CN221000266U - Condensing assembly and laundry device - Google Patents

Abstract

The application discloses a condensing assembly and washing equipment, and belongs to the technical field of washing. The condensing assembly includes: a condensing channel, a filtering part and a scavenging part. The hot wind generated from the drying assembly in the laundry apparatus can be blown toward wet laundry in the drum of the laundry apparatus to dry, and some contaminants (e.g., lint) flowing along with the wet hot wind can be filtered by the filter member and then attached to the filter member. In addition, through setting up the clear away part with filter element swing joint in condensation passageway, after laundry equipment's stoving work is finished, clear away the part towards filter element removal back, set up in the clear away needle of part towards filter element one side and can insert the filtration downthehole of filter element on, carry out effectual clear away to the pollutant that adheres to on filter element, and the follow-up washing is thoroughly clear away the pollutant again, has guaranteed the smooth flow of the air current in the condensation passageway.

Description

Condensing assembly and laundry device

Technical Field

The application relates to the technical field of laundry, in particular to a condensing assembly and laundry equipment.

Background

With the improvement of living standards of residents, the existing washing equipment (such as a washing machine) is required to meet not only the washing requirement, but also the drying requirement after washing clothes, and the washing and drying integrated machine is applied.

The laundry often generates more contaminants (e.g., lint) during the drying stage, which typically adhere to the inner walls of the drying section, resulting in poor drying of the laundry by the drying section.

Disclosure of utility model

The embodiment of the application provides a condensing assembly. The problem of the stoving effect of stoving part to clothing among the prior art is relatively poor can be solved, technical scheme is as follows:

in one aspect, there is provided a condensing assembly comprising:

The condensing channel is provided with an air inlet and an air outlet which are oppositely arranged, the air inlet is used for being communicated with a washing barrel of the washing equipment, and the air outlet is used for being communicated with a drying component of the washing equipment;

a filter element positioned within the condensing channel, the filter element having a plurality of filter apertures;

The cleaning component is positioned in the condensation channel and is movably connected with the filtering component, one side of the cleaning component, facing the filtering component, is provided with a plurality of cleaning needles, and the cleaning needles are in one-to-one correspondence with the plurality of filtering holes;

Wherein at least a portion of the purging needle is inserted into a corresponding filter hole after the purging member is moved toward the filter member.

Optionally, the cleaning component includes: the support plate is arranged opposite to the filtering component, the guide post is connected with the support plate, one side of the support plate, which faces the filtering component, is provided with a plurality of cleaning needles, and the guide post is movably connected with the filtering component.

Optionally, the guide post is fixedly connected with one side of the support plate, which faces the filtering component;

The filtering component is further provided with a through hole, sleeved on the guide post through the through hole and connected with the guide post in a sliding mode.

Optionally, the cleaning component further includes: and the limiting plate is fixedly connected with one end of the guide post, which is away from the supporting plate, and is positioned on one side of the filtering component, which is away from the supporting plate, and the size of the limiting plate is larger than that of the through hole.

Optionally, the cleaning component includes: the driving component is connected with the guide post, and the guide post is in threaded connection with the supporting plate;

wherein the driving part is configured to: and driving the guide post to rotate so that the support plate moves on the guide post.

Optionally, in the extending direction parallel to the guide post, the filter element is closer to the inlet of the condensation channel than the support plate, and after the support plate is moved in a direction away from the filter element, in the extending direction parallel to the guide post, the outlet of the condensation channel is located between the filter element and the support plate.

Optionally, an adhesive colloid is arranged on the outer wall of the cleaning needle.

Optionally, the length of the purge needle is greater than or equal to the length of the filter aperture.

Optionally, the condensing assembly further includes: a water injection member in communication with the condensation channel, and configured to: and injecting washing water into the filtering part positioned in the condensing passage.

In another aspect, there is provided a laundry appliance comprising:

A washing drum, a drying assembly and a condensing assembly;

The air inlet of the condensing assembly is communicated with the washing drum, the air outlet of the condensing assembly is communicated with the drying assembly, and the condensing assembly is any one of the condensing assemblies.

