CN204318690U - A kind of portable shoe drier - Google Patents

Abstract

The utility model discloses a kind of portable shoe drier, comprise housing, charging connector, phosphoric acid ferripotassium batteries, control device, carbon fiber heating device, ventilation unit and silica gel drying device; Described housing comprises heel, metacarpus and connector, and heel, metacarpus are slidably connected by connector, and connector is provided with and glide direction perforation in the same way; Described charging connector is arranged on hull outside and is connected with control device, and phosphoric acid ferripotassium batteries, carbon fiber heating device, ventilation unit are all arranged on enclosure interior and are connected with control device; Described carbon fiber heating device comprises carbon fiber heating tube and radiant panel, be arranged in parallel in the concave panel that carbon fiber heating tube is arranged on radiant panel with housing bottom surface; Described ventilation unit comprises interconnective hollow-cup motor and electric fan; Be filled with some silica gel particles in described silica gel drying device and be arranged on the front end of enclosure interior.The chargeable use of the utility model, cruising time is grown and is easy to carry.

Description

A kind of portable shoe drier

Technical field

The utility model relates to consumer goods industries, specifically refers to a kind of portable shoe drier.

Background technology

It is healthy that the moist shoes of dress can cause human body discomfort to be also unfavorable for, uses shoe drier can be moist and without the problem of replacing in quick solution footwear.But traditional shoe drier needs just can carry out work by power line direct-electrifying, is not suitable for the situation such as open air or power failure; The common batteries that existing rechargeable shoe drier adopts, power consumption is fast, and service life is short.Therefore, needing to provide a kind of portable shoe drier, when using for a long time without when direct Power supply, can meet again the requirement be convenient for carrying.

Utility model content

The purpose of this utility model is to provide a kind of portable shoe drier, and charging is grown and is convenient for carrying afterwards cruising time.

The utility model is achieved through the following technical solutions: a kind of portable shoe drier, comprises housing, charging connector, phosphoric acid ferripotassium batteries, control device, carbon fiber heating device, ventilation unit and silica gel drying device; Described housing comprises heel, metacarpus and connector, and heel, metacarpus are slidably connected by connector, and connector is provided with and glide direction perforation in the same way; Described charging connector is arranged on hull outside and is connected with control device, and phosphoric acid ferripotassium batteries, carbon fiber heating device, ventilation unit are all arranged on enclosure interior and are connected with control device; Described carbon fiber heating device comprises carbon fiber heating tube and radiant panel, be arranged in parallel in the concave panel that carbon fiber heating tube is arranged on radiant panel with housing bottom surface; Described ventilation unit comprises interconnective hollow-cup motor and electric fan; Be filled with some silica gel particles in described silica gel drying device and be arranged on the front end of enclosure interior.

In the utility model, control device is connected with charging connector, phosphoric acid ferripotassium batteries, carbon fiber heating device and ventilation unit respectively: on the one hand, can either power directly to carbon fiber heating device or ventilation unit after charging connector connects straight charging source, can be again phosphoric acid ferripotassium battery charging; On the other hand, can power to carbon fiber heating device or ventilation unit after phosphoric acid ferripotassium batteries storage of electrical energy.When phosphoric acid ferripotassium batteries is to carbon fiber heating device or ventilation unit powered operation, shoe drier, without the need to connecting power supply, is convenient for carrying to open air use, even if also can carry out the operation of baking footwear when having a power failure.Described phosphoric acid ferripotassium batteries comprises at least one joint phosphoric acid ferripotassium battery, and the charge capacity of its battery is large, and cruising time is long, more adapts to the demand of going on a long journey.

The utility model middle shell comprises heel, metacarpus and connector, and heel, metacarpus are slidably connected by connector, and connector is provided with and glide direction perforation in the same way.Described connector makes the distance between heel and metacarpus adjustable: on the one hand, is convenient to shoe drier and adjusts according to different footwear type, different footwear code; On the other hand, be convenient to shoe drier vacant time storage, reduce to take up room.Described perforation is used for wiring, connect heel, between metacarpus the connecting line unification of each parts through perforation, can the distortion of available protecting connecting line, lose, to extend its service life.

