CN113638180A - Door body washing mechanism with dewatering function and washing device - Google Patents

Abstract

The invention provides a door body washing mechanism with a dehydration function and a washing device. The door body washing mechanism with the dehydration function comprises a door body structure, wherein the door body structure is provided with a door body washing cavity; the extrusion assembly is arranged inside the door body washing cavity; the driving piece is installed on the door body structure and is in driving connection with the extrusion assembly, and the driving piece drives the extrusion assembly to move and extrude the washings. The door body washing mechanism with the dehydration function and the washing device provided by the invention can solve the problem that the door body washing mechanism in the prior art does not have the dehydration function.

Description

Door body washing mechanism with dewatering function and washing device

Technical Field

The invention relates to the technical field of electrical equipment, in particular to a door body washing mechanism with a dehydration function and a washing device.

Background

The washing devices are various in types, and as for the washing machine, most of the washing machines have a single cylinder for washing, and for single-piece and small-size washings, no separate washing cavity is used for washing, so that the phenomenon of cross infection is easy to occur in the washing process.

Of course, some manufacturers have proposed a washing machine with a door washing chamber, which can independently wash single and small-sized washings, but the washing is only simple, and no more complete technical scheme is provided.

Meanwhile, although some manufacturers propose a washing machine with a door washing chamber to implement zone washing of the laundry, the current washing machine with the door washing chamber does not have a dehydration function, so that the small-sized laundry still needs to be placed in a cylinder for washing the large-sized laundry for dehydration treatment after being washed, and thus the large-sized laundry and the small-sized laundry still have the problem of cross infection.

As can be seen from the above, although the washing machine has a door washing function, the door structure does not have a dehydrating function.

Disclosure of Invention

The invention mainly aims to provide a door body washing mechanism with a dehydration function and a washing device, and aims to solve the problem that the door body washing mechanism in the prior art does not have the dehydration function.

In order to achieve the above object, according to one aspect of the present invention, a door washing mechanism and a washing apparatus having a dehydration function are provided. The door body washing mechanism with the dehydration function comprises a door body structure, wherein the door body structure is provided with a door body washing cavity; the extrusion assembly is arranged inside the door body washing cavity; the driving piece is installed on the door body structure and is in driving connection with the extrusion assembly, and the driving piece drives the extrusion assembly to move and extrude the washings.

Further, the driving member drives the squeezing assembly to slide or rotate.

Further, the door body washing mechanism with the dewatering function further comprises a washing assembly, the washing assembly is used for stirring washings in the door body washing cavity, the extrusion assembly is provided with a working position and a standby position, when the washing assembly works, the extrusion assembly avoids the washing assembly and is located at the standby position, and the standby position in the door body washing cavity is higher than the working position.

Furthermore, the squeezing assembly has a squeezing state and a free state when being in a working position, and when the driving piece drives the squeezing assembly to move and is not in contact with the washing, the squeezing assembly is in the free state; when the driving piece drives the extrusion assembly to move and contact with the washings, the extrusion assembly extrudes the washings, and the extrusion assembly is switched from a free state to an extrusion state.

Further, the squeezing component is telescopically arranged inside the door body washing cavity, so that the squeezing component can be switched between a squeezing state and a free state.

Further, the extrusion assembly comprises an extrusion part and an adjusting assembly, wherein the adjusting assembly is provided with an elastic part, and the extrusion part is in driving connection with the driving part through the adjusting assembly so as to switch the extrusion part between an extrusion state and a free state.

Furthermore, the adjusting assembly comprises a first connecting piece, the driving piece is in driving connection with a first end of the first connecting piece, and a second end of the first connecting piece is provided with an installation groove; the second connecting piece, the inside of mounting groove is stretched into to the first end of second connecting piece, and the extruded article setting is served at the second of second connecting piece, and the elastic component setting is between first connecting piece and second connecting piece to make the second connecting piece along the depth direction position of mounting groove adjustable, and when extrusion subassembly switched to the extrusion state by free state, the second connecting piece removed in order to extrude the elastic component towards the direction of first connecting piece.

Further, the first connecting piece and/or the second connecting piece are rod-shaped pieces; and/or the depth direction of the mounting groove is arranged along the vertical direction or is arranged at an acute angle with the vertical direction.

