CN115245301A - Shoe washing machine - Google Patents

Abstract

The invention belongs to the technical field of washing equipment, and particularly provides a shoe washing machine. The invention aims to solve the problem that when the impeller of the existing shoe washing machine stirs shoes and washing water, part of the shoes are far away from a hairbrush, and the overall brushing effect of the shoes is influenced. The accommodating component of the shoe washing machine is provided with the circulating water inlet and the circulating water outlet which are communicated with the circulating pump and the circulating pipeline, the accommodating component is internally provided with the rotatable shoe washing brush relative to the circulating water outlet, the circulating pump can promote the washing water in the accommodating space to flow along the circulating pipeline and can promote the circulating water outlet to spray impact water flow towards the shoe washing brush during the circulating flow, so that the shoes are continuously pushed to move to the brushing range of the shoe washing brush under the pushing action of the impact water flow, the shoes can be in friction contact with the shoe washing brush for a long time and at high frequency, and the washing effect and the washing efficiency of the shoes are improved.

Description

Shoe washing machine

Technical Field

The invention belongs to the technical field of washing equipment, and particularly provides a shoe washing machine.

Background

The shoe washing machine is a household appliance capable of washing shoes according to the cleaning requirements of the shoes. Generally, a brush, a spray device, or a combination of the brush and the spray device for cleaning shoes is provided inside a shoe washing chamber of a shoe washing machine. Because the direct friction brushing mode of the hairbrush has stronger cleaning capability, the hairbrush capable of brushing the surface of the shoe is arranged in most shoe washing machines in a rotating mode. The shoe washing machine is characterized in that a shoe washing cavity of the shoe washing machine is in the form of a washing barrel, a rotatable impeller is arranged at the bottom in the washing barrel of the shoe washing machine, a columnar brush roller is arranged at the top of the impeller, and bristles are arranged on the surface of a cylinder of the brush roller, so that the impeller drives the brush to rotate to wash shoes.

The shoe washing machine has the disadvantages that: when the impeller drives the brush to rotate forward and backward to wash the shoes, although washing water and the shoes can be stirred by the impeller to be matched with the brush to wash, actually, the stirring action of the impeller can also cause part of the shoes to be far away from the brush, the contact frequency of the part of the shoes and the brush is reduced, meanwhile, the stubborn stains on the part of the shoes are difficult to reliably clear by mainly depending on the flowing washing of the washing water, the brushing effect of the brush on the shoes is not completely exerted, and the shoe washing effect is not good.

Accordingly, there is a need in the art for a new shoe washing machine that solves the above problems.

Disclosure of Invention

In order to solve the problems in the prior art, namely, to solve the problem that when the impeller of the existing shoe washing machine stirs shoes and washing water, part of the shoes are away from the brush, and the overall brushing effect of the shoes is affected, the invention provides the shoe washing machine, which comprises an accommodating component, a shoe washing brush, a circulating pump and a circulating pipeline, wherein a washing space is formed inside the accommodating component, a circulating water inlet and a circulating water outlet which are communicated with the washing space are arranged on the accommodating component, two ends of the circulating pipeline are respectively communicated to the circulating water inlet and the circulating water outlet, the shoe washing brush is arranged on one side of the inner side part of the washing space in a rotating mode, the circulating water inlet is arranged opposite to the shoe washing brush, and the circulating water outlet is arranged close to the shoe washing brush.

In the preferable technical scheme of the shoe washing machine, the shoe washing machine further comprises a flow guide structure arranged in the accommodating component, wherein the flow guide structure is arranged between the circulating water inlet and the shoe washing brush and can guide the water flow sprayed from the circulating water inlet to the shoe washing brush.

In the preferable technical scheme of the shoe washing machine, the flow guide structure comprises a plurality of flow guide vanes arranged along the circumferential direction of the circulating water inlet, and the parts of the flow guide vanes, which are close to the circulating water inlet, are folded towards the circulating water inlet.

