CN109717818B - Dual-purpose high-efficient shoe drying device of sunny and rainy day - Google Patents

Abstract

The invention discloses an efficient shoe drying device for both sunny and rainy use, which includes a light intensity sensor, a connecting hinge, a hanging telescopic square rod, a hook, a rotating sleeve, a supporting bucket, a supporting thin rod, a supporting telescopic inner rod, and a supporting telescopic outer rod. , rotating central tube, rotating base, microcontroller processing unit, signal processor, motor, control box, device switch, power indicator light, gooseneck, hook, temperature and humidity sensor, built-in heating plate, ozone generator, heat dissipation hole. The beneficial effect of the present invention is to use a light intensity sensor to measure the direction with the highest light intensity in the drying environment, and at the same time use a temperature and humidity sensor to measure the temperature and humidity inside the shoes. When drying in a sunny environment, after processing by a signal processor, the highest humidity Rotate the shoes to the direction with the highest light intensity. Use a hanging telescopic square rod and support telescopic inner and outer rods. Use the telescopic features to adjust the height and tilt angle of the shoes when drying. When there is not enough light to dry the shoes in rainy weather, wait for the shoes to dry. After cleaning and drying the water droplets, an ozone generator and a heat sink are used to generate heat, and the heated air is transferred to the inside of the shoes through the heat dissipation holes on the hook for rapid drying. The temperature and humidity sensor used can transfer the temperature and humidity inside the shoes. In order to control the different heat values required for each hook through the microcontroller processing unit.

Description

Dual-purpose high-efficient shoe drying device of sunny and rainy day

Technical Field

The invention relates to a technology of a high-efficiency shoe airing device, in particular to a dual-purpose high-efficiency shoe airing device for sunny and rainy days, and belongs to the field of production, living and application.

Background

Shoes are daily necessities which people must use, and a pair of clean shoes are needed only when walking out. Shoes can be divided into single shoes, sandals, cotton shoes and the like according to seasons; according to materials, the shoes can be classified into cloth shoes, leather shoes, foam shoes and the like; according to the sex, men's shoes and women's shoes can be classified, in a word, with the development of modern society, the shoes types and styles used by people are numerous, and the number of shoes stored in the home is increased so as to be replaced and cleaned.

When the shoes are dirty, people can use the shoe brush to clean the shoes and then put the shoes under the sun for airing. If the sunlight is sufficient and the shoes are not too thick, the shoes can be dried in the sun about one day, but the illumination intensity is insufficient or the shoes are thick and firm in fabric, the shoes which are brushed clean are difficult to dry in a short time, and the shoe uppers can fall on dust even after the shoes are dried for a long time. In conclusion, the efficient shoe airing device for sunny and rainy days is designed.

Disclosure of Invention

The invention aims to solve the problems and provide the dual-purpose efficient shoe airing device for sunny and rainy days, which can simultaneously airing more pairs of shoes to save airing space, can quickly dry the cleaned shoes under the conditions of overcast and rainy weather or insufficient illumination intensity, and can avoid dust drop accumulation caused by overlong airing time.

The invention realizes the aim through the following technical scheme, and the dual-purpose efficient shoe airing device for sunny and rainy days comprises an illumination intensity sensor, wherein the illumination intensity sensor is positioned at the uppermost end of the device and is used for collecting illumination intensity data of an airing environment, and a rotary center circular tube connected with the illumination intensity sensor can rotate by 360 degrees; a rotating base is arranged at the bottom of the rotating center circular tube, and a rotating sleeve is arranged outside the rotating center circular tube; eight connecting hinges are uniformly arranged around the upper end of the rotary sleeve, and the other end of each connecting hinge is a hanging telescopic square rod; the hanging telescopic square rod can be telescopic into three sections, and the tail end of the hanging telescopic square rod is connected with a hook; the upper end section of the hook is a gooseneck, and a hook is arranged below the gooseneck; the tail end of the hook is connected with an ozone generator, and a temperature and humidity sensor is arranged above the ozone generator; a built-in heating sheet is arranged below the ozone generator, and a heat dissipation hole is arranged below the built-in heating sheet; eight supporting telescopic outer rods are uniformly connected to the periphery of the lower end of the rotary sleeve, and movable supporting telescopic inner rods are arranged inside the supporting telescopic outer rods; a supporting thin rod is welded above the outermost end of the supporting telescopic inner rod, and the upper end of the supporting thin rod is a supporting bucket; a control box body is arranged below the rotating base, and a motor is arranged in the control box body; a signal processor is arranged beside the motor, and a singlechip processing unit is arranged beside the signal processor; the power indicator is arranged at the outer side of the control box body, and a device switch is arranged beside the power indicator.

Preferably, in order to adapt to the size of shoes and different hanging heights, the hanging telescopic square rod is provided with three square sleeve rods with different cross-sectional areas for connection, and can be optionally telescopic to the required length.

Preferably, in order to avoid the moisture in the shoes to be vacated and stay in the support hopper for a long time, 4 narrow gaps are uniformly distributed on the inclined plane of the support hopper, and the bottom surface of the support hopper is welded with the support thin rod below.