The technical scheme provided by the embodiment of the application has the beneficial effects that at least:

A condensing assembly may include: a condensing channel, a filtering part and a scavenging part. When the condensing assembly is integrated in the laundry device, the air inlet on the condensing channel may be in communication with a tub in the laundry device (e.g., may be in direct communication with an inner tub in the laundry device, or may be in communication with an outer tub in the laundry device, and thus in communication with the inner tub), and the air outlet on the condensing channel may be in communication with a drying assembly in the laundry device. In this way, the hot wind generated from the drying assembly can be blown to the wet laundry in the drum of the laundry apparatus to dry, and some contaminants (e.g., lint) flowing along with the wet hot wind can be filtered by the filter member and then attached to the filter member. In addition, through setting up the clear away part with filter element swing joint in condensation passageway, after laundry equipment's stoving work is finished, clear away the part towards filter element removal back, set up in the clear away needle of part towards filter element one side and can insert the filtration downthehole of filter element on, carry out effectual clear away to the pollutant that adheres to on filter element, and the follow-up washing is thoroughly clear away the pollutant again, has guaranteed the smooth flow of the air current in the condensation passageway. And then after integrating condensation subassembly in the laundry equipment, the probability that the filth got into stoving subassembly is lower, has guaranteed that stoving subassembly is better to the stoving effect of clothing in the inner tube, and has reduced the probability that the filth produced harmful effect to the heat pump part (not shown in the figure) in the stoving subassembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the external structure of a condensing assembly according to an embodiment of the present application;

FIG. 2 is a schematic view of the internal structure of the condensing assembly shown in FIG. 1;

FIG. 3 is a schematic illustration of a connection between a cleaning element and a filtering element according to an embodiment of the present application;

FIG. 4 is a schematic illustration of the effect of a cleaning element and filter element connection provided by an embodiment of the present application;

FIG. 5 is a schematic view showing the effect of connecting a cleaning member to a filtering member according to another embodiment of the present application;

FIG. 6 is a schematic view of a part of the structure of a cleaning member according to an embodiment of the present application;

fig. 7 is a schematic structural view of another condensation assembly according to an embodiment of the present application.

Specific embodiments of the present application have been shown by way of the above drawings and will be described in more detail below. The drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but rather to illustrate the inventive concepts to those skilled in the art by reference to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, fig. 1 is an external structural schematic diagram of a condensation assembly according to an embodiment of the application, and fig. 2 is an internal structural schematic diagram of the condensation assembly shown in fig. 1. The condensing assembly 000 may include: a condensation channel 100, a filtering part 200 and a purging part 300.

The condensing duct 100 of the condensing assembly 000 may have an air inlet a1 and an air outlet a2 disposed opposite to each other, the air inlet a1 of the condensing duct 100 may be used to communicate with a tub of the laundry apparatus, and the air outlet a2 of the condensing duct 100 may be used to communicate with a drying assembly of the laundry apparatus.

The filter member 200 in the condensing assembly 000 may be located within the condensing channel 100 and may be fixed within the condensing channel 100, and the filter member 200 may have a plurality of filter holes 201. For example, the filter member 200 may be located between the air inlet a1 of the condensation duct 100 and the air outlet a2 of the condensation duct 100, and the filter member 200 may filter the air flow entering the condensation duct 100 from the air inlet a 1. The shape of the filter hole 201 of the filter member 200 is square and/or circular, etc., and the embodiment of the present application is not particularly limited thereto.

The purge member 300 of the condensing assembly 000 may be located within the condensing channel 100, and the purge member 300 may be movably coupled to the filter member 200. The side of the cleaning member 300 facing the filter member 200 may have a plurality of cleaning needles 301, and the plurality of cleaning needles 301 may be in one-to-one correspondence with the plurality of filter holes 201 on the filter member 200.

Wherein at least a portion of the purging needles 301 on the purging member 300 may be inserted into corresponding filter holes 201 on the filter member 200 after the purging member 300 is moved toward the filter member 200. For example, each of the plurality of purging needles 301 may be inserted into a corresponding filter hole 201.

