CN220166465U - Machine cover with drying assembly and washing machine capable of uniformly drying - Google Patents

Abstract

The utility model discloses a machine cover with a drying component and a washing machine capable of uniformly drying, which comprises a cover body, wherein the cover body is provided with an installation cavity and a plurality of air outlets; the air outlet holes are arranged at the bottom end of the cover body and are communicated with the mounting cavity; the drying assembly comprises a fan and a heating piece, and the fan and the heating piece are both arranged in the mounting cavity; the heating piece is used for heating the installation cavity, and the fan is used for guiding heat in the installation cavity to be led out through the plurality of air outlet holes; the drainage assembly is rotatably arranged at the bottom end of the cover body and used for guiding heat conducted out by the air outlet holes to be evenly dissipated. A washing machine capable of uniformly drying comprises a machine body, wherein a cleaning cavity is arranged in the machine body, and a cleaning cylinder is rotatably arranged in the cleaning cavity; and a cover. The utility model can lead the heat to be evenly dispersed by arranging the drainage component, thereby realizing even drying.

Description

Machine cover with drying assembly and washing machine capable of uniformly drying

Technical Field

The utility model relates to the technical field of household appliances, in particular to a cover with a drying component and a washing machine capable of uniformly drying.

Background

At present, when the washing machine is used, clothes are usually put into a washing tub, and washing is achieved through rotation of the washing tub. And the washing machine with the drying function blows air through the blower, and hot air heated by the heating element arranged in the machine body is blown into the machine body to dry clothes. And when realizing the stoving is even, only rely on setting up the apopore of a plurality of dispersion settings, derive through dispersing hot-blast to realize blowing in the inside hot-air uniform dispersion of fuselage, thereby realize even stoving.

However, since the washing machine generates foam during the washing process, the foam is easy to enter through the air holes, and the use of the heating element is affected, so that the heating element is often damaged, and the maintenance rate is high.

Disclosure of Invention

In order to overcome the defects in the prior art, one of the purposes of the utility model is to provide a cover with a drying component, which can uniformly dissipate heat through the arrangement of a drainage component to realize uniform drying.

The second object of the present utility model is to provide a washing machine capable of uniformly drying clothes, wherein a rotatable cover on a machine body is provided with a drying component, and hot air generated by the drying component can be uniformly dispersed through a drainage component, so that clothes in a cleaning cavity in the machine body can be uniformly dried.

One of the purposes of the utility model is realized by adopting the following technical scheme:

a machine cover with a drying component comprises a machine cover body,

the cover body is provided with an installation cavity and a plurality of air outlet holes; the air outlet holes are arranged at the bottom end of the cover body and are communicated with the mounting cavity;

the drying assembly comprises a fan and a heating piece, and the fan and the heating piece are both arranged in the mounting cavity; the heating piece is used for heating the installation cavity, and the fan is used for guiding heat in the installation cavity to be led out through the plurality of air outlet holes;

the drainage assembly is rotatably arranged at the bottom end of the cover body and used for guiding heat conducted out by the air outlet holes to be evenly dissipated.

Further, the drainage assembly is provided with drainage fan blades which are rotatably arranged at the bottom end of the cover body; the drainage fan blade is used for guiding the heat conducted out by the air outlet holes to be evenly dissipated in the rotation process.

Further, the drainage fan blade comprises a mounting ring and a plurality of blades, and a mounting opening is formed in the middle of the mounting ring; a rotary seat is arranged in the mounting opening, and the blades are mounted on the mounting opening and are distributed at intervals in the circumferential direction of the mounting opening; one end of each blade is connected with the rotary seat, and the other end of each blade is connected with the mounting ring; the rotary seat is rotatably arranged at the bottom end of the cover body.

Further, the mounting ring is covered on the bottom end face of the cover body and matched with the bottom end face of the cover body to form a cavity; the mounting ring and the rotary seat are provided with a plurality of through holes communicated with the cavity; the plurality of perforations are spaced around the periphery of the mounting opening.

