CN211381231U - Shoe cleaning equipment - Google Patents

Abstract

The utility model relates to a cleaning device technical field provides a shoes utensil cleaning device includes: the outer brush module comprises a deformable outer brush sleeve, a plurality of outer brush pieces and magnetic pieces arranged on each outer brush piece are arranged on the outer brush sleeve; the inner brush module comprises a shoe mold which is arranged in the outer brush sleeve and used for sleeving the shoe to be cleaned, and a plurality of electromagnetic pieces which are arranged on the shoe mold and used for attracting the magnetic pieces; a control assembly electrically connected to the plurality of electromagnetic members to control magnetic states of the plurality of electromagnetic members, respectively; the driving assembly is connected to the shoe mold and is used for driving the shoe mold to move; the utility model provides a shoes utensil cleaning equipment has following advantage: the cleaning degree of the corresponding area of the shoe to be cleaned can be enhanced by changing the magnetic state of the electromagnetic piece in the preset area on the shoe mold; secondly, the footwear cleaning device can be adapted to different shapes of footwear and different stained areas on the footwear to match a specific cleaning strategy with higher applicability.

Description

Shoe cleaning equipment

Technical Field

The utility model relates to a cleaning appliance technical field, more specifically say, relate to a shoes utensil cleaning equipment.

Background

The existing shoe cleaning tool usually covers a shoe on an internal shoe brush, meanwhile, the external shoe brush is abutted to the shoe, and the internal shoe brush and the external shoe brush respectively move relative to the surface of the shoe, so that the effect of cleaning the shoe is achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a shoes utensil cleaning equipment to solve the shoes cleaning equipment's that exists among the prior art technical problem.

In order to achieve the above object, the utility model adopts a technical scheme that is a shoe cleaning device, include:

the outer brush module comprises a deformable outer brush sleeve, a plurality of outer brush pieces and magnetic pieces arranged on each outer brush piece are arranged on the outer brush sleeve;

the inner brush module comprises a shoe mold which is arranged in the outer brush sleeve and used for sleeving a shoe to be cleaned, and a plurality of electromagnetic pieces which are arranged on the shoe mold and used for attracting the magnetic pieces;

the control assembly is electrically connected with the electromagnetic pieces to respectively control the magnetic states of the electromagnetic pieces; and

and the driving assembly is connected to the shoe mold and is used for driving the shoe mold to move.

Further, the inner brush module also comprises an inner brush piece arranged on the shoe mold.

Furthermore, a water spraying hole is formed in the shoe mold, and/or a plurality of water draining grooves are formed in the shoe mold.

Furthermore, the outer brush module further comprises a plurality of hair bundle column bodies arranged on the outer brush sleeve, each magnetic part is correspondingly arranged in the hair bundle column bodies, and the outer brush part is hair bundles arranged on the hair bundle column bodies.

Furthermore, the outer brush sleeve is an elastic net, and the hair bundle column bodies are detachably arranged at the intersection of the elastic net.

Furthermore, the shoe cleaning equipment also comprises a foldable cleaning barrel, and the outer brush module and the inner brush module are contained in the cleaning barrel.

Furthermore, the inside of cleaning barrel is provided with first couple pole and second couple pole respectively, outer brush cover connect in first couple pole and/or on the second couple pole, first couple pole with the second couple pole is collapsible.

Further, the driving assembly comprises a connecting rod connected to the shoe mold and a driving motor connected to the connecting rod and used for driving the connecting rod to reciprocate.

Furthermore, the shoe mold comprises a shoe front support, a shoe heel, a length adjusting rack arranged on the shoe front support, and a clamping tooth block arranged on the shoe heel and matched with the length adjusting rack.

Further, each region of the footwear is disposed in a gap between the inner brush module and the outer brush module and is driven by the drive assembly to move in the gap, and the inner brush module and the outer brush module are replaceable.

