CN209984173U

CN209984173U - Shoes cleaning device

Info

Publication number: CN209984173U
Application number: CN201920540978.5U
Authority: CN
Inventors: 肖志信; 匡勇; 邹今祥; 初国旭; 彭润东
Original assignee: Hunan Institute of Technology
Current assignee: Hunan Institute of Technology
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2020-01-24
Anticipated expiration: 2029-04-19

Abstract

The utility model discloses a shoe cleaning device, which comprises a machine body, a bottom brush platform, a movable brush, a central shaft and a driving mechanism; the machine body is internally provided with a working cavity and an installation cavity which are not communicated with each other, and the installation cavity is positioned below the working cavity; the bottom brush stage comprises a main brush stage; the main brush platform is fixed at the bottom of the working cavity; the central shaft penetrates through the main brushing platform, and the axis of the central shaft is collinear with the central line of the main brushing platform; the bottom end of the central shaft penetrates through the bottom of the working cavity and is connected with a driving mechanism arranged in the mounting cavity; the top of the central shaft is provided with a mounting bracket; one end of the movable brush is connected with the mounting bracket. The utility model discloses the structure is ingenious, presses shoes at bottom brush bench and rotates along the center pin through movable brush, and the abluent clean effect of rotation type is more excellent, realizes automatic the washing, has improved the cleaning efficiency of shoes greatly.

Description

Shoes cleaning device

Technical Field

The utility model relates to a shoes cleaning device.

Background

With the rapid development of social economy, the quality of life of people is improved, and various household appliances appear to replace the manual work, so that the quality of life is improved. Shoes are essential articles for daily life of people, and the problem of cleaning the shoes is very important for improving the quality of life of people.

At present, the existing automatic shoe cleaning devices have a plurality of defects, for example, some shoe cleaning devices can only clean the surface; some methods only carry out relevant research on the method for cleaning the interior of the shoe, have incomplete technology and cannot realize automatic cleaning of the interior and the exterior of the shoe.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a clean effectual, clean efficient shoes cleaning device.

Realize the utility model discloses the technical scheme of purpose is: a shoe cleaning device comprises a machine body, a bottom brush platform, a movable brush, a central shaft and a driving mechanism; the machine body is internally provided with a working cavity and an installation cavity which are not communicated with each other, and the installation cavity is positioned below the working cavity; the bottom brush stage comprises a main brush stage; the main brush platform is fixed at the bottom of the working cavity; the central shaft penetrates through the main brushing platform, and the axis of the central shaft is collinear with the central line of the main brushing platform; the bottom end of the central shaft penetrates through the bottom of the working cavity and is connected with a driving mechanism arranged in the mounting cavity; the top of the central shaft is provided with a mounting bracket; one end of the movable brush is connected with the mounting bracket.

A water inlet pipe communicated with the working cavity is arranged on the machine body; a water inlet valve is arranged on the water inlet pipe; a water outlet pipe communicated with the working cavity is arranged at the bottom of the machine body; and a water outlet valve is arranged on the water outlet pipe.

The main brush platform of the bottom brush platform is conical; a first brush body is arranged on the side wall of the main brush platform; a plurality of supporting components for supporting the inner side of the first brush body are uniformly distributed in the main brush platform; the supporting component comprises a supporting spring, a supporting frame and a supporting ball; two ends of the supporting spring are respectively connected with the inner wall of the main brush platform and the supporting frame; the supporting balls are uniformly distributed on the supporting frame and are attached to the inner side of the first brush body.

An auxiliary brush plate is arranged on the top of the main brush table of the bottom brush table; and a second brush body is arranged on the bottom end surface of the auxiliary brush plate.

The movable hairbrush comprises a first rotary brush head, a second rotary brush head, a double-head motor, a middle main body and an electric telescopic rod; the double-head motor is arranged in the middle main body; the first rotating brush head and the second rotating brush head are respectively arranged at two ends of the middle main body, and the first rotating brush head and the second rotating brush head are respectively connected with two rotating shafts of the double-head motor; one end of the electric telescopic rod is fixedly connected with the middle main body, and the other end of the electric telescopic rod is hinged with the mounting bracket.