Furthermore, the extrusion piece is a roller wheel, the roller wheel is rotationally connected with the second connecting piece, when the roller wheel is contacted with the washings, the extrusion assembly is switched from a free state to an extrusion state, and the peripheral side surface of the roller wheel extrudes the washings and rotates relative to the second connecting piece; or the extrusion piece is a pressing plate, and the driving piece drives the pressing plate to slide in the door body washing cavity along the depth direction of the mounting groove through the first connecting piece and the second connecting piece so as to extrude washings.

Furthermore, the extrusion part is a roller, the extrusion assembly further comprises a shaft sleeve, a rotating hole is formed in the roller, the shaft sleeve penetrates through the rotating hole, a second connecting piece extends into the shaft sleeve from the first end of the shaft sleeve and extends out of the second end of the shaft sleeve, the first end of the shaft sleeve is provided with a first stopping structure, and the second connecting piece is provided with a second stopping structure matched with the first stopping structure in a stopping way; and the locking piece is locked on the extending part of the second connecting piece, so that the locking piece, the first stopping structure and the second stopping structure are matched to limit the axial movement of the roller.

Further, the second connecting piece comprises a first arm section, at least one part of the first arm section extends into the mounting groove and can slide in the depth direction of the mounting groove in the mounting groove; the second arm section, the extruded article setting is on the second arm section, and first arm section becomes the first angle setting with the second arm section.

Further, the first angle is equal to or less than 90 °.

According to another aspect of the present invention, a washing apparatus is provided. The washing device comprises a whole machine, wherein the whole machine is provided with an outer barrel washing cavity; according to the door body washing mechanism with the dehydration function, the door body washing mechanism with the dehydration function is arranged at the opening of the outer barrel washing cavity, and the door body washing mechanism with the dehydration function can block the opening.

By applying the technical scheme of the invention, the washing device comprises a whole machine and a door body washing mechanism, wherein the whole machine is provided with an outer barrel washing cavity, the outer barrel washing cavity and the door body washing mechanism are matched to form two independent cavities, and the two independent cavities can be used for washing, so that washings with different sizes can be separately washed, and the problem of cross infection is avoided. Wherein, the inside in the door body washing chamber of door body washing mechanism is provided with extrusion subassembly and driving piece, finishes the back when the washing in the inside washing in door body washing chamber, and the driving piece drives the action of extrusion subassembly and extrudes the washings, can carry out dehydration through extrusion subassembly extrusion washing piece with the washings, makes things convenient for the subsequent drying process of washings. The door body washing mechanism has the technical effect of dehydrating washed washings, improves the washing effect and improves the practicability of the door body washing mechanism.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 shows a cross-sectional view of a door wash mechanism of the present invention; and

FIG. 2 shows a perspective view of the extrusion assembly of the present invention;

FIG. 3 shows an exploded view of the compression assembly of the present invention;

FIG. 4 shows a schematic view of the door wash mechanism of the present invention;

fig. 5 shows a schematic perspective view of the washing apparatus of the present invention.

Wherein the figures include the following reference numerals:

10. a whole machine; 100. a front panel; 200. a partition plate; 300. a bowl body; 400. an extrusion assembly; 401. a first connecting member; 402. a second connecting member; 4021. a first arm segment; 40211. a baffle plate; 4022. a second arm segment; 40221. a second stop structure; 403. an elastic member; 404. a shaft sleeve; 4041. a first stop structure; 405. an extrusion; 406. a locking member; 500. a drive member; 600. a washing assembly; 700. a drop door; 800. a throwing port; 900. a throwing channel; 1010. a door body washing cavity; 1020. an electrical cavity; 1100. an outer barrel washing chamber.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It is noted that, unless otherwise indicated, 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 application belongs.

In the present invention, unless specified to the contrary, use of the terms of orientation such as "upper, lower, top, bottom" or the like, generally refer to the orientation as shown in the drawings, or to the component itself in a vertical, perpendicular, or gravitational orientation; likewise, for ease of understanding and description, "inner and outer" refer to the inner and outer relative to the profile of the components themselves, but the above directional words are not intended to limit the invention.

The invention provides a door body washing mechanism with a dehydration function and a washing device, aiming at solving the problem that a door body structure of the washing device in the prior art does not have the dehydration function. The washing device can be used for industrial washing and also for household washing.

