CN217852864U - Shoe washing machine - Google Patents

Abstract

The utility model relates to a washing equipment technical field specifically provides a shoe washing machine. Aims to solve the problems that shoes are easy to wear when the brushes arranged on the existing shoe washing machine are used for washing the shoes, and the brushes need to be frequently replaced. The utility model discloses a shoe washing machine during operation can pass through the flexible friction vamp of elasticity friction structure, coefficient of friction between this elasticity friction structure and the vamp is bigger, the friction effect is better, the decontamination effect is stronger, but the flexibility and the deformability of elasticity friction structure are better simultaneously, can soften its scrubbing dynamics to between the vamp during friction, can prevent through the action of soft deformation that the vamp from being seriously drawn and grind, and elasticity friction structure can well cushion shoes when shoes overturn and strike to washing the shoes component in the washing bucket, prevent that shoes are impaired in the striking, make shoes can not washed the obvious wearing and tearing of shoes component by washing when being washed, and the elastic deformation performance of elasticity friction structure also can alleviate the degree of wear of washing the shoes component, reduce the change rate of washing the shoes component.

Description

Shoe washing machine

Technical Field

The utility model relates to a washing equipment technical field specifically provides a shoe washing machine.

Background

The shoe washing machine is a household appliance capable of washing shoes according to the cleaning requirements of the shoes. Generally, a brush, a spray device, or a combination of the brush and the spray device for cleaning shoes is provided inside a shoe washing chamber of a shoe washing machine. Because the direct friction brushing mode of the hairbrush has stronger cleaning capability, the hairbrush capable of brushing the surface of the shoe is arranged in most shoe washing machines in a rotating mode. But can rub repeatedly through the brush hair in treating clean position of shoes when the brush is washed shoes, and hard contact between shoes and the brush easily causes the damage to the vamp, makes the vamp appear local fluff, damaged phenomena such as coating come off, great damage to shoes. In addition, the brush is greatly abraded due to hard friction contact between the shoe and the brush, and the replacement frequency of the brush is high.

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

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem that shoes and brushes need to be frequently changed easily when the brushes arranged on the prior shoe washing machine are used for washing shoes.

The utility model provides a shoe washing machine, shoe washing machine include the washtub, with the rotation mode set up in the washtub in the impeller of bottom and set up in the shoe washing component at impeller top, the shoe washing component include with the base member that the impeller links to each other and set up in elasticity friction structure on the base member, so that the base member is following can make when the impeller rotates elasticity friction structure friction washing shoes.

Under the condition that adopts above-mentioned technical scheme, the utility model discloses a shoe washing machine during operation can pass through the flexible friction vamp of elastic friction structure, compare in conventional chemical fiber brush, the utility model discloses an elastic friction structure of shoe washing component is bigger with the coefficient of friction between the vamp, the friction effect is better, decontamination effect is stronger, but the flexibility and the deformability of elastic friction structure are better simultaneously, can soften its scrubbing dynamics to between the vamp during friction, can prevent through the action of soft deformation that the vamp is seriously scratched and grind, can not have hard most advanced rigid friction on the vamp, and elastic friction structure can well cushion shoes when shoes overturn and striking to the shoe washing component in the washing bucket, prevent that shoes are impaired in the striking, make shoes can not washed the obvious wearing and tearing of shoe washing component when being washed, and the elastic deformation performance of elastic friction structure also can alleviate the degree of wearing and tearing of shoe washing component, reduce the rate of changing of shoe washing component.

In a preferred embodiment of the above shoe washing machine, the elastic friction structure is disposed on the base in an implanted manner.

In a preferred embodiment of the above shoe washing machine, the elastic friction structure and the base are integrally formed.

In a preferred embodiment of the above shoe washing machine, the elastic friction structure is elastic bristles.

In the preferable technical scheme of the shoe washing machine, the elastic friction structure is a friction bump.

In the preferable technical scheme of the shoe washing machine, the base body is of an elastic shell structure.

Under the condition that adopts above-mentioned technical scheme, the utility model discloses a wash the flexible friction effect of shoes component and wash the cushioning effect of shoes component to the shoes that come on the striking all obtain further promotion, further promoted the harmless washing effect of shoes to the stand wear and tear degree of washing the shoes component has been strengthened.

In a preferred technical solution of the above shoe washing machine, the base body is coaxially arranged with the pulsator, and the base body is arranged to be gradually enlarged or gradually enlarged in radial size from the top to the bottom.