The utility model provides a shoes utensil cleaning equipment's beneficial effect lies in:

firstly, the cleaning degree of the corresponding area of the shoe to be cleaned can be enhanced by changing the magnetic state of the electromagnetic part in the preset area on the shoe mold, specifically, the magnetic state of the electromagnetic part in the preset area of the shoe mold is respectively changed by the control assembly, the outer brush part in the corresponding area on the outer brush sleeve is attracted to be close to the shoe mold, the pressure applied by the outer brush part to the shoe to be cleaned sleeved on the shoe mold is increased, and the cleaning degree of the preset area is further improved; secondly, the control assembly can respectively control the magnetic states of the electromagnetic parts in different areas so as to adjust the areas to be enhanced in cleaning degree, so that the shoe cleaning equipment can be suitable for shoes in different dirty areas and has higher applicability; finally, the driving component drives the shoe mold to move relative to the inner cavity of the shoe tool, and the outer brush sleeve moves relative to the outer surface of the shoe tool, so that the washing function is realized.

Drawings

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

FIG. 1 is a schematic view of a footwear cleaning apparatus provided in an embodiment of the present invention;

FIG. 2 is a schematic view of a shoe mold and an electromagnetic member provided in an embodiment of the present invention;

FIG. 3 is a schematic view of a shoe mold and an inner brush member provided in an embodiment of the present invention;

FIG. 4 is a schematic view of an outer brush according to an embodiment of the present invention;

fig. 5 is an unfolded schematic view of the cleaning bucket provided by the embodiment of the present invention;

fig. 6 is a schematic view of the folded cleaning bucket according to the embodiment of the present invention;

fig. 7 is a top view of a cleaning bucket according to an embodiment of the present invention;

FIG. 8 is a schematic view of a rotation angle of the shoe mold according to the embodiment of the present invention;

FIG. 9 is a schematic view of another rotation angle of the shoe mold according to the embodiment of the present invention;

FIG. 10 is a schematic view of a shoe mold according to an embodiment of the present invention;

FIG. 11 is a schematic view of a heat deformable styling shoe brush according to an embodiment of the present invention;

FIG. 12 is a schematic view of a heat deformable styling shoe brush as an external brush module according to an embodiment of the present invention;

FIG. 13 is a schematic view of a heat deformable shaped shoe brush as an inner brush module according to an embodiment of the present invention;

FIG. 14 is a schematic view of a cleaning device for footwear according to an embodiment of the present invention, showing a key cleaning area;

fig. 15 is a schematic diagram of a user interaction interface provided by an embodiment of the present invention;

fig. 16 is a schematic view of a footwear cleaning apparatus according to another embodiment of the present invention.

The figures are numbered:

an outer brush module-1; an outer brush sleeve-11; an outer brush member-12; a magnetic member-13; tuft column-14;

an inner brush module-2; a shoe mold-21; water spray hole-211; -212, a drainage channel; a forefoot stretcher-213; a heel-214; length adjustment rack-215; a clamping tooth block-216; an electromagnetic member-22; an inner brush member-23;

a control component-3;

a drive assembly-4; a connecting rod-41; a drive motor-42; a gear reduction-421; motion conversion device-422;

footwear-5;

a cleaning barrel-6; a first hanger bar-61; a second hanger bar-62.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the invention, and are not intended to indicate that a device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating relative importance or as indicating a number of technical features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. The following describes the specific implementation of the present invention in more detail with reference to specific embodiments:

as shown in fig. 1 and 2, an embodiment of the present invention provides a shoe cleaning device, including:

the outer brush module 1 comprises a deformable outer brush sleeve 11, a plurality of outer brush pieces 12 are arranged on the outer brush sleeve 11 in an arrayed mode, and a magnetic piece 13 is arranged on each outer brush piece 12;

the inner brush module 2 comprises a shoe mold 21 which is arranged in the outer brush sleeve 11 and is used for sleeving the shoe 5 to be cleaned, and a plurality of electromagnetic elements 22 which are arranged on the shoe mold 21 and are used for attracting the magnetic elements 13;

a control assembly electrically connected to the plurality of electromagnetic members 22 to control magnetic states of the plurality of electromagnetic members 22, respectively; and

and the driving assembly 4 is connected to the shoe mold 21 and is used for driving the shoe mold 21 to move.