In the preferable technical scheme of the shoe washing machine, the circulating pump is arranged close to the circulating water inlet.

In a preferable technical solution of the above shoe washing machine, the circulating water outlet is provided at an upper middle portion of the accommodating member, and a setting height of the shoe washing brush is lower than a setting height of the circulating water outlet.

In a preferred technical solution of the above shoe washing machine, the shoe washing machine further includes a shut-off valve, and the shut-off valve is disposed between the circulating water outlet or a water outlet side of the circulating water outlet and the circulating pump.

In the preferable technical scheme of the shoe washing machine, a water guide pipe is further arranged on the water outlet side of the circulating water inlet, and a water outlet of the water guide pipe faces the shoe washing brush.

In a preferred embodiment of the above shoe washing machine, the shoe washing brush is gradually enlarged in radial size from the top to the bottom.

In a preferred technical scheme of the shoe washing machine, the shoe washing brush is a dome-shaped brush.

In a preferred embodiment of the above shoe washing machine, the bottom of the shoe brush is disposed close to the inner sidewall of the accommodating member.

As can be understood by those skilled in the art, the accommodating member of the shoe washing machine of the present invention is provided with a circulating water inlet and a circulating water outlet which are communicated with the circulating pump and the circulating pipeline, and a rotatable shoe washing brush is arranged inside the accommodating member relative to the circulating water outlet, the circulating pump can promote the washing water in the accommodating space to flow along the circulating pipeline and can spray impact water flow towards the shoe washing brush through the circulating water outlet during the circulating flow, so that the shoes can be continuously pushed to move to the brushing range of the shoe washing brush through the impact water flow, and the shoes can be in friction contact with the shoe washing brush for a long time and at high frequency, thereby improving the washing effect and washing efficiency of the shoes. In addition, in the in-process that shoes were lasted the impact promotion by rivers, impact rivers not only can assist and wash the shoe brush and peel off the dirt that is infected with on the vamp, impact rivers simultaneously and can also wash the position that the difficult scrubbing of shoe brush targets in place such as shoes in can also be washed for the shoe washer is through the dual means of washing of scrubbing with the strong effect washing clean shoes, compares in conventional brushing formula shoe washer, and shoe washing efficiency and shoe washing effect all obviously promote.

Preferably, still be provided with the water conservancy diversion structure between circulating water import and the shoe brush of washing, this water conservancy diversion structure can be with circulating water import spun rivers orientation shoe brush guide, so that the diffusion trend of impact water flow after breaking away from the circulating water import can be inhibited under drawing in of water conservancy diversion structure, the direction of impact also can be guided by the water conservancy diversion structure simultaneously, thereby make impact water flow concentrate powerfully directly to washing shoe brush flow, possess the impact force that promotes many shoes, can effectively adapt to the washing environment of many shoes, make the promotion effect of impact water flow to shoes more reliable.

Furthermore, the flow guide structure comprises a plurality of flow guide vanes arranged along the circumferential direction of the circulating water inlet, and the parts of the flow guide vanes, which are close to the circulating water inlet, are folded towards the circulating water inlet. So that the water diversion structure can fold impact water flow in all directions, guide the impact water flow to flow towards the shoe washing brush along the circumferential direction, and further optimize the water diversion effect of the water diversion structure on the impact water flow.

Preferably, the circulating pump is close to the circulating water inlet and is arranged so as to further improve the flow strength of the water flow sprayed from the circulating water inlet, promote the impact water flow to more powerfully push the shoes, and facilitate the continuous pushing of the turned shoes to the brushing range of the shoe washing brush through the strong water flow continuously impacting towards the shoe washing brush.

