CN111826893B - Rotary barrel assembly of washing machine and washing machine - Google Patents

Abstract

The invention discloses a rotary tub assembly of a washing machine and a washing machine, the rotary tub assembly includes: the peripheral wall of the rotating barrel is provided with a water guide structure which is arranged towards the outer side of the rotating barrel in a protruding way; the water guide cover is arranged in the rotary barrel, the water guide cover or the water guide cover and the rotary barrel jointly define a drainage channel, a water inlet of the drainage channel is positioned above a water outlet of the drainage channel, liquid rising due to the action of centrifugal force of the rotary barrel enters the drainage channel through the water inlet and is discharged through the water outlet, and the lower edge of the water inlet is lower than the upper edge of the water guide structure. According to the rotary barrel assembly of the washing machine, the lower edge of the water inlet is lower than the upper edge of the water guide structure, so that water flow can smoothly enter the drainage channel during dehydration, the probability of water flow flowing back into the rotary barrel is reduced, the dehydration time is shortened, and the dehydration efficiency is improved.

Description

Rotary barrel assembly of washing machine and washing machine

Technical Field

The invention relates to the technical field of washing machines, in particular to a rotary barrel assembly of a washing machine and the washing machine.

Background

With the continuous development of washing machine technology, the washing machine tends to have a large capacity, and the washing machine tends to have a large capacity, which inevitably results in the increase of the whole size of the washing machine, so that it is necessary to provide a washing machine with a small volume and a large capacity; meanwhile, the water in the existing washing machine is distributed in the rotary barrel and the water containing barrel during washing, namely water is distributed between the water containing barrel and the rotary barrel, so that the water consumption is large, and the waste of water resources is caused; the dirt of the existing washing machine is easy to remain between the water containing barrel and the rotating barrel, so that bacteria are bred, and water is distributed between the water containing barrel and the rotating barrel, so that the using amount of the detergent is more, the resource waste of the detergent is caused, and the cost is not saved.

Therefore, the related art provides a washing machine which omits a water containing barrel and only keeps a rotary barrel, the water guiding cover is arranged on the inner peripheral wall surface of the rotary barrel, water in the rotary barrel firstly climbs upwards under the action of centrifugal force in the dehydration process, then falls and is discharged under the action of gravity through the water guiding cover, the dehydration is not high, in addition, because the water cannot be discharged in time in the dehydration process, accumulated water is easily formed below a balance ring, the eccentric problem is caused, the box body of the washing machine can be impacted in serious conditions, and the safety is low.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. To this end, an object of the present invention is to provide a rotary tub assembly of a washing machine, which has high dehydration efficiency and is safer in dehydration.

The invention also provides a washing machine with the rotary drum assembly.

A rotary tub assembly of a washing machine according to a first aspect embodiment of the present invention includes: the rotary drum is provided with a water guide structure which is arranged in a protruding manner towards the outer side of the rotary drum on the peripheral wall; the water guide cover is arranged in the rotary barrel, a water drainage channel is defined by the water guide cover or the water guide cover and the rotary barrel together, a water inlet of the water drainage channel is positioned above a water outlet of the water drainage channel, liquid which rises due to the action of centrifugal force of the rotary barrel enters the water drainage channel through the water inlet and is discharged through the water outlet, and the lower edge of the water inlet is lower than the upper edge of the water guide structure.

According to the rotary barrel assembly provided by the embodiment of the invention, water in the rotary barrel firstly ascends under the action of centrifugal force, then enters the drainage channel from the water inlet, falls down under the action of gravity and is discharged from the water outlet, and the lower edge of the water inlet is set to be lower than the upper edge of the water guide structure, so that water flow can smoothly enter the drainage channel during dehydration, the probability of water flow flowing back into the rotary barrel is reduced, the dehydration time is shortened, and the dehydration efficiency is improved.

According to an embodiment of the present invention, the upper portion of the inner wall surface of the rotary tub has a convex portion extending along a circumferential direction thereof, and the rotary tub assembly further includes a balance ring connected to the rotary tub and located above the convex portion, wherein a distance between a lower edge of the convex portion and a lower edge of the water inlet is greater than a distance between the lower edge of the convex portion and an upper edge of the water guide structure.

