CN218338418U - Shoe washing equipment - Google Patents

Abstract

The application relates to the technical field of household appliances, and provides shoe washing equipment which comprises a shell, an inner container and a spraying mechanism, wherein the inner container is sleeved in the shell, a first accommodating space is limited between the inner container and the shell, and a washing cavity is formed in the inner container; the spraying mechanism is communicated with the washing cavity, and at least part of the spraying mechanism is arranged in the first accommodating space. The first containing space is limited between the inner container and the shell, so that part of the spraying mechanism is arranged in the first containing space, the shell serves as an appearance surface to hide the spraying mechanism in the first containing space, and therefore the shoe washing equipment is neat and attractive in appearance and high in space utilization rate. After the shell is detached from the inner container, the partial spraying mechanism can be maintained and replaced, so that the shoe washing equipment is convenient to maintain and replace.

Description

Shoe washing equipment

Technical Field

The application relates to the technical field of household appliances, in particular to shoe washing equipment.

Background

Among the correlation technique, shoe washing equipment carries out shoes through the mode that sprays and washes, sprays the inside setting that the mechanism stretched into shoe washing equipment, though can realize spraying the effect, nevertheless be not convenient for spray mechanism's maintenance and change to still lead to shoe washing equipment's space utilization low, shoe washing equipment's structure is bulky.

Disclosure of Invention

The present application is directed to solving at least one of the technical problems occurring in the related art. Therefore, the application provides a shoe washing device, the outward appearance is cleaner and tidier, pleasing to the eye, and space utilization is high, dismantles the shell from the inner bag after, can maintain and change the part mechanism that sprays to the maintenance and the change of convenient shoe washing device.

According to the shoe washing equipment provided by the embodiment of the application, the shoe washing equipment comprises:

a housing;

the inner container is sleeved in the shell, a first accommodating space is limited between the inner container and the shell, and a washing cavity is formed in the inner container;

and the spraying mechanism is communicated with the washing cavity, and at least part of the spraying mechanism is arranged in the first accommodating space.

According to the shoe washing equipment provided by the embodiment of the application, the first accommodating space is limited between the inner container and the shell, so that part of the spraying mechanism is arranged in the first accommodating space, the shell is used as an appearance surface to hide the spraying mechanism in the first accommodating space, and therefore the shoe washing equipment is neat and attractive in appearance and high in space utilization rate. After the shell is detached from the inner container, the partial spraying mechanism can be maintained and replaced, so that the shoe washing equipment is convenient to maintain and replace.

According to one embodiment of the application, a liquid inlet is formed in the top wall of the inner container, and a liquid outlet is formed in the bottom wall of the inner container;

the first accommodating space is further provided with a liquid supply assembly, the liquid supply assembly is respectively communicated with the liquid outlet and the spraying mechanism, and the liquid supply assembly is suitable for collecting the washing medium entering the washing cavity from the liquid inlet and conveying the washing medium to the spraying mechanism.

According to one embodiment of the application, the liquid supply assembly comprises:

the liquid collecting body is arranged at the bottom of the inner container and is communicated with the liquid outlet;

the first end of the first water pump is connected with the liquid collecting body, and the second end of the first water pump is communicated with the spraying mechanism through a liquid supply pipe assembly.

According to an embodiment of the application, the liquid supply assembly further comprises a filter component, and the filter component is arranged on any one of the liquid collection body or the first water pump.

According to an embodiment of the application, the filter part comprises a filter cartridge, the filter cartridge is located in the liquid collection body and is detachably connected to the liquid outlet, and at least one of the bottom wall and the side wall of the filter cartridge is provided with a water through hole.

According to one embodiment of the application, the part of the filter cartridge extending out of the inner surface of the inner container is provided with guide grooves at intervals.

According to one embodiment of the application, the inside of collection liquid body is provided with the heating part, is suitable for to the washing medium heating in the collection liquid body.

According to an embodiment of this application, still include door subassembly, the door subassembly can open and shut and connect in the inner bag, the door subassembly includes the first door body and the second door body that looks lock set up, the first door body with the second door body between the restriction second accommodation space, at least part the mechanism setting that sprays is in the second accommodation space.

According to one embodiment of the application, a shoe stretcher component suitable for supporting shoes is arranged on one side, facing the inner container, of the first door body.

According to an embodiment of the application, the inside of washing chamber is provided with the brush subassembly, the brush subassembly with the shoe stretcher subassembly sets up relatively, the brush subassembly is suitable for butt joint to the sole position of shoes.

According to one embodiment of the application, the bootie assembly comprises at least two bootie parts, the interior of which is configured with a bootie channel adapted to flush the interior of the shoe through the bootie channel.

According to an embodiment of this application, still include stoving subassembly, stoving subassembly includes air inlet pipeline and stoving part, the air inlet pipeline with shoe stretcher passageway intercommunication, the stoving part sets up on the air inlet pipeline.

According to one embodiment of the present application, a flow guide portion is provided on either one of the inner bladder and the first door body, the flow guide portion being adapted for fluid communication with the other of the inner bladder and the first door body.

According to an embodiment of this application, still including puting in the subassembly, washing chamber intercommunication inlet tube, it sets up to put in the subassembly on the water inlet path of inlet tube to be suitable for under rivers effect to wash the chamber and put in the detergent.

According to an embodiment of this application, be provided with the water intaking valve on the inlet tube, correspond on the shell the position of water intaking valve has seted up and has dodged the groove, the water intaking valve is worn to locate dodge the groove.

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

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or related technologies of the present application, the drawings needed to be used in the description of the embodiments or related technologies are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a shoe washing apparatus provided in an embodiment of the present application (with a door assembly in a second position);

FIG. 2 is a schematic structural view of a shoe washing apparatus provided by an embodiment of the present application (with a door assembly in a first position);

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an exploded view of a shoe washing apparatus according to an embodiment of the present application;

FIG. 5 is an enlarged view of portion B of FIG. 4;

FIG. 6 is a second exploded view of the shoe washing apparatus provided in the embodiments of the present application;

FIG. 7 is a third exploded schematic view of the shoe washing apparatus provided in the embodiment of the present application;

FIG. 8 is a fourth exploded view of the shoe washing apparatus provided in the embodiments of the present application;

FIG. 9 is one of cross-sectional views of a shoe washing apparatus provided in an embodiment of the present application;

FIG. 10 is a second cross-sectional view of the footwear washing apparatus provided in the embodiments of the present application;

FIG. 11 is a cross-sectional view of a shoe stretcher assembly in the shoe washing apparatus provided by the embodiments of the present application;

FIG. 12 is a partial cross-sectional view of a footwear washing apparatus according to an exemplary embodiment of the present application;

FIG. 13 is an enlarged view of section C of FIG. 12;

FIG. 14 is an enlarged view of portion D of FIG. 12;

FIG. 15 is a schematic structural view of a dispensing assembly and a liquid supply assembly of the shoe washing apparatus provided in an embodiment of the present application;

fig. 16 is a schematic structural diagram of a throwing assembly in the shoe washing equipment provided by the embodiment of the application.

Reference numerals:

10. a body; 11. an inner container; 111. a liquid inlet; 112. a liquid discharge port; 113. a first spray port; 114. a support leg; 115. an opening; 12. a housing; 121. an open slot; 122. an avoidance groove; 123. a handle slot; 13. a washing chamber; 14. connecting a support; 15. a rotating member; 16. a first magnetic member;

20. a door assembly; 21. a first door body; 211. a clamping groove; 212. a positioning groove; 213. a communicating hole; 214. mounting grooves; 215. inserting grooves; 216. a boss portion; 217. a second spray port; 218. a third spray port; 22. a second door body; 221. a clamping block; 222. positioning the projection; 223. a reinforcing portion; 23. an avoidance part; 24. connecting the branch pieces; 25. a second magnetic member;

30. a flow guide part; 31. a baffle; 311. accommodating grooves; 312. limiting teeth; 32. a seal member;

40. a spraying mechanism; 41. a first spray assembly; 411. a first spray body; 412. a first spray chamber; 413. a sealing groove; 42. a second spray assembly; 421. a second spray body; 422. reserving a port;

50. a brushing mechanism; 51. a brush assembly; 511. a brush; 5111. a first brush part; 5112. a second brush part; 512. a brush shaft; 513. a housing; 52. a driven assembly; 521. a first driven gear; 522. a second driven gear; 523. a third driven gear; 524. a fourth driven gear; 525. a fifth driven gear; 53. a drive assembly; 531. a motor; 532. a driving gear;

60. a shoe stretcher assembly; 61. a shoe stretcher component; 611. a first shoe support portion; 612. a second heel section; 613. a mounting flange; 614. inserting flanges; 615. a drainage part; 616. a joining section; 62. a shoe stretcher channel;

70. a launch assembly; 71. putting the body; 711. a feeding cavity; 712. a throwing port; 713. a water inlet; 714. a top wall; 715. a side wall; 716. sealing the groove; 717. a second reinforcing rib; 72. a flow guide member; 721. a first end portion; 722. a second end portion; 723. an extension portion; 724. a first reinforcing rib; 73. a throwing cover; 731. a lid handle; 74. an elastomeric seal; 741. a first contact surface; 742. a second contact surface; 743. a deformation groove;

80. a liquid supply assembly; 81. a liquid collection body; 82. a first water pump; 83. a connecting pipe; 84. a liquid supply tube assembly; 841. a main line liquid supply pipe; 842. a branch liquid supply pipe; 8421. a first branch supply tube; 8422. a second branch supply tube; 8422-1, a first secondary branch supply tube; 8422-2, a secondary branch liquid supply tube; 843. a four-way valve; 844. a three-way valve; 85. a filter member; 851. a filter cartridge; 852. water passing holes; 853. a diversion trench; 86. a heating member;

90. a drying assembly; 91. an air inlet pipeline; 911. a first air inlet pipe; 912. a second air inlet pipe; 913. a third air inlet pipe; 92. a drying component; 921. a fan; 922. a heating chamber;

100. an adjustment assembly; 101. a regulation cabin; 1011. a first input port; 102. a drainage member; 1021. a first bisecting section; 1022. a second bisecting section; 1023. a first drainage part; 1024. a second drainage part; 103. a first check valve; 104. a second check valve;

200. a water inlet pipe; 201. a water inlet valve;

300. a drain pipe; 301. and a second water pump.

Detailed Description

Embodiments of the present application will be described in further detail below with reference to the drawings and examples. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should be noted that the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection, unless explicitly stated or limited otherwise; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

In the embodiments of the present application, unless otherwise explicitly specified or limited, a first feature "on" or "under" a second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "above," and "over" a second feature may be directly on or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of an embodiment of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Referring to fig. 1 to 16, embodiments of the present application provide a shoe washing apparatus for washing various types of shoes, such as: casual shoes, sports shoes, tourist shoes, negative heel shoes, heightening shoes, rain shoes, dance shoes, etc. As shown in fig. 1 and 2, the shoe washing apparatus includes a body 10 and a door assembly 20, the body 10 being a main body of the entire shoe washing apparatus, and a washing chamber 13 constructed inside the body 10, the washing chamber 13 being capable of accommodating shoes, a washing medium, etc., the washing medium being water or a mixture of water containing detergent. An opening 115 is formed at one side of the body 10, the opening 115 communicates with the washing chamber 13, and shoes can be put into the washing chamber 13 or taken out from the inside of the washing chamber 13 through the opening 115.

The body 10 is a box-shaped structure with one open side and the other five closed sides, and the five closed sides form a cavity, i.e. a washing cavity 13. The body 10 may have other structures such as a diamond shape and a cylindrical shape, besides the box-shaped structure, and the structural shape of the body 10 may be adaptively adjusted according to the preference of the user.

As shown in fig. 2, the door assembly 20 is openably and closably disposed at an opening 115 of the body 10, and is switchable between a first position of opening the opening 115 and a second position of closing the opening 115. When the door assembly 20 is in the first position, shoes can be placed into the washing chamber 13 through the opening 115, or shoes that have been washed can be removed from the washing chamber 13. When the door assembly 20 is in the second position, which corresponds to the door assembly 20 being used to close off the opening 115, the washing chamber 13 is in a closed state and the shoe washing apparatus is in an operative state.

Referring to fig. 4, it is understood that in some embodiments of the present application, the door assembly 20 may be rotatably connected to the body 10 by a connection, which may be a hinge or a hinge, etc.

When the connecting portion is a hinge, it includes a connecting support 14 disposed on the machine body 10, a connecting support 24 disposed on the door assembly 20, and a rotating member 15 rotatably connecting the connecting support 14 and the connecting support 24, where the rotating member 15 may be a rotating shaft or a pin, and the connecting support 14 may be welded on the machine body 10 or detachably connected to the machine body 10 by a fastener such as a bolt. The connecting leg 24 may also be welded to the door assembly 20 or removably attached to the door assembly 20 by fasteners such as bolts. When the door assembly 20 is turned to open or close the opening 115 of the body 10, the connecting support 24 rotates the door assembly 20 around the rotating shaft or pin.

