided on both the base 5 and the ultrasonic atomizer 3, so that the magnetic attraction structure can be used to realize the attraction between the ultrasonic atomizer 3 and the base 5, for example, between the ultrasonic atomizer 3 and the ultrasonic atomizer 3.
  • a first permanent magnet and a second permanent magnet with different magnetic properties are arranged on the base 5 respectively, and the ultrasonic atomizer 3 and the base 5 are attracted by the first permanent magnet and the second permanent magnet.
  • a permanent magnet is set on the base 5, and the shell of the ultrasonic atomizer 3 is set as a metal shell, and the ultrasonic atomizer 3 is connected to the base 5 through the attraction of the permanent magnet to the metal.
  • the base can also be 5 is set as a metal base 5, and the permanent magnet is set on the ultrasonic nebulizer 3.
  • the housing of the base 5 and the ultrasonic nebulizer 3 pass through the first slope 52 , the second slope 53 , the third slope 31 and the fourth slope 32 Guided cooperation is carried out, and two magnetic suction positioning heads 7 are arranged on the driver at the same time, and two positioning counterbores 8 are formed on the shell of the ultrasonic atomizer 3, and the magnetic suction positioning heads 7 correspond to the positioning counterbores 8 one by one and mutually Positioning fit
  • the shell of the ultrasonic atomizer 3 can be a metal shell that allows magnetic attraction or a magnetic member that is attracted to the magnetic positioning head 7 in the positioning counterbore 8 or an attracted member that allows magnetic attraction, In this way, the magnetic positioning head 7 can not only position the ultrasonic nebulizer 3 , but also magnetically attract the ultrasonic nebulizer 3 .
  • the guidance of the ultrasonic nebulizer 3 is realized through the guiding cooperation of the first bevel 52, the second bevel 53, the third bevel 31 and the fourth bevel 32, which facilitates the positioning counterbore on the shell of the ultrasonic nebulizer 3 8 is accurately docked with the magnetic positioning head 7 to achieve positioning, and then the magnetic effect of the magnetic positioning head 7 is used to realize the suction connection to the ultrasonic atomizer 3 .
  • the ultrasonic atomizer 3 is arranged on the top of the window pad 2, so as to facilitate the spraying of water mist from the top of the window pad 2 to the clothing, and realize the full coverage of the clothing as much as possible.
  • the ultrasonic mist The carburetor 3 is located in the angle range between the 60° leftward deflection and the 60° rightward deflection of the vertical plane where the axis of the window mat 2 is located, that is, when viewed along the outer cylinder to the direction of the window mat 2, the window mat can be observed 2, the window pad 2 is in the shape of a ring as a whole, and the window pad 2 is observed in a clockwise manner, and the vertical plane where the axis of the window pad 2 is located by the ultrasonic nebulizer 3 deflects 60° to the left and 60° to the right
  • the angle range between means that the ultrasonic atomizer 3 is installed on the window pad 2 within the clock range from 10 o'clock to 14 o'clock.
  • all the atomizing heads 4 are arranged towards the inside of the inner cylinder, and the directions of all the atomizing heads 4 are arranged at an angle of 60° to 120° compared to the vertical downward direction Within the range, that is, when the all-in-one washing and drying machine is placed on a horizontal ground, the vertical downward is the direction perpendicular to the ground.
  • the position setting of the above-mentioned ultrasonic atomizer 3 and the angle setting of all atomizing heads 4 can ensure that the water mist is evenly sprayed on the clothes, and the effect of covering and penetrating the clothes optimal.
  • the present invention provides a clothes treatment equipment and a clothes treatment method thereof, aiming to simplify the atomization structure and avoid occupying too much space , also improves the scope of application of the atomization structure.
  • the clothes processing equipment of the present invention includes a box body, a clothes treatment cylinder and a door device.
  • the clothes treatment cylinder is arranged in the box body, and a clothes delivery port is formed on the box body.
  • the door device is used to open and close the clothes delivery port.
  • the mouth is connected to the laundry treatment cylinder through a connecting member, and the laundry treatment device also includes an atomizing device containing a laundry treatment agent. At least one outlet is provided inside the cylinder so that the atomizing device sprays atomized gas into the laundry treatment cylinder.
  • the laundry processing cylinder is a drying cylinder
  • the drying cylinder is a single-tube structure
  • the atomizing device is preferably arranged on the drying cylinder, the door device and/or the connecting member.
  • the connecting member is the front support structure of the clothes dryer. The front end of the front support structure is connected to the clothes input port of the cabinet, and the rear end of the front support structure is connected to the front end of the drying cylinder through a dynamic sealing structure.
  • the front support structure can not only Supports the front end of the drying drum without affecting the rotation of the drying drum.
  • the laundry processing cylinder is a washing and drying cylinder
  • the laundry processing cylinder has a sleeve-type structure, that is, the laundry processing cylinder has an outer cylinder and an inner cylinder (also called a drum) that is rotatably arranged in the outer cylinder.
  • the atomizing device can be arranged on the outer cylinder, the door device and/or the connecting member.
  • the connecting member is a window pad. It is used to ensure the sealing between the outer cylinder and the clothes delivery port.
  • the atomizing device can be an ultrasonic atomizer with a chamber for a clothing treatment agent, or an atomizing nozzle with a chamber for a clothing treatment agent, or another atomizing structure, as long as the atomizing device can Just spray atomizing gas into the laundry treatment cylinder.
  • the laundry treatment agent can be water, or detergent, softener, softener, fragrance enhancer or other laundry treatment solvents, or a mixture of the above water and solvents.
