WO2023071132A1 - 衣物处理装置的内筒及衣物处理装置 - Google Patents

衣物处理装置的内筒及衣物处理装置 Download PDF

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Publication number
WO2023071132A1
WO2023071132A1 PCT/CN2022/090708 CN2022090708W WO2023071132A1 WO 2023071132 A1 WO2023071132 A1 WO 2023071132A1 CN 2022090708 W CN2022090708 W CN 2022090708W WO 2023071132 A1 WO2023071132 A1 WO 2023071132A1
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WO
WIPO (PCT)
Prior art keywords
drainage
cylinder body
cylinder
holes
clothes
Prior art date
Application number
PCT/CN2022/090708
Other languages
English (en)
French (fr)
Inventor
薛二鹏
周薇
王嘉
高弘锡
杨伟国
康菲
涂有明
仝帅
李事成
Original Assignee
无锡小天鹅电器有限公司
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.)
Filing date
Publication date
Application filed by 无锡小天鹅电器有限公司 filed Critical 无锡小天鹅电器有限公司
Priority to US17/927,730 priority Critical patent/US20240229325A1/en
Priority to EP22805745.1A priority patent/EP4194601A4/en
Priority to JP2022573193A priority patent/JP2024503165A/ja
Publication of WO2023071132A1 publication Critical patent/WO2023071132A1/zh

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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 
    • D06F39/12Casings; Tubs
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/02Rotary receptacles, e.g. drums
    • D06F37/04Rotary receptacles, e.g. drums adapted for rotation or oscillation about a horizontal or inclined axis
    • D06F37/06Ribs, lifters, or rubbing means forming part of the receptacle
    • D06F37/065Ribs, lifters, or rubbing means forming part of the receptacle ribs or lifters having means for circulating the washing liquid
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/02Rotary receptacles, e.g. drums
    • D06F37/04Rotary receptacles, e.g. drums adapted for rotation or oscillation about a horizontal or inclined axis
    • 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 
    • D06F39/08Liquid supply or discharge arrangements
    • D06F39/083Liquid discharge or recirculation arrangements
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F58/00Domestic laundry dryers
    • D06F58/02Domestic laundry dryers having dryer drums rotating about a horizontal axis
    • D06F58/04Details 
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F58/00Domestic laundry dryers
    • D06F58/20General details of domestic laundry dryers 

Definitions

  • the present application relates to the technical field of clothes treatment, in particular to an inner cylinder of a clothes treatment device and the clothes treatment device.
  • the present application proposes an inner cylinder of a clothes treatment device. While realizing the drainage of water in the inner cylinder, the inner cylinder can also prevent the drain hole from directly contacting the clothes and causing wear on the clothes, thereby improving user experience.
  • the present application also intends to propose a clothes treatment device having the above-mentioned inner tube.
  • the inner cylinder of the clothes processing device includes: a cylinder body, the cylinder body includes a cylinder bottom and a cylinder body; lifting ribs, the lifting ribs are arranged inside the cylinder body, at least one of the lifting
  • the position of the cylinder body covered by the ribs is provided with a plurality of drainage holes, and the drainage holes are in a normally open state to communicate with the inner and outer sides of the cylinder body. is a closed structure.
  • the lifting ribs can not only effectively play the role of improving the clothes treatment effect, but also effectively cover the drainage holes , to ensure that the inner side of the barrel except the part covered by the lifting ribs is formed into a closed structure, so that in the process of processing the clothes by the clothes treatment device, it is possible to prevent the drain holes from directly contacting the clothes and causing wear and tear on the clothes, which improves the user experience, and this
  • the drainage hole of the application is in a normally open state, on the one hand, the drainage effect is increased, and on the other hand, there is no need to install a seal at the drainage hole, and while reducing the production cost of the inner cylinder of the application, the structure of the inner cylinder can be simplified, and the production cost can be reduced. Difficulty of manufacture.
  • the barrel body includes a plurality of first barrel walls and a plurality of second barrel walls, the plurality of first barrel walls and the plurality of second barrel walls are arranged staggered and connected along a circumferential direction, and the plurality of A plurality of the drainage holes are arranged on at least one of the first cylinder walls, a plurality of the lifting ribs are correspondingly arranged on the plurality of the first cylinder walls to cover all the drainage holes, and the second cylinder
  • the wall is a non-porous structure.
  • the cylinder body is provided with multiple rows of drainage hole groups, each row of the drainage hole groups includes a plurality of the drainage holes, and the multiple rows of the drainage hole groups are arranged at intervals along the circumference of the cylinder body.
  • the spacing between any two adjacent rows of drain hole groups is equal; and/or, in each row of drain hole groups, a plurality of drain hole groups arranged at intervals along the axial and/or circumferential directions of the barrel.
  • the lifting ribs extend along the axial direction of the cylinder body, and the cylinder body is provided with a plurality of lifting ribs, and each of the lifting ribs can cover a row of the drainage hole groups on the cylinder body .
  • the inner wall of the cylinder body is formed with a concave arc surface, and the drainage hole is arranged on the concave arc surface.
  • the inner wall of the barrel body is formed with a plurality of recesses that are recessed toward the outside of the barrel body, and the drainage holes are provided on the bottom walls of the recesses.
  • a water flow channel is provided between the lifting rib and the cylinder body or on the structure of the lifting rib itself, and the drainage hole communicates with the inner cavity of the cylinder body through the water flow channel; and/or , the interior of the lifting rib is hollow, the cylinder body is provided with a plurality of clamping holes, the two sides of the lifting rib are respectively provided with a plurality of clamping hooks, and the multiple clamping hooks and the multiple clamping holes are one by one Corresponding snap fit.
  • the inner tube of the clothes processing device includes: a tube body, the tube body includes a tube bottom and a tube body, and the tube body has a drainage area; lifting ribs, the lifting ribs are arranged on the tube body and cover the drain area, wherein the position of the drain area covered by the lifting ribs is provided with multiple rows of drain hole groups, and each row of the drain hole groups includes a plurality of the drain holes, at least A plurality of the drain holes in two adjacent rows of the drain hole groups are arranged staggeredly in the axial direction of the cylinder body.
  • lifting ribs are arranged on the inner side of the cylinder body to cover the drainage area to achieve the purpose of covering multiple drainage holes.
  • the lifting ribs can be used to improve the effect of clothing treatment
  • the lifting ribs can also be used to cover the drainage holes, so that in the process of processing the clothes in the clothes processing device, the clothes can be prevented from being directly contacted by the drainage holes and caused to wear and tear on the clothes, thereby improving the user experience.
  • drain hole groups and arrange multiple drain holes in at least two adjacent rows of drain hole groups staggered in the axial direction of the cylinder body, so that the plurality of drain hole groups in two adjacent rows of drain hole groups are located on different sides of the cylinder body. position, so that the plurality of drainage holes cooperate with each other to discharge water at different positions of the cylinder body at the same time, so that the inner cylinder of the clothes treatment device can drain water easily, thereby improving the drainage efficiency.
  • a plurality of the drain holes in any two adjacent rows of the drain hole groups are arranged staggered in the axial direction of the barrel.
  • the distance between two adjacent drainage holes in the axial direction of the barrel is H1; in the two adjacent rows of the drainage hole groups, one row The distance between the drain holes in the drain hole group and the adjacent drain holes in another row of the drain hole groups in the axial direction of the barrel is H2, wherein the H1 is the Twice that of H2.
  • the distance between two adjacent rows of drain hole groups in the circumferential direction of the cylinder body is equal to the distance between two adjacent drain hole groups in each row of the drain hole groups in the axial direction of the cylinder body. Pitch.
  • the bottom of at least one side wall of the lifting rib is provided with a plurality of water outlets, and the water outlets cooperate with the cylinder body to form a water flow channel, wherein each of the water outlets is connected with at least one of the drainage outlets. corresponding to the hole position.
  • the drainage area includes a plurality of drainage areas arranged at intervals along the circumference of the barrel.
  • the inner peripheral wall of the barrel has a kneading area, and the kneading area is a non-porous area, and the kneading area and the drainage area are arranged in the circumferential direction of the barrel, wherein the kneading area A plurality of kneading convex parts are provided, and a plurality of kneading convex parts are arranged at intervals in the circumferential direction of the cylinder body; and/or, a flow guide channel is formed between two adjacent kneading convex parts, at least a part of the kneading convex parts One end of the diversion channel is facing the drainage area.
  • the laundry treatment device includes: an outer tub; according to the aforementioned inner tube of the laundry treatment device, the inner tube is rotatably arranged in the outer tub.
  • the clothes treating device of the embodiment of the present application by using the aforementioned inner cylinder of the clothes treating device, it is possible to effectively reduce the wear and tear on the clothes when the clothes treating device processes the clothes, and effectively improve the user experience.
  • Fig. 1 is a schematic diagram of the three-dimensional structure of the inner cylinder of some embodiments of the present application.
  • Fig. 2 is a side view of the inner cylinder of some embodiments of the present application.
  • Fig. 3 is a front view of the inner barrel of some embodiments of the present application.
  • FIG. 4 is a partially enlarged view of area I in FIG. 3 .
  • Fig. 5 is a schematic perspective view of the three-dimensional structure of the inner cylinder in other embodiments of the present application.
  • Fig. 6 is a partial structural schematic diagram of an inner cylinder according to other embodiments of the present application.
  • Fig. 7 is a cross-sectional view of lifting ribs in other embodiments of the present application.
  • Fig. 8 is a schematic block diagram of a laundry treatment device according to some embodiments of the present application.
  • the inner tube 1000 of the laundry treatment device includes: a tube body 100 and lifting ribs 200 .
  • the cylinder body 100 includes a cylinder body 120 and a cylinder bottom 110.
  • the lifting rib 200 is arranged on the inside of the cylinder body 120.
  • a plurality of drainage holes 1231 are arranged on the position of the cylinder body 120 covered by at least one lifting rib 200.
  • the drainage hole 1231 is in a normally open state, so that the inner side and the outer side of the cylinder body 100 are always connected through the drain hole 1231, and the part of the cylinder body 120 that is not covered by the lifting rib 200 is a closed structure.
  • the lifting ribs 200 can drive the clothes to rotate.
  • the height of the clothes can be raised through the lifting ribs 200, and the clothes fall back under the action of gravity, thereby realizing the up and down beating of the clothes And to realize the turning over of the clothes to achieve the purpose of processing the clothes.
  • the contact area between the clothes and the inner cylinder 1000 can be increased through the lifting ribs 200, so that the clothes close to the lifting ribs 200 can rub against the lifting ribs 200 to produce a rubbing effect , so as to improve the laundry processing capacity of the inner tube 1000 and improve user experience.
  • the drainage hole 1231 can realize the communication between the inner cylinder 1000 and the external flow path, ensure that the water in the inner cylinder 1000 can be discharged smoothly through the drainage hole 1231, and achieve the purpose of treating the clothes, and A plurality of drainage holes 1231 cooperate with drainage at the same time to improve drainage efficiency and achieve the purpose of completely draining washing water and dirt, thereby further improving the clothes treatment capacity of the inner cylinder 1000 .
  • the structure on the inner tube 1000 can be fully utilized to cover the drainage hole 1231, and no other installation is required.
  • the structure that covers the drainage hole 1231 can not only make the structure of the inner cylinder 1000 simple, but also ensure that the inner side of the cylinder body 120 except the parts covered by the lifting rib 200 are all formed into a closed structure, so that in the process of clothes processing, the drainage The hole 1231 will not directly contact the clothes, so that the edge of the drainage hole 1231 is prevented from wearing the clothes, thereby effectively solving the problem of clothes wear, greatly reducing the wear rate of the clothes, and improving the user experience.
  • the drainage hole 1231 is set to be in a normally open state, and the inner and outer sides of the cylinder body 100 are always connected through the drainage hole 1231, which can not only improve the drainage efficiency, but also completely discharge the washing water and dirt in the inner cylinder 1000, improving the Drainage effect, and then improve the laundry treatment capacity of the inner cylinder 1000.
