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CN-121976379-A - Condensing assembly and clothes treatment equipment

CN121976379ACN 121976379 ACN121976379 ACN 121976379ACN-121976379-A

Abstract

The invention provides a condensation assembly and clothes treatment equipment, wherein the condensation assembly comprises a condensation air duct and water retaining ribs, the condensation air duct comprises an air duct air inlet, an air duct air outlet and a water inlet, the air duct air inlet is used for conveying drying air flow into the condensation air duct, the air duct air outlet is used for discharging drying air flow in the condensation air duct, the water inlet is used for conveying condensed water into the condensation air duct, the water retaining ribs are arranged in the condensation air duct, at least part of the water retaining ribs are positioned between the water inlet and the air duct air outlet and are close to the water inlet, the water retaining ribs can directly and effectively prevent the condensed water from flowing to the air duct air outlet along with the drying air flow, the condensed water is prevented from entering a fan and a subsequent heating air duct, the fan performance attenuation and fault risk caused by the invasion of the condensed water are avoided, meanwhile, the thermal efficiency of a heating element is ensured not to be lost, the fan can be stably and reliably operated, and the drying air flow can be heated to a preset temperature, and the drying efficiency of the clothes treatment equipment is further improved.

Inventors

  • Hui Guangzheng
  • YANG HONGYONG
  • YI ZHENXU
  • HUANG QIANG
  • ZHENG MINGXING

Assignees

  • 珠海格力电器股份有限公司

Dates

Publication Date
20260505
Application Date
20260123

Claims (10)

  1. 1. A condensing assembly for a laundry treating apparatus, characterized in that the condensing assembly comprises: The condensing air duct (13) comprises an air duct air inlet, an air duct air outlet (133) and a water inlet (134), wherein the air duct air inlet is used for conveying drying air flow into the condensing air duct (13), the air duct air outlet (133) is used for discharging the drying air flow in the condensing air duct (13), and the water inlet (134) is used for conveying condensed water into the condensing air duct (13); The water blocking ribs (14) are arranged in the condensation air duct (13), and at least part of the water blocking ribs (14) are positioned between the water inlet (134) and the air duct air outlet (133); Relative to the air duct air outlet (133), the water blocking rib (14) is closer to the water inlet (134).
  2. 2. The condensing assembly according to claim 1, characterized in that the condensing air duct (13) extends in an up-down direction as a whole, the air duct air inlet is located at a lower end of the condensing air duct (13), and the air duct air outlet (133) is located at an upper end of the condensing air duct (13); On the same horizontal section, the size of the water blocking ribs (14) is smaller than that of the condensation air duct (13).
  3. 3. The condensing assembly according to claim 2, wherein the water blocking rib (14) comprises a first water blocking section (141) and a second water blocking section (142) connected with the first water blocking section (141), one end of the first water blocking section (141) is arranged at the water inlet (134) in a surrounding mode, the other end of the first water blocking section extends below the water inlet (134), the second water blocking section (142) extends in the left-right direction, and the second water blocking section (142) is arranged below the first water blocking section (141).
  4. 4. The condensing assembly according to claim 3, wherein the condensing assembly comprises a condensing shell (11) and a condensing cover (12) which are oppositely arranged at front and back, the condensing cover (12) is buckled on the condensing shell (11) and is enclosed with the condensing shell (11) into the condensing air duct (13), the condensing shell (11) is provided with the air duct air inlet and the air duct air outlet (133), the left wall of the condensing cover (12) is a cover left wall (121), and the right wall of the condensing cover (12) is a cover right wall (122); The water blocking rib (14) is arranged on the condensation cover (12), the water inlet (134) is formed on the cover Zuo Bi (121) in the left-right direction, the first water blocking section (141) is positioned on the right side of the water inlet (134), a diversion channel (16) is formed between the first water blocking section (141) and the cover left wall (121), or the water inlet (134) is formed on the cover right wall (122), the first water blocking section (141) is positioned on the left side of the water inlet (134), and the diversion channel (16) is formed between the first water blocking section (141) and the cover right wall (122); the diversion channel (16) can enable the inflow water of the water inlet (134) to flow from top to bottom.
  5. 5. The condensing assembly of claim 4, wherein when the cover Zuo Bi (121) is formed with the water inlet (134), a vent (17) is present at an end of the second water deflector segment (142) remote from the first water deflector segment (141) and the cover right wall (122), and when the cover right wall (122) is formed with the water inlet (134), a vent (17) is present at an end of the second water deflector segment (142) remote from the first water deflector segment (141) and the cover left wall (121); a gap exists between the second water retaining section (142) and the condensation shell (11); The air vent (17) and gap enable the drying air flow to pass through.
  6. 6. The condensing assembly according to claim 2, wherein the water blocking ribs (14) are retractable in the horizontal direction, and the length and width of the water blocking ribs (14) in the horizontal direction can be adjusted according to the flow rate and humidity of the drying air flow in the condensing duct (13), or, The position of the water blocking rib (14) can be adjusted, and the interval between the water blocking rib (14) and the water inlet (134) can be adjusted according to the water inflow amount and the water inflow direction of the water inlet (134).
  7. 7. The condensing assembly according to claim 2, characterized in that a plurality of water blocking ribs (14) are provided, and a plurality of water blocking ribs (14) are staggered in the horizontal direction and/or the up-down direction of the water inlet (134).
  8. 8. The condensation assembly according to any one of claims 2 to 7, further comprising a deflector rib (15), the deflector rib (15) being arranged within the condensation duct (13), and the horizontal width of the deflector rib (15) being smaller than the horizontal width of the water deflector rib (14); The horizontal width of the guide rib (15) is the width of the guide rib (15) in the horizontal direction, and the horizontal width of the water blocking rib (14) is the width of the water blocking rib (14) in the horizontal direction.
  9. 9. The condensation module according to claim 8, wherein the difference between the horizontal width of the water deflector rib (14) and the horizontal width of the water deflector rib (15) is a, the a satisfying 0 mm≤a≤10 mm.
  10. 10. The clothes treatment equipment is characterized by comprising an outer barrel, a heating air duct, a fan, an inner barrel and a condensation assembly according to any one of claims 1 to 9, wherein the outer barrel comprises a barrel opening and a barrel wall, a drying air inlet is arranged at the barrel opening, and a drying air outlet is arranged at the barrel wall; the drying air outlet, the air inlet of the air channel, the condensation air channel (13), the air outlet of the air channel (133), the fan, the heating air channel, the drying air inlet, the inner cylinder and the outer cylinder are sequentially communicated with the drying air outlet to form a drying air flow loop.