The connection bracket 14 may be provided on either the body 10 or the door assembly 20. When the connecting bracket 14 is disposed on the door assembly 20, the connecting leg 24 is correspondingly disposed on the body 10. Any connecting member for opening the opening 115 or closing the opening 115 by moving the door assembly 20 is possible as long as the pivotal connection between the door assembly 20 and the body 10 can be ensured, for example, the door assembly 20 and the body 10 are slidably connected by a sliding rail, and the door assembly 20 is pushed to open the opening 115 or close the opening 115.

Referring to fig. 2 and 7, it can be understood that a liquid inlet 111 and a liquid outlet 112 are provided on the body 10, that is, the liquid inlet 111 and the liquid outlet 112 are provided on the wall of the washing chamber 13, the liquid inlet 111 can be communicated with the water inlet pipe 200 to supply water to the washing chamber 13 of the washing apparatus, that is, one end of the water inlet pipe 200 is connected to an external water source, which may be tap water, well water, etc., and the other end of the water inlet pipe 200 is connected to the liquid inlet 111. The drain port 112 may communicate with a drain pipe 300 to drain the sewage after the shoe washing apparatus washes.

In particular, as will be appreciated by reference to the orientation of FIG. 10, the loading port 111 is disposed in a top wall of the wash chamber 13 to facilitate the flow of the wash medium into the wash chamber 13 by gravity. The liquid outlet 112 is disposed on the bottom wall of the washing chamber 13 to facilitate the discharge of the washing medium from the liquid outlet 112, the liquid inlet 111 and the liquid outlet 112 may be disposed in a staggered manner or aligned, and the specific arrangement may be selected according to the usage.

Referring to fig. 2 to 8, and fig. 15, it can be understood that the shoe washing apparatus is further provided with a spraying mechanism 40, at least a portion of the spraying mechanism 40 is disposed on the wall of the washing chamber 13, that is, a portion of the spraying mechanism 40 is disposed on at least one side wall of the machine body 10. Referring to the orientation layout in fig. 10, for example, a spraying mechanism 40 is disposed on at least one of the top wall, the bottom wall, the left side wall, the right side wall and the rear side wall of the machine body 10, and the washing medium sprays high-speed jet flow through the spraying mechanism 40 to continuously impact and spray the shoes, so that the dirt cleaning of the shoes is realized, and the effect of cleaning the shoes is achieved.

At least a portion of the spray mechanism 40 is disposed on the door assembly 20, i.e., another portion of the spray mechanism 40 is disposed on the door assembly 20. High-speed jet flow is sprayed into the washing cavity 13 through the spraying mechanism 40 on the door assembly 20 so as to continuously impact and spray the shoes, thereby realizing the dirt cleaning of the shoes and achieving the effect of cleaning the shoes.

As shown in fig. 8 and 15, the spraying mechanism 40 includes a first spraying assembly 41 and a second spraying assembly 42, the first spraying assembly 41 is detachably connected to the machine body 10 by a fastener such as a screw, and the jet flow sprayed by the first spraying assembly 41 can wash the side of the shoes, which can be understood as the surface of the upper adjacent to the sole; the second spray assembly 42 is removably attached to the door assembly 20 by fasteners such as screws, and the spray from the second spray assembly 42 washes the front of the shoe, which is understood to be the surface of the upper of the shoe opposite the sole of the shoe.

Specifically, as shown in fig. 15, the first spraying assembly 41 includes a first spraying body 411, the first spraying body 411 is a shell-shaped structure, a liquid storage space is configured inside the first spraying body 411 to form a first spraying chamber 412, and a plurality of first spraying ports 113 are disposed on a chamber wall of the washing chamber 13, that is, a side wall of the machine body 10, as shown in fig. 8 and 10. The first spraying ports 113 are distributed on the sidewall of the machine body 10 in a planar array and located on the wall surface of the washing chamber 13, so as to avoid occupying the inner space of the washing chamber 13. The first spraying ports 113 may also be arranged on the sidewall of the body 10 along the circumference of the shoe, so that the spraying area of the first spraying ports 113 can cover the surface of the shoe, as well as the sole portion, to ensure that every part of the shoe can be sprayed by the jet flow.

As shown in fig. 6 to 8 and fig. 15, the first spraying body 411 is detachably connected to the outer side of the cavity wall of the washing cavity 13 corresponding to the distribution area of the plurality of first spraying ports 113, the first spraying body 411 can be connected to the outer surface of the cavity wall of the washing cavity 13 in a sealing manner, so that the first spraying cavity 412 forms a sealed liquid storage space, and the manner of connecting the water inlet pipe 200 and the first spraying body 411 to supply liquid in the liquid storage space may include any one of the following:

in the first liquid supply mode, the water inlet pipe 200 may be communicated with the liquid supply assembly 80, the liquid supply assembly 80 is communicated with the first spray body 411 to supply liquid to the liquid storage space, the washing medium entering the liquid supply assembly 80 from the water inlet pipe 200 enters the liquid storage space formed by the first spray body 411 and the outer side of the cavity wall of the washing cavity 13 after being pressurized, and the washing medium is continuously sprayed out from the first spray port 113 to effectively flush the shoes.

The second liquid supply mode is that the water inlet pipe 200 is communicated with the liquid inlet 111 to directly convey and wash the interior of the washing cavity 13, the first end of the liquid supply assembly 80 is communicated with the liquid outlet 112, the second end of the liquid supply assembly 80 is communicated with a spray body 411 to supply liquid for a liquid storage space, a washing medium in the water inlet pipe 200 firstly enters the washing cavity 13 from the liquid inlet 111 to preliminarily wash shoes, the washed washing medium enters the liquid supply assembly 80, the washing medium enters the liquid storage space formed by the spray body 411 and the outer side of the cavity wall of the washing cavity 13 after being filtered and pressurized, and the washing medium is continuously sprayed out from the first spray port 113 to effectively wash the shoes.

In the third liquid supply mode, the water inlet pipe 200 can be directly communicated with the first spraying body 411 to continuously supply water to the liquid storage space, so that the first spraying port 113 has enough washing media to spray out, and the shoe washing equipment is ensured to have continuously sprayed jet flow to wash shoes.

The first spraying chamber 412 can be directly communicated with the water inlet pipe 200, water is supplied to the first spraying chamber 412 through the water inlet pipe 200, and the water stored in the first spraying chamber 412 is sprayed out from the first spraying port 113 after the water amount is increased, so that the shoes can be washed.

The first body 411 that sprays covers the first region of laying that sprays mouth 113 completely, can understand, the first projection that sprays body 411 on organism 10 lateral wall covers all first mouth 113 that sprays to make all first mouths 113 that spray a chamber of sharing, integrate the structure and set up, with the structure size that reduces shoe washing equipment, the shoe washing equipment of being convenient for removes and deposits, accords with frivolous design theory, is convenient for spray the maintenance and the change of subassembly moreover.

The first spraying cavity 412 is used as a liquid storage space, so that the washing medium entering the first spraying cavity 412 firstly can be sprayed out, and along with the increase of the storage capacity of the washing medium in the first spraying cavity 412, each first spraying port 113 communicated with the first spraying cavity 412 can be ensured to have enough washing medium to be sprayed out, and the shoe washing equipment is ensured to have continuously sprayed jet flow to wash shoes.

In addition, after the shoes are placed in the washing chamber 13, at least a portion of the first spraying ports 113 of the first spraying assemblies 41 disposed at both left and right sidewalls of the washing chamber 13 may be positioned higher than the heights of the shoes so that the first spraying assemblies 41 simultaneously wash the sides and uppers of the shoes. It is also possible to position at least a portion of the first spray ports 113 of the first spray assembly 41 provided on the front wall of the washing chamber 13 higher than the height of the shoes so that the first spray assembly 41 washes the front of the shoes. At least a part of the first spraying ports 113 in the first spraying assembly 41 arranged on the rear wall of the washing chamber 13 can be higher than the height of the shoes, so that the first spraying assembly 41 can wash the soles, the spraying area of the first spraying assembly 41 can completely cover the soles and the vamps of the shoes, and the shoes can be cleaned in all directions.

As shown in fig. 6 to 8 and fig. 15, it can be understood that at least two side walls of the machine body 10 are provided with first spraying ports 113, that is, at least two side walls of the machine body 10 are provided with first spraying assemblies 41, the first spraying assemblies 41 are located on two side walls of the machine body 10 which are opposite to each other, and when shoes are placed in the washing chamber 13, the first spraying assemblies 41 spray in two directions to effectively wash the shoes.

As shown in fig. 15, a sealing groove 413 is formed along the periphery of the first spraying body 411 on the side of the first spraying body 411 facing the machine body 10, a sealing ring or a sealing strip or other members capable of sealing may be embedded in the sealing groove 413, or a sealing protrusion (not shown in the figure) may be disposed on the machine body 10 corresponding to the sealing groove 413, and when the first spraying body 411 is connected to the sidewall of the machine body 10, the sealing protrusion is embedded in the sealing groove 413, so that the first spraying body 411 and the machine body 10 can be hermetically connected.

It should be noted that the shape of the first spraying port 113 is not limited, and the shape of the first spraying port 113 may be a circle, a bar, a block structure, and the like. The arrangement of the first spraying ports 113 on the side wall of the machine body 10 is not limited, for example, the first spraying ports 113 may be arranged in an array on the side wall of the machine body 10, and the arrangement region may have a rectangular shape, a circular shape, a triangular shape, a rhombic shape, and the like.

As shown in fig. 2, 4 and 15, it can be understood that the second spray assembly 42 includes a second spray body, and the structural shape of the second spray body 421 may be the same as the structural shape of the first spray body 411, and all are shell-shaped structures. Set up the second that is plane array distribution on door subassembly 20 and spray mouthful 217, avoid second to spray mouthful 217 protrusion washing chamber 13's chamber wall surface, occupy washing chamber 13's inner space.

As shown in fig. 4 and 15, the second spraying body 421 is detachably connected to the door assembly 20 corresponding to the distribution area of the plurality of second spraying openings 217, and a closed liquid storage space can be formed on the outer surface of the door assembly 20, and the manner of connecting the water inlet pipe 200 and the second spraying body 421 to supply liquid into the liquid storage space may include any one of the following:

in the first liquid supply mode, the water inlet pipe 200 can be communicated with the liquid supply assembly 80, the liquid supply assembly 80 is communicated with the second spray body 421 to supply liquid to the liquid storage space, the washing medium entering the liquid supply assembly 80 from the water inlet pipe 200 enters the liquid storage space formed by the second spray body 421 and the door assembly 20 after being pressurized, and the washing medium is continuously sprayed out from the second spray port 217 to effectively wash the shoes.

The second liquid supply mode is that the water inlet pipe 200 is communicated with the liquid inlet 111 to directly convey and wash the interior of the washing cavity 13, the first end of the liquid supply assembly 80 is communicated with the liquid outlet 112, the second end of the liquid supply assembly 80 is communicated with the second spray body 421 to supply liquid to the liquid storage space, the washing medium in the water inlet pipe 200 firstly enters the washing cavity 13 from the liquid inlet 111 to preliminarily wash shoes, the washed washing medium enters the liquid supply assembly 80, the washing medium enters the liquid storage space formed by the second spray body 421 and the door assembly 20 after being filtered and pressurized, and the washing medium is continuously sprayed out from the second spray port 217 to effectively wash the shoes.

In the third liquid supply mode, the water inlet pipe 200 can be directly communicated with the second spraying body 421 to continuously supply water to the liquid storage space, so that the second spraying port 217 has enough washing media to spray out, and the shoe washing equipment is ensured to have continuously sprayed jet flow to wash shoes.

The second sprays the distribution region that body 421 corresponds a plurality of seconds and sprays mouth 217, can understand that the second sprays the body 421 and covers the second completely and spray the district of laying of mouth 217, the second sprays the projection of body 421 on door subassembly 20 promptly and covers all second and spray mouth 217, thereby make all second spray mouth 217 share one and spray the chamber, when not influencing the washing effect, integrate the structure and set up, in order to reduce the size of door subassembly thickness direction, make the door body accord with frivolous design theory.

In addition, the sealing connection between the second spraying body 421 and the door assembly 20 is the same as the sealing connection between the first spraying body 411 and the sidewall of the machine body 10, and therefore, the description thereof is omitted.

