CN108175361B - Shoe cabinet capable of automatically brushing soles - Google Patents

Abstract

The invention belongs to the technical field of furniture, and relates to a shoe cabinet, in particular to a shoe cabinet capable of automatically brushing soles. The invention automatically cleans the sole, saves physical strength, energy and time, and keeps the indoor floor clean and sanitary.

Description

Shoe cabinet capable of automatically brushing soles

The present application is a divisional application of the invention with application number 201510071597.3, the entire content of which is incorporated herein by reference, and the divisional application is to solve the problem of too narrow modification range of the claims caused by misjudging the comparison documents of the parent application.

Technical Field

The invention belongs to the technical field of furniture, relates to a shoe cabinet, and particularly relates to a shoe cabinet capable of automatically brushing soles.

Background

People who love clean like to clean the house, and the house is clean and clean, and dust is not polluted, and the floor is also clean and clean by wiping, a shoe cabinet is placed at the door of the house, a plurality of pairs of clean slippers are prepared in the shoe cabinet, and a host or a guest coming from the street enters the door, dirty shoes which are stuck with soil on soles are firstly taken off, clean slippers are replaced, the dirty shoes are placed in the shoe cabinet, and then the door enters the house.

At the place of changing shoes at the doorway, dirty shoes easily leave soil on the ground and in the shoe cabinet, stick to the slipper bottoms and wear on feet, and bring the soil to other places indoors after entering the door, so that the indoor ground is full of soil and dust, and if the floor is wet, foot marks are easy to be stamped, and the shoes are ugly and need to be continuously wiped, which is troublesome. At this time, the slipper sole needs to be cleaned and put on after being dried, and the cleaning of the slipper sole every day wastes physical power, energy and time.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, adapt to the practical requirements and provide a shoe cabinet capable of automatically cleaning soles and saving physical strength, energy and time.

The invention is realized by the following technical scheme:

a shoe cabinet capable of automatically brushing soles comprises a shoe cabinet, a shoe brushing box, a medium gear assembly, a shoe brushing motor and a motor gear; the shoe cabinet comprises a cabinet body and a plurality of shoe placing beams, wherein the shoe placing beams are long strip-shaped parts and are horizontally arranged side by side, two ends of each shoe placing beam are fixed on the cabinet body, two long and narrow side surfaces face upwards and downwards respectively, a large gap is formed between the two shoe placing beams, slippers are placed on the long and narrow side surfaces facing upwards of the shoe placing beams, and the slippers are supported by the shoe placing beams simultaneously; the shoe brushing box comprises a box body, a brush gear and a brush roller, wherein the box body is provided with an upward opening, the brush roller comprises a cylindrical roller, a shaft and brush bristles which are fixedly connected together, the shaft is horizontally arranged and connected with the box body through a rotating pair, the brush bristles are radially arranged on the outer cylindrical surface of the cylindrical roller, the shaft extends to the outside of the wall of the box body, the tail end of the shaft is connected with the brush gear, and the box body is fixedly arranged on a cabinet body; the base of the shoe-brushing motor is fixedly connected with the cabinet body, and the motor gear is connected on the output shaft of the shoe-brushing motor; the medium gear assembly comprises a medium gear and a medium gear seat, the medium gear and the medium gear seat are connected through a rotating pair, and the medium gear seat is fixedly connected to the cabinet body or the box body; the motor gear is meshed with the intermediate gear, and the intermediate gear is meshed with the brush gear; when the brush shoes motor circular telegram rotates, can be rotatory through gear drive brush gear, the brush roller is followed rotatoryly, it is rotatory to drive the brush hair, the brush hair sees through the clearance of putting between the shoes roof beam and scrubs the sole, the automatic box that falls into of earth dust that brushes, the mesh of brushing the sole has been reached automatically like this, needn't wash by hand again behind the slipper bottom gluing earth dust, put into the shoes cupboard to the slippers at every turn and put on the shoes roof beam, brush shoes motor drive brush hair self-cleaning, physical power has been saved, energy and time, and can effectively keep indoor floor clean, can not step on the foot print on the floor.