Preferably, in order to adjust the inclination angle of the shoe hanging during airing, the supporting telescopic inner rod can be telescopic at a certain distance relative to the supporting telescopic outer rod.

Preferably, in order to ensure that multiple pairs of shoes are uniformly dried and fully and effectively illuminated under a sunny condition, the rotation center circular tube where the illumination intensity sensor is positioned can rotate 180 degrees according to illumination intensity data, and the external rotation sleeve can rotate 360 degrees.

Preferably, in order to facilitate storage and placement of the shoe airing device when not in use, a gooseneck is adopted between the hanging telescopic square rod and the hook, and the length of the gooseneck can be adjusted in 360 degrees in a bending mode.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the direction of highest light intensity in the airing environment is measured by adopting the illumination intensity sensor, meanwhile, the temperature and humidity inside the shoes are measured by adopting the temperature and humidity sensor, when the shoes are aired in a sunny environment, the shoes with highest humidity are rotated to the direction of highest light intensity after being processed by adopting the signal processor, the hanging telescopic square rods and the supporting telescopic inner and outer rods are adopted, the hanging height and the inclination angle are adjusted by utilizing the telescopic characteristics when the shoes are aired, when the shoes are not aired in a rainy day with sufficient illumination, after the shoes are cleaned and aired, the ozone generator and the cooling fins are adopted to generate heat, the heated air is transmitted into the shoes to be dried rapidly through the cooling holes on the hooks, and the temperature and humidity inside the shoes can be transmitted by adopting the temperature and humidity sensor so as to control different heat values required by each hook through the singlechip processing unit.

Drawings

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

FIG. 2 is a schematic view of the structure of the shoe-airing hanger of the present invention;

fig. 3 is a top view of the shoe airing support bucket structure of the present invention.

In the figure: 1. an illumination intensity sensor; 2. a connecting hinge; 3. suspending the telescopic square rod; 4. a hook; 5. rotating the sleeve; 6. a support bucket; 7. supporting the thin rod; 8. supporting the telescopic inner rod; 9. supporting the telescopic outer rod; 10. rotating the central circular tube; 11. a rotating base; 12 single chip microcomputer processing units; 13. a signal processor; 14. a motor; 15. a control box body; 16. a device switch; 17. a power indicator light; 18. a gooseneck; 19. a hook; 20. a temperature and humidity sensor; 21. a heating sheet is arranged in the heating sheet; 22. an ozone generator; 23. and the heat dissipation holes.

Detailed Description

The following further details the technical solutions in the embodiments of the present invention in conjunction with the drawings and the specific implementation manner in the embodiments of the present invention:

referring to fig. 1-3, a dual-purpose efficient shoe airing device for sunny and rainy days comprises an illumination intensity sensor 1, wherein the illumination intensity sensor 1 is positioned at the uppermost end of the device and is used for collecting illumination intensity data of an airing environment, and a rotary center circular tube 10 connected with the illumination intensity sensor can rotate by 360 degrees; a rotary base 11 is arranged at the bottom of the rotary center circular tube 10, and a rotary sleeve 5 is arranged outside the rotary center circular tube 10; eight connecting hinges 2 are uniformly arranged around the upper end of the rotary sleeve 5, and the other end of each connecting hinge 2 is provided with a hanging telescopic square rod 3; the hanging telescopic square rod 3 can be telescopic into three sections, and the tail end of the hanging telescopic square rod 3 is connected with a hook 4; the upper end of the hook 4 is provided with a gooseneck 18, and a hook 19 is arranged below the gooseneck 18; the tail end of the hook 19 is connected with an ozone generator 22, and a temperature and humidity sensor 20 is arranged above the ozone generator 22; a built-in heating sheet 21 is arranged below the ozone generator 22, and a heat dissipation hole 23 is arranged below the built-in heating sheet 21; eight supporting telescopic outer rods 9 are uniformly connected to the periphery of the lower end of the rotary sleeve 5, and movable supporting telescopic inner rods 8 are arranged inside the supporting telescopic outer rods 9; a supporting thin rod 7 is welded above the outermost end of the supporting telescopic inner rod 8, and the upper end of the supporting thin rod 7 is provided with a supporting bucket 6; a control box body 15 is arranged below the rotating base 11, and a motor 14 is arranged in the control box body 15; a signal processor 13 is arranged beside the motor 14, and a singlechip processing unit 12 is arranged beside the signal processor 13. The outside of the control box body 15 is provided with a power indicator lamp 17, and a device switch 16 is arranged beside the power indicator lamp 17.

Preferably, in order to adapt to the size of shoes and different hanging heights, the hanging telescopic square rod 3 is provided with three square loop rod connections with different cross-sectional areas, and can be telescopic to the required length at will.

Preferably, in order to avoid the moisture in the shoes from being vacated and staying in the support hopper 6 for a long time, 4 narrow gaps are uniformly distributed on the inclined surface of the support hopper 6, and the bottom surface of the support hopper is welded with the support thin rod 7 below.

Preferably, in order to adjust the inclination angle of the shoe hanging during airing, the supporting telescopic inner rod 8 can be telescopic at a certain distance relative to the supporting telescopic outer rod 9.