The working principle of the shoe cleaning equipment provided by the embodiment is as follows:

the shoe mold 21 is sleeved with the shoe tool 5 to be cleaned, the shoe mold 21 sleeved with the shoe tool 5 is placed in the outer brush sleeve 11, a user controls the magnetic state of the electromagnetic part 22 on the preset area of the shoe mold 21 through the control assembly, the corresponding magnetic part 13 on the outer brush sleeve 11 is attracted to be close to the preset area of the shoe mold 21, then the magnetic part 13 drives the outer brush 12 to be close to the preset area of the shoe mold 21, and the pressure of the outer brush 12 on the surface of the shoe tool 5 to be cleaned is enhanced as the shoe tool 5 to be cleaned is sleeved on the shoe mold 21; then, the driving component 4 is started to drive the shoe mold 21 to move, and further drive the shoe 5 to move relative to the outer brush sleeve 11, and the outer brush sleeve 11 can be deformed, so that even if the shoe 5 moves relative to the outer brush sleeve 11, the electromagnetic part 22 in the preset area always attracts the magnetic part 13 passing through the preset area to be close to the shoe mold 21, and therefore the preset area of the shoe 5 to be cleaned can be always cleaned to a higher degree.

The shoe cleaning equipment provided by the embodiment has the beneficial effects that:

firstly, the cleaning degree of the corresponding area of the shoe 5 to be cleaned can be enhanced by changing the magnetic state of the electromagnetic part 22 in the preset area on the shoe mold 21, specifically, the magnetic state of the electromagnetic part 22 in the preset area of the shoe mold 21 is respectively changed by the control assembly, so as to attract the outer brush 12 in the corresponding area on the outer brush sleeve 11 to approach the shoe mold 21, thereby increasing the pressure applied by the outer brush 12 on the shoe 5 to be cleaned sleeved on the shoe mold 21, and further improving the cleaning degree of the preset area; secondly, the control component can respectively control the magnetic states of the electromagnetic parts 22 in different areas to adjust the areas with the enhanced cleaning degree, so that the shoe cleaning equipment can be suitable for different shapes of the shoes 5 and different dirt areas of the shoes 5 to match with specific cleaning strategies, and has higher applicability; finally, the driving component 4 drives the shoe mold 21 to move relative to the inner cavity of the shoe 5, and the outer brush sleeve 11 moves relative to the outer surface of the shoe 5, so as to realize the brushing function.

Specifically, the outer brush sleeve 11 of the present embodiment may be fixed or unfixed, and when the outer brush sleeve 11 is fixed to another component, the outer brush sleeve 11 is in a fixed state, and the driving assembly 4 is started to drive the shoe mold 21 to move relative to the outer brush sleeve 11; when the outer brush sleeve 11 is not fixed on other parts, the driving assembly 4 is started to drive the shoe mold 21 to move, and because the outer brush sleeve 11 is not fixed on the shoe mold 21, when the shoe mold 21 moves, the outer brush sleeve 11 is left at the original position due to the inertia effect, the shoe mold 21 moves relative to the outer brush sleeve 11, and further, the shoe mold 21 reciprocates, and the shoe mold 21 reciprocates relative to the outer brush sleeve 11 by the inertia effect of the outer brush sleeve 11.

In a detailed manner, the zipper is arranged at the bottom of the outer brush sleeve 11, so that the shoe 5 can be easily put into the outer brush sleeve 11 and taken out of the outer brush sleeve 11; the heel part of the outer brush sleeve 11 is additionally provided with a shoe rope small bag for placing a shoe lace rope, and the shoe rope is untied and placed into the shoe rope small bag when shoes are washed.

Furthermore, the outer brush cover 11 is not limited to a net shape, and may be a combination of a part of elasticity and a part of rigidity by using the elasticity of the elastic net in all directions, for example, an outer copying device matched with the outer contour of the footwear 5 is used as a combination of a rigid part and an elastic line connected to the hook is used as an elastic part, and a certain gap is provided between the outer copying device and the outer contour of the footwear 5 for arranging cleaning materials (such as brush hair, acrylic fiber, polyethylene, etc.). The rigid part plays a role of fixing the cleaning material, the shoe 5 touches the cleaning material fixed on the rigid external copying tool, and the friction with the cleaning material is increased due to the rigidity of the external copying tool; the elastic part plays a role in buffering the stroke, and as the maximum movement range (maximum stroke) of the shoe 5 is larger than the clearance between the outer profiling tool and the outer contour of the shoe 5, the excessive part is buffered by the elastic part. One way of achieving a rigid combination is a heat deformable styling shoe wash: as shown in fig. 11 to 13, the heat-deformable shoe washing brush is a mesh brush with a slightly deformable shape and a heat-deformable shape, and the heat-deformable shoe washing brush has a heat-shaping tool, and the detailed description is as follows:

