CN115736782A - Non-wave wheel shoe washing machine - Google Patents

Abstract

The invention relates to the technical field of washing equipment, in particular to a pulsator-free shoe washing machine, and aims to solve the problems that the existing shoe washing machine is poor in shoe washing effect and shoe washing efficiency or easily wears shoes during shoe washing. The upper shoe washing component is arranged on the upper part of the washing barrel, so that shoes can be floated to the area where the upper shoe washing component is located by the aid of buoyancy of washing water and can be rubbed with the upper shoe washing component when the shoes are washed, the shoes can be washed under the common friction action of the upper shoe washing component and the washing water, the shoes can be reliably rubbed or contacted with the upper shoe washing component through the buoyancy of the washing water to wash the shoes, the brushing force of the upper shoe washing component can be buffered by the aid of the washing water, the friction washing effect of the upper shoe washing component is softened, and meanwhile, the limitation of the existing shoe washing machine on the shapes of the washable shoes is overcome by the mode that the shoes are allowed to float automatically when the shoes are washed, so that the pulsator-free shoe washing machine disclosed by the invention is more suitable for the requirements of multiple-style shoe shuffling in daily life.

Description

Non-wave wheel shoe washing machine

Technical Field

The invention relates to the technical field of washing equipment, and particularly provides a pulsator-free shoe washing machine.

Background

The shoe washing machine is a household appliance capable of washing shoes according to the cleaning requirements of the shoes. The existing shoe washing machine mainly comprises a wave wheel shoe washing machine and a spray type shoe washing machine. The impeller is arranged at the bottom of a washing barrel of the impeller shoe washing machine, the impeller is provided with a brush, when shoes are washed, the shoes are freely put into the washing barrel, and the impeller can drive the brush to rotate while stirring washing water and the shoes, so that the shoes are washed by the double functions of brushing and stirring. A shoe rack is arranged in a washing cavity of the spray type shoe washing machine, a spray component is arranged near the shoe rack, when the shoes are washed, the shoes are fixed on the shoe rack, and the spray component can spray water flow towards the shoes to wash the shoes.

The two types of shoe washing machines have the disadvantages that: shoes can because the buoyancy effect of washing water come-up, keep away from the brush that sets up in the scrubbing bucket bottom when the shoes are washed to the impeller shoe washing machine, and the contact frequency of shoes and brush is low, and the shoe washing effect is poor, and can lead to shoes to pile up in the impeller top for a long time when weakening washing water buoyancy through the mode that reduces the inflow, and the vamp is very easily worn and torn after being stirred for a long time by the impeller. In addition, the setting of impeller still can lead to when washing shoes the card to put the shoelace, use the inconvenient clearance scheduling problem of sediment accumulation in the impeller bottom. When the spray type shoe washing machine washes shoes, the cleaning effect of the spray water flow on the dirt on the vamps is poor, and the shoe washing effect and the shoe washing efficiency are not good.

Accordingly, there is a need in the art for a new pulsator-free shoe washing machine to solve the above problems.

Disclosure of Invention

The invention aims to solve the technical problems, namely, the problems that the shoe washing effect and the shoe washing efficiency of the existing shoe washing machine are poor or shoes are easy to wear when being washed are solved.

The invention provides a pulsator-free shoe washing machine which comprises a box body, a washing barrel and a driving motor, wherein the washing barrel is vertically arranged in the box body, the driving motor is used for driving the washing barrel to rotate, the pulsator-free shoe washing machine further comprises an upper shoe washing component arranged at the upper part of the washing barrel, and the upper shoe washing component is downwards arranged and can be driven by the washing barrel to rotate so as to rub or contact shoes which freely float in washing water under the condition of shoe washing.

In a preferred embodiment of the pulsator-less shoe washing machine, the washing tub is a single-layered water tub, and the upper shoe washing member is connected to a top of the water tub.

In a preferred technical solution of the above-mentioned pulsator-less shoe washing machine, the washing tub includes an outer tub vertically disposed in the casing and an inner tub disposed in the outer tub, the driving motor can drive the inner tub to rotate, and the upper shoe washing member can be driven by the inner tub to rotate.