Further, a heating channel is arranged in the mounting cavity, one end of the heating channel is communicated with the fan, and the other end of the heating channel is communicated with the plurality of air outlet holes; the heating element is arranged in the heating channel.

Further, a plurality of reinforcing rib pieces are arranged on the mounting ring and are distributed at intervals around the central axis of the mounting ring.

The second purpose of the utility model is realized by adopting the following technical scheme:

a washing machine capable of uniformly drying comprises,

the cleaning device comprises a machine body, wherein a cleaning cavity is arranged in the machine body, and a cleaning cylinder is rotatably arranged in the cleaning cavity;

the machine cover comprises a cover body, a drying assembly and a drainage assembly, wherein the cover body is rotatably arranged on the machine body and is used for sealing or opening the cleaning cavity; the cover body is provided with an installation cavity and a plurality of air outlet holes; the air outlet holes are arranged at the bottom end of the cover body and are communicated with the mounting cavity; the drying assembly comprises a fan and a heating piece, and the fan and the heating piece are both arranged in the mounting cavity; the heating piece is used for heating the installation cavity, and the fan is used for guiding heat in the installation cavity to be led out through the plurality of air outlet holes; the drainage component is arranged at the bottom end of the cover body and used for guiding heat conducted out of the air outlet holes to be evenly dissipated to the cleaning cavity.

Further, the drainage assembly is provided with drainage fan blades which are rotatably arranged at the bottom end of the cover body; the drainage fan blade is used for guiding heat conducted out of the air outlet holes to be evenly dissipated to the cleaning cavity in the rotation process.

Further, the drainage fan blade comprises a mounting ring and a plurality of blades, and a mounting opening is formed in the middle of the mounting ring; a rotary seat is arranged in the mounting opening, and the blades are mounted on the mounting opening and are distributed at intervals in the circumferential direction of the mounting opening; one end of each blade is connected with the rotary seat, and the other end of each blade is connected with the mounting ring; the rotary seat is rotatably arranged at the bottom end of the cover body.

Further, the mounting ring is used for being in sealing fit with the cleaning cylinder after the cover body covers the cleaning cavity, and synchronously rotates with the cleaning cylinder.

Further, a driving piece is arranged in the mounting cavity, and a driving shaft of the driving piece extends out from the bottom end of the mounting cavity; the plurality of blades are each connected to a drive shaft of the drive member.

Compared with the prior art, the utility model has the beneficial effects that:

1. when drying, can be with the lid closing cap on the fuselage, then start fan and heating element in the motor lid, the heating element can heat the installation cavity, and the hot air after the heating can blow at the effect of fan to derive by a plurality of apopores, and cooperate drainage subassembly rotation, can guide the hot air evenly downwards, evenly enter into in the fuselage, the hot air is continuous leading-in, realizes the stoving.

2. When being applied to the washing machine, bubble in the washing chamber in the washing process pushes up easily, can start fan and drainage subassembly alone, and the wind-force that the fan provided can blow down the bubble that rises, reduces the bubble and enters into the inside work device that influences inside of installation chamber. In addition, the power provided by wind power drives the drainage component to rotate, and the downward airflow can be provided in the rotating process, so that rising of bubbles is reduced.

Drawings

FIG. 1 is a schematic view of a cover according to the present utility model;

FIG. 2 is a cross-sectional view of the cover of the present utility model;

FIG. 3 is a schematic view of a drainage assembly according to the present utility model;

FIG. 4 is a schematic view showing the internal structure of the cover of the present utility model;

FIG. 5 is a schematic view of the structure of the cover of the present utility model;

fig. 6 is a partially exploded view of the washing machine of the present utility model;

fig. 7 is a schematic structural view of the washing machine of the present utility model.

