CN217266398U - Shoe washing machine - Google Patents

Abstract

The utility model relates to a washing equipment technical field specifically provides a shoe washing machine, aims at solving the problem of the current shoe washing machine shoe washing effect and the not good or easy wearing and tearing shoes of shoe washing efficiency when washing shoes. The utility model discloses a shoe washing machine has the inner cup of washing shoes component at the internally mounted of washing bucket, can enough rub when washing shoes clean drift to the shoes of washing shoes component place region with the help of the buoyancy of washing water, support shoes and the reliable friction of washing shoes component or the contact of the inside top of washing shoes component with the help of the buoyancy of washing water, can increase the friction washing angle of washing shoes component to shoes through the free floating action of shoes again, promote the washing shoes flexibility and the washing shoes high efficiency of washing shoes component. In addition, the flip arrangement of the inner cover can reliably limit the floating shoe to be close to the shoe washing component, and the friction frequency between the shoe and the shoe washing component is improved. Simultaneously, the inner cup can also make the shoes washing component expose towards the bung hole upset when the upset is opened, and the user of being convenient for clears up the maintenance to the shoes washing component.

Description

Shoe washing machine

Technical Field

The utility model relates to a washing equipment technical field specifically 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. 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 spraying type shoe washing machine, a spraying component is arranged near the shoe rack, when shoes are washed, the shoes are fixed on the shoe rack, and the spraying component can spray spraying water flow towards the shoes so as to wash the shoes.

The two types of shoe washing machines have the disadvantages that: when the impeller shoe washing machine washes shoes, the shoes can float upwards and keep away from the brush arranged at the bottom of the washing barrel due to the buoyancy effect of the washing water, the contact frequency of the shoes and the brush is low, the shoe washing effect is poor, the shoes can be accumulated above the impeller for a long time when the buoyancy of the washing water is weakened through the mode of reducing the water inflow, and the vamps are easily abraded after being stirred by the impeller for a long time. 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 spray water flow has poor cleaning effect on vamp dirt, and the shoe washing effect and the shoe washing efficiency are poor.

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

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem that the shoes are easily worn and torn when the existing shoe washing machine is solved, namely, the shoe washing effect and the shoe washing efficiency are not good or the shoes are washed.

The utility model provides a shoe washing machine, shoe washing machine include the washing bucket and set up in shoe washing component and installation component in the washing bucket, the installation component include with the connection structure that washing bucket lateral wall links to each other and with connection structure pivot connection's inner cup, the inner cup can rotate and close in order to block shoes and can rotate and open, the shoe washing component is connected to the inner cup orientation one side of the barrel head of washing bucket sets up down to friction or contact are at the shoes of washing aquatic free floating under the shoe washing situation.

Under the condition that adopts above-mentioned technical scheme, the utility model discloses a shoe washing machine has the inner cup of washing the shoes component at the internally mounted of washing bucket, on the one hand, can the clean buoyancy drift to the shoes of washing the shoes component place region with the help of washing water of friction when washing shoes, the buoyancy with the help of washing water supports the shoes and washes the shoes component reliable friction or contact of shoes inside top with the washing bucket, avoid washing hard friction between shoes component and the shoes, the scrubbing dynamics of buffering washing the shoes component, the friction washing effect of shoes component is washed in the flexibility, can increase the friction washing angle of washing the shoes component to shoes through the free floating action of shoes again, it is single fixed to avoid washing the shoes component to scrub the angle and the scrubbing region of shoes, make sticky stubborn dirt on the shoes change to be peeled from a plurality of friction angles, the shoes washing flexibility and the high efficiency of washing the shoes component have been promoted. On the other hand, the reversible setting of inner cup can also reliably restrict the shoes that float near the shoes washing component when restraining the washing water in the washtub upwards to splash, promote the friction frequency of shoes and shoes washing component, simultaneously, the inner cup can also make the shoes washing component that the end of the cover is connected expose towards the bung hole upset through the upset mode of opening, the user of being convenient for clears up the shoes washing component and maintains, and when getting put shoes only need the switch inner cup can, need not to follow the washtub with the inner cup and relapse the dismouting, the operation convenience is strong.