It should be noted that the opening 115 may be disposed on the top wall or any one of the side walls of the machine body 10, and when the opening 115 is disposed on the top wall of the machine body 10, the position corresponding to the opening 115 of the door assembly 20 is disposed on the top wall of the machine body 10, so that the second spraying assembly 42 can be adaptively disposed on any one of the side walls of the door assembly 20 or the machine body 10, that is, any one of the chamber walls of the washing chamber 13, according to the disposition position of the shoe stretcher assembly 60 and the hanging position of the shoe.

It can be understood that, through offering the second mouth 217 that sprays on door subassembly 20, can effectively wash the front of shoes, wash with the angle that first mouth 113 of spraying mutually supported the vamp of shoes with a plurality of directions such as forward and side direction spray, guarantee the cleaning performance of shoes, avoid washing shoes equipment to exist and spray the dead angle.

In addition, other spraying openings (not shown in the figure) can be formed in the bottom wall of the machine body 10 or the rear wall of the machine body 10 opposite to the sole, and other spraying assemblies are correspondingly arranged on the other spraying openings to wash the shoes. When the rear wall of the machine body 10 opposite to the sole is provided with the spraying port, the spraying range of the spraying port can cover at least one part of the sole of the shoe to specially spray and wash the sole region, so that the cleaning efficiency of the sole is enhanced, and the cleaning effect of the shoe washing equipment is improved.

As shown in fig. 4, a reserved opening 422 is provided on the second spraying body 421, and the reserved opening 422 can be directly connected to an external water source, such as a water tap, so that the second spraying assembly 42 is suitable for use in various situations, for example, when each pipeline of the liquid supply pipe assembly 84 cannot be used during maintenance or replacement, the external water source can be connected to the reserved opening 422, thereby achieving the purpose of washing shoes.

It should be noted that the first spraying assembly 41 and each second spraying assembly 42 may be connected to the independent water inlet pipes 200 respectively to supply water thereto, or a single water inlet pipe 200 may be used, and a multi-way valve is provided on the water inlet pipe 200 to supply water to each spraying assembly.

The shoe washing equipment that this application embodiment provided effectively washs in order to carry out the washing with vamp and the sole to shoes through setting up the multiunit subassembly that sprays, when guaranteeing the cleaning performance, further guarantees the integrality of shoes to adapt to leather material and plastic materials etc. and carry out abluent shoes through spouting water washing medium easily.

Referring to fig. 2, 8, 9, 10 and 12, it can be understood that the washing apparatus further includes a brushing mechanism 50, the brushing mechanism 50 includes a brush assembly 51, a driven assembly 52 and a driving assembly 53, the brush assembly 51 is disposed inside the washing chamber 13, the driven assembly 52 is disposed between two ends of the brush assembly 51, and the driving assembly 53 is in transmission connection with the driven assembly 52 to drive the driven assembly 52 to move, so as to drive the brush assembly 51 to brush the shoes.

As shown in fig. 9 and 10, the brush assembly 51 includes a plurality of brushes 511, the driven assembly 52 includes a plurality of driven members, any two adjacent brushes 511 are in transmission connection with each other through the driven members, and the driving assembly 53 is in transmission connection with any one of the driven members.

As shown in fig. 10 and 12, the driven members include a plurality of driven gears arranged in a linear manner, any two adjacent driven gears are engaged with each other, and the driving assembly 53 is in transmission connection with any one of the driven gears. The driven assembly can also be a belt and pulley combination, a chain and sprocket combination, a plurality of gear combinations, and the like. In order to make the driven assembly simple in structure, stable in transmission and low in manufacturing cost, effectively prevent slipping and realize a wider transmission ratio, the driven assembly is in a form of combining a plurality of gears.

As shown in fig. 7 and 12, the driving assembly 53 includes a motor 531, and the motor 531 is disposed outside the cavity of the washing chamber 13 to prevent the washing medium from entering the motor 531 to be damaged. An output shaft of the motor 531 passes through the machine body 10 and is drivingly connected to any one of a plurality of driven gears located in the washing chamber 13.

As shown in fig. 9 and 10, the brush assembly 51 further includes a brush shaft 512, the brushes 511 are detachably connected to the brush shaft 512, the number of the driven gears corresponds to the number of the brush shaft 512, and the driven gears can be arranged in a one-to-one correspondence with the brush shaft 512, the driving gear 532 is connected to any one of a plurality of driven gears, for example, the brush shaft 512 can be five groups, and correspondingly, the number of the driven gears is five, and each group of the brush shaft 512 is connected to the corresponding driven gear.

As shown in fig. 9, 10 and 12, five sets of brush assemblies 51 are disposed inside the washing chamber 13, and the brush shafts 512 of each set of brush assemblies 51 are connected with corresponding driven gears, and the driven gears can be connected to the outer surfaces of the brush shafts 512 in an interference fit manner, or connected to the brush shafts 512 through a key, so that other connection manners that the driven gears rotate to synchronously drive the brush shafts 512 to rotate are possible.

As shown in fig. 12, a plurality of driven gears provided corresponding to the number of the brush shafts 512 may be referred to as a first driven gear 521, a second driven gear 522, a third driven gear 523, a fourth driven gear 524, and a fifth driven gear 525, respectively. The first driven gear 521, the second driven gear 522, the third driven gear 523, the fourth driven gear 524 and the fifth driven gear 525 are engaged with each other and linearly arranged, that is, the first driven gear 521, the second driven gear 522, the third driven gear 523, the fourth driven gear 524 and the fifth driven gear 525 are arranged in series, and all the driven gears are arranged inside the washing chamber 13.

The motor 531 may directly drive any one of the first driven gear 521, the second driven gear 522, the third driven gear 523, the fourth driven gear 524, and the fifth driven gear 525. The output end of the motor 531 may also be connected to the driving gear 532 through a key connection, an interference fit or an integral design, and the driving gear 532 is inserted into the body 10 and engaged with any one of the plurality of driven gears.

Motor 531 and driving gear 532 all set up in the outside of organism 10, through setting up driven component 52 in the inside of organism 10, not only can effectively reduce the structure size of shoe washing equipment to reduce the area occupied of shoe washing equipment, the shoe washing equipment of being convenient for removes and deposits, in order to realize the design theory of frivolousization. And the space between the inner wall of the cavity and the shoes can be reduced, so that the sprayed washing medium can be reflected to the shoes after impacting the outside of the driven assembly 52, the shoes can be repeatedly cleaned, and a good washing effect can be realized.

In addition, a plurality of driven gears arranged in series are directly driven by one motor 531, so that the arrangement cost of the driving assembly 53 is reduced, and the volume of the shoe washing equipment is reduced.

As shown in fig. 9, the brush 511 extends along the axis of the brush shaft 512 to form a spiral structure, when the brush shaft 512 rotates to drive the brush 511 to rotate, the spiral brush 511 can change the position of collision with the sole of the shoe, i.e., the friction position, i.e., the brushing position, thereby enabling the sole of the shoe to have a better brushing effect, ensuring that the brushing range of the brush 511 completely covers the whole sole area of the shoe, so as to improve the cleaning effect of the shoe cleaning device, and simultaneously preventing the brush 511 from brushing the same part of the shoe, so as to excessively wear the sole of the shoe, and shorten the service time of the shoe.

The brush 511 is detachably attached to the brush shaft 512, that is: the brush 511 may be formed in a cluster structure, and each cluster may be mounted on the brush shaft 512 in a socket manner. The brush 511 may be integrally provided, and the brush 511 may be integrally coupled to the brush shaft 512 by a fastening member such as a screw. When the brush 511 is worn or damaged for a while and cannot continue to work normally, the user can replace the brush 511 by himself or herself.

The brush 511 can be selected according to the sole material of shoes, generally chooses the brush 511 of hair system for use, or the brush 511 of silica gel material, the brush 511 of silica gel material is more soft, easy deformation, frictional resistance is big, not only can increase the sole of shoes and the frictional force between the brush 511, and then promote the clearance effect of brush 511, when the sole in close contact with of brush 511 and shoes in addition, the deformation can the adaptability must take place for brush 511 to prevent that brush 511 from damaging the shoes excessively hard.

As shown in fig. 9, the driven assembly 52 is located at the middle position of the brush shaft 512, and two ends of the brush shaft 512 can be suspended, so that the connection between the brush shaft 512 and the driven assembly 52 is only required to be ensured. In order to improve the stability of the brush shaft 512, at least one end of the brush shaft 512 can be rotatably connected to the cavity wall of the washing cavity 13, a fixing seat can be arranged on the cavity wall of the washing cavity 13, a bearing is assembled in the fixing seat, a shaft sleeve is arranged at the corresponding end of the brush shaft 512, the brush shaft 512 is matched with the bearing through the shaft sleeve, when the brush shaft 512 rotates along with the driven component 52, the brush shaft 512 can drive the bearing to rotate, and equivalently, the brush shaft 512 has at least two fixing points, so that the motion stability of the brush shaft 512 is improved.

The driven assembly 52 may be installed at a middle position of the brush shaft 512, or may be installed on a sidewall of the machine body 10, such that a first end of the brush shaft 512 is connected to the sidewall of the machine body 10 through the driven assembly 52, and a second end of the brush shaft 512 is connected to the other sidewall of the machine body 10 opposite to the driven assembly 52 through a transmission member such as a bearing.

As shown in fig. 9, the brush 511 may include a first brush portion 5111 and a second brush portion 5112, and the first brush portion 5111 and the second brush portion 5112 may be formed by being partitioned by the installation position of the driven member 52 on the brush shaft 512, and thus, the first brush portion 5111 and the second brush portion 5112 may be symmetrically disposed with respect to a bisector of the length direction of the brush shaft 512, which is also a square of the brush shaft 512 in the axial direction of the brush shaft 512.

When the brush shaft 512 rotates to drive the brush 511 to synchronously rotate, the first brush part 5111 and the second brush part 5112 located at two sides of the driven assembly 52 can simultaneously rotate to collect the brushed stains to the position of the driven assembly 52, i.e. the stains to be brushed are collected to the middle part of the brush 511, i.e. the middle areas of the first brush part 5111 and the second brush part 5112, so that the water line conveniently sprayed brings the brushed stains away from the washing cavity 13, and the washing effect of the shoe washing device is improved.

As shown in fig. 9 and 10, in order to clean the heel and the toe completely, the lengths of the bristles of the first brush part 5111 and the second brush part 5112 at the end close to the inner wall of the cavity of the washing cavity 13 are both greater than the lengths of the bristles of the first brush part 5111 and the second brush part 5112 at the end close to the driven component 52, that is, the bristles of the middle area of the brush 511 on the brush shaft 512 are short, the bristles of the two end areas are long, and the length direction of the shoe is consistent with the axial direction of the brush shaft 512, so that the heel and the toe touch the area with the long bristles, and the heel and the toe are conveniently cleaned.

As shown in fig. 9, in order to prevent the washing medium from entering the interior of the driven assembly 52 to affect the service life of the driven assembly 52, a housing 513 is provided at the exterior of the driven assembly 52, and the housing 513 is detachably connected to the inner wall of the washing chamber 13 for protecting the driven assembly 52.

When the housing 513 is installed on the inner wall of the cavity of the washing chamber 13, the distance between the inner wall of the cavity and the shoes is shortened in a manner of being equivalent to the protruding part of the inner wall of the cavity, so that when the water line sprayed by the spraying component impacts on the housing 513, the water line can be rapidly returned to the shoes, the shoes are repeatedly washed, the cleaning effect of the shoes is improved, and the water line sprayed is prevented from impacting on the inner wall of the cavity and then running off along the inner wall of the cavity.

After the shoes are placed in washing chamber 13, the sole of shoes is towards brush subassembly 51, and brush 511 butt to the sole position of shoes, the extending direction of brush axle 512 and the length direction mutually perpendicular of shoes, perhaps there is certain contained angle between the extending direction of brush axle 512 and the length direction of shoes to make the sole of a plurality of brushes 511 ability scrubbing shoes simultaneously, guarantee that the cleaning performance of shoes is better.

The shoe washing equipment that this application embodiment provided is at the washing in-process, and motor 531 drives the motion of driving gear 532, and driving gear 532 drives the driven gear motion rather than the meshing to make a plurality of driven gear synchronous motion of intermeshing, every driven gear drives the brush axle 512 motion rather than corresponding the connection, thereby makes the brush 511 synchronous motion of connecting on brush axle 512, with the sole of friction washing shoes, and the part upper of a shoe of shoes.

The shoe washing equipment that this application embodiment provided, because a plurality of driven gear set up side by side, adopt a motor 531 to drive a plurality of brush subassembly 51 simultaneous movement, consequently can simplify the structure setting of scrubbing mechanism 50, reduce the manufacturing cost who scrubs mechanism 50, gear drive can guarantee that the transmission is reliable, makes brush subassembly 51 steady operation to the sole and the upper of a shoe of rotatory washing shoes.

