CN110338521B - Shoe nursing device capable of automatically performing multitasking and operation strategy thereof - Google Patents

Abstract

The invention discloses a shoe nursing device capable of automatically performing multitask treatment and an operation strategy thereof, wherein the shoe nursing device comprises an air blowing main pipe and a control center, the air blowing main pipe is communicated with a plurality of air blowing branch pipes, each air blowing branch pipe is communicated with a plurality of air blowing terminals, at least one air blowing fan for blowing air and at least one air valve for controlling the on-off of the pipelines are arranged on the pipelines communicated with the air blowing main pipe, the air blowing branch pipes and the air blowing terminals, and the air blowing fan and the air valves are electrically connected with the control center.

Description

Shoe nursing device capable of automatically performing multitasking and operation strategy thereof

Technical Field

The invention relates to the technical field of intelligent home furnishing, in particular to a shoe nursing device capable of automatically performing multitasking and an operation strategy thereof.

Background

The foot is full of miles, shoes are necessary for people to live, and whether the shoes are comfortable or not can directly influence the daily life quality of a person. People in cities have more and more pressure on life, less and less rest time, and many people do not want to spend too much time on treating shoes, but many people can sweat feet due to various reasons, and the shoes are uncomfortable to wear next day and have peculiar smell. Especially in cold winter, comfort and warmth are the most basic requirements for life, but the reality is very harsh. The family can wear warm shoes in winter, and is basically luxurious. At present, a shoe dryer is available on the market, but the shoe dryer can only work on a single shoe, is very inconvenient for the user group taking a family as a unit at present, has a single function, and cannot meet the requirements of modern people on intellectualization and automation of household articles, so that a shoe nursing device capable of automatically performing multi-task processing and an operation strategy thereof are provided.

Disclosure of Invention

The present invention is directed to a footwear care device and operating strategy thereof that automatically performs multitasking to solve the problems set forth above in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a shoes nursing device that can carry out multitask automatically, includes gas blowing house steward and control center, gas blowing house steward intercommunication a plurality of branch pipes of blowing all communicate a plurality of terminals of blowing on every branch pipe of blowing, be equipped with at least one on the pipeline that gas blowing house steward, branch pipes of blowing and terminal intercommunication of blowing and be used for blowing into the air blow fan and at least one blast gate that is used for controlling the pipeline break-make, air blowing fan, blast gate all are connected with the control center electricity.

Preferably, the nursing device is still including the house steward that bleeds, a plurality of branch pipes that bleed of house steward intercommunication, every a plurality of extraction openings of branch pipe intercommunication that bleeds, the air exhauster air extraction that the house steward is connected through with it, fixed mounting has temperature sensing element between fan and the house steward that blows, also be equipped with the blast gate of being connected with the control center electricity in branch pipe or every air extraction opening, temperature sensing element, air exhauster also are connected with the control center electricity.

Preferably, the blowing terminal is provided with a corresponding automatic switch, the control center is electrically connected with an indicating device, a disinfection assembly and an automatic switch, the indicating device is connected in series in a circuit of the automatic switch, at least one disinfection assembly is arranged on a pipeline communicated with the blowing main pipe, the blowing branch pipe and the blowing terminal, the control center comprises a processor module, an input module, a communication module and a power module, and the control center is electrically connected with a trigger switch.

Preferably, the blowing terminal comprises a Y-shaped pipe, two lower ends of the Y-shaped pipe are fixedly connected with a telescopic pipe, and the lower end of the telescopic pipe is fixedly connected with a contact.

Preferably, the automatic switch comprises a fixing frame, first conductive blocks, second conductive blocks and metal balls, the fixing frame is fixedly connected to the two side walls of the lower end of the Y-shaped pipe, an inclined groove is formed in the lower end of each fixing frame, the first conductive blocks and the second conductive blocks are fixedly connected to one end of each inclined groove, the two first conductive blocks located on the same Y-shaped pipe are connected with each other through a conducting wire, the metal balls are connected to the inner portions of the inclined grooves in a sliding mode, and the metal balls are movably connected with the first conductive blocks and the second conductive blocks.

Preferably, fixedly connected with filter cartridge between air exhaust manifold and the air exhauster, filter cartridge' S inside is equipped with the multilayer active carbon filter screen, one section air exhaust manifold in the below of filter cartridge is the S type structure of bending, and one section S of downwarping is bent inside and is equipped with the fin, and the meshing is connected with flourishing kettle on the lower lateral wall of S bending.

