CN109330539B

CN109330539B - Domestic full-automatic shoe-washing machine

Info

Publication number: CN109330539B
Application number: CN201811540768.2A
Authority: CN
Inventors: 申允德; 王敏樑; 何潇洒; 郑育�; 孙浩岚; 孙智超; 马光; 姜锐
Original assignee: Wenzhou University
Current assignee: Wenzhou University
Priority date: 2018-12-17
Filing date: 2018-12-17
Publication date: 2024-01-30
Anticipated expiration: 2038-12-17
Also published as: CN109330539A

Abstract

The invention discloses a household full-automatic shoe washing machine, which comprises a box body, wherein an outer barrel is connected with the box body through a vibration reduction hanging rod, a hidden brush barrel mechanism is arranged in the outer barrel, a motor transmission mechanism is arranged at the bottom of the outer barrel, the motor transmission mechanism is connected with a water circulation type rotary table mechanism, an inertial centrifugal shoe rack device is arranged on the water circulation type rotary table mechanism, a venturi supercharging spray pipe device is arranged in the inertial centrifugal shoe rack device, a water injection cover matched with the outer barrel is arranged on the hidden brush barrel mechanism, and a water inlet pipe connected with the venturi supercharging spray pipe device is arranged on the water injection cover. The invention has the characteristics of good cleaning effect and less damage to shoes.

Description

Domestic full-automatic shoe-washing machine

Technical Field

The invention relates to a shoe washing machine, in particular to a household full-automatic shoe washing machine.

Background

Shoes are very easy to dirty and are difficult to clean. The bare-handed brushing is time-consuming and labor-consuming, the cost of entrusting special shoe-washing shops to wash shoes is too high, the brushing effect cannot be guaranteed, and shoes are extremely vulnerable to damage, so the problem of cleaning shoes has always plagued people. Since 2014, shoe washing machines began to appear in the market of China, which is improved on the basis of pulsator washing machines, brushes are added on the pulsator shaft of an inner barrel and the inner side of the inner barrel, and shoe washing effect is achieved through friction between the brushes and shoes when the machine runs. However, since shoes collide with the brush and the wall of the barrel back and forth in the barrel, the shoes are extremely vulnerable, and in addition, the inner surfaces of the shoes cannot achieve the aim of cleaning, so that the shoe washing machine in the market at present still cannot be popularized to the household, and most of the shoes still share a coin-operated marketing mode. In summary, how to optimize the design of the shoe washer, to realize the shoe washing without damaging the shoes and the internal brushing of the shoes is the best way for solving the problems of poor cleaning effect and large damage to the shoes of the shoe washer in the current stage.

Disclosure of Invention

The invention aims to provide a household full-automatic shoe washing machine. The invention has the characteristics of good cleaning effect and less damage to shoes.

The technical scheme of the invention is as follows: domestic full-automatic shoe-cleaning machine, its characterized in that: including the box, be equipped with in the box and be connected with outer bucket through the damping jib, be equipped with hidden brush bucket mechanism in the outer bucket, outer bucket bottom is equipped with motor drive mechanism, and motor drive mechanism is connected with hydrologic cycle formula carousel mechanism, is equipped with inertial centrifugation shoe rack device on the hydrologic cycle formula carousel mechanism, is equipped with venturi booster nozzle device in the inertial centrifugation shoe rack device, is equipped with on the hidden brush bucket mechanism with outer bucket complex water injection lid, water injection is covered and is equipped with the inlet tube of being connected with venturi booster nozzle device.

In the domestic full-automatic shoe washing machine, the hidden brush barrel mechanism comprises a brush barrel, a plurality of brushes which are annularly arranged are arranged in the brush barrel, a synchronous pulley is arranged at the top of each brush, the synchronous pulleys are connected through synchronous belts, a transition shaft for compacting the synchronous belts is arranged between the adjacent synchronous pulleys, a driving pulley is further arranged on one brush, the driving pulley is connected with a synchronous belt driving motor through a primary speed reduction synchronous belt, and the synchronous belt driving motor is fixed on the outer side wall of the outer barrel; the hair brushes are curved hair brushes, and the number of the hair brushes is 12; one of the transition shafts is a radially movable tensioning shaft.