Under the condition that adopts above-mentioned technical scheme, at first, can make the shoes washing component have from top to bottom the vamp is cleaned in the friction that the space expansion degree increases, the lateral part that this friction was washed the vamp is scrubbed the scope and is bigger, can increase the shoes washing component and scrub the angle to shoes, make the shoes washing component carry out the washing of circumference no dead angle friction in the space to shoes, greatly promoted the contact frequency of washing shoes component and shoes in the washing process, optimized shoes and scrubbed the effect. Moreover, the base body can enable the trend of the streamline from the side part to the top part of the shoe washing component to be smoother and smoother from the top to the bottom in the unfolded shape, so that the friction action of the shoe washing component during the friction washing of shoes can be smoother, the washing effect is softer, and the lossless shoe washing effect of the shoe washing component is further optimized.

In the preferable technical scheme of the shoe washing machine, the base body is of a bowl-shaped structure.

In the preferable technical scheme of the shoe washing machine, a plurality of water-repellent ribs are uniformly distributed at the top of the impeller, a plurality of clamping grooves are formed in the bottom of the base body along the circumferential direction, and the clamping grooves are matched with the water-repellent ribs in an embedded mode under the condition that the shoe washing machine is installed.

In the preferable technical scheme of the shoe washing machine, the bottom of the base body is provided with a threaded hole, and the impeller is provided with a fastener through hole aligned with the threaded hole.

Drawings

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

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

fig. 2 is a schematic view of the installation of the shoe washing member of the shoe washing machine of the present invention.

In the drawings:

1. a housing; 11. a door cover; 2. a washing tub; 21. an outer tub; 22. an inner barrel; 3. an impeller; 31. Water-repellent ribs; 4. a drive section; 5. a shoe washing member; 51. a substrate; 52. an elastic friction structure; 53. A clamping groove.

Detailed Description

It will be understood by those within the art that in describing the present invention, the terms "center," "upper," "lower," "vertical," "inner," "outer," and the like, refer to a directional or positional relationship as shown in the drawings, which is for convenience of description only and does not indicate or imply that the device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

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

As shown in fig. 1 and 2, the shoe washing machine of the present invention includes a housing 1, a washing tub 2 disposed in the housing 1, a pulsator 3, and a driving part 4. The washing barrel 2 is vertically arranged, and the top of the shell 1 is provided with a throwing opening and a door cover 11 capable of closing/opening the throwing opening corresponding to the barrel opening of the washing barrel 2. Wherein, the washing barrel 2 can be a single-layer barrel body fixedly arranged in the shell 1, the barrel body is closed and can be used for directly containing washing water, the impeller 3 is arranged at the inner bottom of the single-layer barrel body in a rotating mode, the driving part 4 is arranged at the bottom of the washing barrel 2 and only drives the impeller 3 to rotate, or the washing barrel 2 can also comprise an outer barrel 21 fixedly arranged in the shell 1 and an inner barrel 22 arranged in the outer barrel 21 in a rotating mode, the barrel body of the outer barrel 21 is closed, water holes are arranged on the barrel body of the inner barrel 22, the impeller 3 is arranged at the inner bottom of the inner barrel 22 in a rotating mode, and the driving part 4 is arranged below the bottom of the outer barrel 21 and can drive the inner barrel 22 and the impeller 3 to respectively rotate. The shoe washing machine further comprises a shoe washing component 5 arranged at the top of the impeller 3, the shoe washing component 5 comprises a base body 51 connected with the impeller 3 and elastic friction structures 52 arranged on the base body 51, a plurality of elastic friction structures 52 are distributed on the surface of the base body 51 exposed in the washing space of the washing barrel 2, under the condition that the shoe washing machine is in operation, washing water and shoes are contained in the washing barrel 2, the impeller 3 rotates and drives the base body 51 of the shoe washing component 5 to rotate, and the elastic friction structures 52 on the surface of the base body 51 move relative to the shoes to scrub the shoes in a friction mode, so that the purpose of cleaning the shoes in a friction mode is achieved.

Through the above-mentioned setting, can make the base member 51 surface of shoe washing component 5 outwards support through being covered with elasticity friction structure 52 and form the one deck and have elastic friction washing face, this friction washing face not only can be when rubbing the removal for shoes flexible friction vamp, can also be when shoes are beaten by the stirring and pound the impact force of buffering shoes striking to base member 51 when falling to the barrel bottom on, weaken the damage that the impact action that produces when shoes and shoe washing component 5 hit caused shoes and shoe washing component 5, the shoe washing effect of shoe washing component 5 has been softened, the degree of wear that receives when greatly having reduced shoes washing.