According to an embodiment of the present invention, the peripheral wall of the rotary tub is inwardly depressed to form a concave portion on an outer wall surface of the rotary tub, and the convex portion is formed on an inner wall surface of the rotary tub.

According to one embodiment of the present invention, the lower edge of the convex portion is transitionally connected to a partial arc adjacent to the inner wall surface of the rotating tub.

According to an embodiment of the present invention, an upper edge of the water guide structure is transitionally connected to a partial arc adjacent to an inner wall surface of the rotary tub.

According to one embodiment of the present invention, the inner diameter of the rotary tub is gradually increased from the bottom up.

According to one embodiment of the invention, the water guiding cover is arranged at the water guiding structure.

According to an embodiment of the invention, the water guide structure is sequentially provided with a first water guide section, an intermediate water guide section and a second water guide section along the circumferential direction of the rotating barrel, and two ends of the intermediate water guide section are respectively in transition connection with the first water guide section and the second water guide section.

In some embodiments, the cross-sectional outer contour of the intermediate water guiding section forms an arc centered on the center of the rotating tub.

In some examples, an inner diameter of any one of the intermediate water conducting sections is not smaller than an inner diameter of a portion of the intermediate water conducting section located thereabove.

In some embodiments, the ratio of the length of the outer contour of the cross section of the intermediate water guiding section to the length of the outer contour of the cross section of the water guiding structure gradually decreases from top to bottom in the up-down direction.

In some embodiments, the cross-sectional outer contour line of the first water guide segment and/or the second water guide segment forms an oblique line gradually extending toward the center of the rotary tub in a direction away from the intermediate water guide segment.

In some embodiments, the first water conducting section and the second water conducting section are symmetrically arranged about a centerline of the intermediate water conducting section.

According to one embodiment of the invention, the water inlet is arranged on the water guide cover, and the water outlet is arranged on the water guide structure and/or the bottom wall of the rotary barrel.

Optionally, the water guide structures are arranged at intervals along the circumferential direction of the rotating barrel, and the water guide covers are arranged on the water guide structures in a one-to-one correspondence manner.

A washing machine according to an embodiment of a second aspect of the present invention includes: a box body; and a rotary tub assembly of the washing machine according to the above embodiments, the rotary tub assembly being rotatably provided in the cabinet.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a washing machine according to an embodiment of the present invention;

fig. 2 is a perspective view of a rotary tub assembly of a washing machine according to an embodiment of the present invention;

FIG. 3 is a transverse partial cross-sectional view of the rotating tub assembly shown in FIG. 2;

fig. 4 is a front view of a rotary tub assembly of a washing machine according to another embodiment of the present invention;

fig. 5 is a longitudinal sectional view of a rotary tub assembly of a washing machine according to still another embodiment of the present invention;

fig. 6 is an enlarged view of a portion a shown in fig. 5.

Reference numerals:

a washing machine 1,

A case 100, a rotary tub assembly 200,

A rotary barrel 210, a water outlet 211, a convex part 212, a concave part 213,

A water guide cover 220, a water inlet 221, a guide part 230, a drainage channel 240, a water guide structure 260, a first water guide section 261, a second water guide section 262, an intermediate water guide section 263, a balance ring 270, a water guide structure,

An impeller 300,

A water receiving tray 400, a water receiving tank 410,

A drive unit 500, a drive shaft assembly 501, a support plate 502,

Supporting the shock-absorbing assembly 600.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

A rotary tub assembly 200 of a washing machine and the washing machine 1 according to an embodiment of the present invention will be described below with reference to fig. 1 to 6.

As shown in fig. 2 to 6, the rotary tub assembly 200 of the washing machine according to the embodiment of the present invention includes: a rotating tub 210 and a water guide cover 220.