In the domestic full-automatic shoe washing machine, the motor transmission mechanism comprises a cover plate fixed at the bottom of the outer barrel, a motor is arranged in the cover plate, a small belt wheel is arranged on the motor, the small belt wheel is connected with a large belt wheel through a belt, the large belt wheel is connected with the water circulation type rotary table through an input shaft, and the input shaft is arranged on the cover plate through an input shaft fixing piece.

In the household full-automatic shoe washing machine, the water circulation type rotary table mechanism comprises a rotary table connected with the motor transmission mechanism, a circular filter screen is arranged on the outer side of the rotary table, the filter screen is fixed on the inner wall of the outer barrel, a plurality of evenly distributed gaps are formed in the rotary table, and a circulation reflux device is arranged at the gaps; the circulating reflux device comprises a base, wherein two arc-shaped channels which are symmetrically arranged are arranged on the base, a water inlet is formed in one end of each arc-shaped channel, a water outlet is formed in the other end of each arc-shaped channel, the water inlet is perpendicular to the water outlet, and the area of the water inlet is 3-8 times that of the water outlet; the filter screen is positioned below the turntable; the section of the filter screen is concave.

In the household full-automatic shoe washing machine, the venturi supercharging spray pipe device comprises a base shaft, wherein the upper part of the base shaft is provided with a mounting groove, a venturi spray pipe is arranged in the mounting groove, and the venturi spray pipe is limited in the mounting groove through a water injection interface at the top of the base shaft; the venturi nozzle comprises a nozzle body, wherein an upper fluid channel with a cross section from large to small is arranged at the upper part of the nozzle body, a lower fluid channel with a cross section from small to large is arranged at the lower part of the nozzle body, a through hole is arranged on the side wall of the nozzle body, and the through hole is positioned at the minimum end of the upper fluid channel; the side wall of the base shaft is provided with a plurality of water spray holes, and each water spray hole is communicated with the lower fluid channel through a drainage groove; the water injection interface is in locking connection with the water injection cover; the outer wall of the base shaft is provided with spiral bristles.

In the domestic full-automatic shoe washing machine, the inertial centrifugal shoe rack device comprises four shoe rack lower connecting pieces, the four shoe rack lower connecting pieces are evenly distributed and rotationally connected to the water circulation type turntable mechanism, shoe rack sliding rails are distributed on two sides of each shoe rack lower connecting piece, shoe rack upper connecting pieces are arranged on two shoe rack sliding rails, shoe rack sliding blocks are arranged between the two shoe rack sliding rails, connecting rods penetrating through the shoe rack upper connecting pieces are arranged in the middle of each shoe rack sliding block, shoe rack cross connecting pieces are arranged at the upper ends of the four connecting rods, shoe inner brackets are arranged at the outer side parts of the shoe rack sliding blocks, and springs are arranged between the shoe rack sliding blocks and the shoe rack lower connecting pieces; the upper part of the internal support of the shoe is provided with brush hair.

In the domestic full-automatic shoe washing machine, a through hole is formed in the middle of the cross connecting piece of the shoe rack, and a locking mechanism matched with the water injection interface is arranged on the side part of the through hole.

In the household full-automatic shoe washing machine, disc-shaped bristles are arranged on the inner end face of the water injection cover.

In the domestic full-automatic shoe washing machine, the outer barrel is provided with a plurality of pairs of mounting plates, a vibration damping suspender connected with the box body is arranged between each pair of mounting plates, the vibration damping suspender comprises a vibration damping shell, a movable plate is arranged in the vibration damping shell, a vibration damping rod extending to the outside of the vibration damping shell is arranged on the movable plate, a vibration damping spring is arranged on the vibration damping rod in the vibration damping shell, one end of the vibration damping spring is connected with the movable plate, and the other end of the vibration damping spring is connected with the inside of the vibration damping shell.