  • there is no need to provide a seal at the drain hole 1231 to seal the drain hole 1231 which reduces the production cost and manufacturing difficulty of the inner cylinder 1000 of the present application, and also makes the structure of the inner cylinder 1000 simple and easy to control.
  • the inner cylinder 1000 of the clothes treatment device of the present application ensures that the clothes treatment device can process
  • the drain hole 1231 will not be in direct contact with the clothes when washing clothes, so as to prevent the drain hole 1231 from drawing or scratching the clothes and improve the user experience, and the drain hole 1231 is in a normally open state to connect the inner and outer sides of the cylinder body 100 to ensure that the inside of the cylinder body 100 While the water flow can be discharged in time and thoroughly, the structure of the inner cylinder 1000 is also simple.
  • the barrel body 120 includes a first barrel wall 121 and a second barrel wall 122, and each of the first barrel wall 121 and the second barrel wall 122 includes a plurality of, A plurality of first cylinder walls 121 and a plurality of second cylinder walls 122 are staggered and connected along a circumferential direction, that is to say, in the circumferential direction of the cylinder body 120, there is a
  • the second cylinder wall 122 has a first cylinder wall 121 between two adjacent second cylinder walls 122 .
  • a plurality of drainage holes 1231 are disposed on at least one first cylinder wall 121 , and a plurality of lifting ribs 200 are correspondingly disposed on the plurality of first cylinder walls 121 to cover all the drainage holes 1231 .
  • the first cylinder wall 121 provides space for the arrangement of multiple drainage holes 1231 and multiple lifting ribs 200, ensuring that multiple lifting ribs 200 can be arranged on the cylinder body 120, and ensuring that the lifting ribs 200 can be set corresponding to multiple drainage holes 1231,
  • the drain hole 1231 is covered to prevent the drain hole 1231 from being in contact with the clothes and causing the clothes to be pulled or scratched, so as to improve user experience.
  • the second cylinder wall 122 is a non-porous structure. Since the second cylinder wall 122 directly touches the clothes during the process of treating the clothes, the second cylinder wall 122 can be set as a non-porous structure to prevent the second cylinder wall 122 from scratching the clothes.
  • the plurality of second cylinder walls 122 are provided with concave and convex lines.
  • the texture can give the clothes greater frictional resistance when handling the clothes, so that the cylinder body 120 itself has a rubbing effect, so that the clothes can be handled more cleanly and user experience can be improved.
  • the lifting ribs 200 are arranged on the first cylinder wall 121, which can also ensure that the lifting ribs 200 will not cover the concave and convex lines, so that the cylinder body 120 All textures are set to function effectively on their own.
  • each row of drainage hole groups 123 includes a plurality of drainage holes 1231. 120 circumferential spacing settings.
  • the number of drainage holes 1231 on the cylinder body 120 can be increased, thereby improving the drainage capacity of the inner cylinder 1000 and improving drainage efficiency.
  • Set at intervals so that the water flow in multiple places in the inner cylinder 1000 can be discharged through the drainage holes 1231 at the same time, so as to further improve the drainage efficiency, especially in the process of using the inner cylinder 1000 for dehydration.
  • the distance between any two adjacent rows of drain hole groups 123 is equal. That is to say, multiple rows of drainage hole groups 123 are evenly spaced in the circumferential direction of the cylinder body 120 , and the multiple rows of drainage hole groups 123 cooperate to simultaneously discharge the water in the inner cylinder 1000 to further improve drainage efficiency.
  • a plurality of drain holes 1231 are arranged at intervals along the axial direction of the cylinder body 120 .
  • the plurality of drain holes 1231 cooperate to discharge water at different positions in the axial direction of the cylinder body 120, thereby improving drainage efficiency.
  • a plurality of drain holes 1231 are arranged at intervals along the circumference of the cylinder body 120 .
  • a plurality of drainage holes 1231 cooperate to discharge water at different positions in the circumferential direction of the cylinder body 120, thereby improving drainage efficiency.
  • each row of drain hole groups 123 a plurality of drain holes 1231 are arranged at intervals along the axial direction and the circumferential direction of the cylinder body 120 .
  • a plurality of drain holes 1231 are not only arranged at intervals along the axial direction of the barrel body 120, but also arranged at intervals along the circumferential direction of the barrel body 120, so as to increase the number of drain holes 1231, so that each row of drain hole groups 123 can The water flow at different positions in the axial direction of the barrel body 120 and the water flow at different positions in the circumferential direction of the barrel body 120 are discharged, further improving drainage efficiency.
  • the cylinder body 120 is provided with three rows of drainage hole groups 123, which are evenly distributed on the cylinder body 120, and the three rows of drainage hole groups 123 are used to discharge all the water in the inner cylinder 1000 to achieve dehydration. purpose, and improve dehydration efficiency.
  • drain hole groups 123 As the number of drain hole groups 123 increases, the structural strength of the cylinder body 120 will decrease accordingly. Therefore, setting three rows of drain hole groups 123 can effectively improve the structure of the cylinder body 120 while improving drainage efficiency. Strength, thereby prolonging the service life of the inner cylinder 1000.
  • the lifting ribs 200 extend along the axial direction of the barrel body 100 .
  • the lifting rib 200 can effectively drive the clothes to turn over and increase the contact area between the inner cylinder 1000 and the clothes, so as to achieve the effect of treating the clothes and improve the cleanliness of the clothes.
  • the cylinder body 120 is provided with a plurality of lifting ribs 200 , and each lifting rib 200 can cover a row of drainage hole groups 123 on the cylinder body 120 .
  • a plurality of lifting ribs 200 is used to further increase the contact area between the inner cylinder 1000 and the clothes, and improve the cleanliness of the clothes treatment, and by setting a plurality of lifting ribs 200, the number of drainage hole groups 123 can also be correspondingly set in multiples, Multiple rows of drain hole groups 123 are formed on the barrel body 120, thereby effectively draining the water in the inner barrel 1000, improving drainage efficiency, and further improving the cleanliness of clothes treatment.
  • the cylinder body 120 is provided with three lifting ribs 200 , and the three lifting ribs 200 are evenly distributed on the inner wall of the inner cylinder 1000 to cover the drainage hole group 123 .
  • the lifting ribs 200 will rotate together with the inner tube 1000.
  • the lifting ribs 200 can lift the clothes. 200 continues to rotate, and the clothing will break away from the lifting rib 200 and fall freely under the action of gravity, so as to beat on the tumbling water flow or other clothing. In this way, the purpose of washing clothes is achieved, and the washing effect of the clothes treatment device is improved.
  • the number of lifting ribs 200 is not limited to the above three, mainly to ensure that the number of lifting ribs 200 can correspond to the number of drainage hole groups 123, and that the lifting ribs 200 can effectively cover the drainage holes 1231. .
  • the inner wall surface of the cylinder body 120 is formed with a concave arc surface, that is, with the cylindrical surface where the inner wall surface of the cylinder body 120 is located as a reference plane, the concave arc surface is set in a direction away from the cylinder surface , so that the concave arc is on the outside of the cylinder.
  • the drainage hole 1231 is disposed on the concave arc surface. Specifically, it can be understood that, in the radial direction of the cylinder body 120, the drainage hole 1231 is set lower than the cylindrical surface, so that in the process of draining or dehydrating the laundry treatment device, it is beneficial for the water to flow toward the drainage hole 1231, thereby improving the efficiency of the laundry treatment device. Drainage efficiency, thereby improving dehydration quality.
  • the inner wall surface of the barrel body 120 is formed with a plurality of recesses that are recessed toward the outside of the barrel body 100.
  • the recesses may have a bottom wall and a side wall, and the cylindrical surface where the inner wall surface of the barrel body 120 is located is On the reference plane, the bottom wall of the concave portion is lower than the cylindrical surface, and the drainage hole 1231 is disposed on the bottom wall of the concave portion.
  • the wall surface of the concave part can also form a concave arc surface, and the drainage hole 1231 is arranged at a lower position of the concave arc surface.
  • the above setting also ensures that in the radial direction of the cylinder body 120, the drainage hole 1231 can be set lower than the inner wall surface of the cylinder body 120, which is conducive to the flow of water towards the drainage hole 1231, thereby improving the dehydration quality, effectively reducing the moisture content of the clothes, and improving the quality of the clothes. washing effect.
  • a water flow channel is provided between the lifting rib 200 and the cylinder body 120 , and the drainage hole 1231 communicates with the inner cavity of the cylinder body 100 through the water flow channel.
  • the water flow in the inner cavity of the cylinder body 100 can flow to the drain hole 1231 through the water flow channel, and then be discharged through the drain hole 1231 to achieve the purpose of dehydration, and by setting the water flow channel, the water flow channel can also guide the flow of water flow function to further improve drainage efficiency.
  • part of the structure of the lifting rib 200 is spaced apart from the barrel body 120 to form a water flow channel, so as to facilitate the communication between the drainage hole 1231 and the inner cavity of the barrel body 100 .
  • the surface of the lifting rib 200 can be made into a non-porous structure, which not only simplifies the processing procedure of the lifting rib 200, but also reduces the difficulty of manufacturing , and can further reduce the wear and tear of the inner tube 1000 on the clothes.
  • the lifting rib 200 itself is structurally provided with a water flow channel, and the drainage hole 1231 communicates with the inner cavity of the cartridge body 100 through the water flow channel.
  • Such an arrangement can also guide the water flow in the inner cavity of the cylinder body 100 to the drainage hole 1231 to achieve the purpose of dehydration.
  • a plurality of water inlets 220 are formed on the lifting rib 200 , and the plurality of water inlets 220 are formed as inlets of the water flow channel to communicate with the drain hole 1231 and the inner cavity of the cartridge body 100 .
  • the diameter of the water inlet 220 formed on the lifting rib 200 can be set to be relatively small.
  • a plurality of water inlets 220 can be set on the lifting rib 200, and multiple water inlets 220 with smaller diameters can be used to lift the clothes. While processing the dehydration capacity of the inner cylinder 1000 of the device, it can also prevent the edge of the water inlet 220 from scratching the clothes.
  • the distance between the water flow channel and the cylinder body 120 can be increased, so that the water flow in the inner cylinder 1000 can be slower during the process of washing clothes. outflow, so that the inner cylinder 1000 maintains a higher water level, so that the water consumption of the inner cylinder 1000 can be saved, thereby achieving the effect of water saving, and the above-mentioned setting can also realize that the inner cylinder 1000 and the outer bucket do not cross water, so that Dirt bacteria between the inner cylinder 1000 and the outer tub will not flow into the inner cylinder 1000 along with the water flow channel, thereby achieving the effect of healthy washing.
  • the interior of the lifting rib 200 is hollow. In this way, when the water flows through the water flow channel toward the drainage hole 1231 , it can be ensured that the lifting rib 200 will not hinder the flow of the water flow, so that the water flow can flow smoothly to achieve the purpose of drainage.
  • the cylinder body 120 is provided with a plurality of locking holes, and the two sides of the lifting rib 200 are respectively provided with a plurality of locking hooks 210, and the plurality of locking hooks 210 correspond to the plurality of locking holes one by one. snap fit.
  • Adopting the connection mode of clamping fit can make the lifting rib 200 fixedly arranged on the cylinder body 120, while ensuring the stability of the lifting rib 200 relative to the cylinder body 120, it can also make the cooperation between the lifting rib 200 and the cylinder body 120 convenient, reduce the The assembly of the inner cylinder 1000 is difficult and makes the structure of the inner cylinder 1000 simple. And the cooperation of the clamping hole and the hook 210 makes the lifting rib 200 and the cylinder body 120 form a detachable connection, that is, the lifting rib 200 and the cylinder body 120 can be completely disassembled, which is convenient for replacing or disassembling the lifting rib 200 .
  • connection between the lifting rib 200 and the cylinder body 120 is not limited to the above-mentioned snap fit between the hook 210 and the locking hole, and can also be other connection methods, for example: the lifting rib 200 A plurality of first connection holes are respectively provided on both sides, and a plurality of second connection holes matched with the first connection holes are provided on the cylinder body 120, wherein the second connection holes are formed as internally threaded holes, and the bolts pass through the first connection holes.