The invention also comprises a device for automatically controlling the power-on or power-off of the shoe brushing motor. The shoe cabinet comprises a cabinet door and a shoe brushing switch; the cabinet door is connected with the cabinet body through the hinge and comprises a door catch, and when the cabinet door is closed, the cabinet door is tightly attached to the cabinet body under the action of the door catch; the shoe brushing switch is a normally open button and is arranged between the cabinet body and the cabinet door, when the cabinet door is closed, the shoe brushing switch in the disconnected state is pressed, the shoe brushing switch is in the closed state, when the cabinet door is opened, the shoe brushing switch leaves the shoe brushing switch, and the shoe brushing switch in the closed state is in the disconnected state; the shoe brushing contactor comprises a shoe brushing contactor coil and two groups of shoe brushing main contacts; the shoe brushing switch is connected with the time delay relay coil in series to obtain a time delay circuit, and two ends of the time delay circuit are respectively connected to two wiring terminals of the power supply; the time-delay normally-open contact and the shoe-brushing contactor coil are connected in series to obtain a shoe-brushing circuit, and two ends of the shoe-brushing circuit are respectively connected to two wiring terminals of a power supply; two input ends of the two groups of shoe brushing main contacts are respectively connected with two wiring terminals of a power supply; two input ends of the shoe brushing motor are respectively connected with two output ends of the two groups of shoe brushing main contacts. When the time delay relay is used, the time delay time of the time delay relay is set to be 20 seconds to 2 minutes; when the cupboard door is in an open state, the shoe brushing motor does not work; the cabinet door is closed, the shoe brushing switch is pressed by the cabinet door, then the two ends of the time delay relay coil are electrified, the time delay normally open contact is closed immediately, the shoe brushing contactor coil is electrified, the two groups of shoe brushing main contacts are closed, the shoe brushing motor is electrified to start working, the brush hair automatically cleans the sole until the set time is over, the time delay normally open contact is disconnected, the shoe brushing contactor coil is electrified, the two groups of shoe brushing main contacts are disconnected, the shoe brushing motor is electrified to stop working, and the cleaning work is over. And opening the cabinet door, taking out the clean slippers, putting the dirty slippers, closing the cabinet door, pressing the shoe brushing switch by the cabinet door, and repeating the working steps.

The brush hair brushes the sole through the gaps between the shoe placing beams, the slipper is not placed stably in the brushing process, the brush hair pushes the slipper aside, the brush roller idles, and the sole brushing effect cannot be achieved, and the shoe pressing assembly is further included for enabling the slipper to be placed stably and comprises a pressing rod, a soft rope, a bend wheel assembly, a rope rolling wheel, a motor support and a shoe pressing motor; the direction-changing wheel component comprises a direction-changing wheel and a direction-changing wheel carrier, the direction-changing wheel and the direction-changing wheel carrier are connected through a revolute pair, and the direction-changing wheel carrier is fixedly connected to the cabinet body; the rope winding wheel is fixedly connected with an output shaft of the shoe pressing motor, the motor bracket is fixedly connected with a fixed seat of the shoe pressing motor, and the motor bracket is fixedly connected on the cabinet body; one end of the soft rope is fixedly connected to the pressure lever, the soft rope bypasses the bend wheel and then is wound on the rope winding wheel, when the shoe pressing motor is electrified to rotate in the forward direction or the reverse direction, the rope winding wheel rotates, the soft rope is gradually wound on or rotates away from the rope winding wheel, the pressure lever is dragged to rise or fall, the slipper is pressed to be stable and immovable when the pressure lever falls, the slipper leaves the slipper when the pressure lever rises, and the slipper is convenient to take down and put on.

The shoe pressing assembly is also provided with a control circuit and further comprises a shoe pressing switch, a stop-down microswitch, a stop-up microswitch, a down rod contactor, a up rod contactor, a down rod relay and a up rod relay; the shoe pressing switch comprises a shoe pressing normally open contact and a shoe pressing normally closed contact which are linked, the shoe pressing switch is installed between the cabinet body and the cabinet door, when the cabinet door is closed, the shoe pressing switch is pressed, the shoe pressing normally open contact in an open state is changed into a closed state, the shoe pressing normally closed contact in the closed state is changed into an open state, the shoe pressing switch is separated when the cabinet door is opened, the shoe pressing normally open contact in the closed state is changed into the open state, and the shoe pressing normally closed contact in the open state is changed into the closed state; the landing-stopping microswitch is fixedly connected with the motor bracket and is of a normally closed type, and comprises a landing-stopping collision bead; the lifting-stopping microswitch is fixedly connected with the motor bracket and is of a normally closed type, and comprises a lifting-stopping collision bead; a touch plate is fixed on the rope winding wheel, when the rope winding wheel rotates, the touch plate rotates along with the rope winding wheel, when the touch plate touches a lifting stop collision bead, the lifting stop microswitch is changed into an open state from a closed state, and when the touch plate touches the lifting stop collision bead, the lifting stop microswitch is changed into an open state from a closed state; the descending rod contactor comprises a descending rod contactor coil, a descending rod normally closed contact, a descending rod main contact I and a descending rod main contact II; the lifting rod contactor comprises a lifting rod contactor coil, a lifting rod normally closed contact, a lifting rod main contact I and a lifting rod main contact II; the rod lowering relay comprises a rod lowering relay coil and a rod lowering normally open contact; the lifting rod relay comprises a lifting rod relay coil and a lifting rod normally open contact; the shoe pressing motor comprises a first input terminal and a second input terminal;