In the figure: 10. a cover body; 11. a blower; 12. a heating channel; 13. an air outlet hole; 20. a drainage fan; 21. a mounting ring; 211. perforating; 212. a mounting port; 22. a blade; 30. a body; 31. and (5) cleaning the cylinder.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and detailed description below:

in the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

In the case of example 1,

the cover with the drying assembly as shown in fig. 1-6 comprises a cover body 10, a drying assembly and a drainage assembly, wherein a mounting cavity and a plurality of air outlet holes 13 are formed in the cover body 10, the mounting cavity is formed in the cover body 10, and the plurality of air outlet holes 13 can be communicated with the mounting cavity.

Above-mentioned stoving subassembly includes fan 11 and heating member, all installs fan 11 and heating member in the installation cavity, and the heating member can heat the installation cavity, and above-mentioned fan 11 can rotate in the installation cavity, and the heat of guide installation intracavity is derived through a plurality of apopores 13.

In addition, the drainage assembly is rotatably installed at the bottom end of the cover body 10, and the drainage assembly can guide the heat conducted out by the air outlet holes 13 to be evenly dissipated in the rotation process.

On the basis of the structure, the cover with the drying assembly can be arranged on an electric appliance needing drying, such as a washing machine or a dryer, and the cover can be covered on a machine body when the drying action is carried out, then the fan 11 and the heating element in the cover are started, the heating element can heat the installation cavity, and heated air can be blown under the action of the fan 11 and guided out by the air outlet holes 13.

The hot air led out from the air outlet holes 13 can have certain wind power, and can be guided to rotate in the continuous blowing process, and the hot air can be guided to uniformly downwards enter the machine body in the rotating process of the drainage assembly, so that the hot air is continuously led in, and the drying is realized.

Of course, when the cover is applied to the washing machine, the cover body 10 is covered on the machine body 30, bubbles in the cleaning cavity are easy to push upwards in the washing process, the fan 11 and the drainage component can be independently started, the upward bubbles can be blown downwards by wind power provided by the fan 11, and the bubbles are reduced to enter the installation cavity to affect internal working devices. In addition, the power provided by wind power drives the drainage component to rotate, and the downward airflow can be provided in the rotating process, so that rising of bubbles is reduced.

Further, the drainage assembly in this embodiment is provided with a drainage fan blade, and the drainage fan blade is rotatably mounted at the bottom end of the cover body 10, specifically, the drainage fan blade can guide the heat led out by the plurality of air outlet holes 13 to be evenly dispersed in the rotation process.

Therefore, when hot air is blown out through the air outlet holes 13, as the fan 11 in the installation cavity continuously acts, wind is guided out through the air outlet holes 13, the drainage fan blades can be driven to rotate, and the hot air can be guided to uniformly flow in the rotating process of the drainage fan blades and is guided into the machine body.

Of course, an independent motor may be disposed in the installation cavity, and the rotation shaft of the motor may extend from the installation cavity and rotate with the drainage fan blade, that is, the drainage fan 20 may be driven to rotate by the independent motor in addition to the manner of driving the drainage fan blade to rotate by the wind power provided by the fan 11.

In addition, a double-shaft motor may be disposed in the installation cavity, one of the shafts of the double-shaft motor is connected with the impeller of the fan 11, and the other shaft of the double-shaft motor drives the drainage fan 20 to rotate, so that the synchronous operation of air blowing and drainage is performed.

Further, the drainage fan blade in this embodiment includes a mounting ring 21 and a plurality of blades 22, the middle part of the mounting ring 21 is provided with a mounting opening 212, a swivel seat is provided in the mounting opening 212, and the plurality of blades 22 are mounted on the mounting opening 212 and are distributed at intervals in the circumferential direction of the mounting opening 212. In assembling the blade 22, one end of the blade 22 may be connected to the swivel mount, and the other end of the blade 22 may be connected to the mounting ring 21, and the swivel mount may be rotatably mounted on the bottom end surface of the cover 10 through a rotation shaft.