In an embodiment of the present application, after the condensation assembly 000 is integrated in the laundry apparatus, the air inlet a1 of the condensation duct 100 may communicate with a tub in the laundry apparatus (for example, may communicate directly with an inner tub in the laundry apparatus or with an outer tub in the laundry apparatus, and thus with the inner tub), and the air outlet a2 of the condensation duct 100 may communicate with a drying assembly in the laundry apparatus. In this way, the hot wind generated from the drying assembly can be blown toward the wet laundry in the drum of the laundry apparatus to dry, and some contaminants (e.g., lint) flowing along with the wet hot wind can be filtered by the filter member 200 and then attached thereto. In addition, through the cleaning member 300 movably connected with the filtering member 200 in the condensation channel 100, after the drying operation of the laundry equipment is finished, the cleaning member 300 moves towards the filtering member 200, and the cleaning needle 301 arranged on one side of the cleaning member 300 towards the filtering member 200 can be inserted into the filtering hole 201 on the filtering member 200, so that the contaminants adhered to the filtering member 200 can be effectively cleaned, and then the contaminants can be thoroughly cleaned in cooperation with the subsequent cleaning, thereby ensuring the smooth flow of the air flow in the condensation channel 100. And then after integrating condensation subassembly 000 into laundry equipment, the probability that the filth gets into drying assembly is lower, has guaranteed that drying assembly is better to the stoving effect of clothing in the inner tube, and has reduced the probability that the filth produced harmful effects to the heat pump part (not shown in the figure) in the drying assembly.

In summary, the embodiment of the present application provides a condensation assembly, which may include: a condensing channel, a filtering part and a scavenging part. When the condensing assembly is integrated in the laundry device, the air inlet on the condensing channel may be in communication with a tub in the laundry device (e.g., may be in direct communication with an inner tub in the laundry device, or may be in communication with an outer tub in the laundry device, and thus in communication with the inner tub), and the air outlet on the condensing channel may be in communication with a drying assembly in the laundry device. In this way, the hot wind generated from the drying assembly can be blown to the wet laundry in the drum of the laundry apparatus to dry, and some contaminants (e.g., lint) flowing along with the wet hot wind can be filtered by the filter member and then attached to the filter member. In addition, through setting up the clear away part with filter element swing joint in condensation passageway, after laundry equipment's stoving work is finished, clear away the part towards filter element removal back, set up in the clear away needle of part towards filter element one side and can insert the filtration downthehole of filter element on, carry out effectual clear away to the pollutant that adheres to on filter element, and the follow-up washing is thoroughly clear away the pollutant again, has guaranteed the smooth flow of the air current in the condensation passageway. And then after integrating condensation subassembly in the laundry equipment, the probability that the filth got into stoving subassembly is lower, has guaranteed that stoving subassembly is better to the stoving effect of clothing in the inner tube, and has reduced the probability that the filth produced harmful effect to the heat pump part (not shown in the figure) in the stoving subassembly.

Optionally, referring to fig. 2 and fig. 3, fig. 3 is a schematic diagram illustrating connection between a cleaning component and a filtering component according to an embodiment of the present application. The purge component 300 in the condensing assembly 000 may include: a support plate 302 disposed opposite the filter member 200, and a guide post 303 coupled to the support plate 302, the support plate 302 may have a plurality of cleaning needles 301 on a side facing the filter member 200, and the guide post 303 may be movably coupled to the filter member 200. In this case, the support plate 302 is provided so as to face the filter member 200, and the support plate 302 can fix and mount the plurality of the purge needles 301. In the present application, the filter member 200 may be closer to the air inlet a1 of the condensation duct 100 with respect to the support plate 302 in the purge member 300 in the extending direction parallel to the guide post 303. And after the support plate 302 is moved in a direction away from the filter member 200, the air outlet a2 of the condensation duct 100 may be located between the filter member 200 and the support plate 302 in an extending direction parallel to the guide post 303. In this case, the air flow entering the condensing duct 100 through the air inlet a1 can be effectively filtered by the filter member 200, and the air flow filtered by the filter member 200 can be introduced into the drying assembly in the laundry apparatus through the air outlet a2 between the filter member 200 and the support plate 302. It should be noted that, in other possible implementations, the support plate may be disposed at a position closer to the air inlet than the filter element, and when the laundry apparatus performs a drying operation, the support plate is staggered from the filter element, and meanwhile, an avoidance groove (not shown in the drawing) is disposed in the condensation channel for carrying the support plate. When the drying operation of the washing apparatus is completed, the support plate is moved out of the avoidance groove by a driving structure (not shown in the drawing) and is driven to move in a direction approaching the filtering part.