A water guide structure 260 is formed on the peripheral wall of the rotary tub 210, the water guide structure 260 protrudes toward the outer side of the rotary tub 210, the water guide cover 220 is disposed in the rotary tub 210, the water guide cover 220 defines a drainage channel 240 by itself, or the water guide cover 220 and the rotary tub 210 define the drainage channel 240 together, a water inlet 221 of the drainage channel 240 is located above a water outlet 211 of the drainage channel 240, and a lower edge of the water inlet 221 is lower than an upper edge of the water guide structure 260.

In the dehydration, the liquid rising up from the rotary tub 210 due to the centrifugal force enters the drainage channel 240 through the water inlet 221, and is then discharged through the water outlet 211 by the gravity. By connecting the water guide cover 220 to the rotary tub 210, it is not necessary to provide an additional structure on the cabinet 100 of the washing machine 1 or to provide the cabinet 100 with an inner and outer double-layered structure to guide water during the dehydration process, so that the material selection of the cabinet 100 is not limited, for example, a metal plate or the like may be used, thereby greatly improving the appearance.

According to the rotary tub assembly 200 of the washing machine of the embodiment of the present invention, water in the rotary tub 210 first ascends under the action of centrifugal force, then enters the drainage channel 240 from the water inlet 221, and falls down and is discharged from the water outlet 211 under the action of gravity, and by setting the lower edge of the water inlet 221 to be lower than the upper edge of the water guide structure 260, it is ensured that water flow can smoothly enter the drainage channel 240 during dehydration, and the probability of water flow flowing back into the rotary tub 210 is reduced, thereby reducing dehydration time and improving dehydration efficiency.

As shown in fig. 5 and 6, according to an embodiment of the present invention, the upper portion of the inner wall surface of the rotary tub 210 has a protrusion 212, and the protrusion 212 extends in the circumferential direction of the rotary tub 210, for example, may be formed in a ring shape extending in the circumferential direction of the rotary tub 210. The rotary tub assembly 200 further includes a balance ring 270, the balance ring 270 being coupled to the rotary tub 210, and the balance ring 270 being located above the boss 212. For example, the balance ring 270 is disposed in the rotary tub 210 and is hermetically connected to the rotary tub 210, and the balance ring 270 is supported above the convex portion 212.

The water guide structure 260 is located below the convex portion 212, and a distance h2 between a lower edge of the convex portion 212 and a lower edge of the water inlet 221 is greater than a distance h1 between the lower edge of the convex portion 212 and an upper edge of the water guide structure 260, so that water flow can smoothly enter the drainage channel 240 during dehydration, the probability that the water flow flows back into the rotary barrel 210 is reduced, the dehydration time is reduced, and the dehydration efficiency is improved. In addition, the eccentricity caused by accumulated water formed below the balance ring 270 can be avoided, the probability that the rotary tub 210 impacts the box body of the washing machine 1 is reduced, and the safety of the washing machine 1 during dehydration is improved.

In some embodiments, the peripheral wall of the rotary tub 210 is recessed inward, so that the concave part 213 is formed on the outer wall surface of the rotary tub 210, and the convex part 212 is formed on the inner wall surface of the rotary tub 210, which is simple in structure and convenient to form. In the present embodiment, an annular recess 213 is formed on the outer wall surface of the rotary tub 210, and an annular protrusion 212 is formed on the inner wall surface of the rotary tub 210.

In some examples, the lower edge of the protrusion 212 is transitionally connected with the partial arc adjacent to the inner wall surface of the rotating tub 210, and the upper edge of the water guide structure 260 is transitionally connected with the partial arc adjacent to the inner wall surface of the rotating tub 210, so that the processing and the manufacturing are easy, the appearance of the rotating tub 210 is improved, and the water guide effect is improved.

According to an embodiment of the present invention, the flow area of the drain channel 240 at an upstream position is smaller than the flow area of the drain channel 240 at a downstream position in the flow direction of the liquid in the drain channel 240.

In some examples, the flow area of the drain 240 gradually increases in the direction of flow of the liquid within the drain 240. For example, the drainage channel 240 extends along the axial direction (the up-down direction shown in fig. 2 and 4) of the rotary tub 210, and the flow area of the drainage channel 240 gradually increases along the up-down direction, so as to ensure smooth drainage of water, prevent the rotary tub 210 from being eccentric due to water accumulation at the upper part of the rotary tub 210, and ensure safety during dewatering.