In a preferred technical scheme of the pulsator-free shoe washing machine, the upper shoe washing component is fixedly connected to the top of the inner barrel, and a gap capable of throwing in shoes is formed between the upper shoe washing component and the edge of the top of the inner barrel.

In a preferred technical scheme of the pulsator-free shoe washing machine, the pulsator-free shoe washing machine further comprises a balance ring arranged at a barrel opening of the inner barrel, a limit bulge positioned below the balance ring is arranged on the inner wall of the inner barrel, and the upper shoe washing component is arranged at the top of the inner barrel in a manner of being clamped between the limit bulge and the balance ring.

In the preferable technical scheme of the pulsator-free shoe washing machine, a first connecting structure is arranged at the top of the inner barrel, a second connecting structure matched with the first connecting structure is arranged on the upper shoe washing component, and the first connecting structure and the second connecting structure can be clamped or matched in an inserting mode.

In a preferred technical solution of the above pulsator-free shoe washing machine, an inner tub cover is provided at the top of the inner tub, the upper shoe washing member is provided on the inner tub cover, and the upper shoe washing member is located at the top of the inner side of the inner tub in a state that the inner tub cover is closed.

In a preferred technical solution of the pulsator-less shoe washing machine, an outer tub cover is disposed on a top of the outer tub, the upper shoe washing member is rotatably connected to the outer tub cover, a first rotation limiting structure is disposed on a top of the inner tub, a second rotation limiting structure matched with the first rotation limiting structure is disposed on the upper shoe washing member, the upper shoe washing member is located on a top of an inner side of the inner tub when the outer tub cover is closed, and the first rotation limiting structure and the second rotation limiting structure are matched with each other.

In the above preferred technical solution of the pulsator-less shoe washing machine, the first rotation limiting structure is a clamping groove provided at the top of the inner tub, the second rotation limiting structure is a clamping end provided on the upper shoe washing member, and the clamping end is clamped in the clamping groove when the outer tub cover is closed.

In a preferred embodiment of the pulsator-less shoe washing machine, the upper shoe washing member includes a main body and bristles provided on the main body, the main body includes a first portion and a second portion connected to each other, a connection position of the first portion and the second portion is located at a rotation center of the upper shoe washing member, and height dimensions of the bristles on the first portion and the second portion are gradually increased along a rotation direction.

As can be understood by those skilled in the art, the pulsator-less shoe washing machine of the present invention is provided with an upper shoe washing member at the upper portion of the washing tub so that shoes can be washed by floating force of washing water applied thereto to the area of the upper shoe washing member and rubbing against the upper shoe washing member, thereby washing the shoes under the combined rubbing action of the upper shoe washing member and the washing water. Compared with the existing shoe washing machine, on one hand, the high-water-level washing water generated when the non-impeller shoe washing machine washes shoes can generate great buoyancy on the shoes, the buoyancy can support the shoes to be reliably rubbed or contacted with the upper shoe washing component, hard friction between the upper shoe washing component and the shoes can be avoided, the brushing force of the upper shoe washing component is buffered, the friction washing effect of the upper shoe washing component is softened, the effective brushing capacity of the upper shoe washing component on the shoes is kept, and the shoes can be prevented from being obviously abraded after being brushed.

On the other hand, shoes are scrubbed repeatedly by upper portion shoes washing component under free floating's the condition, can avoid upper portion shoes washing component to the shoes scrub the angle and scrub regional singleness fixed for sticky stubborn dirt is changeed and is peeled from a plurality of friction angles on the shoes, and does not have the washing dead angle on the shoes, has promoted the shoes washing flexibility and the shoes washing high efficiency of upper portion shoes washing component.

Moreover, the non-wave wheel shoe washing machine does not need to restrict shoes in the washing barrel when washing shoes, all types of shoes can be put in the washing barrel for washing, the types of the washable shoes are more comprehensive, the non-wave wheel shoe washing machine is more suitable for the washing environment in which a user can shuffle multiple types of shoes in daily life, the practicability of the non-wave wheel shoe washing machine is improved, and the use experience of the user is better.