two ends of a circuit obtained after the shoe pressing normally open contact is connected with the descending rod relay coil in series are respectively connected to two wiring terminals of a power supply; two ends of a circuit II obtained after the shoe pressing normally-closed contact is connected with the lifting rod relay coil in series are respectively connected to two wiring terminals of a power supply; two ends of a circuit three obtained after the descending rod normally open contact, the descent stopping microswitch, the ascending rod normally closed contact and the descending rod contactor coil are connected in series are respectively connected to two wiring terminals of a power supply; the two ends of a circuit obtained by connecting the lifting rod normally open contact, the lifting stop microswitch, the lifting rod normally closed contact and the lifting rod contactor coil in series are respectively connected to two wiring terminals of a power supply; a connecting terminal of the power supply is simultaneously connected with a first descending rod main contact and a first ascending rod main contact, and a second connecting terminal of the power supply is simultaneously connected with a second descending rod main contact and a second ascending rod main contact; the input ends of the first rod lowering main contact and the second rod lifting main contact are respectively connected with the first input end of the shoe pressing motor, and the input ends of the second rod lowering main contact and the first rod lifting main contact are respectively connected with the second input end of the shoe pressing motor.

When the cabinet door is closed, the shoe pressing normally open contact in the open state is changed into the closed state, the shoe pressing normally closed contact in the closed state is changed into the open state, the relay coil is electrified, the descending rod normally open contact is closed, the descending rod normally open contact, the descent control microswitch, the ascending rod normally closed contact and the descending rod contactor coil form a path, the descending rod contactor coil is electrified, the descending rod normally closed contact is disconnected to ensure that the ascending rod contactor coil cannot be electrified, the descending rod main contact I and the descending rod main contact II are closed, the motor rotates to enable the soft rope to be wound and separated until the contact plate touches the descent control ball, the descent control microswitch is changed from the normally closed state into the open state, the descending rod contactor coil is electrified, the descending rod normally closed contact is changed into the closed state, the descending rod main contact I and the descending rod main contact II are disconnected, and the shoe pressing motor stops rotating; when the cupboard door is opened, a shoe pressing normally open contact in a closed state is changed into an open state, a shoe pressing normally closed contact in an open state is changed into a closed state, a relay coil is electrified, a lifting rod normally open contact is closed, a lifting rod normally open contact, a lifting rod stopping micro switch, a lifting rod normally closed contact and a lifting rod contactor coil form a path, the lifting rod contactor coil is electrified, the lifting rod normally closed contact is opened to ensure that the lifting rod contactor coil cannot be electrified, a lifting rod main contact I and a lifting rod main contact II are closed, the motor rotates clockwise to enable a soft rope to be wound on a rope winding wheel until a contact plate touches a lifting stopping collision ball, the lifting stopping micro switch is changed from the closed state into the open state, the lifting rod contactor coil is de-electrified, the lifting rod normally closed contact is changed into the closed state, the lifting rod main contact I and the lifting rod main contact II are opened, and the; when the cupboard door is closed or opened again, the steps are respectively repeated.

Therefore, when the cupboard door is closed, the press rod descends to press the slippers, the brush roller continuously rotates for a set time, the slipper bottoms are cleaned and then stopped, when the cupboard door is opened, the press rod ascends to facilitate taking the slippers, and the purpose of automatically cleaning the slipper bottoms is achieved. The soil dust brushed down falls into the box body, the soil dust inside is poured out periodically, and the bristles are cleaned periodically to keep the bristles clean.

Dust is easy to fly up when the cleaning agent is cleaned in a dry state and fly in the air. The dust cleaning device is not limited to work in a dry state, water can be filled in the box body, and cleaned dust can fall into the water and can be prevented from flying in the air; the bristles are immersed in water, dust adhered to the bristles is easy to clean in water, and the sole can be cleaned only by keeping the bristles clean; water is adhered to the brush hair and can be brought to the sole, so that soil and dust adhered to the brush hair are wetted first and are easier to clean; the brush roller stops after continuously brushing for 20 seconds to 2 minutes, the shoe sole can be dried after being moistened for a while, and the shoe sole cannot be taken out to be used and is not taken to the floor.

