CN105795604A - Intelligent filter detection type dehumidification electric shoe stretcher - Google Patents

Abstract

The invention relates to an intelligent filter detection type dehumidification electric shoe stretcher. The intelligent filter detection type dehumidification electric shoe stretcher is designed by improving the existing shoe stretcher structure, specifically, an intelligent filter detection electric control mechanism is introduced in, a first pressure sensor (5) and a second pressure sensor (6) are respectively designed, and by combining with a specifically designed filter circuit (11) and under the condition that the intelligent detection function is realized, the intelligent control is realized aiming at a miniature electric control telescopic rod (7) between a shoe vamp front support body (1) and a shoe upper rear support body (2); under the telescopic control of a telescopic rod body on the miniature electric control telescopic rod (7), the variation of the distance between the shoe vamp front support body (1) and the shoe upper rear support body (2) is realized, and thus the intelligent filter detection type dehumidification electric shoe stretcher can efficiently adapt to shoes of various sizes; meanwhile, based on a designed humidity sensor (12) and by matching with the filter circuit (11), through the detection aiming at the environment humidity inside the shoes, the intelligent work aiming at a designed miniature fan (9) is realized, and therefore, while the deformation of the shoes is prevented, the dehumidification operation aiming at the environment inside the shoes is realized.

Description

A kind of intelligent filter detection formula dehumidifying electric shoe stretcher device

Technical field

The present invention relates to a kind of intelligent filter detection formula dehumidifying electric shoe stretcher device, belong to Smart Home article technical field.

Background technology

Fillers is a kind of conventional household articles, it is positioned in shoes, for preventing the use of shoes deformation, can also be for shoes and play certain dilating effect, therefore it is the most common a kind of household articles, along with improving constantly of living standard, fillers miscellaneous is constantly weeded out the old and bring forth the new, such as number of patent application: 200720053253.0, disclose a kind of fillers, belong to the technical field of the device keeping footwear to keep the shape, solve existing fillers parts many, structure is more complicated, problem durable not；Designed fillers, the anterior and fillers rear portion including fillers, it is provided with the spring with flexibility between described fillers front portion and fillers rear portion；Owing to spring has flexibility, can bend and adjust the anterior distance with fillers rear portion of fillers, so that anterior toe portions and the counter being respectively implanted shoe body with fillers rear portion of fillers, then spring by anterior for fillers and fillers rear portion tight against to toe portions and counter, with this tender positive shoe body, spring bending simultaneously is adapted to the shoes that big ting model is different, has parts few, simple in construction, the advantage such as durable in use.

Also has number of patent application: 201310417317.0, disclose a kind of Extensible shoe tree, including mould, described mould is the unit of plastic structure of foot type, the top of module is provided with a connecting rod, and connecting rod is vertically arranged, and connecting rod top connects a helical form extension stem, extension stem is quality of rubber materials, and quality of rubber materials tundish is wrapped with metal bar；Mould can directly be filled in by the support of shortage of money shoes, extension stem shrinks in the shape of a spiral, too big space will not be taken, when for the support of surplus boots time, extension stem is trailed, behind the top of boots, extension stem unnecessary for top is strutted the edge withstanding boots, can be used as the support of the leg of a boot.

Moreover, the patent No.: 201520593224.8, disclose a kind of fillers and fillers mould, described fillers includes the supporting surface of arch, and one end of supporting surface is connected to interface, and the convergence of the other end forms head；Chamfered edge line on the downside of described supporting surface is lower convex from head to interface, and chamfered edge line connects one end of interface higher than the other end converging to head, Keel Line on supporting surface connects one end of interface higher than the other end converging to head, and one end of Keel Line connection interface is projected on the inside of chamfered edge line.From the above it can be seen that the having the beneficial effects that of fillers designed by technique scheme: provide and a kind of simple added fillers that interface constitutes by arch support face and prepare mould.Namely the hollow structure of the fillers of preparation saves production materials, and can be easy to die sinking batch production.Additionally, by the chamfered edge line optimizing the lower convex of design so that it can provide the support of adaptive height for footwear, and the Keel Line optimized then better can play the use of sizing for toe-cap.