In addition, the impeller is not required to be arranged in the washing barrel of the non-impeller shoe washing machine, so that silt and impurities at the bottom of the washing barrel are more easily brought out by washing water during drainage, and the shoes cannot be clamped by the impeller when moving freely in the washing barrel.

Drawings

Preferred embodiments of the present invention are described below with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view illustrating the construction of a pulsator-less shoe washing machine in accordance with a first embodiment of the present invention;

FIG. 2 is a schematic structural view of a pulsator-less shoe washing machine in a first scenario of a second embodiment of the present invention;

FIG. 3 is a schematic structural view illustrating a third embodiment of a pulsator-free shoe washing machine in a state in which shoes can be thrown;

fig. 4 is a schematic structural view of a pulsator-free shoe washing machine in an operating state according to a third embodiment of the present invention.

In the drawings:

1. a box body; 2. a washing tub; 21. an outer tub; 211. an outer barrel cover; 22. an inner barrel; 221. a balance ring; 2211. a card slot; 222. a limiting bulge; 3. a drive motor; 4. an upper shoe washing member.

Detailed Description

It will be understood by those within the art that in describing the present invention, terms of direction or positional relationship indicated by the terms "upper", "lower", "inner", "outer", etc., are based on the directions or positional relationships shown in the drawings, which are for convenience of description only, and do not indicate or imply that the device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

It should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1, the pulsator-less shoe washing machine of the present invention includes a cabinet 1, a washing tub 2, a driving motor 3, and an upper shoe washing member 4. Washing barrel 2 is along vertical setting in box 1, and washing barrel 2's outer bottom is provided with and drives its pivoted driving motor 3, and washing barrel 2's inside is formed with the washing space that can splendid attire washing water and shoes, does not set up the mechanism that is used for fixed or restriction shoes to remove in this washing space to the shoes of putting in the washing space can freely hold in the washing space, and washing barrel 2's interior bottom does not set up the impeller yet. The top of the box body 1 is provided with a putting-in opening and an upper cover capable of closing/opening the putting-in opening corresponding to the position of the opening of the washing barrel 2, and a user can open/close the upper cover to put in or take out shoes. The upper shoe washing member 4 is disposed downward and at an upper portion of the washing space, such as at a top or middle upper portion of the washing space, and the upper shoe washing member 4 can be driven by the washing tub 2 to be rotated in synchronization with the washing tub 2, so that the upper shoe washing member 4 can rub or contact shoes which are free to float in the washing water during the washing process.

In the above embodiment, in the case of washing shoes, the washing tub 2 is filled with washing water, and after the water is completely filled, at least the downwardly disposed rubbing shoe washing portion of the upper shoe washing member 4 can be immersed in the washing water, or the rubbing shoe washing portion of the upper shoe washing member 4 can be brought close to the liquid surface of the washing water, so that the shoes can come into contact with the rubbing shoe washing portion of the upper shoe washing member 4 after floating up. After washing is started, the shoes in the washing tub 2 can approach the upper shoe washing member 4 by virtue of buoyancy of the washing water, the driving motor 3 drives the washing tub 2 to rotate, and the upper shoe washing member 4 is driven to rotate while the washing water and the shoes are stirred, so that the shoes can move relative to the upper shoe washing member 4 and are rubbed and washed by the upper shoe washing member 4. In the washing process of the shoes, the shoes have a tendency of sinking and moving by virtue of the self gravity and the acting force applied when the shoes are rubbed or contacted by the upper shoe washing component 4, and can be close to the upper shoe washing component 4 again by virtue of the buoyancy of the washing water after the acting force applied by the upper shoe washing component 4 disappears, so that the shoes can repeatedly contact the upper shoe washing component 4 through different positions at different angles, and all the positions are washed by the upper shoe washing component 4. During this period, when the shoes float upwards to the position of the upper shoe washing component 4 each time, the buoyancy of the washing water can support the shoes to be scraped or rubbed by the upper shoe washing component 4, the buoyancy of the washing water applied on the shoes can support the shoes to be gently abutted to the upper shoe washing component 4, so that the shoes are in flexible contact with the upper shoe washing component 4, the shoes are prevented from being hard rubbed by the upper shoe washing component 4, the shoes can be reliably washed by the upper shoe washing component 4 by virtue of the upward floating trend, and the worn degree of the shoes during washing is greatly reduced under the condition of ensuring the good washing effect of the shoes.