The shoe washing equipment that this application embodiment provided can be to the higher and difficult abluent sole region of dirty degree, scrub in order to realize effectively wasing the sole through a plurality of brush subassemblies 51 to only control the range of scrubbing of brush subassembly 51 at the sole region, and do not relate to other regions of shoes, effectively avoid brush subassembly 51 to cause wearing and tearing to other regions of shoes, guarantee the integrality of shoes.

The shoe washing device provided by the embodiment of the application can be used for matching the shoe upper area with poor tolerance and easy abrasion of each spraying assembly by the brushing mechanism 50, and ensuring the integrity of shoes when realizing good washing effect by using each spraying assembly to wash.

Referring to fig. 2, 11 and 12, it can be understood that a shoe stretcher assembly 60 is further provided in the washing chamber 13 of the shoe washing apparatus, and the shoe stretcher assembly 60 is used to support shoes. The shoe stretcher assembly 60 may be provided on any inner wall of the body 10, i.e., any one of the walls of the washing chamber 13, and also on the door assembly 20.

Referring to fig. 2, 10 and 11, the shoe washing apparatus further includes a shoe stretcher assembly 60, and the shoe stretcher assembly 60 is located in the washing chamber 13 to support shoes. Wherein, the shoe stretcher assembly 60 can be arranged on any side wall of the machine body 10 and also can be arranged on the door assembly 20.

As shown in fig. 10 and 11, when the shoe stretcher assembly 60 is disposed on the door assembly 20, the shoe stretcher assembly 60 includes at least two shoe stretcher parts 61, a first end of the shoe stretcher part 61 is connected to the door assembly 20, and a second end of the shoe stretcher part 61 is a free end. An angle is formed between the shoe stretcher part 61 and the door assembly 20 so that the shoe is hung on the shoe stretcher part 61.

The number of the shoe stretcher parts 61 can be set according to the number of the shoes, for example, when the shoe washing device can wash one pair of shoes each time, two sets of the shoe stretcher parts 61 are provided, the two sets of the shoe stretcher parts 61 are arranged on the door assembly 20 side by side, when the door assembly 20 is at the first position for closing the opening 115, the two sets of the shoe stretcher parts 61 are both positioned in the washing cavity 13, and the shoes are respectively hung on the two sets of the shoe stretcher parts 61; when the door assembly 20 is at the second position opening the opening 115, the two sets of shoe stretcher parts 61 rotate with the door assembly 20 to expose the two sets of shoe stretcher parts 61, and at this time, the shoes can be hung on the two sets of shoe stretcher parts 61 respectively or the shoes can be taken off from the two sets of shoe stretcher parts 61 respectively.

As shown in fig. 10 and fig. 11, a shoe stretcher channel 62 may be configured inside the shoe stretcher part 61, when the shoe is hung on the shoe stretcher part 61, the shoe stretcher channel 62 may be used as a washing channel, and a washing medium may flow through the shoe stretcher channel 62 to clean the inside of the shoe; alternatively, the shoe stretcher passage 62 may be a drying passage, and a drying air flow circulates from the shoe stretcher passage 62 to dry the shoes from inside to outside.

As shown in fig. 10 and 11, the cross-sectional shape of the shoe stretcher part 61 may be approximately "L" shaped to correspond to the inner structure of the shoe, and it includes a first shoe stretcher portion 611 and a second shoe stretcher portion 612 which are disposed at an angle to each other, a first end of the first shoe stretcher portion 611 being connected to the door assembly 20, a first end of the second shoe stretcher portion 612 being connected to a second end of the first shoe stretcher portion 611, and a second end of the second shoe stretcher portion 612 being a free end.

As shown in fig. 11, a plurality of injection holes (not numbered) are provided on a sidewall of the second temple portion 612, the plurality of injection holes communicate with the shoe stretcher channel 62, and the plurality of injection holes may be arranged along an extending direction of the shoe stretcher channel 62. When the shoe is hung on the shoe supporting part, the waterline sprayed by the spray holes can wash the inside of the shoe.

The plurality of nozzles may be arranged in an array along the extending direction of the shoe stretcher channel 62, or the plurality of nozzles may be arranged in a staggered manner on the sidewall of the second shoe stretcher section 612, so that the density of the nozzles may be adaptively arranged in a region with a higher degree of soiling, that is, the distance between two adjacent nozzles is smaller. For the region with lower stain degree, the density arrangement of the spray holes can be smaller, namely the spray holes are sparsely arranged, and the gap between two adjacent spray holes is larger. In any arrangement, the water line sprayed from the spray holes can completely cover the inside of the shoe.

In addition, a plurality of spray holes may be respectively provided on the first and second temple portions 611 and 612 to completely correspond the inner region of the footwear with the spray holes, thereby ensuring that the inner region of the footwear can be sufficiently cleaned.

As shown in fig. 11, in order to make the pressure of the washing medium sprayed from the shoe stretcher channel 62 higher and the impact force stronger, a drainage part 615 is provided at the second end of the second shoe stretcher part 612, and the drainage part 615 can provide a guiding effect for the washing medium so that the washing medium is sprayed to the farthest position inside the shoe in a concentrated manner.

The drainage area of the drainage portion 615 is gradually reduced toward a direction facing away from the second temple portion 612. The flow area of the washing medium is reduced, so that when the washing medium in the shoe stretcher channel 62 flows through the drainage part 615 to be sprayed outwards, the flow rate of the sprayed washing medium is high, a better cleaning effect can be realized, and meanwhile, the water stain cleaned in the shoe can be flushed to the washing cavity, so that the inside of the shoe can be cleaned more thoroughly.

As shown in fig. 11, for convenience of processing, the first and second temple portions 611 and 612 may be integrally formed, that is, the first and second temple portions 611 and 612 may be provided as an "L" shaped integral structure, and a temple channel 62 is formed through the integral structure.

The first and second portions 611 and 612 may be provided as two separate parts, which are fixed by welding or detachable connection, and a connection portion 616 is provided between the first and second portions 611 and 612, the connection portion 616 is inclined with respect to the first or second portion 611 or 612, that is, the connection portion 616 forms an angle with the first or second portion 611 or 612. The coupling portion 616 transitions between the first and second temple portions 611 and 612, which not only improves the structural strength of the temple portions, but also facilitates the mounting and dismounting of the shoe on and from the temple member 61.

It can be understood that the first heel portion 611 is disposed substantially perpendicular to the door assembly 20, and the substantially perpendicular state can be understood as being disposed substantially perpendicular to the heel portion, but does not include the perpendicular state, so as to ensure that the washing medium inside the shoe can be completely discharged when the shoe is hung on the heel portion 61, and prevent the washed sewage from remaining inside the shoe and affecting the washing effect.

The second temple portion 612 is disposed substantially parallel to the door assembly 20. When door subassembly 20 seals washing chamber 13, second shoes supporting part 612 vertical arrangement is in the inside of washing chamber 13, hang the shoes of dress on second shoes supporting part 612 also vertical arrangement in the inside of washing chamber 13, the heel part is roughly parallel form, so that when making high-speed rivers wash shoes inside through shoe stretcher passageway 62, the inside sewage after washing of shoes can follow the tip of a shoe along sole flow direction heel, flow to the welt from the heel, ensure that the inside shoes of discharging completely of sewage after the washing, in order to promote clean effect and washing time, avoid sewage to gather and can't discharge in shoes inside, need wash many times, the extension washing time.

As shown in fig. 11, in order to stabilize the installation of the first temple portion 611 on the door assembly 20, a mounting flange 613 is provided at an end portion of the first temple portion 611 to extend outward from the end surface, and the area of the cross section of the mounting flange 613 is larger than that of the cross section of the first temple portion 611. As shown in fig. 15, a mounting groove 214 is provided on the door assembly 20, and the mounting flange 613 may be fitted into the mounting groove 214 and fixedly mount the shoe tree assembly 60 to the door assembly 20 by a fastener such as a screw.

The first heel portion 611 is coupled to the door assembly 20 by the mounting flange 613 and the mounting groove 214, so that not only the stability of the first heel portion 611 can be increased, but also the sealing effect between the first heel portion 611 and the door assembly 20 can be increased, thereby preventing leakage between the first heel portion 611 and the door assembly 20, and simultaneously enabling the washing medium sprayed from the shower assembly to flow down from the surface of the mounting flange 613.

As shown in fig. 11, in order to further improve the sealing effect between the first heel portion 611 and the door assembly 20, a plug flange 614 is provided to extend outward from the mounting flange 613, and the cross-sectional area of the plug flange 614 is smaller than that of the mounting flange 613. As shown in fig. 15, an insertion groove 215 is formed at the bottom of the mounting groove 214, and an insertion flange 614 can be inserted into the insertion groove 215 in an interference fit manner to extend the length of the first receptacle part 611 extending into the door assembly 20, thereby achieving a good sealing effect.

To accommodate shoe stretcher assemblies 60 with different sized shoes, either first gusset 611 or second gusset 612 may be provided in a telescoping configuration, or both second gusset 612 and second gusset 612 may be provided in a telescoping configuration. That is, shoe stretcher assembly 60 is provided with an adjusting member (not shown in the figure), and this adjusting member can be adjusted along the shoes length direction of shoes so that shoe stretcher assembly 60 can adapt to the shoes length of shoes to under the stable prerequisite of guaranteeing shoes, make shoe stretcher assembly 60 can adapt to the shoes of multiple sizes, be convenient for the user to hang at shoe stretcher assembly 60 and dismantle shoes simultaneously.

For example, the second temple portion 612 includes a body and an extension portion along the length of the shoe, wherein an elastic member or a telescopic rod is disposed between the body and the extension portion to achieve the adjustment of the length of the second temple portion 612.

When the telescopic rod is arranged between the body and the extension part vertically, the telescopic rod comprises two rod bodies which are buckled, a plurality of limiting holes are formed in one of the rod bodies, a spring limiting pin is correspondingly arranged on the other rod body, the spring limiting pin is clamped in the limiting holes, and after one rod body stretches out relative to the other rod body, limiting can be achieved, so that the length of the second shoe supporting part 612 can be adjusted, and the shoe supporting part can be adapted to shoes of various sizes. The heel portion may also be adjustable in the shoe width direction of the shoe to enable the heel portion to adapt to the shoe width of the shoe.

It should be noted that, the arrangement positions of the brush assembly 51 and the spraying assemblies need to be adjusted accordingly according to the arrangement position of the shoe stretcher assembly 60, so that the brush assembly 51 and the spraying assemblies can effectively clean the soles and the uppers of the shoes.

Referring to fig. 15, it can be understood that the protrusion 216 is disposed on the side of the door assembly 20 facing the machine body 10, and the protrusion 216 is located between two adjacent shoe stretcher components 61, which is equivalent to the protrusion 216 shortening the distance between the door assembly 20 and the shoe, so that the water flow sprayed on the protrusion 216 by the spraying assembly can be reflected to the shoe to perform the secondary washing on the shoe, thereby effectively improving the washing efficiency.

The protrusion 216 forms a recess on a side facing away from the body 10, and the recess can accommodate a pipeline and the like provided on the door assembly 20, so as to effectively save the space of the door assembly 20, reduce the size of the door assembly 20 in the thickness direction, and enable the shoe washing apparatus to obtain an ultra-thin design effect, so as to reduce the volume and the occupied space of the shoe washing apparatus.

The protruding part 216 can divide the second spraying port 217 formed on the door assembly 20 into a left spraying area and a right spraying area, so that the washing medium sprayed by the second spraying port 217 can be sprayed on the front of the shoes more, and the front of the shoes can be effectively cleaned. So as to inhibit part of the washing medium from being sprayed obliquely to the side of the washing chamber 13 and the side wall of the washing chamber 13, thereby affecting the washing efficiency of the second spraying port 217.

As shown in fig. 15, a plurality of third spraying ports 218 are respectively formed on two sides of the protruding portion 216, the third spraying ports 218 and the second spraying ports 217 can share one spraying cavity, and the washing medium sprayed by the third spraying ports 218 can be directly aligned to the inner side surfaces of the shoes, so that the cleaning effect of the inner side surfaces of the shoes is better, the areas where the first spraying ports 113 and the second spraying ports 217 cannot spray can be supplemented, and the omnibearing spraying cleaning of the shoes can be satisfied.

Referring to fig. 2 and 3, it can be understood that a flow guide 30 is disposed between the body 10 and the door assembly 20, a first end of the flow guide 30 is coupled to any one of the body 10 and the door assembly 20, and a second end of the flow guide 30 is fluidly coupled to the other one of the body 10 and the door assembly 20 when the door assembly 20 is in the second position. Fluid communication is understood to mean that the baffle 30 abuts or sealingly engages the other of the body 10 and door assembly 20 to enable the cleaning medium to flow along the baffle 30 toward the other of the body 10 and door assembly 20.