  • the hole is fixedly connected in the second connection hole to realize the detachable connection between the lifting rib 200 and the cylinder body 120; or, the cylinder body 120 is provided with a plurality of slots, and the two sides of the lifting rib 200 are respectively provided with a plurality of buckles, A plurality of buckles and a plurality of slots are plugged in one-to-one correspondence, and the detachable connection between the lifting rib 200 and the cylinder body 120 can also be realized.
  • the inner cylinder 1000 can be made of stainless steel, which can enhance the strength and rigidity of the inner cylinder 1000, thereby prolonging the service life of the inner cylinder 1000 of the clothes treatment device, and the stainless steel cylinder has a metallic texture, which can Enhance the visual aesthetics of the inner barrel 1000.
  • the inner tube 1000 of the laundry treatment device includes: a tube body 100 and lifting ribs 200 .
  • the cartridge body 100 includes a cartridge bottom 110 and a cartridge body 120 having a drainage area 124 .
  • the drainage area 124 is mainly for the convenience of arranging the drainage holes 1231, so as to facilitate the drainage of the subsequent inner cylinder 1000 when the clothes are processed.
  • the lifting rib 200 is arranged on the inner side of the cylinder body 120 and covers the drainage area 124.
  • the position of the drainage area 124 covered by the lifting rib 200 is provided with a plurality of rows of drainage hole groups 123, and each row of drainage hole groups 123 of the drainage holes 1231 includes a plurality of drainage holes.
  • each row of drainage hole groups 123 of the drainage holes 1231 includes a plurality of drainage holes.
  • a plurality of drainage holes 1231 can realize the communication between the inner cylinder 1000 and the external flow path, and ensure that the water in the inner cylinder 1000 can be discharged smoothly through the drainage holes 1231 to achieve the purpose of treating the clothes, and the plurality of drainage holes 1231 cooperate with drainage at the same time, In order to improve the drainage efficiency of the inner cylinder 1000, at the same time achieve the purpose of completely draining the washing water and dirt, and improve the clothes treatment capacity of the inner cylinder 1000.
  • the present application uses the lifting rib 200 to cover the drainage area 124, that is, the lifting rib 200 is used to cover multiple drainage holes 1231.
  • the lifting rib 200 prevents the user from directly observing the drainage area 124 and improves the aesthetics of the inner cylinder 1000;
  • the drain hole 1231 will not directly contact the clothes, thereby avoiding the hole edge of the drain hole 1231 from wearing the clothes, so as to effectively solve the problem of the drain holes wearing the clothes in the prior art, and reduce the wear rate of the clothes.
  • the lifting ribs 200 are arranged on the inner side of the cylinder body 120. During the washing process of the clothes processing device, as the cylinder body 100 rotates, the lifting ribs 200 can drive the rotation of the clothes. On the one hand, the lifting ribs 200 can Raise the height of the clothes, and the clothes with a certain height will fall back under the action of gravity, so as to realize the up and down beating of the clothes and the turning over of the clothes, so as to achieve the purpose of processing the clothes; The contact area with the inner tube 1000 enables the clothes close to the lifting ribs 200 to rub against the lifting ribs 200 to generate a rubbing effect, thereby improving the clothes handling capacity of the inner tube 1000 and improving user experience.
  • the lifting rib 200 of the present application can not only improve the clothes handling capacity of the inner tube 1000 but also improve the aesthetics of the inner tube 1000, and at the same time prevent the holes of the drainage hole 1231 from wearing out the clothes, and through the above setting, there is no need to Providing other structural parts for shielding the drainage hole 1231 can reduce the production cost of the inner cylinder 1000 while simplifying the structure of the inner cylinder 1000 .
  • the multi-row drainage hole groups 123 can ensure that there are more drainage holes 1231 in the drainage area 124, and more A plurality of drainage holes 1231 cooperate with drainage to improve the drainage efficiency of the inner cylinder 1000, and a plurality of drainage holes 1231 in at least two adjacent rows of drainage hole groups 123 are arranged staggered in the axial direction of the cylinder body 120.
  • multiple rows of drainage hole groups 123 are arranged adjacent to each other, wherein in the two adjacent rows of drainage hole groups 123, at least two rows of drainage hole groups 123 have a plurality of drainage holes 1231 on the axis of the cylinder body 120. to the staggered setting.
  • the axially staggered arrangement mentioned here can be understood as, in the axial direction of the cylinder body 120, the spacing between the two adjacent drainage holes 1231 in the two adjacent rows of drainage hole groups 123 and the cylinder bottom 110 is different. .
  • the plurality of drainage holes 1231 in the drainage area 124 can be located at different positions of the cylinder body 120 no matter in the axial direction or in the circumferential direction.
  • the discharge of water at different positions of 120 makes the drainage of the inner cylinder 1000 more convenient, and at the same time improves the drainage efficiency, so that the washing water and dirt in the inner cylinder 1000 can be discharged smoothly and thoroughly, improving the drainage effect.
  • the inner cylinder 1000 of the laundry treatment device of the present application is provided with a plurality of drainage holes 1231 arranged staggered in the axial direction of the cylinder body 120 on the drainage area 124, and the plurality of staggered drainage holes 1231
  • the drainage holes 1231 cooperate to improve the drainage efficiency of the inner cylinder 1000 and also improve the drainage effect.
  • the application also arranges a plurality of drainage holes 1231 at the positions covered by the lifting ribs 200 to ensure that the clothes treatment device drains water when processing clothes.
  • the hole 1231 will not directly contact with the clothes, so as to prevent the drain hole 1231 from drawing or scratching the clothes, so as to improve the user experience.
  • the plurality of drain holes 1231 in any two adjacent rows of drain hole groups 123 are arranged staggered in the axial direction of the cylinder body 120 . That is to say, multiple rows of drainage hole groups 123 are arranged in the drainage area 124, and the multi-row drainage hole groups 123 are arranged adjacent to each other, wherein the plurality of drainage holes 1231 in any two adjacent rows of drainage hole groups 123 are arranged on the cylinder body 120.
  • the axial directions are all staggered, so that the multiple drainage holes 1231 in the drainage area 124 are arranged staggered in the axial direction of the cylinder body 120, so that the multiple drainage holes 1231 can be simultaneously discharged through the water flow at different places on the cylinder body 120, In order to improve the drainage efficiency of the inner cylinder 1000.
  • each row of drain hole groups 123 the distance between two adjacent drain holes 1231 in the axial direction of the cylinder body 120 is H1 .
  • a plurality of drain holes 1231 in each row of drain hole groups 123 can be arranged at intervals along the axial direction of the cylinder body 120 , so as to discharge water at different positions in the axial direction of the cylinder body 120 .
  • the distance between two adjacent drain holes 1231 in the same column of drain holes 123 mentioned above is H1, which means that no other fixing parts or other fixtures are arranged in the same row of drain hole groups 123.
  • Structural components for example: as shown in FIG. 5 and FIG. 6 , when other structural components are provided in the region of the drainage hole group 123 located in the leftmost column of the drainage area 124, the adjacent two drainage holes 1231 need to avoid the structural component , the phenomenon that the distance between two adjacent drainage holes 1231 in the axial direction of the cylinder body 120 is larger than H1 will also appear.
  • the distance between two adjacent drain holes 1231 in the axial direction of the cylinder body 120 is H1;
  • the distance between the two adjacent drainage holes 1231 in the axial direction of the cylinder body 120 is adjusted accordingly with the size of the structural components.
  • the distance between the holes 1231 in the axial direction of the cylinder body 120 is set to H1.
  • the drainage holes 1231 in one row of drainage hole groups 123 are connected to the adjacent drainage holes 1231 in the other row of drainage hole groups 123 on the cylinder body.
  • the axial spacing of 120 is H2, wherein H1 is twice of H2. That is to say, the distance between the drain holes 1231 in one row of drain hole groups 123 and the adjacent drain holes 1231 in the other row of drain hole groups 123 in the axial direction of the cylinder body 120 is smaller than that of the adjacent row of drain hole groups 123 in the same row.
  • the distance between the two drainage holes 1231 in the axial direction of the barrel body 120 enables the plurality of drainage holes 1231 in two adjacent rows of drainage hole groups 123 to be staggered in the axial direction of the barrel body 120 to improve the inner cylinder 1000. Drainage efficiency, while improving the drainage effect.
  • the drain holes 1231 in one row of drain hole groups 123 and the adjacent drain holes 1231 in the other row of drain hole groups 123 are in the axial direction of the cylinder body 120.
  • the spacing is H1
  • the distance between the drainage holes 1231 in one row of drainage hole groups 123 and the adjacent drainage holes 1231 in the other row of drainage hole groups 123 in the axial direction of the cylinder body 120 is equal to that of the same row of drainage hole groups 123
  • the gap between the drain holes 1231 in one row of drain hole groups 123 and the adjacent drain holes 1231 in the other row of drain hole groups 123 will appear.
  • the distance between the drain holes 1231 in one row of drain hole groups 123 and the adjacent drain holes 1231 in the other row of drain hole groups 123 in the axial direction of the cylinder body 120 is set to be smaller than that of the same row of drain holes.
  • the distance between two adjacent drainage holes 1231 in the hole group 123 in the axial direction of the cylinder body 120 is such that when part of the water flow in the cylinder body 120 flows between the adjacent two drainage holes 1231 in one row of drainage hole groups 123 At this time, the water flow can continue to flow and flow to one of the drain holes 1231 in the other row of drain hole groups 123, and be discharged smoothly through the drain holes 1231 in the other row of drain hole groups 123, thereby improving the drainage efficiency of the inner cylinder 1000 .
  • the distance between two adjacent rows of drainage hole groups 123 in the circumferential direction of the cylinder body 120 is equal to the distance between two adjacent drainage hole groups 123 in each row of drainage hole groups 123 in the axial direction of the cylinder body 120 .
  • the distance between two adjacent rows of drainage hole groups 123 in the circumferential direction of the cylinder body 120 is H1 (as shown in FIG. 6 ), so that the adjacent two rows of drainage hole groups 123 can They are arranged at intervals, so as to ensure that the multi-row drainage hole groups 123 cooperate to discharge the water flow at different positions in the circumferential direction of the cylinder body 120, thereby improving the drainage efficiency.
  • the lifting rib 200 itself is provided with a water flow channel (not shown in the figure), and the drainage hole 1231 communicates with the inner cavity of the barrel body 100 through the water flow channel.
  • the water flow channel is used to avoid the water flowing towards the drainage hole 1231, and at the same time, it can also guide the flow of the water flow, so as to ensure that the water in the inner cavity of the cylinder body 100 can flow smoothly to the drainage hole 1231, and then be discharged through the drainage hole 1231. So as to achieve the purpose of dehydration.
  • part of the structure of the lifting rib 200 can be spaced apart from the cylinder body 120 to realize a water flow channel between the lifting rib 200 and the cylinder body 120, so as to facilitate the communication between the drain hole 1231 and the inner cavity of the cylinder body 100 .
  • the bottom of at least one side wall of the lifting rib 200 is provided with a water outlet.
  • the water outlet is located between the side wall of the lifting rib 200 and the cylinder body 120 so as to realize the A water flow channel is formed between the 200 and the barrel body 120 , that is, the water outlet cooperates with the barrel body 120 to form a water flow channel, so as to realize the communication between the drainage hole 1231 and the inner cavity of the barrel body 100 .
  • multiple water outlets there are multiple water outlets, and multiple water outlets are arranged at intervals at the bottom of the side wall of the lifting rib 200.
  • the cooperation of multiple water outlets can increase the water passage area of the water flow channel, thereby ensuring that the water in the inner cavity of the barrel body 100 can Fast flow into the water flow channel, so that the drainage hole 1231 can quickly discharge the water flow, so as to improve the drainage efficiency.