Furthermore, the utility model discloses a shoe washing machine need not carry out fixed restraint to the shoes in the washtub when washing shoes, and the shoes homoenergetic of all styles can be put into the washtub and wash, and the kind that can wash shoes is more comprehensive, more is applicable to the washing environment that the user will the mixed-with-use of multi-style shoes in daily life, has promoted the practicality of shoe washing machine, has optimized the user and has used experience.

In the above preferred technical solution of the shoe washing machine, the connection structure is an annular mounting frame, the outer side of the mounting frame is connected to the inner side wall of the washing tub, and the shape of the inner cover is matched with the shape of the inner ring opening of the mounting frame so as to shield or open the inner ring opening.

Under the condition of adopting above-mentioned technical scheme, annular installing frame can with washing bucket inside wall circumference contact to provide circumference to inner cup and shoe washing component and support, make the installation reliability of inner cup and shoe washing component stronger, especially adapt to the shoes washing situation that the shoes that float and remove collided inner cup and/or shoe washing component. On this basis, inner cup intercommunication installing frame can transversal shelter from inside the washing bucket for all shoes can both be reliably restricted in inner cup below and then rub mutually with the shoes washing component.

In the preferable technical scheme of the above shoe washing machine, the mounting member further comprises a first clamping structure arranged at the rotating end of the inner cover and a second clamping structure arranged on the mounting frame, wherein under the condition that the inner cover is closed in a rotating mode, the first clamping structure and the second clamping structure can enable the inner cover to keep a closed state in a clamping and matching mode.

Under the condition of adopting above-mentioned technical scheme, can reliably be locked on the installing frame by the joint cooperation of first joint structure and second joint structure when the inner cup is closed, optimized the closed reliability of inner cup for the inner cup only can be opened by user operation, avoids the inner cup to open because of the small-amplitude upset collision installing frame noise emission or even accident when washing shoes.

In the preferable technical scheme of the shoe washing machine, the first clamping structure is an elastic clamping jaw, the second clamping structure is a clamping groove matched with the elastic clamping jaw, one end, far away from the inner cover, of the elastic clamping jaw extends upwards towards one side, far away from the barrel bottom, of the inner cover, and a lifting structure is arranged at one end, far away from the inner cover, of the elastic clamping jaw.

Under the condition of adopting above-mentioned technical scheme, can open the action with pulling up the unblock operation of inner cup and unite two into one for the user can directly carry and draw the structure of pulling that links to each other with the elasticity jack catch and open the inner cup after application of force operation elasticity jack catch unblock, has optimized the operation convenience of inner cup.

In a preferred embodiment of the above shoe washing machine, the shoe washing member is detachably connected to the inner lid.

Under the condition of adopting the technical scheme, the shoe washing component can be directly detached from the inner cover during cleaning, maintenance or repair and replacement, and the shoe washing component and the inner cover are arranged in a differentiation manner, so that a user can conveniently clean the shoe washing component in a larger operable space, and the user can conveniently directly replace a new shoe washing component when the shoe washing component is seriously worn in long-term use, thereby preventing the reduction of the shoe washing performance of the shoe washing machine due to the reduction of the shoe washing capacity of the shoe washing component, and prolonging the whole service life of the shoe washing machine.

In the preferable technical scheme of the shoe washing machine, one side of the inner cover facing the barrel bottom is provided with an installation chute along the radial direction, the installation chute comprises an opening end and an installation end, the opening end is arranged on the side portion of the inner cover, the installation end is arranged at the central position of the inner cover, a clamping block is arranged on the shoe washing component, the opening end allows the clamping block to enter the installation chute, and the clamping block is in sliding fit with the installation chute.