In the above description, the shape and the installation position of the upper shoe washing member 4 are not limited. The upper shoe washing member 4 may be any one of shoe washing members capable of rubbing and washing shoes, such as a shoe washing brush provided with a brush structure, a frictional shoe washing member provided with a frictional protrusion structure, and the like. When the upper shoe washing member 4 is disposed in the washing tub 2, the upper shoe washing member 4 may be disposed above a shoe moving space in the washing tub 2, for example, the upper shoe washing member 4 may be disposed at an inner top of the washing tub 2, or may be disposed at an upper position in the middle of the washing tub 2, as long as a space allowing the shoes to freely turn over and float up and down is allowed to be reserved below the disposed position of the upper shoe washing member 4.

With continued reference to fig. 1, in the first embodiment of the present invention, the upper shoe washing member 4 is positioned to contact the upper surface of the washing water during the washing process, so as to rub or contact the shoes floating to the water surface within the washing tub 2 during the washing process. The upper shoe washing member 4 has a washing range substantially covering a level of the washing water, such as at least a portion of the upper shoe washing member 4 is disposed in a radial direction of the washing tub 2, or the upper shoe washing member 4 is a disc-shaped shoe washing member having a size matched with an inner diameter of the washing tub 2, so that the upper shoe washing member 4 can wash any one of shoes floating on an upper portion of the washing water after the upper shoe washing member 4 is rotated. In the present embodiment, the washing tub 2 is a single-layered tub rotatably provided in the cabinet 1, and the upper shoe washing member 4 is connected to the top of the tub so as to be rotated by the tub.

In the above embodiment, the specific connection position of the upper shoe washing member 4 on the tub is not limited, and specifically, the upper shoe washing member 4 may be directly connected to the top of the tub, for example, the upper shoe washing member 4 is directly connected to the top edge of the tub or the upper portion of the inner side wall of the tub, or may be indirectly connected to the top of the tub through the remaining connection members, for example, the top of the tub is provided with the balancing ring 221, the upper shoe washing member 4 is connected to the balancing ring 221, and is indirectly connected to the tub through the balancing ring 221, or the top of the tub is provided with an inner lid, which is detachably connected to the top of the tub in a pivoting manner, or a snap, insertion, or the like, the upper shoe washing member 4 is provided on the inner lid, and is connected to the tub through the inner lid, and in a state where the inner lid is closed, the frictional shoe washing portion of the lower side of the upper shoe washing member 4 is located on the inner top of the tub.

Further, the connection manner of the upper shoe washing member 4 and the tub is not limited. The upper shoe washing member 4 may be fixedly connected to the water tub, or may be detachably connected to the water tub by means of clamping, inserting, screwing, or the like. In the case where the upper shoe washing member 4 is non-detachably provided at the top of the tub, the upper shoe washing member 4 may be shaped to: in a state where the upper shoe washing member 4 is mounted on top of the tub, a gap capable of throwing in shoes is provided between the upper shoe washing member 4 and the top edge of the tub so as to allow shoes to be thrown into the tub from beside the upper shoe washing member 4, such as providing the main body shape of the upper shoe washing member 4 in a bar shape.

As shown in fig. 2, in the second embodiment of the present invention, unlike the first embodiment, the washing tub 2 is a double-layered tub, and specifically, the washing tub 2 includes an outer tub 21 vertically disposed in the cabinet 1 and an inner tub 22 coaxially rotatably disposed in the outer tub 21, the driving motor 3 is disposed at an outer bottom of the outer tub 21 and connected to the inner tub 22 so as to drive the inner tub 22 to rotate, and the upper shoe washing member 4 is disposed to be rotated by the inner tub 22. Specifically, the upper shoe washing member 4 is connected to the top of the inner tub 22 so as to be rotated synchronously by the inner tub 22.

As a possible example, the upper shoe washing member 4 is fixedly connected to the top of the inner tub 22, and the upper shoe washing member 4 is shaped to: in a state where the upper shoe washing member 4 is mounted on the top of the tub, a gap capable of throwing in shoes is provided between the upper shoe washing member 4 and the top rim of the tub so as to allow shoes to be thrown into the tub from beside the upper shoe washing member 4.