In the household full-automatic shoe washing machine, the motor transmission mechanism drives the water circulation type turntable mechanism to rotate in a forward and reverse rotation mode, a plurality of groups of shoe racks on the motor transmission mechanism swing left and right under the inertia effect and move back and forth under the centrifugal effect, brushes, middle spiral bristles and bristles on a shoe inner support are annularly arranged on the periphery of the motor transmission mechanism to achieve the maximum shoe brushing effect, meanwhile, the venturi supercharging spray pipe device utilizes negative pressure generated by flow velocity difference to enable air to be mixed into water to increase the pressure and speed of inlet water, the effect of flushing sole sludge is achieved, and the water circulation type turntable mechanism utilizes the rotation of a turntable to achieve the effect of recycling the rinsed water for one time by utilizing the change of the sectional area of an inlet and an outlet of the turntable, so that the maximum flushing effect is achieved; brushes which are annularly arranged can be stored and hidden when the shoes spin-dry, so that the shoes are prevented from being scratched by the brushes when the shoes rotate at high speed.

Compared with the prior art, the invention effectively combines the hidden brush barrel mechanism, the motor transmission mechanism, the water circulation type rotary table mechanism, the inertial centrifugal shoe rack device, the Venturi pressurizing spray pipe device, the water injection cover and the like, thereby realizing full-automatic cleaning of shoes, being capable of brushing inside under the condition of not damaging the shoes, and having the characteristics of good cleaning effect and smaller damage to the shoes. According to the invention, the motor transmission mechanism drives the water circulation type turntable mechanism to rotate in a forward and reverse direction, a plurality of groups of shoe racks on the turntable mechanism swing left and right under the inertia effect and move back and forth under the centrifugal effect, and brushes, middle spiral bristles and bristles on the inner support of the shoe are annularly arranged around the shoe racks to achieve the maximum shoe brushing effect and achieve dead-angle-free shoe brushing; meanwhile, the venturi supercharging spray pipe device utilizes negative pressure generated by flow velocity difference to enable air to be mixed into water to increase pressure and speed of inlet water, so that the effect of flushing out sole sludge is achieved, and the water circulation type rotary table mechanism utilizes rotation of the rotary table to match with change of inlet and outlet sectional areas, so that the effect of recycling rinsed water for one time is achieved, and the maximum flushing effect is achieved; brushes which are annularly arranged can be stored and hidden when the shoes spin-dry, so that the shoes are prevented from being scratched by the brushes when the shoes rotate at high speed. The invention solves the problems of slow shoe washing, tired shoe brushing, incomplete brushing and the like in the daily life of residents. The invention also realizes the cyclic utilization of the rinsing liquid, and has the characteristics of energy saving, water saving, thorough brushing, no damage to shoes and quick spin-drying.

The invention adopts the special hidden brush barrel mechanism, thereby effectively brushing shoes when brushing shoes and hiding the shoes when spin-drying the shoes, avoiding the abrasion of the brush on the shoes, and simultaneously having compact structure, reliable and stable use and smaller occupied space.

The invention adopts the specific water circulation type rotary table mechanism, not only can rotate the shoe rack to brush the shoes on the surfaces of the shoes, but also can filter the cleaning liquid and then back flush the shoes, thereby saving resources and achieving the maximum flushing effect. The power of the rotary table is reused, so that the washing liquid can be recycled, and the water consumption during shoe brushing is greatly reduced.

The invention adopts a special Venturi pressurizing spray pipe device, utilizes the design of a pure mechanical structure, pressurizes water flow through Venturi effect, avoids the use of additional pressurizing power sources such as a water pump and the like, has more compact structure and reduces the cost of the pressurizing device. Through venturi effect, with the air-suction rivers in, reach atomizing effect, have the same effect but more save when making rivers wash, reduced the waste of water resource.