In the above embodiment, first, the shape of the elastic friction structure 52 is not limited. For example, the elastic friction structure 52 may be disposed on the base 51 by an implanting manner, that is, a plurality of implanting holes are distributed on a surface of the base 51 exposed in the washing space of the washing tub 2, a bottom end of the elastic friction structure 52 is fixed in the implanting holes, and a top end is outward for rubbing and washing shoes, or at least a surface layer of the base 51 is disposed to be the same as a manufacturing material of the elastic friction structure 52, so that the base 51 and the elastic friction structure 52 can be integrally formed into the shoe washing member 5 by an injection molding manner. In the case that the surface layer of the base body 51 is integrally formed with the elastic friction structure 52, the surface layer structure may be an elastic sleeve sleeved on the base body 51, and the elastic friction structure 52 is integrally formed on the elastic sleeve, so that the shoe washing member 5 can recover its washing performance by replacing the elastic sleeve after being worn.

Furthermore, the shape of the elastic friction structure 52 is not limited, and the elastic friction structure 52 may be a cylindrical elastic bristle shown in fig. 1 and fig. 2, or the elastic friction structure 52 may also be a friction bump distributed on the surface of the substrate 51, and the bump may be any protruding shape such as a hemisphere, a truncated cone, a dome, a cone, etc. which can have a function of rubbing shoes, or the elastic friction structure 52 may also be a block-shaped or strip-shaped protrusion arranged on the surface of the substrate 51, such as a spiral protruding line distributed at intervals on the surface of the substrate 51, as long as the shape of the elastic friction structure 52 is capable of rubbing shoes and performing a washing function when the shoe washing member 5 rotates.

In addition, the distribution mode and the distribution area of the elastic friction structures 52 on the base 51 are not limited, and the elastic friction structures 52 may be uniformly distributed on the surface of the base 51 in a single distribution mode, or may be arranged on the surface of the base 51 in a clustered distribution mode or a spiral winding distribution mode. The outer surface of the base 51 exposed to the washing space may be provided with the elastic friction structure 52 entirely, or the elastic friction structure 52 may be provided only on a portion of the outer surface.

In addition, the driving part 4 at least includes a driving motor connected with the pulsator 3 or the inner tub 22. A transmission device or a power reversing device such as a speed reducer, a clutch and the like can be arranged between the driving motor and the impeller 3 or the inner barrel 22 according to the transmission requirement. For example, when the inner tub 22 and the pulsator 3 need to be separately driven, the driving motor may be connected between the inner tub 22 and the pulsator 3 through a gear train or a pulley set, a clutch, or the like, to the pulsator 3 or the inner tub 22, respectively, so as to drive the inner tub 22 or the pulsator 3 according to the washing course requirements, or, when only the pulsator 3 needs to be driven, the driving motor may be directly connected to the pulsator 3. Since the above-described driving part 4 is disposed in the same manner as the conventional pulsator 3 or inner tub 22, a detailed driving structure of the driving part 4 will not be described in this embodiment.

Preferably, the base 51 is an elastic shell structure, and specifically, the base 51 is made of an elastic material, the interior of the base 51 is hollow so as to form a hollow shell structure, the elasticity and hardness of the hollow shell structure are set to support the elastic friction structure 52 to rub along the upper of the shoe (when the base 51 is not deformed) when the shoe is not collided or slightly collided with the base 51, and the elastic friction structure 52 can be assisted to buffer the impact force of the shoe by being deformed by being sunk at the impacted position when the shoe is impacted on the base 51, and can be recovered after the impact force is transmitted and dispersed. The elastic shell structure may be provided with an opening communicating with the outside, for example, the bottom of the base body 51 may be provided with an opening communicating with the outside, or may be an airbag structure with a closed inner cavity.

With any of the above embodiments, in one possible scenario, the footwear cleaning member 5 is disposed at the top of the pulsator 3 but not coaxially disposed with the pulsator 3, for example, the number of the footwear cleaning members 5 is plural, and the plural footwear cleaning members 5 are evenly distributed around the center of the top of the pulsator 3.