Under the condition of adopting above-mentioned technical scheme, the user only need control when dismouting shoe washing component at every turn the shoe washing component slide in or the roll-off installation spout can, greatly degree simplified the installation step of shoe washing component, promoted the installation convenience of shoe washing component.

In a preferred technical solution of the above shoe washing machine, bristles are arranged downward on one side of the mounting frame facing the tub bottom.

Under the condition that adopts above-mentioned technical scheme, keep away from when washing shoes component floats after shoes are washed the friction of shoes component, can also be washed by the brush hair friction on the installation frame, enlarged the regional area of shoes is washed in the friction of washing bucket top, increased the friction angle and the direction of friction to shoes, promoted the washing efficiency and the washing effect of shoes.

In the preferable technical scheme of the shoe washing machine, the inner cover is provided with water through holes.

Under the condition that adopts above-mentioned technical scheme, the inner cup allows the interior inflow of washing bucket to the inflow that the water level height surpassed the inner cup to increase the supporting action that floats of washing water to shoes, guarantee that shoes can reliably reach near inner cup bottom and contact and wash shoes component, and bigger buoyancy can support shoes inseparabler by the friction of washing shoes component, optimize the by clean dynamics of shoes.

In a preferred embodiment of the above shoe washing machine, the shoe washing members are arranged to become gradually larger or gradually larger in radial size from the top to the bottom.

Under the condition of adopting the technical scheme, the friction shoe washing surface of the shoe washing component is gradually unfolded from the top to the bottom, the unfolded shape is convenient for the shoe washing component to reliably accept shoes which float from all directions of the bucket bottom, and a plurality of shoes are simultaneously cleaned by the shoe washing component in a friction mode when moving around the shoe washing component, so that the shoe washing angle of the shoe washing component is increased, and the shoe washing performance of the shoe washing component is optimized.

In the preferable technical scheme of the shoe washing machine, the shoe washing machine further comprises a wave wheel which is arranged at the bottom in the washing barrel in a rotating mode.

Under the condition that adopts above-mentioned technical scheme, can stir the disturbance nature that the mode of washing water promoted the washing water through the impeller during washing shoes to make shoes overturn around washing shoes component is relapse, be convenient for promote the different positions of shoes and wash shoes component and rub repeatedly, strengthen the friction effect between washing water and the shoes simultaneously, optimize washing shoes effect and washing shoes efficiency.

Drawings

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

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

FIG. 2 is a schematic view of the shoe washing machine of the present invention;

fig. 3 is a schematic structural view of a mounting member of the shoe washing machine of the present invention.

In the drawings:

1. a box body; 2. a washing tub; 21. a boom; 22. a power plant; 23. a silt collector; 3. a shoe washing member; 4. a mounting member; 41. installing a frame; 411. brushing; 42. an inner cover; 421. water passing holes; 422. installing a chute; 422A, an opening end; 422B, mounting end; 423. an elastic claw; 424. and (5) a lifting structure.