  • arranging a plurality of water outlets at intervals can utilize the side walls of the lifting ribs 200 between two adjacent water outlets to connect the lifting ribs 200 to the inner side of the cylinder body 120, thereby realizing the fixed connection between the lifting ribs 200 and the cylinder body 100 .
  • multiple water outlets are arranged at intervals along the length direction of the lifting rib 200 , and multiple water outlets are provided on opposite sides of the lifting rib 200 in the width direction.
  • the cooperation of the plurality of water outlets can guide the water at different positions in the length direction of the cylinder body 120 to the drain hole 1231, that is, to ensure that the cylinder body 120
  • the water at different positions along the length direction can be diverted to the drainage hole 1231 and discharged through the drainage hole 1231 at the same time, so as to further improve the drainage efficiency.
  • the cooperation of the multiple water outlets here can guide the water in the inner cavity of the cylinder body 120 located on both sides of the width of the lifting rib 200 to the drain.
  • the multiple water outlets cooperate to guide the water at different positions in the circumferential direction of the cylinder body 120 to the The drainage hole 1231 is located and discharged through the drainage hole 1231, that is to ensure that the water at different positions in the circumferential direction of the cylinder body 120 can be discharged at the same time, so as to further improve the drainage efficiency.
  • the present application arranges a plurality of water outlets arranged at intervals along the length direction of the lifting rib 200 to discharge water at different positions in the axial direction of the cylinder body 120 at the same time;
  • a plurality of water outlets are provided on the opposite sides for simultaneously discharging water at different positions in the circumferential direction of the cylinder body 120, thereby ensuring that water at multiple positions in the axial direction and circumferential direction of the cylinder body 120 can be discharged simultaneously.
  • each water outlet corresponds to at least one drainage hole 1231 .
  • the water flow channel provided between the lifting rib 200 and the cylinder body 120 can correspond to the position of at least one drainage hole 1231, wherein, the position correspondence mentioned here can be understood as, in the axial direction of the cylinder body 120, the water flow channel is at least It is set opposite to a drainage hole 1231 , so that the water flow channel can directly guide the water in the inner cavity of the cylinder body 120 to the drainage hole 1231 , thereby improving the drainage efficiency of the inner cylinder 1000 .
  • the present application provides a water flow channel between the lifting rib 200 and the cylinder body 120, so that the surface of the lifting rib 200 can be made into a non-porous structure, which not only simplifies the processing procedure of the lifting rib 200, but also reduces the It is difficult to manufacture, and can further reduce the wear and tear of the inner tube 1000 on the clothes.
  • the drainage area 124 includes a plurality of drainage areas 124 arranged at intervals along the circumference of the cylinder body 120 . Because each drainage area 124 is provided with multiple rows of drainage holes 123 and each row of drainage holes 123 includes a plurality of drainage holes 1231, such arrangement can increase the number of drainage holes 1231 on the cylinder body 120, thereby improving The drainage capacity of the inner cylinder 1000 improves drainage efficiency.
  • the present application arranges a plurality of drainage areas 124 at intervals along the circumference of the cylinder body 120, so that the water flow in multiple places in the inner cylinder 1000 can be discharged through the drainage holes 1231 at the same time, so as to further improve the drainage efficiency, especially in the use of During the dehydration process of the drum 1000, the cooperation of the plurality of drainage holes 1231 can greatly improve the dehydration quality, so as to reduce the moisture content on the clothes.
  • the cylinder body 120 is provided with three drainage areas 124, the three drainage areas 124 are evenly distributed on the cylinder body 120, and the three drainage areas 124 are used to discharge all the water in the inner cylinder 1000 to achieve the purpose of dehydration, And improve dehydration efficiency.
  • the cylinder body 120 is provided with a plurality of lifting ribs 200 .
  • the multiple lifting ribs 200 are used to cooperate with the multiple drainage areas 124 on the cylinder body 120, and each lifting rib 200 covers a drainage area 124 on the cylinder body 120, thereby ensuring that each drainage area 124 is provided with Lifting the ribs 200 prevents the holes of the drainage holes 1231 from wearing clothes, so as to effectively solve the problem of clothes wearing.
  • the plurality of lifting ribs 200 cooperate to further increase the contact area between the inner cylinder 1000 and the clothes, and improve the cleanliness of clothes treatment.
  • the cylinder body 120 is provided with three lifting ribs 200 , and the three lifting ribs 200 are evenly distributed on the inner wall of the inner cylinder 1000 to cover the three drainage regions 124 respectively.
  • the lifting ribs 200 will rotate together with the inner tube 1000.
  • the lifting ribs 200 can lift the clothes. 200 continues to rotate, and the clothing will break away from the lifting rib 200 and fall freely under the action of gravity, so as to beat on the tumbling water flow or other clothing. In this way, the purpose of washing clothes is achieved, and the washing effect of the clothes treatment device is improved.
  • the number of lifting ribs 200 is not limited to the above three, and the number of lifting ribs 200 can also be four, five, etc., mainly to ensure that the number of lifting ribs 200 can be compared with that of the drainage area 124. The quantity corresponds, and it only needs that the lifting ribs 200 can effectively cover the drainage holes 1231 .
  • the inner peripheral wall of the cylinder body 120 has a rubbing area (not shown in the figure).
  • the rubbing area can provide greater frictional resistance to the clothes when the inner tub 1000 processes the clothes, so that the barrel body 120 itself has a rubbing effect, so that the clothes can be handled more cleanly and user experience can be improved.
  • the kneading area and the drainage area 124 are arranged in the circumferential direction of the cylinder body 120 . It can also be understood that when the cylinder body 120 is provided with a plurality of drainage areas 124, the kneading area is located between two adjacent drainage areas 124, because the area of the cylinder body 120 in the circumferential direction is relatively large, such setting can maximize the The kneading area and the drainage area 124 with a relatively large area are arranged on the top, on the one hand, the cleaning effect of the inner cylinder 1000 is improved, and on the other hand, the drainage efficiency can also be improved.
  • the kneading areas and the draining areas 124 are alternately arranged on the circumference of the cylinder body 120 . That is to say, when the cylinder body 120 is provided with a kneading area, no drainage area 124 is provided. Correspondingly, when the cylinder body 120 is provided with a drainage area 124, no kneading area is provided. It needs to be covered on the drainage area 124.
  • the rubbing area and the lifting ribs 200 can be alternately arranged in the circumferential direction of the cylinder body 120, so as to avoid the lifting ribs 200 covering the rubbing area, so that the rubbing area can give the clothes friction to the greatest extent. Resistance to improve the washing quality of clothes. At the same time, the above arrangement can also avoid opening the drainage holes 1231 in the kneading area, making the arrangement of the drainage holes 1231 simpler and more convenient.
  • the rubbing areas and the lifting ribs 200 cooperate with each other to rub the clothes, which can further improve the clothes processing capacity of the inner cylinder 1000 .
  • the kneading area is provided with a plurality of kneading protrusions, and the plurality of kneading protrusions are arranged at intervals in the circumferential direction of the cylinder body 120 .
  • the kneading protrusions here can be understood as a plurality of protrusions arranged on the kneading area.
  • the kneading protrusions can contact with the clothes and rub against each other to produce a rubbing effect, thereby improving the processing efficiency of the inner tube 1000.
  • the cooperation of multiple rubbing convex parts can increase the contact area between the rubbing area and the clothes, thereby further improving the clothes handling capacity of the inner cylinder 1000.
  • the kneading zone is a non-porous zone. That is, no holes are opened in the rubbing area, because the rubbing area will directly contact the clothes during the process of processing the clothes in the inner cylinder 1000.
  • the rubbing area By setting the rubbing area as a non-porous area, the rubbing area can be avoided from wearing and scratching the clothes, that is, avoid The inner cylinder 1000 causes wear on the clothes when the clothes are processed, thereby improving user experience.
  • a diversion channel is formed between two adjacent kneading protrusions, and one end of at least a part of the diversion channel faces the drainage area 124 .
  • multiple kneading convex parts can be arranged at intervals, and the extension directions of the multiple kneading convex parts are consistent, so that a flow guide channel can be formed between two adjacent kneading convex parts, for example, kneading convex parts Formed into a strip shape, the length direction of each kneading convex portion extends along the circumferential direction of the cylinder body 120, so that a flow guide channel can be formed between two adjacent kneading convex portions, and one end of a part of the flow guide channel is guaranteed to be in the right direction.
  • the diversion channel can guide the flow of water in the cylinder body 120 to ensure that the water flow can flow in a predetermined direction. At the same time, because one end of some diversion channels is facing the drainage area 124. In this way, the diversion channel can divert the water flow to the drainage area 124. At this time, the water is discharged through the drainage holes 1231 in the drainage area 124, so as to achieve the purpose of dehydration and improve drainage efficiency.
  • one end of a part of the diversion channel is facing the drain hole 1231, and the diversion channel directs the water flow to the drain hole 1231, so as to further improve drainage efficiency.
  • the present application forms a flow guide channel through its own structure (kneading convex part) on the cylinder body 120, so that there is no need to arrange other flow guides, so as to further simplify the structure of the inner cylinder 1000, so that the structure of the inner cylinder 1000 is simple .
  • the inner cylinder 1000 can be made of stainless steel, which can enhance the strength and rigidity of the inner cylinder 1000, thereby prolonging the service life of the inner cylinder 1000 of the clothes treatment device, and the stainless steel cylinder has a metallic texture, which can be matched with The kneading protrusions on the inner cylinder 1000 can enhance the visual aesthetics of the inner cylinder 1000 .
  • the laundry treating device includes: an outer tub and an inner tub 1000 .
  • the inner cylinder 1000 is the inner cylinder 1000 of the aforementioned clothes treatment device, and the structure of the inner cylinder 1000 will not be repeated here, and the inner cylinder 1000 is rotatably arranged in the outer tub.
  • the inner cylinder 1000 can drive the clothes to rotate during the process of rotating relative to the outer tub, so as to achieve the purpose of treating the clothes and ensure that the clothes are rotated.
  • the drain holes 1231 will not be touched, so as to avoid scratches or wear on the clothes.
  • the aforementioned inner cylinder 1000 is provided with drain holes 1231 staggered in the axial direction of the cylinder body 120, which can also improve the drainage effect of the clothes treatment device, and Improve the drainage efficiency, achieve the purpose of dehydration, reduce the moisture content on the clothes, and improve the user experience.
  • the drainage hole 1231 of the present application is set to be in a normally open state, during the process of washing clothes by the laundry treatment device, since an outer tub is provided on the outside of the inner tub 1000, when the inner tub 1000 and the outer tub When it is full of water, the water in the inner cylinder 1000 will not be discharged through the drain hole 1231. At this time, the water in the inner cylinder 1000 can be used to wash the clothes. When the clothes need to be dehydrated after washing, the water outlet at the outer bucket Open, so that the water between the inner cylinder 1000 and the outer tub can be drained, thereby ensuring that the water in the inner cylinder 1000 can be discharged through the drain hole 1231, so as to achieve the purpose of dehydration.
  • the clothes processing device of the present application can be a drum washing machine, that is, the inner cylinder 1000 of the present application can be applied to a drum washing machine, and of course, can also be applied to clothes dryers and wave-wheel washing machines currently on the market, if the inner cylinder 1000 When applied to a clothes dryer, the dehydration efficiency of the clothes dryer can be improved. If the inner tub 1000 is applied to a pulsator washing machine or a drum washing machine, the washing and dehydration efficiency of the pulsator washing machine or a drum washing machine can be improved.
  • connection should be understood in a broad sense, for example, it can be a fixed connection or a detachable connection. Connected, or integrally connected; it can be mechanically connected or electrically connected; it can be directly connected or indirectly connected through an intermediary, and it can be the internal communication of two components. Those of ordinary skill in the art can understand the specific meanings of the above terms in this application in specific situations.
  • Figure 6 shows four rows of drainage hole groups 123 for the purpose of illustration, but after reading the above technical solution, the ordinary skilled person can obviously understand that this solution is applied to two columns, three columns, five columns or more In the technical solution of arranging the drainage hole groups 123, this also falls within the scope of protection of the present application.