In the utility model, carbon fiber heating device comprises carbon fiber heating tube and radiant panel, be arranged in parallel in the concave panel that carbon fiber heating tube is arranged on radiant panel with housing bottom surface.In footwear, moist main region is the position that sole or heel contact with shoe-pad, by the working face of carbon fiber heating tube towards this region, is conducive to the transmission of heat, improves drying efficiency.Described carbon fiber heating tube has features such as heating up rapidly, thermo-lag is little, heating is even, radiant heat transfer distance, rate of heat exchange are fast, carbon fiber heating tube is used to heat, its electric conversion efficiency, up to more than 98%, saves electric energy, extends the cruising time of shoe drier.

In the utility model, ventilation unit comprises interconnective hollow-cup motor and electric fan.The electric fan of configuration hollow-cup motor when carbon fiber heating device works, can carry out thermal cycle, and auxiliary heat air-flow carries steam and leaves.Meanwhile, the peculiar smell produced in footwear also can be discharged rapidly by thermal cycle.Described hollow-cup motor has outstanding energy conservation characteristic, sensitive control characteristic easily and stable operation characteristic, is high efficiency energy conversion device, uses the electric fan of configuration hollow-cup motor to save electric energy, extends the cruising time of shoe drier.

Be filled with some silica gel particles in silica gel drying device in the utility model and be arranged on the front end of enclosure interior.Because toe-cap space is less, easily there is heater and footwear body apart from too small and cause the situation of burning.Therefore, the dehumidifying of toe-cap inside does not adopt and directly arranges heater, and relies on the heat radiation around carbon fiber heating device and silica gel particle water suction acting in conjunction.Silica gel particle has good water imbibition, also need not can carry out absorption dehumidifying, and silica gel particle is pollution-free and cheap, can regularly replace at shoe drier during electricity work.

Further, described carbon fiber heating device comprises metacarpus heater and heel heater, and metacarpus heater is arranged on the below of ventilation unit, and heel heater is arranged on the below of phosphoric acid ferripotassium batteries; In described metacarpus heater, the two-way setting of carbon fiber heating tube, is distributed in radiant panel upper and lower surface; The unidirectional setting of carbon fiber heating tube in described heel heater, is only arranged on the side of radiant panel towards housing bottom surface.

Described carbon fiber heating device comprises metacarpus heater and heel heater, and metacarpus heater is arranged on the below of ventilation unit, and heel heater is arranged on the below of phosphoric acid ferripotassium batteries.According to the characteristic distributions of humidity in footwear and the movement characteristic of hot-air, make the groundwork of heater facing to the bottom surface in footwear, and the upper sheaf space in footwear is conducted heat by hot-air, improves dry footwear efficiency, save electric energy.In described metacarpus heater, the two-way setting of carbon fiber heating tube, is distributed in radiant panel upper and lower surface; The unidirectional setting of carbon fiber heating tube in described heel heater, is only arranged on the side of radiant panel towards housing bottom surface.In footwear, the space of sole part is comparatively large, and it is inner to be positioned at footwear body, and ventilation effect is poorer than heel, so metacarpus heater adopts two-way setting, upper and lower surface toasts simultaneously; In footwear, heel ventilation effect is good, and the top of heel heater is batteries, and the temperature of batteries can not be too high, so heel heater adopts downward unidirectional setting.

Further, described connector comprises the fixture and slider bar that are slidably connected, and fixture two sections is separately fixed at inside heel and metacarpus.Fixture and slider bar coordinate, and be convenient to metacarpus, heel is slidably connected by connector.

Further, described housing also comprises heat dissipation ventilation mouth, switch and charging socket, and heat dissipation ventilation mouth is arranged on housing, and switch and charging socket are all arranged on the top of heel outer surface and are connected with control device; Described charging connector is connected with control device by charging socket.

Further, described heat dissipation ventilation mouth comprises multiple strip through-hole dispersing distribution.

Further, the working face of described electric fan and carbon fiber heating device working face are oblique angle α, 0 ° of < α < 90 °.

Working face and the carbon fiber heating device working face of described electric fan are oblique angle α, and the heat being beneficial to the wind drive carbon fiber heating device generation that electric fan produces moves to footwear external body.