An operation strategy of a shoe care device capable of automatically performing multitasking comprises the following specific steps: m1, activating a trigger switch, and stopping the operation of the air valve, the air blowing fan, the temperature control assembly, the exhaust fan and the disinfection assembly;

m2, detecting the states of all automatic switches by a processor module, and recording the position data D1 of the activated blowing terminals of the automatic switches by the processor module;

m3, if the parameter is manually input into the step M4, the preset parameter is selected into the step M5;

m4, inputting working parameters through the input module, transmitting the data to the processor module for recording, and entering step M6;

m5, pre-storing a plurality of modes in the processor module, selecting through the input module, and entering the step M6;

m6, the processor module starts the device according to the parameters in the step M3 or M4 for the blowing terminal in the range of the position data D1;

m7, operating according to the parameters;

m8, end, standby.

Preferably, if the trigger switch is activated in step M7, step M1 is entered, and the input module is added with the continuation option, and the continuation is manually selected or step M3 is entered.

Preferably, the position data D1 consists of an abscissa X1 and an ordinate Y1 mark, and the position data D1 may be empty.

Preferably, after the continuation option is selected, the processor module detects the states of all automatic switches, records the position data D2 of the blowing terminals with the automatic switches activated, calculates the intersection data D3 of the position data D1 and the position data D2, and carries out the step M6 of replacing the intersection data D3 with the position data D1.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a shoe nursing device capable of automatically performing multitask processing and an operation strategy thereof, the device provides a plurality of positions for shoe nursing in parallel, can meet the processing work of most shoe conditions of families, businesses and the like, can automatically set programs or quickly perform a series of operations such as shoe drying, deodorization, disinfection and the like according to the existing program mode by matching with an intelligent control center, is provided with structures such as an automatic switch and the like, can automatically identify the placing positions of shoes, can effectively save energy, improves the efficiency of equipment, fully considers various use conditions by setting the operation strategy, can randomly interrupt the operation in the operation of the equipment, and is convenient and efficient.

Drawings

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

FIG. 2 is a schematic diagram II of the overall structure of the present invention;

FIG. 3 is a schematic diagram III of the overall structure of the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 3 in accordance with the present invention;

FIG. 5 is a cross-sectional view of the damper of the present invention;

FIG. 6 is a cross-sectional view of the temperature control assembly, heating wire and blowing manifold of the present invention;

FIG. 7 is a cross-sectional view I of the filter cassette of the present invention at the suction manifold;

FIG. 8 is a cross-sectional view II of the filter cassette of the present invention at the suction manifold;

FIG. 9 is a circuit control schematic of the present invention;

FIG. 10 is a schematic structural view of a Y-shaped tube, a holder and a contact according to the present invention;

FIG. 11 is a cross-sectional view of the holder, angled slot, contact and metal ball of the present invention;

FIG. 12 is a schematic flow chart illustrating the normal operation of the present invention;

FIG. 13 is a schematic view of the flow of the present invention after the triggering switch is activated again after the interruption of operation;

fig. 14 is a schematic connection diagram of the control center according to the present invention.

In the figure: 1. the device comprises an air blowing main pipe, 2, an air exhaust main pipe, 3, an air blowing branch pipe, 4, a Y-shaped pipe, 5, an air valve, 501, a shell sleeve, 502, a motor, 503, a rotating shaft, 504, a blocking cover, 6, an extension pipe, 7, a contact, 8, an air blowing fan, 9, a temperature control component, 10, an air exhaust branch pipe, 11, an air exhaust opening, 12, an air exhauster, 13, an electric heating wire, 14, a filter box, 15, an activated carbon filter screen, 16, a fin, 17, a water containing kettle, 18, a disinfection component, 19, a fixing frame, 20, an inclined groove, 21, a first conductive block, 22, a metal ball, 23, a second conductive block, 24, a control center, 25 and a trigger switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-14, the present invention provides a technical solution: a shoe care device capable of automatically performing multitasking and an operation strategy thereof comprise an air blowing main pipe 1 and a control center 24, wherein the air blowing main pipe 1 is communicated with a plurality of air blowing branch pipes 3, each air blowing branch pipe 3 is communicated with a plurality of air blowing terminals, at least one air blowing fan 8 for blowing air and one air valve 5 for controlling the on-off of the pipelines are arranged on the pipelines communicated with the air blowing main pipe 1, the air blowing branch pipes 3 and the air blowing terminals, the air blowing fan 8 and the air valves 5 are electrically connected with the control center 24, the air blowing fan 8 can be arranged on the air blowing main pipe 1 to provide power for the whole air path, or can be arranged on each air blowing branch pipe 3 or can be arranged on each air blowing terminal to play the effect of independently controlling the air path, each air blowing terminal corresponds to each shoe, air is blown from the air blowing terminals to the shoes through the air blowing fans 8, the nursing effect is achieved;