Preferably, the shoe washing brush becomes from top to bottom radial dimension gradually, so that the shoe washing brush can have a brush face that expands gradually from top to bottom, on the one hand, for current column brush roller, the scrubbing scope of the shoe washing brush that the face extension set up of scrubbing is bigger, the scrubbing angle is wider, can effectively fill up the clearance between the many shoes, effectively reduce the dead angle of scrubbing of shoes when scrubbing many shoes simultaneously, on the other hand, the extension setting of the face of brushing face can prolong the friction distance between shoes and the face of scrubbing when shoes move for the friction of the face of washing face, the single when the shoe washing brush scrubs shoes is prolonged and is scrubbed for the effect of scrubbing of shoe washing brush is better.

Furthermore, the shoe washing brush is a dome-shaped brush, the brushing surface of the dome-shaped brush is smoothly and transitionally expanded from the top to the bottom, the shoe washing effect is softer, and the abrasion degree of the brush hair to the shoe can be effectively reduced while the shoe is washed.

Further, the aforesaid is washed the shoe brush adherence and is set up to reduce and wash the shoe brush and hold the clearance width of reserving between the component inside wall, thereby effectively avoid the shoes card to arrange in and wash the shoe brush and hold between the inner wall of component, prevent that shoes set up the position through washing the non-brush hair that the clearance between shoe brush and the component held is close to and wash the shoe brush, greatly reduced the probability that the shoelace winding washed the shoe brush body.

Drawings

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. The attached drawings are as follows:

fig. 1 is a schematic view of the overall structure of the shoe washing machine of the present invention.

In the drawings:

1. a housing; 2. a housing member; 21. a circulating water inlet; 22. a circulating water outlet; 3. Washing the shoe brush; 31. a bearing; 32. a drive device; 33. a seal ring; 4. a circulating pipeline; 5. a circulation pump; 6. a flow guide structure; 61. a first flow guide part; 62. a second flow guide part; 7. a water conduit.

Detailed Description

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 particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, 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, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring first to fig. 1, fig. 1 is a schematic view showing an overall structure of a shoe washing machine of the present invention after being cut in a cross section, in which an internal structure of the shoe washing machine is shown. As shown in fig. 1, the shoe washing machine of the present invention includes a housing 1, and a receiving member 2, a shoe brush 3, a circulation pipe 4 and a circulation pump 5 provided in the housing 1. The inside of holding member 2 is formed with the washing space that can hold washing water and shoes, has seted up on the holding member 2 and has put in the mouth, and the corresponding mouth position of putting in on the shell 1 is provided with the opening, and the opening part is provided with the door body that can open/close the open-ended to can make washing space and outside intercommunication, supply the user to put in washings such as shoes through the mode of opening the door body, and close the washing space through the mode of closing the door body, make the washing space be in by encapsulated situation in order to hold the washing water. The accommodating component 2 is also provided with a circulating water inlet 21 and a circulating water outlet 22, two ends of the circulating pipeline 4 are respectively connected to the circulating water inlet 21 and the circulating water outlet 22, and the circulating pump 5 is arranged on the circulating pipeline 4. The circulating water inlet 21 is arranged on the inner side of any one of the front, rear, left and right side walls of the accommodating component 2, the shoe washing brush 3 is arranged on the inner side of one side wall opposite to the side wall provided with the circulating water inlet 21 in a rotating mode and is aligned with the circulating water inlet 21 along the horizontal direction, and the circulating water outlet 22 is arranged close to the shoe washing brush 3. As an example, the shoe washing brush 3 is rotatably installed in the following manner: the side wall of the shoe washing brush 3 is provided with a mounting hole, the mounting hole is internally clamped with a bearing 31, the inner hole wall of the mounting hole is tightly abutted to the outer ring of the bearing 31, a rotating shaft of a driving device 32 for driving the shoe washing brush 3 to rotate penetrates through the inner ring of the bearing 31 to be connected to the shoe washing brush 3, so that the shoe washing brush 3 is supported and installed in the washing space through the bearing 31 and the rotating shaft, and the driving device 32 can drive the shoe washing brush 3 to rotate through the rotating shaft during working. The side of the mounting hole close to the shoe washing brush 3 is provided with a sealing ring 33 in a sealing way so as to ensure the sealing assembly of the mounting hole position.