  • the atomizing gas is a liquid droplet with a large number of tiny particles. Because it is not easy to observe each tiny droplet with the naked eye, it forms a gas-like structure.
  • the atomizing device can break up the laundry treatment agent and put it into the laundry treatment cylinder. on clothing.
  • the atomizing device includes a water box 1 and an atomizing sheet 2, the water box 1 is arranged on the laundry processing cylinder, the door device and/or the connecting member, and the outlet 1a is formed On the water box 1, a water chamber 1b for accommodating laundry treatment agent is formed in the water box 1. There is one outlet 1a and communicates with the water chamber 1b.
  • the atomizing sheet 2 is arranged on the outlet 1a. That is, there can be one water-holding chamber 1b and communicate with one outlet 1a, and the structure of a single atomization port can reduce the size of the atomizing device as much as possible, avoiding occupying a relatively large space.
  • water and a water-soluble laundry treatment agent can be mixed to form a mixed solution, which is then placed in the water chamber 1b, and the mixed solution is broken up by the vibration of the atomizing sheet 2 and thrown onto the clothes in the laundry treatment cylinder .
  • the atomizing device includes a water box 1 and a plurality of atomizing sheets 2, the water box 1 is arranged on the laundry processing cylinder, the door device and/or the connecting member, and the water box 1 is formed to accommodate Multiple water chambers 1b for the same or different laundry treatment agents, the number of outlets 1a is multiple and are all formed on the water box 1, the water chambers 1b, outlets 1a and atomizing sheets 2 are in one-to-one correspondence, and the outlets 1a It communicates with the corresponding water-holding chamber 1b, and the atomizing sheet 2 is arranged on the corresponding outlet 1a. That is, in addition to adopting the structure of the aforementioned single atomization port, the structure of multiple atomization ports can also be adopted. Through such a setting, the user can also flexibly add different or The same laundry treatment agent can realize multiple care for clothes, so that users can customize the care of clothes, realize personalized clothes care experience, and meet the various needs of users.
  • the atomizing sheet 2 is preferably an ultrasonic atomizing sheet, of course, it can also be other atomizing sheets, as long as the atomizing sheet 2 can realize the dispersion of the laundry treatment agent.
  • the outlet 1a is provided with a first sealing member 3 and a sealing pressure ring 4, the atomizing sheet 2 is accommodated in the first sealing member 3, and the sealing pressure ring 4 is attached to the first A side of the sealing member 3 that is close to the inside of the laundry processing tub.
  • the first sealing member 3 can be a sealing ring, or a sealing gasket, or other sealing structures, as long as the first sealing member 3 can accommodate the atomizing sheet 2 and will not affect the spraying of the atomizing sheet 2 into the laundry processing cylinder. Nebulizing gas is enough.
  • the sealing pressure ring 4 can squeeze the first sealing member 3, so that the first sealing member 3 and the outlet 1a fit more tightly, improving the sealing effect, and the inner ring formed by the sealing pressure ring 4 ensures that the atomizer 2
  • the interior of the laundry treating tub communicates.
  • the sealing pressure ring 4 can be connected with the water box 1 through screw joints such as bolts or screws.
  • the side of the water box 1 facing the inside of the laundry treatment cylinder is snapped with a decorative shell 5, and an opening 5a communicating with the outlet 1a is formed on the decorative shell 5, and the opening 5a ensures that the atomizing sheet 2.
  • Multiple claws 5b can be set on the decorative shell 5, and multiple locking protrusions can be set on the water box 1.
  • the locking claws 5b and the locking protrusions can be engaged one by one to achieve
  • the positioning rib 5c on the 5 is aligned with the positioning groove 1d on the water box 1, and then as the positioning rib 5c gradually penetrates into the positioning groove 1d, the corresponding claw 5b and the engaging protrusion are engaged with each other, thereby utilizing the positioning The groove 1d and the positioning rib 5c realize the pre-positioning, and then the claw 5b and the engaging protrusion realize the accurate locking of the decorative case 5 and the water box 1 .
  • the interlocking between the decorative case 5 and the water box 1 can also be realized through other snapping ways.
  • the water box 1 is further formed with an electrical chamber 1c, the electrical chamber 1c and the water containing chamber 1b are isolated from each other, and the electrical chamber 1c can accommodate the wire harness 6 connected to the atomizing sheet 2 .
  • the electrical chamber 1c and the water chamber 1b can be separated by a partition structure 1e, the partition structure 1e ensures the sealing of the water chamber 1b, the outlet 1a is formed on the partition structure 1e, and the electrical chamber 1c can be closed, It can also be non-closed.
  • the lower part of the electrical chamber 1c is sealed by the decorative shell 5, and the electrical chamber 1c can accommodate the wire harness 6 connected to the atomizing sheet 2, so as to realize the atomization Slice 2 power and control.
  • an accommodating groove is formed on the outer side of the partition structure 1e, and the wire harness 6 can be partially accommodated in the accommodating groove, so as to position the wire harness 6 .
  • the atomizing device further includes a wireless charging component 7 for powering the atomizing sheet 2, the wireless charging component 7 is connected to the water box 1 and a part of the wireless charging component 7 is located in the electrical chamber within 1c.
  • the wireless charging component 7 can adopt the electromagnetic induction wireless charging method, and can also adopt the magnetic resonance wireless charging method, and of course, other wireless charging methods can also be used.
