EP4083305A1 - Plaque de séparation à évacuation de liquide pour séchoir et séchoir - Google Patents

Plaque de séparation à évacuation de liquide pour séchoir et séchoir Download PDF

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Publication number
EP4083305A1
EP4083305A1 EP20932016.7A EP20932016A EP4083305A1 EP 4083305 A1 EP4083305 A1 EP 4083305A1 EP 20932016 A EP20932016 A EP 20932016A EP 4083305 A1 EP4083305 A1 EP 4083305A1
Authority
EP
European Patent Office
Prior art keywords
liquid
liquid guide
diffluent
groove
rib
Prior art date
Legal status (The legal status 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 status listed.)
Granted
Application number
EP20932016.7A
Other languages
German (de)
English (en)
Other versions
EP4083305A4 (fr
EP4083305B1 (fr
Inventor
Bangming XIE
Wenfa LIU
Renzong YU
Qiong QIN
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Wuxi Filin Electronics Co Ltd
Original Assignee
Wuxi Filin Electronics Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Wuxi Filin Electronics Co Ltd filed Critical Wuxi Filin Electronics Co Ltd
Publication of EP4083305A1 publication Critical patent/EP4083305A1/fr
Publication of EP4083305A4 publication Critical patent/EP4083305A4/fr
Application granted granted Critical
Publication of EP4083305B1 publication Critical patent/EP4083305B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F58/00Domestic laundry dryers
    • D06F58/20General details of domestic laundry dryers 
    • D06F58/24Condensing 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
    • D06F58/20General details of domestic laundry dryers 

