CN115216934A - A structure, mini washing machine of intaking for mini drying washing machine - Google Patents

Abstract

The invention provides a water inlet structure for a mini drying washing machine, which comprises a water inlet part for injecting water into a barrel assembly of a washing machine body, wherein the water inlet part is provided with a water inlet; the water inlet is communicated with the tail end of the drying air duct of the washing machine body, so that a water inlet waterway of the barrel assembly and an air path at the tail end of the drying air duct share a channel to feed water or introduce dry air. The invention also provides a mini drying washing machine. The water inlet part is small in structure, the space of the drying air path of the washing machine body is fully utilized to arrange the water inlet water path, and therefore the mini washing machine has a drying function and is beneficial to the miniaturization design of the washing machine body.

Description

A structure, mini washing machine of intaking for mini drying washing machine

Technical Field

The invention relates to the technical field of household appliances, in particular to a water inlet structure for a mini drying washing machine and the mini washing machine.

Background

Washing machines are indispensable in people's daily lives as human cleaning equipment, and washing machine functions are becoming richer and richer, including drying functions. For the inner clothes, the inner clothes are usually washed separately, if a conventional washing machine is adopted, water is consumed, and the clothes need to reach the lowest weight to be dewatered; if the hand washing is carried out, the time and the labor are wasted. The mini washing machine is also appeared in the current market, and in order to enrich the functions of the mini washing machine, the mini washing machine is provided with the drying component to dry clothes, so that the overall size of the mini washing machine is increased while the functions are abundant.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a water inlet structure of a mini-type drying washing machine, the structure of a water inlet part is small and exquisite, and a water inlet waterway is distributed by fully utilizing the space of a drying air passage of a washing machine body, so that the mini-type washing machine has a drying function and is beneficial to the miniaturization design of the washing machine body.

In order to achieve the above object, the present invention is achieved by the following technical solutions.

The invention provides a water inlet structure for a mini drying washing machine, which comprises a water inlet part for injecting water into a barrel assembly of a washing machine body, wherein the water inlet part is provided with a water inlet; the water inlet is communicated with the tail end of the drying air duct of the washing machine body, so that a water inlet waterway of the barrel assembly and an air path at the tail end of the drying air duct share a channel to feed water or introduce drying air.

Preferably, the water inlet part is provided with a channel; two ends of the channel are respectively communicated with the drying air duct and the gas-liquid channel of the cylinder assembly; when the washing machine body performs drying, the channel is used for introducing drying air into the gas-liquid channel; when the washing machine body performs washing, the channel is used for injecting water into the gas-liquid channel.

Preferably, one end of the passage passes through a door seal of the washing machine body to communicate with the gas-liquid passage.

Preferably, the water inlet member is provided with a temperature sensor.

Preferably, the number of the water inlets is at least two.

Preferably, a flow guide part is arranged in the channel; the flow guide part is provided with a flow guide channel for guiding water to the gas-liquid channel.

Preferably the outlet end of the flow-directing passage extends out of the passage.

Preferably, one of the flow guide channels is arranged corresponding to one of the water inlets.

Preferably, the bottom of the water inlet part is provided with a positioning groove for clamping with a positioning bulge arranged on the outer side of the barrel assembly to realize positioning and installation.

A second object of the present invention is to provide a mini drying washing machine, which comprises a washing machine body, wherein the washing machine body comprises:

a drum assembly for treating small laundry;

a drying component for performing drying;

the water inlet structure for the mini drying washing machine is used for injecting water into the air path at the tail end of the drying air duct.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a water inlet structure for a mini drying washing machine, wherein a water inlet of a water inlet part is communicated with the tail end of a drying air channel, so that the space of the drying air channel in a washing machine body is fully utilized to arrange a water inlet water channel of a barrel assembly, the arrangement of the air channel and the water channel in the washing machine body is reasonably planned, and the miniaturization design of the washing machine body is facilitated.