From this, through setting the flow area that is located the upper reaches position with drainage channel 240 to being less than its flow area that is located the low reaches position, guarantee at the drainage in-process, water can in time discharge, prevent that rotatory bucket 210 top from leading to rotatory bucket 210 to take place off-centre because of ponding to appear, avoid rotatory bucket 210 at the box of during operation striking washing machine, security when guaranteeing the dehydration promotes user's use and experiences.

Alternatively, the cross-sectional shape of the drainage channel 240 is triangular. For example, the water guide cover 220 forms an arc-shaped cover plate bending in a direction away from the center of the rotary tub 210, and a triangle with one arc-shaped side is defined between the water guide cover 220 and the rotary tub 210, so that the structure is stable and reliable.

According to an embodiment of the present invention, as shown in fig. 2 and 4, the inner diameter of the rotary tub 210 is gradually increased from the bottom up. That is, the rotary tub 210 may be configured in a reverse truncated cone shape having a large top and a small bottom, and may facilitate water to climb up into the drainage channel 240, thereby improving a dewatering effect.

As shown in fig. 2 to 6, the water guide cover 220 is provided at the water guide structure 260. From this, through the water guide structure 260 that sets up the rotatory bucket 210 of inverted circular truncated cone shape and the perisporium of the rotatory bucket 210 of protrusion, can compromise water and climb and the influence of whereabouts in-process centrifugal force, improve dehydration effect, through set up additional strengthening on water guide structure 260, further improved overall structure's intensity, make its non-deformable, guarantee dehydration process's stability, improve dehydration effect.

As shown in fig. 2, the water guide structure 260 has a reinforcing structure, for example, the lower surface of the water guide structure 260 is formed into a triangle, and the structure forms at least a part of the reinforcing structure, so that the stability of the triangle is utilized to improve the structural strength of the water guide structure 260, ensure the stability of the whole structure in the dehydration process, and improve the dehydration effect.

According to an embodiment of the present invention, as shown in fig. 3, the water guide structure 260 includes a first water guide section 261, an intermediate water guide section 263 and a second water guide section 262, the first water guide section 261, the intermediate water guide section 263 and the second water guide section 262 are sequentially arranged along the circumferential direction of the rotating tub 210, two ends of the intermediate water guide section 263 are respectively in transitional connection with the first water guide section 261 and the second water guide section 262, and by forming three water guide sections in the water guide structure 260, the structural strength of the water guide structure 260 is enhanced by the water guide sections, so that the water guide structure 260 is stable and is not easy to deform.

In some embodiments, the outer contour line of the cross section of the intermediate water guiding section 263 forms an arc line, and the arc line takes the center of the rotating barrel 210 as a center, that is, the outer contour line of the cross section of the intermediate water guiding section 263 forms a smooth arc section, and the radius of the intermediate water guiding section 263 is slightly larger than that of the rotating barrel 210 at the cross section, so that water can flow to the intermediate water guiding section 263 more easily under the action of centrifugal force, and the dewatering effect is improved; and the manufacturing and molding of the middle water guide section 263 are facilitated, and the manufacturing process is simplified.

In some examples, the inner diameter of any of the intermediate water guiding section 263 is not smaller than the inner diameter of the portion of the intermediate water guiding section 263 above that location.

For example, the inner diameters of the middle water guiding section 263 are uniform in the vertical direction, that is, the inner diameter of any position of the middle water guiding section 263 is equal to the inner diameter of the uppermost portion of the middle water guiding section 263, a vertical section is formed on the longitudinal cross-sectional view of the water guiding structure 260 and on the inner side of the middle water guiding section 263, and a part of the inside of the drainage channel 240 forms a vertical cavity, that is, on the basis of ensuring the water guiding effect and the structural strength of the drainage channel 240, the structure of the middle water guiding section 263 is further simplified, and the manufacturing and molding thereof are facilitated.