Detailed Description

It will be understood by those within the art that in describing the present invention, the terms "center," "upper," "lower," "inner," "outer," and the like, refer to directions or positional relationships illustrated in the drawings, which are used for descriptive purposes only and not to indicate or imply that the devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the 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; may be directly connected or indirectly connected through an intermediate. The specific meaning 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. 1-3, the shoe washing machine of the present invention comprises a box body 1, a washing tub 2 disposed in the box body 1, a power device 22, a shoe washing member 3, and a mounting member 4. Wherein, the washing barrel 2 is vertically arranged in the box body 1 in a mode that the opening of the barrel faces upwards, and the outer side wall of the washing barrel 2 is hoisted and fixed in the box body 1 through a plurality of hanging rods 21. The top of the box body 1 is provided with a shoe feeding opening and a box cover capable of closing/opening the shoe feeding opening corresponding to the position of the opening of the washing barrel 2, so that a user can open/close the box cover to leak or close the opening of the washing barrel 2. The washing tub 2 may be a single-layered tub (i.e., a single-tub structure shown in fig. 1 and 2) fixedly installed in the cabinet 1, the tub being closed and capable of directly containing washing water, the tub preferably having a pulsator at an inner bottom thereof, and a power unit 22 installed at an outer bottom of the tub and connected to the pulsator through the tub bottom to drive the pulsator to rotate, thereby agitating the washing water and shoes through the pulsator. Or, the washing tub 2 may further include an outer tub fixedly installed in the cabinet 1 by being hoisted by a plurality of suspenders 21 and an inner tub rotatably installed in the outer tub, the tub of the outer tub is closed, through holes allowing washing water to pass through are distributed on the tub of the inner tub, a pulsator is preferably installed at an inner bottom of the inner tub, and a power unit 22 is installed at an outer bottom of the outer tub and is capable of driving the inner tub and the pulsator to rotate, respectively, so as to agitate the washing water and shoes together by the inner tub and the pulsator. The shoe washing component 3 is provided with a friction shoe washing structure capable of rubbing shoes, the mounting component 4 comprises a connecting structure connected with the side wall of the washing barrel 2 and an inner cover 42 pivotally connected with the connecting structure, the inner cover 42 can be turned to a horizontal closing state and a state of rising upwards towards the barrel opening of the washing barrel 2 (see the opening condition of the inner cover 42 shown in fig. 3) in a rotating mode, the shoe washing component 3 is connected to one side of the inner cover 42 towards the barrel bottom of the washing barrel 2, the shoe washing component 3 is arranged downwards, so that the shoe washing component 3 can be brought into a washing space in the washing barrel 2 when the inner cover 42 is closed, all the shoes in the washing barrel 2 can be blocked under the inner cover 42, and the shoe washing component 3 can be driven to turn upwards and be exposed in the visual field of a user through the barrel opening when the inner cover 42 is opened. In the case of washing shoes, the inner lid 42 is closed, water is supplied into the washing tub 2, and the washing water level approaches, contacts, or passes over the inner lid 42, so that the shoe washing member 3 can rub or contact shoes that freely float in the washing water. When the shoes are needed to be taken and placed or the shoe washing components 3 are needed to be cleaned, the box cover and the inner cover 42 are opened, the environment in the washing barrel 2 can be leaked, and the shoe washing components 3 are turned over and exposed.

In the above embodiment, first, the inner lid 42 may be shaped to allow it to be turned open and closed inside the washing tub 2. For example, the inner lid 42 may be shaped to completely cover the cross-section of the tub 2 when closed, or may be shaped to provide a partially unobstructed area between it and the inside wall of the tub 2 when closed, provided that the unobstructed area is not accessible by shoes, limiting the movement of shoes above the inner lid 42.

In addition, the above-mentioned friction shoe washing structure may be any structure which is arranged on the shoe washing member 3 and can clean shoes by rubbing shoes, for example, the friction shoe washing structure may be bristles 411 which are arranged on the base body of the shoe washing member 3 and are extended outwards, or may be a raised texture (such as dotted protrusions distributed in a piece, strip protrusions distributed in a piece, etc.) which is arranged on the base body surface of the shoe washing member 3 and is protruded outwards relative to the base body surface, and a person skilled in the art may set the specific shape of the friction shoe washing structure on the shoe washing member 3 according to the friction washing requirement.

Further, the specific structure of the above-described power unit 22 is not limited, for example, in the case where the washing tub 2 is a tub, the power unit 22 may be any one of driving structures capable of providing a power torque to the pulsator, for example, the driving device may include a driving motor and a reduction gear connected between a motor shaft of the driving motor and the pulsator, so that the torque of the driving motor can be connected to the pulsator through the reduction gear; in the case where the washing tub 2 includes an outer tub and an inner tub, the power unit 22 may include a driving motor connected to the pulsator and the inner tub so that the driving motor can rotate the pulsator and the inner tub, and a clutch unit connected to the pulsator and the inner tub, respectively, or the power unit 22 may include two driving motors connected to the inner tub and the pulsator, respectively. A person skilled in the art may set the specific structure of the power device 22 according to specific driving requirements, so that the set power device 22 can drive the rotation of the pulsator (corresponding to the arrangement of the water tub), the inner tub (corresponding to the arrangement of the double-layered washing tub 2), or the inner tub and the pulsator (corresponding to the arrangement of the double-layered washing tub 2), and in view of the similarity of the functions of the power device 22 and the power mechanism capable of driving the inner tub and the pulsator in the pulsator washing machine, the detailed structure of the power device 22 will not be described in the present embodiment.