In a preferred scheme, the water inlet part further comprises a channel which is used for being communicated with the drying air duct and the gas-liquid pipeline of the barrel assembly respectively, and the space of the drying air duct in the washing machine body is fully utilized to arrange the water inlet part. The water inlet part has a small and exquisite structure and is easy to assemble, the traditional technical scheme of arranging a water inlet on a door seal or a barrel assembly to realize water inlet is replaced, the increase of equipment cost and processing cost caused by the fact that a door seal or a barrel assembly mold is complicated due to the fact that the water inlet is arranged on the door seal or the barrel assembly is avoided, the mini washing machine is applicable to any mini washing machine with a drying air channel, and the application range is wide

In a preferred scheme, the water inlet part is provided with a temperature sensor which is arranged to replace a temperature sensor arranged at an outlet of the drying air duct so as to detect the temperature at the outlet of the drying air duct and judge the dryness. The temperature sensor can be installed only by arranging the corresponding assembling holes on the water inlet piece, the corresponding die is simple, the processing cost is reduced, and the temperature sensor is easy and convenient to install and replace.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood and to be implemented according to the content of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a schematic view of an exploded structure of a water intake member according to the present invention;

fig. 2 is a partial structural sectional view of a washing machine body according to the present invention;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is a perspective view of the water inlet member of the present invention;

FIG. 5 is a cross-sectional view of the construction of the dock seal of the present invention;

fig. 6 is an exploded view of the drying duct according to the present invention.

In the figure:

1. a washing machine body; 121. an outer cylinder; 1211. positioning a projection; 122. an inner barrel; 123. a front barrel; 124. a first gas-liquid channel; 125. a second gas-liquid passage; 131. a door glass; 160. a water inlet member; 161. a water inlet; 162. a channel; 163. a flow guide part; 1631. a flow guide channel; 164. positioning a groove; 165. a temperature sensor; 1651. a first fixing hole; 166. a through hole; 167. a second fixing hole; 168. a third fixing hole; 1010. a drying air duct; 1011. a first drying air duct; 1012. a second drying air duct; 1013. a first housing; 1014. a second housing; 1020. sealing the door; 1021. a first opening; 1022. a first connecting pipe; 1023. a second connecting pipe; 1024. a clamping part; 1025. a second card slot.

Detailed Description

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, which will enable those skilled in the art to practice the present invention with reference to the accompanying specification. In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components. In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, and the like are used based on the orientation or positional relationship shown in the drawings. In particular, "height" corresponds to the dimension from top to bottom, "width" corresponds to the dimension from left to right, and "depth" corresponds to the dimension from front to back. These relative terms are for convenience of description and are not generally intended to require a particular orientation. Terms concerning attachments, coupling and the like (e.g., "connected" and "attached") refer to a relationship wherein structures are secured or attached to one another either directly or indirectly through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Example 1

The present invention provides a water inlet structure for a mini drying washing machine, as shown in fig. 1 to 4, comprising a water inlet member 160 for injecting water into a drum assembly of a washing machine body 1; the water inlet member 160 is provided with a water inlet 161; the water inlet 161 is communicated with the end of the drying air duct 1010 of the washing machine body 1, so that the water inlet path of the drum assembly and the air path at the end of the drying air duct 1010 share a channel for water inlet or dry air ventilation. Namely, the drying air path at the end of the drying air duct 1010 is used to form the water inlet path of the drum assembly, the space of the drying air path in the washing machine body 1 is fully utilized to arrange the water inlet path of the drum assembly, the air path and the water path in the washing machine body are reasonably planned, and the miniaturization design of the washing machine body is facilitated.

Further, the water inlet member 160 is provided with a channel 162; the water inlet 161 is used for injecting water into the channel 162; two ends of the channel 162 are respectively communicated with the drying air duct 1010 and the gas-liquid channel of the cylinder assembly; when the washing machine body 1 performs drying, the passage 162 is used for introducing dry air (dry air) into the gas-liquid passage; when the washing machine body 1 performs washing, the passage 162 is used to inject water into the gas-liquid passage. Specifically, the washing machine body 1 is a drum washing machine, the drum assembly includes an inner drum 122, an outer drum 121, and a front drum 123, the inner drum 122 is used for containing clothes, the front drum 123 is fixed at the front end of the outer drum 121, and a surface formed by the front drum 123 and the inner wall of the outer drum 121 is opposite to the outer wall of the inner drum 122 to form a water storage space. When the washing machine body 1 performs drying, the drying component of the washing machine body 1 is started to operate, the water inlet part 160 stops supplying water, the wet air in the inner cylinder 122 enters the drying air duct 1010, the wet air is heated and dehumidified by the heater of the drying component to obtain dry air, and under the action of the fan of the drying component, the dry air in the drying air duct 1010 enters the gas-liquid channel of the cylinder component through the channel 162 of the water inlet part 160 and is guided into the inner cylinder 122 through the gas-liquid channel to dry clothes. When the washing machine body 1 performs washing, the drying assembly stops operating, and the water inlet 161 of the water inlet member 160 introduces water into the passage 162, and finally introduces the water into the inner tub 122 through the gas-liquid passage to wash the laundry. Through the arrangement of the water inlet piece 160, the washing water inlet is arranged on the drying air path, the space of the drying air path is fully utilized, the water pipe communicated with the water inlet piece 160 is arranged in the vacant space around the drying assembly, the space in the box body of the washing machine body 1 is fully utilized, and the miniaturization design of the washing machine body 1 is facilitated; the drying air path represents a path through which the drying air circulates, and the drying air duct represents a channel through which the drying assembly forms the drying air. In addition, through setting up the technical scheme that water inlet spare 160 replaces traditional seting up the water inlet in order to realize intaking on door seals or barrel subassembly, reduce and set up the water inlet in order to cause on door seals or barrel subassembly mould complexity to reduction in production cost, and applicable in arbitrary mini washing machine, the range of application is wide.

