CN213740130U - Water-stirring blade assembly and clothes treatment equipment with same - Google Patents

Abstract

The utility model relates to a clothing processing technology field specifically provides a water impeller subassembly and have this water impeller subassembly's clothing treatment facility. The utility model discloses aim at solving present water impeller process complicacy when balanced off-centre, the limited problem of effect. Mesh for this reason, the utility model discloses a water impeller subassembly includes body and lid, the body can be installed on the inner wall of washing barrel, the body forms airtight cavity with the lid lock each other, wherein, be provided with first baffle in the airtight cavity, first baffle separates into a plurality of chambeies that hold with airtight cavity, be provided with a plurality of interfaces on lid or the body, every interface and one hold the chamber intercommunication, so that outside water source passes through the interface and gets into the chamber that holds that corresponds or hold the water of intracavity and flow from the interface that corresponds. The utility model discloses a separate into a plurality of chambeies that hold with airtight cavity, like this when balanced off-centre, just can reach balanced off-centre purpose to corresponding intracavity water injection that holds through the interface of difference as required.

Description

Water-stirring blade assembly and clothes treatment equipment with same

Technical Field

The utility model relates to a clothing processing technology field specifically provides a water impeller subassembly and have this water impeller subassembly's clothing treatment facility.

Background

Along with the pace of life of people becoming faster, the convenience of washing machines is becoming more and more popular with people in daily life. Taking a drum washing machine as an example, when washing clothes, especially during spin-drying, the inner drum is eccentric due to random distribution of the clothes. When the eccentric quantity is great, the inner barrel and the outer barrel can collide, great vibration and noise are generated, the service life of the washing machine is influenced, and meanwhile the use experience of a user can be reduced. At present, a plurality of water-stirring blades are usually arranged on the inner side wall of an inner barrel along the circumferential direction, and when clothes are washed, water is injected into the water-stirring blades to achieve the purpose of balancing eccentricity.

However, only one chamber is usually arranged in the existing water-stirring vane, so that different water quantities need to be injected into different water-stirring vanes to balance the eccentricity when the eccentricity is balanced, the control process is complex, and the adjustment effect is limited.

Accordingly, there is a need in the art for a new solution to the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned problem among the prior art, to solving current water impeller process complicacy, the limited problem of effect when balanced off-centre promptly, the utility model provides a water impeller subassembly, water impeller subassembly includes body and lid, the body can be installed on the inner wall of washing bucket, the body with the lid lock forms airtight cavity each other, wherein, be provided with first baffle in the airtight cavity, first baffle will airtight cavity is separated into a plurality of chambeies that hold, the lid or be provided with a plurality of interfaces on the body, every the interface with one hold the chamber intercommunication to outside water source passes through the interface gets into to correspond hold the chamber or the water that holds the intracavity flows from corresponding the interface.

In a preferred technical scheme of the above water-stirring vane assembly, each accommodating cavity is further provided with a second partition plate, and each accommodating cavity is divided into a plurality of sub-cavities communicated with each other by the second partition plate.

In a preferred technical solution of the above water-repellent bucket assembly, the first partition plate and the second partition plate are disposed in parallel on the body; and/or the first and second partitions extend in a width direction of the body.

In a preferred technical solution of the above-mentioned water-stirring vane assembly, the cover body includes a base body, a connecting plate extends from an end of the base body to the body, and the plurality of ports are disposed on the connecting plate.

In a preferred technical solution of the above water-stirring vane assembly, the first partition plate is formed with a first notch at an outer edge close to the cover body, and two adjacent accommodating cavities are communicated with each other through the first notch.

In a preferred technical solution of the above water-repelling vane assembly, a second gap is formed on the outer edge of the second partition plate close to the cover, and two adjacent sub-cavities are communicated with each other through the second gap.

In the preferable technical scheme of the water-stirring vane assembly, a water guide groove is further arranged in the closed cavity, the water guide groove is connected with the cover body in a sealing manner to form a water flow channel, one end of the water flow channel is communicated with one of the connectors, and the other end of the water flow channel is communicated with one of the accommodating cavities.