With continued reference to fig. 3, in a preferred example, the connecting structure is an annular mounting frame 41, the mounting frame 41 is disposed at a position above the middle of the washing tub 2, the outer side of the mounting frame 41 is connected to the inner side wall of the washing tub 2 by a detachable connection manner such as screwing, clamping, etc., or an undetachable manner such as bonding, welding, etc., the side of the inner lid 42 is pivotally connected to the mounting frame 41, and the inner lid 42 is shaped to match the shape of the inner ring opening of the mounting frame 41, for example, the inner ring opening of the mounting frame 41 is a circular opening, and the inner lid 42 is configured in a circular plate shape, so that the inner ring opening can be closed when the inner lid 42 is closed, and then the inner ring opening can be laterally shielded in the washing tub 2, and the inner lid 42 can be exposed to the bottom environment of the washing tub 2. The inner cover 42 is distributed with water holes 421 so that when the washing water reaches or exceeds the inner cover 42, part of the washing water can flow to the upper part of the inner cover 42 through the water holes 421, thereby promoting the floating shoe to abut against the bottom of the inner cover 42, and facilitating the friction between the shoe and the shoe washing component 3 or the ground of the inner cover 42 so as to achieve the purpose of washing the shoe.

Preferably, the rotating end of the inner cover 42 (the end opposite to the end where the inner cover 42 is pivotally connected to the mounting frame 41) is provided with a first clamping structure, and the mounting frame 41 is correspondingly provided with a second clamping structure, in the case that the inner cover 42 is rotated to be closed, the inner cover 42 drives the first clamping structure to rotate close to the second clamping structure, and the first clamping structure can be caused to contact and be clamped to the second clamping structure when the inner cover is closed in place, so that the inner cover 42 is caused to maintain the closed state, and the inner cover 42 is limited from being turned over towards the opening direction. As an example, the first clamping structure is an elastic claw 423 disposed at a side portion of the inner lid 42, the second clamping structure is a clamping groove matched with the elastic claw 423, when the inner lid 42 rotates close to the mounting frame 41, the elastic claw 423 can enter the clamping groove in a manner of deforming close to the side portion of the inner lid 42, so as to allow the inner lid 42 to rotate to a fully closed state, and the elastic claw 423 can be clamped in the clamping groove through a rebound action, so that the inner lid 42 is locked in a closed state.

More preferably, one end of the elastic claw 423 away from the inner lid 42 extends upward toward a side of the inner lid 42 away from the tub bottom, and the end is provided with a pull structure 424 capable of being pulled by a user from above the inner lid 42, so that the user can cause the elastic claw 423 to deform close to the inner lid 42 by pulling the pull structure 424 to move into or out of the catching groove, and also can open the inner lid 42 by pulling the pull structure 424 upward, optimizing the operational convenience of the inner lid 42 having a locking function.

In the above, it should be noted that the installation position of the installation frame 41 on the washing tub 2 is not limited, and although the present invention is described with the middle of the installation frame 41 fixed inside the washing tub 2 being at a position above, the present invention is not limited as long as the installation position of the installation frame 41 can satisfy the requirement of the shoe washing member 3 to rub and wash floating shoes. For example, the mounting frame 41 may be disposed at a bung of the washing tub 2. In this case, since the washing water does not have a need to be submerged in the inner lid 42, a water passing structure such as the water passing hole 421 may not be provided in the inner lid 42.