Visible by above-mentioned prior art, existing fillers is many starts with from structure, better use sense is provided to be subject to for user, but the impact along with smart home life, the feature of the obvious lack of wisdom of existing fillers, and actually used person, owing to shoe size is not of uniform size, existing fillers cannot be exhaustive, make practical application a bit unable to do what one wishes, therefore under the impact of smart home life, if intelligent feature can be introduced for fillers, to can be greatly improved the service efficiency of fillers, allow the use of user become more convenient, hommization more；Moreover, assembling substantial amounts of dampness inside the shoes worn for a day, such shoes are through on foot again, and wearer can be allowed to feel serious sense of discomfort.

Summary of the invention

The technical problem to be solved is to provide one and is designed based on existing fillers structure, introduce intelligent filter and detect automatically controlled controlling organization, the each size shoes of self adaptation meanwhile, it is capable to for in-shoe environment realize dehumidification operation intelligent filter detection formula dehumidifying electric shoe stretcher device.

The present invention is to solve above-mentioned technical problem by the following technical solutions: the present invention devises a kind of intelligent filter detection formula dehumidifying electric shoe stretcher device, including support, upper of a shoe back brace, the first pressure transducer, the second pressure transducer, humidity sensor, control module before vamp, and the power supply being connected with control module respectively, Mini electric expansion link, control knob, mini-fan, filter circuit；First pressure transducer, the second pressure transducer, humidity sensor are connected with controlling module respectively through filter circuit；Power supply is powered through controlling module respectively Mini electric expansion link, control knob, mini-fan；Meanwhile, power supply sequentially pass through control module, filter circuit after respectively the first pressure transducer, the second pressure transducer, humidity sensor are powered；Cavity is set inside upper of a shoe back brace, controls module, power supply and filter circuit and arrange in the cavities；Filter circuit includes transport and placing device A1, transport and placing device A2 and transport and placing device A3, the in-phase input end ground connection of transport and placing device A1, the inverting input of transport and placing device A1 is sequentially connected in series resistance R3, resistance R2 and resistance R1, relatively connecting the input that the other end is filter circuit of resistance R2 on resistance R1, the input of filter circuit connects the first pressure transducer, the second pressure transducer, humidity sensor respectively；And resistance R3 is connected between transport and placing device A1 outfan and the inverting input of transport and placing device A1；The inverting input of transport and placing device A2 is connected with the inverting input of transport and placing device A1, the inverting input of transport and placing device A2 is connected with electric capacity C1, resistance R4 successively simultaneously, and ground connection, electric capacity C1 is connected between the inverting input of transport and placing device A2 and the outfan of transport and placing device A2, and the in-phase input end of transport and placing device A2 is connected with resistance R1；The in-phase input end of transport and placing device A3 is connected with electric capacity C2, and ground connection, and resistance R5 is connected between the in-phase input end of transport and placing device A3 and the in-phase input end of transport and placing device A2, the inverting input of transport and placing device A3 is connected with outfan, and the outfan link control module that the outfan of transport and placing device A3 is filter circuit；Control knob is arranged on the top of upper of a shoe back brace；The motor of Mini electric expansion link be fixedly installed on upper of a shoe back brace before vamp support one side on, on Mini electric expansion link, the mobile terminal of expansion link is fixing with the upper one side towards upper of a shoe back brace of support before vamp is connected, and humidity sensor is arranged at before vamp on support above connection Mini electric expansion link on the face of expansion link mobile terminal；The front end that first pressure transducer supports before being arranged on vamp；Second pressure transducer is arranged on the rear end of upper of a shoe back brace；The preset height position that mini-fan adopts at least three support bars, is horizontally set on Mini electric expansion link above motor, wherein, wherein one end of each support bar is respectively fixedly connected with on the motor of Mini electric expansion link, the other end of each support bar is respectively fixedly connected with the edge at mini-fan outside framework, and the airflow direction of mini-fan work is from top to bottom.

As the preferred technical solution of the present invention: described mini-fan is Miniature brushless motor fan.

As the preferred technical solution of the present invention: the motor of described Mini electric expansion link is brushless electric machine.

As the preferred technical solution of the present invention: described control module is single-chip microcomputer.