On the basis of the structure, the rotary seat can be rotatably arranged on the cover body 10 through the rotary shaft, the rotary shaft can drive the rotary seat to rotate, the intervals between the rotary seat and the plurality of blades 22 between the mounting rings 21 flow, and the plurality of blades 22 rotate to guide hot air to flow, so that the uniform flow of the hot air is realized.

Further, the mounting ring 21 is covered on the bottom surface of the cover 10 and is matched with the bottom surface of the cover 10 to form a cavity, and a plurality of through holes 211 communicated with the cavity are formed in the mounting ring 21 and the swivel seat; the plurality of perforations 211 are spaced around the periphery of the mounting opening 212.

On the basis of the above structure, if the cover is applied to the drying process of the dryer and the washing machine, water vapor is generated in the drying process, and enters the cavity through the plurality of perforations 211, and is dried inside the mounting ring 21, or is dropped through the plurality of perforations 211, so that condensation is reduced below the mounting ring 21.

When the cover is applied to the washing machine alone, the cover body 10 is covered on the machine body 30, bubbles in the cleaning cavity are easy to push upwards in the washing process, the bubbles easily enter the cavity structure formed between the mounting ring 21 and the bottom end surface of the cover body 10, and at this time, the plurality of perforations 211 can guide bubble water to drop downwards.

Further, in order to improve the heat utilization rate, a heating channel 12 may be disposed in the installation cavity, specifically, a closed ventilation casing may be disposed in the installation cavity, and a heating element may be disposed in the ventilation casing to form the heating channel 12, where one end of the specific heating channel 12 is communicated with the fan 11, and the other end of the heating channel 12 is penetrated to a plurality of air outlet holes 13. So, when drying, can start fan 11, fan 11 starts and can carry out the blast air in heating passageway 12, can guide the hot air to derive by a plurality of apopores 13 at heating passageway 12, and the heat can concentrate and draw forth at heating passageway 12, reduces the heat waste that causes at the installation intracavity diffusion.

In addition, when the independent blowing operation is performed, the supplied wind force can be concentrated in the heating channel 12, and the wind force is intensively guided by the heating channel 12 and then blown out, so that the blown-out wind quantity is larger, the wind force for blowing the drainage assembly is larger, and the drainage assembly rotates more smoothly.

Further, a plurality of reinforcing rib pieces may be provided on the mounting ring 21, and the plurality of reinforcing rib pieces may be distributed at intervals around the central axis of the mounting ring 21, so that the strength of the mounting ring 21 may be reinforced by the plurality of reinforcing rib pieces. In addition, bubbles entering the cavity can be broken, so that bubbles can be guided out conveniently.

It should be noted that, the drainage component in this embodiment may also be that a spiral drainage groove is formed in the inner wall of the drainage sleeve by arranging a drainage sleeve at the bottom end of the cover body 10, and the hot air is spirally flowed along the spiral drainage groove by rotating the drainage sleeve at the bottom end of the cover body 10, so that the drainage of the hot air can be also realized, and the hot air is led out uniformly.

In the case of example 2,

a washing machine for uniform drying as shown in fig. 1 to 7, which comprises a machine body 30 and a machine cover, wherein a cleaning cavity is arranged in the machine body 30, and a cleaning drum 31 is rotatably arranged in the cleaning cavity. The cover comprises a cover body 10, a drying component and a drainage component, wherein the cover body 10 is rotatably arranged on the machine body 30, and can open or close the cleaning cavity. The cover body 10 is provided with a mounting cavity and a plurality of air outlet holes 13, the mounting cavity is arranged in the cover body 10, and the air outlet holes 13 can be communicated with the mounting cavity.