Based on the above arrangement, in the case that the shoe washing machine is operated, the driving means 32 is activated to control the shoe washing brush 3 to be rotated, and the circulation pump 5 is activated to induce the washing water in the accommodating member 2 to flow into the circulation pipe 4 through the circulation water outlet 22 and to spray the washing water in the circulation pipe 4 through the circulation water inlet 21 to be directed to the shoe washing brush 3. Through the circulation flow of the washing water in the circulation pipeline 4, the circulation water inlet 21 can continuously spray water flow with certain impact strength, so that the overall flow direction of the washing water in the accommodating member 2 is adjusted to flow from the circulation water inlet 21 to the shoe washing brush 3 (the flow path of the washing water is shown in the arrow direction shown in fig. 1), the shoes in the accommodating member 2 are pushed towards the shoe washing brush 3, the shoes are continuously close to the shoe washing brush 3 when immersed in the washing water and float, the shoes can be frequently contacted with the rotating shoe washing brush 3, even if the shoes are pushed away after the rotating shoe washing brush 3 rubs with the vamp, the impact water flow can push the shoes back to the brushing range of the shoe washing brush 3, and the friction duration and the friction frequency of the shoes and the shoe washing brush 3 are greatly improved. Compared with the mode that the rotatable shoe washing brush is vertically and upwards arranged at the bottom of the washing barrel by the conventional shoe washing machine, the shoe washing machine is arranged into a horizontal structure that the shoe washing brush rotates and washes in the lateral direction, the shoes are enabled to continuously float in the washing range of the shoe washing brush 3 only through buoyancy and impact force of water flow, the shoes can be effectively prevented from being deposited at the bottom of the washing barrel due to the action of gravity and then being clamped between the barrel bottom and the shoe washing brush when the shoe washing brush stirs the shoes and washing water, and the shoes are guaranteed to be reliably washed while being prevented from being clamped due to stable staying between the bottom of the shoe washing brush 3 and the inner wall of the accommodating component 2.

In practical applications, the circulating pump 5 is preferably configured to operate at any one of a plurality of operating powers with different magnitudes, so that the impact water flow pumped by the circulating pump 5 has different impact strengths corresponding to different operating powers, and the shoe washing machine can be configured with a plurality of shoe washing gears according to different shoe washing requirements (such as different numbers of shoes to be washed).

In the above embodiment, first, the receiving member 2 may be any receiving structure capable of receiving the washing water and satisfying the flowing requirement of the impinging water stream, such as a box structure, a horizontal tub structure, and the like.

Furthermore, the rotational mounting of the shoe brush 3 is not limited to the above-described examples, and the drive device 32 may also be fixed inside the accommodating member 2 in a waterproof manner, for example. The driving device 32 connected to the shoe washing brush 3 may be any device for driving the shoe washing brush 3 to rotate, such as a driving motor connected to the shoe washing brush 3 through a speed reducer or a direct drive motor directly connected to the shoe washing brush 3.

In addition, the water inlet connected with the external water source on the holding member 2 can be independently arranged with the circulating water inlet 21, and can also be combined with the circulating water inlet 21, under the condition that the circulating water inlet 21 can also introduce the water of the external water source, the water inlet end of the circulating water inlet 21 can be provided with a three-way pipe joint, so that two water inlet pipes of the three-way pipe joint are respectively communicated with the water outlet pipe orifice of the circulating pipeline 4 and the water outlet pipe orifice of the external water source water inlet pipe, and at the moment, the holding member 2 is not required to be additionally provided with a water inlet allowing the water of the external water source to flow in. Similarly, the water outlet end of the circulating water outlet 22 may be provided with a three-way pipe joint to communicate with the water inlet pipe of the circulating pipe 4 and the water inlet pipe of the shoe washing machine drain pipe, and the accommodating member 2 does not need to be provided with a water outlet for discharging washing water.