  • the inner cylinder 1000 of the laundry treatment device according to the embodiment of the present application and other components of the laundry treatment device such as the rotation process and control process of the inner cylinder 1000 are known to those skilled in the art and will not be described in detail here.

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

Abstract

一种衣物处理装置(2000)的内筒(1000)及衣物处理装置(2000),内筒(1000)包括筒本体(100)和提升筋(200),筒本体(100)包括筒底(110)和筒身(120),提升筋(200)设于筒身(120)的内侧,提升筋(200)所覆盖的筒身(120)位置上设有多个排水孔(1231),排水孔(1231)处于常开状态连通筒本体(100)的内外两侧,筒身(120)的除去提升筋(200)覆盖的部位为封闭结构。

Description

衣物处理装置的内筒及衣物处理装置
相关申请的交叉引用
本申请基于申请号为202122649900.7、申请日为2021年11月01日的中国专利申请“衣物处理装置的内筒及衣物处理装置”以及申请号为202220766494.4、202210346381.3、202220772607.1申请日为2022年03月31日的中国专利申请“衣物处理装置的内筒及衣物处理装置”提出,并要求上述中国专利申请的优先权,上述中国专利申请的全部内容在此引入本申请作为参考。
技术领域
本申请涉及衣物处理技术领域,具体是涉及一种衣物处理装置的内筒及衣物处理装置。
背景技术
现有的衣物处理装置的内筒,为了便于将内筒内的水快速排出,通常在内筒的筒身上开设大量的排水孔,但是,在衣物处理装置进行处理衣物的过程中,这些排水孔会刮伤衣物,并对衣物造成磨损,降低用户体验。
发明内容
为此,本申请提出一种衣物处理装置的内筒,所述内筒在实现将内筒中的水排出的同时,还可避免排水孔直接接触衣物而对衣物造成磨损,提升用户体验。
本申请还旨在提出一种具有上述内筒的衣物处理装置。
根据本申请实施例的衣物处理装置的内筒,包括:筒本体,所述筒本体包括筒底和筒身;提升筋,所述提升筋设于所述筒身的内侧,至少一个所述提升筋所覆盖的所述筒身的位置上设有多个排水孔,所述排水孔处于常开状态以连通所述筒本体的内外两侧,所述筒身的除去所述提升筋覆盖的部位为封闭结构。
根据本申请实施例的衣物处理装置的内筒,通过将多个排水孔设置在提升筋所覆盖的筒身上,使得提升筋不仅能够有效发挥以提升衣物处理效果的作用,还能有效遮蔽排水孔,确保筒身的内侧除去提升筋所覆盖的部位均形成为封闭结构,这样在衣物处理装置处理衣物的过程中,即可避免排水孔直接接触衣物而对衣物造成磨损,提升用户体验,且本申请的排水孔处于常开状态,一方面增加排水效果,另一方面无需在排水孔处设置密封件,在降低本申请内筒的生产成本的同时还可使得内筒的结构简单,并降低生产制造的难度。
可选地,所述筒身包括多个第一筒壁和多个第二筒壁,多个所述第一筒壁和多个所述第二筒壁沿一圆周方向交错布置且相连,多个所述排水孔设于至少一个所述第一筒壁,多个所述提升筋一一对应地设置在多个所述第一筒壁以覆盖所有的所述排水孔,所述第二筒壁为无孔结构。
可选地,所述筒身设有多列排水孔组,每列所述排水孔组包括多个所述排水孔,多列所述排水孔组沿所述筒身的周向间隔设置。
可选地,在多列所述排水孔组中,任意相邻两列所述排水孔组之间的间距相等;和/或,在每列所述排水孔组中,多个所述排水孔沿所述筒身的轴向和/或周向间隔设置。
可选地,所述提升筋沿所述筒本体的轴向延伸,所述筒身设置有多个所述提升筋,每个所述提升筋可覆盖所述筒身上的一列所述排水孔组。
可选地,所述筒身的内壁面形成有凹弧面,所述排水孔设于所述凹弧面。
可选地,所述筒身的内壁面形成有多个朝所述筒本体外凹陷设置的凹部,所述排水孔设于所述凹部的底壁。
可选地,所述提升筋和所述筒身之间或者所述提升筋自身结构上设有水流通道,所述排水孔通过所述水流通道与所述筒本体的内腔连通;和/或,所述提升筋的内部中空,所述筒身设有多个卡孔,所述提升筋的两侧分别设有多个卡勾,多个所述卡勾与多个所述卡孔一一对应地卡接配合。
根据本申请实施例的衣物处理装置的内筒,包括:筒本体,所述筒本体包括筒底和筒身,所述筒身具有排水区;提升筋,所述提升筋设于所述筒身的内侧并覆盖所述排水区,其中,所述提升筋所覆盖的所述排水区的位置上设有多列排水孔组,每列所述排水孔组均包括多个所述排水孔,至少存在相邻两列所述排水孔组中的多个所述排水孔在所述筒身的轴向交错设置。
根据本申请实施例的衣物处理装置的内筒,通过在筒身的内侧设置提升筋覆盖排水区,以达到覆盖多个排水孔的目的,如此设置,即可利用提升筋提升衣物处理的效果,还可利用提升筋遮蔽排水孔,这样在衣物处理装置处理衣物的过程中,即可避免排水孔直接接触衣物而对衣物造成磨损,提升用户体验,且本申请的排水区的位置上设有多列排水孔组,并且将至少相邻两列排水孔组中的多个排水孔在筒身的轴向交错设置,以使得相邻两列排水孔组中的多个排水孔位于筒身的不同位置处,这样多个排水孔相互配合即可同时将位于筒身不同位置处的水排出,使得衣物处理装置的内筒排水方便,从而提升排水效率。
可选地,任意相邻两列所述排水孔组中的多个所述排水孔在所述筒身的轴向交错设置。
可选地,在每列所述排水孔组中,相邻两个所述排水孔在所述筒身的轴向上的间距为H1;在相邻两列所述排水孔组中,其中一列所述排水孔组中的所述排水孔与另一列所述排水孔组中的相邻的所述排水孔在所述筒身的轴向上的间距为H2,其中,所述H1为所述H2的两倍。
可选地,相邻两列所述排水孔组在所述筒身的周向上的间距等于每列所述排水孔组中的相邻两个所述排水孔在所述筒身的轴向上的间距。
可选地,所述提升筋的至少一个侧壁底部设有多个过水口,所述过水口与所述筒身配合以形成水流通道,其中,每个所述过水口与至少一个所述排水孔位置对应。
可选地,所述排水区包括多个,多个所述排水区沿所述筒身的周向间隔设置。
可选地,所述筒身的内周壁具有揉搓区,所述揉搓区为无孔区域,所述揉搓区和所述排水区在所述筒身的周向排布,其中,所述揉搓区设有多个揉搓凸部,多个所述揉搓凸部在所述筒身的周向上间隔设置;和/或,相邻两个所述揉搓凸部之间形成导流通道,至少一部分所述导流通道的一端正对所述排水区。
根据本申请实施例的衣物处理装置,包括:外桶;根据前述的衣物处理装置的内筒,所述内筒可转动地设在所述外桶内。
根据本申请实施例的衣物处理装置,通过采用前述的衣物处理装置的内筒,能够有效减小衣物处理装置在处理衣物时对衣物造成的磨损,有效提升用户体验。
附图说明
本申请的上述和/或附加的方面和优点从结合下面附图对实施例的描述中将变得明显和容易理解,其中:
图1为本申请一些实施例的内筒的立体结构示意图。
图2为本申请一些实施例的内筒的侧视图。
图3为本申请一些实施例的内筒的主视图。
图4为图3中区域Ⅰ的局部放大图。
图5为本申请另一些实施例的内筒的立体结构示意图。
图6为本申请另一些实施例的内筒的部分结构示意图。
图7为本申请另一些实施例的提升筋的剖视图。
图8为本申请一些实施例的衣物处理装置的示意框图。
附图标记:
1000、内筒;
100、筒本体;
110、筒底;
120、筒身;
121、第一筒壁;122、第二筒壁;123、排水孔组;1231、排水孔;
124、排水区;
200、提升筋;210、卡勾;220、水流入口;
2000、衣物处理装置。
具体实施方式
下面详细描述本申请的实施例,实施例的示例在附图中示出,其中自始至终相同或类似的标号表示相同或类似的元件或具有相同或类似功能的元件。下面通过参考附图描述的实施例是示例性的,仅用于解释本申请,而不能理解为对本申请的限制。
在本申请的描述中,需要理解的是,术语“上”、“下”、“顶”、“底”、“内”、“外”、“轴向”、“径向”、“周向”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本申请和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本申请的限制。
下面参考说明书附图描述本申请实施例的衣物处理装置的内筒1000。
如图1所示,根据本申请实施例的衣物处理装置的内筒1000包括:筒本体100和提升筋200。
筒本体100包括筒身120和筒底110,提升筋200设置在筒身120的内侧,同时,至少有一个提升筋200所覆盖的筒身120的位置上设置有多个排水孔1231,排水孔1231处于常开状态,从而通过排水孔1231始终连通筒本体100的内侧和外侧,筒身120的除去提升筋200覆盖的部位为封闭结构。
衣物处理装置在洗涤过程中,随着筒本体100的转动,提升筋200可以带动衣物转动,一方面可通过提升筋200提升衣物的高度,衣物在重力作用下回落,从而实现对衣物的上下摔打以及实现对衣物的翻转,达到对衣物进行处理的目的,另一方面可通过提升筋200增加衣物与内筒1000的接触面积,使得靠近提升筋200的衣物能够与提升筋200互相摩擦产生揉搓作用,从而提高内筒1000的衣物处理能力,提升用户体验。
通过在筒身120上设置排水孔1231,排水孔1231可实现内筒1000与外部流路的连通,确保内筒1000内的水可顺利通过排水孔1231排出,达到对衣物进行处理的目的,且多个排水孔1231同时配合排水,以提高排水效率,同时达到彻底排掉洗涤水及污垢的目的,从而进一步提高内筒1000的衣物处理能力。
根据本申请实施例的衣物处理装置的内筒1000,通过将排水孔1231设置在提升筋200所覆盖的筒身120上,可以充分利用内筒1000上的结构遮蔽排水孔1231,无需再设置其他遮蔽排水孔1231的结构件,在使内筒1000的结构简单的同时,还可确保筒身 120的内侧除去提升筋200所覆盖的部位均形成为封闭结构,这样在衣物处理的过程中,排水孔1231不会直接接触衣物,避免排水孔1231的孔沿磨损衣物,从而有效解决衣物磨损的问题,使衣物的磨损率大大降低,提升用户体验。
进一步地,将排水孔1231设置为处于常开状态,通过排水孔1231始终连通筒本体100的内外两侧,既可以提高排水效率,又可以将内筒1000内的洗涤水及污垢彻底排出,提高排水效果,进而提高内筒1000的衣物处理能力。此外,无需在排水孔1231处设置密封排水孔1231的密封件,在降低本申请内筒1000生产成本、降低生产制造难度的同时还可使得内筒1000的结构简单,便于控制。
可以理解的是,相比于现有技术,本申请的衣物处理装置的内筒1000,通过将多个排水孔1231均设置在提升筋200所覆盖的筒身120上,确保衣物处理装置在处理衣物时排水孔1231不会直接与衣物接触,避免排水孔1231拉丝或划破衣物,提升用户体验,且排水孔1231处于常开状态以连通筒本体100的内外两侧,在确保筒本体100内部的水流能够及时、彻底地排出的同时还使得内筒1000的结构简单。
在本申请的描述中,除非另有说明,“多个”的含义是两个或两个以上。