For another example, the inner diameter of the middle water guiding section 263 is gradually increased from top to bottom, that is, the inner diameter of any position of the middle water guiding section 263 is greater than the inner diameter of the upper portion of the middle water guiding section 263, and an inclined section that gradually inclines outwards is formed on the longitudinal cross-sectional view of the water guiding structure 260 and the inner side of the middle water guiding section 263, so that the centrifugal force at the bottom of the drainage channel 240 is greater than the centrifugal force at the top of the drainage channel, and the water entering the drainage channel 240 can more easily reach the bottom of the drainage channel and be discharged to the outside, thereby further improving the dewatering effect.

In some embodiments, the ratio of the length of the outer contour of the cross section of the intermediate water guiding segment 263 to the length of the outer contour of the cross section of the water guiding structure 260 gradually decreases from top to bottom in the up-down direction.

In other words, the length of the cross-sectional outer contour of the intermediate water guiding section 263 at the upper end of the water guiding structure 260 is the largest; the length of the middle water guide section 263 at the lower end of the water guide structure 260 is nearly zero, and at this position, a triangle is formed between the first water guide section 261, the second water guide section 262 and the water guide cover 220, that is, a triangle is formed at the water outlet 211 and the cross section of the drainage channel 240, thereby improving the structural strength of the water guide structure 260; and the cross-sectional area of the drainage channel 240 is larger than that of the part above the drainage channel, so that the water entering the drainage channel 240 can flow out in time, and the dewatering effect is ensured.

In some embodiments, the outer contour line of the cross-section of the first water guide segment 261 and/or the second water guide segment 262 forms an oblique line shape, and the oblique line shape gradually extends toward the center of the rotary tub 210 in a direction away from the intermediate water guide segment 263.

In some embodiments, the first water guiding section 261 and the second water guiding section 262 are symmetrically arranged about the center line of the middle water guiding section 263, that is, the water guiding structure 260 is symmetrically arranged along the center line of the middle water guiding section 263, so that the manufacturing process of the water guiding structure 260 is further simplified, the manufacturing difficulty is reduced, and the structural stability is improved at the same time, while the dehydration effect is ensured.

According to a further embodiment of the present invention, as shown in fig. 5, the water inlet 221 is disposed on the water guiding cover 220, and the water outlet 211 is disposed on the water guiding structure 260 and/or the bottom wall of the rotating tub 210, i.e., the water outlet 211 may be disposed on the water guiding structure 260, or on the bottom wall of the rotating tub 210, or the water outlet 211 is disposed on the water guiding structure 260 and the rotating tub 210.

The water outlet 211 is arranged on the water guide structure 260, so that the water guide cover 220 covers the water outlet 211, and the lower end of the water guide cover 220 is only connected with the water guide structure 260, which is beneficial to sealing the water guide cover 220.

Certainly, the water outlet 211 in the invention can also be arranged on the bottom wall of the rotary barrel 210, and the water guide cover 220 covers the water outlet 211, so that the dehydration efficiency in dehydration can be improved, the dehydration effect is good, and the splashing of water from the water outlet 211 can be effectively reduced; when the water outlet 211 is disposed on the bottom walls of the water guide structure 260 and the rotary tub 210, it is advantageous to seal the water guide cover 220 and improve the dehydration efficiency during dehydration, and it is possible to effectively prevent water from splashing out of the water outlet 211.

Further, the water inlet 221 is disposed at an upper portion of the water guide cover 220, and the water outlet 211 is disposed at a lower portion of the water guide structure 260. Here, it is understood that the upper portion of the water guide cover 220 refers to a portion above the center of the water guide cover 220 in the vertical direction, and the lower portion of the water guide structure 260 refers to a portion below the center of the water guide structure 260 in the vertical direction. Therefore, when dewatering, the rotating barrel 210 rotates, water in the rotating barrel 210 rises under the action of centrifugal force, the water inlet 221 positioned at the upper part of the water guide cover 220 can better collect the rising water, and the water enters the water guide cover 220 from the water inlet 221 and flows to the water outlet 211 below under the guidance of the water guide cover 220, so that the dewatering efficiency and the dewatering effect are further improved.