As another possible example, the upper shoe washing member 4 is detachably connected to the top of the inner tub 22, for example, the top of the inner tub 22 is provided with a first connection structure, and the upper shoe washing member 4 is provided with a second connection structure matched with the first connection structure, and the first connection structure and the second connection structure can be snap-fitted or plug-fitted. The specific structure of the first connecting structure and the second connecting structure can be set by those skilled in the art according to the actual connecting requirement. For example, the first connection structure may be a plurality of slots 2211 disposed at the top edge of the inner tub 22 or at the upper side of the balancing ring 221 at the top of the inner tub 22, the second connection structure may be a locking end disposed at the upper shoe washing member 4 and capable of being locked in the slots 2211, or the first connection structure may be a plurality of slots disposed at the top edge of the inner tub 22 or at the upper side of the balancing ring 221 at the top of the inner tub 22, and the second connection structure may be a locking protrusion disposed at the upper shoe washing member 4 and capable of being locked in the slots. Of course, besides the connection structure which is easy to be disassembled and assembled, such as a snap connection or a plug connection, the first connection structure and the second connection structure may be a combination of other detachable connection structures, for example, the first connection structure may be a plurality of screw holes disposed on the top edge of the inner barrel 22 or on the upper side of the balance ring 221 on the top of the inner barrel 22, and the second connection structure may be a through hole disposed on the upper shoe washing component 4 and capable of allowing the fixing knob to pass through, so that the fixing knob passes through the upper shoe washing component 4 and is screwed to the top of the inner barrel 22 to limit the upper shoe washing component 4 from moving relative to the inner barrel 22.

Continuing to refer to fig. 2, in addition to the above example, in the first scenario of the present embodiment, the upper shoe washing member 4 is fixed to the top of the inner tub 22 by the remaining mounting members. Specifically, the balancing ring 221 at the top of the inner tub 22 is detachably disposed, at least two limiting protrusions 222 are circumferentially disposed on the upper portion of the inner sidewall of the inner tub 22, and the limiting protrusions 222 are located below the mounting position of the balancing ring 221, so that the upper shoe washing member 4 can be mounted on the top of the inner tub 22 by being sandwiched between the limiting protrusions 222 and the balancing ring 221. In this case, if the upper shoe washing member 4 is not pressed by the balance ring 221 after being mounted, a rotation limiting structure may be additionally provided between the limiting protrusion 222 or the sidewall of the inner tub 22 and the upper shoe washing member 4, for example, a locking groove 2211 capable of allowing the upper shoe washing member 4 to be locked is additionally provided on the limiting protrusion 222, so that the upper shoe washing member 4 can be driven by the inner tub 22 to rotate synchronously. If the upper shoe washing member 4 can be pressed by the gimbal 221 after being mounted, a rotation limiting structure is not required.

In the second scenario of the present embodiment, the top of the inner tub 22 is provided with an inner tub 22 cover, and the above-mentioned shoe washing member is mounted to the top of the inner tub 22 through the inner tub 22 cover. Specifically, the inner tub 22 cover is detachably connected to the top of the inner tub 22 in a pivot manner or in a snap, insertion, etc., the upper shoe washing member 4 is provided at the lower side of the inner tub 22 cover, connected to the inner tub 22 through the inner tub 22 cover, and the frictional shoe washing portion of the lower side of the upper shoe washing member 4 is located at the inner top of the inner tub 22 in a state where the inner tub 22 cover is closed.