The invention has the beneficial effects that: the automatic cleaning shoe sole saves physical power, energy and time, and keeps the indoor floor clean.

Drawings

FIG. 1 is a schematic three-dimensional structure of an embodiment of the present invention;

FIG. 2 is a schematic three-dimensional structure of an embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

3 FIG. 34 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 33 3; 3

FIG. 5 is a schematic three-dimensional structure of the shoe brush box 6;

FIG. 6 is a front view of the shoe brush box 6;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 6;

fig. 8 is a schematic three-dimensional structure of the shoe press assembly 7;

fig. 9 is a front view of the shoe press assembly 7, with the presser bar 71 raised;

fig. 10 is a front view of the shoe press assembly 7 with the plunger 71 lowered;

FIG. 11 is a wiring diagram for automatically controlling the energization and the de-energization of the shoe brush motor 3;

FIG. 12 is a wiring diagram for automatically controlling the shoe press motor 76 to be energized or de-energized;

shown in the figure: 1. a shoe cabinet; 11. a cabinet body; 12. a cabinet door; 121. a door catch; 13. a shoe pressing switch; 131. a normally open contact of the press shoe; 132. a shoe pressing normally closed contact; 14. a shoe brushing switch; 15. placing a shoe beam; 16. placing a shoe plate; 17. a time delay relay; 171. a time delay relay coil; 172. a time-delay normally open contact; 18. a shoe brushing contactor; 181. a shoe brush contactor coil; 182. a shoe brushing main contact; 2. slippers; 21. an upper; 22. a sole; 3. a shoe brushing motor; 4. a motor gear; 5. a gear assembly; 51. a idler gear; 52. a idler gear seat; 6. a shoe brushing box; 61. a box body; 62. a brush gear; 63. a brush roller; 631. a shaft; 632. a cylindrical roll; 633. brushing; 7. a shoe press assembly; 71. a pressure lever; 72. a flexible cord; 73. a direction-changing wheel assembly; 731. a direction-changing wheel; 732. a redirection wheel carrier; 74. a rope winding wheel; 741. a touch panel; 75. a motor bracket; 752. a drop-stopping microswitch; 7521. stopping falling collision beads; 753. a lifting stopping microswitch; 7531. stopping lifting the collision bead; 76. a shoe pressing motor; 761. an input end I; 762. an input end II; 82. a drop-pole contactor; 821. a drop pole contactor coil; 822. a descending rod normally-closed contact; 823. a first main contact of the descending rod; 824. a second rod descending main contact; 83. a lifter contactor; 831. a lifter contactor coil; 832. a lifter normally closed contact; 833. a first lifting rod main contact; 834. a second lifting rod main contact; 92. a rod lowering relay; 921. a drop bar relay coil; 922. a lowering rod normally open contact; 93. a lift pin relay; 931. a lifter relay coil; 932. a lifting rod normally open contact; l1, a first wiring terminal of a power supply; and L2, a second connecting terminal of the power supply.

Detailed Description

The invention is further illustrated with reference to the following figures and examples:

example (b): see fig. 1-12.

A shoe cabinet capable of automatically brushing soles comprises a shoe cabinet 1, a shoe brushing box 6, a medium gear assembly 5, a shoe brushing motor 3 and a motor gear 4; the shoe cabinet 1 comprises a cabinet body 11 and a plurality of shoe placing beams 15, the shoe placing beams 15 are long strip-shaped parts and are horizontally arranged side by side, two ends of the shoe placing beams are fixed on the cabinet body 11, two long and narrow side faces face upwards and downwards, a large gap is formed between the two shoe placing beams 15, the slippers 2 are placed on the long and narrow side faces with the shoe placing beams 15 upwards, and the plurality of shoe placing beams 15 simultaneously support the slippers 2; the shoe brushing box 6 comprises a box body 61, a brush gear 62 and a brush roller 63, wherein the box body 61 is provided with an upward opening, the brush roller 63 comprises a cylindrical roller 632, a shaft 631 and bristles 633 which are fixedly connected together, the shaft 631 is horizontally arranged and is connected with the box body 61 through a rotating pair, the bristles 633 are radially arranged on the outer cylindrical surface of the cylindrical roller 632, the shaft 631 extends to the outer side of the wall of the box body 61, the tail end of the shaft is connected with the brush gear 62, and the box body 61 is fixedly arranged on the cabinet body 11; the base of the shoe-brushing motor 3 is fixedly connected with the cabinet body 11, and the motor gear 4 is connected on the output shaft of the shoe-brushing motor 3; the idler gear assembly 5 includes an idler gear 51 and an idler gear seat 52, the idler gear 51 and the idler gear seat 52 are coupled through a revolute pair, and the idler gear seat 52 is fixedly coupled to the cabinet body 11 or the cabinet body 61; the motor gear 4 is meshed with the intermediate gear 51, and the intermediate gear 51 is meshed with the brush gear 62; when the circular telegram of brush shoes motor 3 rotated, can drive brush gear 62 through gear 51 and rotate, brush roller 63 follows rotatoryly, it is rotatory to drive brush hair 633, brush hair 633 is through putting the clearance between the shoes roof beam 15 and scrubs sole 22, the automatic box 61 that falls into of the earth dust that brushes away, the purpose of brushing the sole has been reached automatically like this, needn't manual cleaning again after 2 bottoms of slippers glue earth dust, put 2 slippers into the shoes cupboard 1 at every turn and put into on the shoes roof beam 15, brush shoes motor 3 drive brush hair 633 self-cleaning, physical power has been saved, energy and time, and can effectively keep indoor floor clean, can not step out the footprint on the floor.