the heat-deformable sizing shoe washing brush can comprise small brush plates embedded with magnetic materials along the outer surface array of a shoe and a first convex connecting band which is connected and semi-folded in the longitudinal and transverse cross directions, and optionally, the outer brush piece 12 is a small brush plate, the outer brush sleeve 11 is a first convex connecting band, and the bristles of the small brush plate face the outer surface of the shoe; similarly, the heat-deformable-shaped shoe washing brush can comprise small brush plates embedded with magnetic materials along the inner surface array of the shoe and second convex connecting bands which are connected and semi-folded in the longitudinal and transverse cross directions, optionally, the inner brush piece 23 is a small brush plate, the shoe mold 21 is a second convex connecting band, and the bristles of the small brush plate face the inner surface of the shoe; the half-folded raised connecting bands of the outer brush module 1 and the inner brush module 2 can be slightly deformed, and the material of the outer brush module 1 with the opening and the half-folded raised connecting bands is slightly deformed so as to fit shoes into the material and be moderate in strength.

The raised connecting strip is a heat-deformable material:

the half-folded raised connecting band can be greatly deformed during heating, so that the outer brush module and the inner brush module can be more matched with the external contour and the inner cavity shape of a specific shoe under the action of external force, and the half-folded raised connecting band can only be slightly deformed after being fixed after being cooled, so that bristles can move more together along with the brush body when the inner brush module 2 and the outer brush module 1 move relatively. Relationship of three heat resistance indexes of plastics: vicat softening point > heat distortion temperature > martensitic heat resistance temperature. Taking ABS plastic (acrylonitrile-butadiene-styrene plastic) as an example, the corresponding values of the three heat-resistant temperatures are respectively: 160 ℃, 86 ℃ and 75 ℃, and applying external force for reshaping when the temperature of the ABS just exceeds 86 ℃.

The outer brush module 1 and the inner brush module 2 can be shaped by the following heating and shaping tools:

the heating and shaping tool consists of a heating device, a temperature sensor, a fluid force application device, an electronic control system and a shell. The heating device is an electric heating device or a hot water introducing device; the temperature sensors are arranged close to the material to be heated and shaped and are used for detecting the temperature of the material to be heated and shaped; the fluid force application device can be an elastic container with a hand-press air pressure pump or a liquid pressurization pump, substances in the elastic container are increased and expanded, and the force generated by expansion extrudes the material to be heated and shaped according to the external contour and the shape of the inner cavity of the shoe;

specifically, the electromagnetic part 22 is an electromagnet coil, the control component is a control circuit, the control circuit is electrically connected with a plurality of electromagnet coils respectively, and the electromagnet coils are arranged inside the shoe mold 21 and tightly attached to the surface of the shoe mold 21;

in a refined manner, the toe part of the shoe mold 21 is at least provided with four small electromagnet coils, namely an upper electromagnet coil (sole), a lower electromagnet coil (instep), a left electromagnet coil (inner side of the shoe) and a right electromagnet coil (outer side of the shoe), and the arrangement modes of the electromagnet coils at other positions are analogized in turn, so that the more the number of the electromagnet coils is, the better the electromagnet coils are. The magnetic field generated by the electromagnet coil after being electrified can generate interaction with the outer brush piece 12 with the magnetic piece 13 on the surface of the shoe 5, and the acting force between the outer brush piece 12 and the surface of the shoe 5 can be adjusted by adjusting the strength of the magnetic field by changing the current, so that the aim of adjusting the brushing force is fulfilled. The local parts of the footwear 5 are cleaned by changing the combination of the energization of the electromagnet coils, for example, by increasing the current of several electromagnet coils in the heel part of the sole, the force of the outer brush 12 on the outer surface of the footwear 5 and the contacted shoe surface is increased, so that the local brushing force is also increased when the shoe mold 21 moves.