The middle main body of the movable brush comprises a brush shell, a first main shaft, a second main shaft, a sleeve and a middle brush body; the electric telescopic rod is fixed with the brush shell; the double-head motor is arranged in the brush shell; the middle brush body is sleeved on the outer wall of the brush shell; the sleeve is arranged in the brush shell, and one end of the sleeve penetrates through the brush shell and is connected with the middle brush body; the sleeve is axially connected with the brush shell in a sliding manner and is axially and relatively fixed; one end of the first main shaft is connected with a first rotating shaft of the double-head motor, the other end of the first main shaft penetrates through the hairbrush shell to be connected with the first rotating brush head, and the first main shaft is located in the sleeve; the middle part of the first main shaft is provided with an external thread; a nut in threaded connection with the middle part of the first main shaft is arranged in the sleeve; one end of the second main shaft is connected with a second rotating shaft of the double-head motor, and the other end of the second main shaft penetrates through the hairbrush shell to be connected with the second rotating brush head.

The utility model also comprises a speed change mechanism arranged in the installation cavity of the machine body; and the output end of the speed change mechanism are respectively connected with the central shaft and the output end of the driving mechanism.

The speed change mechanism comprises a transmission shell, and an input gear set, an output gear set, a transmission shaft, a clutch assembly, an input shaft, an output shaft and an electromagnetic assembly which are arranged in the shell; the input shaft and the output shaft are respectively connected with the output end and the central shaft of the driving mechanism; the input gear set includes a first input gear and a second input gear; the first input gear and the second input gear are respectively fixed on the input shaft and the transmission shaft, and the first input gear is meshed with the second input gear; the output gear set comprises a first output gear and a second output gear; the first output gear and the second output gear are respectively fixed on the middle parts of the transmission shaft and the output shaft; the clutch component comprises a clutch driving plate, a shifting rod and a clutch wheel; the clutch driving plates are arranged and fixed on the transmission shaft; one end of the shifting rod is arranged between the two clutch drive plates and is arranged along the circumferential direction of the clutch drive plates in a sliding manner; the other end of the shifting lever is connected with the top of the clutch wheel and is arranged along the circumferential direction of the clutch wheel in a sliding manner; the clutch wheel is arranged on the lower part of the output shaft in an axial sliding manner and is relatively fixed in the axial direction; the bottom end of the clutch wheel is provided with internal teeth which can be meshed with the first input gear; the input shaft is arranged in the shell in a sliding mode along the axial direction; the electromagnetic assembly drives the clutch driving plate to axially displace.

The driving mechanism comprises a driving motor, a driving wheel, a transmission belt, a driven wheel and a driven shaft; the driving wheel is fixed on a rotating shaft of the driving motor; the driven shaft is rotatably connected in the mounting cavity of the machine body; the driven wheel is fixed on the driven shaft; the transmission belt is encircled on the driving wheel and the driven wheel; the driven shaft is connected with an input shaft of the speed change mechanism.

The utility model also comprises a plurality of spherical cleaning brushes which are evenly arranged on the inner wall of the working cavity of the machine body; the spherical cleaning brush comprises a spherical brush body and a connecting wire; two ends of the connecting wire are respectively fixed with the inner wall of the working cavity and the spherical brush body.

By adopting the technical scheme, the utility model discloses following beneficial effect has: (1) the utility model discloses the structure is ingenious, presses shoes at bottom brush bench and rotates along the center pin through movable brush, and the abluent clean effect of rotation type is more excellent, realizes automatic the washing, has improved the cleaning efficiency of shoes greatly.

(2) The utility model discloses a bottom brush platform structure is ingenious, and the spot of cooperation activity brush can effectively clean the shoes bottom, has improved the cleaning performance greatly.

(3) The utility model discloses a be equipped with vice brush board on the top of the main brush platform of bottom brush platform, be equipped with the second brush body on the bottom face of vice brush board, the second brush body can wash shoes heel position, improves the cleaning performance.

(4) The movable brush of the utility model has ingenious structure, realizes the cleaning of the inside of the shoe, the first rotary brush head and the second rotary brush head clean the front part and the rear part of the inside of the shoe in a rotary way,

(5) the utility model discloses a middle part major structure of activity brush is ingenious, washes through middle part brush body reciprocating motion, improves the inside clean effect of shoes greatly.