In addition, the pivotal connection structure of the mounting frame 41 and the inner lid 42 is not limited, and they may be connected by any structure capable of allowing the inner lid 42 to be turned open/closed, such as a pivot shaft and shaft hole structure, a folding hinge structure, and the like.

In a preferred embodiment, the shoe washing member 3 is detachably connected to the inner lid 42, so that the user can detach the shoe washing member 3 from the inner lid 42 to clean up the shoe washing member 3 for maintenance or repair.

As shown in fig. 3, as a preferable example, a side of the inner lid 42 facing the tub bottom is provided with a mounting chute 422 in a radial direction, the mounting chute 422 is arranged in the radial direction of the inner lid 42, the mounting chute 422 includes an open end 422A and a mounting end 422B, the open end 422A is provided at a side of the inner lid 42, the mounting end 422B is provided at a central position of the inner lid 42, and the mounting chute 422 is recessed inwardly through the side of the inner lid 42 facing the tub bottom to form a sliding channel at the side of the inner lid 42 facing the tub bottom, the sliding channel position is provided with a stopper, a side of the shoe washing member 3 adjacent to the inner lid 42 is provided with a stopper which can be moved into or out of the mounting chute 422 from the side of the inner lid 42 through the open end 422A, and can slide along the sliding channel after entering the mounting chute 422, the stopper can be prevented from being separated from the sliding channel after entering the mounting chute 422, so that the footwear washing member 3 can be slid by the latch and mounted to the center position of the inner lid 42.

Further, the opening end 422A is formed at the rotation side of the inner lid 42, so that the user can detach the footwear washing member 3 by pulling up the footwear washing member 3 after the inner lid 42 is opened, and the force applying direction and the force applying angle when the user detaches the footwear washing member 3 are smoother. One side that installation spout 422 is close to installation end 422B still is provided with spacing arch, and the fixture block can be slided spacing arch and reach installation end 422B under the gliding situation of user's application of force to its one side that is close to open end 422A can be by spacing protruding butt under the situation of fixture block slip to installation end 422B, so that the fixture block can be restricted by spacing arch when nobody's application of force pulls in the installation end 422B position, promotes the installation stability of shoe washing component 3.

With any of the above embodiments, preferably, the shoe washing member 3 is raised toward the bottom of the bucket relative to the inner cover 42, and the shoe washing member 3 is arranged to be gradually enlarged or gradually enlarged in radial dimension from the top thereof far away from the inner cover 42 to the bottom thereof near the inner cover 42, so that the shoe washing member 3 has a shape gradually spreading from the top to the bottom, so that the shoe can be rubbed by the shoe washing member 3 for a longer time when moving near the shoe washing member 3, and the cleaning performance of the shoe washing member 3 is improved. Under the condition that the friction shoe washing structure is arranged on the surface of the shoe washing component 3, the rubbing and washing vamp of the shoe washing component 3 is unfolded from the brush top to the brush bottom, so that the shoes which are more than one shoe are rubbed simultaneously to be cleaned when a plurality of shoes exist around the shoe washing component 3, the shoe washing component 3 is convenient to accept the shoes which are floated from all angles in the circumferential direction, and the friction frequency of the shoe washing component 3 and the shoes is improved. The radial dimension of the shoe washing member 3 gradually increases from the top to the bottom, which is the condition that the radial dimension of the shoe washing member 3 is uniformly gradually changed from the top to the bottom, and when the radial dimension of the shoe washing member 3 gradually increases from the top to the bottom, the shoe washing member 3 can be in a shape with uniform increasing range of the radial dimension, such as an upper hemisphere, a dome shape, an inverted bowl shape, a truncated cone shape, and the like. The radial dimension of the shoe washing component 3 is gradually increased from the top to the bottom, namely the radial dimension of the shoe washing component 3 is changed from the top to the bottom at least by a section, for example, the radial dimension of the section from the top to the middle of the shoe washing component 3 is increased by a smaller range than the radial dimension of the section from the middle to the bottom, so that the overall shape of the shoe washing component 3 is similar to a gourd shape. The person skilled in the art can set the specific variation of the radial dimensions of the washing shoe members 3 according to the friction washing shoe needs, as long as the washing shoe members 3 have a shape that gradually/gradually expands from top to bottom.