the number and the positions of the air valves 5 and the blowing-up fans 8 can be matched, for example, when each blowing-up terminal is provided with one blowing-up fan 8, only one air valve 5 is arranged on the blowing main pipe 1 to ensure the on-off of the whole pipeline; when only one blowing fan 8 is provided on the blowing trunk 1, a damper 5 may be provided on each blowing branch pipe 3 or each blowing terminal to function as a control for opening and closing the pipe, and the control center 24 is electrically connected to the blowing fan 8 and the damper 5 to enable the control center 24 to control the operation and opening and closing of these electronic components, and the control center 24 may be in the form of a panel (see fig. 14).

As shown in figure 1, the device is designed in a frame type, can be integrated with a shoe cabinet and installed in the shoe cabinet, and can also be directly installed on one side of the shoe rack, and figures 1-3 are schematic diagrams of devices at different levels.

Further, when the device is used in a closed form such as a shoe cabinet, the device of the invention should further comprise an air exhaust main pipe 2, the air exhaust main pipe 2 is communicated with a plurality of air exhaust branch pipes 10, each air exhaust branch pipe 10 is communicated with a plurality of air exhaust ports 11, and the air exhaust main pipe 2 exhausts air through an exhaust fan 12 connected with the air exhaust main pipe, so that moist air or air with peculiar smell can be uniformly sucked and exhausted.

Under the condition that an air blowing fan 8 is installed on an air blowing main pipe 1 (as shown in figures 1-3), a temperature control component 9 is fixedly installed between the air blowing fan 8 and the air blowing main pipe 1, the temperature control component 9 can be an electric heating wire 13 (as shown in figure 6) or a semiconductor refrigerating sheet and other components so as to improve the temperature of the entering air, an air valve 5 electrically connected with a control center 24 is also arranged in each air suction branch pipe 10 or each air suction opening 11, the temperature control component 9 and an exhaust fan 12 are also electrically connected with the control center 24, if the electric heating wire 13 is electrified, the electric heating wire 13 can generate heat, the air blown into the air blowing main pipe 1 by the air blowing fan 8 passes through the electric heating wire 13 and is changed into flowing hot air, and then the heated air quickly blows away the water vapor in shoes, the drying efficiency of the device on the shoes is increased, if only the air blowing fan 8 rotates, but the electric heating wire 13 is not electrified, the temperature of the air blown into the interior of the air blowing manifold 1 is normal temperature.

When the air valve 5 is installed at each air blowing terminal, in order to automatically judge which air blowing terminal has shoes, a corresponding automatic switch is arranged on each air blowing terminal, the control center 24 is electrically connected with an indicating device, a disinfecting component 18 and the automatic switch, the indicating device is connected in series in a circuit of the automatic switch, and when the shoes are placed below the corresponding air blowing terminal, the automatic switch is started, and then the indicating device at the corresponding position is started (an LED lamp can be set to be on to play a role in prompting, and the LED lamp can be installed on each air blowing terminal or can be installed on a panel of the control center 24, which is not shown in the figure).

And the blowing main pipe 1, the blowing branch pipes 3 and the pipelines communicated with the blowing terminals are at least provided with a disinfection assembly 18 electrically connected with the control center 24, specifically, the disinfection assembly 18 can be a small ozone generator or an ultraviolet lamp (the ultraviolet lamp can be installed on each blowing terminal for ultraviolet disinfection as shown in fig. 4), and for convenience of control, the control center 24 comprises a processor module, an input module, a communication module and a power module, wherein the power module takes electricity from the outside and distributes the electricity to other electronic components on the device after being controlled by the processor module.

The control center 24 is electrically connected with a trigger switch 25, the trigger switch 25 is a main switch of the whole device, and if the device is matched with a shoe cabinet for use, the trigger switch 25 can be an extrusion type switch structure linked with a cabinet door and is arranged at a door plate of the shoe cabinet.