Definitions

  • the present disclosure relates to the technical field of clothing treatment devices, and more particularly, to a liquid-discharging partition for a dryer and a dryer.
  • the present disclosure is intended to solve at least one of the technical problems existing in the related art. Therefore, the present disclosure provides a liquid-discharging partition for a dryer.
  • a condensed fluid flowing back to an outlet of a liquid guide groove can flow to the liquid guide groove and a diffluent groove respectively. Therefore, on one hand, a diffluent effect can be achieved to reduce a hydraulic pressure, and on the other hand, a path for a back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct.
  • the present disclosure also proposes a dryer having the liquid-discharging partition for the dryer.
  • the liquid-discharging partition for the dryer disclosed by the embodiment of the present disclosure, has a liquid guide groove, the liquid guide groove has an inlet and an outlet, the inlet and the outlet are defined at two ends of the liquid guide groove in a length direction of the liquid guide groove, respectively.
  • the liquid-discharging partition further has a diffluent groove defined on at least one side of the liquid guide groove in a width direction of the liquid guide groove. The diffluent groove is in communication with the liquid guide groove through at least one liquid passing opening.
  • the liquid guide groove and the diffluent groove are in communication with each other.
  • a condensed fluid flowing back to the outlet of the liquid guide groove can flow to the liquid guide groove and the diffluent groove respectively. Therefore, on one hand, a diffluent effect can be achieved to reduce a hydraulic pressure, and on the other hand, a path for a back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct.
  • the at least one liquid passing opening includes at least two liquid passing openings.
  • One of the at least two liquid passing openings is formed as an inlet of the diffluent groove, and another one of the at least two liquid passing openings is formed as an outlet of the diffluent groove.
  • the at least one liquid passing opening includes a plurality of liquid passing openings spaced apart from one another in the length direction of the liquid guide groove. Each of the plurality of liquid passing openings is in communication with the diffluent groove.
  • the liquid-discharging partition includes: a plate body, a liquid guide portion, and a diffluent portion.
  • the liquid guide portion is arranged on a side surface of the plate body.
  • the liquid guide groove is defined between the liquid guide portion and the plate body.
  • the diffluent portion is arranged on a side surface of the plate body.
  • the diffluent groove is defined by the plate body and the diffluent portion, and/or the diffluent groove is defined by the plate body, the liquid guide portion, and the diffluent portion.
  • the liquid-discharging partition further includes at least one first liquid retaining rib arranged on the plate body and located within the diffluent groove.
  • the at least one first liquid retaining rib is spaced apart from the liquid guide portion.
  • the liquid-discharging partition further includes a second liquid retaining rib arranged on the plate body and located within the diffluent groove.
  • the second liquid retaining rib is spaced apart from the liquid guide portion and connected to the at least one first liquid retaining rib.
  • an extending direction of the second liquid retaining rib is not parallel to an extending direction of each of the at least one first liquid retaining rib.
  • the at least one first liquid retaining rib includes a plurality of first liquid retaining ribs spaced apart from one another. Two adjacent first liquid retaining ribs of the plurality of first liquid retaining ribs are connected to each other by the second liquid retaining rib.
  • At least one of an extending direction of each of the at least one first liquid retaining rib or an extending direction of the second liquid retaining rib is not parallel to the length direction of the liquid guide groove.
  • the liquid-discharging partition further includes a third liquid retaining rib arranged on the plate body and located within the diffluent groove.
  • the third liquid retaining rib is parallel to the at least one first liquid retaining rib.
  • the third liquid retaining rib is located between two adjacent first liquid retaining ribs of the at least one first liquid retaining rib and spaced apart from the second liquid retaining rib.
  • the liquid guide groove has a first side wall and a second side wall that are opposite to each other. At least one of the first side wall or the second side wall has at least one liquid guide rib provided on an inner surface thereof. The at least one liquid guide rib on either one of the first side wall and the second side wall extends obliquely towards another one of the first side wall and the second side wall.
  • the at least one liquid guide rib extends obliquely towards the outlet of the liquid guide groove from outside to inside in the width direction of the liquid guide groove.
  • the at least one liquid guide rib includes a plurality of liquid guide ribs spaced apart from each other in the length direction of the liquid guide groove.
  • the at least one liquid guide rib includes at least one first liquid guide rib and at least one second liquid guide rib.
  • the at least one first liquid guide rib each has an end connected to the first side wall, and another end extending obliquely towards the outlet of the liquid guide groove and spaced apart from the second side wall.
  • the at least one second liquid guide rib each has an end connected to the second side wall, and another end extending obliquely towards the outlet of the liquid guide groove and spaced apart from the first side wall.
  • the at least one first liquid guide rib includes a plurality of first liquid guide ribs.
  • the at least one second liquid guide rib includes a plurality of second liquid guide ribs.
  • the plurality of first liquid guide ribs and the plurality of second liquid guide ribs are arranged alternately and spaced apart from each other in the length direction of the liquid guide groove.