In the preferred technical scheme of the above water-stirring vane assembly, the bottom of the water guide groove extends downwards along the length direction thereof to form a support plate, the first partition plate and the second partition plate are provided with slots at positions corresponding to the support plate, and the support plate is inserted into the slots.

In a preferred embodiment of the above water-repelling vane assembly, a distance is provided between the bottom of the slot and the body, so that a gap is provided between the bottom of the support plate and the bottom of the sealed chamber in an assembled state.

It can be understood by those skilled in the art that, in the technical solution of the present invention, the water-stirring blade assembly includes a body and a cover body, the body can be installed on the inner wall of the washing tub, so that the water-stirring blade assembly is also installed on the inner wall of the washing tub. The body and the cover body are buckled with each other to form a closed cavity, and the purpose of balancing the eccentricity of the washing barrel can be achieved by injecting water into the closed cavity. Be provided with first baffle in this airtight cavity, this first baffle separates into a plurality of chambeies that hold with this airtight cavity, is provided with a plurality of interfaces on lid or body, and every interface and one hold the chamber intercommunication, and outside water source can get into the corresponding chamber that holds, holds the water of intracavity and just can follow the interface outflow that corresponds through the interface. So, when the washing barrel high-speed rotation, when the part of washing barrel appeared eccentrically, just can reach balanced eccentric purpose through different interfaces to corresponding intracavity water injection that holds as required, when the rotational speed of washing barrel reduced, the eccentric volume of washing barrel reduced, and the water that holds the intracavity can flow from corresponding interface to it is eccentric to better balance washing barrel. Obviously, the plurality of accommodating cavities can be communicated with each other or not, and can be flexibly selected according to specific application occasions.

The utility model discloses an among the preferred technical scheme, every holds the intracavity and still is provided with the second baffle, and this second baffle can be separated into a plurality of sub-chambers that communicate each other with every chamber that holds, like this when the local off-centre of washing bucket, just can be according to actual demand with the water injection part sub-chamber that the intracavity was held in the injection, perhaps evenly disperse to each sub-chamber to can balance off-centre better.

Further, the first partition plate and the second partition plate are arranged on the body in parallel, so that the shape of the sub-cavity obtained by separating each accommodating cavity is approximately similar, and when the washing barrel rotates at a high speed, water in the accommodating cavity can be uniformly dispersed into the sub-cavities, so that eccentricity can be well balanced. Obviously, the first partition and the second partition may also be provided on the cover. In addition, the first partition plate and the second partition plate may not be parallel as long as each accommodating cavity can be divided into a plurality of sub-cavities which are communicated with each other. And/or, the first partition plate and the second partition plate extend along the width direction of the body, so that when eccentricity occurs at different positions in the axial direction of the washing tub, the eccentricity can be balanced by injecting water into different accommodating chambers and/or sub-chambers.

Furthermore, the cover body comprises a base body, the end part of the base body extends to the body to form a connecting plate, the plurality of interfaces are arranged on the connecting plate, and the connecting plate is opposite to the bottom surface of the washing barrel after the water stirring blade assembly is installed, so that the water inlet pipeline and the water outlet pipeline can be connected to each interface more conveniently.

Further, the first partition plate is provided with a first notch at the outer edge close to the cover body, two adjacent containing cavities are communicated with each other through the first notch, when the water level of one of the two containing cavities reaches the first notch, the water level overflows into the other containing cavity, so that water can be respectively injected into the corresponding containing cavity through one interface or one part of a plurality of interfaces, and then overflows into other containing cavities, or water can be respectively injected into the corresponding containing cavities through all the interfaces at the same time, but the water injection speed, the water injection amount and the like are different, when the eccentricity of the washing barrel is changed, more water in the containing cavities can overflow into the containing cavities with less water injection, and the like, so that the eccentricity can be balanced according to the actual situation. In addition, when one or some hold the chamber water injection, hold the air in the chamber and can get into another and hold the chamber through first breach, then discharge through the interface rather than the intercommunication, avoided the air to block up and hold the intracavity and the water injection that leads to is not smooth to just also can ensure going on smoothly of water injection.