Furthermore, the circulating pump 5 is disposed near the circulating water inlet 21 and is disposed on the circulating pipe 4 near the water outlet, so as to shorten the flow of the impact water flow pumped by the circulating pump 5 in the circulating pipe 4 and avoid the friction resistance of the circulating pipe 4 from weakening the impact strength of the water flow.

In a preferred case, according to the orientation shown in the figure, the circulating water inlet 21 is disposed at the center of the inner side of the left side wall of the accommodating member 2, the circulating water outlet 22 is disposed at the middle upper portion of the right end of the accommodating member 2, such as at any position near the shoe washing brush 3 between the middle upper position of the front side wall, the rear side wall or the right side wall of the accommodating member 2 and the top wall of the accommodating member 2 near one end of the shoe washing brush 3, and the shoe washing brush 3 is disposed at the center of the inner side of the right side wall of the accommodating member 2 and is disposed at a height lower than the height of the circulating water outlet 22. Under this situation, on the one hand, holding member 2 is intake the back washing water and can submergence shoe brush 3 to draw the washing water circulation in the position that is higher than shoe brush 3, make shoes can be driven by the washing water and remove to the top of shoe brush 3, make the circumference of washing shoe brush 3 be the movable range of shoes, be convenient for wash shoe brush 3 and drive shoes along its circumference friction removal, promote shoes and the friction time and the friction frequency of shoe brush 3. On the other hand, the upper position of the circulating water outlet 22 can prevent the shoes from gathering under the shoe washing brush 3 and then separating from the washing range of the shoe washing brush 3 due to the water flow trend when the washing water flows out from the lower part of the shoe washing brush 3, and prevent the shoes from depositing under the shoe washing brush 3 and being far away from the shoe washing brush 3.

Alternatively, instead of the circulating water outlet 22 being located on top, the circulating water inlet 21 may be directed obliquely upwards towards the shoe washing brush 3 in order to adjust the direction of the impinging water flow such that the impinging water flow pushes the shoes in an obliquely upwards direction, providing a certain upwards force to the shoes, thereby preventing the shoes from depositing on the bottom of the shoe washing brush 3. Of course, according to the actual shoe pushing requirement, the circulating water inlet 21 can be obliquely arranged upwards, and the circulating water outlet 22 can be arranged downwards, so that the shoes can be prevented from sinking by the double factors of the impact direction and the direction of the washing water when flowing out.

In a possible situation, the shoe washing machine further comprises a cut-off valve, the cut-off valve is arranged at the position of the circulating water outlet 22, or is arranged on the circulating pipeline 4 between the water outlet side of the circulating water outlet 22 and the circulating pump 5, so that the washing water in the accommodating member 2 can flow out through the circulating water outlet 22 after the cut-off valve is opened, the shoe washing machine can generate impact water flow without opening the circulating pipeline 4, water can not be stored in the circulating pipeline 4 when the shoes are washed only by the shoe washing brush 3, the problem of discharging the inflow water in the circulating pipeline 4 is not considered in the case of washing the shoes by brushing the single shoe washing, and the whole water discharging difficulty in the washing case is reduced.