  • the at least one liquid passing opening is defined in one of the first side wall and the second side wall closer to the diffluent portion.
  • each of the liquid guide portion and the diffluent portion is a flexible member.
  • a dryer includes an air duct housing having a chamber where an evaporator and a condenser are mounted; and the above-mentioned liquid-discharging partition for the dryer.
  • the liquid-discharging partition is located within the chamber.
  • a liquid-discharging channel for a condensed fluid is defined between an inner bottom wall of the chamber and each of the liquid guide groove and the diffluent groove.
  • the condensed fluid flowing back to the outlet of the liquid guide groove can flow into the liquid guide groove and the diffluent groove respectively. Therefore, on one hand, a diffluent effect can be achieved to reduce a hydraulic pressure, and on the other hand, a path for a back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct.
  • a liquid-discharging partition 10 for a dryer 100 and the dryer 100 according to embodiments of the present disclosure are described below with reference to the drawings.
  • the dryer 100 may be a heat pump dryer.
  • the liquid-discharging partition 10 has a liquid guide groove 21.
  • the liquid guide groove 21 has an inlet 211 and an outlet 212.
  • the inlet 211 and the outlet 212 are located at two ends of the liquid guide groove 21 in a length direction (referring to a direction F1 illustrated in FIG. 2 ) of the liquid guide groove 21, respectively.
  • the inlet 211 of the liquid guide groove 21 is in communication with an air duct of the dryer 100.
  • An evaporator 30 of the dryer 100 is located within the air duct.
  • a condensed fluid on the evaporator 30 can flow into the liquid guide groove 21 through the inlet 211 of the liquid guide groove 21, and is finally discharged through the outlet 212 of the liquid guide groove 21.
  • the outlet 212 of the liquid guide groove 21 is in communication with a water storage portion 50 of the dryer 100.
  • the water storage portion 50 is configured to store the condensed liquid flowing to the water storage portion 50 from the liquid guide groove 21.
  • the liquid-discharging partition 10 further has a diffluent groove 31 defined on at least one side of the liquid guide groove 21 in a width direction of the liquid guide groove 21 (refer to a direction F2 illustrated in FIG. 2 ).
  • the diffluent groove 31 may be located on one side of the liquid guide groove 21 in the width direction of the liquid guide groove 21, or the diffluent groove 31 may be located on each of two sides of the liquid guide groove 21 in the width direction of the liquid guide groove 21.
  • the diffluent groove 31 is in communication with the liquid guide groove 21 through liquid passing openings 22.
  • the diffluent groove 31 may be formed in a trapezoidal shape.
  • the heat pump dryer has the liquid-discharging partition provided on a base thereof.
  • the liquid-discharging partition separates an air duct and a water channel at a condenser and an evaporator.
  • a negative pressure is generated in the air duct, that is, an external air pressure is greater than an air pressure inside the air duct, the condensed fluid collected in the water storage portion of the dryer will flow back to the air duct along the water channel through the inlet of the liquid guide groove, affecting a drying efficiency of the dryer.
  • the condensed fluid flowing back from the water storage portion 50 flows to the outlet of the liquid guide groove 21, and flows into the liquid guide groove 21 and the diffluent groove 31 respectively after passing through the outlet of the liquid guide groove 21.
  • a diffluent effect can be achieved to reduce a hydraulic pressure, and on the other hand, a path for a back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct through the inlet of the liquid guide groove 21.
  • the liquid guide groove 21 and the diffluent groove 31 are in communication with each other.
  • the condensed fluid flowing back to the outlet 212 of the liquid guide groove 21 can flow to the liquid guide groove 21 and the diffluent groove 31 respectively. Therefore, on one hand, a diffluent effect can be achieved to reduce a hydraulic pressure, and on the other hand, a path for a back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct.
  • the diffluent groove 31 has an inlet and an outlet that are in communication with the liquid guide groove 21, which facilitates the condensed fluid in the liquid guide groove 21 to flow into and flow out of the diffluent groove 31, and is beneficial to improving a diffluent efficiency of the diffluent groove 31.
  • liquid passing openings 22 are provided and spaced apart from each other in a length direction of the liquid guide groove 21.
  • the liquid passing opening 22 approximate to the inlet 211 of the liquid guide groove 21 is an inlet of the diffluent groove 31, and the liquid passing opening 22 distal to the inlet 211 of the liquid guide groove 21 is an outlet of the diffluent groove 31.
  • a plurality of liquid passing openings 22 is provided and spaced apart from one another in the length direction of the liquid guide groove 21 and is each in communication with the diffluent groove 31. This facilitates the flowing of the condensed fluid in the liquid guide groove 21 into or out of the diffluent groove 31, and is advantageous in improving the diffluent efficiency of the diffluent groove 31.
  • the present disclosure is not limited to this, and only one liquid passing opening 22 may be provided.
  • the liquid-discharging partition 10 includes a plate body 1, a liquid guide portion 2, and a diffluent portion 3.
  • the liquid guide portion 2 is arranged on a side surface of the plate body 1.
  • the liquid guide groove 21 is defined between the liquid guide portion 2 and the plate body 1.
  • the diffluent portion 3 is arranged on a side surface of the plate body 1.
  • the diffluent groove 31 is defined by the plate body 1 and the diffluent portion 3; and/or the diffluent groove 31 is defined by the plate body 1, the liquid guide portion 2, and the diffluent portion 3.
  • the liquid guiding portion 2 arranged on a side surface of the plate body 1, and the liquid guide groove 21 is defined by the liquid guiding portion 2 and the plate body 1.