(6) The utility model discloses still including the speed change mechanism who sets up in the installation intracavity of organism, can realize two kinds of variable speed transmission, realize shoes and wash and the function of spin-drying.

(7) The utility model discloses still include evenly to be provided with a plurality of spherical cleaning brushes on the working chamber inner wall of organism, can improve the apparent clean effect of shoes greatly with shoes surface contact when the activity brush is rotatory.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is given in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the bottom brush table of the present invention.

Fig. 3 is a schematic structural diagram of the speed change mechanism of the present invention.

Fig. 4 is a schematic structural view of the spherical cleaning brush of the present invention.

Fig. 5 is a schematic structural view of the movable brush of the present invention.

The reference numbers in the drawings are:

the device comprises a machine body 1, a working cavity 1-1, an installation cavity 1-2, a water inlet pipe 1-3, a water inlet valve 1-4, a water outlet pipe 1-5, a water outlet valve 1-6, a machine cover 1-7 and a contact switch 1-8;

the brush comprises a bottom brush platform 2, a main brush platform 2-1, a first brush body 2-2, a support spring 2-3, a support frame 2-4, a support ball 2-5, an auxiliary brush plate 2-6 and a second brush body 2-7;

the brush comprises a movable brush 3, a first rotary brush head 3-1, a second rotary brush head 3-2, a double-head motor 3-3, an electric telescopic rod 3-4, a brush shell 3-5, a first main shaft 3-6, a second main shaft 3-7, a sleeve 3-8 and a middle brush body 3-9;

a central shaft 4;

the device comprises a driving motor 5-1, a driving wheel 5-2, a transmission belt 5-3, a driven wheel 5-4 and a driven shaft 5-5;

the device comprises a speed change mechanism 6, a shell 6-1, an input gear set 6-2, a first input gear 6-2-1, a second input gear 6-2-2, an output gear set 6-3, a first output gear 6-3-1, a second output gear 6-3-2, a transmission shaft 6-4, a clutch assembly 6-5, a clutch dial 6-5-1, a deflector rod 6-5-2, a clutch wheel 6-5-3, an input shaft 6-6, an output shaft 6-7, an electromagnetic assembly 6-8, an electromagnet 6-8-1, an armature 6-8-2, an armature deflector rod 6-8-3 and a reset spring 6-8-4;

a spherical cleaning brush 7, a spherical brush body 7-1 and a connecting wire 7-2.

Detailed Description

(example 1)

Referring to fig. 1 to 5, the shoe cleaning device of the present embodiment includes a body 1, a bottom brush stage 2, a movable brush 3, a central shaft 4, and a driving mechanism. The machine body 1 is internally provided with a working cavity 1-1 and a mounting cavity 1-2 which are not communicated with each other, and the mounting cavity 1-2 is positioned below the working cavity 1-1. The bottom brush station 2 includes a main brush station 2-1. The main brush platform 2-1 is fixed at the bottom of the working chamber 1-1. The central shaft 4 is arranged on the main brush platform 2-1 in a penetrating way, and the axis is collinear with the central line of the main brush platform 2-1. The bottom end of the central shaft 4 penetrates through the bottom of the working cavity 1-1 and is connected with a driving mechanism arranged in the installation cavity 1-2. The top of the central shaft 4 is provided with a mounting bracket. One end of the movable brush 3 is connected with the mounting bracket.

The machine body 1 is provided with a water inlet pipe 1-3 communicated with the working cavity 1-1. The water inlet pipe 1-3 is provided with a water inlet valve 1-4. The bottom of the machine body 1 is provided with a water outlet pipe 1-5 communicated with the working cavity 1-1. The water outlet pipe 1-5 is provided with a water outlet valve 1-6. The top of the machine body 1 is provided with an openable machine cover 1-7. The bottom surface of the machine cover 1-7 is provided with a contact switch 1-8 matched with the top end surface of the machine body 1. The bottom surface of the working cavity 1-1 of the machine body 1 is provided with an annular limiting groove. The annular limiting groove is arranged coaxially with the central shaft 4. In order to avoid water accumulation in the annular limiting groove, a water drainage groove is arranged between the annular limiting groove and the water outlet pipe 1-5.