在本申请的一些实施例中,如图1和图2所示,筒身120包括第一筒壁121和第二筒壁122,第一筒壁121和第二筒壁122均包括多个,多个第一筒壁121和多个第二筒壁122沿一圆周方向交错布置且相连,也就是说,在筒身120的周向上,相邻两个第一筒壁121之间设有一个第二筒壁122,相邻两个第二筒壁122之间设有一个第一筒壁121。
其中,多个排水孔1231设于至少一个第一筒壁121,多个提升筋200一一对应地设置在多个第一筒壁121以覆盖所有的排水孔1231。第一筒壁121为多个排水孔1231和多个提升筋200的设置提供空间,确保多个提升筋200可设置在筒身120上,且确保提升筋200可对应多个排水孔1231设置,以遮蔽排水孔1231,避免排水孔1231与衣物接触而拉丝或划破衣物,从而提升用户体验。
可选地,第二筒壁122为无孔结构。因在衣物处理的过程中,第二筒壁122直接接触衣物,通过将第二筒壁122设置成无孔结构可避免第二筒壁122划伤衣物。
可选地,如图1和图2所示,多个第二筒壁122上均设置有凹凸的纹路。该纹路可在处理衣物时给予衣物更大的摩擦阻力,使得筒身120自身具有揉搓作用,从而使得衣物处理地更加干净,提升用户体验。
需要说明的是,因第二筒壁122上均设置有凹凸的纹路,将提升筋200设置在第一筒壁121,还可确保提升筋200不会遮蔽凹凸的纹路,从而使得筒身120上设置的所有纹路能够有效发挥其自身作用。
在本申请的一些实施例中,如图1所示,筒身120上设置有多列排水孔组123,每列排水孔组123包括多个排水孔1231,多列排水孔组123沿筒身120的周向间隔设置。
因此,通过设置多列排水孔组123,可以增加筒身120上的排水孔1231的数量,从而提高内筒1000的排水能力,提升排水效率,且多列排水孔组123沿筒身120的周向间隔设置,使得位于内筒1000内的多处的水流均可通过排水孔1231同时排出,以进一步提升排水效率,尤其在利用内筒1000进行脱水的过程中,多列排水孔组123配合可极大地提升脱水质量,以降低衣物上的含水率。
可选地,在多列排水孔组123中,任意相邻两列排水孔组123之间的间距相等。也就是说,多列排水孔组123均匀地间隔设置在筒身120的周向上,多列排水孔组123配合以同时将内筒1000内的水流排出,进一步提升排水效率。
可选地,在每列排水孔组123中,多个排水孔1231沿筒身120的轴向间隔设置。如此设置,多个排水孔1231配合可将位于筒身120的轴向上的不同位置处的水流排出,提升排水效率。
在另一些示例中,在每列排水孔组123中,多个排水孔1231沿筒身120的周向间隔设置。多个排水孔1231配合可将位于筒身120的周向上的不同位置处的水流排出,提升排水效率。
在其他的一些示例中,如图1和图2所示,在每列排水孔组123中,多个排水孔1231沿筒身120的轴向和周向间隔设置。
也就是说,多个排水孔1231不仅沿筒身120的轴向间隔设置,还沿着筒身120的周向间隔设置,以增加排水孔1231的数量,使得每列排水孔组123均可将位于筒身120的轴向上的不同位置处的水流以及将位于筒身120的周向上的不同位置处的水流排出,进一步提升排水效率。
可选地,筒身120设有三列排水孔组123,三列排水孔组123均匀分布在筒身120上,三列排水孔组123配合用于将内筒1000内的水流均排出,达到脱水的目的,并提高脱水效率。
当然,在其他的一些示例中,不限于只设置上述的三列排水孔组123,本领域的技术人员也可根据实际排水需求以及内筒1000的体积设置更多列排水孔组123,如:设置四列排水孔组123、设置五列排水孔组123等。
需要说明的是,排水孔组123的数量增加相应地筒身120的结构强度会随之降低,因此,设置三列排水孔组123,在提高排水效率的同时还可有效提高筒身120的结构强度,从而延长内筒1000的使用寿命。
可选地,如图1所示,提升筋200沿筒本体100的轴向延伸。以增加提升筋200的面积,确保提升筋200能够有效带动衣物翻转并增加内筒1000与衣物的接触面积,达到对衣物进行处理的效果,并提高衣物处理的清洁度。
可选地,结合图1和图3所示,筒身120设置有多个提升筋200,每个提升筋200可覆盖筒身120上的一列排水孔组123。多个提升筋200配合用于进一步增加内筒1000 与衣物的接触面积,提高衣物处理的清洁度,且通过设置多个提升筋200,相应地排水孔组123的数量也可以相应设置多个,使得筒身120上形成多列排水孔组123,从而有效将内筒1000内的水流排出,提高排水效率,并进一步提高衣物处理的清洁度。
在一些具体示例中,如图1所示,筒身120设置有三个提升筋200,三个提升筋200均匀分布在内筒1000的内壁上以遮蔽排水孔组123。当衣物处理装置处于运行状态下,提升筋200会随着内筒1000一起转动,在提升筋200由较低位置转动至较高位置的过程中,提升筋200可将衣物提起,随着提升筋200的继续转动,衣物在重力的作用下将会脱离提升筋200并自由下落,以摔打在翻滚的水流或其他衣物上。由此,达到清洗衣物的目的,并提高衣物处理装置的洗涤效果。
当然,在其他的一些示例中,提升筋200的数量也不限于上述的三个,主要确保提升筋200的数量能够与排水孔组123的数量对应,提升筋200能够有效遮蔽排水孔1231即可。
在本申请的一些实施例中,筒身120的内壁面形成有凹弧面,即,以筒身120的内壁面所在的圆柱面为基准面,所述凹弧面朝远离圆柱面的方向设置,以使凹弧面位于圆柱面的外侧。
其中,排水孔1231设于凹弧面。具体可以理解为,在筒身120的径向上,排水孔1231低于圆柱面设置,这样在衣物处理装置排水或脱水的过程中,有利于水流朝向排水孔1231流动,进而提高了衣物处理装置的排水效率,从而提高脱水质量。
在本申请的一些实施例中,筒身120的内壁面形成有多个朝筒本体100外凹陷设置的凹部,凹部可以具有底壁和侧壁,以筒身120的内壁面所在的圆柱面为基准面,凹部的底壁低于圆柱面,排水孔1231设于凹部的底壁。当然,凹部的壁面也可以形成凹弧面,排水孔1231设置在凹弧面的低位。
上述设置也是确保在筒身120的径向上,排水孔1231能够低于筒身120的内壁面设置,有利于水流朝向排水孔1231流动,进而提高脱水质量,以有效降低衣物的含水率,提升衣物洗涤效果。
在本申请的一些实施例中,提升筋200和筒身120之间设有水流通道,排水孔1231通过水流通道与筒本体100的内腔连通。这样筒本体100内腔内的水流即可通过水流通道流动至排水孔1231处,随后再通过排水孔1231排出,达到脱水的目的,且通过设置水流通道,水流通道还可对水流的流动起导向作用,进一步提高排水效率。
可选地,提升筋200的部分结构与筒身120间隔设置以形成水流通道,便于实现排水孔1231与筒本体100的内腔连通。
需要说明的是,通过在提升筋200和筒身120之间设有水流通道,这样就可以将提升筋200的表面做成无孔结构,不仅简化了提升筋200的加工工序,降低了制造难度,而且可以进一步减小内筒1000对衣物的磨损。
在另一些示例中,提升筋200自身结构上设有水流通道,排水孔1231通过水流通道与筒本体100的内腔连通。如此设置也可实现将筒本体100内腔内的水流导流至排水孔1231处,达到脱水的目的。
需要说明的是,通过在提升筋200自身结构上设有水流通道,这样就无需在提升筋200和筒身120之间设有水流通道,从而使得提升筋200可紧密贴合在筒身120上,以提高提升筋200的位置稳定性,从而有效提升衣物处理的清洁度。
可选地,如图1所示,提升筋200上形成有多个水流入口220,多个水流入口220形成为水流通道的入口以连通排水孔1231与筒本体100的内腔。
可选地,提升筋200上形成的水流入口220的口径可设置地较小,如此设置,即可在提升筋200上设置多个水流入口220,多个口径较小的水流入口220在提高衣物处理装置的内筒1000的脱水能力的同时,还可以避免水流入口220的边沿将衣物划伤。
需要说明的是,通过在提升筋200的自身结构上设有水流通道,可增加水流通道与筒身120之间的距离,这样在洗涤衣物的过程中,内筒1000内的水流即可较慢的流出,从而使得内筒1000内保持较高的水位,这样就可以节省内筒1000的用水量,从而达到节水的作用,且上述设置还可实现内筒1000与外桶不串水,使内筒1000和外桶之间的污垢细菌不会随水流通道流入内筒1000内,从而达到健康洗涤的效果。
可选地,提升筋200的内部中空。这样在水流通过水流通道朝向排水孔1231流动的过程中,可确保提升筋200不会阻碍水流的流动,从而使得水流流通顺畅,以达到排水的目的。
如图4所示,在一些示例中,筒身120设有多个卡孔,提升筋200的两侧分别设有多个卡勾210,多个卡勾210与多个卡孔一一对应地卡接配合。
采用卡接配合的连接方式可使提升筋200固定设置在筒身120上,在确保提升筋200相对于筒身120位置稳定的同时,还可使得提升筋200与筒身120的配合方便,降低内筒1000的装配难度,并使得内筒1000的结构简单。且卡孔与卡勾210的配合使得提升筋200与筒身120形成可拆卸连接,即提升筋200与筒身120可以完全拆卸开,便于更换或拆卸提升筋200。
当然,在其他的一些示例中,提升筋200和筒身120的连接方式也不限于是上述的卡勾210与卡孔的卡接配合,也可以为其他的连接方式,例如:提升筋200的两侧分别设有多个第一连接孔,筒身120上设有多个与第一连接孔相配合的第二连接孔,其中第二连接孔形成为内螺纹孔,螺栓穿过第一连接孔固定连接在第二连接孔中,以实现提升筋200与筒身120的可拆卸连接;或者,筒身120设有多个插槽,提升筋200的两侧分别设有多个插扣,多个插扣与多个插槽一一对应地插接配合,也可实现提升筋200与筒身120的可拆卸连接。
在本申请具体的实施例中,内筒1000可选用不锈钢筒,不锈钢筒可增强内筒1000 的强度和刚度,从而延长衣物处理装置的内筒1000的使用寿命,且不锈钢筒具有金属质感,可以增强内筒1000的视觉美感。
下面参考说明书附图描述本申请实施例的衣物处理装置的内筒1000。
如图5所示,根据本申请实施例的衣物处理装置的内筒1000包括:筒本体100和提升筋200。
筒本体100包括筒底110和筒身120,筒身120具有排水区124。排水区124主要为了方便布设排水孔1231,从而便于后续内筒1000在处理衣物时进行排水。
提升筋200设于筒身120的内侧并覆盖排水区124,提升筋200所覆盖的排水区124的位置上设有多列排水孔组123,排水孔1231每列排水孔组123均包括多个排水孔1231,至少存在相邻两列排水孔组123中的多个排水孔1231在筒身120的轴向交错设置。
多个排水孔1231可实现内筒1000与外部流路的连通,确保内筒1000内的水能够通过排水孔1231顺利排出,达到对衣物进行处理的目的,且多个排水孔1231同时配合排水,以提高内筒1000的排水效率,同时达到彻底排掉洗涤水及污垢的目的,提高内筒1000的衣物处理能力。
此外,本申请通过利用提升筋200覆盖排水区124,也就是实现利用提升筋200覆盖多个排水孔1231,一方面,避免用户直接观察到排水区124,提升内筒1000的美观度;另一方面,在衣物处理的过程中,可确保排水孔1231不会直接接触衣物,从而避免排水孔1231的孔沿磨损衣物,以有效解决现有技术中排水孔磨损衣物的问题,使衣物的磨损率大大降低,提升用户体验。
