CN215534162U - Shoe washing machine - Google Patents

Abstract

The utility model belongs to the technical field of washing equipment, and particularly relates to a shoe washing machine. The utility model aims to solve the problems that an installation gap exists between a shoe washing brush and a wave wheel of the existing shoe washing machine, so that collision noise is generated during shoe washing, and a shoelace is easy to clamp. The rotary structure is arranged at the center of the top of the impeller of the shoe washing machine, the plurality of water stirring ribs are arranged around the rotary structure, and the bristles are respectively arranged on the rotary structure and the water stirring ribs, so that the impeller has the functions of stirring and scrubbing by stirring water, the shoe washing brush does not need to be additionally arranged, and the gap design of the part of the impeller exposed in a washing space is reduced, thereby preventing the shoelace from being clamped at the impeller position or the impeller position from generating obvious collision noise when the shoes are washed. In addition, compared with the brushing surface of a conventional cylindrical or plate-shaped shoe washing brush, the brushing surface formed on the rotary structure and the water stirring ribs can increase the brushing angle of the bristles, and the shoes can be subjected to friction washing without dead angles in the circumferential direction in space, so that the shoes can be cleaned comprehensively and reliably.

Description

Shoe washing machine

Technical Field

The utility model belongs to the technical field of washing equipment, and particularly relates to a shoe washing machine.

Background

A shoe washing machine is a washing device which is designed directionally according to the cleaning requirements of shoes. The shoe washing chamber of a shoe washing machine is usually provided with brushes, showers or a combination of brushes and showers for the purpose of cleaning the shoes, in order to clean the shoes by means of friction scrubbing and/or water jet impingement. In order to satisfy the large capacity shoe washing demand, the current shoe washing machine sets to the impeller formula structure mostly, particularly, the inside of impeller formula shoe washing machine is provided with the washing barrel that can hold many pairs of shoes and sets up in the washing barrel bottom, rotatable impeller, is provided with on the impeller and washes the shoe brush, can drive when the impeller rotates and wash the shoe brush and rotate shoes in order to the friction stir bucket, realizes washing shoes purpose.

At present, the shoe washing brush is mostly independent of the impeller setting, after the installation, there can be the installation gap in the hookup location between shoe washing brush and the impeller, this installation gap not only can lead to shoes and the collision noise who washes shoe brush and impeller to appear when washing shoe brush looks mutual friction, still can put between the shoelace when shoes turn, make the user only take off the shoelace from shoes after throwing in shoes again and just can not appear the card and put the problem, preparation work and shoelace when having increased washing shoes still need wash in addition, it is not good to wash shoes convenience.

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

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, namely to solve the problems that an installation gap exists between a shoe washing brush and a wave wheel of the conventional shoe washing machine, so that collision noise is generated during shoe washing and shoelaces are easy to clamp, the utility model provides the shoe washing machine, which comprises a washing barrel and the wave wheel arranged at the bottom in the washing barrel in a rotating mode, wherein the wave wheel comprises a wheel body, a rotary structure and a plurality of water stirring ribs, the rotary structure is arranged at the center of the top of the wheel body, the radial size of the rotary structure is gradually reduced from the bottom to the top, first bristles are arranged on the rotary structure, the plurality of water stirring ribs are arranged around the rotary structure, and second bristles are arranged on the water stirring ribs.

In the preferable technical scheme of the shoe washing machine, the rotary structure is a hemispherical structure, and the first bristles are distributed on the hemispherical surface of the hemispherical structure.

In the preferable technical scheme of the shoe washing machine, a plurality of first mounting holes are formed in the hemispherical surface of the hemispherical structure, and the bottoms of the first bristles are fixed in the first mounting holes.

In the preferable technical scheme of the shoe washing machine, the first bristles are rubber bristles, and the first bristles and the hemispherical surface of the hemispherical structure are integrally arranged.

In the preferable technical scheme of the shoe washing machine, the water repellent ribs are bulge structures arranged along the radial direction of the impeller, and the second bristles are arranged on the top and/or the side of the bulge structures.

In a preferred embodiment of the above shoe washing machine, the top and/or the side of the ridge structure is provided with a second mounting hole, and the bottom of the second bristles is fixed in the second mounting hole.

In a preferred embodiment of the above shoe washing machine, the second bristles are rubber bristles, and the second bristles are integrally disposed with the top and/or the side of the ridge structure.

In a preferred embodiment of the above shoe washing machine, the non-protruding portion of the top surface of the wheel body is provided with third bristles.

In a preferred technical solution of the above shoe washing machine, the non-projecting portion of the top surface of the wheel body is provided with a plurality of bristle setting portions along a circumferential inner edge, each bristle setting portion includes a plurality of third mounting holes arranged in a circumferential manner, and roots of the third bristles are fixed in the third mounting holes.