The main brush platform 2-1 of the bottom brush platform 2 is in a cone shape. The side wall of the main brush platform 2-1 is provided with a first brush body 2-2. A plurality of supporting components for supporting the inner side of the first brush body 2-2 are uniformly distributed in the main brush platform 2-1. The supporting component comprises a supporting spring 2-3, a supporting frame 2-4 and a supporting ball 2-5. Two ends of the supporting spring 2-3 are respectively connected with the inner wall of the main brush platform 2-1 and the supporting frame 2-4. The supporting balls 2-5 are uniformly distributed on the supporting frame 2-4 and are attached to the inner side of the first brush body 2-2.

The top of the main brush platform 2-1 of the bottom brush platform 2 is provided with an auxiliary brush plate 2-6. The bottom end face of the auxiliary brush plate 2-6 is provided with a second brush body 2-7.

The movable brush 3 comprises a first rotary brush head 3-1, a second rotary brush head 3-2, a double-head motor 3-3, a middle main body and an electric telescopic rod 3-4. The double-end motor 3-3 is arranged in the middle main body. The first rotary brush head 3-1 and the second rotary brush head 3-2 are respectively arranged at two ends of the middle main body, and the first rotary brush head 3-1 and the second rotary brush head 3-2 are respectively connected with two rotating shafts of the double-head motor 3-3. One end of the electric telescopic rod 3-4 is fixedly connected with the middle main body, and the other end is hinged with the mounting bracket.

The middle main body of the movable brush 3 comprises a brush shell 3-5, a first main shaft 3-6, a second main shaft 3-7, a sleeve 3-8 and a middle brush body 3-9. The electric telescopic rod 3-4 is fixed with the brush shell 3-5. The double-head motor 3-3 is arranged in the brush shell 3-5. The middle brush body 3-9 is sleeved on the outer wall of the brush shell 3-5. The sleeve 3-8 is arranged in the brush shell 3-5, and one end of the sleeve 3-8 penetrates through the brush shell 3-5 and is connected with the middle brush body 3-9. The sleeve 3-8 is axially slidably connected with the brush housing 3-5 and axially fixed relative thereto. One end of the first main shaft 3-6 is connected with a first rotating shaft of the double-head motor 3-3, the other end of the first main shaft 3-6 penetrates through the brush shell 3-5 to be connected with the first rotating brush head 3-1, and the first main shaft 3-6 is positioned in the sleeve 3-8. The middle part of the first main shaft 3-6 is provided with external threads. A nut which is in threaded connection with the middle part of the first main shaft 3-6 is arranged in the sleeve 3-8. One end of the second main shaft 3-7 is connected with a second rotating shaft of the double-head motor 3-3, and the other end of the second main shaft 3-7 penetrates through the brush shell 3-5 to be connected with the second rotary brush head 3-2.

The embodiment also comprises a speed change mechanism 6 arranged in the mounting cavity 1-2 of the machine body 1. The output end and the output end of the speed change mechanism 6 are respectively connected with the central shaft 4 and the output end of the driving mechanism.