  • the wireless charging assembly 7 includes a fixing member 71, an induction coil 72, an inductive element 73, a first circuit board 74 and a second circuit board 75, and the fixing member 71 is arranged on the laundry processing cylinder, the door device and/or Or on the connecting member, the fixing member 71 is connected to the water box 1, the induction coil 72 and the inductance element 73 are all arranged on the fixing member 71 and the induction coil 72 is sleeved on the outside of the inductance element 73, the first circuit board 74 and the induction coil 72 connection, the second circuit board 75 is connected to the inductance element 73 .
  • the fixing member 71 can be a fixing bracket, a fixing plate, or other fixing structures.
  • the induction coil 72 is connected to the atomizing sheet 2 through the wire harness 6 or the first circuit board 74 is connected to the atomizing sheet 2 through the wire harness 6 .
  • the second circuit board 75 is connected to the power supply through the wiring harness, and the inductance element 73 generates a certain current in the induction coil 72 through electromagnetic induction based on the alternating current of a certain frequency, thereby transferring the electric energy from the inductance element 73 to the induction coil 72, thereby realizing the atomization. 2 power supply.
  • the arrangement of wire harnesses between the inductive element 73 and the induction coil 72 is omitted.
  • the power supply to the atomizing sheet 2 can also be realized by using a wired connection.
  • the fixing member 71 includes a fixed inner plate 711 and a fixed outer plate 712, the fixed inner plate 711 is connected to the water box 1, and the fixed outer plate 712 is fixed on the clothes processing cylinder, the door device and/or On the connecting member, a first hollow columnar structure 712a is formed on the fixed outer plate 712, a second hollow columnar structure 711a is formed on the fixed inner plate 711, and the second hollow columnar structure 711a is sleeved on the first hollow columnar structure 712a, and the induction
  • the coil 72 is set on the second hollow columnar structure 711a
  • the inductance element 73 is set in the first hollow columnar structure 712a
  • the first circuit board 74 is set on the fixed inner plate 711
  • the second circuit board 75 is set on the fixed outer plate 712 superior.
  • the first hollow columnar structure 712a is formed on the side of the fixed outer plate 712 that is close to the fixed inner plate 711, that is, the side facing the inside of the laundry processing tube, and the second hollow columnar structure 711a is formed on the side of the fixed inner plate 711 away from the fixed outer plate 712.
  • the side, that is, the side facing the inside of the laundry treatment cylinder, the diameter of the outer pipe wall of the first hollow cylindrical structure 712a is preferably equal to the diameter of the inner pipe wall of the second hollow cylindrical structure 711a, thereby passing through the first hollow cylindrical structure 712a
  • the positioning of the two with the second hollow columnar structure 711a can be realized.
  • the first hollow columnar structure 712a and the second hollow columnar structure 711a are made of insulating materials, such as glass, plastic or ceramics. Electromagnetic shielding can be avoided without using metal . It should be noted that the inner end of the first hollow columnar structure 712a and the inner end of the second hollow columnar structure 711a (that is, the end close to the clothes processing cylinder) are preferably closed to prevent external dirt from entering the electrical chamber 1c.
  • the fixed outer plate 712 can be used as the installation base of the fixed inner plate 711, and the fixed outer plate 712 can be fixed on the laundry processing cylinder, the door device and/or the connecting member.
  • the fixed inner plate 711 When changing the laundry treatment agent, the fixed inner plate 711 can be disassembled from the fixed outer plate 712, and then the fixed inner plate 711 is installed on the fixed outer plate 712 during installation.
  • the first hollow columnar structure 712a and the second hollow columnar structure 711a It can play a positioning role during installation.
  • the inductance element 73 can be accommodated in the first hollow columnar structure 712a, and the induction coil 72 can be sleeved outside the second hollow columnar structure 711a, so that the first hollow columnar structure 712a and the second hollow columnar structure
  • the structure 711a has multiple functions, thereby further improving the compactness of the atomizing device.
  • a magnetic adsorption structure can also be set between the fixed inner plate 711 and the fixed outer plate 712, for example, a first permanent magnet is set on the fixed outer plate 712, a second permanent magnet is set on the fixed inner plate 711, and the first permanent magnet is connected to the second permanent magnet.
  • the magnetic properties of the two permanent magnets are opposite, so as to realize the magnetic adsorption and fixation of the fixed outer plate 712 to the fixed interior.
  • the fixed outer plate 712 may be fixed on the laundry processing tub, the door device and/or the connecting member in a screwed manner.
  • an installation opening is formed on the water box 1, an installation rib is formed on the inner wall of the installation opening, an installation groove is formed on the edge of the fixed inner plate 711, and the installation rib is arranged in the installation groove to fix the fixed inner plate 711 on the water box 1 superior.
  • the installation opening can be a square opening or a semicircular opening, as long as the fixed inner plate 711 can enter the installation opening.
  • the installation opening is a square opening, and the square opening A U-shaped installation rib 1f is formed on the inner wall, and a U-shaped installation groove 711b is formed on the edge of the fixed inner panel 711.
  • the fixed inner panel 711 is inserted into the installation opening from one side of the installation opening, and the two sides of the U-shaped installation rib 1f are first connected with the U-shaped
  • the two sides of the installation groove 711b are mated, and when mated in place, the three sides of the U-shaped installation rib 1f are all mated with the three sides of the U-shaped installation groove 711b.
  • the bottom of the fixed inner plate 711 can be held against by the decorative case 5, that is, the fixed inner plate 711 is first installed on the water box 1 during installation, and then the decorative case 5 is clamped on the water box 1 , the decorative case 5 can not only bear the bottom of the fixed inner panel 711, but also can seal the electrical chamber 1c.
  • the water box 1 can adopt an integrated structure, and can also adopt a split structure.