As the preferred technical solution of the present invention: described power supply is button cell.

A kind of intelligent filter detection formula dehumidifying electric shoe stretcher device of the present invention adopts above technical scheme compared with prior art, has following technical effect that

(1) the intelligent filter detection formula dehumidifying electric shoe stretcher device of present invention design, design is improved for existing fillers structure, introduce intelligent filter and detect automatically controlled controlling organization, separately design the first pressure transducer, second pressure transducer, and combine concrete designed filter circuit, when realizing Intelligent Measurement effect, Based Intelligent Control is realized for the Mini electric expansion link supportted between upper of a shoe back brace before vamp, for under the extension and contraction control of expansion link on Mini electric expansion link, realize the change of support and the spacing of upper of a shoe back brace before vamp, can efficiently adapt to the shoes of various sizes；It is simultaneously based on designed humidity sensor, coordinate filter circuit for the detection of shoes internal medium humidity, it is achieved for the intelligent work of designed mini-fan, while preventing shoes deformation, realize the dehumidification operation for in-shoe environment, it is possible to effectively keep the dry and comfortable of in-shoe environment；

(2) in the intelligent filter detection formula dehumidifying electric shoe stretcher device of present invention design, for mini-fan, it is designed with Miniature brushless motor fan further, and the motor for Mini electric expansion link, it is designed with brushless electric machine further, make the intelligent filter detection formula dehumidifying electric shoe stretcher device designed by the present invention in practical work process, it is capable of quiet work, both ensure that designed intelligent filter detection formula dehumidifying electric shoe stretcher utensil had efficient support effect and dehumidification function, can guarantee that again surrounding is not produced influence of noise by its work process, embody the human oriented design in design process；

(3) in the intelligent filter detection formula dehumidifying electric shoe stretcher device of present invention design, for controlling module, it is designed with single-chip microcomputer further, it is designed with single-chip microcomputer further, the later stage extension demand for designed intelligent filter detection formula dehumidifying electric shoe stretcher device can be applicable on the one hand, on the other hand, succinct control architecture mode can be easy to the maintenance in later stage；

(4) in the intelligent filter detection formula dehumidifying electric shoe stretcher device of present invention design, for power supply, it is designed with button cell further, volume based on button cell, can effectively ensure that the entirety of the designed intelligent filter automatically controlled controlling organization of detection takes up room, and then can effectively ensure that the detection formula dehumidifying electric shoe stretcher device efficient support effect in the middle of actual application of designed intelligent filter.

Accompanying drawing explanation

Fig. 1 is the structural representation of the intelligent filter detection formula dehumidifying electric shoe stretcher device that the present invention designs；Fig. 2 is that the present invention designs the schematic diagram of filter circuit in intelligent filter detection formula dehumidifying electric shoe stretcher device.

Wherein, 1. support before vamp, 2. upper of a shoe back brace, 3. control module, 4. power supply, 5. the first pressure transducer, 6. the second pressure transducer, 7. Mini electric expansion link, 8. control knob, 9. mini-fan, 10. support bar, 11. filter circuits, 12. humidity sensors.

Detailed description of the invention

Below in conjunction with Figure of description, the specific embodiment of the present invention is described in further detail.