Further, described control device comprises the control panel of hull outside and is fixed on the control box of housing inner top surface, and control panel is connected by data wire with control box; Described control box is connected with charging connector, phosphoric acid ferripotassium batteries, control device, carbon fiber heating device, ventilation unit respectively.

The setting of described control panel can be convenient to the moisture conditions of user according to footwear, and the dry footwear time etc. carries out personalization and regulates.User, by after setup parameter input control panel, controls the operation of shoe drier according to setup parameter with control box.

Further, described control device also comprises control chip, protection circuit chip, power adjusting chip and timing chip, and control chip, protection circuit chip, power adjusting chip, timing chip are all arranged in control box; Described power adjusting chip comprises power adjusting chip A and power adjusting chip B, and timing chip comprises timing chip A and timing chip B; Described control chip regulates with protection circuit chip, power adjusting respectively, timing chip is connected; Described phosphoric acid ferripotassium batteries, protection circuit chip, control chip connect successively; Described carbon fiber heating device is connected with power adjusting chip A, timing chip A respectively; Described ventilation unit is connected with power adjusting chip B, timing chip B respectively.

User can according to demand, the parameters such as sets itself carbon fiber heating device or ventilation unit power separately, time.The setting of described protection circuit chip effectively can prevent the super-charge super-discharge of phosphoric acid ferripotassium batteries, extends the service life of batteries.

Further, described control device also comprises temperature sensor and humidity sensor, and temperature sensor and humidity sensor fit in the surface of shell respectively and be all connected with control chip.

In the utility model, the setting of temperature sensor and humidity sensor can gather temperature, the humidity parameter in footwear, and feed back to control chip, control chip can start or stop shoe drier voluntarily according to setup parameter, while ensureing its duty, prevents waste of energy.

The utility model compared with prior art, has the following advantages and beneficial effect:

(1) the phosphoric acid ferripotassium batteries charge capacity arranged in the utility model is large, and the carbon fiber heating device electric conversion efficiency of setting is high, and the ventilation unit configuration hollow-cup motor of setting, makes the cruising time of shoe drier entirety long, more adapt to the demand of going on a long journey.

(2) heel of the utility model housing and metacarpus carry out telescopic slidingtype connection by connector, not only facilitate adjustment but also be easy to carry or receive.

(3) the utility model is rational in infrastructure, stable performance, and operating efficiency is high.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is structure principle chart of the present utility model.

Fig. 3 is the structural representation of the utility model housing.

Fig. 4 is the isometric views of metacarpus heater in the utility model.

Fig. 5 is the axonometric drawing of facing upward of metacarpus heater in the utility model.

Fig. 6 is the isometric views of heel heater in the utility model.

Fig. 7 is that in the utility model, ventilation unit working face and metacarpus heater working face are the structural representation of oblique angle α.

Wherein: 1-housing, 11-heel, 12-metacarpus, 13-connector, 14-heat dissipation ventilation mouth, 15-switch, 16-charging socket, 2-charging connector, 3-phosphoric acid ferripotassium batteries, 4-control device, 5-carbon fiber heating device, 51-carbon fiber heating tube, 52-radiant panel, 6-ventilation unit, 7-silica gel drying device.

Detailed description of the invention

Below in conjunction with embodiment, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

Embodiment 1:

The portable shoe drier of one of the present embodiment, as shown in Figure 1 and Figure 2, mainly be achieved through the following technical solutions: a kind of portable shoe drier, comprise housing 1, charging connector 2, phosphoric acid ferripotassium batteries 3, control device 4, carbon fiber heating device 5, ventilation unit 6 and silica gel drying device 7; Described housing 1 comprises heel 11, metacarpus 12 and connector 13, and heel 11, metacarpus 12 are slidably connected by connector 13, and connector 13 is provided with and glide direction perforation in the same way; Described charging connector 2 is arranged on housing 1 outside and is connected with control device 4, and phosphoric acid ferripotassium batteries 3, carbon fiber heating device 5, ventilation unit 6 are all arranged on housing 1 inside and are connected with control device 4; Described carbon fiber heating device 5 comprises carbon fiber heating tube 51 and radiant panel 52, be arranged in parallel in the concave panel that carbon fiber heating tube 51 is arranged on radiant panel 52 with housing 1 bottom surface; Described ventilation unit 6 comprises interconnective hollow-cup motor and electric fan; Be filled with some silica gel particles in described silica gel drying device 7 and be arranged on the front end of housing 1 inside.