Specifically, the air blowing terminal may be a Y-shaped pipe 4, that is, the side wall of each air blowing branch pipe 3 is communicated with a plurality of Y-shaped pipes 4, as shown in fig. 3, each Y-shaped pipe 4 may simultaneously dry a pair of shoes, after air enters the inside of the Y-shaped pipe 4 from the inside of the air blowing branch pipe 3, the Y-shaped pipes 4 may split the air by the Y-shaped pipe 4, so that the apparatus may simultaneously dry two shoes, the plurality of Y-shaped pipes 4 may be arranged in a shoe cabinet or on a shoe rack according to row and column sorting (row ordinate and column abscissa), the Y-shaped pipes 4 may be well-arranged in a hierarchical manner, the number of rows of the Y-shaped pipes 4 may be set according to the number of interlayers and the size of each interlayer, the Y-shaped pipes 4 are provided with air valves 5, and when the air valves 5 are opened, the air blowing branch pipes 3 may be communicated with the Y-shaped pipes 4.

Because shoes size depth all differs, in order to can adapt to the multiple condition, two lower extreme fixedly connected with flexible pipes 6 of Y type pipe 4, flexible pipe 6 is made for plastic hose, flexible and tensile, the lower extreme fixedly connected with contact 7 of flexible pipe 6 when drying to shoes, pulling contact 7 makes flexible pipe 6 elongate, puts into shoes with contact 7, and the air blows in shoes from the inside of contact 7 in, makes the shoes air flow fast, and the venthole of contact 7 is all opened on contact 7's lateral wall all around, guarantees then that the air can blow to every corner of shoes, has improved the stoving effect.

Specifically, the air valve 5 structurally comprises a shell 501, a motor 502 is fixedly connected to the side wall of the shell 501, a rotating shaft 503 is fixedly connected to an output shaft of the motor 502, the rotating shaft 503 is rotatably connected to the inside of the shell 501, a blocking cover 504 is fixedly connected to the side wall of the rotating shaft 503, the air valve 5 is in a closed state in a normal state, namely, the blocking cover 504 blocks the air blowing branch pipe 3 from the Y-shaped pipe 4 after the air duct is blocked, when the shoes are dried, the corresponding air valve 5 is opened, the rotating shaft 503 rotates 90 degrees after the motor 502 is started, then the blocking cover 504 rotates to keep parallel to the air flowing direction, at the moment, the air blowing branch pipe 3 is communicated with the Y-shaped pipe 4, and then the device is used for drying two shoes.

The automatic switch comprises a fixed frame 19, a first conductive block 21, a second conductive block 23 and a metal ball 22, wherein the fixed frame 19 is fixedly connected to two side walls of the lower end of the Y-shaped tube 4, an inclined groove 20 is formed in the lower end of each fixed frame 19, the left end bottom and the right end of each inclined groove 20 are high (as shown in figure 11), one end of each inclined groove 20 is fixedly connected with the first conductive block 21 and the second conductive block 23, the two first conductive blocks 21 positioned on the same Y-shaped tube 4 are connected with each other through a lead, the two second conductive blocks 23 positioned on the same Y-shaped tube 4 are connected in series and electrically connected with a control center, after the first conductive blocks 21 are connected with the second conductive blocks 23, a circuit (an indicating device) of the Y-shaped tube 4 forms a closed loop, a processor module of the control center can receive an electric signal at the position so as to record the position occupation, the metal ball 22 is connected in a sliding manner in the inclined groove 20, and the metal ball 22 is movably connected with the first conductive block 21 and the second conductive block 23, the contact 7 has certain magnetism, and the metal ball 22 can be adsorbed by the contact 7 and has a conductive function, when the telescopic tube 6 contracts, the side wall of the contact 7 is close to the inclined groove 20, at this time, the contact 7 can adsorb the metal ball 22 to the right (as shown in fig. 11), at this time, the first conductive block 21 is disconnected with the second conductive block 23, and the processor module of the control center cannot receive the electric signal at this time.

For the form of installing the air valve 5 and the disinfecting assembly 18 on each Y-shaped pipe 4, the circuits of the air valve 5 and the disinfecting assembly 18 can also be connected in series to the circuit of the automatic switch, when the automatic switch is not electrified, the air valve 5 and the disinfecting assembly 18 cannot supply power, so that power saving and safety are realized, when two contacts 7 on the Y-shaped pipe 4 are pulled downwards, two metal balls 22 simultaneously lose the adsorption of the corresponding contacts 7 and roll to the left side according to the inclination of the inclined groove 20, at the moment, the metal balls 22 play a role of connecting the first conductive block 21 and the second conductive block 23, and at the moment, the air blowing terminal can be excited to work.

