CN213910114U - Device for sterilizing soles - Google Patents

Abstract

The utility model relates to the technical field of disinfection and sterilization, in particular to a device for disinfecting soles, which comprises a disinfection shoe box, wherein an electric rolling brush is rotatably connected on the disinfection shoe box, a dust collecting box is arranged in the disinfection shoe box and below the electric rolling brush, a disinfection aerosol generating chamber is arranged below the dust collecting box, an open water tank is arranged in the disinfection aerosol generating chamber, an ultrasonic atomizer is arranged in the open water tank, and an ozone generator is arranged above the open water tank; and a blowing fan is arranged on the side surface of the electric rolling brush in the disinfection shoe box, and the blowing direction of the blowing fan faces the direction of the sole. Aim at the utility model discloses can clear up the spot of sole through electronic round brush is automatic, ozone and aqueous phase "dissolve" production disinfection aerial fog simultaneously, disinfect to the sole, can disinfect the germ of sole on the one hand, on the other hand also can prevent the diffusion of sole germ.

Description

Device for sterilizing soles

Technical Field

The utility model belongs to the technical field of the disinfection disappears and kills, concretely relates to sterile device of sole.

Background

Viruses and germs are easily adhered to the surfaces of objects such as soles, clothes and the like, so that the risk of secondary transmission is increased; hog cholera virus (foreign name: Hogcholera virus, Swine river virus) is the pathogen of hog cholera, and harms pigs and wild pigs, and the outbreak of hog cholera virus is caused by the pathogen which flows through personnel in breeding places to a large extent and stains the surfaces of soles or clothes, so that the comprehensive disinfection of related parts, especially soles, is the basis for well doing epidemic prevention work.

At present, although a sole can be sterilized by adopting a pure chemical disinfectant, the chemical disinfectant has strong smell and is not suitable for people sensitive to the smell, and the smell generated by the chemical disinfectant also has certain damage to human bodies; patent 201811078695.X also discloses a foot-operated turnover type cleaning method applied to cleaning and decontaminating soles, which can decontaminate and clean soles, but the device cannot be driven electrically, needs to be manually trodden each time, is inconvenient in operation mode, and has different cleaning effects; there is also patent 201921813334.5 which discloses a visual intelligent shoe cabinet, but the shoe is taken off and put in the cabinet to sterilize the sole, and the sterilization is only by the irradiation of ultraviolet lamp, the sterilization time is long, and the condition of quick use cannot be satisfied.

Disclosure of Invention

In order to rapidly sterilize and disinfect the sole in the environment of normal use, germs cannot be brought to other areas through the sole. The utility model provides a device for sterilizing soles.

The utility model adopts the technical proposal that: the shoe sterilizing device comprises a sterilizing shoe box, wherein an electric rolling brush is rotatably connected to the sterilizing shoe box, a dust collecting box is arranged in the sterilizing shoe box and below the electric rolling brush, a sterilizing aerosol generating chamber is arranged below the dust collecting box, an open water tank is arranged in the sterilizing aerosol generating chamber, an ultrasonic atomizer is arranged in the open water tank, and an ozone generator is arranged above the open water tank; and a blowing fan is arranged on the side surface of the electric rolling brush in the disinfection shoe box, the air channel of the blowing fan is communicated with the disinfection aerosol generating chamber, and the blowing direction of the blowing fan faces the direction of the sole.

Preferably, the disinfection aerosol generating chamber is also provided with a photocatalysis net and an 185/254nm dual-band ultraviolet lamp tube, and the photocatalysis net and the 185/254nm dual-band ultraviolet lamp tube are positioned above the open water tank and cover the whole open; the device comprises a light degradation chamber, a disinfection aerosol generation chamber, two blowing fans, a 254nm single-waveband ultraviolet lamp tube, a light degradation chamber, a disinfection aerosol generation chamber, a blowing fan, a disinfection aerosol generation chamber, a light degradation chamber and a blowing fan, wherein the two blowing fans are symmetrically arranged, the blowing fans are located in the light degradation chamber, the light degradation chamber is communicated with the disinfection aerosol generation chamber, and the light degradation chamber is internally provided with the 254nm single-waveband ultraviolet lamp tube.

Preferably, a first air suction fan is arranged on the lower side of the photodegradation bin.

Preferably, air mixing chambers are arranged below the electric rolling brush and above the disinfection aerosol generating chamber, the air mixing chambers are communicated with the disinfection aerosol generating chamber, the dust collecting box is arranged above the air mixing chambers and communicated with the air mixing chambers, a second air suction fan is arranged below the dust collecting box, and the aperture of the upper surface of the dust collecting box is larger than that of the lower surface of the dust collecting box; the wind power of the blowing fan is greater than that of the second suction fan.

Preferably, an air-uniformizing grid support is arranged between the second air suction fan and the dust collection box, and the second air suction fan covers the whole dust collection box.

Preferably, the water tank is provided with a water inlet and a water outlet, the water inlet is arranged at the upper end of the water tank, the water outlet is arranged at the lower end of the water tank, and valves are arranged at the positions of the water inlet and the water outlet.