  • the split type can facilitate the cleaning of the inside of the water box 1.
  • the water box 1 includes a box body 11 and a box cover 12, the box body 11 is arranged on the laundry processing cylinder, the door device and/or the connecting member, the outlet 1a is formed on the box body 11, an abutment member and a card are arranged between the box cover 12 and the box body 11
  • the box cover 12 is first abutted on the box body 11 by the abutment member, and then the box cover 12 and the box body 11 are clamped and fixed by the snap-in member
  • the abutment member can be a structure in which the abutment rib or the abutment rib and the abutment groove cooperate.
  • the abutment rib can be formed on the lid 12, and the L-shaped abutment rib 12a is shown in FIGS. 10 and 14 .
  • the L-shaped abutment rib 12a can be abutted against the edge of the box opening 11a formed on the box body 11 and matched with the box cover 12, and then the box cover 12 and the box body 11 are snapped together by a snap-in member to realize the box The cover 12 closes the box opening 11a.
  • a second sealing member 8 is provided between the box body 11 and the box cover 12, and a through opening 8a is formed on the second sealing member 8, and the clamping member includes a first clamping member 91 and a The second clamping member 92 provided on the box body 11 , the first clamping member 91 passes through the opening 8 a and is clamped and fixed with the second clamping member 92 .
  • the second sealing member 8 may be a sealing ring, which may be a gasket, or other sealing structures.
  • the sealing member 8 is positioned to prevent the second sealing member 8 from moving when the lid 12 closes the opening 11a.
  • a positioning protrusion 8b is formed on the second sealing member 8
  • a positioning groove 12b is formed on the lid 12
  • the positioning protrusion 8b cooperates with the positioning groove 12b
  • the second sealing member 8 is a square annular gasket
  • the cooperation of the first clip 91 and the port 8a can realize the positioning of a pair of sides of the square ring gasket, and the positioning protrusion 8b and the positioning groove 12b
  • the positioning fit can realize the positioning of the other pair of sides of the square annular gasket, so as to ensure that the four sides of the square annular gasket can be positioned, and ensure that the square annular gasket does not move or deform.
  • the number of positioning protrusions 8b and the number of positioning grooves 12b may also be one.
  • the first clamping member 91 is a clamping plate with a bayonet
  • the second clamping member 92 is a locking protrusion. When installed, the clamping plate passes through the opening 8a and exposes the bayonet So that the bayonet and the locking protrusion are engaged.
  • the first clamping member 91 and the second clamping member 92 may also adopt other clamping methods.
  • the water box 1 also includes a feed cover 13, the lid 12 is formed with a feed port 12c, the feed cover 13 is formed with a first spiral groove, and the feed port 12c A second spiral groove is formed on it, and the feed cover 13 and the feed port 12c are spirally connected through the first spiral groove and the second spiral groove.
  • the feed cover 13 and the feed port 12c are screwed together to enable the feed cover 13 to be screwed in and out relative to the feed port 12c, that is, to rotate the feed cover 13 in one direction can realize the feed cover 13.
  • the feeding port 12c is screwed in and closed, and turning to the other direction can realize the feeding cover 13 to screw out and open the feeding port 12c.
  • the feed cover 13 and the feed port 12c may also adopt a flip structure pivotally connected.
  • a third sealing member may be provided between the feeding cover 13 and the feeding port 12c, and the third sealing member may be a sealing ring, which may be a gasket, or other sealing structures.
  • a handle ring 14 is rotatably connected to the outer surface of the feed cover 13, and the handle ring 14 can be rotated and accommodated in the feed port 12c in a non-lifting state, and the handle The ring 14 can be pivotally connected to the outer surface of the feed cover 13. After the feed cover 13 closes the feed port 12c, the outer surface of the feed cover 13 has a certain distance from the outer edge of the feed port 12c.
  • this distance ensures that the handle ring 14 in the non-lifting state can be accommodated, and in this state, the plane where the handle ring 14 is located is parallel to the plane where the outer surface of the feed cover 13 is located, when the handle ring When 14 is in the pulling state, for example, the handle ring 14 exposes the feed port 12c, thereby facilitating the user to grasp, the plane where the handle ring 14 is located is perpendicular to the plane where the outer surface of the feed cover 13 is located or at a certain angle , thereby twisting the handle ring 14 to realize the unscrewing of the feeding cap 13 from the feeding port 12c.
  • the laundry treatment method of the laundry treatment device of the present invention includes: spraying atomized gas to the laundry in the laundry treatment drum.
  • spraying atomized gas to the laundry in the laundry treatment drum.
  • the delivery timing and delivery time can also be determined according to the material and/or type of the clothes.
  • the present invention provides a clothes treatment equipment, which aims at simplifying the atomization structure, avoiding taking up too much space, and improving the fogging efficiency. scope of application of the structure.
  • the clothes processing equipment of the present invention includes a box body, a clothes treatment cylinder and a door device.
  • the clothes treatment cylinder is arranged in the box body, and a clothes delivery port is formed on the box body.
  • the door device is used to open and close the clothes delivery port.
  • the mouth is connected to the laundry treatment cylinder through a connecting member, and the laundry treatment device also includes an atomizing device containing a laundry treatment agent. At least one outlet is provided inside the cylinder so that the atomizing device sprays atomized gas into the laundry treatment cylinder.
  • the laundry processing cylinder is a drying cylinder
  • the drying cylinder is a single-tube structure
  • the atomizing device is preferably arranged on the drying cylinder, the door device and/or the connecting member.