Specifically, a filter box 14 is fixedly connected between the air exhaust main pipe 2 and the air exhaust fan 12, a plurality of layers of activated carbon filter screens 15 are arranged inside the filter box 14, when the air exhaust fan 12 exhausts air, the air can pass through the inside of the filter box 14 and then is exhausted, the activated carbon filter screens 15 filter the air passing through the inside of the filter box 14, so that some unpleasant air generated by drying is adsorbed on the activated carbon filter screens 15, and then the exhausted air is kept clean and free of peculiar smell, the lower section of air exhaust main pipe 2 of the filter box 14 is of an S-shaped structure, and a section of S-shaped bent downwards is filled with fins 16, when shoes passed through by a person are put into the shoe cabinet, because the feet of sweating inside the shoes can be wet (the shoes passed through in rainy days), when the shoes are dried, moisture in the shoes can float in the shoe cabinet, and when the air exhaust fan 12 exhausts air, moisture can be discharged out of the shoe cabinet from the inside of the air suction main pipe 2, the S-shaped structure and the fins 16 are made of aluminum alloy materials and are sleeved with the air suction main pipe 2, the heat dissipation effect of the aluminum alloy materials is good, so that water drops are condensed at the position of the moisture, the humidity of the discharged air is reduced so as not to influence the use environment, the water containing kettle 17 is meshed and connected to the lower side wall of the S-shaped structure, and the condensed water can flow into the water containing kettle 17.

Referring to fig. 3, taking the integrated use of the device and the shoe cabinet as an example, the shoe cabinet has 3 rows, 3 pairs of shoes are placed in each row, and the working process is as follows:

firstly, opening the shoe cabinet, triggering the trigger switch 25, activating the control center 24, and stopping the operation of the air valve 5, the blowing fan 8, the temperature control component 9, the exhaust fan 12 and the disinfection component 18;

secondly, shoes are placed on the 2 and 3 columns in the first row of the shoe cabinet, the contact 7 is pulled, the telescopic pipe 6 is stretched after being pulled, then the contact 7 is placed in the shoes, the automatic switch is triggered at the moment, and the processor module of the control center 24 records position data D1 of the shoes (namely, the position with the ordinate of 1 and the abscissa of 2 and 3 has the shoes).

Thirdly, inputting corresponding parameters through an input module, such as ventilation, heating and drying of the shoes with the ordinate 1 and the abscissa 2 from 04:00 to 05:00, and sterilizing the shoes with the sterilizing component 18 at 04:30 to 05: 00;

the shoes 06:00-06:30 with ordinate 1 and abscissa 3 are ventilated, heated and dried, and the shoes 06:00-06:30 are sterilized by the sterilizing component 18.

The ventilation, heating and drying of the shoes are completed by the cooperation of the blowing fan 8, the air valve 5, the temperature control assembly 9 and the exhaust fan 12, wherein the blowing fan 8 and the exhaust fan 12 are synchronously opened, the air valve 5 is automatically opened according to the position data D1, and the temperature control assembly 9 is an optional component and can be closed if not required.

Of course, in this step, in order to save operation time and facilitate operation, a pre-designed heating, ventilating and sterilizing combination strategy can be selected for operation.

The parameter input of the device can be directly operated on a panel of the control center 24, and can also be used for wireless or other communication connection through the communication module, and the parameter is transmitted to the input module by being controlled in a short message code mode or an APP interface through a connection server.

And fourthly, the processor module controls the operation of the blowing fan 8, the temperature control assembly 9, the exhaust fan 12, the corresponding air valve 5 and the disinfection module 18.

And fifthly, finishing working according to the selected parameters, and enabling the device to enter a standby state.

In order to improve the safety, the operation strategy of the device also comprises the following points:

first, if the trigger switch 25 is activated during operation, for example if the cabinet door is opened, all operating states are stopped (in which case the air valve 5, the blower fan 8, the temperature control unit 9, the suction fan 12 and the sterilization unit are stopped regardless of the previous state), and only operation is required by selecting to continue operation or re-inputting parameters through the input module.

Secondly, the position data D1 is the decisive data, and the range of action of the input or preset operating parameters is not larger than the position data D1, i.e. the idle running situation is reduced. And the logical relationship is set, when no shoes are in the device, the device cannot be started to dry, ventilate or sterilize no matter how the shoes are operated.