  • the diffluent portion 3 is arranged on a side surface of the plate body 1, and the diffluent groove 31 is defined by the plate body 1, the liquid guide portion 2, and the diffluent portion 3.
  • the diffluent groove 31 is in communication with the liquid guide groove 21 through two liquid passing openings 22.
  • the liquid-discharging partition 10 further includes a first liquid retaining rib 4 arranged on the plate body 1, located within the diffluent groove 31, and spaced apart from the liquid guide portion 2. It can be understood that the arrangement of the first liquid retaining rib 4 in the diffluent groove 31 is beneficial to increasing a resistance to the back flowing of the condensed fluid when a negative pressure is generated in the air duct, and therefore is beneficial to preventing the condensed fluid from flowing back into the air duct.
  • the liquid-discharging partition 10 further includes a second liquid retaining rib 5 arranged on the plate body 1, located within the diffluent groove 31, and spaced apart from the liquid guide portion 2.
  • the second liquid retaining rib 5 is connected to the first liquid retaining rib 4.
  • An extending direction of the second liquid retaining rib 5 is not parallel to an extending direction of the first liquid retaining rib 4. It can be understood that by a cross arrangement of the first liquid retaining rib 4 and the second liquid retaining rib 5, the path for the back flow of the condensed fluid is further increased, the resistance to the back flowing of the condensed fluid is increased at the same time. Besides, the structure is simple, and is convenient for processing and forming.
  • a plurality of liquid guide ribs 4 is provided and spaced apart from one another. Every two adjacent first liquid retaining ribs 4 are connected to each other by a second liquid retaining rib 5.
  • a plurality refers to two or more. It can be understood that the first liquid retaining ribs 4 and the second liquid retaining ribs 5 are in a cross arrangement, and every two adjacent first liquid retaining ribs 4 are connected by the second liquid retaining rib 5. In this way, it is beneficial to further increasing the path for the back flow of the condensed fluid while increasing the resistance to the back flowing of the condensed fluid.
  • At least one of an extending direction of the first liquid retaining rib 4 or an extending direction of the second liquid retaining rib 5 is not parallel to the length direction of the liquid guide groove 21.
  • neither the extending direction of the first liquid retaining rib 4 nor the extending direction of the second liquid retaining rib 5 is parallel to the length direction of the liquid guide groove 21. Therefore, when the negative pressure is generated in the air duct, the resistance of the first liquid retaining rib 4 and the second liquid retaining rib 5 to the back flowing of the condensed fluid can be further increased.
  • the liquid-discharging partition 10 further includes a third liquid retaining rib 6 arranged on the plate body 1 and located within the diffluent groove 31.
  • the third liquid retaining rib 6 is parallel to the first liquid retaining rib 4.
  • the third liquid retaining rib 6 is located between two adjacent first liquid retaining ribs 4 and spaced apart from the second liquid retaining rib 5. Therefore, the first liquid retaining rib 4, the second liquid retaining rib 5, and the third liquid retaining rib 6 form a labyrinth-shaped structure, which greatly increases the path for the back flow of the condensed fluid while increasing the resistance to the back flowing with a simple structure and low cost.
  • a plurality of third liquid retaining ribs 6 may be provided, and the plurality of third liquid retaining ribs 6 are arranged in parallel and spaced apart from each other.
  • the liquid guide groove 21 has a first side wall 213 and a second side wall 214 that are opposite to each other.
  • the first side wall 213 and the second side wall 214 are defined by inner side walls of the liquid guide portion 2 that are opposite to each other in the F2 direction.
  • At least one of the first side wall 213 or the second side wall 214 has a liquid guide rib 7 provided on an inner surface thereof.
  • the liquid guide rib 7 on one of the first side wall 213 and the second side wall 214 extends obliquely towards the other of the first side wall 213 and the second side wall 214.
  • each of the first side wall 213 and the second side wall 214 has a liquid guide rib 7 provided on an inner surface thereof, and the liquid guide rib 7 extends obliquely towards the other of the first side wall 213 and the second side wall 214.
  • each of the first side wall 213 and the second side wall 214 has a liquid guide rib 7 provided on an inner surface thereof, and the liquid guide rib 7 on either one of the first side wall 213 and the second side wall 214 extends obliquely towards the other of the first side wall 213 and the second side wall 214.
  • the provision of the liquid guide rib 7 is beneficial for increasing the resistance to the flowing of the condensed fluid in the liquid guide groove 21 and preventing the back flowing of the condensed fluid, when the negative pressure is generated in the air duct.
  • the liquid guide rib 7 extends obliquely towards the outlet 212 of the liquid guide groove 21 from outside to inside in the width direction of the liquid guide groove 21.
  • a direction approaching the first side wall 213 and a direction approaching the second side wall 214 is "outside”
  • a direction approaching a center of the liquid guide groove 21 is "inside”.
  • a plurality of liquid guide ribs 7 is provided and spaced apart from one another in the length direction of the liquid guide groove 21. Therefore, by the arrangement of the plurality of liquid guide ribs 7 spaced apart from one another, when the negative pressure is generated and the back flowing is caused, the resistance to the back flowing of the condensed fluid is further increased to prevent the condensed fluid from flowing back to the air duct.
  • the plurality of liquid guide ribs 7 includes a first liquid guide rib 71 and a second liquid guide rib 72.
  • the first liquid guide rib 71 has an end connected to the first side wall 213, and another end extending obliquely towards the outlet 212 of the liquid guide groove 21 and spaced apart from the second side wall 214.