  • the connecting member is the front support structure of the clothes dryer. The front end of the front support structure is connected to the clothes input port of the cabinet, and the rear end of the front support structure is connected to the front end of the drying cylinder through a dynamic sealing structure.
  • the front support structure can not only Supports the front end of the drying drum without affecting the rotation of the drying drum.
  • the laundry processing cylinder is a washing and drying cylinder
  • the laundry processing cylinder has a sleeve-type structure, that is, the laundry processing cylinder has an outer cylinder and an inner cylinder (also called a drum) that is rotatably arranged in the outer cylinder.
  • the atomizing device can be arranged on the outer cylinder, the door device and/or the connecting member.
  • the connecting member is a window pad. It is used to ensure the sealing between the outer cylinder and the clothes delivery port.
  • the atomizing device contains a laundry treatment agent, which can be water, or detergent, softener, softener, fragrance enhancer or other laundry treatment solvents, or a mixture of the above water and solvents. Mixture.
  • the atomizing gas is a liquid droplet with a large number of tiny particles. Because it is not easy to observe each tiny droplet with the naked eye, it forms a gas-like structure.
  • the atomizing device can break up the laundry treatment agent and put it into the laundry treatment cylinder. on clothing.
  • the laundry treatment device further includes a base 100 , and the atomizing device is preferably detachably connected to the base 100 , such as screwed, clamped or inserted.
  • the atomizing device includes a water box 1 and an atomizing sheet 2.
  • the base 100 is preferably arranged on the laundry processing cylinder, the door device and/or the connecting member.
  • the structure shown in FIG. 15 is a clothes dryer, and the connecting member is a clothes dryer.
  • the front support structure of the machine, the front support structure is formed with a mounting groove 200, and the base 100 is connected to the mounting groove 200, which can be screwed, clipped or inserted, etc.
  • the direction of the arrow in Figure 15 is the water box 1 and the In the dismounting direction of the base 100 , an outlet 1 a is formed on the water box 1 , and the atomizing sheet 2 is arranged at the outlet 1 a.
  • a guide structure is provided between the base 100 and the water box 1, the guide structure can guide and install the water box 1 on the base 100, the water box 1 is accommodated in the installation groove 200, and the guide structure can be a structure matched with a plug-in column , can also be a structure in which the chute and the slide rail cooperate, etc., which can be flexibly set by those skilled in the art.
  • the guide structure includes a first columnar accommodation structure 300 formed on the water box 1 and a second columnar accommodation structure 400 formed on the base 100, the second columnar accommodation structure 400 is inserted into In the first columnar accommodation structure 300, when installing, the first columnar accommodation structure 300 on the water box 1 and the second columnar accommodation structure 400 on the base are aligned with each other, and then the first columnar accommodation structure 300 is socketed In the second columnar accommodating structure 400, after the installation is completed, the axis of the first columnar accommodating structure 300 and the axis of the second columnar accommodating structure 400 are preferably collinearly arranged. It should be noted that the inner end of the first columnar accommodation structure 300 and the inner end of the second columnar accommodation structure 400 (that is, the end close to the clothes processing cylinder) are preferably closed to prevent external dirt from entering the water box 1 .
  • a water chamber 1b for accommodating laundry treatment agent is formed in the water box 1, the number of the outlet 1a is one and communicates with the water chamber 1b, and the atomizing sheet 2 is arranged at the outlet. 1a on. That is, there can be one water-holding chamber 1b and communicate with one outlet 1a, and the structure of a single atomization port can reduce the size of the atomizing device as much as possible, avoiding occupying a relatively large space.
  • the atomizing device When there is one water-holding chamber 1b , water and a water-soluble laundry treatment agent can be mixed to form a mixed solution, which is then placed in the water chamber 1b, and the mixed solution is broken up by the vibration of the atomizing sheet 2 and thrown onto the clothes in the laundry treatment cylinder .
  • the atomizing device includes a water box 1 and a plurality of atomizing sheets 2. A plurality of water chambers 1b for containing the same or different laundry treatment agents are formed in the water box 1.
  • the outlet 1a The number is multiple and all are formed on the water box 1, the water chamber 1b, the outlet 1a and the atomizing sheet 2 correspond one by one, the outlet 1a communicates with the corresponding water chamber 1b, and the atomizing sheet 2 is arranged on exit 1a. That is, in addition to adopting the structure of the aforementioned single atomization port, the structure of multiple atomization ports can also be adopted. Through such a setting, the user can also flexibly add different or The same laundry treatment agent can realize multiple care for clothes, so that users can customize the care of clothes, realize personalized clothes care experience, and meet the various needs of users.
  • the atomizing sheet 2 is preferably an ultrasonic atomizing sheet, of course, it can also be other atomizing sheets, as long as the atomizing sheet 2 can realize the dispersion of the laundry treatment agent.
  • the outlet 1a is provided with a sealing member 3 and a sealing pressure ring 4, the atomizing sheet 2 is accommodated in the sealing member 3, and the sealing pressure ring 4 is attached to the sealing member 3 close to the clothes processing cylinder interior side.
  • the sealing member 3 can be a sealing ring, or a sealing gasket, or other sealing structures, as long as the sealing member 3 can accommodate the atomizing sheet 2 and will not affect the spraying of atomizing gas from the atomizing sheet 2 to the inside of the clothes processing cylinder.
  • the sealing pressure ring 4 can squeeze the sealing member 3, so that the sealing member 3 and the outlet 1a are more tightly bonded, and the sealing effect is improved.
  • internal connectivity Specifically, the sealing pressure ring 4 can be connected with the water box 1 through screw joints such as bolts or screws.