In the utility model, control device 4 is connected with charging connector 2, phosphoric acid ferripotassium batteries 3, carbon fiber heating device 5 and ventilation unit 6 respectively: on the one hand, can either power directly to carbon fiber heating device 5 or ventilation unit 6 after charging connector 2 connects straight charging source, can charge for phosphoric acid ferripotassium batteries 3 again; On the other hand, can power to carbon fiber heating device 5 or ventilation unit 6 after phosphoric acid ferripotassium batteries 3 storage of electrical energy.When phosphoric acid ferripotassium batteries 3 is to carbon fiber heating device 5 or ventilation unit 6 powered operation, shoe drier, without the need to connecting power supply, is convenient for carrying to open air use, even if also can carry out the operation of baking footwear when having a power failure.Described phosphoric acid ferripotassium batteries 3 comprises at least one joint phosphoric acid ferripotassium battery, and the charge capacity of its battery is large, and cruising time is long, more adapts to the demand of going on a long journey.

The utility model middle shell 1 comprises heel 11, metacarpus 12 and connector 13, and heel 11, metacarpus 12 are slidably connected by connector 13, and connector 13 is provided with and glide direction perforation in the same way.Described connector 13 makes the distance between heel 11 and metacarpus 12 adjustable: on the one hand, is convenient to shoe drier and adjusts according to different footwear type, different footwear code; On the other hand, be convenient to shoe drier vacant time storage, reduce to take up room.Described perforation is used for wiring, connect heel 11, between metacarpus 12 the connecting line unification of each parts through perforation, can the distortion of available protecting connecting line, lose, to extend its service life.

In the utility model, carbon fiber heating device 5 comprises carbon fiber heating tube 51 and radiant panel 52, be arranged in parallel in the concave panel that carbon fiber heating tube 51 is arranged on radiant panel 52 with housing 1 bottom surface.In footwear, moist main region is the position that sole or heel contact with shoe-pad, by the working face of carbon fiber heating tube 51 towards this region, is conducive to the transmission of heat, improves drying efficiency.Described carbon fiber heating tube 51 has features such as heating up rapidly, thermo-lag is little, heating is even, radiant heat transfer distance, rate of heat exchange are fast, carbon fiber heating tube 51 is used to heat, its electric conversion efficiency, up to more than 98%, saves electric energy, extends the cruising time of shoe drier.

In the utility model, ventilation unit 6 comprises interconnective hollow-cup motor and electric fan.The electric fan of configuration hollow-cup motor can when carbon fiber heating device 5 works, and carry out thermal cycle, auxiliary heat air-flow carries steam and leaves.Meanwhile, the peculiar smell produced in footwear also can be discharged rapidly by thermal cycle.Described hollow-cup motor has outstanding energy conservation characteristic, sensitive control characteristic easily and stable operation characteristic, is high efficiency energy conversion device, uses the electric fan of configuration hollow-cup motor to save electric energy, extends the cruising time of shoe drier.

Be filled with some silica gel particles in silica gel drying device 7 in the utility model and be arranged on the front end of housing 1 inside.Because toe-cap space is less, easily there is heater and footwear body apart from too small and cause the situation of burning.Therefore, the dehumidifying of toe-cap inside does not adopt and directly arranges heater, and relies on the heat radiation around carbon fiber heating device 5 and silica gel particle water suction acting in conjunction.Silica gel particle has good water imbibition, also need not can carry out absorption dehumidifying, and silica gel particle is pollution-free and cheap, can regularly replace at shoe drier during electricity work.

Embodiment 2:

The present embodiment does further optimization on above-described embodiment basis, as shown in Figure 1, further, described carbon fiber heating device 5 comprises metacarpus heater and heel heater, metacarpus heater is arranged on the below of ventilation unit 6, and heel heater is arranged on the below of phosphoric acid ferripotassium batteries 3; The two-way setting of carbon fiber heating tube 51 in described metacarpus heater, is distributed in radiant panel 52 upper and lower surface; The unidirectional setting of carbon fiber heating tube 51 in described heel heater, is only arranged on the side of radiant panel 52 towards housing 1 bottom surface.