As shown in fig. 5, the washing device includes a whole machine 10 and a door washing mechanism, the whole machine 10 has an opening and an outer tub washing chamber 1100 communicated with the opening; the door body washing mechanism is arranged at the opening in an openable and closable manner. Wherein, the door body washing mechanism is a door body washing mechanism with a dehydration function.

Specifically, the washing device is a washing machine.

Further, the washing machine is a drum washing machine.

Of course, the washing device can also be a dishwasher or other similar product for washing the items to be washed.

Example one

As shown in fig. 1, the door washing mechanism with a dehydration function includes a door structure having a door washing chamber 1010, a squeezing assembly 400 and a driving member 500; the extrusion assembly 400 is arranged inside the door body washing cavity 1010; the driving member 500 is installed on the door structure, the driving member 500 is in driving connection with the extrusion assembly 400, and the driving member 500 drives the extrusion assembly 400 to move and extrude the washings.

Specifically, the washing device comprises a whole machine 10 and a door body washing mechanism, wherein the whole machine 10 is provided with an outer barrel washing cavity 1100, the outer barrel washing cavity 1100 and the door body washing mechanism are matched to form two independent cavities, and the two independent cavities can be used for washing, so that washings with different sizes can be washed separately, and the problem of cross infection is avoided. Wherein, the inside of the door body washing chamber 1010 of the door body washing mechanism is provided with the extrusion assembly 400 and the driving piece 500, after the washings are washed in the inside of the door body washing chamber 1010, the driving piece 500 drives the extrusion assembly 400 to move and extrude the washings, and the washings can be dehydrated by extruding the washings through the extrusion assembly 400, so that the subsequent drying treatment of the washings is facilitated. The door body washing mechanism has the technical effect of dehydrating washed washings, improves the washing effect and improves the practicability of the door body washing mechanism.

It should be noted that the door body structure further has an electrical cavity 1020 which is isolated from the door body washing cavity 1010, electrical components are placed inside the electrical cavity 1020, and the electrical cavity 1020 is isolated from the door body washing cavity 1010, so that water inside the door body washing cavity 1010 is prevented from entering the electrical cavity 1020, and components inside the electrical cavity 1020 are protected.

As shown in fig. 1, the door structure includes a front panel 100, a partition 200 and a bowl 300, the front panel 100 and the partition 200 are connected in a matching manner and form a door washing chamber 1010, and the partition 200 is connected in a matching manner with the bowl 300 and form an electrical chamber 1020. At least one part of the driving member 500 is installed inside the electrical chamber 1020, and at least another part of the driving member 500 penetrates through the partition plate 200, extends into the door body washing chamber 1010 and is in driving connection with the pressing assembly 400.

Specifically, the driving member 500 drives the pressing assembly 400 to rotate inside the door washing chamber 1010. Because the space inside the door washing chamber 1010 is limited, the driving member 500 drives the squeezing assembly 400 to perform reciprocating swing with a certain amplitude inside the door washing chamber 1010, so as to realize that the squeezing assembly 400 squeezes the washings.

Of course, in the case that the space inside the door washing chamber 1010 is large enough relative to the pressing assembly 400, it is also possible that the driving member 500 drives the pressing assembly 400 to rotate circularly inside the door washing chamber 1010.

It should be noted that the driving member 500 is a motor or a rotary cylinder, and the driving member 500 may also be other structural members capable of driving the extrusion assembly 400 to move.

As shown in fig. 1, the door washing mechanism with a dewatering function further includes a washing assembly 600, the washing assembly 600 is used for stirring the washings in the door washing chamber 1010, the pressing assembly 400 has an operating position and a standby position, when the washing assembly 600 operates, the pressing assembly 400 is located at the standby position and is retracted from the washing assembly 600, and the standby position in the door washing chamber 1010 is higher than the operating position.

Specifically, when the pressing assembly 400 is in the standby position, the pressing assembly 400 is positioned above the washing assembly 600 under the self-locking action of the driving member 500, so as to prevent the pressing assembly 400 from affecting the normal operation of the washing assembly 600.