The embodiment also comprises a device for automatically controlling the power on or off of the shoe brushing motor 3. The shoe cabinet 1 comprises a cabinet door 12 and a shoe brushing switch 14; the cabinet door 12 is connected with the cabinet body 11 through a hinge, the cabinet door 12 comprises a door catch 121, and when the cabinet door 12 is closed, the cabinet door is tightly attached to the cabinet body 11 under the action of the door catch 121; the shoe-brushing switch 14 is a normally open button and is arranged between the cabinet body 11 and the cabinet door 12, when the cabinet door 12 is closed, the shoe-brushing switch 14 in the open state is pressed to be in the closed state, then the cabinet door 12 is opened to leave the shoe-brushing switch, and the shoe-brushing switch 14 in the closed state is changed to be in the open state; the shoe brushing contactor 18 comprises a time delay relay 17 and a shoe brushing contactor 18, wherein the time delay relay 17 comprises a time delay relay coil 171 and a time delay normally open contact 172, and the shoe brushing contactor 18 comprises a shoe brushing contactor coil 181 and two groups of shoe brushing main contacts 182; the shoe brushing switch 14 is connected with the time delay relay coil 171 in series to obtain a time delay circuit, and two ends of the time delay circuit are respectively connected to two wiring terminals L1 and L2 of a power supply; the time-delay normally-open contact 172 is connected with the shoe-brushing contactor coil 181 in series to obtain a shoe-brushing circuit, and two ends of the shoe-brushing circuit are respectively connected with two wiring terminals L1 and L2 of a power supply; two input ends of the two groups of main shoe brushing contacts 182 are respectively connected with two wiring terminals L1 and L2 of a power supply; two input ends of the shoe-brushing motor 3 are respectively connected with two output ends of the two groups of shoe-brushing main contacts 182. When in use, the delay time of the delay relay 17 is firstly set, for example, to 30 seconds; when the cabinet door 12 is in an open state, the shoe brushing motor 3 does not work; the cabinet door 12 is closed, the cabinet door 12 presses the shoe brushing switch 14, then the two ends of the time delay relay coil 171 are electrified, the time delay normally-open contact 172 is immediately closed, the shoe brushing contactor coil 181 is electrified, the two groups of shoe brushing main contacts 182 are closed, the shoe brushing motor 3 is electrified to start working, the brush bristles 633 automatically clean the sole 22 until the time of 30 seconds is over, the time delay normally-open contact 172 is disconnected, the shoe brushing contactor coil 181 is electrified, the two groups of shoe brushing main contacts 182 are disconnected, the shoe brushing motor 3 is electrified to stop working, and the cleaning work is over. The door 12 is opened, the clean slippers are taken out, the dirty slippers 2 are put in, the door 12 is closed, the door 12 presses the shoe brushing switch 14, and then the working steps are repeated.