In a preferred scenario, the shoe washing member 5 is disposed coaxially with the pulsator 3, the base 51 is mounted at the top center of the pulsator 3, and the rotation axis of the base 51 coincides with the rotation axis of the pulsator 3. In this case, the base body 51 is preferably configured to be gradually enlarged or gradually enlarged in radial size from top to bottom, so that the surface of the base body 51 exposed in the washing space can be disposed in an expanded shape, thereby forming a friction washing surface gradually (or gradually) expanded from top to bottom after the elastic friction structure 52 is disposed on the base body 51, the expanded shape of the friction washing surface can provide better cushioning to the shoes during washing, and simultaneously can support the shoes through the expanded shape, prolong the friction time of the shoes each time the shoes are contacted with the elastic friction structure 52, and optimize the non-destructive washing effect of the shoes. As an example, the above-described base 51 may be provided in a dome-shaped structure shown in fig. 1, a bowl-shaped structure shown in fig. 2, or a hemispherical structure. Of course, in addition to the illustrated shapes in which the radial dimension gradually changes, the radial dimension of the base 51 may be set to gradually change along the direction from top to bottom, for example, the base 51 includes three sections connected in sequence along the direction from top to bottom, the radial dimension of each section may have different trend, the curvature parameter of the curved surface formed by each section may be different, but the radial dimension of the base 51 as a whole tends to become larger from top to bottom.

Further, in the case where the base 51 is attached to the top center of the pulsator 3, the base 51 and the pulsator 3 are preferably attached in such a manner that: the bottom of base member 51 is provided with a plurality of draw-in grooves 53 along circumference, and the bottom center of base member 51 is provided with a screw hole. The top of impeller 3 is provided with many water bars 31, and water bar 31 sets up along impeller 3's radial to many water bars 31 are radial evenly distributed from the top center to the edge of impeller 3. The center of the impeller 3 is provided with a fastener through hole aligned with the threaded hole. Under the condition of being installed, the bottom of the base body 51 is attached to the top surface of the impeller 3, each clamping groove 53 is embedded in one water-stirring rib 31, the shape of the clamping part of each clamping groove 53 is matched with the protruding shape of each water-stirring rib 31, so that the clamping grooves 53 can be attached to the protruding surfaces of the water-stirring ribs 31, and the base body 51 is limited to rotate relative to the impeller 3. Meanwhile, the fastening screw is screwed to the base body 51 after passing through the fastening member through hole, thereby restricting the base body 51 from moving away from the pulsator 3.

In the above, it should be noted that, firstly, the connection manner of the base 51 and the pulsator 3 is not limited to the above example, and those skilled in the art can adjust the connection manner of the base 51 and the pulsator 3 according to the specific shape of the base 51 and the connection requirement of the pulsator 3. For example, the bottom of the base 51 may be provided with a plurality of threaded holes, or the base 51 may be fixed to the pulsator 3 by means of a snap-fit manner under the condition that the locking groove 53 is fitted with the water-stirring rib 31.

When the base 51 and/or the elastic friction structure 52 in any of the above embodiments is provided with elasticity, the material for manufacturing the base 51 and/or the elastic friction structure 52 is not limited, and the material for manufacturing the base 51 and/or the elastic friction structure may be any elastic material such as rubber or other polymer material.

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

Claims (9)

1. A shoe washing machine is characterized in that the shoe washing machine comprises a washing barrel, a wave wheel which is arranged at the bottom in the washing barrel in a rotating mode and a shoe washing component which is arranged at the top of the wave wheel,

the shoe washing component comprises a base body connected with the impeller and an elastic friction structure arranged on the base body, so that the base body can drive the elastic friction structure to rub and wash shoes when rotating along with the impeller,

the substrate is of an elastic shell structure.

2. The shoe washing machine of claim 1, wherein the resilient friction structure is provided on the base in an implanted manner.

3. A shoe washing machine according to claim 1 wherein said resilient friction structure and said base are integrally formed.

4. The shoe washing machine of claim 1 wherein said resilient friction structure is resilient bristles.

5. The shoe washing machine of claim 1 wherein said resilient friction structure is a friction bump.

6. The shoe washing machine according to any one of claims 1 to 5, characterized in that said base body is arranged coaxially with said pulsator, said base body being arranged with a gradually increasing or gradually increasing radial dimension from top to bottom.

7. The shoe washing machine of claim 6 wherein said base is of bowl-shaped construction.

8. The shoe washing machine of claim 6, wherein a plurality of water-repellent ribs are uniformly distributed on the top of the impeller, a plurality of clamping grooves are circumferentially arranged on the bottom of the base body,

under the condition of good installation, the clamping groove is matched with the water-stirring rib in an embedding manner.

9. The shoe washing machine of claim 6, wherein the base has a threaded hole formed in a bottom thereof, and the pulsator has a fastener passing hole formed therein aligned with the threaded hole.

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