需要说明的是,将提升筋200设于筒身120的内侧,在衣物处理装置洗涤衣物的过程中,随着筒本体100的转动,提升筋200可以带动衣物转动,一方面可通过提升筋200提升衣物的高度,具有一定高度的衣物会在重力作用下回落,从而实现对衣物的上下摔打以及实现对衣物的翻转,达到对衣物进行处理的目的;另一方面,可通过提升筋200增加衣物与内筒1000的接触面积,使得靠近提升筋200的衣物能够与提升筋200互相摩擦产生揉搓作用,从而提高内筒1000的衣物处理能力,提升用户体验。
也就是说,本申请的提升筋200不仅可提高内筒1000的衣物处理能力还可提升内筒1000的美观度,同时还可避免排水孔1231的孔沿磨损衣物,且通过上述设置就无需再设置其他遮蔽排水孔1231的结构件,在使内筒1000的结构简单的同时,还可降低内筒1000的生产成本。
根据本申请实施例的衣物处理装置的内筒1000,通过在排水区124内设置多列排水孔组123,多列排水孔组123可保证排水区124内具有较多个排水孔1231,较多个排水孔1231配合排水,以提高内筒1000的排水效率,且将至少相邻两列排水孔组123中的多个排水孔1231在筒身120的轴向交错设置,这里是指,在排水区124内,多列排水 孔组123两两相邻设置,其中在相邻设置的两列排水孔组123,至少有两列排水孔组123中的多个排水孔1231在筒身120的轴向交错设置。
其中,这里所说的轴向交错设置可以理解为,在筒身120的轴向上,相邻两列排水孔组123中相邻设置的两个排水孔1231与筒底110之间的间距不同。
这样即可使得排水区124内的多个排水孔1231无论在轴向上还是在周向上均可位于筒身120的不同位置处,如此设置,多个排水孔1231配合即可同时将位于筒身120不同位置处的水排出,使得内筒1000的排水更加方便,同时还可提升排水效率,这样内筒1000内的洗涤水及污垢即可顺利且彻底地排出,提高排水效果。
可以理解的是,相比于现有技术,本申请的衣物处理装置的内筒1000通过在排水区124上设置多个在筒身120的轴向交错设置的排水孔1231,多个交错设置的排水孔1231配合在提升内筒1000排水效率的同时还可提高排水效果,同时,本申请还将多个排水孔1231设置在提升筋200所覆盖的位置上,确保衣物处理装置在处理衣物时排水孔1231不会直接与衣物接触,从而避免排水孔1231拉丝或划破衣物,以提升用户体验。
在本申请的描述中,除非另有说明,“多个”的含义是两个或两个以上。
可选地,任意相邻两列排水孔组123中的多个排水孔1231在筒身120的轴向交错设置。也就是说,排水区124内设置有多列排水孔组123,多列排水孔组123两两相邻设置,其中任意相邻两列排水孔组123中的多个排水孔1231在筒身120的轴向均交错设置,从而使得排水区124内的多个排水孔1231在筒身120的轴向交错设置,这样多个排水孔1231配合即可经位于筒身120不同处的水流同时排出,以提高内筒1000的排水效率。
可选地,如图6所示,在每列排水孔组123中,相邻两个排水孔1231在筒身120的轴向上的间距为H1。以实现每列排水孔组123中的多个排水孔1231能够沿筒身120的轴向间隔设置,从而实现将位于筒身120轴向上的不同位置处的水流排出。
这里需要说明的是,上述所说的同一列排水孔组123中相邻两个排水孔1231之间的间距为H1是指在这同一列排水孔组123布设的区域内未设置其他固定件或结构件,例如:结合图5和图6所示,当位于排水区124最左列的排水孔组123的区域内设置有其他结构件时,则相邻两个排水孔1231需要避让该结构件,也就会出现相邻两个排水孔1231在筒身120轴向上的间距大于H1的现象。也就是说,同一列排水孔组123中,当相邻两个排水孔1231之间未设置其他结构件时,相邻两个排水孔1231在筒身120的轴向上的间距为H1;当相邻两个排水孔1231之间设置有其他结构件时,相邻两个排水孔1231在筒身120的轴向上的间距随结构件的尺寸相应调整,不限于必须将相邻两个排水孔1231在筒身120的轴向上的间距设置为H1。
可选地,如图6所示,在相邻两列排水孔组123中,其中一列排水孔组123中的排水孔1231与另一列排水孔组123中的相邻的排水孔1231在筒身120的轴向上的间距为 H2,其中,H1为H2的两倍。也就是说,其中一列排水孔组123中的排水孔1231与另一列排水孔组123中的相邻的排水孔1231在筒身120的轴向上的间距小于同一列排水孔组123中相邻两个排水孔1231在筒身120的轴向上的间距,从而使得相邻两列排水孔组123中的多个排水孔1231能够在筒身120的轴向交错设置,以提升内筒1000的排水效率,同时提高排水效果。
具体地,当在相邻两列排水孔组123中,其中一列排水孔组123中的排水孔1231与另一列排水孔组123中的相邻的排水孔1231在筒身120的轴向上的间距为H1时,也就是其中一列排水孔组123中的排水孔1231与另一列排水孔组123中的相邻的排水孔1231在筒身120的轴向上的间距等于同一列排水孔组123中相邻两个排水孔1231在筒身120的轴向上的间距时,会出现其中一列排水孔组123中的排水孔1231与另一列排水孔组123中的相邻的排水孔1231在筒身120的轴向上正对设置的现象,这样当筒身120内的部分水流流动至其中一列排水孔组123中的相邻两个排水孔1231之间时,则会出现水流无法从排水孔1231排出的问题,以此降低内筒1000的排水效率。
而在本申请中,通过将其中一列排水孔组123中的排水孔1231与另一列排水孔组123中的相邻的排水孔1231在筒身120的轴向上的间距设置成小于同一列排水孔组123中相邻两个排水孔1231在筒身120的轴向上的间距,这样当筒身120内的部分水流流动至其中一列排水孔组123中的相邻两个排水孔1231之间时,此时水流可继续流动并流动至另一列排水孔组123中的其中一个排水孔1231处,并通过另一列排水孔组123中的排水孔1231顺利排出,从而提高内筒1000的排水效率。
可选地,相邻两列排水孔组123在筒身120的周向上的间距等于每列排水孔组123中的相邻两个排水孔1231在筒身120的轴向上的间距。这里也可以理解为,相邻两列排水孔组123在筒身120的周向上的间距为H1(如图6所示),使得相邻两列排水孔组123能够在筒身120的周向上间隔设置,从而保证多列排水孔组123配合能够将位于筒身120周向上的不同位置处的水流排出,提升排水效率。
在本申请的一些实施例中,提升筋200自身设有水流通道(图中未示出),排水孔1231通过水流通道与筒本体100的内腔连通。水流通道用于避让朝向排水孔1231流动的水流,同时还可对水流的流动起导向作用,确保筒本体100内腔中的水能够顺利流动至排水孔1231处,随后再通过排水孔1231排出,从而达到脱水的目的。
在具体的示例中,可将提升筋200的部分结构与筒身120间隔设置以实现在提升筋200与筒身120之间设置水流通道,从而便于实现排水孔1231与筒本体100内腔的连通。
具体地,提升筋200的至少一个侧壁底部设置有过水口,当提升筋200设于筒身120的内侧时,过水口位于提升筋200的侧壁与筒身120之间以实现在提升筋200与筒身120之间形成水流通道,也就是说,过水口与筒身120配合以形成水流通道,从而实现 排水孔1231与筒本体100内腔的连通。
可选地,过水口包括多个,多个过水口间隔设置在提升筋200的侧壁底部,多个过水口配合可增加水流通道的过水面积,从而保证筒本体100内腔中的水能够快速流动至水流通道内,从而方便排水孔1231将水流快速排出,以提高排水效率。此外,将多个过水口间隔设置可利用相邻两个过水口之间的提升筋200的侧壁将提升筋200连接在筒身120的内侧,从而实现提升筋200和筒本体100的固定连接。
在具体的示例中,多个过水口沿提升筋200的长度方向间隔设置,且提升筋200的宽度方向的相对两侧均设置有多个过水口。其中,通过在提升筋200的长度方向上设置多个过水口,多个过水口配合能够将位于筒身120长度方向上不同位置处的水导流至排水孔1231处,也就是保证筒身120长度方向上不同位置处的水均能够同时导流至排水孔1231处并通过排水孔1231排出,以进一步提高排水效率。
此外,通过在提升筋200的宽度方向的相对两侧均设置多个过水口,这里的多个过水口配合可将位于提升筋200宽度两侧的筒身120内腔中的水导流至排水孔1231处,也可以理解为,通过在提升筋200宽度方向的相对两侧上设置多个过水口,多个过水口配合用于将位于筒身120周向上不同位置处的水同时导流至排水孔1231处并通过排水孔1231排出,也就是保证筒身120周向上不同位置处的水均能够同时排出,以进一步提高排水效率。
综上可知,本申请通过设置多个沿提升筋200的长度方向间隔设置的过水口,用于将位于筒身120轴向上不同位置处的水同时排出;通过在提升筋200的宽度方向的相对两侧上设置有多个过水口,用于将位于筒身120周向上不同位置处的水同时排出,由此保证筒身120轴向上以及周向上多处位置的水均能够同时排出,以最大化提高内筒1000的排水效率,尤其是在内筒1000在进行脱水程序时,可最大化减小衣物上的含水量,提升用户体验。
可选地,每个过水口与至少一个排水孔1231位置对应。也就是提升筋200与筒身120之间设有的水流通道可与至少一个排水孔1231位置对应,其中,这里所说的位置对应可以理解为,在筒身120的轴向上,水流通道至少与一个排水孔1231正对设置,这样水流通道即可将筒身120内腔中的水直接导流至排水孔1231处,从而提高内筒1000的排水效率。
需要说明的是,本申请通过在提升筋200和筒身120之间设有水流通道,这样就可以将提升筋200的表面做成无孔结构,不仅简化了提升筋200的加工工序,降低了制造难度,而且可以进一步减小内筒1000对衣物的磨损。
在本申请的一些实施例中,排水区124包括多个,多个排水区124沿筒身120的周向间隔设置。因每个排水区124的位置上均设有多列排水孔组123且每列排水孔组123均包括多个排水孔1231,如此设置可增加筒身120上的排水孔1231的数量,从而提高 内筒1000的排水能力,提升排水效率。
同时,本申请将多个排水区124沿筒身120的周向间隔设置,使得位于内筒1000内的多处的水流均可通过排水孔1231同时排出,以进一步提升排水效率,尤其在利用内筒1000进行脱水的过程中,多个排水孔1231配合可极大地提升脱水质量,以降低衣物上的含水率。
可选地,筒身120设有三个排水区124,三个排水区124均匀分布在筒身120上,三个排水区124配合用于将内筒1000内的水流均排出,达到脱水的目的,并提高脱水效率。
当然,在其他的一些示例中,不限于只设置上述的三个排水区124,本领域的技术人员也可根据实际排水需求以及内筒1000的体积设置更多个排水区124,如:设置四个排水区124、设置五个排水区124等。
需要说明的是,排水区124的数量增加相应地筒身120的结构强度会随之降低,因此,设置三个排水区124,在提高排水效率的同时还可有效提高筒身120的结构强度,从而延长内筒1000的使用寿命。
可选地,筒身120设置有多个提升筋200。多个提升筋200一方面用于和筒身120上的多个排水区124配合,将每个提升筋200覆盖筒身120上的一个排水区124,从而确保每个排水区124上均设置有提升筋200,避免排水孔1231的孔沿磨损衣物,以有效解决衣物磨损的问题。
此外,通过设置多个提升筋200,多个提升筋200配合用于进一步增加内筒1000与衣物的接触面积,提高衣物处理的清洁度。