Further, the control component is connected with the terminal device in a wired or wireless manner, the user specifies the style of the footwear 5 and the important cleaning area and the stain level required by the footwear 5 through a user interaction interface of the terminal device, such as a liquid crystal touch screen or a mobile phone APP, and then the controller is used for programming and controlling the current magnitude and the maintaining time of the plurality of electromagnet coils in the specified area of the user. Specifically, in the aspect of the style of the footwear 5, a cleaning strategy formulated according to a specific footwear 5 is obtained, and the current magnitude and the holding time of each electromagnet coil in the footwear 21 are formulated by combining the three-dimensional data of the footwear 21 and the three-dimensional data of the electromagnet 22, for example, the area of a certain style of footwear 5 near an opening where the instep is empty is large, and the electromagnet coil covered by the area can be not electrified during shoe cleaning during programming; in the aspect of the important cleaning area and the stain grade required by the shoe 5, a user inputs a preset area required to be important cleaned in a user interaction interface, the number and the number of the preset electromagnetic pieces 22 are calculated by combining the three-dimensional data of the shoe mold 21 and the three-dimensional data of the electromagnet, and the power-on time and the current of the electromagnetic pieces 22 in the preset area are controlled according to the grade of the user, so that the aim of the user on which the user points is important cleaned is fulfilled. For example, a user clicks and draws a preset area A needing to be washed in a focused manner through the interactive interface 8, the stain grade is I, the electromagnets with the numbers of 101, 102, 103 and 104 in the shoe mold 21 are calculated to be in the preset area A by adopting the method, and the electrifying time and the current of the electromagnets with the numbers of 101, 102, 103 and 104 are controlled in sequence, so that the purpose of the user where to wash in a focused manner is achieved; similarly, the user clicks the preset area B to be mainly cleaned on the user interface 8, and the power-on time and current of the electromagnets 051, 052, 053 and 054 located in the preset area B are calculated, and then the process sequence is controlled 051, 052, 053 and 054, so as to achieve the purpose of mainly cleaning where the user points, as shown in fig. 14 and 15.

As shown in fig. 16, alternatively, in other cleaning and care situations, such as dry cleaning, dust removal, oil application, etc., the outer brush module can also be replaced by an easily movable object containing magnetic material, such as a cleaning ball 7, which implements the process:

1, programming and controlling the power-on time and the maintaining time of each electromagnetic element 22 in the array, displaying characters and various patterns like an LED dot matrix, and controlling the cleaning ball 7 to move on the surface of the shoe according to a specified track;

2, the cleaning ball 7 is internally provided with a magnet and permeated cleaning maintenance liquid, and the surface is provided with cleaning tools such as brush hair.

Further, referring to fig. 3, the inner brush module 2 further includes a plurality of inner brush members 23 arranged on the shoe mold 21, and a distance between adjacent inner brush members 23 and a shape defined by the plurality of inner brush members 23 are adapted to the footwear 5. It can be understood that, through the inner brush member 23 disposed on the shoe mold 21, when the shoe mold 21 moves relative to the outer brush sleeve 11, the inner brush member 23 can also wash the inside of the footwear 5, similarly, since the inner brush member 23 has a smaller contour than the footwear 5 and a certain gap exists between the inner brush member and the footwear 5, the inner brush member 23 increasing the current of the electromagnet coil and the internal surface acting force of the footwear 5 will also increase, that is, the inner brush member 23 will also increase the pressure applied to the footwear 5 to be cleaned, which is sleeved on the shoe mold, and similarly, the local brushing force increasing the current of the electromagnet coil will also increase when the shoe mold 21 moves.

Further, the shoe mold 21 is provided with a water spraying hole 211, the shoe mold 21 is provided with a plurality of water draining grooves, or the shoe mold 21 is provided with only one of the water spraying hole and the water draining grooves.