The bristles 633 brush the sole 22 through the gaps between the shoe placing beams 15, during the brushing process, the slipper 2 is not stably placed, the bristles 633 often push the slipper 2 to one side, so that the brush roller 63 idles and cannot play a role in brushing the sole 22, and in order to enable the slipper 2 to be stably placed, the shoe pressing assembly 7 further comprises a shoe pressing assembly 7, wherein the shoe pressing assembly 7 comprises a pressing rod 71, a soft rope 72, a redirection wheel assembly 73, a rope winding wheel 74, a motor support 75 and a shoe pressing motor 76; the direction-changing wheel assembly 73 comprises a direction-changing wheel 731 and a direction-changing wheel carrier 732 which are connected through a revolute pair, and the direction-changing wheel carrier 732 is fixedly connected to the cabinet body 11; the rope winding wheel 74 is fixedly connected with an output shaft of the shoe pressing motor 76, the motor bracket 75 is fixedly connected with a fixed seat of the shoe pressing motor 76, and the motor bracket 75 is fixedly connected on the cabinet body 11; one end of the soft rope 72 is fixedly connected to the pressure lever 71, the other end of the soft rope is wound on the rope winding wheel 74 after winding the direction-changing wheel 731, when the shoe pressing motor 76 is electrified to rotate in the forward direction or the reverse direction, the rope winding wheel 74 rotates, the soft rope 72 is gradually wound or rotated to be away from the rope winding wheel 74, the pressure lever 71 is dragged to ascend or descend, the slipper 2 is pressed to be stable and immovable when descending, the slipper 2 is separated from the slipper 2 when ascending, and the slipper 2 is convenient to take down and put on.

The shoe pressing assembly 7 is also provided with a control circuit, and further comprises a shoe pressing switch 13, a stop-falling microswitch 752, a stop-rising microswitch 753, a falling rod contactor 82, a rising rod contactor 83, a falling rod relay 92 and a rising rod relay 93; the shoe press switch 13 comprises a shoe press normally open contact 131 and a shoe press normally closed contact 132 which are linked, and is arranged between the cabinet body 11 and the cabinet door 12, when the cabinet door 12 is closed, the shoe press normally open contact 131 in an open state is changed into a closed state, the shoe press normally closed contact 132 in the closed state is changed into an open state, then the cabinet door 12 is opened, the shoe press normally open contact 131 in the closed state is changed into an open state, and the shoe press normally closed contact 132 in the open state is changed into a closed state; the drop-stopping microswitch 752 is fixedly connected with the motor bracket 75 and is of a normally closed type, and the drop-stopping microswitch 752 comprises a drop-stopping collision bead 7521; the rising stopping microswitch 753 is fixedly connected with the motor bracket 75 and is in a normally closed type, and the rising stopping microswitch 753 comprises a rising stopping collision ball 7531; a contact plate 741 is fixed on the rope winding wheel 74, when the rope winding wheel 74 rotates, the contact plate 741 rotates along with the rotation, when the contact plate 741 touches a stop-drop contact bead 7521, the stop-drop microswitch 752 is changed from a closed state to an open state, and when the contact plate 741 touches a stop-rise contact bead 7531, the stop-rise microswitch 753 is changed from a closed state to an open state; the descending pole contactor 82 comprises a descending pole contactor coil 821, a descending pole normally closed contact 822, a descending pole main contact I823 and a descending pole main contact II 824; the lifter contactor 83 comprises a lifter contactor coil 831, a lifter normally closed contact 832, a lifter primary contact 833 and a lifter primary contact 834; the down-lever relay 92 comprises a down-lever relay coil 921 and a down-lever normally open contact 922; the lift pin relay 93 includes a lift pin relay coil 931 and a lift pin normally open contact 932; the shoe press motor 76 comprises two input connecting terminals of a first input terminal 761 and a second input terminal 762;

two ends of a circuit obtained by connecting the shoe pressing normally open contact 131 and the rod descending relay coil 921 in series are respectively connected to two wiring terminals L1 and L2 of a power supply; two ends of a circuit obtained by connecting the shoe pressing normally closed contact 132 and the lifting rod relay coil 931 in series are respectively connected to two wiring terminals L1 and L2 of a power supply; two ends of a circuit obtained by connecting the descending rod normally-open contact 922, the descent stopping microswitch 752, the ascending rod normally-closed contact 832 and the descending rod contactor coil 821 in series are respectively connected to two wiring terminals L1 and L2 of a power supply; two ends of a circuit obtained by connecting a lifting rod normally open contact 932, a lifting stopping microswitch 753, a lifting rod normally closed contact 822 and a lifting rod contactor coil 831 in series are respectively connected to two wiring terminals L1 and L2 of a power supply; the connecting terminal L1 is simultaneously connected with a first descending pole main contact 823 and a first ascending pole main contact 833, and the connecting terminal L2 is simultaneously connected with a second descending pole main contact 824 and a second ascending pole main contact 834; the input ends of the first falling rod main contact 823 and the second rising rod main contact 834 are respectively connected with the first input end 761, and the input ends of the second falling rod main contact 824 and the first rising rod main contact 833 are respectively connected with the second input end 762.