In a preferred embodiment of the above shoe washing machine, the third brush is a rubber brush integrally provided with the non-projecting portion of the top surface of the wheel body, and the third brush is arranged along a circumferential inner edge of the non-projecting portion of the top surface of the wheel body.

As can be understood by those skilled in the art, the impeller of the shoe washing machine of the utility model is provided with a rotary structure at the top center of the impeller body, a plurality of water-repellent ribs are arranged around the rotary structure, and the rotary structure and the water-repellent ribs are respectively provided with bristles. Through the aforesaid setting, on the one hand, can make the impeller possess simultaneously and dial water stirring and scrub the function, need not extra installation and wash the shoe brush, reduce the gap design that the impeller exposes in the position in washing space to the shoelace card is put obvious collision noise appears in impeller position or impeller position when preventing to wash shoes. On the other hand, the rotary structure arranged at the center of the wheel body and gradually reduced in radial size from bottom to top is provided with the first bristles, so that a large-area brushing surface with a gentle side curve can be generated. In addition, dial second brush hair on the muscle of shui not only can stir shoes and wash the in-process of water with the impeller and rub each other, supplementary first brush hair brushes shoes jointly, can also promote to dial the stirring ability of muscle position to wash water and shoes to promote shoes for the friction dynamics of first brush hair, second brush hair and wash water, the clean effect of degree of depth optimization shoes.

Preferably, above-mentioned revolution mechanic is hemisphere structure, the hemisphere surface of this hemisphere structure arranges that the face of scrubbing that forms behind the first brush hair from the top bottom radial dimension grow gradually, the gentle and gradual change expansion of streamline, can be thrown by the impeller at shoes, the in-process that contacts and fall with first brush hair, through this wash the face to produce certain cushioning effect along the shoes of scrubbing the face landing downwards, the friction time when having prolonged shoes and contacting with first brush hair at every turn, shoes brushing efficiency has been promoted, soft and efficient shoes brushing effect has when washing shoes.

Preferably, the non-protruding portion of wheel body top surface is provided with the third brush hair for the relative recessed part in wheel body top also has the function of scrubbing, thereby rubs the washing to the shoes that drop to the non-protruding position in impeller top at the in-process of stirring shoes, makes shoes can both take place the friction with the brush hair in each position by the whole in-process of wheel body stirring, has further optimized the efficiency of scrubbing and the comprehensive clean effect of shoes.

Drawings

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

FIG. 1 is a schematic top view of a pulsator for a shoe washing machine according to the present invention;

FIG. 2 is a side view schematically showing the structure of the pulsator of the shoe washing machine according to the present invention.

In the drawings: 1. a wheel body; 2. a revolving structure; 21. a first mounting hole; 3. water-repellent ribs; 31. a second mounting hole; 4. a non-projecting portion; 41. a third mounting hole; 5. a first bristle; 6. and second bristles.

Detailed Description

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

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring first to fig. 1 and 2, fig. 1 is a top structural view of a pulsator of a shoe washing machine of the present invention, and fig. 2 is a side structural view of the pulsator of the shoe washing machine of the present invention. As shown in fig. 1 and 2, the shoe washing machine of the present invention includes a housing (not shown), and a washing tub (not shown), a pulsator, and a driving device (not shown) provided in the housing. The washing barrel is vertically arranged in the shell in a mode that the barrel opening faces upwards, and the barrel body of the washing barrel is closed to contain washing water and shoes. The impeller is arranged at the inner bottom of the washing barrel, the driving device is arranged below the bottom of the washing barrel and penetrates through the washing barrel to be connected with the impeller, so that the impeller is driven to rotate and then washing water and shoes in the washing barrel are stirred (the structure of the driving device is the same as the conventional driving structure of the impeller shoe washing machine, as long as the driving device can drive the impeller to rotate, such as a direct-drive motor connected with the impeller, the structure of the driving device is not described herein. Specifically, the pulsator includes a pulsator body 1, and a revolution structure 2 and a plurality of water-repellent ribs 3 provided on the pulsator body 1. The wheel body 1 is a circular wheel-shaped structure with a radial dimension smaller than that of the inner part of the washing barrel, is connected with the inner bottom part of the washing barrel in a rotating way and is connected with a driving device. The rotary structure 2 is arranged at the center of the top of the wheel body 1 (i.e. the side of the wheel body 1 far from the inner bottom of the washing tub), and the radial dimension of the rotary structure 2 gradually decreases from the bottom (i.e. the end close to the wheel body 1) to the top (i.e. the end far from the wheel body 1). The plurality of water stirring ribs 3 are arranged at the periphery of the top of the wheel body 1 in a protruding mode and surround the rotary structure 2. The part of the wheel body 1 which is not provided with the water stirring ribs 3 and the revolution structure 2 is a non-convex part 4, and the top surface of the part is relatively flat and concave relative to the raised water stirring ribs 3 and the revolution structure 2. Wherein, be provided with first brush hair 5 on revolution structure 2, be provided with second brush hair 6 on dialling water muscle 3, can drive revolution structure 2 and dial water muscle 3 synchronous rotation when drive arrangement drive wheel body 1 rotates to scrub the shoes surface through the friction of first brush hair 5 on revolution structure 2 and second brush hair 6 on dialling water muscle 3, reach the purpose of clean shoes.