When the flow guide 30 is disposed on the door assembly 20 toward the body 10, the first end of the flow guide 30 is fixed on the door assembly 20, the door assembly 20 is located at the first position, and the second end of the flow guide 30 is a free end; the door assembly 20 is located at the second position, and the second end of the flow guiding portion 30 abuts against the bottom wall of the machine body 10, so as to facilitate the flow of the washing medium to the bottom wall of the machine body 10.

As shown in fig. 3, an included angle is formed between the flow guiding portion 30 and the door assembly 20, for example, the included angle between the flow guiding portion 30 and the door assembly 20 may be between 30 ° and 60 °, and the included angle between the flow guiding portion 30 and the door assembly 20 is generally set to be 45 °, so that the flow guiding portion can better perform the flow guiding effect.

As shown in fig. 3, the flow guiding part 30 may include a flow guiding plate 31 and a sealing member 32, wherein the flow guiding plate 31 is far away from one end of the door assembly 20, that is, the free end of the flow guiding part 30 is provided with a receiving groove 311, and the sealing member 32 is embedded in the receiving groove 311, so that a sealing surface is formed between the flow guiding plate 31 and the inner side wall of the machine body 10, and the washing medium is prevented from overflowing from a gap between the flow guiding plate 31 and the door assembly 20, thereby improving the sealing effect between the door assembly 20 and the machine body 10.

As shown in fig. 3, in order to make the seal 32 more firmly attached, the inner side wall of the housing groove 311 is provided with a stopper tooth 312, and the outer side wall of the seal 32 is provided with a stopper groove that fits into the stopper tooth 312, which corresponds to the fact that the seal 32 is caught in the housing groove 311, so that the seal 32 can be firmly fitted into the housing groove 311 by repeatedly hitting the seal 32.

As shown in fig. 3, it can be understood that the air deflector 31 and the door assembly 20 may be integrally formed, and the air deflector 31 is formed by extending from the door assembly 20 to the direction of the machine body 10, that is, two layers are formed from one end of the door assembly 20, one layer is the door body, the other layer is the raised portion, and the raised portion has the air guiding effect.

The baffle 31 may be detachably attached to the first door 21 by a fastener such as a screw. Specifically, can set up the cell body that is used for inlaying guide plate 31 on first door body 21 to make guide plate 31 inlay and establish after this cell body, fixed through the fastener, guarantee that door subassembly 20 surfacing, the washing medium of being convenient for flows down from door subassembly 20 slope, with keeping away from the sealed face between door subassembly 20 and the organism 10, guarantees to have good sealed effect between door subassembly 20 and the organism 10.

As shown in fig. 2, it can be understood that the flow guide part 30 is located on the same side as the shoe stretcher 60, and the flow guide plate 31 is disposed between the shoe stretcher 60 and the connecting part, so that the washing medium flowing out of the shoe stretcher 60 can also be guided to the bottom wall of the machine body 10 to the liquid discharge port 112 through the flow guide plate 31, and the washing medium is prevented from flowing along the inner side wall of the door assembly 20 and leaking from the connecting part between the door assembly 20 and the machine body 10.

As shown in fig. 2 and 3, the baffle 31 may be a flat surface or a curved surface. In order to make the water conservancy diversion effect of guide plate 31 better, the side surface of guide plate 31 back to door subassembly 20 is the cambered surface, and this cambered surface is protruding towards the direction of organism 10, has increased the gradient of guide plate 31 in other words to when washing medium sprays to this guide plate 31, can flow down fast, avoid washing medium to be detained at guide plate 31.

Referring to fig. 15, it can be understood that a liquid supply assembly 80 is provided at the bottom of the body 10, the liquid supply assembly 80 being in communication with at least one spraying mechanism 40 and adapted to deliver a washing medium entering the washing chamber 13 to the spraying mechanism 40 for cleaning the surface of the shoes. The liquid supply assembly 80 is in communication with the temple bar channel 62 and is adapted to deliver a washing medium entering the washing chamber 13 to the temple bar channel 62 for cleaning the interior of the shoe.

It can be understood that, by arranging the liquid supply assembly 80, the liquid supply assembly 80 is communicated with the liquid outlet 112 and the spraying mechanism 40, the washing medium entering the washing cavity 13 from the liquid inlet 111 is conveyed to the spraying mechanism 40, so as to repeatedly wash the shoes, and the shoes are convenient to clean; meanwhile, the liquid supply assembly 80 can collect part of the washing medium, so that the washing medium is circularly conveyed to the spraying mechanism 40 to clean the shoes after being deposited, water resources can be saved, and the washing effect can be improved.

As shown in fig. 4 to 8 and 12 to 15, the liquid supply assembly 80 includes a liquid collecting body 81 and a first water pump 82, the liquid collecting body 81 is of a shell-shaped structure, a liquid storing space is formed inside the liquid collecting body 81, the liquid collecting body 81 is disposed at the bottom of the machine body 10 and is communicated with a liquid outlet 112 disposed at the bottom of the machine body 10 for collecting the washing medium discharged from the liquid outlet 112, a first end of the first water pump 82 is connected with the liquid collecting body 81 through a connecting pipe 83, and a second end of the first water pump 82 is communicated with at least one of the spraying mechanism 40 and the shoe stretcher channel 62 through a liquid supply pipe assembly 84, so as to selectively distribute the washing medium in the washing chamber 13 to at least one of the spraying mechanism 40 and the shoe stretcher channel 62.

Namely, the liquid supply pipe assembly 84 can communicate the first water pump 82 with the spraying mechanism 40, and supply the washing medium in the washing chamber 13 to the spraying mechanism 40 to spray the front and the side of the shoes; the liquid supply pipe assembly 84 may also communicate the first water pump 82 with the temple bar channel 62 to supply the washing medium in the washing chamber 13 to the temple bar channel 62 to wash the interior of the shoe. Meanwhile, the liquid supply pipe assembly 84 can communicate the first water pump 82 with the spraying mechanism 40 and communicate the first water pump 82 with the shoe stretcher channel 62, so that the surface and the interior of the shoe can be cleaned simultaneously, the inside and outside bidirectional washing of the shoe can be realized, and the washing effect can be improved.

The liquid inlet 111 and the liquid outlet 112 on the machine body 10 may be aligned to allow the washing medium entering the washing chamber 13 from the liquid inlet 111 to flow out from the liquid outlet 112, enter the liquid collecting body 81, and then be pumped to the spraying assemblies and the shoe stretcher channel 62 after being pressurized by the first water pump 82.

As shown in fig. 4 and 15, it can be understood that the supply pipe assembly 84 includes a main supply pipe 841 and a plurality of branch supply pipes 842, the main supply pipe 841 having a first end communicating with the outlet of the first water pump 82, and the main supply pipe 841 having a second end simultaneously communicating with the plurality of branch supply pipes 842 connected to the shower mechanism 40 or the shoe stretcher passage 62 through a multi-way valve or a manifold, etc.

The plurality of branch liquid supply tubes 842 include a first branch liquid supply tube 8421 and a second branch liquid supply tube 8422, the first branch liquid supply tube 8421 is communicated with the first spraying assembly 41, the second branch liquid supply tube 8422 is connected to the second spraying assembly 42 and the shoe stretcher channel 62 on the door assembly 20, and specifically, the second branch liquid supply tube 8422 is connected to a multi-way valve to divide the second branch liquid supply tube 8422 into two paths, one path is used for conveying the washing medium to the second spraying assembly 42, and the other path is used for conveying the washing medium to the shoe stretcher channel 62.

The first branch liquid supply tubes 8421 and the first spraying assemblies 41 are arranged in a one-to-one correspondence, as shown in fig. 15, for example, two sets of the first spraying assemblies 41 are oppositely arranged, and each set of the first spraying assemblies 41 is respectively communicated with each first branch liquid supply tube 8421. The outlet end equivalent to the main supply pipe 841 is divided into three paths by the four-way valve 843, wherein the first path is communicated with one first spraying assembly 41 by a first branch supply pipe 8421, the second path is communicated with another first spraying assembly 41 by another first branch supply pipe 8421, and the third path is communicated with the supply pipe on the door assembly 20 by a second branch supply pipe 8422.

As shown in fig. 4, the water supply line of the door assembly 20 includes a first sub-branch liquid supply pipe 8422-1 and a second sub-branch liquid supply pipe 8422-2, and equivalently, a three-way valve 844 is provided at an outlet end of the second sub-branch liquid supply pipe 8422 to divide the washing medium in the second sub-branch liquid supply pipe 8422 into two paths, one path is communicated with the second spray assembly 42 through the first sub-branch liquid supply pipe 8422-1, and the other path is communicated with the shoe stretcher 62 through the second sub-branch liquid supply pipe 8422-2.

As shown in fig. 14 and 15, it can be understood that the liquid supply assembly 80 further comprises a filter part 85, and the filter part 85 can be arranged on any one of the liquid collection body 81 and the first water pump 82 and is used for filtering and collecting particle dirt falling from the shoes and preventing the particle dirt from blocking the drainage pipe or the liquid supply assembly 80 of the shoe washing device in the washing process, so that the normal operation of the shoe washing device is ensured and the maintenance cost of the shoe washing device is reduced.

As shown in fig. 14, when the filter member 85 is provided inside the liquid collection body 81, the filter member 85 includes a filter cartridge 851, and the filter cartridge 851 is detachably connected to the liquid discharge port 112. At least one of the bottom wall and the side wall of the filter cartridge 851 is provided with a water through hole 852, and the filter cartridge 851 is used for filtering particle dirt in the washing medium, so that the particle dirt is prevented from entering the liquid supply assembly 80 or the water discharge pipe 300 of the shoe washing equipment under the action of the washing medium to cause the blockage of the liquid supply assembly or the water discharge pipe 300, and the normal work of the shoe washing equipment is guaranteed.

A card slot and a card edge adapted to be clamped may be provided between the filter cartridge 851 and the liquid discharge port 112, and the filter cartridge 851 and the liquid discharge port 112 may be detachably connected by the card slot and the card edge. Furthermore, a sealing member may be disposed inside the locking rim or the locking groove to make the filter cartridge 851 be hermetically connected to the liquid outlet 112, so as to ensure that the washing medium discharged from the liquid outlet 112 is filtered.

With cartridge filter 851 detachably connected in this embodiment in the inside of collecting liquid body 81, can simplify cartridge filter 851's mounting process, convenience of customers regularly clears up filter part 85 according to the live time of shoe washing equipment, guarantees the inside health of shoe washing equipment, promotes the washing effect simultaneously.

As shown in fig. 14, a part of the filter cartridge 851 is disposed to extend out of the drain port 112 and into the inside of the washing chamber 13, so that the filter cartridge 851 can be easily removed to clean the filter inside thereof. Set up guiding gutter 853 around stretching into the inside part cartridge filter 851 of wash chamber 13 to make the washing medium flow into the cartridge filter 851 through this guiding gutter 853 and filter, can alleviate the inside washing medium flow that flows into the cartridge filter 851 at the same time, thereby make great granule filth enter into the cartridge filter 851 after washing many times in, avoid the cartridge filter 851 to block up, with effective filtration efficiency that improves.

As shown in fig. 15, it can be understood that the liquid supply assembly 80 further comprises a heating element 86, the heating element 86 is disposed inside the liquid collection body 81 and is used for heating the washing medium in the liquid collection body 81, so that the shoe washing device adopts warm water for washing, the washing agent can be dissolved more quickly, the dirt can be dissolved in the water more quickly, the dirt removing effect can be effectively improved, and the better cleaning effect can be realized.

The heating component 86 can be an electric heating pipe laid inside the liquid collection body 81, when the shoe washing device works, the electric heating pipe is electrified to heat the washing medium entering the liquid collection body 81, so that the washing medium in the liquid collection body 81 is heated and then enters the shoe stretcher channel 62 or the spraying component to clean the shoes through the liquid supply pipe component 84.

A water temperature detection element can be arranged in cooperation with the heating component 86 and is used for detecting the temperature of the washing medium in the liquid collection body 81, so that the heating component 86 is controlled to work according to the temperature detected by the water temperature detection element, and the phenomenon that the temperature of the washing medium is too high to damage shoes is avoided; meanwhile, the temperature of the washing medium is prevented from being low, so that the washing effect is influenced. The water temperature detecting element may be a water temperature sensor, which exhibits different resistance values at different temperatures and outputs corresponding current magnitudes at different temperatures, thereby recognizing the present temperature.