When the cabinet door 12 is closed, the shoe presser normally open contact 131 in the open state is changed into the closed state, the shoe presser normally closed contact 132 in the closed state is changed into the open state, the relay coil 921 is powered, the rod descending normally open contact 922 is closed, the rod descending normally open contact 922, the descent prevention micro switch 752, the rod ascending normally closed contact 832 and the rod descending contactor coil 821 form a passage, the rod descending contactor coil 821 is powered, the rod descending normally closed contact 822 is disconnected to ensure that the rod ascending contactor coil 831 cannot be powered, the rod descending main contact one 823 and the rod descending main contact two 824 are closed, the motor rotates anticlockwise until the contact plate 741 touches the descent prevention collision bead 7521, as shown in fig. 10, the drop-stopping microswitch 752 changes from a normally closed state to an open state, the drop rod contactor coil 821 loses power, the drop rod normally closed contact 822 changes to a closed state, the drop rod main contact first 823 and the drop rod main contact second 824 are disconnected, and the shoe press motor 76 stops rotating; when the cabinet door 12 is opened, the press shoe normally open contact 131 in the closed state is in the open state, the press shoe normally closed contact 132 in the open state is in the closed state, the relay coil 931 is electrified, the lifting rod normally open contact 932 is closed, the lifting rod normally open contact 932, the lifting stop microswitch 753, the lifting rod normally closed contact 822 and the lifting rod contactor coil 831 are in a passage, the lifting rod contactor coil 831 is electrified, the lifting rod normally closed contact 832 is opened to ensure that the lifting rod contactor coil 821 cannot be electrified, the lifting rod main contact one 833 and the lifting rod main contact two 834 are closed, the motor rotates clockwise until the contact plate 741 touches the lifting stop collision ball 7531, as shown in fig. 9, the rising stop microswitch 753 is changed from a closed state to an open state, the lifting rod contactor coil 831 is de-energized, the lifting rod normally closed contact 832 is changed to a closed state, the lifting rod main contact one 833 and the lifting rod main contact two 834 are disconnected, and the shoe press motor 76 stops rotating; when the cabinet door 12 is closed again and the cabinet door 12 is opened again, the above steps are respectively repeated.

Therefore, when the cupboard door 12 is closed, the press rod 71 descends to press the slippers 2, the brush roller 63 continuously rotates for 30 seconds to clean the slipper soles 22 and then stops, when the cupboard door 12 is opened, the press rod 71 ascends to facilitate taking and using the slippers 2, and the purpose of automatically cleaning the slipper soles 22 is achieved. The brushed soil dust falls into the box body 61, the soil dust inside is poured out periodically, and the bristles 633 are cleaned periodically to keep the bristles 633 clean.

Dust is easy to fly up when the cleaning agent is cleaned in a dry state and fly in the air. The dust cleaning device is not limited to work in a dry state, water can be filled in the box body 61, and cleaned dust can fall into the water and can be prevented from flying in the air; the bristles 633 are immersed in water, dust adhered to the bristles 633 is easy to clean in water, and the sole 22 can be cleaned only by keeping the bristles 633 clean; water is adhered to the brush hair 633 and can be brought to the sole 22, so that the dirt and dust adhered to the upper surface are wetted first and are easier to clean; the brush roller 63 stops after continuously brushing for 30 seconds, and can be dried after a while by wetting the sole, and the shoe brush cannot bring water to the floor when taken out for use.

The beneficial effects of this embodiment: the automatic cleaning shoe sole saves physical power, energy and time, and keeps the indoor floor clean.

Claims (3)

1. A shoe cabinet capable of automatically brushing soles is characterized by comprising a shoe cabinet, a shoe brushing box, a medium gear assembly, a shoe brushing motor and a motor gear; the shoe cabinet comprises a cabinet body and a plurality of shoe placing beams, wherein the shoe placing beams are long strip-shaped parts and are horizontally arranged side by side, two ends of each shoe placing beam are fixed on the cabinet body, two long and narrow side surfaces face upwards and downwards respectively, a large gap is formed between the two shoe placing beams, slippers are placed on the long and narrow side surfaces facing upwards of the shoe placing beams, and the slippers are supported by the shoe placing beams simultaneously; the shoe brushing box comprises a box body, a brush gear and a brush roller, wherein the box body is provided with an upward opening, the brush roller comprises a cylindrical roller, a shaft and brush bristles which are fixedly connected together, the shaft is horizontally arranged and connected with the box body through a rotating pair, the brush bristles are radially arranged on the outer cylindrical surface of the cylindrical roller, the shaft extends to the outside of the wall of the box body, the tail end of the shaft is connected with the brush gear, and the box body is fixedly arranged on a cabinet body; the base of the shoe-brushing motor is fixedly connected with the cabinet body, and the motor gear is connected on the output shaft of the shoe-brushing motor; the medium gear assembly comprises a medium gear and a medium gear seat, the medium gear and the medium gear seat are connected through a rotating pair, and the medium gear seat is fixedly connected to the cabinet body or the box body; the motor gear is meshed with the intermediate gear, and the intermediate gear is meshed with the brush gear;