In the above embodiment, the revolving structure 2 may be any revolving structure that is raised upward from the top surface of the wheel body 1 and gradually decreases in radial dimension from the bottom to the top, such as a dome-shaped structure, a truncated cone-shaped structure, a hemispherical structure, a conical structure, a truncated cone-shaped structure, and the like. The revolving structure 2 is disposed at the top center of the wheel body 1, specifically, the revolving structure 2 is disposed at the top center region of the wheel body 1, the top center region is a center region set by a person skilled in the art and divided by taking the axis of the wheel body 1 as the center of a circle and taking a set distance close to the center of a circle as a radius, and the revolving structure 2 is located in the center region so as to be capable of coaxially rotating with the wheel body 1 (the revolving center of the revolving structure 2 coincides with the axis of the wheel body 1) or slightly eccentrically rotating (the revolving center of the revolving structure 2 has a smaller distance with respect to the axis of the wheel body 1). The plurality of water-repellent ribs 3 are distributed around the rotary structure 2 and are positioned in a residual annular region at the periphery of the central region of the top surface of the wheel body, and the part of the residual annular region of the top surface of the wheel body 1, which is not provided with the water-repellent ribs 3, is the non-protruding part 4.

Through the arrangement, the impeller can have stirring performance and friction brushing performance at the same time. When shoes scatter in the washing barrel bottom, shoes and the washing water that soaks shoes are stirred by revolution mechanic 2 and water stirring muscle 3, and then make shoes can rub with the washing water on the one hand, and on the other hand can rub with first brush hair 5 and second brush hair 6 mutually for shoes can receive the dual clean friction of washing water and brush hair at the upset in-process, have realized the all-round washing of shoes.

In a preferred embodiment, the rotating structure 2 is a hemispherical structure as shown in the figure, and the first bristles 5 are distributed on the hemispherical surface of the hemispherical structure to form a hemispherical brushing surface. As a possible example, the first bristles 5 are arranged in an implanted manner on a hemisphere of a hemispherical structure. Specifically, the number of the first brush hairs 5 is multiple, a plurality of first mounting holes 21 are distributed on the hemispherical surface of the hemispherical structure, and the bottom of each first brush hair 5 is fixed in one first mounting hole 21 through bonding, clamping and the like. As another possible example, the first bristles 5 are rubber bristles, the number of the rubber bristles is multiple, and at least the hemispherical surface layer of the hemispherical structure is made of rubber, so that the first bristles 5 and the hemispherical structure are integrally formed.

Through setting revolution structure 2 to the hemispherical structure, can make the hemispherical structure who is covered with first brush hair 5 have and be close to the face of scrubbing of hemispherical shape, should scrub a curve smoothness and gentle, can not only have the cushioning effect to striking to the shoes on revolution structure 2, and then reduce the obvious friction damage that first brush hair 5 led to the fact the vamp under the holding of adding of shoes collision momentum, first brush hair 5 that can also arrange comprehensively through the space orientation carries out the omnidirectional to the vamp, longer contact time scrub, realized the harmless reliable effect of scrubbing of shoes.

In another preferred embodiment, the water-repellent rib 3 is a bump structure disposed along the radial direction of the pulsator, and the second bristles 6 are disposed on the top (i.e., the meeting ends of the bump surfaces) and/or the side (i.e., on the bump surfaces) of the bump structure. As a possible example, the bump structure is provided with three rows of second mounting holes 31 in the radial direction, wherein the second mounting holes 31 located in the middle row are arranged along the top of the bump structure, and the other two rows of second mounting holes 31 are respectively located on one bump surface of the bump structure at a position close to the top. The number of the second brush hairs 6 is multiple, and the bottom of each second brush hair 6 is fixed in one second mounting hole 31 by means of bonding, clamping and the like. As another possible example, the second bristles 6 are rubber bristles, the number of the rubber bristles is multiple, and at least the raised surface and the top end surface of the raised structure are made of rubber, so that the second bristles 6 and the raised structure are integrally formed. The specific shape of the water-repellent rib 3 is not limited to be linearly raised along the radial direction of the wheel body 1, for example, the water-repellent rib 3 may also be an S-shaped raised structure arranged along the radial direction, and those skilled in the art may modify the shape of the water-repellent rib 3 according to the water-repellent requirement.