In embodiments of the present application, there are many possible implementations of the manner in which the support plate 302 moves relative to the filter element 200, and the following embodiments of the present application are schematically illustrated by way of two alternative implementations:

Referring to fig. 3 and fig. 4, fig. 4 is a schematic view illustrating the effect of connecting the cleaning unit and the filtering unit according to the embodiment of the present application. The guide post 303 in the cleaning member 300 may be fixedly coupled to a side of the support plate 302 facing the filter member 200. The filter element 200 may also have a through-hole 202, through which the filter element 200 may be sleeved on the guide post 303 and may be slidably connected to the guide post 303. In this case, by providing the through-hole 202 on the filter member 200, the filter member 200 is sleeved on the guide post 303 fixedly connected with the support plate 302 through the through-hole 202, so that the air flow entering the condensing duct 100 can apply a force to the support plate 302 through the filter hole 201 during the drying operation of the laundry device, so as to jack up the support plate 302, and the cleaning needle 301 on the support plate 302 is separated from the filter hole 201 on the filter member 200; the air flow can then flow from the air outlet a2 of the condensing duct 100 into the drying assembly in the laundry appliance. After the washing machine finishes the drying operation, the acting force of the air flow on the supporting plate 302 disappears, and the supporting plate 302 falls under the action of gravity, so that the cleaning needle 301 on the supporting plate 302 is inserted into the filtering hole 201 on the filtering component 200, and the pollutants attached to the filtering component 200 are cleaned. In addition, in the moving process of the support plate 302, the guide post 303 can slide in the through hole 202 on the filter component 200, so that the guide post 303 can play a guiding role for the movement of the support plate 302, and further, the cleaning needle 301 on the support plate 302 can be accurately inserted into the filter hole 201 on the filter component 200.

Optionally, as shown in fig. 3 and 4, the cleaning member 300 may further include: and a limiting plate 304 fixedly connected to one end of the guide post 303 facing away from the support plate 302, wherein the limiting plate 304 may be located on a side of the filter element 200 facing away from the support plate 302, and the size of the limiting plate 304 may be larger than the size of the through hole 202 on the filter element 200. In this case, through setting up limiting plate 304 in the one end that guide post 303 deviates from backup pad 302, and limiting plate 304's size is greater than the size of through-hole 202 on the filter element 200, so, when backup pad 302 moves to the direction of keeping away from filter element 200, can effectually guarantee that guide bar 303 can not separate with filter element 200 and drop, has increased user's use experience.

Referring to fig. 5, fig. 5 is a schematic view showing the effect of connecting the cleaning member and the filtering member according to another embodiment of the present application. The purge component 300 may include: a driving part 305 connected to the guide post 303, and the guide post 303 may be screw-connected to the support plate 302. Wherein the driving section 305 may be configured to: the guide post 303 is rotated to move the support plate 302 on the guide post 303. In this case, the guide post 303 is driven to rotate by the driving part 305 to actively drive the support plate 302 to move on the guide post 303 in a direction approaching the filter part 200 or a direction separating from the filter part 200. For example, during the drying operation of the washing device, the driving component 305 drives the guide post 303 to rotate along the first direction, and then drives the support plate 302 to move away from the filtering component 200, so that the cleaning needle 301 on the support plate 302 is separated from the filtering hole 201; the air flow can then flow from the air outlet a2 of the condensing duct 100 into the drying assembly in the laundry appliance. After the drying operation of the washing machine is finished, the driving part 305 drives the guide post 303 to rotate along the second direction, and then drives the supporting plate 302 to move towards the direction close to the filtering part 200, so that the cleaning needle 301 on the supporting plate 302 can be inserted into the filtering hole 201 on the filtering part 200 to clean the pollutants. For example, the guide post 303 is screwed to the support plate 302, the driving component 305 may be a driving motor or a driving motor, and the driving component 305 may be connected to an end of the guide post 303, so as to drive the guide post 303 to rotate in a first direction or a second direction, where one of the first direction and the second direction may be a clockwise direction, and the other may be a counterclockwise direction.