Further, the washing assembly 600 includes a washing part and a washing driving element, the washing part is installed inside the door body washing cavity 1010 to stir the washings inside the door body washing cavity 1010, at least one part of the washing driving element is installed inside the electric cavity 1020 of the door body structure, and at least another part of the washing driving element penetrates through the partition plate 200 of the door body structure to extend into the door body washing cavity 1010 and is in driving connection with the washing part.

Furthermore, the washing piece is the wave wheel dish, is provided with protruding muscle structure on the wave wheel dish to the convenience is when washing the washings, and the wave wheel dish can strengthen the area of contact with the washings through protruding muscle structure, makes the wave wheel dish can reach the rotatory effect of better drive washings, improves washing efficiency.

It should be noted that the washing driving element provides rotary power for the pulsator disk, and the washing driving element is one of a motor, a rotary cylinder, and the like.

As shown in fig. 1 and 4, the front panel 100 and the partition board 200 are provided with a feeding opening 800 communicated with the door washing cavity 1010, the feeding opening 800 forms a feeding channel 900 between the front panel 100 and the partition board 200, and when the laundry needs to be fed into and taken out of the door washing cavity 1010, the laundry can be fed into and taken out through the feeding opening 800.

Further, the washing device further comprises a throwing door 700, the throwing door 700 is rotatably connected to the front panel 100, the throwing door 700 can block the throwing port 800 through rotation, and water inside the door body washing cavity 1010 is prevented from being splashed to the external environment by closing the throwing door 700 in the working process of the washing assembly 600.

In this embodiment, the pressing assembly 400 has a working position and a standby position, and the pressing assembly 400 has a pressing state and a free state when in the working position, when the driving member 500 drives the pressing assembly 400 to move and not to contact with the laundry, the pressing assembly 400 is in the free state, when the driving member 500 drives the pressing assembly 400 to move and contact with the laundry, the pressing assembly 400 presses the laundry, and the pressing assembly 400 is switched from the free state to the pressing state.

Specifically, when the pressing assembly 400 is in the pressing state, the pressing assembly 400 contacts and presses the laundry, moisture of the laundry is pressed out to dehydrate the laundry, and the pressing assembly 400 is switched from the free state to the pressing state because the laundry gives a pressing force to the pressing assembly 400.

Further, the compressing assembly 400 is telescopically disposed inside the door washing chamber 1010 to switch the compressing assembly 400 between a compressing state and a free state.

It should be noted that, when the pressing assembly 400 is in the pressing state, the pressing assembly 400 presses the laundry, and the laundry applies a reverse pressure to the pressing assembly 400 to retract the pressing assembly 400, and when the pressing assembly 400 is separated from the laundry, the pressing assembly 400 is extended and then reset.

As shown in fig. 2 and 3, the compression assembly 400 includes a compression member 405 and an adjustment assembly having a resilient member 403, the compression member 405 drivingly connected to a drive member 500 through the adjustment assembly to switch the compression member 405 between a compressed state and a free state.

Specifically, the driving member 500 drives the adjustment assembly to rotate, and the adjustment assembly drives the extrusion member 405 and the adjustment assembly to rotate synchronously. When the pressing assembly 400 is in a pressing state, the elastic member 403 is in a compressed state, and at this time, the elastic force of the elastic member 403 and the gravity of the pressing member 405 simultaneously act on the laundry to press out water on the laundry; when the pressing assembly 400 is in a free state, the elastic member 403 of the adjusting assembly is reset and the pressing member 405 is not in contact with the laundry, and the pressing member 405 and the laundry are not under the pressing force.

Further, the adjusting assembly comprises a first connecting piece 401 and a second connecting piece 402, the driving piece 500 is in driving connection with a first end of the first connecting piece 401, and a second end of the first connecting piece 401 is provided with an installation groove; a first end of the second connection member 402 is extended into the inside of the installation groove, an extrusion member 405 is provided on a second end of the second connection member 402, and an elastic member 403 is provided between the first connection member 401 and the second connection member 402 so that the position of the second connection member 402 in the depth direction of the installation groove is adjustable, and when the extrusion assembly 400 is switched from the free state to the extrusion state, the second connection member 402 is moved toward the first connection member 401 to extrude the elastic member 403.