Further, the water inlet 221 is provided at the upper end of the water guide cover 220 to further facilitate the collection of the liquid in the rotary tub 210 rising to the upper end of the rotary tub 210 by centrifugal force, the water outlet 211 is provided at the water guide structure 260 and adjacent to the bottom wall of the rotary tub 210, and the water outlet 211 is spaced a predetermined distance from the bottom wall of the rotary tub 210, thereby facilitating the sealing of the water guide cover 220.

In order to improve the dehydration effect of the rotating tub 210, the water guide structures 260 are provided in plurality, and the plurality of water guide structures 260 are arranged at intervals along the circumferential direction of the rotating tub 210, the plurality of water guide covers 220 are provided, and the plurality of water guide covers 220 are provided at the plurality of water guide structures 260 in a one-to-one correspondence manner.

As shown in fig. 4 and 5, in the present embodiment, there are two water guide structures 260, two water guide structures 260 are disposed opposite to each other in the radial direction of the rotating tub 210, two water guide covers 220 are disposed at two water guide structures 260, and the two water guide covers 220 are respectively disposed in one-to-one correspondence with the two water guide structures 260.

As shown in fig. 2, according to an embodiment of the present invention, the peripheral wall of the rotary tub 210 is further formed with a guide part 230 protruding toward the outside of the rotary tub 210 and located above the water guide structure 260, the guide part 230 is communicated with the water guide structure 260 and the guide part 230 is communicated with the water inlet 221, and liquid rising due to centrifugal force in the rotary tub 210 can flow into the drainage channel 240 and/or the water guide structure 260 through the water inlet 221 and via the guide part 230.

In some examples, a projected length of the guide part 230 in the circumferential direction of the rotary tub 210 is greater than a projected length of the water guide structure 260 in the circumferential direction of the rotary tub 210, that is, the guide part 230 extends to both sides of the water guide structure 260 by a certain distance in the circumferential direction, the guide part 230 is positioned above the water guide structure 260 and the guide part 230 is connected to the water guide structure 260 in a T-shape, since the guide part 230 is protrudingly provided toward the outside of the rotary tub 210 and the guide part 230 extends to both sides of the water guide structure 260 in the circumferential direction by a certain distance, and further, the volume of the cavity in the guide part 230 is increased, so that the liquid rising due to the centrifugal force in the rotary tub 210 is easily introduced into the guide part 230, and the water does not flow into the rotary tub 210 from the water inlet 221 again, so that the dehydration time is saved, the dehydration efficiency is improved, the moisture content of the washed clothes is reduced, and the dehydration effect is improved.

In some specific examples, the guide part 230 extends to both sides of the water guide structure 260 by the same distance, thereby making the structure beautiful and the manufacturing process simple; the guide part 230 is in smooth transition connection with the top of the water guide structure 260, and the guide part 230 and the water guide structure 260 can be an integrally formed structure, which facilitates manufacturing and forming, and also enables the guide part 230 and the water guide structure 260 to be in uniform transition, so that the liquid entering the guide part 230 can flow into the drainage channel 240 and/or the water guide structure 260 in time.

Wherein, the contour line of the vertical direction at the guiding portion 230 of the rotating tub 210 may form a vertical line extending along the vertical direction, and may also form an inclined straight line extending from top to bottom gradually and obliquely outwards with respect to the vertical direction, and the contour line is in smooth transition connection with the contour line of the vertical direction at the water guiding structure 260 of the rotating tub 210, that is, the extending direction of the guiding portion 230 in the longitudinal direction is the same as the extending direction of the water guiding structure 260 in the longitudinal direction.

Because of the rotatory bucket 210 constructs into big-end-up's inverted circular truncated cone shape, the profile line of the upper and lower direction of the water guide structure 260 department of rotatory bucket 210 can form the vertical line that extends along the upper and lower direction, also can form the slope straight line that from top to bottom outwards extends gradually for the upper and lower direction, though guide portion 230 extends certain distance to the both sides of water guide structure 260 in the circumferencial direction, but the inner space top-down of water guide structure 260 is crescent, when can guarantee the dehydration, the liquid that rises because of the centrifugal force effect in the rotatory bucket 210 flows in from water inlet 221 very smoothly, flow out from delivery port 211, thereby improved dehydration efficiency and reduced the moisture content by the washing clothing, the dewatering time has been practiced thrift simultaneously.