In the embodiment of the present application, please refer to fig. 6, fig. 6 is a schematic diagram of a part of a cleaning component according to an embodiment of the present application. The outer wall of the removing needle 301 of the removing member 300 may have an adhesive gel A1 thereon. In this case, by providing the adhesive gel A1 on the outer wall of the removal needle 301, the removal needle 301 can adhere the contaminants adhered to the filter hole 201 through the adhesive gel A1 in the process of being inserted into the filter hole 201 on the filter member 200, and then when the removal needle 301 leaves the filter hole 201 on the filter member 200, the adhered contaminants are carried away, thereby further ensuring that the removal effect of the removal member 300 on the contaminants on the filter member 200 is better.

Alternatively, as shown in FIG. 4, the length of the purge needle 301 on the purge member 300 may be greater than or equal to the length of the filter aperture 201 on the filter member 200. In this case, by providing the length of the cleaning needle 301 on the cleaning member 300 to be greater than or equal to the length of the filter hole 201 on the filter member 200, the contaminants adhering to the filter hole 201 can be sufficiently cleaned after the cleaning needle 301 is inserted into the filter hole 201, so that the cleaning effect of the cleaning member 300 is good.

In an embodiment of the present application, please refer to fig. 7, fig. 7 is a schematic structural diagram of another condensation assembly according to an embodiment of the present application. The condensing assembly 000 may further include: a water injection part 400, the water injection part 400 may communicate with the condensation channel 100, and the water injection part 400 may be configured to: the washing water is injected into the filter member 200 located in the condensing duct 100. In this case, by providing the water injection part 400 in the condensing unit 000, the water injection part 400 can spray the washing liquid to the filter part 200 during the drying operation of the laundry device, and the washing liquid can effectively wash the filings attached to the filter part 200, thereby ensuring the cleanliness of the filter part 200.

In summary, the embodiment of the present application provides a condensation assembly, which may include: a condensing channel, a filtering part and a scavenging part. When the condensing assembly is integrated in the laundry device, the air inlet on the condensing channel may be in communication with a tub in the laundry device (e.g., may be in direct communication with an inner tub in the laundry device, or may be in communication with an outer tub in the laundry device, and thus in communication with the inner tub), and the air outlet on the condensing channel may be in communication with a drying assembly in the laundry device. In this way, the hot air generated from the drying assembly can be blown to the wet laundry in the drum of the laundry apparatus to dry, and some contaminants (e.g., lint) flowing along with the wet hot air are filtered by the filter member and then attached to the filter member. In addition, through setting up the clear away part with filter element swing joint in condensation passageway, after laundry equipment's stoving work is finished, clear away the part towards filter element removal back, set up in the clear away needle of part towards filter element one side and can insert the filtration downthehole of filter element on, carry out effectual clear away to the pollutant that adheres to on filter element, and the follow-up washing is thoroughly clear away the pollutant again, has guaranteed the smooth flow of the air current in the condensation passageway. And further, after the condensing assembly is integrated into the washing equipment, the drying effect of the drying assembly on clothes in the inner cylinder is guaranteed to be good, and the probability that fuzzes produce adverse effects on heat pump components (not shown in the figure) in the drying assembly is reduced.

The embodiment of the application also provides a laundry device, which can comprise: a condensing assembly, which may be any of the condensing assemblies given above. For example, the laundry device may further include: a tub (not shown) and a drying assembly (not shown), the tub may include: an inner cylinder and an outer cylinder.

The inner cylinder in the washing equipment can be positioned in the outer cylinder, the inner cylinder can be rotationally connected with the outer cylinder, the outer cylinder can be provided with a ventilation opening, and the air inlet on the condensation channel in the condensation component can be communicated with the ventilation opening.

The drying assembly in the washing equipment can comprise a drying air channel, the drying air channel can be provided with a first air inlet and a first air outlet which are oppositely arranged, the first air inlet of the drying air channel can be communicated with the air outlet on the condensing channel in the condensing assembly, and the first air outlet of the drying air channel can be communicated with the inner cylinder. The inner drum and the outer drum in the washing equipment are communicated with each other. In this way, the hot air generated by the drying assembly can be blown to wet clothes in the inner drum of the washing equipment to be dried, and some pollutants (such as filth) flowing along with the wet hot air can be effectively filtered by the filtering component and then attached to the filtering component. In addition, through setting up the clear away part with filter element swing joint in condensation passageway, after laundry equipment's stoving work is finished, clear away the part towards filter element removal back, set up in the clear away needle of part towards filter element one side and can insert the filtration downthehole of filter element on, carry out effectual clear away to the pollutant that adheres to on filter element, and the follow-up washing is thoroughly clear away the pollutant again, has guaranteed the smooth flow of the air current in the condensation passageway. And further, after the condensing assembly is integrated into the washing equipment, the drying effect of the drying assembly on clothes in the inner cylinder is guaranteed to be good, and the probability that fuzzes produce adverse effects on heat pump components (not shown in the figure) in the drying assembly is reduced.