In one embodiment, as shown in fig. 2, 3 and 5, one end of the passage 162 passes through a door seal 1020 of the washing machine body 1 to communicate with the gas-liquid passage. Specifically, when the door body of the washing machine body 1 is closed, the door glass 131 of the door body abuts against the front end of the door seal 1020, and the rear end of the door seal 1020 abuts against the front barrel 123, that is, the door seal 1020 is used for forming a sealed space between the door body of the washing machine body 1 and the barrel assembly to form a gas-liquid passage of the barrel assembly, so as to perform a subsequent washing or drying procedure. Specifically, the dock seal 1020 is provided with a first opening 1021, and one end of the channel 162 of the water inlet 160 is communicated with the first opening 1021, so that one end of the channel 162 passes through the dock seal 1020 and is communicated with the gas-liquid channel. The gas-liquid channel includes a first gas-liquid channel 124 formed between the inner wall of the front barrel 123, the inner wall of the outer barrel 121 and the outer wall of the inner barrel 122, and a second gas-liquid channel 125 formed between the door glass 131, the inner wall of the door seal 1020 and the inner wall of the inner barrel 122. The water or dry air guided out from the channel 162 of the water inlet member 160 passes through the first opening 1021, and then flows to the first gas-liquid channel 124 and the second gas-liquid channel 125, respectively, and finally reaches the inner cylinder 122. When the water inlet member 160 realizes water injection, part of water flows onto the door glass 131 along the contact part of the door seal 1020 and the door glass 131 to wash the door body of the washing machine body 1, so that the door body is cleaned.

In one embodiment, the channel 162 is inclined downward in a direction away from the drying air duct 1010 to accelerate the drying air or water passing through the channel 162 and prevent the water from flowing back into the drying air duct 1010 when the water inlet member 160 is used for supplying water. Further, in order to smoothly fill water into the water inlet member 160, the water inlet member 160 is located above the cartridge assembly.

In one embodiment, as shown in FIG. 1, the water intake 160 is provided with a temperature sensor 165. Specifically, the water inlet member 160 is provided with a through hole 166, the temperature sensor 165 is clamped into the through hole 166 to extend into the passage 162, and the assembly of the temperature sensor and the through hole 166 ensures sealing to prevent air leakage. Further, the temperature sensor 165 is provided with a first fixing hole 1651, the water inlet member 160 is provided with a second fixing hole 167, and the temperature sensor 165 is fixed after a fastener sequentially passes through the first fixing hole 1651 and the second fixing hole 167. In the drying process of the washing machine body 1, temperature sensors are usually arranged at the outlet and the inlet of the drying air duct 1010 respectively for judging the temperature, the temperature sensor 165 is arranged on the water inlet piece 160 to detect the temperature at the outlet of the drying air duct 1010, compared with the drying air duct 1010, the water inlet piece 160 is simple in structure, the temperature sensors can be installed only by arranging corresponding assembling holes on the water inlet piece 160, the corresponding die is simple, the processing cost is reduced, and the temperature sensors are easy and convenient to install and replace.