在一些具体示例中,筒身120设置有三个提升筋200,三个提升筋200均匀分布在内筒1000的内壁上以分别遮蔽三个排水区124。当衣物处理装置处于运行状态下,提升筋200会随着内筒1000一起转动,在提升筋200由较低位置转动至较高位置的过程中,提升筋200可将衣物提起,随着提升筋200的继续转动,衣物在重力的作用下将会脱离提升筋200并自由下落,以摔打在翻滚的水流或其他衣物上。由此,达到清洗衣物的目的,并提高衣物处理装置的洗涤效果。
当然,在其他的一些示例中,提升筋200的数量也不限于上述的三个,提升筋200的数量也可以是四个、五个等,主要确保提升筋200的数量能够与排水区124的数量对应,提升筋200能够有效遮蔽排水孔1231即可。
在本申请的一些实施例中,筒身120的内周壁具有揉搓区(图中未示出)。该揉搓区可在内筒1000处理衣物时给予衣物更大的摩擦阻力,使得筒身120自身具有揉搓作用,从而使得衣物处理的更加干净,提升用户体验。
可选地,揉搓区和排水区124在筒身120的周向排布。也可以理解为,当筒身120上设置有多个排水区124时,揉搓区位于相邻两个排水区124之间,因筒身120在周向 上的面积较大,如此设置,可最大程度上设置较大面积的揉搓区和排水区124,一方面提升内筒1000的清洗效果,另一方面还可提高排水效率。
可选地,揉搓区和排水区124在筒身120的周向上交替排布。也就是说,当筒身120上设有揉搓区时,不设置排水区124,相应地,当筒身120上设有排水区124时,也就不设置揉搓区,因本申请的提升筋200需要覆盖在排水区124上,通过上述设置可实现揉搓区和提升筋200在筒身120的周向上交替排布,以避免提升筋200遮挡揉搓区,从而使得揉搓区可最大程度地给予衣物摩擦阻力,以提升衣物清洗质量。同时,上述设置还可避免在揉搓区内开设排水孔1231,使得排水孔1231的布设更加简单、方便。
同时,通过将揉搓区和提升筋200在筒身120的周向上交替排布,揉搓区和提升筋200相互配合揉搓衣物,可进一步提升内筒1000的衣物处理能力。
可选地,揉搓区设有多个揉搓凸部,多个揉搓凸部在筒身120的周向上间隔设置。这里的揉搓凸部可以理解为是在揉搓区上设置的多个凸起部,在处理衣物的过程中,揉搓凸部可与衣物接触并与衣物互相摩擦产生揉搓作用,从而提高内筒1000处理衣物的能力,同时,多个揉搓凸部配合可增加揉搓区与衣物的接触面积,从而进一步提高内筒1000的衣物处理能力。
可选地,揉搓区为无孔区域。也就是不在揉搓区上开孔,因在内筒1000处理衣物的过程中,揉搓区会直接接触衣物,通过将揉搓区设置成无孔区域,可避免揉搓区磨损、刮伤衣物,也就是避免内筒1000在处理衣物时对衣物造成的磨损,从而提升用户体验。
可选地,相邻两个揉搓凸部之间形成导流通道,至少一部分导流通道的一端正对排水区124。在具体的示例中,可将多个揉搓凸部间隔设置,且多个揉搓凸部的延伸方向一致,这样即可在相邻两个揉搓凸部之间形成导流通道,例如,揉搓凸部形成为长条状,每个揉搓凸部的长度方向沿筒身120的周向延伸,这样即可在相邻两个揉搓凸部之间形成导流通道,且保证部分导流通道的一端正对排水区124,在排水的过程中,导流通道可对筒身120内的水流的流动起导向作用,确保水流能够沿既定方向进行流动,同时,因部分导流通道的一端正对排水区124,这样导流通道即可将水流导流至排水区124,此时通过排水区124内的排水孔1231将水排出,达到脱水的目的,并提高排水效率。
可选地,部分导流通道的一端正对排水孔1231,导流通道直接将水流导流至排水孔1231处,以进一步提高排水效率。
由此可知,本申请通过筒身120上的自身结构(揉搓凸部)形成导流通道,这样就无需再设置其他的导流件,以进一步简化内筒1000的结构,使得内筒1000结构简单。
在本申请具体的实施例中,内筒1000可选用不锈钢筒,不锈钢筒可增强内筒1000的强度和刚度,从而延长衣物处理装置的内筒1000的使用寿命,且不锈钢筒具有金属质感,搭配内筒1000上的揉搓凸部,可增强内筒1000的视觉美感。
下面结合附图描述本申请实施例的衣物处理装置。
根据本申请实施例的衣物处理装置包括:外桶和内筒1000。
其中,内筒1000为前述的衣物处理装置的内筒1000,内筒1000的结构在此不做赘述,内筒1000可转动地设在外桶内。
根据本申请实施例的衣物处理装置,通过采用前述的内筒1000,内筒1000在相对于外桶转动的过程中可带动衣物旋转,以达到对衣物进行处理的目的,并保证衣物在旋转的过程中不会接触排水孔1231,避免对衣物造成刮伤或磨损等,同时前述的内筒1000设置有在筒身120的轴向交错设置排水孔1231还可提升衣物处理装置的排水效果,以提高排水效率,达到脱水的目的,并降低衣物上的含水率,提升用户体验。
需要说明的是,虽然本申请的排水孔1231设置为常开状态,但在衣物处理装置清洗衣物的过程中,因内筒1000的外侧还设有外桶,当内筒1000和外桶之间充满水时,内筒1000中的水将不会通过排水孔1231排出,此时即可利用内筒1000中的水清洗衣物,当衣物清洗完成需要脱水时,此时将外桶处的出水口打开,使得内筒1000和外桶之间的水能够排出,进而确保内筒1000中的水能够通过排水孔1231排出,以达到脱水的目的。
本申请的衣物处理装置可以是滚筒洗衣机,也就是本申请的内筒1000可应用在滚筒洗衣机上,当然,还可以应用于目前市场上的干衣机、波轮洗衣机中,若该内筒1000应用在干衣机上时,可以提高该干衣机的脱水效率,若该内筒1000应用在波轮洗衣机或滚筒洗衣机上时,可以提高该波轮洗衣机或滚动洗衣机的洗涤、脱水效率。
在本申请的描述中,需要说明的是,除非另有明确的规定和限定,术语“安装”、“相连”、“连接”应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或一体地连接;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通。对于本领域的普通技术人员而言,可以具体情况理解上述术语在本申请中的具体含义。
图6中显示了四列排水孔组123用于示例说明的目的,但是普通技术人员在阅读了上面的技术方案之后、显然可以理解将该方案应用到两列、三列、五列或者更多列排水孔组123的技术方案中,这也落入本申请的保护范围之内。
根据本申请实施例的衣物处理装置的内筒1000及衣物处理装置的其他构成例如内筒1000的转动过程及控制过程对于本领域普通技术人员而言都是已知的,这里不再详细描述。
在本说明书的描述中,参考术语“实施例”、“示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本申请的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或示例。而且,描述的具体特征、结构、材料或者特点可以在任何的一个或多个实施例或示例中以合适的方式结合。
尽管已经示出和描述了本申请的实施例,本领域的普通技术人员可以理解:在不脱离本申请的原理和宗旨的情况下可以对这些实施例进行多种变化、修改、替换和变型,本申请的范围由权利要求及其等同物限定。

Claims (16)

  1. 一种衣物处理装置的内筒,其中,包括:
    筒本体,所述筒本体包括筒底和筒身;
    提升筋,所述提升筋设于所述筒身的内侧,至少一个所述提升筋所覆盖的所述筒身的位置上设有多个排水孔,所述排水孔处于常开状态以连通所述筒本体的内外两侧,所述筒身的除去所述提升筋覆盖的部位为封闭结构。
  2. 根据权利要求1所述的衣物处理装置的内筒,其中,所述筒身包括多个第一筒壁和多个第二筒壁,多个所述第一筒壁和多个所述第二筒壁沿一圆周方向交错布置且相连,多个所述排水孔设于至少一个所述第一筒壁,多个所述提升筋一一对应地设置在多个所述第一筒壁以覆盖所有的所述排水孔,所述第二筒壁为无孔结构。
  3. 根据权利要求1或2所述的衣物处理装置的内筒,其中,所述筒身设有多列排水孔组,每列所述排水孔组包括多个所述排水孔,多列所述排水孔组沿所述筒身的周向间隔设置。
  4. 根据权利要求3所述的衣物处理装置的内筒,其中,在多列所述排水孔组中,任意相邻两列所述排水孔组之间的间距相等;和/或,
    在每列所述排水孔组中,多个所述排水孔沿所述筒身的轴向和/或周向间隔设置。
  5. 根据权利要求3或4所述的衣物处理装置的内筒,其中,所述提升筋沿所述筒本体的轴向延伸,所述筒身设置有多个所述提升筋,每个所述提升筋可覆盖所述筒身上的一列所述排水孔组。
  6. 根据权利要求1-5中任一项所述的衣物处理装置的内筒,其中,所述筒身的内壁面形成有凹弧面,所述排水孔设于所述凹弧面。
  7. 根据权利要求1-5中任一项所述的衣物处理装置的内筒,其中,所述筒身的内壁面形成有多个朝所述筒本体外凹陷设置的凹部,所述排水孔设于所述凹部的底壁。
  8. 根据权利要求1-7中任一项所述的衣物处理装置的内筒,其中,所述提升筋和所述筒身之间或者所述提升筋自身结构上设有水流通道,所述排水孔通过所述水流通道与所述筒本体的内腔连通;和/或,
    所述提升筋的内部中空,所述筒身设有多个卡孔,所述提升筋的两侧分别设有多个卡勾,多个所述卡勾与多个所述卡孔一一对应地卡接配合。
  9. 一种衣物处理装置的内筒,其中,包括:
    筒本体,所述筒本体包括筒底和筒身,所述筒身具有排水区;
    提升筋,所述提升筋设于所述筒身的内侧并覆盖所述排水区,
    其中,所述提升筋所覆盖的所述排水区的位置上设有多列排水孔组,每列所述排水孔组均包括多个所述排水孔,至少存在相邻两列所述排水孔组中的多个所述排水孔在所述筒身的轴向交错设置。
  10. 根据权利要求9所述的衣物处理装置的内筒,其中,任意相邻两列所述排水孔组中的多个所述排水孔在所述筒身的轴向交错设置。
  11. 根据权利要求9或10所述的衣物处理装置的内筒,其中,在每列所述排水孔组中,相邻两个所述排水孔在所述筒身的轴向上的间距为H1;
    在相邻两列所述排水孔组中,其中一列所述排水孔组中的所述排水孔与另一列所述排水孔组中的相邻的所述排水孔在所述筒身的轴向上的间距为H2,其中,所述H1为所述H2的两倍。
  12. 根据权利要求9-11中任一项所述的衣物处理装置的内筒,其中,相邻两列所述排水孔组在所述筒身的周向上的间距等于每列所述排水孔组中的相邻两个所述排水孔在所述筒身的轴向上的间距。
  13. 根据权利要求9-12中任一项所述的衣物处理装置的内筒,其中,所述提升筋的至少一个侧壁底部设有多个过水口,所述过水口与所述筒身配合以形成水流通道,
    其中,每个所述过水口与至少一个所述排水孔位置对应。
  14. 根据权利要求9-13中任一项所述的衣物处理装置的内筒,其中,所述排水区包括多个,多个所述排水区沿所述筒身的周向间隔设置。
  15. 根据权利要求9-14中任一项所述的衣物处理装置的内筒,其中,所述筒身的内周壁具有揉搓区,所述揉搓区为无孔区域,所述揉搓区和所述排水区在所述筒身的周向排布,其中,所述揉搓区设有多个揉搓凸部,多个所述揉搓凸部在所述筒身的周向上间隔设置;和/或,
    相邻两个所述揉搓凸部之间形成导流通道,至少一部分所述导流通道的一端正对所述排水区。
  16. 一种衣物处理装置,其中,包括:
    外桶;
    根据权利要求1-15中任一项所述的衣物处理装置的内筒,所述内筒可转动地设在所述外桶内。
PCT/CN2022/090708 2021-11-01 2022-04-29 衣物处理装置的内筒及衣物处理装置 WO2023071132A1 (zh)

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