As shown in Figure 1, the present invention devises a kind of intelligent filter detection formula dehumidifying electric shoe stretcher device, including support 1 before vamp, upper of a shoe back brace the 2, first pressure transducer the 5, second pressure transducer 6, humidity sensor 12, control module 3, and the power supply 4 being connected with control module 3 respectively, Mini electric expansion link 7, control knob 8, mini-fan 9, filter circuit 11；First pressure transducer the 5, second pressure transducer 6, humidity sensor 12 are connected with controlling module 3 respectively through filter circuit 11；Power supply 4 is powered through control module 3 respectively Mini electric expansion link 7, control knob 8, mini-fan 9；Meanwhile, power supply 4 sequentially pass through control module 3, filter circuit 11 after respectively first pressure transducer the 5, second pressure transducer 6, humidity sensor 12 are powered；Upper of a shoe back brace 2 is internal arranges cavity, controls module 3, power supply 4 and filter circuit 11 and arranges in the cavities；As shown in Figure 2, filter circuit 11 includes transport and placing device A1, transport and placing device A2 and transport and placing device A3, the in-phase input end ground connection of transport and placing device A1, the inverting input of transport and placing device A1 is sequentially connected in series resistance R3, resistance R2 and resistance R1, relatively connecting the input that the other end is filter circuit 11 of resistance R2 on resistance R1, the input of filter circuit 11 connects first pressure transducer the 5, second pressure transducer 6, humidity sensor 12 respectively；And resistance R3 is connected between transport and placing device A1 outfan and the inverting input of transport and placing device A1；The inverting input of transport and placing device A2 is connected with the inverting input of transport and placing device A1, the inverting input of transport and placing device A2 is connected with electric capacity C1, resistance R4 successively simultaneously, and ground connection, electric capacity C1 is connected between the inverting input of transport and placing device A2 and the outfan of transport and placing device A2, and the in-phase input end of transport and placing device A2 is connected with resistance R1；The in-phase input end of transport and placing device A3 is connected with electric capacity C2, and ground connection, and resistance R5 is connected between the in-phase input end of transport and placing device A3 and the in-phase input end of transport and placing device A2, the inverting input of transport and placing device A3 is connected with outfan, and the outfan link control module 3 that the outfan of transport and placing device A3 is filter circuit 11；Control knob 8 is arranged on the top of upper of a shoe back brace 2；The motor of Mini electric expansion link 7 be fixedly installed on upper of a shoe back brace 2 before vamp support 1 one side on, on Mini electric expansion link 7, the mobile terminal of expansion link is connected towards the one side of upper of a shoe back brace 2 is fixing on 1 with supportting before vamp, and humidity sensor 12 is arranged at before vamp in support 1 on connection Mini electric expansion link 7 on the face of expansion link mobile terminal；First pressure transducer 5 supports the front end of 1 before being arranged on vamp；Second pressure transducer 6 is arranged on the rear end of upper of a shoe back brace 2；The preset height position that mini-fan 9 adopts at least three support bars 10, is horizontally set on Mini electric expansion link 7 above motor, wherein, wherein one end of each support bar 10 is respectively fixedly connected with on the motor of Mini electric expansion link 7, the other end of each support bar 10 is respectively fixedly connected with the edge at mini-fan 9 outside framework, and the airflow direction of mini-fan 9 work is from top to bottom.Intelligent filter detection formula dehumidifying electric shoe stretcher device designed by technique scheme, design is improved for existing fillers structure, introduce intelligent filter and detect automatically controlled controlling organization, separately design the first pressure transducer 5, second pressure transducer 6, and combine concrete designed filter circuit 11, when realizing Intelligent Measurement effect, Based Intelligent Control is realized for the Mini electric expansion link 7 supportted between 1 and upper of a shoe back brace 2 before vamp, for under the extension and contraction control of expansion link on Mini electric expansion link 7, the change of 1 and the spacing of upper of a shoe back brace 2 is supportted before realizing vamp, can efficiently adapt to the shoes of various sizes；It is simultaneously based on designed humidity sensor 12, coordinate filter circuit 11 for the detection of shoes internal medium humidity, it is achieved for the intelligent work of designed mini-fan 9, while preventing shoes deformation, realize the dehumidification operation for in-shoe environment, it is possible to effectively keep the dry and comfortable of in-shoe environment.

Detect on the basis of formula dehumidifying electric shoe stretcher device technical scheme based on above-mentioned design intelligent filter, the present invention also devises following optimal technical scheme further: for mini-fan 9, it is designed with Miniature brushless motor fan further, and the motor for Mini electric expansion link 7, it is designed with brushless electric machine further, make the intelligent filter detection formula dehumidifying electric shoe stretcher device designed by the present invention in practical work process, it is capable of quiet work, both ensure that designed intelligent filter detection formula dehumidifying electric shoe stretcher utensil had efficient support effect and dehumidification function, can guarantee that again surrounding is not produced influence of noise by its work process, embody the human oriented design in design process；Also have for controlling module 3, it is designed with single-chip microcomputer further, is designed with single-chip microcomputer further, the later stage extension demand for designed intelligent filter detection formula dehumidifying electric shoe stretcher device can be applicable on the one hand, on the other hand, succinct control architecture mode can be easy to the maintenance in later stage；And for power supply 4, it is designed with button cell further, volume based on button cell, can effectively ensure that the entirety of the designed intelligent filter automatically controlled controlling organization of detection takes up room, and then can effectively ensure that the detection formula dehumidifying electric shoe stretcher device efficient support effect in the middle of actual application of designed intelligent filter.