Further, the second baffle is formed with the second opening in the outer fringe that is close to the lid, communicate each other through the second opening between two adjacent son cavities, when the water level of one in two son cavities reachs second opening department, will overflow to another son intracavity, when holding intracavity water injection through the interface to corresponding like this, will be full of water earlier in the son cavity that communicates with this interface, then overflow to other son intracavity, the water that the intracavity was held in the injection like this will concentrate in the son cavity with the interface intercommunication, just so can make limited water concentrate and act on eccentric department, thereby can balance off-centre more accurately.

Furthermore, a water chute is arranged in the closed cavity and is connected with the cover body in a sealing manner to form a water flow channel, one end of the water flow channel is communicated with one of the plurality of connectors, and the other end of the water flow channel is communicated with the plurality of accommodating cavities, so that an external water source can enter the accommodating cavities corresponding to the connectors through the connectors and the water flow channel.

Furthermore, the bottom of guiding gutter has the backup pad along its length direction downwardly extending, and first baffle and second baffle are provided with the slot in the position that corresponds to the backup pad, and the slot is located in the backup pad is inserted, just so can set up the guiding gutter in sealed cavity better. Preferably, have the distance between the bottom of slot and the body, under the state of assembling, also have the clearance between the bottom of backup pad and the body, the water that is located the subchamber of backup pad both sides just can communicate each other like this to can balance off-centre better.

The utility model discloses the second aspect still provides a clothing treatment facility, clothing treatment facility includes the washtub, dispose the aforesaid arbitrary scheme on the washtub the water impeller subassembly.

It should be noted that the clothes treatment apparatus has all the technical effects of the aforementioned water-repellent blade assembly, and will not be described herein again.

Drawings

The laundry treating apparatus of the present invention will be described with reference to the accompanying drawings in conjunction with a drum washing machine. In the drawings:

fig. 1 is an assembly view of a body and a cover of a water-repellent blade assembly of a drum washing machine according to an embodiment of the present invention;

fig. 2 is an exploded view of a water-repellent blade assembly of a drum washing machine according to an embodiment of the present invention;

fig. 3 is an exploded view of a water-repellent blade assembly of a drum washing machine according to an embodiment of the present invention;

fig. 4 is a first structural view of a body of a water-repellent blade assembly of a drum washing machine according to an embodiment of the present invention;

fig. 5 is a second structural view of the main body of the water-repellent blade assembly of the drum washing machine according to the embodiment of the present invention.

List of reference numerals:

1. a body; 11. a first separator; 111. a first gap; 112. a second slot; 12. a second separator; 121. a second gap; 122. a third slot; 13. mounting holes; 14. a first slot; 2. a cover body; 21. a substrate; 211. a butt joint structure; 22. a connecting plate; 221. a first interface; 222. a second interface; 31. a first accommodating chamber; 311. a first sub-cavity; 312. a second subchamber; 313. a third subchamber; 314. a fourth subchamber; 32. a second accommodating chamber; 321. a fifth subchamber; 322. a sixth subchamber; 323. a seventh sub-cavity; 4. a water chute; 41. an opening; 42. and a support plate.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. Although the present embodiment is described by taking a drum washing machine as an example, the present invention can also be applied to other types of clothes processing equipment such as clothes dryers, pulsator washing machines, washing and drying integrated machines, and other equipment requiring a filtering device.

It should be noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

First, the mode of installation of the water deflector assembly of the present invention will be described with reference to fig. 1, 2, and 3. Wherein, fig. 1 is an assembly view of the body and the cover of the water-repellent blade assembly of the drum washing machine of an embodiment of the present invention, fig. 2 is an explosion view of the water-repellent blade assembly of the drum washing machine of an embodiment of the present invention, and fig. 3 is an explosion view of the water-repellent blade assembly of the drum washing machine of an embodiment of the present invention.