In one embodiment, the number of the water inlets 161 is at least two. Because washing machine body 1 is used for wasing interior clothing, smallclothes article such as socks, washing machine body 1 overall dimension is little, its box inner space is little, therefore it is little to advance water piece 160 size, through increasing the figure of the water inlet 161 that water piece 160 offered, it has certain inflow to guarantee to advance water piece 160, reduce the water intake speed of water inlet 161, it is too fast to avoid water inlet 161 to advance, when water piece 160 can't in time be with the leading-in gas-liquid passageway of water inlet 161 derivation, water in the passageway 162 refluxes in drying air duct 1010 and has influenced the use of stoving subassembly.

Further, a flow guide part 163 is arranged in the channel 162; the flow guide part 163 is provided with a flow guide passage 1631 for guiding water to the gas-liquid passage. That is, the outlet end of the flow guiding channel 1631 extends away from the drying air duct 1010 to guide the flow of water. Further, as shown in fig. 3, one end of the flow guide channel 1631 is communicated with the water inlet 161, a semi-closed channel structure with only one end open is formed between the inner wall of the flow guide channel 1631 and the inner wall of the channel 162, and the open end of the flow guide channel 1631 faces away from the drying air duct 1010, so that water in the flow guide channel 1631 flows to the gas-liquid channel. Further, one side of the diversion part 163 facing the water inlet 161 is connected to the inner wall of the channel 162, and a space is provided between the remaining outer side surface of the diversion part 163 and the inner wall of the channel 162, so as to reduce the obstruction degree of the ventilation speed of the channel 162 when the setting of the diversion part 163 performs drying on the washing machine body 1.

Further, the outlet end of the flow guide channel 1631 extends out of the channel 162. The inner space of the channel 162 is small, when the water inlet member 160 is filled with water, the outlet end of the diversion channel 1631 extends out of the channel 162 so that the water guided out by the diversion channel 1631 directly enters the gas-liquid channel, so that the water guided in by the water inlet 161 is prevented from being accumulated in the space between the outer wall of the diversion channel 1631 and the inner wall of the channel 162 and flowing back into the drying air duct 1010. In addition, the gas-liquid channel has a larger space, and water guided out by the flow guide channel 1631 directly enters the gas-liquid channel, so that the water inlet speed of the water inlet 161 can be increased.

Further, the flow guide channel 1631 is inclined downwards in a direction away from the drying air duct 1010 to accelerate the water flow to the gas-liquid channel.

In one embodiment, the number of the water inlets 161 is at least two, the number of the diversion channels 1631 is the same as the number of the water inlets 161, and one diversion channel 1631 is disposed corresponding to one water inlet 161 to increase the water inlet speed of the water inlet member 160.

In an embodiment, as shown in fig. 3 and 4, a positioning groove 164 is disposed at the bottom of the water inlet member 160 for being engaged with a positioning protrusion 1211 disposed at the outer side of the cylinder assembly, so as to achieve positioning and installation, and reduce the assembly difficulty of the water inlet member 160. Further, since the internal space of the washing machine body 1 is small, in order to reduce the space occupied by the drum assembly, in an embodiment, the front drum 123 has a small structure and is a bent structure; the front barrel 123 is fixed on the outer peripheral wall of the front end of the outer barrel 121, and a first clamping groove is formed between the inner wall of the front barrel 123 and the front end surface of the outer barrel 121; the rear end of the door seal 1020 is bent to form a clamping part 1024 which is clamped into the first clamping groove to seal the assembly part of the front barrel 123 and the outer barrel 121, and a sealing ring structure which is additionally arranged to seal the assembly part of the front barrel 123 and the outer barrel 121 is omitted, so that the miniaturization design of the washing machine body 1 is facilitated. Since the front cylinder 123 has a small structure, the positioning projection 1211 is provided on the outer surface of the outer cylinder 121. Further, the water inlet 160 is provided with a third fixing hole 168, and the outer cylinder 121 is provided with a fourth fixing hole, so that the water inlet 160 and the outer cylinder 121 can be fixed by a fastener.

In one embodiment, a spraying structure is disposed at the water inlet of the water inlet member 160, so that the water inlet member 160 injects water into the gas-liquid channel in a spraying manner to increase the water spraying coverage area.