  • the water box 1 is further formed with an electrical chamber 1c, the electrical chamber 1c and the water containing chamber 1b are isolated from each other, and the electrical chamber 1c can accommodate the wire harness 6 connected to the atomizing sheet 2 .
  • the electrical chamber 1c and the water chamber 1b can be separated by a partition structure 1e, the partition structure 1e ensures the sealing of the water chamber 1b, the outlet 1a is formed on the partition structure 1e, and the electrical chamber 1c can be closed, It can also be non-closed.
  • the lower part of the electrical chamber 1c is sealed by a decorative case 5, and the electrical chamber 1c can accommodate the wire harness 6 connected to the atomizing sheet 2, so that Realize the power supply and control of the atomizing sheet 2. More preferably, an accommodating groove is formed on the outer side of the partition structure 1e, and the wire harness 6 can be partially accommodated in the accommodating groove, so as to position the wire harness 6 .
  • the atomizing device further includes a decorative case 5, and the decorative case 5 is connected to the water box 1 through a plurality of clamping structures, and the clamping directions of the multiple clamping structures are not completely the same.
  • the connection directions are all different, and some parts may have the same connection direction, while the other parts may have different connection directions, which can be flexibly set by those skilled in the art.
  • the decorative case 5 includes a first part 51 and a second part 52 that are at a predetermined angle and connected to each other.
  • the intersection of the first part 51 and the second part 52 is formed so as to ensure that the outlet 1a and the opening 5a are aligned with each other.
  • a plurality of snap-in structures include a first snap-in structure and a second snap-in structure, the first snap-in structure connects the side of the first part 51 away from the second part 52 with the water box 1, and the second snap-in structure connects the second The side of the part 52 away from the first part 51 is connected to the water box 1 , and the first locking structure and the second locking structure have different locking directions.
  • the value range of the setting angle is preferably 90° to 180°, such as 120°, so as to facilitate the smooth transition setting of the decorative case 5.
  • the setting angle can also be 90° or 180°.
  • setting The angle can also be an acute angle, which can be flexibly set by those skilled in the art.
  • the first part 51 and the second part 52 are preferably integrally arranged, so as to facilitate one-time molding of the mold and avoid gaps that are likely to occur in other connection methods.
  • a third snap-in structure can also be provided, and the third snap-in structure connects the joint between the first part 51 and the second part 52 with the water box 1, and the third snap-in structure Both the first clamping structure and the second clamping structure have different clamping directions from the third clamping structure.
  • the first engaging structure includes a first claw 5b provided on the trim case 5 and a first engaging protrusion 1x provided on the water box 1
  • the quantity of the second engaging structure is at least one
  • the second engaging structure includes the second claw 5c arranged on the decoration case 5 and the second engaging protrusion 1y arranged on the water box 1, and the third engaging structure It includes the third claw 5d provided on the decorative case 5 and the third engaging projection 1z provided on the water box 1, the first claw 5b engages with the first engaging projection 1x, and the second claw 5c It engages with the second engagement protrusion 1y, and the third claw 5d engages with the second engagement protrusion 1z.
  • the first engagement structure, the second engagement structure and the third engagement structure are the first engagement structure, the second engagement structure and the third engagement structure respectively.
  • the clamping direction of the structure, in the structure of the decorative case 5 shown in Figure 21, the first clamping structure, the second clamping structure and the third clamping structure connect the two ends and the middle of the decorative case 5 with the water box respectively. 1 connection.
  • the protruding structure for the disassembly and assembly of the atomizing device can be multiple ribs arranged in parallel, or a plurality of protruding points arranged in a matrix, the protruding structure is convenient for the user to apply force to the atomizing device when holding the atomizing device , the convenient disassembly and assembly of the decorative case is realized by increasing the friction with the decorative case 5 .
  • the first columnar accommodation structure 300 is formed on the inner wall of the electrical chamber 1c.
  • the first columnar accommodation structure 300 can be formed by indenting the sidewall of the electrical chamber 1c inward.
  • the laundry treatment device further includes a charging assembly, which is connected to the atomizing sheet 2 through a wire harness 6, the wire harness 6 is arranged in the electrical chamber 1c, and the charging assembly is arranged in the electrical chamber 1c and/or on the base 100. That is to say, the charging assembly can be installed on the electrical chamber 1c alone, or on the base 100, or on the electrical chamber 1c and the base 100 at the same time.
  • the charging assembly can be a wired charging assembly or a wireless charging assembly.
  • the charging component in a preferred situation, the charging component is a wireless charging component, a part of the wireless charging component is set on the base 100, and another part of the wireless charging component is set on the electrical chamber 1c.
  • the wireless charging component may adopt an electromagnetic induction wireless charging method, or a magnetic resonance wireless charging method, and of course, other wireless charging methods may also be used.
  • the wireless charging assembly includes an induction coil 71, an inductance element 72, a first circuit board 73 and a second circuit board (not shown in the figure), and the induction coil 71 is sheathed in the first columnar accommodation structure 300
  • the inductance element 72 is arranged in the second columnar accommodation structure 400
  • the first circuit board 73 is connected to the induction coil 71
  • the second circuit board is connected to the inductance element 72
  • the induction coil 71 or the first circuit board 73 are connected to the mist through the wiring harness 6
  • the chip 2 is connected
  • the second circuit board is connected to the power supply through a wire harness.
  • the inductive element 72 generates a certain current in the induction coil 71 through electromagnetic induction based on an alternating current of a certain frequency, thereby transferring electric energy from the inductive element 72 to the induction coil 71, thereby The power supply to the atomizing sheet 2 is realized.