As shown in Figure 1, described carbon fiber heating device 5 comprises metacarpus heater and heel heater, and metacarpus heater is arranged on the below of ventilation unit 6, and heel heater is arranged on the below of phosphoric acid ferripotassium batteries 3.According to the characteristic distributions of humidity in footwear and the movement characteristic of hot-air, make the groundwork of heater facing to the bottom surface in footwear, and the upper sheaf space in footwear is conducted heat by hot-air, improves dry footwear efficiency, save electric energy.The two-way setting of carbon fiber heating tube 51 in described metacarpus heater, is distributed in radiant panel 52 upper and lower surface; The unidirectional setting of carbon fiber heating tube 51 in described heel heater, is only arranged on the side of radiant panel 52 towards housing 1 bottom surface.As shown in Figure 4, Figure 5, in footwear, the space of foot palm part 12 points is comparatively large, and it is inner to be positioned at footwear body, and ventilation effect is poorer than heel 11, so metacarpus heater adopts two-way setting, upper and lower surface toasts simultaneously; As shown in Fig. 1, Fig. 6, in footwear, heel 11 ventilation effect is good, and the top of heel heater is batteries, and the temperature of batteries can not be too high, so heel heater adopts downward unidirectional setting.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 3:

The present embodiment does further optimization on above-described embodiment basis, and further, described connector 13 comprises the fixture and slider bar that are slidably connected, and fixture two sections is separately fixed at inside heel 11 and metacarpus 12.Fixture and slider bar coordinate, and be convenient to metacarpus 12, heel 11 is slidably connected by connector 13.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 4:

The present embodiment does further optimization on above-described embodiment basis, as shown in Figure 3, further, described housing 1 also comprises heat dissipation ventilation mouth 14, switch 15 and charging socket 16, heat dissipation ventilation mouth 14 is arranged on housing 1, and switch 15 and charging socket 16 are all arranged on the top of heel 11 outer surface and are connected with control device 4; Described charging connector 2 is connected with control device 4 by charging socket 16.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 5:

The present embodiment does further optimization on above-described embodiment basis, and as shown in Figure 3, further, described heat dissipation ventilation mouth 14 comprises multiple strip through-hole dispersing distribution.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 6:

The present embodiment does further optimization on above-described embodiment basis, and as shown in Figure 7, further, working face and carbon fiber heating device 5 working face of described electric fan are oblique angle α, 0 ° of < α < 90 °.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 7:

The present embodiment does further optimization on above-described embodiment basis, and as shown in Figure 1, further, described control device 4 comprises the control panel of housing 1 outside and is fixed on the control box of housing 1 inner top surface, and control panel is connected by data wire with control box; Described control box is connected with charging connector 2, phosphoric acid ferripotassium batteries 3, control device 4, carbon fiber heating device 5, ventilation unit 6 respectively.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 8:

The present embodiment does further optimization on above-described embodiment basis, further, described control device 4 also comprises control chip, protection circuit chip, power adjusting chip and timing chip, and control chip, protection circuit chip, power adjusting chip, timing chip are all arranged in control box; Described power adjusting chip comprises power adjusting chip A and power adjusting chip B, and timing chip comprises timing chip A and timing chip B; Described control chip regulates with protection circuit chip, power adjusting respectively, timing chip is connected; Described phosphoric acid ferripotassium batteries 3, protection circuit chip, control chip connect successively; Described carbon fiber heating device 5 is connected with power adjusting chip A, timing chip A respectively; Described ventilation unit 6 is connected with power adjusting chip B, timing chip B respectively.User can according to demand, sets itself carbon fiber heating device 5 or the respective parameter such as power, time of ventilation unit 6.The setting of described protection circuit chip effectively can prevent the super-charge super-discharge of phosphoric acid ferripotassium batteries 3, extends the service life of batteries.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

Embodiment 9:

The present embodiment does further optimization on above-described embodiment basis, and further, described control device 4 also comprises temperature sensor and humidity sensor, and temperature sensor and humidity sensor fit in the surface of shell respectively and be all connected with control chip.Other parts of the present embodiment are same as the previously described embodiments, therefore repeat no more.