Specifically, the second connector 402 is provided with a baffle 40211, one end of the elastic member 403 is connected to the baffle 40211, and the other end of the elastic member 403 is connected to the second end of the first connector 401. The baffle 40211 has a positioning function to limit the length of the first end of the second connecting piece 402 entering the mounting groove, and further limit the displacement of the extruded objects when the extrusion piece 405 is in the extrusion state, and improve the extrusion efficiency of the extrusion piece 405.

Further, the shape of the first end of the second connector 402 is adapted to the shape of the mounting groove, so that the first end of the second connector 402 can slide in the mounting groove, which may be a rectangular groove, a cylindrical groove, or another irregular groove.

Further, the depth direction of the mounting groove is arranged along the vertical direction, that is, the second end of the first connecting member 401 is arranged along the vertical direction, and the first end of the second connecting member 402 also moves in the interior of the mounting groove along the vertical direction.

It should be noted that, the depth direction of the mounting groove is not limited to be set along the vertical direction, and the moving direction of the pressing member 405 is different due to the different direction of the pressing force of the laundry when the pressing member 405 is in the pressing state according to the form that the pressing member 405 is mounted inside the door washing chamber 1010. For example when the bottom surface slope of the inside of door body washing chamber 1010 sets up, the washings distribute on the bottom surface of the inside of door body washing chamber 1010, for making things convenient for extruded article 405 extrusion washings, extruded article 405 also inclines to set up, consequently when extruded article 405 extrusion washings, extruded article 405 messenger extruded article 405 moves along the direction on perpendicular to inclined plane, extruded article 405 drives second connecting piece 402 and moves, the first end of second connecting piece 402 moves inside the mounting groove, be the acute angle setting between the degree of depth direction and the vertical direction of mounting groove this moment, when extruded article 405 is in the extrusion state promptly, the first end of second connecting piece 402 moves in the inside of mounting groove along the direction with vertical direction contained acute angle.

In this embodiment, the first connecting member 401 and the second connecting member 402 are rod-shaped members, so that the driving member 500 drives the rod-shaped members to rotate, thereby driving the extrusion member 405 to swing inside the door washing chamber 1010.

Specifically, the first connecting member 401 is a first rotating shaft, and the second connecting member 402 is a second rotating shaft.

As shown in fig. 2 and 3, the pressing member 405 is a roller rotatably connected to the second link 402, and when the roller contacts the laundry, the pressing member 400 is switched from a free state to a pressing state, and the circumferential side of the roller presses the laundry and rotates with respect to the second link 402.

Specifically, the laundry is pressed by the circumferential side surface of the roller in the process of rotating along with the second connecting member 402, the circumferential side surface of the roller is large enough to facilitate the omnidirectional pressing action on the laundry, and when the roller is in a pressing rotating state, the roller presses the laundry, and at this time, the roller rotates relative to the second connecting member 402 and presses the laundry due to the friction force of the laundry applied to the pressing member 405.

It should be noted that the roller is made of rubber material, and the roller may be made of other plastic material, so as to rotate under the driving of the second connecting member 402 and rotate when pressing the laundry.

As shown in fig. 2 and 3, the pressing member 405 is a roller, the pressing assembly 400 further includes a sleeve 404 and a locking member 406, the roller is provided with a rotation hole, the sleeve 404 penetrates through the rotation hole, the second connecting member 402 extends from a first end of the sleeve 404 and extends from a second end of the sleeve 404, the second end of the sleeve 404 is provided with a first stopping structure 4041, and the second connecting member 402 is provided with a second stopping structure 40221 in stopping fit with the first stopping structure 4041; the locking member 406 is locked to the protruding portion of the second connector 402 such that the locking member 406, the first stop 4041 and the second stop 40221 cooperate to limit the axial movement of the roller.

Specifically, the extrusion piece 405 is rotatably connected with the second connector through the shaft sleeve 404, the extrusion piece 405 is mounted on the second connector 402 through the first stop structure 4041 and the second stop structure 40221 which are used in a matched mode and the locking piece 406, the extrusion piece 405 achieves axial positioning and radial positioning, and the extrusion piece 405 is prevented from being shifted when the washing is extruded to affect extrusion efficiency.