The invention adopts a specific inertial centrifugal shoe rack device, so that the shoe can be conveniently and quickly assembled and disassembled by lifting, and the operation flexibility of the invention is greatly improved; the problem that the inside of the shoe is difficult to brush is skillfully solved by matching the positive and negative rotation of the upper turntable with the internal bracket of the shoe with the brush; the four groups of shoe racks are symmetrically arranged, so that the whole gravity center is basically coincident with the rotation center of the turntable, and the vibration effect is minimized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a hidden brush bucket mechanism;

FIG. 3 is a side view of the hidden brush bucket mechanism;

FIG. 4 is a schematic diagram of the motor drive mechanism;

FIG. 5 is a cross-sectional view of the cleaning mechanism;

FIG. 6 is a schematic view of the construction of a water circulation carousel mechanism;

FIG. 7 is a schematic diagram of the construction of the recirculation loop;

FIG. 8 is a schematic view of the structure of a venturi booster nozzle apparatus;

FIG. 9 is a schematic view of the structure of an inertial centrifuge shoe rack device;

FIG. 10 is a schematic view of the structure of the outer tub;

FIG. 11 is a schematic structural view of a shock absorbing boom;

FIG. 12 is a schematic view of the appearance of the present invention; .

1-an upper box body; 2-a viewing cover; 3-an intermediate box; 4-a water outlet pipe; 5-an electromagnetic valve; 6, lower box body; 7-a control panel; 8-a cover; 9-a water injection cover; 10-a primary deceleration synchronous belt; 11-driving a belt wheel; 12-synchronous pulleys; 13-a synchronous belt driving motor; 14-a brush barrel; 15-an electric motor; 16-small belt wheel; 17-cover plate; 18-a belt; 19-a large belt wheel; 20-an input shaft; 21-an input shaft mount; 22-an outer barrel; 23-hairbrush; 24-synchronous belt; 25-vibration damping boom; 26-a transition shaft; 27-a water inlet pipe; 28-a shoe rack cross connection; 29-a water injection interface; 30-venturi nozzle; 31-a shoe inner support; a 32-base shaft; 33-shoe rack lower connection; 34-a turntable; 35-a circulation reflux; 36-filtering the mixture; 37-springs; 38-shoe rack slide rail; 39-shoe rack sliders; 40-a shoe rack upper connector; 41-a vibration damping rod; 42-a vibration damping housing; 43-a vibration damping spring; 44-movable plate.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not intended to be limiting.

Examples. The household full-automatic shoe washer is shown in fig. 1-12, and comprises a box body 1, wherein the box body 1 comprises a lower box body 6, a middle box body 3 and an upper box body 1, a cover 8 and a control panel 7 are arranged on the upper box body 1, an observation cover 2 is arranged on the middle box body 3, an outer barrel 22 is connected in the box body through a vibration reduction hanging rod 25, a hidden brush barrel mechanism is arranged in the outer barrel 22, a motor transmission mechanism is arranged at the bottom of the outer barrel 22, the motor transmission mechanism is connected with a water circulation type rotary table mechanism, an inertial centrifugal shoe rack device is arranged on the water circulation type rotary table mechanism, a venturi supercharging spray pipe device is arranged in the inertial centrifugal shoe rack device, a water injection cover 9 matched with the outer barrel 22 is arranged on the hidden brush barrel mechanism, and a water inlet pipe 27 connected with the venturi supercharging spray pipe device is arranged on the water injection cover 9. The bottom of the outer barrel is provided with a water outlet pipe 4, and the water outlet pipe 4 is provided with an electromagnetic valve 5.