Referring to fig. 2, 4 and 5, it can be understood that when the shoe stretcher assembly 60 includes at least two shoe stretcher parts 61, the second branched liquid supply pipe 8422-2 may communicate with the shoe stretcher passages 62 in each shoe stretcher part 61 through the adjusting assembly 100 to equally distribute the washing medium to each shoe stretcher passage 62.

As shown in fig. 5, the adjusting assembly 100 includes an adjusting chamber 101 and a drainage member 102, the adjusting chamber 101 is disposed on one of the body 10 and the door assembly 20 corresponding to the position of the shoe stretcher channel 62; a drain 102 is provided inside the conditioning compartment 101 adapted to distribute washing medium to each of the bootie channels 62.

As shown in fig. 4, it can be understood that the second water pump 301 is disposed on the drain pipe 300, a first end of the drain pipe 300 is connected to the second water pump 301, and a second end of the drain pipe 300 is connected to the drain port 112, which is equivalent to that the washing medium discharged from the drain port 112 directly enters the drain pipe 300.

Alternatively, the second end of the drain pipe 300 is connected to the fluid collection body 81, which means that the washing medium discharged from the liquid discharge port 112 is collected by the fluid collection body 81, and then enters the drain pipe 300 from the fluid collection body 81, and the filter member 85 is provided in the fluid collection body 81, so that the drain pipe 300 can be prevented from being clogged with the washing dirt.

It should be noted that when the liquid supply assembly 80 is in the working state, the second water pump 301 is in the non-working state, which is equivalent to the circulation in the shoe washing apparatus to wash the shoes. When the liquid supply assembly 80 is in the inactive state, the second water pump 301 is in the active state to drain the washing medium from the washing chamber 13.

Referring to fig. 4, 6 and 10, it can be understood that the shoe washing apparatus further includes a drying assembly 90, the drying assembly 90 includes an air inlet duct 91 and a drying part 92, the drying part 92 is disposed on the air inlet duct 91, and the air inlet duct 91 is communicated with the shoe stretcher passage 62. The drying component 92 heats the air and then flows into the shoe stretcher channel 62 through the air inlet pipeline 91, the air enters the inside of the shoe from the shoe stretcher channel 62, and the drying air flow blows from the inside of the shoe to the outside of the shoe, so that the drying effect of the shoe is better.

As shown in fig. 10, it can be understood that the air inlet duct 91 is at least disposed along two adjacent surfaces of the machine body 10, and the air inlet duct 91 is attached to the surface of the machine body 10 to raise the internal temperature of the machine body 10, that is, the internal temperature of the washing chamber 13, which is equivalent to the heat dissipated by the air inlet duct 91 for raising the internal temperature of the washing chamber 13. Therefore, by arranging the air intake duct 91 along at least two surfaces of the machine body 10, heat transfer can be increased on the one hand, and heat loss can be prevented on the other hand.

As shown in fig. 4 and 10, it can be understood that the air inlet area of the air inlet pipeline 91 is larger than the air outlet area of the air inlet pipeline 91, which is equivalent to reducing the flow area of the drying airflow and increasing the flow rate of the drying airflow, so that the drying airflow rapidly flows from inside to outside to impact the shoes, thereby improving the drying efficiency of the shoes.

As shown in fig. 4, 6 and 10, it can be understood that the air inlet duct 91 includes a first air inlet duct 911, a second air inlet duct 912 and a third air inlet duct 913 which are connected in series. The third air inlet duct 913 is disposed on the door assembly 20 in a U shape to prevent the condensed air from entering the air inlet duct 91. The first air inlet duct 911, the second air inlet duct 912 and the third air inlet duct 913 are also distributed in a U shape on three adjacent surfaces of the machine body 10, so as to extend the flow path of the air inlet duct 91 and further prevent the condensed gas from entering the air inlet duct 91.

Specifically, the first air inlet pipe 911 is disposed in an "L" shape on the rear wall of the machine body 10 and the bottom wall adjacent to the rear wall, the third air inlet pipe 913 is disposed on the door assembly 20 opposite to the rear wall of the machine body 10, the second air inlet pipe 912 is connected between the first air inlet pipe 911 and the third air inlet pipe 913, and the second air inlet pipe 912 may be a corrugated pipe made of a high temperature resistant material, so that the second air inlet pipe 912 can expand and contract in length along with the rotation of the door assembly 20 to adapt to the opening or closing of the door assembly 20.

As shown in fig. 6 and 10, a drying part 92 may be provided on a rear wall of the machine body 10 on an air inlet side of the first air inlet duct 911 for heating air introduced into the first air inlet duct 911.

As shown in fig. 6 and 10, the drying unit 92 includes a blower 921 and a heating chamber 922, an air inlet side of the heating chamber 922 is communicated with the blower 921, an air outlet side of the heating chamber 922 is communicated with an air inlet pipe 91, and the blower 921 sucks air into the heating chamber 922 and heats the air to enter the shoe stretcher passage 62 along the air inlet pipe 91.

The air outlet area of the air outlet side of the heating chamber 922 is smaller than the air inlet area of the air inlet side of the heating chamber 922, that is, the flow area of the heating chamber 922 is gradually reduced from the air inlet side to the air outlet side, so that the flow rate of the drying air flow can be increased, secondary speed increase is realized on the basis of speed increase of the pipeline of the air inlet pipeline 91, and the drying efficiency is further improved.

The heating chamber 922 can include a mounting seat disposed on an inner sidewall of the first air inlet duct 911 and an electric heater disposed on the mounting seat for heating the gas passing through the heating chamber 922. The electric heater may employ both metallic and non-metallic heating elements.

When the electric heater adopts a metal heating element for heating, the metal heating element can be an electric heating pipe, an electric heating wire, an electric heating plate, an electric heating cable, an electric heating disc and an electric heating rod which are made of nickel-chromium wires, iron-chromium-aluminum wires, nickel-iron wires, nickel-copper wires and the like. The heating purpose is achieved by switching on the power supply to the metal heating element to generate high temperature.

The electric heater can be a PTC heater, and the PTC heater is composed of a PTC ceramic heating element and an aluminum tube.

When the electric heater adopts the non-metal heating element for heating, the non-metal heating element can be a mica fever piece, a ceramic fever piece, a tungsten-molybdenum rod, a silicon-carbon rod, a molybdenum powder rod and the like, and the non-metal heating element is convenient to install.

The setting form of mount pad is confirmed according to the structural style of the electric heater of selection, and when the electric heater of selection is electric heating pipe, the mount pad can set up to frame structure, and electric heating pipe can encircle in the mount pad. When the selected electric heater is a mica fever piece, the mounting seat can be arranged in a grid structure, the mica fever pieces are arranged on the mounting seat at intervals, and a flow passage for gas circulation is arranged between two adjacent mica fever pieces.

The fan 921 may be a turbo fan, and can supply hot air heated by the heating chamber 922 to the shoe washing apparatus to dry shoes. The gas flow direction of the turbofan is perpendicular to the rotating shaft, so that larger air quantity can be output under the condition that smaller space is occupied, the air inlet effect is improved, and the drying time is saved.

As shown in fig. 2 and 6, when the shoe stretcher assembly 60 includes at least two shoe stretcher units 61, the air inlet duct 91 may communicate with the shoe stretcher passages 62 in each shoe stretcher unit 61 through the adjusting assembly 100, and the heated drying air flow is equally distributed to each shoe stretcher passage 62.

The adjusting assembly 100 comprises an adjusting cabin 101 and a drainage piece 102, wherein the adjusting cabin 101 is arranged on the machine body 10 at a position corresponding to the shoe stretcher channel 62; a flow guide 102 is provided inside conditioning compartment 101 and is adapted to distribute the drying airflow inside drying assembly 90 to each of the bootie channels 62.

An air outlet (not shown in the figure) can be further arranged at the top of the machine body 10, namely, an air outlet communicated with the machine body is arranged on the top wall of the washing cavity 10, and is used for discharging damp and hot air in the washing cavity 13.

It is also possible to install the exhaust fan at the air outlet for the outside of the washing chamber 13 is discharged fast with the damp and hot gas in the washing chamber 13, the fan 921 continuously sucks the fresh air, and the exhaust fan continuously discharges the damp and hot air in the washing chamber 13, thereby realizing the inside and external air convection of the washing chamber 13 and improving the drying efficiency.

A first air humidity detecting element for detecting the air humidity therein may be further provided inside the intake duct 91. Set up the second air humidity detecting element who is used for detecting the interior air humidity of washing chamber 13 in the inside of washing chamber 13, through the air humidity condition that detects in washing chamber 13, judge the stoving effect of shoes.

The shoe washing equipment that this embodiment provided has the function of washing shoes and stoving concurrently, provides a wash and dries integrative shoe washing equipment promptly, makes the shoes that the washing was accomplished can realize drying fast.

Can also set up degerming subassembly on air-supply line 91, degerming ion that degerming subassembly produced can blow in the inside of shoes along air inlet line 91 along with the drying air current, carries out degerming, removes flavor, dust removal etc. to shoes, and the shoes after making the washing wear more sanitary. The shoe washing equipment can be used for effectively removing peculiar smell and floating dust on the shoes aiming at some shoes which can not be washed by water, so that the aim of air washing is fulfilled.

Wherein, the degerming component can be any one of the components of a plasma generator, an ultraviolet sterilizer, an infrared sterilizing lamp, an ozone generator and the like.

When the degerming assembly is a plasma generator, the plasma generator is installed on the first air inlet pipe 911 and located at the downstream position of the drying component 92 in the air inlet direction, so that plasma generated by the plasma generator can be blown into the inside of the shoes through drying air flow, and the shoes are sterilized, dedusted, and odor eliminated from inside to outside.

The plasma generator and the drying part 92 can work cooperatively, and the plasma generator and the drying part 92 can also work independently, for example, only the plasma generator is selected to be electrified for sterilization, dust removal and odor elimination in the shoe washing equipment; or only the drying part 92 is selected to perform the drying operation, etc.

When only the plasma generator is selected to work, air with sterilization and odor removal ions enters the shoe stretcher channel 62 and the washing cavity 13 along the air inlet pipeline 91, and air washing and protecting treatment is carried out on the shoes to be washed.

Can set up the air pump between plasma generator and shoe stretcher passageway 62, make the air that has the sterilization, remove the flavor ion through the air pump have certain pressure and get into shoe stretcher passageway 62 and washing chamber 13 along air inlet pipe 91 to realize the all-round air washing and protecting processing to the inside and the outside of shoes, avoid the inside intake of shoes, with the life of extension shoes, for example to leather shoes etc..

Referring to fig. 4 and 5, it can be understood that the shoe tree passage 62 can be shared by the drying air flow and the washing medium in the shoe washing apparatus provided by the embodiment of the present application, that is, the liquid supply assembly 80 and the drying assembly 90 are communicated with the shoe tree passage 62 through the adjustment assembly 100.

The adjusting assembly 100 comprises an adjusting cabin 101, a first check valve 103 and a second check valve 104, the adjusting cabin 101 is provided with a first input port 1011, a second input port and an output port (not shown in the figure), the first input port 1011 is communicated with the drying assembly 90, the second input port is communicated with the liquid supply assembly 80, and the output port is communicated with the shoe stretcher channel 62; the first check valve 103 is arranged on any one of the adjusting cabin 101 and the drying assembly 90; a second non-return valve 104 is provided on either one of the capsule 101 and the liquid supply assembly 80.

It will be appreciated that the bootie passageway 62 is in communication with both the drying assembly 90 and the liquid supply assembly 80 via the adjustment assembly 100. Therefore, the cleaning medium circulating in the liquid supply assembly 80 and the drying air flow flowing in the drying assembly 90 share the shoe stretcher channel 62, so that the system setting is simplified, and the maintenance cost is reduced.

When the shoe stretcher passage 62 is communicated with the liquid supply pipe assembly 84, the shoe stretcher passage 62 is used as a washing passage, and when the shoe stretcher passage 62 is communicated with the drying assembly 90, the shoe stretcher passage 62 is used as a drying passage.

As shown in fig. 4 and 5, the adjusting compartment 101 is provided at the door assembly 20 corresponding to the installation position of the shoe stretcher passage 62, the first check valve 103 is provided at the air inlet duct 91 adjacent to the adjusting compartment 101, and the second check valve 104 is provided at the second sub branch liquid supply tube 8422-2 adjacent to the adjusting compartment 101. The first check valve 103 and the second check valve 104 may be electromagnetic check valves or pressure mechanical check valves.