As shown in fig. 1, 2 and 3 and according to the position shown in fig. 2, the drum washing machine includes a box body and an inner barrel disposed in the box body and used as a washing barrel, a plurality of water-stirring blade assemblies are distributed on the inner wall of the inner barrel along the circumferential direction, the water-stirring blade assemblies include a body 1 and a cover body 2, a plurality of mounting holes 13 are disposed at the bottom of the body 1, and the water-stirring blade assemblies can be fixedly disposed on the inner wall of the inner barrel in a manner of screw connection or clamping connection and the like through the mounting holes 13, so that the water-stirring blade assemblies are fixedly mounted on the inner wall of the inner barrel. The body 1 and the cover body 2 are buckled with each other to form a closed cavity, so that when the inner cylinder rotates at a high speed to generate eccentricity, the eccentricity can be balanced by injecting water into the closed cavity.

The utility model discloses a be provided with a first baffle 11 along its width direction (being the approximate horizontal direction in figure 2) on the body 1 of water impeller subassembly, this first baffle 11 has separated into the first chamber 31 that holds of below and the second chamber 32 that holds of top with airtight cavity. The lid 2 includes a base 21, a connection plate 22 extending from an end of the base 21 toward the main body 1, and a first connection port 221 and a second connection port 222 provided in the connection plate 22. The first interface 221 is communicated with the first accommodating cavity 31, the second interface 222 is communicated with the second accommodating cavity 32, an external water source can enter the corresponding accommodating cavity through the interfaces, and water in the accommodating cavity can also flow out from the corresponding interfaces. Therefore, when the inner barrel rotates at a high speed and the part of the inner barrel is eccentric, water can be injected into the corresponding accommodating cavity through one or two of the two interfaces according to needs, so that the aim of balancing eccentricity is fulfilled.

Obviously, the first interface 221 and the second interface 222 may also be disposed at other positions of the cover 2, such as on the base 21. Of course, the first interface 221 and the second interface 222 may also be disposed on the body 1, as long as an external water source can enter the first accommodating cavity 31 through the first interface 221, the second interface 222 enters the second accommodating cavity 32, water in the first accommodating cavity 31 can flow out from the first interface 221, and water in the second accommodating cavity 32 can flow out from the second interface 222, and a person skilled in the art can flexibly select the interfaces according to specific application scenarios.

Taking two water-stirring blade assemblies oppositely arranged on the inner wall of the inner barrel as an example, if the inner barrel deviates towards one of the water-stirring blade assemblies, water is injected into the other water-stirring blade assembly oppositely arranged, so that the purpose of balancing eccentricity is achieved. If the clothes are concentrated at one end of the inner drum, so that the inner drum deviates along the vertical direction, water is injected into the first accommodating cavity 31 or the second accommodating cavity 32 of the water-stirring blade assembly at the opposite end of the clothes, and the aim of balancing eccentricity is fulfilled.

Obviously, the body 1 may also be provided with a plurality of first partition boards 11, the sealed cavity may be divided into a plurality of accommodating cavities, and accordingly, the cover 2 or the body 1 is provided with ports having the same number as the accommodating cavities, so that each accommodating cavity can be communicated with the corresponding port, that is, an external water source enters the corresponding accommodating cavity through the port, and water in the accommodating cavity flows out from the corresponding port, which does not limit the number of the first partition boards 11 in this embodiment. Obviously, the first partition 11 may be provided on the lid body 2 as long as the sealed chamber can be divided into a plurality of accommodating chambers.