As shown in fig. 2 and 3, the hidden brush barrel mechanism comprises a brush barrel 14, a plurality of brushes 23 which are annularly arranged are arranged in the brush barrel 14, a synchronous pulley 12 is arranged at the top of each brush 23, the synchronous pulleys 12 are connected through a synchronous belt 24, a transition shaft 26 for compacting the synchronous belt 24 is arranged between the adjacent synchronous pulleys 12, a driving pulley 11 is also arranged on one of the brushes 23, the driving pulley 11 is connected with a synchronous belt driving motor 13 through a primary speed reduction synchronous belt 10, and the synchronous belt driving motor 13 is fixed on the outer side wall of the outer barrel 22; the brush 23 is a curved surface brush, and the number of the plurality of brushes is 12; one of the transition shafts 26 is a radially movable tensioning shaft. The total number of the synchronous pulleys 12 is 12, and the synchronous pulleys are respectively fixed on the top of each brush 23 shaft through keys. The synchronous pulleys 12 form belt transmission motion by the 12 synchronous pulleys and 12 transition shafts 26 in a staggered coating mode, and one transition shaft 26 can be radially adjusted to serve as a tensioning shaft. The driving pulley 11 is connected to one of the brush shafts to serve as a driving shaft. The synchronous belt driving motor 13 is connected with the driving belt wheel 11 through the primary speed reduction synchronous belt 10, and synchronous rotation of 12 brushes can be realized by forward and reverse rotation of the synchronous belt driving motor 13.

The motor transmission mechanism comprises a cover plate 17 fixed at the bottom of an outer barrel 22, a motor 15 is arranged in the cover plate 17, a small belt pulley 16 is arranged on the motor 15, the small belt pulley 16 is connected with a large belt pulley 19 through a belt 18 (a speed reduction V belt), the large belt pulley 19 is connected with a water circulation rotary table through an input shaft 20, and the input shaft 20 is arranged on the cover plate 17 through an input shaft fixing piece 21.

As shown in fig. 5, 6 and 7, the water circulation type rotary table mechanism comprises a rotary table 34 connected with a motor transmission mechanism, a circular filter screen 36 is arranged on the outer side of the rotary table 34, the filter screen 36 is fixed on the inner wall of the outer barrel 22, a plurality of evenly distributed notches are arranged on the rotary table 34, and a circulation reflux device 35 is arranged at the notch; the circulating reflux device 35 comprises a base 101, wherein two arc-shaped channels 102 which are symmetrically arranged are arranged on the base 101, one end of each arc-shaped channel 102 is provided with a water inlet 103, the other end of each arc-shaped channel is provided with a water outlet 104, the water inlet 103 is perpendicular to the water outlet 104, and the area of the water inlet 103 is 3-8 times that of the water outlet 104; the filter screen 36 is positioned below the turntable 34; the cross section of the filter screen 36 is concave. The turntable 34 is high in the middle and low in the periphery, i.e. water naturally flows to the edges under the force of gravity. The filter screen 36 is sleeved outside the turntable and is coaxial with the turntable 34. The number of the circulating reflux devices 35 is four, the circulating reflux devices 35 are commonly connected with four notches of the turntable 34, each circulating reflux device 35 is provided with two water inlets and two water outlets through installation and disassembly of a pressing type boss, and the direction of the water inlets is tangential to the circular motion, and the area is large; the water outlet faces vertically upwards, and the area is smaller than one third of the water inlet; in addition, a smooth curved surface flow channel is arranged between the water inlet and the water outlet, and the inner wall is smooth.

As shown in fig. 8, the venturi supercharging spray pipe device comprises a base shaft 32, wherein a mounting groove is formed in the upper part of the base shaft 32, a venturi spray pipe 30 is arranged in the mounting groove, and the venturi spray pipe 30 is limited in the mounting groove through a water injection interface 29 at the top of the base shaft; the venturi nozzle 30 comprises a tube body 201, wherein an upper fluid channel 202 with a cross section from large to small is arranged at the upper part of the tube body 201, a lower fluid channel 203 with a cross section from small to large is arranged at the lower part of the tube body 201, a through hole 204 is arranged on the side wall of the tube body 201, and the through hole 204 is positioned at the minimum end of the upper fluid channel 202; a plurality of water spray holes are formed in the side wall of the base shaft 32, and each water spray hole is communicated with the lower fluid channel 203 through a drainage groove 205; the water injection interface is in locking connection with the water injection cover; the outer wall of the base shaft is provided with spiral bristles. Eight water spraying holes are formed in two thirds of the height of the base shaft, and the water spraying holes are opposite to soles of four shoes. The cross-sectional area of the liquid flow passage in the venturi nozzle 30 is changed from large to small, a through hole is formed in the side wall of the small end of the venturi nozzle 30 for extracting air, and the venturi nozzle 30 is arranged in the base shaft 32. The water injection interface 29 is sleeved on the base shaft 32, and the venturi nozzle 30 is limited in the base shaft 32; the top water inlet has a spacing boss for firmly securing the inlet tube 27. The lower end of the water injection cover 9 is connected with the water injection interface 29 in a form locking way, the upper end is connected with the water inlet pipe 27, the end face is clamped on the brush barrel 14, and the circumferential fixing is performed by utilizing a boss.