Preferably, in order to ensure that multiple pairs of shoes are uniformly dried and fully and effectively illuminated under a sunny condition, the rotation center circular tube 10 where the illumination intensity sensor 1 is positioned can rotate 180 degrees according to illumination intensity data, and the outer rotation sleeve 5 can rotate 360 degrees.

Preferably, in order to facilitate the storage and placement of the shoe airing device when not in use, a gooseneck 18 is adopted between the hanging telescopic square rod 3 and the hook 19, and the length of the gooseneck 18 is ensured to be capable of being adjusted by 360 degrees in a bending way.

The invention is mainly used in sunny days and rainy days, when the sunny days are sufficient in illumination, temperature and humidity data of each shoe are collected through the temperature and humidity sensor 20 in the hook 4, the data are transmitted to the singlechip processing unit 12 by the signal processor 13, the rotating sleeve 5 drives each hook 4 to rotate, and the shoes with the lowest dryness are rotated to the direction with the strongest illumination in turn. When the illumination of overcast and rainy weather is weak, the device switch 16 is turned on, the power indicator 17 is turned on, the air is heated by the built-in heating sheets 21 in the structure of the hook 4, the heated air flow is conveyed to the inside of the shoes through the heat dissipation holes 23, the temperature and humidity sensor 20 in the structure of the hook 4 can collect temperature and humidity data of the inside of each shoe, the built-in heating sheets 21 are adjusted by the singlechip processing unit 12, and different heating temperatures are set so as to achieve the aim of drying the shoes.

It will be apparent to those skilled in the art that the present invention is not limited to the above-described exemplary embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Furthermore, the description is given in terms of structural features, but this description is for clarity only, and those skilled in the art should consider the description as a whole, and the technical solutions in the embodiments may also be combined to form other embodiments that can be understood by those skilled in the art.

Claims (4)

1. The utility model provides a dual-purpose high-efficient shoe drying device of sunny and rainy day, includes illumination intensity sensor (1), illumination intensity sensor (1) are located at the device top and are responsible for gathering the illumination intensity data of sunning environment, and the rotation center pipe (10) that illumination intensity sensor connects can 360 rotations; a rotary base (11) is arranged at the bottom of the rotary center circular tube (10), and a rotary sleeve (5) is arranged outside the rotary center circular tube (10); eight connecting hinges (2) are uniformly arranged around the upper end of the rotary sleeve (5), and the other end of each connecting hinge (2) is provided with a hanging telescopic square rod (3); the hanging telescopic square rod (3) can be telescopic into three sections, and the tail end of the hanging telescopic square rod (3) is connected with a hook (4); a gooseneck (18) is arranged at one section of the upper end of the hook (4), and a hook (19) is arranged below the gooseneck (18); the tail end of the hook (19) is connected with an ozone generator (22), and a temperature and humidity sensor (20) is arranged above the ozone generator (22); a built-in heating sheet (21) is arranged below the ozone generator (22), and a heat dissipation hole (23) is arranged below the built-in heating sheet (21); eight supporting telescopic outer rods (9) are uniformly connected to the periphery of the lower end of the rotary sleeve (5), and movable supporting telescopic inner rods (8) are arranged inside the supporting telescopic outer rods (9); a supporting thin rod (7) is welded above the outermost end of the supporting telescopic inner rod (8), and the upper end of the supporting thin rod (7) is a supporting bucket (6); a control box body (15) is arranged below the rotating base (11), and a motor (14) is arranged in the control box body (15); a signal processor (13) is arranged beside the motor (14), and a singlechip processing unit (12) is arranged beside the signal processor (13); a power indicator lamp (17) is arranged on the outer side of the control box body (15), and a device switch (16) is arranged beside the power indicator lamp (17); in order to adapt to the size and different hanging heights of shoes, the hanging telescopic square rod (3) is provided with three square loop bars with different cross-sectional areas for connection, and can be telescopic to the required length at will; in order to avoid the inside moisture of shoes vacate and stay in support fill (6) for a long time, support fill (6) inclined plane evenly distributed 4 narrow and small gaps, just support the bottom surface of fill (6) and the welding of support slim pole (7) below.

2. The dual-purpose efficient shoe drying device for sunny and rainy days according to claim 1, wherein: in order to adjust the inclination angle of the shoe hanging during airing, the supporting telescopic inner rod (8) can stretch and retract a certain distance relative to the supporting telescopic outer rod (9).

3. The dual-purpose efficient shoe drying device for sunny and rainy days according to claim 1, wherein: in order to ensure that multiple pairs of shoes are evenly dried and fully and effectively illuminated under a sunny condition, a rotating center circular tube (10) where the illumination intensity sensor (1) is positioned can rotate 180 degrees according to illumination intensity data, and the rotating sleeve (5) can rotate 360 degrees.

4. The dual-purpose efficient shoe drying device for sunny and rainy days according to claim 1, wherein: for the shoe airing device is convenient to store and place when not in use, a gooseneck (18) is adopted between the hanging telescopic square rod (3) and the hook (19), and the length of the gooseneck (18) can be adjusted in a 360-degree bending mode.