As shown in fig. 3 and 4, in the third embodiment of the present invention, the upper shoe washing member 4 is not provided on the inner tub 22, but can be rotated by the inner tub 22. Specifically, an outer tub cover 211 is disposed on the top of the outer tub 21, the outer tub cover 211 is pivotally connected to the top edge of the outer tub 21, or the outer tub cover 211 is in snap-fit/plug-fit with the top edge of the outer tub 21, the upper shoe washing member 4 is rotatably connected to the lower side of the outer tub cover 211, a first rotation limiting structure is disposed on the top of the inner tub 22, a second rotation limiting structure matched with the first rotation limiting structure is disposed on the upper shoe washing member 4, in a state that the outer tub cover 211 is closed to the top of the outer tub 21, the upper shoe washing member 4 is located at a position where it can contact with the upper surface of the washing water during the washing process, the upper shoe washing member 4 is located at the top of the inner tub 22, and the first rotation limiting structure and the second rotation limiting structure are matched, so as to limit the relative rotation of the upper shoe washing member 4 and the inner tub 22. Before washing shoes, a user can open or detach the outer tub cover 211 to put in shoes, and when washing shoes, the upper shoe washing member 4 and the inner tub 22 are restricted from relative rotation and the upper shoe washing member 4 can rotate relative to the outer tub cover 211, the driving motor 3 drives the inner tub 22 to rotate to drive the upper shoe washing member 4 to rotate synchronously (see the example structure of fig. 3 and 4).

As an example, the first rotation limiting structure is a plurality of catching grooves 2211 provided on the top edge of the inner tub 22 (the top edge is exposed when the balancing ring 221 is not provided) or the balancing ring 221 on the top of the inner tub 22, the second rotation limiting structure is a catching end provided on the upper shoe washing member 4, in a state that the outer tub cover 211 is closed to the top of the outer tub 21, the upper shoe washing member 4 is positioned on the top of the inner tub 22, and the catching end on the upper shoe washing member 4 is caught in the catching grooves 2211, so that the first rotation limiting structure and the second rotation limiting structure can be assembled together with the closing of the outer tub cover 211.

In the fourth embodiment of the present invention, the washing tub 2 may be any one of a water tub and a double-layered tub, the upper shoe washing member 4 is not provided on the washing tub 2 but rotatably connected to the inside of the upper cover of the cabinet 1, and a rotation restricting structure is provided between the upper shoe washing member 4 and the water tub or the inner tub 22, so that in a state where the upper shoe washing member 4 is at the top of the washing tub 2 when the upper cover is closed, the upper shoe washing member 4 can be rotated by the water tub or the inner tub 22 by being restricted from relative rotation between the rotation restricting structure and the water tub and the inner tub 22.

For any of the above embodiments, preferably, the inner bottom of the tub or inner tub 22 may be further provided with a lower shoe washing member, such as a shoe washing brush provided at the bottom of the tub or inner tub 22 or at a lower portion of the sidewall. When shoes move down to the bottom of the barrel with the help of the friction of the upper shoe washing component 4 or the action of touching, the shoe washing brush located below can rub and wash the shoes, and the shoes are enabled to float up to contact the upper shoe washing component 4 more quickly through the friction or the action of touching while the shoes are cleaned by the upper shoe washing component 4, so that the washing effect and the washing efficiency of the shoes are optimized.

Preferably, a water-stirring member may be further provided on an inner side wall of the tub or inner tub 22 so as to better stir the washing water and the shoes when the tub or inner tub 22 is rotated, to increase a movement frequency of the shoes in the washing tub 2, and to enhance a washing effect and washing efficiency of the shoes.

Preferably, the upper shoe washing member 4 includes a main body including a first portion and a second portion connected to each other, and bristles provided on an underside of the main body, each of the bristles having a height dimension gradually increasing in a rotation direction. For example, when the body has a long and straight bar shape, two halves of the bar-shaped body are a first part and a second part, respectively, with the middle of the bar-shaped body as a division reference, and the middle of the bar-shaped body is a rotation center of the body. Setting one long side of the bar-shaped body as a first side and the other long side as a second side, if the first side of the first portion is located in front of the second side and the first side of the second portion is located behind the second side in the case of clockwise or counterclockwise rotation of the bar-shaped body, the height size of the bristles of the lower side of the first portion is gradually increased from the first side to the second side and the height size of the bristles of the lower side of the second portion is gradually increased from the second side to the first side. Through the setting, the stirring capacity of the upper shoe washing component 4 can be further improved, the friction washing performance of the upper shoe washing component 4 during shoe friction is optimized, the friction time of the upper shoe washing component 4 during contact with shoes is prolonged, and the shoe washing effect and the shoe washing efficiency are further improved. Of course, the shape of the main body is not limited to a strip shape, and a person skilled in the art can set the specific shape of the main body according to washing requirements, the shapes of the first part and the second part can be the same or different, and the included angle between the first part and the second part can be 180 ° or any other angle. For example, when the main body is V-shaped, the two branches of the V-shaped main body are respectively a first part and a second part, the intersection point of the V-shaped main body is the rotation center of the main body, and the height of the bristles on the two branches of the V-shaped main body is gradually increased along the rotation direction.