As shown in fig. 1, a washing machine 1 according to an embodiment of the present invention includes a cabinet 100 and a rotary tub assembly 200 of the washing machine according to the above-described embodiment, the rotary tub assembly 200 being rotatably provided within the cabinet 100. It will be understood by those skilled in the art that the rotary tub assembly 200 for a washing machine implemented according to the present invention may be used for a single-tub washing machine 1 as well as for a double-tub washing machine 1, and the present invention is not limited thereto.

According to the washing machine 1 of the embodiment of the present invention, a single tub structure is adopted, that is, only the rotary tub 210 is provided, and the water tub is not provided, so that water is in the rotary tub 210 during washing, and water is saved; by further providing the water guide cover 220 on the inner peripheral wall surface of the rotary tub 210 and defining the drainage channel 240, water in the rotary tub 210 rises under the action of centrifugal force during dehydration and enters the drainage channel 240 from the water inlet 221, and flows down to the water outlet 211 under the guidance of the drainage channel 240, so as to be discharged through the water outlet 211, and thus, the dehydration effect can be improved while the water tub is cancelled to simplify the structure, improve the capacity, reduce the breeding of dirt and bacteria, and save water.

In some specific examples of the present invention, as shown in fig. 1, the washing machine 1 includes a cabinet 100, a rotary tub assembly 200, a pulsator 300, a water tray 400, a driving unit 500, and a support damper assembly 600.

The rotary tub 210 is provided on the support plate 502, and the pulsator 300 is rotatably provided in the rotary tub 210. The water pan 400 is disposed in the cabinet 100 and at least a portion of the water pan is located below the rotary tub 210, and the water pan 400 is used to support the rotary tub 210, and may be directly supported or indirectly supported.

In the present embodiment, a driving unit 500 is mounted on the water tray 400, for example, on a lower surface of the water tray 400, for driving at least one of the rotary tub 210 and the pulsator 300 to rotate. The driving unit 500 is provided with a driving shaft assembly 501 penetrating through the water pan 400 and connected and matched with the water pan 400, a supporting plate connected with the driving shaft assembly 501 is arranged between the water pan 400 and the rotary barrel 210, and the supporting plate is fixedly connected with the rotary barrel 210.

The drain passage 240 guides the liquid thrown out by the rotary tub 210 to the drip tray 400 through the water outlet 211. The water receiving tray 400 may have a water receiving tank 410 therein, and a drain port may be provided at the lowest position of the water receiving tank 410 for draining water, or the water receiving tray 400 may not have a drain port and may use a conduit or the like to lead out water in the water receiving tank 410. The support damper assembly 600 is installed in the cabinet 100 and connected to the drain pan 400.

Therefore, by arranging the water receiving tray 400, not only can the liquid discharged from the drainage channel 240 be contained, but also the driving unit 500 and the supporting and damping assembly 600 can be mounted on the water receiving tray 400, thereby realizing the functions of bearing the driving unit 500 and supporting the rotary barrel 210.

Further, the washing machine 1 further includes a balancing ring 270 for keeping the rotating tub 210 balanced when rotating, the balancing ring 270 is disposed at the upper end of the rotating tub 210 and connected to the upper end of the rotating tub 210, the upper end of the water guide cover 220 is adjacent to the balancing ring 270, and the upper end of the water guide cover 220 is spaced from the balancing ring 270, the gap may facilitate the installation of the water guide cover 220, and the water inlet 221 is disposed at the upper end of the water guide cover 220. Thus, the water inlet 221 is located below the balance ring 270 and spaced apart from the balance ring 270, so that when the rotary tub 210 rotates, water in the rotary tub 210 enters the water inlet 221 by centrifugal force, and then enters the water discharge passage 240. The upper end of the water guide cover 220 may also be connected to the balance ring 270 such that the balance ring 270 and the upper end of the water guide cover 220 define the water inlet 221, and when the rotary tub 210 rotates, water in the rotary tub 210 is easily introduced into the water inlet 221 by centrifugal force, and thus, into the drain passage 240.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Other configurations and operations of the washing machine 1 according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (15)