The speed change mechanism 6 comprises a transmission shell 6-1, an input gear set 6-2, an output gear set 6-3, a transmission shaft 6-4, a clutch assembly 6-5, an input shaft 6-6, an output shaft 6-7 and an electromagnetic assembly 6-8, wherein the input gear set 6-2, the output gear set 6-3, the transmission shaft 6-4, the clutch assembly 6-5, the input shaft 6-6, the output shaft 6-7 and the electromagnetic. The input shafts 6-6 and the output shafts 6-7 are connected to the output end of the drive mechanism and the central shaft 4, respectively. The input gear set 6-2 includes a first input gear 6-2-1 and a second input gear 6-2-2. The first input gear 6-2-1 and the second input gear 6-2-2 are fixed to the input shaft 6-6 and the transmission shaft 6-4, respectively, and the first input gear 6-2-1 is meshed with the second input gear 6-2-2. The output gear set 6-3 includes a first output gear 6-3-1 and a second output gear 6-3-2. The first output gear 6-3-1 and the second output gear 6-3-2 are respectively fixed on the middle parts of the transmission shaft 6-4 and the output shaft 6-7. The clutch component 6-5 comprises a clutch dial 6-5-1, a deflector rod 6-5-2 and a clutch wheel 6-5-3. Two clutch drive plates 6-5-1 are arranged and are fixed on the transmission shaft 6-4. One end of the shift lever 6-5-2 is arranged between the two clutch drive plates 6-5-1 and is arranged along the circumferential direction of the clutch drive plates 6-5-1 in a sliding way. The other end of the deflector rod 6-5-2 is connected with the top of the clutch wheel 6-5-3 and is arranged along the circumferential direction of the clutch wheel 6-5-3 in a sliding way. The clutch wheel 6-5-3 is arranged on the lower part of the output shaft 6-7 in an axial sliding mode and is relatively fixed in the axial direction. The bottom end of the clutch wheel 6-5-3 is provided with internal teeth which can be meshed with the first input gear 6-2-1. The input shaft 6-6 is slidably disposed in the housing 6-1 in the axial direction. The electromagnetic component 6-8 drives the clutch dial 6-5-1 to move downwards. The electromagnetic component 6-8 comprises an electromagnet 6-8-1, an armature 6-8-2, an armature deflector rod 6-8-3 and a return spring 6-8-4. The electromagnet 6-8-1 is provided with one side of a clutch dial 6-5-1. The armature 6-8-2 is arranged above the electromagnet 6-8-1 in a sliding manner. The return spring 6-8-4 is fixed above the armature 6-8-2 and is connected with the armature 6-8-2. One end of the armature deflector rod 6-8-3 extends into the space between the two clutch dials 6-5-1 and is arranged along the circumferential direction of the clutch dials 6-5-1 in a sliding way, and the other end of the armature deflector rod 6-8-3 is fixed with the armature 6-8-2.

The diameter of the first input gear 6-2-1 is smaller than the diameter of the second input gear 6-2-2. The diameter of the first output gear 6-3-1 is smaller than the diameter of the second output gear 6-3-2.

The driving mechanism comprises a driving motor 5-1, a driving wheel 5-2, a transmission belt 5-3, a driven wheel 5-4 and a driven shaft 5-5. The driving wheel 5-2 is fixed on a rotating shaft of the driving motor 5-1. The driven shaft 5-5 is rotatably connected in the installation cavity 1-2 of the machine body 1. The driven wheel 5-4 is fixed on the driven shaft 5-5. The transmission belt 5-3 is wound on the driving wheel 5-2 and the driven wheel 5-4. The driven shaft 5-5 is connected with an input shaft 6-6 of a speed change mechanism 6.

The embodiment also comprises a plurality of spherical cleaning brushes 7 which are uniformly arranged on the inner wall of the working cavity 1-1 of the machine body 1. The spherical cleaning brush 7 comprises a spherical brush body 7-1 and a connecting wire 7-2. Two ends of the connecting wire 7-2 are respectively fixed with the inner wall of the working cavity 1-1 and the spherical brush body 7-1.