The present invention devises intelligent filter detection formula dehumidifying electric shoe stretcher device in the middle of actual application, specifically include support 1, upper of a shoe back brace the 2, first pressure transducer the 5, second pressure transducer 6, humidity sensor 12, single-chip microcomputer before vamp and the button cell being connected respectively, Mini electric expansion link 7, control knob 8, Miniature brushless motor fan, filter circuit 11 with single-chip microcomputer；First pressure transducer the 5, second pressure transducer 6, humidity sensor 12 are connected with single-chip microcomputer respectively through filter circuit 11；Button cell is powered through single-chip microcomputer respectively Mini electric expansion link 7, control knob 8, Miniature brushless motor fan；Meanwhile, after sequentially passing through single-chip microcomputer, filter circuit 11, respectively first pressure transducer the 5, second pressure transducer 6, humidity sensor 12 are powered button cell；Upper of a shoe back brace 2 is internal arranges cavity, and single-chip microcomputer, button cell and filter circuit 11 are arranged in the cavities；Filter circuit 11 includes transport and placing device A1, transport and placing device A2 and transport and placing device A3, the in-phase input end ground connection of transport and placing device A1, the inverting input of transport and placing device A1 is sequentially connected in series resistance R3, resistance R2 and resistance R1, relatively connecting the input that the other end is filter circuit 11 of resistance R2 on resistance R1, the input of filter circuit 11 connects first pressure transducer the 5, second pressure transducer 6, humidity sensor 12 respectively；And resistance R3 is connected between transport and placing device A1 outfan and the inverting input of transport and placing device A1；The inverting input of transport and placing device A2 is connected with the inverting input of transport and placing device A1, the inverting input of transport and placing device A2 is connected with electric capacity C1, resistance R4 successively simultaneously, and ground connection, electric capacity C1 is connected between the inverting input of transport and placing device A2 and the outfan of transport and placing device A2, and the in-phase input end of transport and placing device A2 is connected with resistance R1；The in-phase input end of transport and placing device A3 is connected with electric capacity C2, and ground connection, and resistance R5 is connected between the in-phase input end of transport and placing device A3 and the in-phase input end of transport and placing device A2, the inverting input of transport and placing device A3 is connected with outfan, and the outfan that the outfan of transport and placing device A3 is filter circuit 11 connects single-chip microcomputer；Control knob 8 is arranged on the top of upper of a shoe back brace 2；The motor of Mini electric expansion link 7 is brushless electric machine, the motor of Mini electric expansion link 7 be fixedly installed on upper of a shoe back brace 2 before vamp support 1 one side on, on Mini electric expansion link 7, the mobile terminal of expansion link is connected towards the one side of upper of a shoe back brace 2 is fixing on 1 with supportting before vamp, and humidity sensor 12 is arranged at before vamp in support 1 on connection Mini electric expansion link 7 on the face of expansion link mobile terminal；First pressure transducer 5 supports the front end of 1 before being arranged on vamp；Second pressure transducer 6 is arranged on the rear end of upper of a shoe back brace 2；The preset height position that Miniature brushless motor fan adopts at least three support bars 10, is horizontally set on Mini electric expansion link 7 above motor, wherein, wherein one end of each support bar 10 is respectively fixedly connected with on the motor of Mini electric expansion link 7, the other end of each support bar 10 is respectively fixedly connected with the edge at Miniature brushless motor fan outside framework, and the airflow direction of Miniature brushless motor fan work is from top to bottom.In practical application, first designed intelligent filter detection formula dehumidifying electric shoe stretcher device is initialized, by being arranged at the control knob 8 at upper of a shoe back brace 2 top, send to single-chip microcomputer and shrink control instruction, single-chip microcomputer is sent to the Mini electric expansion link 7 being attached thereto and shrinks control instruction, the expansion link controlled on Mini electric expansion link 7 is reduced to the shortest, simultaneously, by control knob 8, control instruction is sent to single-chip