When the liquid supply assembly 80 is connected to the shoe stretcher passage 62 through the adjusting assembly 100, and at this time, the drying assembly 90 is in a non-operating state, that is, no medium flows in the air inlet pipe 91, the first check valve 103 is controlled to be closed, so that the flow direction of the washing medium in the second branch liquid supply pipe 8422-2 connected to the shoe stretcher passage 62 can only flow from the first water pump 82 to the shoe stretcher passage 62, but the washing medium in the second branch liquid supply pipe 8422-2 cannot flow backwards.

When the drying component 90 is connected to the shoe stretcher passage 62 through the adjusting component 100, the liquid supply component 80 is in a non-working state, that is, no medium flows in the second branch liquid supply pipe 8422-2, the second check valve 104 is controlled to be closed, the passage through which the drying air flow in the third air inlet pipe 913 flows from the shoe stretcher passage 62 to the drying component 92 is blocked, the flow direction of the drying air flow in the third air inlet pipe 913 can only flow from the fan 921 to the shoe stretcher passage 62, but cannot make the gas medium in the third air inlet pipe 913 flow backwards, so as to prevent the hot steam from flowing backwards to the drying component 92.

As shown in fig. 5, it can be understood that the first input port 1011 and the second input port are disposed opposite to each other, and the first input port 1011 is disposed at a height higher than that of the second input port, so as to prevent the washing medium from entering the drying assembly 90 from the first input port 1011 to damage the internal components thereof.

As shown in fig. 4 and 5, it can be understood that the tuning assembly 100 further comprises a flow guide 102, the flow guide 102 being arranged inside the tuning compartment 101 between the first input port 1011 and the second input port for evenly distributing the medium in the second subsidiary supply tube 8422-2 or the third air inlet tube 913 into at least two shoe stretcher channels 62.

When the liquid supply assembly 80 is in an operating state, the drainage member 102 is adapted to distribute the washing medium inside the second subsidiary liquid supply pipe 8422-2 to each set of the shoe stretcher passages 62; when drying assembly 90 is in operation, flow guide 102 is adapted to distribute the gaseous medium inside air inlet duct 91 to each set of temple channels 62.

As shown in fig. 5, it is understood that the cross-sectional shape of the flow-directing member 102 may be a diamond shape having four symmetrically disposed edges, one set of the edges disposed opposite each other for bisecting the medium, which may be designated as a first bisecting section 1021 and a second bisecting section 1022, the first bisecting section 1021 being adapted to bisect the first input port 1011 so that the medium entering the conditioning chamber 101 through the first input port 1011 is equally distributed to both sides of the first bisecting section 1021. The second bisecting section 1022 is adapted to bisect the second inlet such that the medium entering the conditioning compartment 101 through the second inlet is evenly distributed to both sides of the second inlet.

The other set of oppositely arranged edges are used for drainage and can be recorded as a first drainage part 1023 and a second drainage part 1024, and a connecting line between the first drainage part 1023 and the second drainage part 1024 is perpendicular to a connecting line between the first flat part 1021 and the second flat part 1022; moreover, the length of the connecting line between the first drainage part 1023 and the second drainage part 1024 is respectively greater than the calibers of the first input port 1011 and the second input port, so that the medium equally divided from the first input port 1011 or the second input port can be drained to the position close to the shoe stretcher channel 62, and the medium in the adjusting chamber 101 can conveniently enter the shoe stretcher channel 62.

As shown in fig. 5, it can be understood that the transition surface between two adjacent edges of the flow guide member 102 is a curved surface, and the curved surface is concave towards the center of the flow guide member 102, and the curved surface can increase the flow guide area of the flow guide member 102, so that the medium in the secondary branch liquid supply pipe 8422-2 or the air inlet pipeline 91 can enter the shoe stretcher passage 62 more smoothly.

The shoe washing equipment provided by the embodiment of the application can reduce the structural volume of the shoe washing equipment by simplifying the connecting pipeline of the liquid supply assembly 80 and the drying assembly 90, and meanwhile, the liquid supply assembly 80 or the drying assembly 90 is convenient to maintain and replace in the later period.

Referring to fig. 1, 2, 7, 8, 11, 12, 15 and 16, it can be understood that the shoe washing apparatus provided in the embodiment of the present application further includes a throwing assembly 70, and the throwing assembly 70 is disposed on a water inlet path of the water inlet pipe 200 and adapted to throw detergent into the washing chamber 13 under the action of water flow.

As shown in fig. 7 and 13, the throwing assembly 70 includes a throwing body 71 and a flow guide 72, a throwing cavity 711 is configured inside the throwing body 71, and the throwing body 71 is provided with a throwing port 712 and a water inlet 713 which are communicated with the throwing cavity 711. The flow guide 72 is arranged in the dosing chamber 711 between the dosing opening 712 and the water inlet 713, at least part of the flow guide 72 being located in the water flow path of the water inlet 713.

It can be understood that the flow guide element 72 can change the flow state of the water flow entering the putting cavity 711 from a tubular structure to a sheet structure, which is equivalent to increase the flow area of the water flow, so that the water flow can completely cover the cavity wall of the putting cavity 711, and the detergent and the care agent which are put into the putting cavity can be completely dissolved and then flushed into the washing cavity 13 by the water to flush the shoes, so as to achieve a good washing effect.

As shown in fig. 13, a flow guide channel is formed between the flow guide member 72 and the wall of the dispensing cavity 711, the flow guide channel may be linear or strip-shaped, and the flow guide channel increases the flow area of the washing medium, so that all the detergent and care agent put into the dispensing cavity can be flushed into the washing cavity 13 by the water.

As shown in fig. 13 and 16, the flow guide 72 may have a plate-shaped structure, the flow guide 72 has a first end portion 721 and a second end portion 722 which are oppositely disposed, the first end portion 721 is disposed near the water inlet 713, the second end portion 722 extends obliquely in a water inlet direction away from the water inlet 713, and the second end portion 722 is a free end.

Equivalently, the flow guide piece 72 is obliquely arranged between the water inlet 713 and the throwing port 712, water flow enters the throwing cavity 711 from the water inlet 713 and is blocked by the flow guide piece 72 and can only pass through the narrow gap between the flow guide piece 72 and the cavity wall of the throwing cavity 711, the flow guide piece 72 is arranged, so that the flowing area of the water flow can be increased, the detergent thrown into the throwing cavity 711 from the throwing port 712 can be washed, the flow rate of the water flow can be increased, the impact force of the water flow is stronger, and the detergent is completely taken into the washing cavity to wash shoes, so that the washing effect is improved.

In addition, the flow guide member 72 may have a plate-shaped structure, a water channel (not shown) is formed in the middle of the flow guide member 72, and when the flow guide member 72 is disposed in the input chamber 711, a flow guide channel is formed between the flow guide member and the wall of the input chamber 711. Specifically, the flow guide member 72 has a first end portion 721 and a second end portion 722 opposite to each other, the first end portion 721 is disposed near the water inlet 713, and the second end portion 722 extends obliquely toward the water inlet direction away from the water inlet 713

An extension 723 is configured at the second end 722 of the flow guide 72, one end of the extension 723 is connected to the second end 722, and the other end of the extension 723 extends in a direction away from the flow guide channel and is connected to the inner wall of the dosing chamber 711.

As shown in fig. 16, in order to improve the supporting strength of the baffle 72, at least one first rib 724 is configured on a side of the baffle 72 opposite to the water inlet 713, and the thickness of the first rib 724 gradually increases from the first end portion 721 to the second end portion 722 of the baffle 72, so that the supporting strength of the first rib 724 is higher, and the uniform appearance of the product is ensured.

As shown in fig. 1, fig. 2, fig. 7, fig. 8, fig. 11, fig. 12, fig. 15 and fig. 16, the dispensing assembly 70 further includes a dispensing cover 73, the dispensing cover 73 is disposed at the dispensing opening 712 through an elastic seal 74, and the dispensing cover 73 is adapted to open or close the dispensing opening 712.

The dispensing lid 73 may be rotatably connected to the surface of the dispensing body 71 by a connecting member such as a rotating shaft or a hinge, and after the detergent is dispensed each time, the dispensing lid 73 is rotated to close the dispensing opening 712.

The elastic seal 74 has a first contact surface 741 and a second contact surface 742; the throwing cover 73 is provided with a receiving groove corresponding to the first contact surface 741, the elastic sealing element 74 is embedded in the receiving groove, the throwing port 712 is provided with a butting edge corresponding to the second contact surface 742, and the second contact surface 742 is suitable for butting against the butting edge. The elastic seal 74 can improve the sealing property between the input cover 73 and the input port 712, and prevent the washing medium in the input chamber 711 from overflowing.

As shown in fig. 13, a deformation groove 743 is formed between the first contact surface 741 and the second contact surface 742, when the second contact surface 742 abuts against the abutting edge, the groove width of the deformation groove 743 can be reduced, so that the sealing performance between the elastic sealing element 74 and the input opening 712 can be improved, and effective buffering can be provided for deformation of the elastic sealing element 74 to prevent premature failure of the elastic sealing element 74.

As shown in fig. 7, when the dispensing cover 73 is in the first state of opening the dispensing opening 712, the dispensing opening 712 is exposed to the outside. As shown in fig. 1 and fig. 2, when the dispensing cover 73 is in the second state of closing the dispensing opening 712, the top surface of the dispensing cover 73 is flush with the top surface of the machine body 10, i.e. both are located on the same plane, and the dispensing cover 73 and the machine body 10 form a plane or a curved surface with the same height, so that the dispensing assembly 70 is arranged, which not only can implement the dispensing function, but also can ensure that the overall structure of the shoe washing apparatus is more beautiful and provides better visual feeling for users.

In order to control the dosage of the detergent, a graduation line may be further disposed on the inner wall of the dosing cavity 711 to accurately control the dosage of the detergent dosed into the dosing cavity.

As shown in fig. 16, a cover handle 731 is provided on the dispensing cover 73 in order to open the dispensing cover 73.

As shown in fig. 13, the drop body 71 includes a top wall 714 and a plurality of side walls 715, the side walls 715 are connected end to end, and the top wall 714 is connected to at least one side wall 715; the input opening 712 is open at the top wall 714 and the water inlet 713 is open at any one of the side walls 715.

It can be understood that, when the drop body 71 is disposed on the top wall of the machine body 10, the top wall of the machine body 10 is used as the bottom wall of the drop body 71, so that the installation height of the drop body 71 can be reduced, and the structural size can be reduced.

Referring to fig. 1 to 12, it can be understood that the throwing body 71 is disposed on the top wall of the machine body 10, and a side wall 715 of the throwing body 71 opposite to the water inlet 713 abuts against the liquid inlet 111. The water inlet 713 is communicated with the water inlet pipe 200, when the water inlet pipe 200 supplies water to the washing cavity 13, the detergent is brought into the washing cavity 13 by the way, and the detergent does not need to be put into the washing cavity 13 separately, so that the use is more convenient.

As shown in fig. 13 and 16, it can be understood that one sidewall 715 opposite to the water inlet 713 has an extension part, the extension part is abutted to the liquid inlet 111, in order to relieve the impact of the washing medium, the sidewall 715 of the dosing body 71 opposite to the water inlet 713 is provided with an arc-shaped structure, and at least one side of the sidewall 715 facing toward or away from the water inlet 713 is provided with a second reinforcing rib 717 to enhance the supporting strength thereof, so as to prevent the sidewall 715 from being damaged due to the impact of the washing medium.

It will be appreciated that the shoe washing apparatus may be provided without the dispensing assembly 70, and the water inlet pipe 200 may be directly connected to the liquid inlet port 111 to manually dispense the detergent into the washing chamber 13. In order to improve the convenience of the shoe washing equipment, when the putting component 70 is arranged on the water inlet path of the water inlet pipe 200, the water inlet pipe 200 is communicated with the liquid inlet 111 through the putting component 70, the detergent in the putting component 70 is flushed into the washing cavity 13 through the washing medium, the automatic putting of the detergent in the washing cavity 13 by the putting component 70 is realized, and the detergent can be added repeatedly after being used.

Pour the detergent into put in the subassembly 70, under the scouring action of rivers, the inside of washing chamber 13 is gone into to the detergent, carry the rivers that contain the detergent to spray mechanism 40 and shoe stretcher passageway 62 through the first water pump 82 that sets up in the shoe washing equipment bottom, spray the efflux that mechanism 40 erupted in order to wash the shoes surface, the efflux that shoe stretcher passageway 62 erupted is in order to wash the inside of shoes, realize that the inside and outside of shoes effectively wash simultaneously to make the washing effect better.

As shown in fig. 15 and 16, it can be understood that a feed valve 201 is further disposed on the feed pipe 200, the feed valve 201 is used for controlling the feed condition of the feed pipe 200, the feed valve 201 has a valve port, a filter screen is disposed inside the valve port of the feed valve 201, and a thread is disposed outside the valve port of the feed valve 201 and is used for being in threaded connection with a feed pipe of an external water source.