Above-mentioned stoving subassembly includes fan 11 and heating member, all installs fan 11 and heating member in the installation cavity, and the heating member can heat the installation cavity, and above-mentioned fan 11 can rotate in the installation cavity, and the heat of guide installation intracavity is derived through a plurality of apopores 13. In addition, the drainage assembly is rotatably installed at the bottom end of the cover body 10, and the drainage assembly can guide the heat conducted out by the air outlet holes 13 to be evenly dissipated in the rotation process and enter the cleaning cavity.

On the basis of the structure, when the washing machine with uniform drying of the utility model is used, the machine cover can be covered on the machine body 30 during the drying action, then the fan 11 and the heating element in the machine cover are started, the heating element can heat the installation cavity, and the heated hot air can be blown under the action of the fan 11 and guided out by the plurality of air outlet holes 13.

The hot air led out from the air outlet holes 13 can have certain wind power, and can be guided to rotate in the continuous blowing process, and the hot air can be guided to uniformly downwards enter the machine body in the rotating process of the drainage assembly, so that the hot air is continuously led in, and the drying is realized.

Of course, when not using the stoving function, wash the intracavity and carry out clothing cleaning action this moment, bubble in the washing chamber in the laundry process is pushed upward easily, can start fan 11 and drainage subassembly alone, and the wind-force that fan 11 provided can blow down the bubble that rises, reduces the bubble and enters into the inside work device that influences inside of installation cavity. In addition, the power provided by wind power drives the drainage component to rotate, and the downward airflow can be provided in the rotating process, so that rising of bubbles is reduced.

Further, the drainage assembly in this embodiment is provided with a drainage fan blade, and the drainage fan blade is rotatably mounted at the bottom end of the cover body 10, specifically, the drainage fan blade can guide the heat led out by the plurality of air outlet holes 13 to be evenly dispersed in the rotation process.

Therefore, when hot air is blown out through the air outlet holes 13, as the fan 11 in the installation cavity continuously acts, wind is guided out through the air outlet holes 13, the drainage fan blades can be driven to rotate, and the hot air can be guided to uniformly flow in the rotating process of the drainage fan blades and is guided into the machine body.

Further, the drainage fan blade in this embodiment includes a mounting ring 21 and a plurality of blades 22, the middle part of the mounting ring 21 is provided with a mounting opening 212, a swivel seat is provided in the mounting opening 212, and the plurality of blades 22 are mounted on the mounting opening 212 and are distributed at intervals in the circumferential direction of the mounting opening 212. In assembling the blade 22, one end of the blade 22 may be connected to the swivel mount, and the other end of the blade 22 may be connected to the mounting ring 21, and the swivel mount may be rotatably mounted on the bottom end surface of the cover 10 through a rotation shaft.

On the basis of the structure, the rotary seat can be rotatably arranged on the cover body 10 through the rotary shaft, the rotary shaft can drive the rotary seat to rotate, the intervals between the rotary seat and the plurality of blades 22 between the mounting rings 21 flow, and the plurality of blades 22 rotate to guide hot air to flow, so that the uniform flow of the hot air is realized.

Further, the mounting ring 21 is covered on the bottom surface of the cover 10 and is matched with the bottom surface of the cover 10 to form a cavity, and a plurality of through holes 211 communicated with the cavity are formed in the mounting ring 21 and the swivel seat; the plurality of perforations 211 are spaced around the periphery of the mounting opening 212.

On the basis of the above structure, water vapor is generated in the drying process, and enters the cavity through the plurality of perforations 211 to be dried inside the mounting ring 21, or is dropped through the plurality of perforations 211, so that condensation is reduced to form below the mounting ring 21.

The bubbles in the cleaning chamber are easy to push upwards during the washing process, the bubbles easily enter the cavity structure formed between the mounting ring 21 and the bottom end surface of the cover body 10, and the plurality of perforations 211 can guide the bubble water to drop downwards.