In addition, the brush hair 411 is arranged downwards at the position where one side of the inner cover 42 facing the barrel bottom is not shielded by the shoe washing component 3 and/or at the side of the mounting frame 41 facing the barrel bottom, so that when the shoes move away from the shoe washing component 3, the shoes can be cleaned by the brush hair 411 on the inner cover 42 and/or the mounting frame 41 in a friction mode, and the cleaning efficiency of the shoes is further improved.

Preferably, the inside of washing tub 2 still is provided with silt collector 23, silt collector 23 sets up on the inside wall of washing tub 2 and is located the below of installing frame 41, this silt collector 23 includes the chamber shell that holds that links to each other with the inside wall of washing tub 2 and distributes in a plurality of silt imports on holding the chamber shell, the cavity that holds in the chamber shell passes through silt import and the inside washing space intercommunication of washing tub 2, so that the grit device in the washing water can get into and stay in holding the chamber shell through the silt import, reduce the impurity content in the washing water, reduce the impurity residual rate after the washing shoes.

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 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 shoe washing machine is characterized in that the shoe washing machine comprises a washing barrel, a shoe washing component and a mounting component which are arranged in the washing barrel,

the mounting member includes a connection structure connected to a sidewall of the washing tub and an inner lid pivotally connected to the connection structure, the inner lid being rotatably closed to block the shoes and rotatably opened,

the shoe washing member is connected to a side of the inner lid facing a tub bottom of the washing tub and is disposed downward so as to rub or contact shoes freely floating in washing water in a shoe washing situation.

2. The shoe washing machine of claim 1, wherein the coupling structure is an annular mounting frame, an outer side of the mounting frame is coupled to an inner sidewall of the washing tub, and the inner lid has a shape matching a shape of the inner circumferential opening of the mounting frame so as to shield or shield the inner circumferential opening.

3. The shoe washing machine of claim 2, wherein the mounting member further comprises a first snap structure provided at the rotation end of the inner lid and a second snap structure provided at the mounting frame,

under the condition that the inner cover is closed in a rotating mode, the first clamping structure and the second clamping structure can enable the inner cover to keep a closed state in a clamping and matching mode.

4. The shoe washing machine of claim 3, wherein the first clamping structure is an elastic claw, the second clamping structure is a clamping groove matched with the elastic claw,

one end, far away from the inner cover, of the elastic clamping jaw extends upwards towards one side, far away from the barrel bottom, of the inner cover, and a lifting structure is arranged at one end, far away from the inner cover, of the elastic clamping jaw.

5. A shoe washing machine according to claim 1 wherein said shoe washing member is removably attached to said inner cover.

6. The shoe washing machine according to claim 5, wherein a mounting chute is radially provided at one side of the inner lid facing the tub bottom, the mounting chute includes an open end and a mounting end, the open end is provided at a side portion of the inner lid, the mounting end is provided at a central position of the inner lid, the shoe washing member is provided with a latch,

the opening end allows the fixture block to enter the mounting chute, and the fixture block is in sliding fit with the mounting chute.

7. The shoe washing machine of claim 2, wherein a side of the mounting frame facing the tub bottom is downwardly disposed with bristles.

8. The shoe washing machine of claim 1, wherein the inner cover is provided with a water through hole.

9. A shoe washing machine according to any one of claims 1 to 8, characterized in that the shoe washing members are arranged to become progressively larger or progressively larger in radial dimension from top to bottom.

10. The shoe washing machine according to any one of claims 1 to 8, further comprising a pulsator rotatably disposed at a bottom inside the washing tub.

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