  • the second liquid guide rib 72 has an end connected to the second side wall 214, and another end extending obliquely towards the outlet 212 of the liquid guide groove 21 and spaced apart from the first side wall 213.
  • the first liquid guide rib 71 and the second liquid guide rib 72 can play a good role in guiding water, and when the negative pressure is generated and the back flowing is caused, the first liquid guide rib 71 and the second liquid guide rib 72 can further increase the resistance to the back flowing of the condensed fluid, which is beneficial to preventing the condensed fluid from flowing back to the air duct.
  • the plurality of liquid guide ribs 7 includes a plurality of first liquid guide ribs 71 and a plurality of second liquid guide ribs 72.
  • the plurality of first liquid guide ribs 71 and the plurality of second liquid guide ribs 72 are arranged alternately and spaced apart from each other in the length direction of the liquid guide groove 21. Therefore, when the negative pressure is generated and the back flowing is caused, the resistance to the back flowing of the condensed fluid can be greatly increased to prevent the condensed fluid from flowing back to the air duct.
  • the structure is simple and the production cost is low.
  • the liquid passing opening 22 is defined in one of the first side wall 213 and the second side wall 214 closer to the diffluent portion 3. Therefore, the structure is simple, and is beneficial to the processing and forming of the liquid-discharging partition 10.
  • the liquid guiding portion 2 and the diffluent portion 3 are each a flexible member.
  • the liquid guide portion 2 and the diffluent portion 3 are each a silicone member or a rubber member.
  • a sealing performance between the liquid-discharging partition 10 and an inner bottom wall of an air duct housing 20 can be enhanced, which is beneficial to preventing the condensed fluid from flowing into the air duct through gaps between the liquid guide portion 2, the diffluent portion 3, and the air duct housing 20, and is beneficial to improving the drying efficiency.
  • the first liquid retaining rib 4, the second liquid retaining rib 5, the third liquid retaining rib 6, and the liquid guide rib 7 are each a flexible member.
  • the first liquid retaining rib 4, the second liquid retaining rib 5, the third liquid retaining rib 6, and the liquid guide rib 7 are each a silicone member or a rubber member.
  • a dryer 100 includes an air duct housing 20 and the liquid-discharging partition 10 for the dryer 100 according to the above embodiments of the present disclosure.
  • the air duct housing has a chamber 201 where an evaporator 30 and a condenser 40 are mounted.
  • the liquid-discharging partition 10 is located within the chamber 201.
  • a liquid-discharging channel a is defined between an inner bottom wall of the chamber 201 and each of the liquid guide groove 21 and the diffluent groove 31.
  • each of the evaporator 30 and the condenser 40 is arranged on the liquid-discharging partition 10 and can play a role in pressing the liquid-discharging partition 10 tight.
  • the chamber 201 has a water guide groove 202 provided on the inner bottom wall thereof.
  • the evaporator 30 is arranged on the water guide groove 202, and the water guide groove 202 is in communication with the inlet 211 of the liquid guide groove 21.
  • the condensed fluid on the evaporator 30 can flow downwards into the water guide groove 202, then flow into the liquid guide groove 21 and the diffluent groove 31 through the inlet 211 of the liquid guide groove 21, and finally be discharged through the outlet 212 of the liquid guide groove 21.
  • the condensed fluid flowing back from the water storage portion 50 flows to the outlet 212 of the liquid guide groove 21, and flows into the liquid guide groove 21 and the diffluent groove 31 after passing through the outlet 212 of the liquid guide groove 21.
  • a diffluent effect can be achieved to reduce a hydraulic pressure, and on the other hand, the path for the back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct through the inlet of the liquid guide groove 21.
  • the dryer 100 of the embodiments of the present disclosure by the provision of the liquid-discharging partition 10 for the dryer 100 according to the above embodiments of the present disclosure, when the negative pressure is generated in the air duct, the condensed fluid flowing back to the outlet 212 of the liquid guide groove 21 can flow to the liquid guide groove 21 and the diffluent groove 31.
  • the diffluent effect can be achieved to reduce the hydraulic pressure, and on the other hand, the path for the back flow of the condensed fluid is increased, which is beneficial to preventing the condensed fluid from flowing back into the air duct and therefore is beneficial to improving the drying efficiency.
  • orientation or position relationship indicated by the terms “center”, “length”, “width”, “thickness”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inner”, “outer”, “axial”, “radial”, “circumferential”, etc. is based on the orientation or position relationship shown in the drawings, and is only for the convenience of describing the present disclosure and simplifying the description, rather than indicating or implying that the defined device or element must have a specific orientation or must be constructed and operated in a specific orientation. Thus, the orientation or position relationship indicated by these terms cannot be understood as limitations on the present disclosure.
  • first and second are only used for purpose of description, and cannot be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features. Therefore, the features defined by the terms “first” and “second” may explicitly or implicitly include at least one of the features.
  • “plurality” means at least two, unless otherwise specifically defined.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Detail Structures Of Washing Machines And Dryers (AREA)
  • Separating Particles In Gases By Inertia (AREA)
EP20932016.7A 2020-04-21 2020-06-22 Plaque de séparation à évacuation de liquide pour séchoir et séchoir Active EP4083305B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN202010315363.XA CN111364220B (zh) 2020-04-21 2020-04-21 用于干衣机的排液隔板及干衣机
PCT/CN2020/097513 WO2021212645A1 (fr) 2020-04-21 2020-06-22 Plaque de séparation à évacuation de liquide pour séchoir et séchoir