microcomputer, control designed Miniature brushless motor fan quit work or keep quitting work, realize initialization operation based on this；nullIn the middle of actual application，Formula dehumidifying electric shoe stretcher device will be detected through initialized intelligent filter to be positioned in the middle of shoes，After placing，Touch the control knob 8 being arranged at upper of a shoe back brace 2 top，Sprawl and control instruction is sent to single-chip microcomputer，Single-chip microcomputer is according to the sprawl and control instruction received，Sprawl and control instruction is sent to the Mini electric expansion link 7 being attached thereto，Control the expansion link elongation on Mini electric expansion link 7，Simultaneously，1 front end is supportted before being separately positioned on vamp、First pressure transducer 5 of upper of a shoe back brace 2 rear end、Second pressure transducer 6 real time operation，Detection obtains the first pressure sensing result and the second pressure sensing result respectively，And circuit 11 is uploaded in the middle of single-chip microcomputer respectively after filtering，Wherein，Filter circuit 11 is real-time reception the first pressure sensing result and the second pressure sensing result respectively，And be filtered processing for the first pressure sensing result and the second pressure sensing result in real time respectively，Filter noise data therein respectively，Follow-up single-chip microcomputer is made to be obtained in that data more accurately，Stable data support is provided for the follow-up Based Intelligent Control for Mini electric expansion link 7，The first pressure sensing result and the second pressure sensing result respectively through Filtering Processing，Continued to send to single-chip microcomputer by filter circuit 11，Single-chip microcomputer is analyzed in real time for the first pressure sensing result received and the second pressure sensing result，And make corresponding operating in real time，Wherein，When single-chip microcomputer judges the first pressure sensing result and the second pressure sensing result is all higher than preset pressure threshold value，The Mini electric expansion link 7 that then single-chip microcomputer controls to be attached thereto immediately quits work，Namely the supporting role for shoes is achieved；Otherwise, when other any situation that single-chip microcomputer obtains for the first pressure sensing result and the judgement of the second pressure sensing result, then single-chip microcomputer does not do any further operation, keeps the elongation work of expansion link on Mini electric expansion link 7；nullWhile above-mentioned work process，Designed humidity sensor 12 real time operation，Detection obtains the Humidity Detection result in shoes internal medium，And circuit 11 is uploaded in the middle of single-chip microcomputer after filtering，Wherein，Filter circuit 11 real-time reception Humidity Detection result，And be filtered processing for Humidity Detection result in real time，Filter noise data therein，Follow-up single-chip microcomputer is made to be obtained in that data more accurately，Stable data support is provided for the follow-up Based Intelligent Control for Miniature brushless motor fan，The Humidity Detection result processed after filtering，Continued to send to single-chip microcomputer by filter circuit 11，Single-chip microcomputer is analyzed in real time for received Humidity Detection result，And make corresponding operating in real time，Wherein，When single-chip microcomputer judges Humidity Detection result more than default humidity threshold，Then single-chip microcomputer sends control instruction to the Miniature brushless motor fan being attached thereto immediately，Control Miniature brushless motor fan to start working，Due to Miniature brushless motor fan work airflow direction from top to bottom，Therefore，Produced by Miniature brushless motor fan work, air-flow constantly blows to inside shoes，Realize the dehumidification operation for shoes internal medium，Make shoes can keep dry and comfortable effect；When single-chip microcomputer judges Humidity Detection result less than or equal to default humidity threshold, then the Miniature brushless motor fan that single-chip microcomputer controls to be attached thereto immediately quits work or keeps quitting work；Corresponding with above-mentioned actual application, when designed electric shoe stretcher is taken out by needs from shoes, then according to initialized operation, first pass through the expansion link that control knob 8 controls on Mini electric expansion link 7 and be contracted to the shortest, designed electric shoe stretcher can be taken out from shoes, control Miniature brushless motor fan again through control knob 8 and quit work.