Through structural second brush hair 6 that sets up in the uplift, reach the purpose that the vamp was scrubbed in the friction through second brush hair 6 when can making wheel body 1 rotate, simultaneously can also be through the supplementary uplift structure stirring washing water of second brush hair 6 that arrange in a row along wheel body 1 and shoes, and then promote the effect of stirring of washing water and shoes, thereby make the washing water obtain obvious the promotion to the friction effect of shoes and first brush hair 5 or second brush hair 6 to the friction effect of stirring more obvious shoes, the cleaning efficiency and the clean degree of shoes have further been optimized.

In a more preferred embodiment, in addition to the first brush bristles 5 and the second brush bristles 6, the non-protruding portion 4 of the top surface of the wheel body 1 is provided with third brush bristles (not shown) so as to enable the non-protruding portion 4 of the wheel body 1 to have a brushing capability, and in the process that the shoe is turned over by the pulsator, the shoe rubs against the first brush bristles 5 on the revolving structure 2 or the second brush bristles 6 on the protruding structure and then falls onto the non-protruding portion 4 with a high probability, in which case, the shoe after rolling can rub against the third brush bristles so as to prolong the brushing time of the shoe and further improve the washing efficiency of the shoe. As a possible example, the third bristles are arranged along a circumferential inner edge of the non-projecting portion 4 (i.e., a position of the top of the wheel body 1 near the circumferential edge), a plurality of bristle setting portions are arranged along the circumferential inner edge, each bristle setting portion includes a plurality of third mounting holes 41 arranged in a circumferential manner, and root portions of the third bristles are fixed in the third mounting holes 41 by means of clipping, bonding, or the like. As another possible example, the third bristles are rubber bristles, and the non-projecting portion 4 is made of rubber at least at a portion covering the inner peripheral edge, so that the third bristles are integrally formed with the non-projecting portion 4.

With respect to the above embodiments, it should be noted that the distribution of the first bristles 5, the second bristles 6 and the third bristles is not limited to the above examples, and those skilled in the art may correspondingly set the distribution of the bristles (such as distribution area, bristle orientation, etc.) according to the specific shape or size of the revolution structure 2, the specific shape or size of the bump structure, etc., for example, the first bristles 5 may also be spirally arranged on the revolution structure 2 along the vertical direction, or the second bristles 6 may also include a plurality of rows of bristles inclined with respect to the radial direction, or the third bristles may also be uniformly distributed on the non-protruding area, and the variation of the distribution of the bristles does not exceed the protection scope of the present invention.

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

Claims (10)

1. A shoe washing machine is characterized by comprising a washing barrel and a wave wheel which is arranged at the bottom in the washing barrel in a rotating mode, wherein the wave wheel comprises a wheel body, a rotary structure and a plurality of water stirring ribs, the rotary structure is arranged on the wheel body,

the rotary structure is arranged at the center of the top of the wheel body, the radial dimension of the rotary structure is gradually reduced from the bottom to the top, first bristles are arranged on the rotary structure,

many it centers on to dial the water muscle revolution mechanic sets up, dial and be provided with the second brush hair on the water muscle.

2. The shoe washing machine of claim 1, wherein the rotating structure is a hemispherical structure, and the first bristles are distributed on a hemispherical surface of the hemispherical structure.

3. The shoe washing machine as claimed in claim 2, wherein a plurality of first mounting holes are formed on a hemispherical surface of the hemispherical structure, and bottoms of the first bristles are fixed in the first mounting holes.

4. The shoe washing machine of claim 2, wherein the first bristles are rubber bristles that are integrally formed with a hemispherical surface of the hemispherical structure.

5. The shoe washing machine of claim 1, wherein the water-repellent rib is a ridge structure arranged along a radial direction of the pulsator, and the second bristles are arranged on a top and/or a side of the ridge structure.

6. The shoe washing machine of claim 5, wherein the top and/or side of the ridge structure is provided with a second mounting hole, and the bottom of the second bristle is fixed in the second mounting hole.

7. A shoe washing machine according to claim 5 wherein said second bristles are rubber bristles integrally provided with the top and/or side portions of said ridge structure.

8. A shoe washing machine according to any one of claims 1 to 7 wherein the non-projecting portion of the top surface of the wheel body is provided with third bristles.

9. The shoe washing machine according to claim 8, wherein the non-projecting portion of the top surface of the wheel body is provided along a circumferential inner edge with a plurality of bristle setting portions, each of the bristle setting portions includes a plurality of third mounting holes arranged in a circumferential manner, and root portions of the third bristles are fixed in the third mounting holes.

10. The shoe washing machine of claim 8 wherein the third bristles are rubber bristles integrally provided with the non-projecting portion of the top surface of the wheel, the third bristles being arranged along a circumferential inner edge of the non-projecting portion of the top surface of the wheel.

Images