Example 2

The present invention provides a mini drying washing machine, as shown in fig. 1 to 6, comprising a washing machine body 1, wherein the washing machine body 1 comprises:

a drum assembly for treating small laundry; the cylinder component comprises an inner cylinder 122, an outer cylinder 121 and a front cylinder 123; the inner tub 122 is used for containing laundry;

a drying component for performing drying; the drying component comprises a drying air duct 1010, a heater and a fan are arranged in the drying air duct 1010, the heater is used for heating and dehumidifying the wet air led into the drying air duct 1010 in the inner cylinder 122 to form drying air, and the fan is used for blowing the drying air into the inner cylinder 122;

the water inlet structure for the mini drying washing machine is used for introducing water or dry air provided by the drying component into the gas-liquid passage of the barrel component. The space of the drying air path in the washing machine body 1 is fully utilized to arrange the water inlet part 160, the arrangement of the air path and the water path in the washing machine body 1 is reasonably planned, and the miniaturization design of the washing machine body 1 is facilitated.

In an embodiment, as shown in fig. 2, 3 and 5, the washing machine body 1 includes a door seal 1020; one end of the door seal 1020 is used for abutting against the door body of the washing machine body 1, and the other end of the door seal is used for abutting against the front barrel 123 of the barrel assembly, so that a sealed cavity is formed between the door body and the barrel assembly, and a gas-liquid channel of the barrel assembly is further formed; the dock seal 1020 is provided with a first opening 1021, the water outlet end of the passage 162 is connected to the first opening 1021, and the water inlet member 160 realizes the introduction of water or dry air into the gas-liquid passage through the first opening 1021.

Specifically, in one embodiment, the washing machine body 1 is provided with a framework for supporting the box body and the internal components thereof, the framework is provided with a door frame plate, and the door frame plate is provided with a second opening for forming an object placing opening of the barrel assembly. The rear end of the door seal 1020 is bent to form a clamping part 1024, and the clamping part is clamped between the inner wall of the front barrel 123 and the front end surface of the outer barrel 121 to form a first clamping groove so as to fix the rear end of the door seal 1020; the front end of the door seal 1020 is bent to form a second clamping groove 1025 for clamping a second opening of the door frame plate of the washing machine body 1, so that the front end of the door seal 1020 is fixed.

Specifically, as shown in fig. 3, the gas-liquid passage includes a first gas-liquid passage 124 formed between an inner wall of the front barrel 123, an inner wall of the outer barrel 121, and an outer wall of the inner barrel 122, and a second gas-liquid passage 125 with an inner wall of a door seal 1020 opening into an inner space of the inner barrel 122. The water or dry air guided out from the channel 162 of the water inlet member 160 passes through the first opening 1021, and then flows to the first gas-liquid channel 124 and the second gas-liquid channel 125, respectively, and finally reaches the inner cylinder 122.

Further, as shown in fig. 2 and 5, the dock seal 1020 is provided with a first connecting pipe 1022; the outlet end of the first connecting pipe 1022 forms the first opening 1021. The first connecting pipe 1022 is provided to facilitate the assembly of the door seal 1020 and one end of the water inlet 160, and the abutting area of the inner surface of the first connecting pipe 1022 and the outer surface of the water inlet 160 is large, so as to improve the assembly firmness of the water inlet 160 and the door seal 1020. Further, the drying assembly is disposed near the barrel assembly, and the first connection pipe 1022 is bent toward the drying assembly, so that two ends of the water inlet member 160 are respectively communicated with the first connection pipe 1022 and the drying air duct 1010, and an outer space of the barrel assembly is reasonably utilized. In one embodiment, the flow guiding channel 1631 of the water inlet member 160 extends into the first connecting tube 1022 and has an upper opening at one end, and the inner wall of the outlet end of the first connecting tube 1022 covers the upper opening of the flow guiding channel 1631, so that water in the flow guiding channel 1631 can only flow out from the port of the flow guiding channel 1631, and the flow guiding path is extended.

In one embodiment, the first connection pipe 1022 is disposed above the door seal 1020, so that the water inlet member 160 injects water into the first connection pipe 1022.

In an embodiment, as shown in fig. 2 and 3, the water inlet member 160 and the drying air duct 1010 are communicated through the second connection tube 1023, so as to simplify the assembly of the water inlet member 160 and the drying air duct 1010, and the position of the water inlet member 160 relative to the drying air duct 1010 is conveniently adjusted by adjusting the shape and length of the second connection tube 1023, so that the arrangement of the water inlet structure and the drying components in the washing machine body 1 is compact, which is beneficial to the miniaturization design of the washing machine body 1.