When in use, the movable brush 3 is turned upwards, the shoe covers are arranged on the movable brush 3, then the movable brush 3 is turned downwards, the sole is enabled to be contacted with the first brush body 2-2 of the bottom brush platform 2 downwards, the toe cap is aligned to the annular limiting groove, the electric telescopic rod 3-4 works to drive the middle main body to push the shoes to be abutted against the inner wall of the annular limiting groove, the water inlet valve 1-4 is opened, water is added into the working cavity 1-1 through the water inlet pipe 1-3 to a specified height, then the water inlet valve 1-4 is closed, the double-head motor 3-3 works to drive the first rotary brush head 3-1 and the second rotary brush head 3-2 to rotate forwards and backwards to wash the interior of the shoes, meanwhile, the extrusion force of the shoes limits the circumferential rotation of the middle main body, the transmission sleeve 3-8 reciprocates along the axial direction of the first main shaft 3, the middle brush body 3-9 moves back and forth in the shoe to wash the interior of the shoe, after the washing work of the interior of the shoe is finished, the electric telescopic rod 3-4 is reset to enable the shoe to be attached to the bottom brush platform 2, the driving mechanism transmits kinetic energy to the input shaft 6-6 of the speed change mechanism 6 through the driven shaft 5-5, the input shaft 6-6 drives the input gear set 6-2 to decelerate, the input gear set 6-2 drives the output gear set 6-3 to decelerate through the transmission shaft 6-4, the output gear set 6-3 drives the output shaft 6-7, the output shaft 6-7 drives the central shaft 4 to enable the movable hairbrush 3 to drive the shoe to circumferentially rotate and incline the sole on the bottom brush platform 2, then the spherical cleaning brush 7 is matched to clean the upper, after the cleaning of the upper is finished, the driving mechanism stops working, the water outlet valve, water is discharged through the water outlet pipe 1-5, after the water is discharged, the electromagnetic assembly 6-8 of the speed change mechanism 6 drives the clutch driving plate 6-5-1 to move downwards, so that the clutch wheel 6-5-3 is meshed with the first input gear 6-2-1 of the input gear set 6-2, at the moment, kinetic energy can be directly transmitted between the input shaft 6-6 and the output shaft 6-7, the driving mechanism works, and the movable brush 3 is driven to rapidly rotate to spin the moisture in the shoes.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A footwear cleaning device characterized by: comprises a machine body (1), a bottom brush platform (2), a movable brush (3), a central shaft (4) and a driving mechanism; the machine body (1) is internally provided with a working cavity (1-1) and a mounting cavity (1-2) which are not communicated with each other, and the mounting cavity (1-2) is positioned below the working cavity (1-1); the bottom brush platform (2) comprises a main brush platform (2-1); the main brush platform (2-1) is fixed at the bottom of the working cavity (1-1); the central shaft (4) penetrates through the main brushing platform (2-1), and the axis is collinear with the central line of the main brushing platform (2-1); the bottom end of the central shaft (4) penetrates through the bottom of the working cavity (1-1) and is connected with a driving mechanism arranged in the installation cavity (1-2); the top of the central shaft (4) is provided with a mounting bracket; one end of the movable hairbrush (3) is connected with the mounting bracket.

2. The footwear cleaning device of claim 1, wherein: a water inlet pipe (1-3) communicated with the working cavity (1-1) is arranged on the machine body (1); a water inlet valve (1-4) is arranged on the water inlet pipe (1-3); a water outlet pipe (1-5) communicated with the working cavity (1-1) is arranged at the bottom of the machine body (1); and a water outlet valve (1-6) is arranged on the water outlet pipe (1-5).

3. The footwear cleaning device of claim 1, wherein: the main brush platform (2-1) of the bottom brush platform (2) is conical; a first brush body (2-2) is arranged on the side wall of the main brush platform (2-1); a plurality of supporting components for supporting the inner side of the first brush body (2-2) are uniformly distributed in the main brush platform (2-1); the supporting component comprises a supporting spring (2-3), a supporting frame (2-4) and a supporting ball (2-5); two ends of the supporting spring (2-3) are respectively connected with the inner wall of the main brush platform (2-1) and the supporting frame (2-4); the supporting balls (2-5) are uniformly distributed on the supporting frame (2-4) and are attached to the inner side of the first brush body (2-2).

4. The footwear cleaning device of claim 1, wherein: an auxiliary brush plate (2-6) is arranged on the top of the main brush platform (2-1) of the bottom brush platform (2); the bottom end face of the auxiliary brush plate (2-6) is provided with a second brush body (2-7).

5. The footwear cleaning device of claim 1, wherein: the movable hairbrush (3) comprises a first rotary brush head (3-1), a second rotary brush head (3-2), a double-head motor (3-3), a middle main body and an electric telescopic rod (3-4); the double-end motor (3-3) is arranged in the middle main body; the first rotary brush head (3-1) and the second rotary brush head (3-2) are respectively arranged at two ends of the middle main body, and the first rotary brush head (3-1) and the second rotary brush head (3-2) are respectively connected with two rotating shafts of the double-head motor (3-3); one end of the electric telescopic rod (3-4) is fixedly connected with the middle main body, and the other end of the electric telescopic rod is hinged with the mounting bracket.