The inertial centrifugal shoe rack device comprises four shoe rack lower connecting pieces 33, wherein the four shoe rack lower connecting pieces 33 are uniformly distributed and rotationally connected to a water circulation type turntable mechanism, shoe rack sliding rails 38 are distributed on two sides of each shoe rack lower connecting piece 33, shoe rack upper connecting pieces 40 are arranged on the two shoe rack sliding rails 38, shoe rack sliding blocks 39 are arranged between the two shoe rack sliding rails 38, connecting rods penetrating through the shoe rack upper connecting pieces are arranged in the middle of the shoe rack sliding blocks 39, shoe rack cross connecting pieces 28 are arranged at the upper ends of the four connecting rods, shoe inner brackets 31 are arranged at the outer side parts of the shoe rack sliding blocks 39, springs 37 are arranged between the shoe rack sliding blocks 39 and the shoe rack lower connecting pieces 33, and the springs 37 are sleeved on the shoe rack sliding rails 38, so that the integration degree is improved; the upper part of the shoe inner holder 31 is provided with bristles.

A through hole is arranged in the middle of the cross connecting piece 28 of the shoe rack, and a locking mechanism matched with the water injection interface 29 is arranged on the side part of the through hole.

Disc-shaped bristles are arranged on the inner end face of the water injection cover 9.

As shown in fig. 10 and 11, the outer barrel 22 is provided with a plurality of pairs of mounting plates, a vibration damping suspension rod 25 connected with the box body is arranged between each pair of mounting plates, the vibration damping suspension rod 25 comprises a vibration damping shell 42, a movable plate 44 is arranged in the vibration damping shell 42, a vibration damping rod 41 extending to the outside of the vibration damping shell is arranged on the movable plate 44, a vibration damping spring 43 is arranged on the vibration damping rod 41 in the vibration damping shell 42, one end of the vibration damping spring 43 is connected with the movable plate 44, and the other end is connected with the inside of the vibration damping shell 42. The vibration-damping suspender 25 is connected to four corners of the outer barrel 22 through spherical pairs and is connected with the upper box 1, and springs at the bottom of the vibration-damping suspender 25 are used for balancing vibration damping.

The shoe washing method of the domestic full-automatic shoe washing machine comprises the steps that a motor transmission mechanism drives a water circulation type turntable mechanism to rotate in a forward and reverse mode, a plurality of groups of shoe racks on the water circulation type turntable mechanism swing left and right under the inertia effect and move back and forth under the centrifugal effect, brushes, middle spiral bristles and bristles on a shoe inner support are annularly arranged on the periphery of the shoe racks to achieve the maximum shoe washing effect, meanwhile, a venturi supercharging spray pipe device utilizes negative pressure generated by flow velocity difference to enable air to be mixed into water to increase pressure and speed of water, the effect of flushing sole sludge is achieved, and the water circulation type turntable mechanism utilizes the rotation of a turntable to be matched with the change of inlet and outlet sectional areas, so that the effect of recycling the rinsed water for one time is achieved, and the maximum flushing effect is achieved; brushes which are annularly arranged can be stored and hidden when the shoes spin-dry, so that the shoes are prevented from being scratched by the brushes when the shoes rotate at high speed.