In this embodiment, as shown in fig. 2, the first partition 11 is formed with a first slit 111 at its highest position, i.e. at the outer edge away from the inner wall of the inner cylinder, so that the first receiving chamber 31 and the second receiving chamber 32 are communicated with each other, when the water level in one of the two accommodating cavities reaches the first gap 111, the water overflows to the other accommodating cavity, thus, water can be filled into the corresponding accommodating cavity through only one interface and then overflows to the other accommodating cavity, or the water can be injected into the corresponding accommodating cavities through the two interfaces at the same time, but the water injection speed, the water quantity and the like are different, when the eccentric quantity of inner tube changed, the more water that holds the intracavity of water injection can overflow to the less intracavity that holds of water injection, and so on, can be according to actual conditions balance inner tube off-centre to can balance the inner tube off-centre better. In addition, when holding the chamber water injection to one of them, the air that holds the intracavity can get into another and hold the chamber through first opening 111, then via the interface discharge rather than the intercommunication, avoided the air stifled hold the intracavity and the water injection that leads to is not smooth to just also can ensure going on smoothly of water injection. Obviously, the first receiving chamber 31 and the second receiving chamber 32 may also be communicated with each other by other means, such as providing a first through hole on the first partition 11, so that the water level of one of the first receiving chamber 31 and the second receiving chamber 32 can overflow to the other receiving chamber when the water level reaches the first through hole.

Those skilled in the art can understand that the two accommodating cavities may not be communicated with each other, and the same or different amounts of water may be respectively injected into the two accommodating cavities according to the eccentric amount of the inner cylinder, or only one of the two accommodating cavities is injected with water, etc., and those skilled in the art can flexibly select the water injection type according to the specific application scenario.

The specific arrangement of the first partition and the second partition in the sealed chamber of the water-repellent blade assembly of the present invention will be described with reference to fig. 2 to 5. Fig. 4 is a first structural view of the body of the water-repellent blade assembly of the drum washing machine according to the embodiment of the present invention, and fig. 5 is a second structural view of the body of the water-repellent blade assembly of the drum washing machine according to the embodiment of the present invention.

As shown in fig. 2 and according to the orientation shown in fig. 2, three second partition boards 12 are provided on the body 1 of the first accommodating chamber 31, two second partition boards 12 are provided on the body 1 of the second accommodating chamber 32, and the five second partition boards 12 extend along the width direction of the body 1 (i.e. the substantially horizontal direction in fig. 2) and are parallel to the first partition board 11, so that the shapes of the sub-chambers partitioned in each accommodating chamber are substantially similar, and when the washing tub rotates at high speed, the water in the accommodating chamber can be more uniformly dispersed into the sub-chambers, thereby better balancing the eccentricity. Obviously, the first partition plate 11 and the second partition plate 12 may not be parallel, as long as each accommodating cavity can be divided into a plurality of sub-cavities communicating with each other.

As shown in fig. 2, 4 and 5, the second partition plate 12 is provided with a second gap 121 at the highest position thereof, i.e. at the outer edge far away from the inner wall of the inner cylinder, so that the second partition plate 12 divides the first accommodating chamber 31 into four sub-chambers communicated with each other and divides the second accommodating chamber 32 into three sub-chambers communicated with each other, when the water level in one of the two adjacent sub-chambers reaches the second gap 121, the water overflows into the other sub-chamber, when the corresponding accommodating chamber is filled with water through the interface, the sub-chamber communicated with the interface is filled with water first and then overflows into the other sub-chambers, so that the water filled into the accommodating chamber is firstly concentrated in the sub-chamber communicated with the interface, and thus, limited water is concentrated on the eccentric position, and the eccentricity can be balanced more accurately. Obviously, the second partition 12 may be provided on the lid body 2 as long as it can divide the housing chamber into a plurality of sub-chambers communicating with each other. Obviously, the sub-chambers can also be communicated with each other by other means, such as providing a second through hole on the second partition plate 12, so that the water level of one of the two adjacent sub-chambers can overflow to the other sub-chamber when reaching the second through hole.