6. The footwear cleaning device of claim 5, wherein: the middle main body of the movable brush (3) comprises a brush shell (3-5), a first main shaft (3-6), a second main shaft (3-7), a sleeve (3-8) and a middle brush body (3-9); the electric telescopic rod (3-4) is fixed with the brush shell (3-5); the double-head motor (3-3) is arranged in the brush shell (3-5); the middle brush body (3-9) is sleeved on the outer wall of the brush shell (3-5); the sleeve (3-8) is arranged in the brush shell (3-5), and one end of the sleeve (3-8) penetrates through the brush shell (3-5) and is connected with the middle brush body (3-9); the sleeve (3-8) is axially connected with the brush shell (3-5) in a sliding manner and is axially fixed relatively; one end of the first main shaft (3-6) is connected with a first rotating shaft of the double-head motor (3-3), the other end of the first main shaft (3-6) penetrates through the hairbrush shell (3-5) to be connected with the first rotating brush head (3-1), and the first main shaft (3-6) is positioned in the sleeve (3-8); the middle part of the first main shaft (3-6) is provided with an external thread; a nut in threaded connection with the middle part of the first main shaft (3-6) is arranged in the sleeve (3-8); one end of the second main shaft (3-7) is connected with a second rotating shaft of the double-head motor (3-3), and the other end of the second main shaft (3-7) penetrates through the hairbrush shell (3-5) and is connected with the second rotary brush head (3-2).

7. The footwear cleaning device of claim 1, wherein: the speed change mechanism is also arranged in the installation cavity (1-2) of the machine body (1); and the output end of the speed change mechanism (6) are respectively connected with the central shaft (4) and the output end of the driving mechanism.

8. The footwear cleaning device of claim 7, wherein: the speed change mechanism (6) comprises a speed changer shell (6-1), and an input gear set (6-2), an output gear set (6-3), a transmission shaft (6-4), a clutch assembly (6-5), an input shaft (6-6), an output shaft (6-7) and an electromagnetic assembly (6-8) which are arranged in the shell (6-1); the input shafts (6-6) and the output shafts (6-7) are respectively connected with the output end of the driving mechanism and the central shaft (4); the input gear set (6-2) comprises a first input gear (6-2-1) and a second input gear (6-2-2); the first input gear (6-2-1) and the second input gear (6-2-2) are respectively fixed on the input shaft (6-6) and the transmission shaft (6-4), and the first input gear (6-2-1) is meshed with the second input gear (6-2-2); the output gear set (6-3) comprises a first output gear (6-3-1) and a second output gear (6-3-2); the first output gear (6-3-1) and the second output gear (6-3-2) are respectively fixed on the middle parts of the transmission shaft (6-4) and the output shaft (6-7); the clutch component (6-5) comprises a clutch dial plate (6-5-1), a deflector rod (6-5-2) and a clutch wheel (6-5-3); two clutch driving plates (6-5-1) are arranged and are fixed on the transmission shaft (6-4); one end of the deflector rod (6-5-2) is arranged between the two clutch drive plates (6-5-1) and is arranged along the circumferential direction of the clutch drive plates (6-5-1) in a sliding manner; the other end of the deflector rod (6-5-2) is connected with the top of the clutch wheel (6-5-3) and is arranged along the circumferential direction of the clutch wheel (6-5-3) in a sliding manner; the clutch wheel (6-5-3) is arranged on the lower part of the output shaft (6-7) in an axially sliding manner and is relatively fixed in the axial direction; the bottom end of the clutch wheel (6-5-3) is provided with internal teeth which can be meshed with the first input gear (6-2-1); the input shaft (6-6) is arranged in the shell (6-1) in a sliding mode along the axial direction; the electromagnetic assembly (6-8) drives the clutch dial (6-5-1) to axially displace.

9. The footwear cleaning device of claim 8, wherein: the driving mechanism comprises a driving motor (5-1), a driving wheel (5-2), a transmission belt (5-3), a driven wheel (5-4) and a driven shaft (5-5); the driving wheel (5-2) is fixed on a rotating shaft of the driving motor (5-1); the driven shaft (5-5) is rotatably connected in the mounting cavity (1-2) of the machine body (1); the driven wheel (5-4) is fixed on the driven shaft (5-5); the transmission belt (5-3) is wound on the driving wheel (5-2) and the driven wheel (5-4); the driven shaft (5-5) is connected with an input shaft (6-6) of the speed change mechanism (6).

10. The footwear cleaning device of claim 1, wherein: the cleaning machine also comprises a plurality of spherical cleaning brushes (7) which are uniformly arranged on the inner wall of the working cavity (1-1) of the machine body (1); the spherical cleaning brush (7) comprises a spherical brush body (7-1) and a connecting wire (7-2); two ends of the connecting wire (7-2) are respectively fixed with the inner wall of the working cavity (1-1) and the spherical brush body (7-1).