Description

Condensing assembly and clothes treatment equipment Technical Field The invention belongs to the technical field of clothes treatment, and particularly relates to a condensing assembly and clothes treatment equipment. Background In the clothes treatment equipment adopting water-cooled drying, a drying system generally comprises a condensation air channel and a heating air channel, wherein the drying air flow exchanges heat with condensed water in the condensation air channel, is converted into a dry and cold state from a wet and hot state, then enters the heating air channel through a fan to be reheated, and finally enters an outer barrel to exchange heat with clothes to realize drying. However, there is still room for improvement in the structural design of the condensation duct in the prior art, specifically, the condensation duct is generally provided with a guide rib, but the function of the guide rib is mainly limited to a flow path for guiding the condensed water, the structural design is difficult to effectively block the condensed water splashed due to air flow disturbance and the like, so that part of the condensed water flows out of an air outlet of the duct along with the drying air flow, the discharged condensed water possibly enters a downstream fan to cause fan faults or performance degradation, meanwhile, the condensed water entering the heating duct consumes additional heating energy, so that the drying air flow cannot reach a preset heating temperature, and the problems finally together lead to the reduction of the drying efficiency, the increase of energy consumption and the poor reliability of the clothes treatment equipment. Disclosure of Invention In view of this, the invention provides a condensing assembly and a clothes processing device, so as to solve the problems in the prior art that part of condensed water enters a fan along with a drying air flow to cause fan failure, and the drying air flow cannot reach a preset heating temperature due to additional heating energy consumption when entering a heating air channel, so that the drying efficiency of the clothes processing device is reduced and the reliability is poor. The invention provides a condensing assembly for a laundry treatment apparatus, comprising: the condensing air duct comprises an air duct air inlet, an air duct air outlet and a water inlet, wherein the air duct air inlet is used for conveying drying air flow into the condensing air duct, the air duct air outlet is used for discharging the drying air flow in the condensing air duct, and the water inlet is used for conveying condensed water into the condensing air duct; The water retaining rib is arranged in the condensation air duct, and at least part of the water retaining rib is positioned between the water inlet and the air duct air outlet; For wind channel air outlet, the manger plate muscle is closer to the water inlet. Further alternatively, the whole condensing air duct extends in the up-down direction, the air inlet of the air duct is positioned at the lower end of the condensing air duct, and the air outlet of the air duct is positioned at the upper end of the condensing air duct; on the same horizontal section, the size of the water blocking rib is smaller than that of the condensation air duct. Further alternatively, the water retaining rib comprises a first water retaining segment and a second water retaining segment connected with the first water retaining segment, one end of the first water retaining segment is surrounded at the water inlet, the other end of the first water retaining segment extends below the water inlet, the second water retaining segment extends in the left-right direction, and the second water retaining segment is below the first water retaining segment. The condensing assembly comprises a condensing shell and a condensing cover which are oppositely arranged in front and back, wherein the condensing cover is buckled on the condensing shell and is enclosed with the condensing shell to form the condensing air duct together; The water blocking ribs are arranged on the condensation cover; in the left-right direction, the left wall of the cover is provided with the water inlet, the first water retaining section is positioned on the right side of the water inlet, and a diversion channel is formed between the first water retaining section and the left wall of the cover; the diversion channel can enable the inflow water of the water inlet to flow from top to bottom. Further alternatively, when the water inlet is formed on the left wall of the cover, a vent is formed between one end of the second water retaining section, which is far away from the first water retaining section, and the right wall of the cover; a gap exists between the second water retaining section and the condensation shell; The vents and gaps enable the flow of the drying air. Further alternatively, the water blocking ribs are telescopic in the horizontal direction, and the l