Publications (3)

Publication Number Publication Date
EP4083305A1 true EP4083305A1 (fr) 2022-11-02
EP4083305A4 EP4083305A4 (fr) 2023-06-21
EP4083305B1 EP4083305B1 (fr) 2024-09-18

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Application Number Title Priority Date Filing Date
EP20932016.7A Active EP4083305B1 (fr) 2020-04-21 2020-06-22 Plaque de séparation à évacuation de liquide pour séchoir et séchoir

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EP (1) EP4083305B1 (fr)
CN (1) CN111364220B (fr)
WO (1) WO2021212645A1 (fr)

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Publication number Priority date Publication date Assignee Title
CN114075772B (zh) * 2020-08-21 2023-02-28 无锡小天鹅电器有限公司 用于干衣机的风道壳和干衣机
CN114075771B (zh) * 2020-08-21 2023-02-28 无锡小天鹅电器有限公司 用于干衣机的风道壳和干衣机
CN114075770B (zh) * 2020-08-21 2022-12-20 无锡小天鹅电器有限公司 用于干衣机的风道壳和干衣机
CN114941231A (zh) * 2022-06-30 2022-08-26 海信冰箱有限公司 洗衣机
CN114960131A (zh) * 2022-06-30 2022-08-30 海信冰箱有限公司 洗衣机

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KR100631574B1 (ko) * 2005-08-13 2006-10-09 엘지전자 주식회사 응축식 세탁건조기
CN103898727B (zh) * 2012-12-25 2018-10-12 青岛海尔洗衣机有限公司 一种干衣机冷凝水排水结构及干衣机
WO2015065299A1 (fr) * 2013-11-01 2015-05-07 Arcelik Anonim Sirketi Sèche-linge à pompe à chaleur
CN104746283B (zh) * 2013-12-25 2017-01-04 海尔集团技术研发中心 一种家用干洗机及控制方法
KR101638923B1 (ko) * 2015-01-13 2016-07-12 엘지전자 주식회사 건조기
JP6616590B2 (ja) * 2015-05-19 2019-12-04 三星電子株式会社 乾燥機
KR102506517B1 (ko) * 2016-02-17 2023-03-03 엘지전자 주식회사 세탁물 처리장치
US20170343272A1 (en) * 2016-05-31 2017-11-30 Wuxi Little Swan Co., Ltd. Base Of Heat Pump System And Heat Pump System For Drier Or Washer-Drier
DE102017109058A1 (de) * 2017-04-27 2018-10-31 Miele & Cie. Kg Wärmepumpengerät, vorzugsweise Wärmepumpenwäschetrockner
CN108396528B (zh) * 2018-03-09 2020-08-11 无锡小天鹅电器有限公司 干衣机的底座组件以及干衣机
CN110857521B (zh) * 2018-08-24 2024-03-08 无锡飞翎电子有限公司 用于干衣机的底座组件、冷凝干燥系统和干衣机
CN110878873A (zh) * 2019-09-29 2020-03-13 厦门倍杰特科技股份公司 一种防回流、防虹吸模块

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Publication number Publication date
EP4083305A4 (fr) 2023-06-21
WO2021212645A1 (fr) 2021-10-28
CN111364220A (zh) 2020-07-03
EP4083305B1 (fr) 2024-09-18
CN111364220B (zh) 2021-12-21

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