Preferably, the shoe washing machine further comprises a flow guiding structure 6 and a water guiding duct 7 provided in the receiving member 2. The water guide pipe 7 is arranged on the water outlet side of the circulating water inlet 21, the pipe body of the water guide pipe 7 extends towards the shoe washing brush 3, and the pipe opening on the water outlet side of the water guide pipe 7 is aligned with the shoe washing brush 3, so that impact water flow can be continuously kept in an impact trend after being sprayed out from the circulating water inlet 21 in a mode of limiting the radial size of a water guide path, and the impact water flow is prevented from being influenced by a diffusion trend once entering the accommodating component 2 to weaken the impact strength. The water conservancy diversion structure 6 sets up between circulating water import 21 and shoe brush 3, specifically be between the play water side mouth of pipe of aqueduct 7 and the shoe brush 3, and set up to the guide of water conservancy diversion 7 spun rivers towards shoe brush 3, so that impact direction can not deviate and wash shoe brush 3 when making impact rivers drive the washing water that holds in the component 2 on a large scale and flow, the diffusion degree of impact rivers after flowing out aqueduct 7 has also been weakened to a certain extent simultaneously, make the whole washing water that holds 2 insides of component all have towards the trend that shoe brush 3 flows powerfully.

More preferably, the flow guiding structure 6 comprises a plurality of flow guiding vanes arranged along the circumference of the outlet side nozzle of the water guiding pipe 7, each flow guiding vane is directly or indirectly connected with the inner wall of the accommodating member 2, for example, every two adjacent flow guiding vanes are connected with each other and at least one flow guiding vane is connected with the inner wall of the accommodating member 2, or each flow guiding vane is independently arranged and directly connected with the inner wall of the accommodating member 2, and the flow guiding vane comprises a first flow guiding part 61 arranged close to the outlet side nozzle of the water guiding pipe 7 and a second flow guiding part 62 connected with one side of the first flow guiding part 61 close to the shoe washing brush 3. The first flow guiding part 61 is obliquely arranged towards the outlet side pipe orifice of the water guiding pipe 7, so that the first flow guiding parts 61 of the plurality of circumferentially arranged flow guiding blades can be folded at the outlet side pipe orifice of the water guiding pipe 7, thereby folding the impact water flow which is separated from the water guiding pipe 7 and keeping the impact trend of the impact water flow. The second diversion part 62 extends horizontally towards the shoe washing brush 3, so that when the most of the washing water in the accommodating member 2 is driven by the impact water flow to flow, the flowing trend of the impact water flow can be assisted to guide the washing water to flow towards the shoe washing brush 3 integrally, the washing water is ensured to have enough strength towards the shoe washing brush 3 in a diversion mode, the integral flowing direction of the washing water is controlled, and the pushing effect of the washing water on the shoes is optimized.

In any of the above-mentioned shoe washing machines, preferably, the shoe brush 3 of the shoe washing machine of the present invention is provided to become gradually larger in radial size from the top to the bottom. In a state where the shoe washing brush 3 is installed inside the right sidewall of the accommodating member 2 in the lateral direction, the brushing surface composed of the brush tip ends of the shoe washing brush 3 is gradually expanded from left to right, so that the shoe is driven by the rotating water flow generated when the shoe washing brush 3 rotates to generate a longer friction path with the brushing surface of the shoe washing brush 3 when rotating around the shoe washing brush 3. Simultaneously, wash shoe brush 3 and can soften the friction action of the brush hair of washing shoe brush 3 to the vamp from the scrubbing face shape of top to bottom gradual transition extension for even the shoes collide the friction to the brush hair tip under the impact drive of impact rivers, also can not be impaired because of the friction action of brush hair, reached the effect of soft washing shoes, reduced the degree of wear of shoes when washing shoes.

Furthermore, the shoe washing brush 3 is a dome-shaped brush, and the dome-shaped brush has a smoother washing surface and better soft washing effect on shoes. In addition, the bottom of this dome-shaped brush is pressed close to the inside wall setting of the right side wall of holding member 2 to furthest dwindle wash the clearance width between 3 bottoms of shoes brush and the right side wall and increase the degree of depth in this clearance (wash the clearance between 3 bottoms of shoes brush and the right side wall promptly and from the terminal interval to the rotation center of washing shoes brush 3 of the bottom brush hair of washing shoes brush 3), avoid this clearance card to put shoes, prevent that the shoelace from twineing in the root of washing shoes brush 3 and then arousing to wash shoes brush 3 trouble or damage shoes. Of course, although the shape of the shoe brush 3 is described in connection with the above-mentioned dome-shaped brush, this is not limitative, and the skilled person will be able to set the specific shape of the shoe brush 3 according to the brushing needs, for example, to set the shoe brush 3 to be a shoe brush with gradually changing radial dimensions in other shapes such as conical, hemispherical, bowl-shaped, truncated cone-shaped, etc.