Further, first backstop structure 4041 and second backstop structure 40221 are the limiting plate, and the limiting plate one end butt gyro wheel other end and another limiting plate butt of first backstop structure 4041 to the realization is spacing to the one end of gyro wheel, and locking piece 406 and the extension threaded connection of second connecting piece 402 are spacing in order to carry out the other end to the gyro wheel simultaneously, reach restriction gyro wheel axial and radial movement's effect.

It should be noted that the first stopping structure 4041 and the second stopping structure 40221 are not limited to the limiting plate structure, and the first stopping structure 4041 and the second stopping structure 40221 may also be other structures capable of realizing limiting of the roller. Similarly, the locking member 406 is not limited to be in threaded connection with the second connecting member 402, but may also be in a connection manner such as clamping connection, so as to realize the limit roller.

As shown in fig. 2 and 3, the second connecting piece 402 includes a first arm section 4021 and a second arm section 4022, and at least a part of the first arm section 4021 extends into the inside of the mounting groove and can slide in the depth direction of the mounting groove inside the mounting groove; extrusion 405 is disposed on second arm segment 4022, and first arm segment 4021 is disposed at a first angle to second arm segment 4022, the first angle being H.

Specifically, since the pressing member 405 is mounted on the second arm section 4022 of the second connecting member 402, when the pressing member 405 is pressed by the laundry, the pressing member 405 moves the second connecting member 402, at least a portion of the first arm section 4021 of the second connecting member 402 enters the inside of the mounting groove, the first arm section 4021 moves while pressing the elastic member 403, and at this time, the laundry is pressed by the restoring force of the elastic member 403 and the gravity of the pressing member 405 to perform the dehydration process.

Further, the first angle is equal to or less than 90 °.

Example two

Unlike the first embodiment, the driving member 500 slides the compressing assembly 400 in the present embodiment.

Specifically, the expression assembly 400 includes an expression member 405 and an adjustment assembly having a resilient member 403, the expression member 405 drivingly connected to the drive member 500 through the adjustment assembly to switch the expression member 405 between the expressed state and the free state.

Further, the pressing member 405 is a pressing plate, and the driving member 500 drives the pressing plate to slide in the depth direction of the installation slot inside the door body washing cavity 1010 through the first connecting member 401 and the second connecting member 402 so as to press the laundry.

Further, the driving member 500 drives the pressing plate to slide towards or away from the direction of the laundry through the first connecting member 401 and the second connecting member 402, when the pressing plate is in the pressing state, the pressing plate presses the laundry, the laundry reversely presses against the pressing plate, the pressing plate drives the first connecting member 401 to partially slide into the mounting groove and press against the elastic member 403, and at this time, the laundry is pressed under the restoring force of the elastic member 403 and the gravity action of the pressing plate, so as to achieve the dewatering effect.

It should be noted that the driving member 500 is a pushing cylinder or a telescopic motor.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

1. through being provided with two independent cavitys of washing of door body washing chamber 1010 and urceolus washing chamber 1100, realized the effect of categorised washing, avoided appearing cross infection's phenomenon, reached the effect of washing safely.

2. The extrusion assembly 400 is arranged in the door body washing cavity 1010, and the washing is dehydrated in a mode of extruding the washing, namely the door body washing mechanism has the technical effects of independent washing and dehydration, and the practicability of the door body washing mechanism is improved.

3. When the extruding member 405 is in an extruding state, the extruding member 405 drives the first connecting member 401 to extrude the elastic member 403 toward the second connecting member 402, and the washing is extruded by the restoring force of the elastic member 403 and the gravity of the extruding member 405, thereby improving the dewatering effect.

It is to be understood that the above-described embodiments are only a few, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and it should be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A door body washing mechanism with a dewatering function is characterized by comprising:

a door structure having a door wash chamber (1010);

the squeezing assembly (400), the squeezing assembly (400) is arranged inside the door body washing cavity (1010);

driving piece (500), driving piece (500) are installed the door body is structural, driving piece (500) with extrusion subassembly (400) drive is connected, driving piece (500) drive extrusion subassembly (400) remove and extrude the washings.

2. The door washing mechanism with the dewatering function according to claim 1, wherein the driving member (500) drives the squeezing assembly (400) to slide or rotate.

3. The door washing mechanism with the dehydration function according to claim 1, further comprising a washing assembly (600), wherein the washing assembly (600) is used for stirring the washings in the door washing chamber (1010), the squeezing assembly (400) has a working position and a standby position, when the washing assembly (600) works, the squeezing assembly (400) is out of the washing assembly (600) and is in the standby position, and the standby position is higher than the working position in the door washing chamber (1010).