  • the first columnar accommodating structure 300 and the second columnar accommodating structure 400 are made of insulating materials, such as glass, plastic or ceramics, and not using metal can avoid electromagnetic shielding.
  • the first circuit board 73 is clamped on the inner wall of the electrical chamber 1c. As shown in FIG. The first circuit board 73 is clamped between the first buckle and the second buckle. Of course, in practical applications, the first circuit board 73 may also be connected to the inner wall of the electrical chamber 1c by other clamping methods.
  • a first limiting structure is formed on the inner wall of the electrical chamber 1c, and the first limiting structure abuts against the induction coil 71 to keep the induction coil 71 sleeved on the first columnar accommodation structure 300, and the first limiting structure
  • the structure may include a single limiting rib, multiple limiting ribs, or other structures capable of realizing the limiting function, which can be flexibly set by those skilled in the art. In a preferred situation, as shown in FIG.
  • the first limiting structure includes a first limiting rib 500a and a second limiting rib 500b formed on the inner wall of the electrical chamber 1c, and the first limiting rib 500a
  • the first limiting rib 500a and the second limiting rib 500b are both abutted against the induction coil 71 .
  • the rear wall of the electrical chamber 1c can be set as a detachable structure, that is, the rear side of the water box 1 is formed with an installation opening, and a fixing plate is plugged into the installation opening, and the fixing plate can form the electrical chamber 1c
  • the rear wall of the rear wall, the first columnar accommodation structure 300 and the first circuit board 73 are all arranged on the fixing plate.
  • a third columnar accommodation structure 600 is formed on the water box 1 , the first magnetic member 8 is accommodated in the third columnar accommodation structure 600 , and a fourth columnar accommodation structure is formed on the base 100 700, the second magnetic part 9 is accommodated in the fourth columnar accommodation structure 700, the position of the third columnar accommodation structure 600 on the water box 1 corresponds to the position of the fourth columnar accommodation structure 700 on the base 100, the first magnetic The component 8 is magnetically adsorbed to the second magnetic component 9.
  • the third columnar accommodation structure 600 is preferably formed on the inner side of the water box 1, such as the inner wall of the electrical chamber 1c.
  • the fourth columnar accommodation structure 700 is preferably formed on the base 100.
  • the outer side so that the inner side of the base 100 and the outer side of the water box 1 can be closer or even fit together.
  • the inside and outside of the above-mentioned water box 1 are both compared to the water box 1 itself, and the inside and outside of the base 100 are compared to the side of the laundry processing cylinder, which is close to the clothes processing cylinder. is the inner side of the base 100 , and the side away from the clothes processing drum is the outer side of the base 100 .
  • the axis of the third columnar accommodation structure 600 is collinear with the axis of the fourth columnar accommodation structure 700 .
  • the outer wall of the third columnar receiving structure 600 can also be made to abut against the first circuit board 73 so as to position the first circuit board.
  • the first circuit board 73 is formed with a notch 73a, the shape of the notch 73a is adapted to the shape of a part of the outer wall of the third columnar accommodation structure 600, and the notch 73a is against the outer wall of the third columnar accommodation structure 600
  • the outer wall of the third columnar accommodation structure 600 can cooperate with the notch 73a to guide the first circuit board 73, so that the first circuit board 73 is easier to snap into alignment and into place.
  • the atomization device also includes a feed cover 13, a feed port is formed on the water box 1, a first spiral groove is formed on the feed cover 13, and a feed port is formed on the feed port.
  • the second spiral groove, the feed cover 13 and the feed inlet are spirally connected through the first spiral groove and the second spiral groove.
  • the feed cover 13 and the feed port are screwed together so that the feed cover 13 can be screwed in and out relative to the feed port, that is, turning the feed cover 13 in one direction can realize that the feed cover 13 will feed the material.
  • the opening is screwed in and closed, and turning in the other direction can realize that the feed cover 13 is turned out to open the feed opening.
  • the feed cover 13 and the feed port can also adopt a flip structure pivotally connected.
  • a second limiting structure 800 is formed on the first helical groove
  • a third limiting structure 900 is formed on the second helical groove
  • the feeding cap 13 and the feeding port pass through the first The spiral groove and the second spiral groove are spirally connected, and the feeding cover 13 is limited to the locked position by the second limiting structure 800 and the third limiting structure 900 .
  • the second limiting structure 800 is a limiting groove
  • the third limiting structure 900 is a limiting protrusion
  • the second limiting structure 800 is a limiting protrusion
  • the third limiting structure 900 is a limiting protrusion. groove.
  • the limiting protrusion is a spherical protrusion
  • the limiting groove is a spherical groove.
  • a spherical groove is formed on the first spiral groove
  • a spherical groove is formed on the second spiral groove
  • the spherical groove and the spherical protrusion gradually approach on the helical path until the spherical protrusion into the spherical groove, the spherical protrusion and the spherical groove cooperate with each other to realize the limit locking of the feeding cover 13 and prevent the further rotation of the feeding cover 13, thereby realizing the final limit of the feeding cover 13.
  • the spherical groove is located at the end of the first helical groove or close to the end of the first helical groove
  • the spherical protrusion is located at the end of the second helical groove or close to the end of the second helical groove, wherein the end is compared with the end of the helical groove
  • the limiting protrusion is not limited to the spherical protrusion
  • the limiting groove is not limited to the spherical groove
  • the second limiting structure and the third limiting structure are not limited to those using the limiting protrusion and the limiting groove.