Further, in order to improve the heat utilization rate, a heating channel 12 may be disposed in the installation cavity, specifically, a closed ventilation casing may be disposed in the installation cavity, and a heating element may be disposed in the ventilation casing to form the heating channel 12, where one end of the specific heating channel 12 is communicated with the fan 11, and the other end of the heating channel 12 is penetrated to a plurality of air outlet holes 13. So, when drying, can start fan 11, fan 11 starts and can carry out the blast air in heating passageway 12, can guide the hot air to derive by a plurality of apopores 13 at heating passageway 12, and the heat can concentrate and draw forth at heating passageway 12, reduces the heat waste that causes at the installation intracavity diffusion.

In addition, when the independent blowing operation is performed, the supplied wind force can be concentrated in the heating channel 12, and the wind force is intensively guided by the heating channel 12 and then blown out, so that the blown-out wind quantity is larger, the wind force for blowing the drainage assembly is larger, and the drainage assembly rotates more smoothly.

Further, a plurality of reinforcing rib pieces may be provided on the mounting ring 21, and the plurality of reinforcing rib pieces may be distributed at intervals around the central axis of the mounting ring 21, so that the strength of the mounting ring 21 may be reinforced by the plurality of reinforcing rib pieces. In addition, bubbles entering the cavity can be broken, so that bubbles can be guided out conveniently.

It should be noted that, the drainage component in this embodiment may also be that a spiral drainage groove is formed in the inner wall of the drainage sleeve by arranging a drainage sleeve at the bottom end of the cover body 10, and the hot air is spirally flowed along the spiral drainage groove by rotating the drainage sleeve at the bottom end of the cover body 10, so that the drainage of the hot air can be also realized, and the hot air is led out uniformly.

Further, the mounting ring 21 can be in sealing fit with the cleaning barrel 31 after the cover body 10 is covered on the cleaning cavity, and synchronously rotates with the cleaning barrel 31, on the basis of the structure, the drainage fan blade can be rotatably mounted at the bottom end of the cover body 10 through a rotating shaft of a rotating seat, so after the cover body 10 is covered on the cleaning cavity, the mounting ring 21 can be provided with a sealing ring, the sealing ring is in sealing fit with the periphery of the cleaning barrel 31, and in the process of rotating the cleaning barrel 31, the drainage fan 20 can be driven to rotate, namely, the rotation of the drainage fan 20 can be driven to rotate by the cleaning barrel 31.

When drying is performed, since the fan is guided to the washing drum 31, the laundry in the washing drum 31 can be turned over to be fully contacted with the heat uniformly introduced downward, so that drying is more uniform. During the clothes washing process, the heating element is not operated, and bubbles raised during the rotation of the washing drum 31 can be rotated and pressed downwards by the synchronously rotating drainage fan 20, so that bubbles are reduced from entering the mounting ring 21.

Of course, be equipped with the driving piece in the installation cavity, this driving piece can select the motor among the prior art, and the pivot of motor can stretch out by the installation cavity to rotate with the drainage flabellum, promptly except adopting the wind-force drive drainage flabellum pivoted mode that fan 11 provided, can also drive drainage fan 20 rotation through setting up independent motor.

In addition, a double-shaft motor may be disposed in the installation cavity, one of the shafts of the double-shaft motor is connected with the impeller of the fan 11, and the other shaft of the double-shaft motor drives the drainage fan 20 to rotate, so that the synchronous operation of air blowing and drainage is performed.

Specifically, the rotating shaft of the motor extends out from the bottom end of the mounting cavity; the blades 22 are connected to the rotating shaft of the motor, and the rotating shaft of the motor can drive the blades 22 to rotate, so that drainage is realized.

It should be noted that the heating element may be implemented by an electrothermal structure such as a heating tube and a heating resistor in the prior art.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the utility model as defined in the appended claims.