Taking the first accommodating chamber 31 as an example, according to the orientation shown in fig. 2, the three second partition plates 12 in the first accommodating chamber 31 divide the first accommodating chamber 31 into a first sub-chamber 311, a second sub-chamber 312, a third sub-chamber 313 and a fourth sub-chamber 314 from bottom to top, and the first sub-chamber 311 is communicated with the first interface 221. When water is injected into the first accommodating cavity 31 through the first connector 221, the water flow firstly enters the first sub-cavity 311, when the water level in the first sub-cavity 311 reaches the second gap 121 on the second partition plate 12 between the first sub-cavity 311 and the second sub-cavity 312, the water flow overflows from the first sub-cavity 311 to the second sub-cavity 312, when the water level in the second sub-cavity 312 reaches the second gap 121 on the second partition plate 12 between the second sub-cavity 312 and the third sub-cavity 313, the water flow overflows from the second sub-cavity 312 to the third sub-cavity 313, and then overflows from the third sub-cavity 313 to the fourth sub-cavity 314. When the eccentricity of the inner cylinder is small, the amount of water injected into the first accommodating chamber 31 is small, and the water is concentrated in the first sub-chamber 311 or the first sub-chamber 311 and the second sub-chamber 312, so that the eccentricity can be more balanced. When the eccentric volume of inner tube is great, the water yield of pouring into first holding chamber 31 is more, and this part of water will be full of in proper order according to first sub-chamber 311, second sub-chamber 312, third sub-chamber 313 and fourth sub-chamber 314, or only be full of partial sub-chamber, like first sub-chamber 311, second sub-chamber 312 and third sub-chamber 313, etc. the water that gets into first holding chamber 31 like this will concentrate on the tip of dialling the water vane subassembly at first, can play balanced eccentric effect rapidly to can balance off-centre better. Likewise, the two second partitions 12 in the second accommodation chamber 32 divide the second accommodation chamber 32 into a fifth sub-chamber 321, a sixth sub-chamber 322, and a seventh sub-chamber 323 from top to bottom.

Referring to fig. 2, 3 and 4, according to the orientation shown in fig. 2, a water chute 4 is further disposed in the sealed chamber, a butt joint structure 211 extends downwards along the length direction of the water chute 4 at a position of the cover body 2 corresponding to the water chute 4, the butt joint structure 211 abuts against the side portion of the wall of the water chute 4, and in an assembled state, the butt joint structure 211 is located at the outer side of the wall of the water chute 4, so that the water chute 4 can be hermetically connected with the cover body 2 through the butt joint structure 211, and water in the water chute 4 cannot overflow to other positions in the sealed chamber at will. The water chute 4 is connected with the cover body 2 in a sealing manner to form a water flow channel, one end of the water flow channel is communicated with the second connector 222, an opening 41 is formed at the fifth sub-cavity 321 of the second accommodating cavity 32 at the other end of the water flow channel, namely, the other end of the water flow channel is communicated with the second accommodating cavity 32, so that an external water source can enter the water flow channel through the second connector 222, then enter the fifth sub-cavity 321 through the water flow channel, and when the water level in the fifth sub-cavity 321 reaches the second gap 121 between the fifth sub-cavity 321 and the sixth sub-cavity 322, the water overflows from the fifth sub-cavity 321 to the sixth sub-cavity 322, and so on, and overflows from the sixth sub-cavity 322 to the seventh sub-cavity 323.

As shown in fig. 2 and 4 and according to the orientation shown in fig. 4, a support plate 42 extends downwards in the water chute 4 along the length direction thereof, the support plate 42 extends from left to right along the center line of the body 1, first slots 14 are respectively formed at the middle positions of the two ends of the body 1, second slots 112 are respectively formed at the middle positions of the first partition plates 11, third slots 122 are respectively formed at the middle positions of the second partition plates 12, and the support plate 42 is inserted into the first slots 14, the second slots 112 and the third slots 122, so that the water chute 4 is fixedly arranged in the sealed chamber.