Specifically, the shoe mold 21 is provided with a space for accommodating a water pipe from the opening to the toe of the shoe, the diameter (width) of the water pipe is about 8mm, a water spraying hole 211 is provided at the toe of the shoe, the diameter of the water spraying hole 211 is about 8mm, the water spraying hole 211 protrudes out of the toe of the shoe, and water sprayed from the water spraying hole 211 is discharged to a plurality of water passing holes around the water spraying hole 211.

Specifically, the front part and the rear part of the shoe mold 21 are provided with a plurality of drainage grooves extending from the toe cap or the sole to the opening direction, the drainage grooves are used for discharging sewage, the width of the drainage grooves is about 3mm, and the bottom and two sides of the shoe mold 21 are 2-3 strips respectively.

Optionally, as shown in fig. 4, the outer brush module 1 further includes a plurality of bristle column columns 14 disposed on the outer brush casing 11, each magnetic member 13 is correspondingly disposed in the bristle column 14, and the outer brush member 12 is a bristle bundle disposed on the bristle column 14.

Further, the outer brush sleeve 11 is an elastic net, and the tuft column bodies 14 are detachably arranged at the intersections of the elastic net. Specifically, at least one line with smaller elasticity (or no elasticity) and capable of bending is arranged in two crossed directions of the grids of the elastic net, and the lines are used as frameworks of the grids to increase the elastic force of the grids to be evenly distributed so as to enhance the shoe washing effect. In a detailed manner, the elastic net is formed by weaving strips of sheet strips (the width can reach 1cm) in a criss-cross mode, a bag which is similar to the appearance of the shoe 5 in shape is formed in one side of the elastic net, the wool bundle column bodies 14 are arranged on one side of the elastic net, the bag is formed in one side of the wool bundle column bodies 14, the bag is attached to the outer surface of the shoe 5, the elastic net has certain elastic energy and can match with the shoe 5 in a certain size range, the shoe 5 is placed in the bag formed by the elastic net, the shoe 5 is moved, relative motion is generated between the shoe 5 and the elastic net, friction is generated in the relative motion, and the. The hair bundle column body 14 is provided with a fixing clamp which is embedded at the intersection of the elastic net; the magnetic member 13 provided on the tuft column 14 is preferably an iron magnet or a neodymium magnet.

Further, referring to fig. 1, 5 and 6, the shoe cleaning device further includes a foldable cleaning barrel 6, and the outer brush module 1 and the inner brush module 2 are both contained in the cleaning barrel 6. Fig. 6 shows the folded cleaning bucket 6, which is greatly reduced in size in the vertical direction and is convenient for the user to carry.

Further, as shown in fig. 7, the cleaning tub 6 is provided inside with a first hanger bar 61 and a second hanger bar 62, respectively, and the outer brush holder 11 is connected between the first hanger bar 61 and the second hanger bar 62, or the outer brush holder 11 is connected to the first hanger bar 61 or the second hanger bar 62, and the first hanger bar 61 and the second hanger bar 62 are foldable. Specifically, one end of the first hook rod 61 is rotatably connected to the bottom of the cleaning bucket 6, and the other end thereof is provided with a hook for hanging the front end of the outer brush sleeve 11; one end of the second hook rod 62 is rotatably connected to the bottom of the cleaning tub 6, and the other end is provided with a hook for hanging the rear end of the outer brush casing 11.

As shown in fig. 8 and 9, the first and second hanger bars 61 and 62 can be rotated within a range of 90 degrees. The rotation angles of the first hook rod 61 and the second hook rod 62 are controlled by the cleaning bucket 6 through a linkage rod on the cleaning bucket 6: when the cleaning barrel 6 is stretched in place, the first hook rod 61 and the second hook rod 62 form an included angle of 90 degrees with the plane of the base; when the cleaning barrel 6 is folded in place, the included angle between the first hook rod 61 and the base plane is 0 degree, and the included angle between the second hook rod 62 and the base plane is 0 degree.

Further, referring to fig. 1 again, the driving assembly 4 includes a connecting rod 41 connected to the shoe mold 21 and a driving motor 42 connected to the connecting rod 41 for driving the connecting rod 41 to reciprocate.