The above; it is only preferred embodiment of the present utility model; not do any pro forma restriction to the utility model, every any simple modification, equivalent variations done above embodiment according to technical spirit of the present utility model, all falls within protection domain of the present utility model.

Claims (9)

1. a portable shoe drier, is characterized in that: comprise housing (1), charging connector (2), phosphoric acid ferripotassium batteries (3), control device (4), carbon fiber heating device (5), ventilation unit (6) and silica gel drying device (7); Described housing (1) comprises heel (11), metacarpus (12) and connector (13), and heel (11), metacarpus (12) are slidably connected by connector (13), and connector (13) is provided with and glide direction perforation in the same way; Described charging connector (2) is arranged on housing (1) outside and is connected with control device (4), and phosphoric acid ferripotassium batteries (3), carbon fiber heating device (5), ventilation unit (6) are all arranged on housing (1) inside and are connected with control device (4); Described carbon fiber heating device (5) comprises carbon fiber heating tube (51) and radiant panel (52), be arranged in parallel in the concave panel that carbon fiber heating tube (51) is arranged on radiant panel (52) with housing (1) bottom surface; Described ventilation unit (6) comprises interconnective hollow-cup motor and electric fan; Be filled with some silica gel particles in described silica gel drying device (7) and be arranged on the inner front end of housing (1).

2. the portable shoe drier of one according to claim 1, it is characterized in that: described carbon fiber heating device (5) comprises metacarpus heater and heel heater, metacarpus heater is arranged on the below of ventilation unit (6), and heel heater is arranged on the below of phosphoric acid ferripotassium batteries; Carbon fiber heating tube (51) two-way setting in described metacarpus heater, is distributed in radiant panel (52) upper and lower surface; Carbon fiber heating tube (51) unidirectional setting in described heel heater, is only arranged on the side of radiant panel (52) towards housing (1) bottom surface.

3. the portable shoe drier of one according to claim 1, is characterized in that: described connector (13) comprises the fixture and slider bar that are slidably connected, and fixture two sections is separately fixed at heel (11) and metacarpus (12) inner side.

4. the portable shoe drier of one according to claim 1, it is characterized in that: described housing (1) also comprises heat dissipation ventilation mouth (14), switch (15) and charging socket (16), heat dissipation ventilation mouth (14) is arranged on housing (1), and switch (15) and charging socket (16) are all arranged on the top of heel (11) outer surface and are connected with control device (4); Described charging connector (2) is connected with control device (4) by charging socket (16).

5. the portable shoe drier of one according to claim 4, is characterized in that: described heat dissipation ventilation mouth (14) comprises multiple strip through-hole dispersing distribution.

6. the portable shoe drier of one according to claim 1, is characterized in that: the working face of described electric fan and carbon fiber heating device (5) working face are oblique angle α, 0 ° of < α < 90 °.

7. the portable shoe drier of the one according to claim 1-6 any one, it is characterized in that: described control device (4) comprises the outside control panel of housing (1) and is fixed on the control box of housing (1) inner top surface, and control panel is connected by data wire with control box; Described control box is connected with charging connector (2), phosphoric acid ferripotassium batteries (3), control device (4), carbon fiber heating device (5), ventilation unit (6) respectively.

8. the portable shoe drier of one according to claim 7, it is characterized in that: described control device (4) also comprises control chip, protection circuit chip, power adjusting chip and timing chip, control chip, protection circuit chip, power adjusting chip, timing chip are all arranged in control box; Described power adjusting chip comprises power adjusting chip A and power adjusting chip B, and timing chip comprises timing chip A and timing chip B; Described control chip regulates with protection circuit chip, power adjusting respectively, timing chip is connected; Described phosphoric acid ferripotassium batteries (3), protection circuit chip, control chip connect successively; Described carbon fiber heating device (5) is connected with power adjusting chip A, timing chip A respectively; Described ventilation unit (6) is connected with power adjusting chip B, timing chip B respectively.

9. the portable shoe drier of one according to claim 8, is characterized in that: described control device (4) also comprises temperature sensor and humidity sensor, and temperature sensor and humidity sensor fit in the surface of shell respectively and be all connected with control chip.