Further, the second connection tube 1023 is arranged to be inclined downwards in a direction away from the drying air duct 1010, so as to further prevent water in the water inlet 160 from flowing backwards into the drying air duct 1010 when the washing machine body 1 performs washing.

Further, the second connection tube 1023 is a corrugated tube having a certain elasticity to reduce the influence of the vibration of the water inlet 160 on the drying assembly. In one embodiment, the water inlet member 160 is fixed on the outer tub 121, and the inner tub 122 rotates to process the laundry, so that the water inlet member 160 has a certain vibration amplitude, and the influence of the vibration of the water inlet member 160 on the drying assembly is reduced by the bellows structure. In addition, the inner wall of the second connecting tube 1023 is a continuous bending structure, which prevents water in the water inlet member 160 from flowing back into the drying air duct 1010 to a certain extent.

In an embodiment, as shown in fig. 2, the drying air duct 1010 is bent to form a first drying air duct 1011 and a second drying air duct 1012, the water inlet member 160 is communicated with the first drying air duct 1011, and the fan of the drying assembly is disposed in the second drying air duct 1012, so as to reasonably plan the arrangement of various parts of the drying assembly, which is beneficial to the miniaturization design of the washing machine body 1.

In one embodiment, as shown in fig. 6, the drying air duct 1010 includes a first housing 1013 and a second housing 1014, and the first housing 1013 and the second housing 1014 are clamped together to form the drying air duct 1010. Furthermore, the first housing 1013 and the second housing 1014 are preliminarily mounted by clamping or fastening, and then fixedly mounted by fasteners, so that the assembly is convenient. When the internal elements of the drying air duct 1010 are broken down, the elements can be conveniently replaced after being detached.

The foregoing is merely a preferred embodiment of this invention and is not intended to limit the invention in any manner; those skilled in the art can readily practice the invention as shown and described in the drawings and detailed description herein; however, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the scope of the invention; meanwhile, any changes, modifications, and evolutions of the equivalent changes of the above embodiments according to the actual techniques of the present invention are still within the protection scope of the technical solution of the present invention.

Claims (10)

1. A water inlet structure for a mini drying washing machine comprises a water inlet member (160) for injecting water to a drum assembly of a washing machine body (1); the water inlet part (160) is provided with a water inlet (161); the water inlet (161) is communicated with the tail end of a drying air duct (1010) of the washing machine body (1), so that a water inlet waterway of the cylinder assembly and an air duct at the tail end of the drying air duct (1010) share a channel to feed water or ventilate dry air.

2. The water inlet structure for a mini drying washer according to claim 1, characterized in that the water inlet member (160) is provided with a channel (162); two ends of the channel (162) are respectively communicated with the drying air channel (1010) and the gas-liquid channel of the cylinder assembly; when the washing machine body (1) performs drying, the channel (162) is used for introducing dry air into the gas-liquid channel; when the washing machine body (1) performs washing, the passage (162) is used for injecting water into the gas-liquid passage.

3. The intake structure for a mini drying washing machine as claimed in claim 2, wherein one end of the channel (162) passes through a door seal (1020) of the washing machine body (1) to communicate with the gas-liquid channel.

4. The intake structure for a mini drying washing machine as claimed in claim 1, wherein the intake member (160) is provided with a temperature sensor (165).

5. The water inlet structure for a mini drying washer according to claim 1, characterized in that the number of the water inlets (161) is at least two.

6. The water intake structure for a mini drying washer according to claim 2, characterized in that a flow guide (163) is provided in the channel (162); the flow guide part (163) is provided with a flow guide channel (1631) for guiding water to the gas-liquid channel.

7. The inlet structure of claim 6, wherein the outlet end of the flow guide channel (1631) extends out of the channel (162).

8. The water inlet structure for a mini drying washer as claimed in claim 6, wherein a flow guiding channel (1631) is disposed corresponding to a water inlet (161).

9. The water inlet structure for the mini drying washing machine as claimed in claim 1, wherein a positioning groove (164) is formed at the bottom of the water inlet member (160) for engaging with a positioning protrusion (1211) formed at the outer side of the drum assembly to achieve positioning installation.

10. A mini drying washer comprising a washer body (1), characterized in that said washer body (1) comprises:

a drum assembly for treating small clothes;

a drying component for performing drying;

the water inlet structure for a mini drying washer according to any one of claims 1 to 9, for injecting water into the air path at the end of the drying air duct (1010).

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