Thirdly, after the continuation option is selected, the processor module detects the states of all automatic switches, records the position data D2 of the activated blowing terminals of the automatic switches, calculates the intersection data D3 of the position data D1 and the position data D2, and enters the step M6 by replacing the intersection data D3 with the position data D1.

This logic is set to prevent the occurrence of a vacancy phenomenon or an over-operation phenomenon (flow shown in fig. 13).

For example, the device is in operation, the position data D1 is ({1,2} and {1,3}), the shoes in the first row and column 2 are temporarily needed to be used, the cabinet door is opened for access, then the continuation option is selected, the position data D2 is ({1,3}), the intersection data D3 is ({1,3}), and the position data D1 is replaced with the rest of the shoes in the first row and column 3;

for example, the device is operating, the position data D1 is ({1,2} and {1,3}), a pair of shoes needs to be added into the shoe cabinet but does not need to be processed temporarily, the cabinet door is opened to put in the shoes, the automatic switch is triggered, and the continuation option is selected, in which case the position data D2 is {1,2}, {1,3}, { N, N }), the intersection data D3 is still ({1,2} and {1,3}), and the device is still operating according to the previous data ({1,2} and {1,3}) instead of the position data D1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. An apparatus for automatically multitasking the care of footwear, comprising a blowing manifold (1) and a control center (24), characterized in that: the air blowing main pipe (1) is communicated with a plurality of air blowing branch pipes (3), each air blowing branch pipe (3) is communicated with a plurality of air blowing terminals, at least one air blowing fan (8) for blowing air and at least one air valve (5) for controlling the on-off of the pipelines are arranged on the pipelines communicated with the air blowing main pipe (1), the air blowing branch pipes (3) and the air blowing terminals, and the air blowing fan (8) and the air valves (5) are electrically connected with a control center (24);

the nursing device further comprises an air exhaust main pipe (2), the air exhaust main pipe (2) is communicated with a plurality of air exhaust branch pipes (10), each air exhaust branch pipe (10) is communicated with a plurality of air exhaust ports (11), the air exhaust main pipe (2) exhausts air through an exhaust fan (12) connected with the air exhaust main pipe, a temperature control assembly (9) is fixedly installed between the air blowing fan (8) and the air blowing main pipe (1), an air valve (5) electrically connected with a control center (24) is also arranged in each air exhaust branch pipe (10) or each air exhaust port (11), and the temperature control assembly (9) and the exhaust fan (12) are also electrically connected with the control center (24);

the automatic air blowing terminal is provided with a corresponding automatic switch, the control center (24) is electrically connected with an indicating device, a disinfection assembly (18) and the automatic switch, the indicating device is connected in series in a circuit of the automatic switch, at least one disinfection assembly (18) is arranged on a pipeline communicated with the air blowing main pipe (1), the air blowing branch pipes (3) and the air blowing terminal, the control center (24) comprises a processor module, an input module, a communication module and a power supply module, and the control center (24) is electrically connected with a trigger switch (25);

the blowing terminal comprises a Y-shaped pipe (4), two lower ends of the Y-shaped pipe (4) are fixedly connected with a telescopic pipe (6), and the lower end of the telescopic pipe (6) is fixedly connected with a contact (7);

the automatic switch comprises a fixing frame (19), first conductive blocks (21), second conductive blocks (23) and metal balls (22), wherein the fixing frames (19) are fixedly connected to two lower end side walls of the Y-shaped pipe (4), an inclined groove (20) is formed in the lower end of each fixing frame (19), the first conductive blocks (21) and the second conductive blocks (23) are fixedly connected to one end of each inclined groove (20), the two first conductive blocks (21) located on the same Y-shaped pipe (4) are connected with each other through wires, the metal balls (22) are connected to the inner portions of the inclined grooves (20) in a sliding mode, and the metal balls (22) are movably connected with the first conductive blocks (21) and the second conductive blocks (23).

2. An automated multi-tasking footwear care device according to claim 1, wherein: fixedly connected with filter cartridge (14) between air exhaust manifold (2) and air exhauster (12), the inside of filter cartridge (14) is equipped with multilayer activated carbon filter screen (15), one section air exhaust manifold (2) of below of filter cartridge (14) is the S curved type structure, and one section S of downwarping is bent inside and is equipped with fin (16), and the meshing is connected with flourishing kettle (17) on the lower lateral wall that S is bent.

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