The invention effectively combines the hidden brush barrel mechanism, the motor transmission mechanism, the water circulation type rotary table mechanism, the inertial centrifugal shoe rack device, the Venturi pressurizing spray pipe device, the water injection cover and the like, thereby realizing full-automatic cleaning of shoes, being capable of brushing the inside under the condition of not damaging the shoes, and having the characteristics of good cleaning effect and smaller damage to the shoes. According to the invention, the motor transmission mechanism drives the water circulation type turntable mechanism to rotate in a forward and reverse direction, a plurality of groups of shoe racks on the turntable mechanism swing left and right under the inertia effect and move back and forth under the centrifugal effect, and brushes, middle spiral bristles and bristles on the inner support of the shoe are annularly arranged around the shoe racks to achieve the maximum shoe brushing effect and achieve dead-angle-free shoe brushing; meanwhile, the venturi supercharging spray pipe device utilizes negative pressure generated by flow velocity difference to enable air to be mixed into water to increase pressure and speed of inlet water, so that the effect of flushing out sole sludge is achieved, and the water circulation type rotary table mechanism utilizes rotation of the rotary table to match with change of inlet and outlet sectional areas, so that the effect of recycling rinsed water for one time is achieved, and the maximum flushing effect is achieved; brushes which are annularly arranged can be stored and hidden when the shoes spin-dry, so that the shoes are prevented from being scratched by the brushes when the shoes rotate at high speed. The invention solves the problems of slow shoe washing, tired shoe brushing, incomplete brushing and the like in the daily life of residents. The invention also realizes the cyclic utilization of the rinsing liquid, and has the characteristics of energy saving, water saving, thorough brushing, no damage to shoes and quick spin-drying.

Claims

1. Domestic full-automatic shoe-cleaning machine, its characterized in that: the novel vibration-damping shoe rack comprises a box body, wherein an outer barrel is connected in the box body through a vibration-damping suspender, a hidden brush barrel mechanism is arranged in the outer barrel, a motor transmission mechanism is arranged at the bottom of the outer barrel, the motor transmission mechanism is connected with a water circulation type rotary table mechanism, an inertial centrifugal shoe rack device is arranged on the water circulation type rotary table mechanism, a venturi supercharging spray pipe device is arranged in the inertial centrifugal shoe rack device, a water injection cover matched with the outer barrel is arranged on the hidden brush barrel mechanism, and a water inlet pipe connected with the venturi supercharging spray pipe device is arranged on the water injection cover; the hidden brush barrel mechanism comprises a brush barrel, a plurality of brushes are annularly arranged in the brush barrel, a synchronous pulley is arranged at the top of each brush, the synchronous pulleys are connected through synchronous belts, a transition shaft for compacting the synchronous belts is arranged between the adjacent synchronous pulleys, a driving pulley is further arranged on one brush, the driving pulley is connected with a synchronous belt driving motor through a primary speed reduction synchronous belt, and the synchronous belt driving motor is fixed on the outer side wall of the outer barrel; the hair brushes are curved hair brushes, and the number of the hair brushes is 12; one of the transition shafts is a tensioning shaft capable of moving radially; the venturi supercharging spray pipe device comprises a base shaft, wherein a mounting groove is formed in the upper portion of the base shaft, a venturi spray pipe is arranged in the mounting groove, and the venturi spray pipe is limited in the mounting groove through a water injection interface at the top of the base shaft; the venturi nozzle comprises a nozzle body, wherein an upper fluid channel with a cross section from large to small is arranged at the upper part of the nozzle body, a lower fluid channel with a cross section from small to large is arranged at the lower part of the nozzle body, a through hole is arranged on the side wall of the nozzle body, and the through hole is positioned at the minimum end of the upper fluid channel; the side wall of the base shaft is provided with a plurality of water spray holes, and each water spray hole is communicated with the lower fluid channel through a drainage groove; the water injection interface is in locking connection with the water injection cover; the outer wall of the base shaft is provided with spiral bristles; the inertial centrifugal shoe rack device comprises four shoe rack lower connecting pieces, the four shoe rack lower connecting pieces are uniformly distributed and rotationally connected to the water circulation type turntable mechanism, shoe rack sliding rails are distributed on two sides of each shoe rack lower connecting piece, shoe rack upper connecting pieces are arranged on two shoe rack sliding rails, shoe rack sliding blocks are arranged between the two shoe rack sliding rails, connecting rods penetrating through the shoe rack upper connecting pieces are arranged in the middle of the shoe rack sliding blocks, shoe rack cross connecting pieces are arranged at the upper ends of the four connecting rods, shoe inner supports are arranged at the outer side parts of the shoe rack sliding blocks, and springs are arranged between the shoe rack sliding blocks and the shoe rack lower connecting pieces; the upper part of the internal support of the shoe is provided with brush hair.