As shown in fig. 2, 4 and 5 and oriented as shown in fig. 2, each subchamber is divided into left and right portions by the support plate 42. In this example, a certain distance is provided between the bottom end of the second slot 112 and the body 1, so that, in an assembled state, a gap is also provided between the bottom of the support plate 42 and the body 1, so that two parts of the sub-cavities located at the left and right sides of the support plate 42 are communicated with each other, and a water inlet and a water outlet are not required to be separately provided for the sub-cavities located at the two sides of the support plate 42, so that the eccentricity can be better balanced.

In conclusion, the utility model discloses an among the preferred technical scheme, the leaf subassembly of dialling passes through body 1 fixed mounting on the inner wall of inner tube, and body 1 and lid 2 lock each other form the airtight cavity that can the water storage to can reach the eccentric purpose of balanced washing bucket through the water injection to this airtight cavity. Be provided with in the airtight cavity and separate into a plurality of first baffles 11 that hold the chamber with airtight cavity, lid 2 or body 1 on be provided with each a plurality of interfaces that hold the chamber and communicate respectively, can pour into the corresponding chamber that holds of outside water source into through the interface like this, hold the water of intracavity and also can follow the interface outflow that corresponds to also can be according to actual need balance eccentricity. Every holds the intracavity and still is provided with the second baffle 12 that can separate into the sub-chamber of a plurality of intercommunications each other with every chamber that holds to just can hold the water injection target sub-chamber of intracavity according to actual demand with the injection, or evenly disperse to each sub-chamber, thereby can balance off-centre better.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims of the present invention, any of the claimed embodiments may be used in any combination.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. A water-stirring vane component is characterized by comprising a body and a cover body, wherein the body can be arranged on the inner wall of a washing barrel, the body and the cover body are mutually buckled to form a closed cavity,

wherein a first clapboard is arranged in the closed cavity and divides the closed cavity into a plurality of accommodating cavities,

the cover body or the body is provided with a plurality of interfaces, each interface is communicated with one accommodating cavity, so that an external water source enters the corresponding accommodating cavity through the interface or water in the accommodating cavity flows out of the corresponding interface.

2. The paddle assembly of claim 1, wherein a second partition is further disposed within each of the receiving chambers, the second partition dividing each of the receiving chambers into a plurality of sub-chambers in communication with one another.

3. The paddle assembly of claim 2, wherein the first and second baffles are disposed in parallel with the body; and/or

The first partition and the second partition extend in a width direction of the body.

4. The paddle assembly of claim 2, wherein the cover includes a base, a connecting plate extending from an end of the base toward the body, and a plurality of the ports are disposed in the connecting plate.

5. The water impeller assembly as claimed in claim 1, wherein the first partition plate is formed with a first slit near an outer edge of the cover body, and adjacent two of the accommodating chambers are communicated with each other through the first slit.

6. The water paddle assembly of claim 2, wherein the second partition plate is formed with a second gap near the outer edge of the cover, and two adjacent sub-cavities are communicated with each other through the second gap.

7. The water impeller assembly as recited in claim 3, wherein a water guiding groove is further disposed in the sealed chamber, the water guiding groove is connected to the cover in a sealing manner to form a water flow channel, one end of the water flow channel is connected to one of the connectors, and the other end of the water flow channel is connected to one of the accommodating chambers.

8. The water impeller assembly as claimed in claim 7, wherein a support plate extends downward from the bottom of the water guide channel along the length direction of the water guide channel, and the first partition plate and the second partition plate are provided with insertion slots at positions corresponding to the support plate, and the support plate is inserted into the insertion slots.

9. The paddle assembly of claim 8, wherein the bottom of the slot is spaced from the body to facilitate removal of the paddle assembly from the body

In an assembled state, a gap is formed between the bottom of the support plate and the bottom of the closed chamber.

10. A laundry treating apparatus, characterized in that the laundry treating apparatus comprises a washing tub, on which the water paddle assembly of any one of claims 1-9 is disposed.

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