Referring to fig. 1 to 14, it can be understood that the body 10 includes an inner container 11 and an outer casing 12, the outer casing 12 is detachably connected to an outer side of the inner container 11, and the inner container 11 and the outer casing 12 may be clamped, inserted, or detachably connected by a fastener such as a screw.

For example, a clamping groove (not shown in the figure) is formed in the inner container 11, a clamping block (not shown in the figure) matched with the clamping groove is arranged on one side, facing the inner container 11, of the outer shell 12, when the outer shell 12 is sleeved outside the inner container 11, the outer shell 12 and the inner container 11 can be detachably connected through the matching of the clamping block and the clamping groove, and therefore parts between the outer shell 12 and the inner container 11 can be conveniently overhauled and replaced. The clamping groove can also be arranged on the shell 12, and the clamping block can also be arranged on the inner container 11.

A first accommodating space is formed between the inner container 11 and the outer shell 12, the at least part of the spraying mechanism 40, the driving assembly 53, the throwing assembly 70, the liquid supply assembly 80 for conveying the washing medium for the at least part of the spraying mechanism 40, the at least part of the drying assembly 90, the adjusting assembly 100, the water inlet pipe 200, the water inlet valve 201, the water outlet pipe 300 and the second water pump 301 are all arranged in the first accommodating space, and the outer shell 12 serves as an appearance surface to hide all parts in the first accommodating space, so that the appearance of the shoe washing device is more neat and beautiful. After the shell 12 is detached from the inner container 11, the parts can be maintained and replaced, the space is reasonably utilized, and the shoe washing equipment is convenient to overhaul and replace.

As shown in fig. 6 and 7, an escape groove 122 is provided in the housing 12, and the escape groove 122 is formed by recessing the outer surface of the housing 12 inward. The position of the avoiding groove 122 corresponds to the position of the water inlet valve 201, a through hole is formed at the bottom of the avoiding groove 122, the valve port of the water inlet valve 201 penetrates through the through hole and extends into the avoiding groove 122, and the connecting pipe of the water source can be detachably connected with the water inlet valve 201 in the avoiding groove 122.

By arranging the avoiding groove 122 on the housing 12, the water inlet valve 201 is positioned in the avoiding groove 122, but does not extend out of the surface of the shell of the housing 12, and after the water inlet valve 201 is connected with an external water source through the avoiding groove 122, the gap between the machine body 10 and a wall body forming an installation space can be reduced, so that the accommodating space of the shoe washing equipment is effectively saved, and the user experience is improved.

As shown in fig. 2, the drain port 112 is provided at the bottom of the inner tub 11, and waste water after washing by the shoe washing machine is discharged through the drain port 112, so that the drain port 112 is opened at a position advantageous for drainage. The liquid outlet 112 may be located at the center of the bottom of the inner container 11, or may be located at a position near the edge of the bottom of the inner container 11, and the position of the liquid outlet 112 should be lower than other positions at the bottom of the inner container 11.

As shown in fig. 6 to 8, handle grooves 123 are inwardly recessed at both sides of the housing 12, the handle grooves 123 facilitate the carrying of the shoe washing apparatus, and the shoe washing apparatus can be moved to any position by the handle grooves 123.

As shown in fig. 7, an open groove 121 is formed in the housing 12 at a position corresponding to the liquid inlet 111, and after the dispensing assembly 70 is mounted on the housing of the inner container 11, the dispensing cover 73 of the dispensing assembly 70 can be exposed from the open groove 121, so that a user can open the dispensing cover 73 to dispense and repeatedly add the detergent.

As shown in fig. 6 to 8, a leg 114 is disposed at the bottom of the inner container 11 for supporting the shoe washing device, a first end of the leg 114 is fixedly connected to the inner container 11, a second end of the leg 114 is adapted to contact a placement platform (such as the ground), and when the shoe washing device is placed at a set position by the leg 114, a certain gap is formed between the leg 114 and the placement platform, so as to facilitate drainage.

Referring to fig. 1 to 14, it can be understood that the door assembly 20 includes a first door body 21 and a second door body 22, the second door body 22 is detachably connected to an outer side of the first door body 21, and the first door body 21 and the second door body 22 may be clamped, inserted, or detachably connected through a fastener such as a screw.

A second accommodating space is formed between the first door body 21 and the second door body 22, the at least another part of the spraying mechanism 40, the liquid supply assembly 80 for conveying the washing medium for the at least another part of the spraying mechanism 40, the at least another part of the drying assembly 90 and the adjusting assembly 100 are all arranged in the second accommodating space, and the second door body 22 is used as an appearance surface to hide each part in the second accommodating space, so that the appearance of the shoe washing equipment is tidier and more beautiful. After the second door body 22 is detached from the first door body 21, the above components can be maintained and replaced, the space utilization is reasonable, and the shoe washing equipment is convenient to maintain and replace.

As shown in fig. 4, a clamping groove 211 is formed in one side of the first door body 21, a clamping block 221 matched with the clamping groove 211 is formed in one side of the second door body 22 facing the first door body 21, and when the second door body 22 is sleeved outside the first door body 21, the first door body 21 and the second door body 22 can be detachably connected through the clamping block 221 and the clamping groove 211 in a matched mode, so that parts located in the second accommodating space can be conveniently overhauled and replaced. The latch groove 211 may be disposed on the second door 22, and the latch block 221 may be disposed on the first door 21.

As shown in fig. 4, a positioning element is further disposed between the first door body 21 and the second door body 22, the positioning element includes a positioning protrusion 222 disposed on the first door body 21 and a positioning groove 212 disposed on the second door body 22, the positioning protrusion 222 and the positioning groove 212 are matched with each other, when the first door body 21 and the second door body 22 need to be connected, the positioning protrusion 222 is inserted into the positioning groove 212, so that the first door body 21 and the second door body 22 can be accurately paired, and the assembling effect is improved.

The positions of the positioning protrusion 222 and the positioning groove 212 may be replaced with each other, for example, the positioning groove 212 is disposed on the first door body 21, and the positioning protrusion 222 is disposed on the second door body 22.

As shown in fig. 4, a plurality of reinforcing parts 223 are further disposed on the first door body 21 along the frame of the first door body 21, the reinforcing parts 223 are used for improving the strength of the first door body 21, and the reinforcing parts 223 may be rib plates disposed on two adjacent surfaces of the first door body 21.

As shown in fig. 4 to 6, an escape portion 23 is disposed on the first door body 21 and the second door body 22 at a position close to the connecting portion, and the escape portion 23 can prevent the door assembly 20 from interfering with the machine body 10 when the door assembly 20 rotates and opens relative to the machine body 10. The escape portion 23 may be a side of the first door 21 and the second door 22 facing away from the machine body 10 to form a bent structure.

As shown in fig. 15, a communication hole 213 is formed in the first door 21, the communication hole 213 is formed to penetrate the first door 21, a first end of the communication hole 213 is connected to the adjustment unit 100 located at one side of the first door 21, and a second end of the communication hole 213 is connected to the shoe stretcher passage 62 located at the other side of the first door 21.

As shown in fig. 10, a suction member for sucking the door assembly 20 to the body 10 is provided between the body 10 and the door assembly 20 to prevent the door assembly 20 from being opened unintentionally.

Specifically, the adsorbing component includes a first magnetic component 16 disposed on the inner container 11 and a second magnetic component 25 disposed on the first door 21, and when the door assembly 20 is at the second position for closing the washing chamber 13, the first magnetic component 16 and the second magnetic component 25 are kept in an adsorbing state.

In order to make the door assembly 20 close and the sealing performance in the washing cavity 13 better, a silicone sealing strip is arranged at the matching position between the door assembly 20 and the machine body 10, so that the drying efficiency of the shoe washing equipment can be improved.

The shoe washing equipment that this application embodiment provided compact structure, space utilization is higher, and every region of organism 10 and door subassembly 20 all is provided with the function, and the part integrates the setting to reduce the structure volume of shoe washing equipment, accord with frivolous design theory.

The shoe washing equipment that this application embodiment provided is at the course of the work, open door subassembly 20, shoe stretcher subassembly 60 that sets up on door subassembly 20 shows out, hang the dress on shoe stretcher subassembly 60 with shoes, revolving door subassembly 20 is so that it closes the back, shoes are vertical dress of hanging along with door subassembly 20 rotation, at this moment, the sole and the brush subassembly 51 of shoes are fully laminated, brush subassembly 51 rotates the sole friction with shoes, in order to scrub the dirt of shoes sole, enter into the inside high-speed rivers of shoes from shoe stretcher subassembly 60, after having washed shoes inside, can make the inside outflow of sewage from shoes smoothly, in order to promote clean effect, save the washing time. The sole of the shoe is generally made of wear-resistant material, so that the sole of the shoe and the brush component 51 are in proper interference fit to improve the washing effect.

Finally, it should be noted that: the above embodiments are merely illustrative of the present application and are not intended to limit the present application. Although the present application has been described in detail with reference to the embodiments, it should be understood by those skilled in the art that various combinations, modifications or equivalents may be made to the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application, and the technical solutions of the present application should be covered by the claims of the present application.

Claims (15)

1. An apparatus for washing shoes, comprising:

a housing;

the inner container is sleeved in the shell, a first accommodating space is limited between the inner container and the shell, and a washing cavity is formed in the inner container;

and the spraying mechanism is communicated with the washing cavity, and at least part of the spraying mechanism is arranged in the first accommodating space.

2. The shoe washing device as claimed in claim 1, wherein the top wall of the inner container is provided with a liquid inlet, and the bottom wall of the inner container is provided with a liquid outlet;

the first accommodating space is further provided with a liquid supply assembly, the liquid supply assembly is respectively communicated with the liquid outlet and the spraying mechanism, and the liquid supply assembly is suitable for collecting the washing medium entering the washing cavity from the liquid inlet and conveying the washing medium to the spraying mechanism.

3. The shoe washing apparatus of claim 2, wherein the liquid supply assembly comprises:

the liquid collecting body is arranged at the bottom of the inner container and is communicated with the liquid outlet;

the first end of the first water pump is connected with the liquid collecting body, and the second end of the first water pump is communicated with the spraying mechanism through a liquid supply pipe assembly.

4. The apparatus of claim 3, wherein the liquid supply assembly further comprises a filter member disposed on either the liquid collection body or the first water pump.

5. The apparatus of claim 4, wherein the filter member includes a filter cartridge disposed in the liquid collecting body and detachably connected to the liquid discharge port, and at least one of a bottom wall and a side wall of the filter cartridge is formed with a water through hole.

6. The shoe washing device as claimed in claim 5, wherein the part of the filter cartridge extending out of the inner surface of the inner container is provided with guide grooves at intervals.

7. Shoe washing apparatus according to claim 3, characterized in that the inside of the liquid collecting body is provided with heating means adapted to heat the washing medium inside the liquid collecting body.

8. The shoe washing equipment according to any one of claims 1 to 7, further comprising a door assembly, wherein the door assembly is connected to the inner container in an openable and closable manner, the door assembly comprises a first door body and a second door body which are arranged in a buckled manner, a second accommodating space is limited between the first door body and the second door body, and at least part of the spraying mechanism is arranged in the second accommodating space.

9. The shoe washing apparatus of claim 8, wherein a shoe stretcher assembly adapted to support shoes is disposed on a side of the first door body facing the inner container.

10. The shoe washing apparatus of claim 9, wherein a brush assembly is disposed inside the washing chamber, the brush assembly being disposed opposite the bootie assembly, the brush assembly being adapted to abut against a sole of a shoe.

11. The apparatus of claim 9, wherein the bootie assembly includes at least two bootie members, the bootie members having an interior configured with a bootie channel adapted to flush the interior of the shoe through the bootie channel.

12. The shoe washing apparatus of claim 11, further comprising a drying assembly, the drying assembly comprising an air inlet duct and a drying component, the air inlet duct being in communication with the shoe stretcher channel, the drying component being disposed on the air inlet duct.

13. The apparatus of claim 8, wherein a deflector is provided on either the bladder or the first door body, the deflector being adapted to be fluidly connected to the other of the bladder and the first door body.

14. The shoe washing apparatus of any one of claims 1 to 7, further comprising a dispensing assembly, wherein the washing chamber is in communication with a water inlet pipe, the dispensing assembly is disposed in a water inlet path of the water inlet pipe and adapted to dispense a detergent into the washing chamber under the action of water flow.

15. The shoe washing apparatus of claim 14, wherein the water inlet pipe is provided with a water inlet valve, the housing is provided with an avoiding groove at a position corresponding to the water inlet valve, and the water inlet valve penetrates through the avoiding groove.

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