1. A rotary tub assembly of a washing machine, comprising:

the rotary drum is provided with a water guide structure which is arranged in a protruding manner towards the outer side of the rotary drum on the peripheral wall;

the water guide cover is arranged in the rotary barrel, a water drainage channel is defined by the water guide cover or the water guide cover and the rotary barrel together, a water inlet of the water drainage channel is positioned above a water outlet of the water drainage channel, liquid which rises due to the action of centrifugal force of the rotary barrel enters the water drainage channel through the water inlet and is discharged through the water outlet, wherein the lower edge of the water inlet is lower than the upper edge of the water guide structure,

the water guide structure is sequentially provided with a first water guide section, a middle water guide section and a second water guide section along the circumferential direction of the rotary barrel, and two ends of the middle water guide section are respectively in transitional connection with the first water guide section and the second water guide section.

2. The rotary tub assembly of a washing machine according to claim 1, wherein an upper portion of an inner wall surface of the rotary tub has a protrusion extending in a circumferential direction thereof, the rotary tub assembly further comprising a balance ring connected to the rotary tub and located above the protrusion,

the distance between the lower edge of the convex part and the lower edge of the water inlet is larger than the distance between the lower edge of the convex part and the upper edge of the water guide structure.

3. The rotary tub assembly of a washing machine according to claim 2, wherein a circumferential wall of the rotary tub is inwardly depressed to form a concave portion at an outer wall surface of the rotary tub and to form the convex portion at an inner wall surface of the rotary tub.

4. A rotary tub assembly of a washing machine according to claim 2, wherein a lower edge of the protrusion is transitionally connected to a partial arc adjacent to an inner wall surface of the rotary tub.

5. The rotary tub assembly of a washing machine according to any one of claims 1 to 4, wherein an upper edge of the water guide structure is transitionally connected along a partial arc adjacent to an inner wall surface of the rotary tub.

6. A rotary tub assembly of a washing machine according to any one of claims 1-4, characterized in that the inner diameter of the rotary tub is gradually increased from the bottom up.

7. A rotary tub assembly of a washing machine as claimed in any one of claims 1 to 4, characterized in that the water guide cover is provided at the water guide structure.

8. The rotary tub assembly of a washing machine according to claim 1, wherein the outer contour line of the cross-section of the intermediate water guide section forms an arc line centered at the center of the rotary tub.

9. The rotary tub assembly of a washing machine according to claim 8, wherein an inner diameter of any one place of the middle water guide section is not smaller than an inner diameter of a portion of the middle water guide section located above the place.

10. The rotary tub assembly of a washing machine according to claim 1, wherein a ratio of a length of a cross-sectional outer contour of the intermediate water guide section to a length of a cross-sectional outer contour of the water guide structure is gradually decreased from top to bottom in an up-down direction.

11. The rotary tub assembly of a washing machine according to claim 1, wherein the cross-sectional outer contour line of the first water guide section and/or the second water guide section forms an oblique line gradually extending toward the center of the rotary tub in a direction away from the intermediate water guide section.

12. The rotary tub assembly of a washing machine according to claim 1, wherein the first water guide section and the second water guide section are symmetrically arranged about a center line of the middle water guide section.

13. A rotating tub assembly of a washing machine as claimed in any one of claims 1 to 4, wherein the water inlet is provided at the water guide cover and the water outlet is provided at the water guide structure and/or the bottom wall of the rotating tub.

14. The rotary tub assembly of a washing machine according to any one of claims 1 to 4, wherein the water guide structure is a plurality of water guide structures arranged at intervals along a circumferential direction of the rotary tub, and the water guide cover is a plurality of water guide covers respectively arranged on the plurality of water guide structures in a one-to-one correspondence.

15. A washing machine, characterized by comprising:

a box body; and

the rotary tub assembly of the washing machine as claimed in any one of claims 1 to 14, the rotary tub assembly being rotatably provided in the cabinet.

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