Above in conjunction with accompanying drawing, embodiments of the present invention are explained in detail, but the present invention is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, it is also possible to make a variety of changes under the premise without departing from present inventive concept.

Claims (5)

1. an intelligent filter detection formula dehumidifying electric shoe stretcher device, including supportting (1) and upper of a shoe back brace (2) before vamp；It is characterized in that: also include the first pressure transducer (5), the second pressure transducer (6), humidity sensor (12), control module (3), and the power supply (4) being connected with control module (3) respectively, Mini electric expansion link (7), control knob (8), mini-fan (9), filter circuit (11)；First pressure transducer (5), the second pressure transducer (6), humidity sensor (12) are connected with controlling module (3) respectively through filter circuit (11)；Power supply (4) is powered through control module (3) respectively Mini electric expansion link (7), control knob (8), mini-fan (9)；Meanwhile, power supply (4) sequentially passes through control module (3), respectively the first pressure transducer (5), the second pressure transducer (6), humidity sensor (12) are powered after filter circuit (11)；Upper of a shoe back brace (2) is internal arranges cavity, controls module (3), power supply (4) and filter circuit (11) and arranges in the cavities；Filter circuit (11) includes transport and placing device A1, transport and placing device A2 and transport and placing device A3, the in-phase input end ground connection of transport and placing device A1, the inverting input of transport and placing device A1 is sequentially connected in series resistance R3, resistance R2 and resistance R1, relatively connecting the input that the other end is filter circuit (11) of resistance R2 on resistance R1, the input of filter circuit (11) connects the first pressure transducer (5), the second pressure transducer (6), humidity sensor (12) respectively；And resistance R3 is connected between transport and placing device A1 outfan and the inverting input of transport and placing device A1；The inverting input of transport and placing device A2 is connected with the inverting input of transport and placing device A1, the inverting input of transport and placing device A2 is connected with electric capacity C1, resistance R4 successively simultaneously, and ground connection, electric capacity C1 is connected between the inverting input of transport and placing device A2 and the outfan of transport and placing device A2, and the in-phase input end of transport and placing device A2 is connected with resistance R1；The in-phase input end of transport and placing device A3 is connected with electric capacity C2, and ground connection, and resistance R5 is connected between the in-phase input end of transport and placing device A3 and the in-phase input end of transport and placing device A2, the inverting input of transport and placing device A3 is connected with outfan, and the outfan link control module (3) that the outfan of transport and placing device A3 is filter circuit (11)；Control knob (8) is arranged on the top of upper of a shoe back brace (2)；The motor of Mini electric expansion link (7) is fixedly installed on upper of a shoe back brace (2) before vamp and supports in the one side of (1), the mobile terminal of the upper expansion link of Mini electric expansion link (7) with support before vamp that (1) upper one side towards upper of a shoe back brace (2) is fixing to be connected, and humidity sensor (12) is arranged at before vamp on face of support (1) above connection Mini electric expansion link (7) above expansion link mobile terminal；First pressure transducer (5) supports the front end of (1) before being arranged on vamp；Second pressure transducer (6) is arranged on the rear end of upper of a shoe back brace (2)；Mini-fan (9) adopts at least three support bars (10), preset height position above the upper motor that is horizontally set on Mini electric expansion link (7), wherein, wherein one end of each support bar (10) is respectively fixedly connected with on the motor of Mini electric expansion link (7), the other end of each support bar (10) is respectively fixedly connected with the edge at mini-fan (9) outside framework, and the airflow direction that mini-fan (9) works is from top to bottom.

2. a kind of intelligent filter detects formula dehumidifying electric shoe stretcher device according to claim 1, it is characterised in that: described mini-fan (9) is Miniature brushless motor fan.

3. a kind of intelligent filter detects formula dehumidifying electric shoe stretcher device according to claim 1, it is characterised in that: the motor of described Mini electric expansion link (7) is brushless electric machine.

4. a kind of intelligent filter detects formula dehumidifying electric shoe stretcher device according to claim 1, it is characterised in that: described control module (3) is single-chip microcomputer.

5. a kind of intelligent filter detects formula dehumidifying electric shoe stretcher device according to claim 1, it is characterised in that: described power supply (4) is button cell.