  • the form of cooperation other forms of cooperation can also be adopted, and those skilled in the art can flexibly set them.
  • a handle ring 14 is rotatably connected to the outer surface of the feed cover 13, and the handle ring 14 can be rotated and accommodated in the feed inlet in a non-lifting state, and the handle ring 14 It can be connected to the outer surface of the feed cover 13 in a pivotal connection.
  • the outer surface of the feed cover 13 has a certain distance from the outer edge of the feed port. The distance ensures that the handle ring 14 under the non-lifting state can be accommodated. In this state, the plane where the handle ring 14 is located is parallel to the plane where the outer surface of the feed cover 13 is located.
  • the handle ring 14 When the handle ring 14 is in the pulling position In the state, for example, the handle ring 14 exposes the feed port, so as to be convenient for the user to grasp, and the plane where the handle ring 14 is located is perpendicular to the plane where the outer surface of the feed cover 13 is located or at a certain angle, thereby twisting the handle
  • the hand ring 14 realizes the unscrewing of the feeding cap 13 from the feeding port.
  • the water box 1 includes a box body 11 and a box cover 12 , the outlet 1a is formed on the box body 11 , and the box cover 12 and the box body 11 are connected by a plurality of clamping members.
  • Each clamping member includes a first clamping piece 61 arranged on the box cover 12 and a second clamping piece 62 arranged on the box body 11, the first clamping piece 61 is a clamping plate with a bayonet, and the second clamping piece 62 is provided on the box body 11.
  • the second clamping member 62 is a clamping protrusion, and when installed, the bayonet of the clamping plate is engaged with the clamping protrusion.
  • the first clamping member 61 and the second clamping member 62 can also adopt other clamping methods.

Landscapes

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

Abstract

La présente invention concerne le domaine technique du traitement de vêtement, et concerne plus précisément un dispositif de traitement de vêtement et un procédé de traitement de vêtement associé. La présente invention vise à résoudre le problème dans les dispositifs de traitement de vêtement existants ne pouvant pas résoudre diverses exigences d'utilisateurs car, en raison de limitations structurales, des modes de nettoyage à la vapeur ou de nettoyage par atomisation sont relativement simples. À cet effet, le dispositif de traitement de vêtement de la présente invention comprend une cuve de traitement de vêtement reliée et un coussin de fenêtre, et un atomiseur ultrasonique configuré sur la cuve de traitement de vêtement et/ou le coussin de fenêtre. L'atomiseur ultrasonique comporte de multiples têtes d'atomisation qui sont indépendantes les unes des autres, et les multiples têtes d'atomisation peuvent chacune contenir les mêmes agents de traitement de vêtement identiques ou différents. La présente invention permet à un utilisateur d'obtenir de multiples types de soins de vêtement selon ses besoins personnels, de telle sorte qu'un soin de vêtement peut être personnalisé, ce qui permet d'obtenir une expérience de soins de vêtement personnalisée, satisfaisant à de multiples exigences d'utilisateur et améliorant l'expérience d'utilisation pour l'utilisateur.
PCT/CN2022/099841 2021-09-10 2022-06-20 Dispositif de traitement de vêtement et procédé de traitement de vêtement associé WO2023035723A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU2022343213A AU2022343213A1 (en) 2021-09-10 2022-06-20 Clothing treatment device and clothing treatment method thereof

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
CN202111063558.0A CN115787241A (zh) 2021-09-10 2021-09-10 衣物处理设备
CN202111063558.0 2021-09-10
CN202111523021.8A CN116263022A (zh) 2021-12-13 2021-12-13 衣物处理设备及其衣物处理方法
CN202111523021.8 2021-12-13
CN202210089811.8A CN116536884A (zh) 2022-01-25 2022-01-25 衣物处理设备
CN202210089811.8 2022-01-25

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WO2023035723A1 true WO2023035723A1 (fr) 2023-03-16

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Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20040134094A1 (en) * 2002-12-20 2004-07-15 Iris Hahn Clothes dryer and method for utilizing an ultrasound atomizer
EP2042645A1 (fr) * 2007-09-28 2009-04-01 BSH Bosch und Siemens Hausgeräte GmbH Dispositif et procédé d'équipement de linge dans un appareil ménager aquifère
CN209456768U (zh) * 2018-10-09 2019-10-01 青岛海尔滚筒洗衣机有限公司 一种喷雾装置及干衣机
CN110528224A (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
CN110528239A (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
CN111691110A (zh) * 2019-03-14 2020-09-22 青岛海尔洗衣机有限公司 用于衣物处理设备的雾化装置及衣物处理设备
CN211689573U (zh) * 2019-11-04 2020-10-16 佛山市顺德海尔电器有限公司 一种喷雾组件及衣物处理设备

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20040134094A1 (en) * 2002-12-20 2004-07-15 Iris Hahn Clothes dryer and method for utilizing an ultrasound atomizer
EP2042645A1 (fr) * 2007-09-28 2009-04-01 BSH Bosch und Siemens Hausgeräte GmbH Dispositif et procédé d'équipement de linge dans un appareil ménager aquifère
CN110528224A (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
CN110528239A (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
CN209456768U (zh) * 2018-10-09 2019-10-01 青岛海尔滚筒洗衣机有限公司 一种喷雾装置及干衣机
CN111691110A (zh) * 2019-03-14 2020-09-22 青岛海尔洗衣机有限公司 用于衣物处理设备的雾化装置及衣物处理设备
CN211689573U (zh) * 2019-11-04 2020-10-16 佛山市顺德海尔电器有限公司 一种喷雾组件及衣物处理设备

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