In conclusion, the rotatable shoe washing brush 3 is arranged inside the accommodating member 2 of the shoe washing machine, the circulating pipeline 4 is communicated with the outside of the accommodating member 2, the circulating pump 5 is arranged on the circulating pipeline 4, and the circulating water inlet 21 communicated with the circulating pipeline 4 is arranged opposite to the shoe washing brush 3, so that the washing water in the accommodating member 2 can flow towards the shoe washing brush 3 integrally under the driving of the water flow sprayed from the circulating water inlet 21 towards the shoe washing brush 3, the shoes immersed in the washing water are pushed to move to the brushing range of the shoe washing brush 3, the shoes can be in friction contact with the shoe washing brush 3 for a long time and at high frequency, and the washing effect and the washing efficiency of the shoes are greatly improved through the double action of the washing water impact and the efficient shoe upper rubbing of the shoe washing brush 3.

It should be noted that the structural components of the shoe washing machine of the present invention are not limited to the above preferred embodiments. For example, in the case where the operation power of the circulation pump 5 is sufficiently large and the impact strength of the impinging water flow is sufficiently strong, only the flow guide structure 6 or the water conduit 7 may be provided inside the accommodating member 2, or no structure having a flow guide function may be provided inside the accommodating member 2.

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 shoe washing machine is characterized in that the shoe washing machine comprises an accommodating component, a shoe washing brush, a circulating pump and a circulating pipeline,

the shoe washing device comprises an accommodating component, a circulating water inlet and a circulating water outlet, wherein the accommodating component is internally provided with a washing space, the circulating water inlet and the circulating water outlet are communicated with the washing space, two ends of a circulating pipeline are respectively communicated to the circulating water inlet and the circulating water outlet, a shoe washing brush is arranged on one side of the inner side part of the washing space in a rotating mode, the circulating water inlet is opposite to the shoe washing brush, and the circulating water outlet is close to the shoe washing brush.

2. The shoe washing machine of claim 1 further comprising a flow directing structure disposed within said receptacle member, said flow directing structure being disposed between said circulating water inlet and said shoe brush and configured to direct a flow of water from said circulating water inlet toward said shoe brush.

3. The shoe washing machine of claim 2, wherein the flow guide structure comprises a plurality of flow guide vanes arranged along the circumferential direction of the circulating water inlet, and the parts of the flow guide vanes close to the circulating water inlet are arranged in a converging manner towards the circulating water inlet.

4. A shoe washing machine according to claim 1 wherein said circulation pump is disposed adjacent said circulation water inlet.

5. The shoe washing machine of claim 1, wherein the circulating water outlet is provided at an upper middle portion of the accommodating member, and a height at which the shoe brush is provided is lower than a height at which the circulating water outlet is provided.

6. The shoe washing machine of claim 1, further comprising a shut-off valve disposed between the circulating water outlet or a water outlet side of the circulating water outlet and the circulating pump.

7. The shoe washing machine of claim 1, wherein the water outlet side of the circulating water inlet is further provided with a water conduit, and the water outlet of the water conduit is arranged towards the shoe washing brush.

8. A shoe washing machine according to any of claims 1 to 7 wherein the shoe brush is progressively larger in radial dimension from top to bottom.

9. The shoe washing machine of claim 8 wherein said shoe brush is a dome shaped brush.

10. The shoe washing machine of claim 8 wherein a bottom portion of the shoe brush is disposed proximate an inner sidewall of the receiving member.

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