4. The door washing mechanism with the dewatering function according to claim 3, wherein the pressing assembly (400) has a pressing state and a free state when in the working position,

when the driving piece (500) drives the squeezing assembly (400) to move and is not contacted with the washings, the squeezing assembly (400) is in the free state;

when the driving piece (500) drives the squeezing assembly (400) to move and contact with the washings, the squeezing assembly (400) squeezes the washings, and the squeezing assembly (400) is switched from the free state to the squeezing state.

5. The door washing mechanism with the dehydration function according to claim 4, wherein the pressing assembly (400) is telescopically arranged inside the door washing chamber (1010) to switch the pressing assembly (400) between the pressing state and the free state.

6. The door washing mechanism with a dehydrating function according to claim 4, wherein the pressing assembly (400) comprises:

an extrusion (405);

an adjustment assembly having a resilient member (403), the expression member (405) being drivingly connected to the drive member (500) through the adjustment assembly to switch the expression member (405) between the expressed state and the free state.

7. The door washing mechanism with a dewatering function according to claim 6, wherein the adjustment assembly includes:

the driving piece (500) is in driving connection with a first end of the first connecting piece (401), and a second end of the first connecting piece (401) is provided with an installation groove;

the first end of the second connecting piece (402) extends into the inside of the mounting groove, the extrusion piece (405) is arranged on the second end of the second connecting piece (402), the elastic piece (403) is arranged between the first connecting piece (401) and the second connecting piece (402), so that the position of the second connecting piece (402) along the depth direction of the mounting groove can be adjusted, and when the extrusion assembly (400) is switched from the free state to the extrusion state, the second connecting piece (402) moves towards the direction of the first connecting piece (401) to extrude the elastic piece (403).

8. The door washing mechanism with dewatering function according to claim 7,

the first connector (401) and/or the second connector (402) are rod-shaped members; and/or

The depth direction of mounting groove along vertical direction setting or with be the acute angle setting between the vertical direction.

9. The door washing mechanism with the dewatering function according to claim 7, wherein the pressing member (405) is a roller, the roller is rotatably connected with the second connecting member (402), when the roller contacts with the laundry, the pressing assembly (400) is switched from the free state to the pressing state, and the peripheral side surface of the roller presses the laundry and rotates relative to the second connecting member (402); or

The extruded part (405) is a pressing plate, the driving part (500) drives the pressing plate to be in the door body washing cavity (1010) along the depth direction of the mounting groove to slide so as to extrude the washings through the first connecting part (401) and the second connecting part (402).

10. The door body washing mechanism with the dewatering function according to claim 7, wherein the pressing member (405) is a roller, and the pressing assembly (400) further comprises:

the roller is provided with a rotating hole, the shaft sleeve (404) penetrates through the rotating hole, the second connecting piece (402) extends into the first end of the shaft sleeve (404) and extends out of the second end of the shaft sleeve (404), the first end of the shaft sleeve (404) is provided with a first stopping structure (4041), and the second connecting piece (402) is provided with a second stopping structure (40221) in stopping fit with the first stopping structure (4041);

a locking member (406), said locking member (406) being locked to said protruding portion of said second connector (402) such that said locking member (406), said first stop structure (4041), said second stop structure (40221) cooperate to limit axial movement of said roller.

11. The door washing mechanism with a dewatering function according to claim 7, wherein the second connecting member (402) includes:

the first arm section (4021), at least one part of the first arm section (4021) extends into the mounting groove and can slide in the depth direction of the mounting groove in the mounting groove;

a second arm segment (4022), the extrusion (405) disposed on the second arm segment (4022), the first arm segment (4021) disposed at a first angle to the second arm segment (4022).

12. The door washing mechanism with a dewatering function according to claim 11, wherein the first angle is 90 ° or less.

13. A washing device, characterized in that it comprises:

a complete machine (10), the complete machine (10) having an outer tub washing chamber (1100);

the door washing mechanism with a dehydration function according to any one of claims 1 to 12, which is disposed at an opening of the outer tub washing chamber (1100), and which can block the opening.

Images