The driving motor 42 further comprises a gear reduction device 421 and a motion conversion device 422, the power of the driving motor 42 is output to the motion conversion device 422 after being reduced by the gear, the motion conversion device 422 drives the power to drive the shoe mold 21 to move in at least one direction for a distance greater than the maximum gap between the hard boundary of the shoe mold 21 and the shoe mold 5, for example, the maximum gap between a certain shoe mold 5 and the shoe mold 21 matched with the shoe mold (excluding the soft boundary of the brush hair) is the connecting line direction of the toe and the heel of the shoe, the length of the inner cavity of the shoe mold 5 is L (assuming that the length of the inner cavity of 40 yards is 25CM), the length of the shoe mold 21 matched with the length is M ((assuming that the length of the shoe mold 21 matched with 40 yards is 24CM, excluding the soft boundaries of the lengths of 0.5CM for each of the toe and the heel of the shoe), and the driving assembly 4 can ensure that the driving assembly 4 can drive the shoe mold 5 to move only when the driving assembly 4 drives the shoe mold 21, the maximum moving distance of the shoe 5 is the difference between the moving distance K of the driving assembly 4 and the maximum gap (L-M), and if the moving distance K of the inner brush module 2 is 5CM, the maximum moving distance K- (L-M) of the shoe 5 is 5- (25-24) or 5-1 or 4 CM.

Further, as shown in fig. 10, the shoe mold 21 includes a front shoe stretcher 213, a heel 214, a length adjusting rack 215 disposed on the front shoe stretcher 213, and a locking tooth block 216 disposed on the heel 214 and engaged with the length adjusting rack 215. The length of each sawtooth of the length adjusting rack 215 is half yard and marked with shoe yard size number at the corresponding position, the clamping tooth block 216 is embedded in the clamping tooth block 216 moving groove of the shoe front support 213, a small triangle bump is arranged on the wall of the opening of the groove to avoid pressing the clamping tooth block 216 with force to make the clamping tooth block 216 automatically fall out when the clamping tooth block 216 enters the shoe mold 21 after one side of the moving groove is deformed, and a nut is arranged in the clamping tooth block 216 and fixes the matching between the sawteeth of the shoe front support 213 and the shoe heel together with the bolt.

Specifically, the process of adjusting the length of the shoe mold 21 to match the shoe size is as follows: loosening the bolts, moving the distance between the front shoe stretcher 213 and the heel, observing the shoe size number indicated by the arrow of the clamping tooth block 216, tightening the bolts when moving to the required shoe size number, and adjusting the length of the shoe mold 21 to match the shoe size.

Further, each area of the shoe 5 is placed in the gap between the inner brush module 2 and the outer brush module 1, that is, the inner brush is filled with the outer brush package, and the shoe 5 is driven by the driving component 4 to move in the gap, and the inner brush module 2 and the outer brush module 1 are both replaceable, i.e., can be adapted to various shoes 5. Further, the device for cleaning the shoes 5 further comprises a liquid circulating device which comprises a water supply valve, a water discharge valve, a water suction pump, a spray head and a pipeline thereof, wherein the spray head is arranged at the bottom of the front support tip and the heel of the shoe mold 21.

Further, the device for cleaning footwear 5 further comprises a physical sterilizing device comprising a blue light, pasteurizing, ultraviolet and UV sterilizing lamp and other physical sterilizing devices.

Further, the control assembly comprises a motor switch, a water supply switch, a water drainage switch, a water level detection unit, an upper cover switch detection unit and a central micro-processing unit.

Further, the device for cleaning footwear 5 further comprises a control panel comprising a digital or liquid crystal screen, keys or rotary buttons, etc.

In summary, the present embodiment provides an apparatus for cleaning footwear 5 that solves two problems:

one, solve the problem of how to let the cleaning material of washing shoes and the inside and outside abundant contact of shoes utensil 5, this embodiment fully contacts the inside of shoes utensil 5 and the outside of shoes utensil 5 of fully contacting of outer brush module 1 through interior brush module 2:

the shoe mold 21 of the inner brush module 2 can be replaced or the length can be adjusted in a certain range, and the inner brush pieces 23 (such as brush hair, propylene fiber, polyethylene and the like) on the surface of the shoe mold 21 can also be replaced or the length can be adjusted in a certain range, so that the inner brush pieces can fully contact the inside of the shoe 5;

the outer brush sleeve 11 of the outer brush module 1 is a combination of a globally elastic net brush (similar to a shoe washing bag with cleaning materials) or a partially elastic outer profiling appliance with cleaning materials matched with the outer contour of the shoe 5, and fully contacts the outside of the shoe 5.