2. The home full-automatic shoe washer according to claim 1, wherein: the motor transmission mechanism comprises a cover plate fixed at the bottom of the outer barrel, a motor is arranged in the cover plate, a small belt pulley is arranged on the motor, the small belt pulley is connected with a large belt pulley through a belt, the large belt pulley is connected with the water circulation type rotary table through an input shaft, and the input shaft is arranged on the cover plate through an input shaft fixing piece.

3. The home full-automatic shoe washer according to claim 1, wherein: the water circulation type rotary table mechanism comprises a rotary table connected with a motor transmission mechanism, an annular filter screen is arranged on the outer side of the rotary table, the filter screen is fixed on the inner wall of the outer barrel, a plurality of evenly distributed gaps are formed in the rotary table, and a circulation reflux device is arranged at the gaps; the circulating reflux device comprises a base, wherein two arc-shaped channels which are symmetrically arranged are arranged on the base, a water inlet is formed in one end of each arc-shaped channel, a water outlet is formed in the other end of each arc-shaped channel, the water inlet is perpendicular to the water outlet, and the area of the water inlet is 3-8 times that of the water outlet; the filter screen is positioned below the turntable; the section of the filter screen is concave.

4. The home full-automatic shoe washer according to claim 1, wherein: a through hole is formed in the middle of the cross connecting piece of the shoe rack, and a locking mechanism matched with the water injection interface is arranged on the side part of the through hole.

5. The home full-automatic shoe washer according to claim 1, wherein: disc-shaped bristles are arranged on the inner end face of the water injection cover.

6. The home full-automatic shoe washer according to claim 1, wherein: the outer barrel is provided with a plurality of pairs of mounting plates, a vibration reduction suspender connected with the box body is arranged between each pair of mounting plates, the vibration reduction suspender comprises a vibration reduction shell, a movable plate is arranged in the vibration reduction shell, a vibration reduction rod extending to the outside of the vibration reduction shell is arranged on the movable plate, a vibration reduction spring is arranged on the vibration reduction rod in the vibration reduction shell, one end of the vibration reduction spring is connected with the movable plate, and the other end of the vibration reduction spring is connected with the inside of the vibration reduction shell.

7. The home full-automatic shoe washing machine according to any one of claims 1 to 6, wherein: the shoe washing method of the domestic full-automatic shoe washing machine comprises the steps that a motor transmission mechanism drives a water circulation type turntable mechanism to rotate in a forward and reverse mode, a plurality of groups of shoe racks on the water circulation type turntable mechanism swing left and right under the inertia effect and move back and forth under the centrifugal effect, brushes, middle spiral bristles and bristles on a shoe inner support are annularly arranged on the periphery of the shoe racks to achieve the maximum shoe washing effect, meanwhile, a venturi supercharging spray pipe device utilizes negative pressure generated by flow velocity difference to enable air to be mixed into water to increase pressure and speed of water, the effect of flushing sole sludge is achieved, and the water circulation type turntable mechanism utilizes the rotation of a turntable to be matched with the change of inlet and outlet sectional areas, so that the effect of recycling the rinsed water for one time is achieved, and the maximum flushing effect is achieved; brushes which are annularly arranged can be stored and hidden when the shoes spin-dry, so that the shoes are prevented from being scratched by the brushes when the shoes rotate at high speed.