Claims (10)

1. A cover with a drying component is characterized by comprising,

the cover body is provided with an installation cavity and a plurality of air outlet holes; the air outlet holes are arranged at the bottom end of the cover body and are communicated with the mounting cavity;

the drying assembly comprises a fan and a heating piece, and the fan and the heating piece are both arranged in the mounting cavity; the heating piece is used for heating the installation cavity, and the fan is used for guiding heat in the installation cavity to be led out through the plurality of air outlet holes;

the drainage assembly is rotatably arranged at the bottom end of the cover body and used for guiding heat conducted out by the air outlet holes to be evenly dissipated.

2. The cover with drying assembly of claim 1, wherein the drainage assembly is provided with drainage blades rotatably mounted at the bottom end of the cover body; the drainage fan blade is used for guiding the heat conducted out by the air outlet holes to be evenly dissipated in the rotation process.

3. The cover with drying assembly of claim 2, wherein the drainage fan blade comprises a mounting ring and a plurality of blades, the middle of the mounting ring is provided with a mounting opening; a rotary seat is arranged in the mounting opening, and the blades are mounted on the mounting opening and are distributed at intervals in the circumferential direction of the mounting opening; one end of each blade is connected with the rotary seat, and the other end of each blade is connected with the mounting ring; the rotary seat is rotatably arranged at the bottom end of the cover body.

4. The cover with drying assembly of claim 3, wherein said mounting ring is sealed to and mates with a bottom end surface of said cover to form a cavity; the mounting ring and the rotary seat are provided with a plurality of through holes communicated with the cavity; the plurality of perforations are spaced around the periphery of the mounting opening.

5. The cover with the drying assembly according to claim 1, wherein a heating channel is arranged in the mounting cavity, one end of the heating channel is communicated with the fan, and the other end of the heating channel penetrates through the plurality of air outlet holes; the heating element is arranged in the heating channel.

6. A washing machine capable of uniformly drying is characterized by comprising,

the cleaning device comprises a machine body, wherein a cleaning cavity is arranged in the machine body, and a cleaning cylinder is rotatably arranged in the cleaning cavity;

the machine cover comprises a cover body, a drying assembly and a drainage assembly, wherein the cover body is rotatably arranged on the machine body and is used for sealing or opening the cleaning cavity; the cover body is provided with an installation cavity and a plurality of air outlet holes; the air outlet holes are arranged at the bottom end of the cover body and are communicated with the mounting cavity; the drying assembly comprises a fan and a heating piece, and the fan and the heating piece are both arranged in the mounting cavity; the heating piece is used for heating the installation cavity, and the fan is used for guiding heat in the installation cavity to be led out through the plurality of air outlet holes; the drainage component is arranged at the bottom end of the cover body and used for guiding heat conducted out of the air outlet holes to be evenly dissipated to the cleaning cavity.

7. The evenly dried washing machine according to claim 6, wherein the drainage component is provided with drainage fan blades which are rotatably arranged at the bottom end of the cover body; the drainage fan blade is used for guiding heat conducted out of the air outlet holes to be evenly dissipated to the cleaning cavity in the rotation process.

8. The uniformly dried washing machine as claimed in claim 7, wherein the drainage fan blade comprises a mounting ring and a plurality of blades, and a mounting opening is formed in the middle of the mounting ring; a rotary seat is arranged in the mounting opening, and the blades are mounted on the mounting opening and are distributed at intervals in the circumferential direction of the mounting opening; one end of each blade is connected with the rotary seat, and the other end of each blade is connected with the mounting ring; the rotary seat is rotatably arranged at the bottom end of the cover body.

9. The uniformly dried washing machine as claimed in claim 8, wherein the mounting ring is adapted to be sealingly engaged with the washing tub after the cover is capped on the washing chamber, and to be rotated in synchronization with the washing tub.

10. The uniformly dried washing machine as claimed in claim 8, wherein the installation chamber is provided therein with a driving member, a driving shaft of which is protruded from a bottom end of the installation chamber; the plurality of blades are each connected to a drive shaft of the drive member.