the shoe cabinet also comprises a cabinet door and a shoe brushing switch; the cabinet door is connected with the cabinet body through a hinge and comprises a door catch; the shoe brushing switch is a normally open button and is arranged between the cabinet body and the cabinet door; the shoe brushing contactor comprises a shoe brushing contactor coil and two groups of shoe brushing main contacts; the shoe brushing switch is connected with the time delay relay coil in series to obtain a time delay circuit, and two ends of the time delay circuit are respectively connected to two wiring terminals of the power supply; the time-delay normally-open contact and the shoe-brushing contactor coil are connected in series to obtain a shoe-brushing circuit, and two ends of the shoe-brushing circuit are respectively connected to two wiring terminals of a power supply; two input ends of the two groups of shoe brushing main contacts are respectively connected with two wiring terminals of a power supply; two input ends of the shoe brushing motor are respectively connected with two output ends of the two groups of shoe brushing main contacts;

the shoe pressing assembly comprises a pressing rod, a soft rope, a direction-changing wheel assembly, a rope winding wheel, a motor support and a shoe pressing motor; the direction-changing wheel component comprises a direction-changing wheel and a direction-changing wheel carrier, the direction-changing wheel and the direction-changing wheel carrier are connected through a revolute pair, and the direction-changing wheel carrier is fixedly connected to the cabinet body; the rope winding wheel is fixedly connected with an output shaft of the shoe pressing motor, the motor bracket is fixedly connected with a fixed seat of the shoe pressing motor, and the motor bracket is fixedly connected on the cabinet body; one end of the soft rope is fixedly connected to the pressure lever, and the other end of the soft rope is wound on the rope winding wheel after bypassing the bend wheel;

the shoe press also comprises a shoe press switch, a drop-stopping microswitch, a rise-stopping microswitch, a drop rod contactor, a rise rod contactor, a drop rod relay and a rise rod relay; the shoe pressing switch comprises a shoe pressing normally open contact and a shoe pressing normally closed contact which are linked, and is arranged between the cabinet body and the cabinet door; the landing-stopping microswitch is fixedly connected with the motor bracket and is of a normally closed type, and comprises a landing-stopping collision bead; the lifting-stopping microswitch is fixedly connected with the motor bracket and is of a normally closed type, and comprises a lifting-stopping collision bead; a touch panel is fixed on the rope winding wheel; the descending rod contactor comprises a descending rod contactor coil, a descending rod normally closed contact, a descending rod main contact I and a descending rod main contact II; the lifting rod contactor comprises a lifting rod contactor coil, a lifting rod normally closed contact, a lifting rod main contact I and a lifting rod main contact II; the rod lowering relay comprises a rod lowering relay coil and a rod lowering normally open contact; the lifting rod relay comprises a lifting rod relay coil and a lifting rod normally open contact; the shoe pressing motor comprises a first input terminal and a second input terminal;

two ends of a circuit obtained after the shoe pressing normally open contact is connected with the descending rod relay coil in series are respectively connected to two wiring terminals of a power supply; two ends of a circuit II obtained after the shoe pressing normally-closed contact is connected with the lifting rod relay coil in series are respectively connected to two wiring terminals of a power supply; two ends of a circuit three obtained after the descending rod normally open contact, the descent stopping microswitch, the ascending rod normally closed contact and the descending rod contactor coil are connected in series are respectively connected to two wiring terminals of a power supply; the two ends of a circuit obtained by connecting the lifting rod normally open contact, the lifting stop microswitch, the lifting rod normally closed contact and the lifting rod contactor coil in series are respectively connected to two wiring terminals of a power supply; a connecting terminal of the power supply is simultaneously connected with a first descending rod main contact and a first ascending rod main contact, and a second connecting terminal of the power supply is simultaneously connected with a second descending rod main contact and a second ascending rod main contact; the input ends of the first rod lowering main contact and the second rod lifting main contact are respectively connected with the first input end of the shoe pressing motor, and the input ends of the second rod lowering main contact and the first rod lifting main contact are respectively connected with the second input end of the shoe pressing motor.

2. The shoe cabinet for automatically brushing shoe soles according to claim 1, wherein water is filled in the cabinet.

3. The shoe cabinet for automatically brushing shoe soles according to claim 2, characterized in that the delay time of the delay relay is set to be 20 seconds to 2 minutes.

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