In the present disclosure, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The term "plurality" refers to two or more, unless explicitly defined otherwise.

The foregoing description of the preferred embodiments of the present application is not intended to limit the application, but is intended to cover all modifications, equivalents, alternatives, and improvements falling within the spirit and principles of the application.

Claims (10)

1. A condensing assembly, comprising:

A condensing channel (100), wherein the condensing channel (100) is provided with an air inlet (a 1) and an air outlet (a 2) which are oppositely arranged, the air inlet (a 1) is used for being communicated with a washing drum of the washing equipment, and the air outlet (a 2) is used for being communicated with a drying component of the washing equipment;

-a filter element (200) located within the condensation channel (100), the filter element (200) having a plurality of filter holes (201);

The cleaning component (300) is positioned in the condensation channel (100) and is movably connected with the filtering component (200), one side of the cleaning component (300) facing the filtering component (200) is provided with a plurality of cleaning needles (301), and the plurality of cleaning needles (301) are in one-to-one correspondence with the plurality of filtering holes (201);

Wherein at least part of the purging needle (301) is inserted into the corresponding filter hole (201) after the purging member (300) is moved toward the filter member (200).

2. The condensing assembly of claim 1, wherein the purge component (300) comprises: the filter comprises a support plate (302) which is arranged opposite to the filter component (200), and a guide post (303) which is connected with the support plate (302), wherein one side of the support plate (302) which faces the filter component (200) is provided with a plurality of cleaning needles (301), and the guide post (303) is movably connected with the filter component (200).

3. The condensation assembly according to claim 2, wherein the guide post (303) is fixedly connected to a side of the support plate (302) facing the filter element (200);

The filter component (200) is further provided with a through hole (202), and the filter component (200) is sleeved on the guide post (303) through the through hole (202) and is in sliding connection with the guide post (303).

4. A condensation assembly according to claim 3, wherein the purging member (300) further comprises: and the limiting plate (304) is fixedly connected with one end, deviating from the supporting plate (302), of the guide column (303), the limiting plate (304) is positioned on one side, deviating from the supporting plate (302), of the filtering component (200), and the size of the limiting plate (304) is larger than that of the through hole (202).

5. The condensing assembly of claim 2, wherein the purge component (300) comprises: a driving member (305) connected to the guide post (303), the guide post (303) being screw-connected to the support plate (302);

Wherein the driving part (305) is configured to: the guide post (303) is driven to rotate so that the supporting plate (302) moves on the guide post (303).

6. A condensation module according to any one of claims 2 to 5, wherein the filter element (200) is closer to the inlet opening (a 1) of the condensation channel (100) with respect to the support plate (302) in a direction parallel to the extension of the guide post (303), and wherein the outlet opening (a 2) of the condensation channel (100) is located between the filter element (200) and the support plate (302) after the support plate (302) has been moved in a direction away from the filter element (200) in a direction parallel to the extension of the guide post (303).

7. A condensation module according to any one of claims 1 to 5, wherein the outer wall of the purging needle (301) has an adhesive gel (A1) thereon.

8. The condensation assembly according to any one of claims 1 to 5, wherein the length of the purging needle (301) is greater than or equal to the length of the filter holes (201).

9. The condensing assembly of any one of claims 1-5, further comprising: -a water injection member (400), the water injection member (400) being in communication with the condensation channel (100), and the water injection member (400) being configured to: washing water is injected into the filter member (200) located in the condensation channel (100).

10. A laundry appliance, comprising: a washing drum, a drying assembly and a condensing assembly, wherein the condensing assembly is as claimed in any one of claims 1 to 9;

The air inlet of the condensing assembly is communicated with the washing drum, and the air outlet of the condensing assembly is communicated with the drying assembly.