Secondly, the problem of how to make the cleaning material of the washing shoes contact with the shoes 5 and the acting force is solved:

the driving assembly 4 converts the power into the friction between the inner and outer cleaning materials and the power-driven footwear 5 including the linear motion or the curvilinear motion through the motion conversion device 422, and the acting force of the partial area can be adjusted through the electromagnetic part 22.

Since both the inner brush module 2 (the shoe mold 21 and the inner brush member 23) and the outer brush module 1 (the elastic net brush or the outer contoured shoe brush) can be replaced, this provides a rich selection space for a particular shoe 5 with a particular brush, even a platform model of a shoe-brush to address the variety of shoes 5.

The embodiment simultaneously cleans the inner surface, the outer surface and the sole of the shoe 5, so that each part of the shoe 5 can be effectively and thoroughly cleaned, the structure is simple, the cost is low, and the folded shoe occupies small space and can be conveniently carried in a luggage case.

The method can also be used for formulating a shoe one-step method through a user interaction interface, such as a liquid crystal touch screen or a mobile phone APP, a user specifies the key cleaning area and the stain grade needed by the shoe 5, and the current and the maintaining time of a plurality of electromagnet coils in the user specified area are programmed and controlled by utilizing a controller, so that the purpose of where the user points is to be key cleaned is achieved. The function of the interactive shoe washing method, which is pointed by the user to the important washing position, is not available in most shoe washing equipment.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An article of footwear cleaning apparatus, comprising:

the outer brush module comprises a deformable outer brush sleeve, a plurality of outer brush pieces and magnetic pieces arranged on each outer brush piece are arranged on the outer brush sleeve;

the inner brush module comprises a shoe mold which is arranged in the outer brush sleeve and used for sleeving a shoe to be cleaned, and a plurality of electromagnetic pieces which are arranged on the shoe mold and used for attracting the magnetic pieces;

the control assembly is electrically connected with the electromagnetic pieces to respectively control the magnetic states of the electromagnetic pieces; and

and the driving assembly is connected to the shoe mold and is used for driving the shoe mold to move.

2. The footwear cleaning apparatus of claim 1, wherein the inner brush module further comprises an inner brush member disposed on the footwear mold.

3. The footwear cleaning apparatus of claim 1, wherein the mold shoe is provided with water spray holes and/or the mold shoe is provided with a plurality of water discharge grooves.

4. The footwear cleaning apparatus according to any of claims 1-3, wherein the outer brush module further comprises a plurality of tuft column posts disposed on the outer brush casing, each of the magnetic members being disposed within the tuft column posts, the outer brush member being a tuft disposed on the tuft column post.

5. The implement cleaning apparatus of claim 4, wherein the outer brush cover is an elastic net, and the tuft column posts are detachably disposed at intersections of the elastic net.

6. The footwear cleaning apparatus of any of claims 1-3, further comprising a collapsible cleaning bucket, wherein the outer brush module and the inner brush module are each housed within an interior of the cleaning bucket.

7. The cleaning apparatus for shoes according to claim 6, wherein a first hanger bar and a second hanger bar are respectively provided inside the cleaning tub, the outer brush casing is connected to the first hanger bar and/or the second hanger bar, and the first hanger bar and the second hanger bar are foldable.

8. The footwear cleaning apparatus of claim 6, wherein the driving assembly includes a link connected to the shoe mold and a driving motor connected to the link for driving the link to reciprocate.

9. The footwear cleaning apparatus of any of claims 1-3, wherein the shoe mold comprises a forefoot support, a heel, a length adjustment rack disposed on the forefoot support, and a detent tooth block disposed on the heel and engaging the length adjustment rack.

10. The footwear cleaning apparatus of any of claims 1-3, wherein each region of the footwear is disposed in a gap between the inner brush module and the outer brush module and is driven in motion in the gap by the drive assembly, the inner brush module and the outer brush module being replaceable.

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