In conclusion, the upper shoe washing component 4 capable of rubbing and washing shoes is arranged on the upper part of the washing barrel 2 of the pulsator-free shoe washing machine, and the upper shoe washing component 4 can rub and wash shoes which float freely in washing water, so that the rubbing angle is increased, the overall washing effect of the shoes is optimized, the abrasion degree of the washed shoes is reduced, and the limitation of the existing shoe washing machine on the shape of the washable shoes during the process of fixing the shoes for washing is overcome.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is apparent to those skilled in the art that the scope of the present invention is not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (10)

1. A non-impeller shoe washing machine comprises a box body, a washing barrel vertically arranged in the box body and a driving motor used for driving the washing barrel to rotate, and is characterized in that,

the pulsator-free shoe washing machine further comprises an upper shoe washing member provided at an upper portion of the washing tub, the upper shoe washing member being downwardly disposed and provided to be rotated by the washing tub so as to rub or contact shoes freely floating in washing water in a shoe washing state.

2. The pulsator without washing machine, according to claim 1, wherein the washing tub is a single-layered tub, and the upper washing member is connected to a top of the tub.

3. The pulsator without footwear washing machine as claimed in claim 1, wherein the washing tub comprises an outer tub vertically disposed in the cabinet and an inner tub disposed in the outer tub, the driving motor being capable of driving the inner tub to rotate, the upper footwear washing member being capable of being rotated by the inner tub.

4. The pulsator without footwear washing machine as claimed in claim 3, wherein the upper shoe washing member is fixedly connected to a top of the inner tub, and a gap capable of putting shoes is provided between the upper shoe washing member and a top rim of the inner tub.

5. The pulsator without washing shoes machine as claimed in claim 3, further comprising a balancing ring disposed at a tub opening of the inner tub, wherein a limiting protrusion is disposed on an inner wall of the inner tub to be positioned below the balancing ring, and the upper washing shoe member is mounted on a top of the inner tub by being interposed between the limiting protrusion and the balancing ring.

6. The pulsator without use of claim 3, wherein a first connection structure is provided on a top of the inner tub, and a second connection structure matching the first connection structure is provided on the upper washing member, and the first connection structure and the second connection structure can be engaged with each other by clipping or insertion.

7. The pulsator without washing machine for shoes as claimed in claim 3, wherein an inner tub cover is provided on a top of the inner tub, the upper washing member is provided on the inner tub cover,

the upper shoe washing member is located at an inside top of the inner tub in a state that the inner tub cover is closed.

8. The pulsator without washing machine for shoes as claimed in claim 3, wherein an outer tub cover is provided at a top of the outer tub, the upper shoe washing member is rotatably connected to the outer tub cover, a first rotation limiting structure is provided at a top of the inner tub, a second rotation limiting structure matching the first rotation limiting structure is provided at the upper shoe washing member,

under the condition that the outer barrel cover is closed, the upper shoe washing component is positioned at the top of the inner side of the inner barrel, and the first rotation limiting structure is matched with the second rotation limiting structure.

9. The pulsator without footwear according to claim 8, wherein the first rotation limiting structure is a catching groove provided at a top of the inner tub, the second rotation limiting structure is a catching end provided at the upper shoe washing member,

and under the condition that the outer barrel cover is closed, the clamping end is clamped in the clamping groove.

10. The pulsator-less shoe washing machine as claimed in any one of claims 1 to 9, wherein the upper shoe washing member comprises a main body and bristles provided on the main body, the main body comprises a first portion and a second portion connected to each other, the connection position of the first portion and the second portion is located at a rotation center of the upper shoe washing member, and height dimensions of the bristles on each of the first portion and the second portion are gradually increased in a rotation direction.

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