Preferably, the brush on the electric rolling brush is a hard brush or a foam sponge.

The utility model discloses an useful part lies in: 1) the utility model can automatically clean the stains on the sole through the electric rolling brush, and simultaneously, the ozone and the water are dissolved to generate disinfection aerosol to disinfect the sole, so that on one hand, the germs on the sole can be disinfected, and on the other hand, the germs on the sole can be prevented from being diffused; 2) the utility model discloses an ozone, photocatalysis net and ultraviolet lamp shine and constitute disinfection system for ozone produces the hydroxyl through the degradation freely certainly, disappears to pollutant and germ and kills, does not adopt chemical disinfectant, has avoided secondary pollution.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1-disinfection shoe box, 2-electric rolling brush, 3-air-homogenizing grid support, 4-air mixing chamber, 5-185/254nm dual-band ultraviolet lamp tube, 6-photocatalysis net, 7-water inlet, 8-ultrasonic atomizer, 9-254nm single-band ultraviolet lamp tube, 10-blowing fan, 11-photodegradation bin, 12-dust collection box, 13-second suction fan, 14-ozone generator, 15-water tank, 16-water outlet, 17-first suction fan.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model is suitable for an include but not only be limited to local uses such as biological infection high risk area, office area, hospital, public place, plant, when needs leave this place, can disinfect to the sole earlier, perhaps disinfect to the sole when getting into this place, avoid carrying and the diffusion of germ.

The molecular structure of ozone is unstable at normal temperature and normal pressure, the ozone is quickly decomposed into oxygen and single oxygen atoms, the single oxygen atom has strong activity and strong oxidizing capability, and can directly act on bacteria, viruses and volatile organic gases to play a role in sterilization, and the ozone disinfectant is a green disinfectant, the sterilization effect of ozone water can be enhanced by using hydroxyl radicals generated in the process of dissolving ozone in water, the oxidation potential of the hydroxyl radicals is 2.80eV, and is only 2.87eV after fluorine, and the ozone disinfectant has strong oxidizing property, and water vapor can generate the hydroxyl radicals under the synergistic effect of an ultraviolet lamp and a photocatalytic network. Therefore, the utility model discloses an ozone, photocatalysis net and ultraviolet lamp have constituteed the disinfection system that need not add disinfectant or germicide, the utility model discloses a disinfection system has environmental protection, does not have advantages such as chemical residue.

As figure 1 is the schematic structure, including disinfection shoes box 1, rotate on the disinfection shoes box 1 and connect electronic round brush 2, the brush on the electronic round brush 2 can be for the brush among the prior art, the utility model discloses well preferred stereoplasm brush or foam sponge, during the use, the user will directly place the foot on electronic round brush 2 can, the switch can be set for manual switch, also can be through infrared inductor inductive switch.

The dust collecting box 12 is arranged in the disinfection shoe box 1 and below the electric rolling brush 2, the dust of the sole can be collected into the dust collecting box 12 through the continuous rotation of the electric rolling brush 2, the aperture of the upper surface of the dust collecting box 12 can be set as required, and if larger dirt exists in the environment where the disinfection shoe box 1 is placed, the aperture of the upper surface of the dust collecting box 12 can be correspondingly set to be larger.

A disinfection aerosol generating chamber is arranged below the dust collecting box 12, an open water tank 15 is arranged in the disinfection aerosol generating chamber, an ultrasonic atomizer 8 is arranged in the open water tank 15, an ozone generator 14 is arranged above the open water tank 15, water mist is generated by the ultrasonic atomizer 8, and after being mixed with generated ozone, the disinfection aerosol is formed to kill germs on the sole; the side that is located electronic round brush 2 in disinfection shoes box 1 is provided with blowing fan 10, blowing fan 10's wind channel and disinfection aerial fog room intercommunication, blowing fan 10 operation back can send the disinfection aerial fog that disinfection aerial fog room produced to the sole department of treating the disinfection, blowing fan 10's the direction of blowing is towards the sole direction, and blowing fan 10's the direction of blowing outwards bloies for the inside from disinfection shoes box 1, and towards the direction of sole, carries out comprehensive sterilization to user's sole.

The disinfection aerosol generating chamber is also provided with a photocatalysis net 6 and an 185/254nm dual-band ultraviolet lamp tube 5, the photocatalysis net 6 and the 185/254nm dual-band ultraviolet lamp tube 5 are positioned above the open water tank 15 and cover the whole open, more ozone can be excited to be generated through the photocatalysis net 6 and the 185/254nm dual-band ultraviolet lamp tube 5, and therefore the sterilizing capacity of the disinfection aerosol is improved; the blowing fan 10 is symmetrically arranged into two, the blowing fan 10 is positioned in the photodegradation bin 11, the photodegradation bin 11 is communicated with the disinfection aerosol generation chamber, the 254nm single-waveband ultraviolet lamp tube 9 is arranged in the photodegradation bin 11, and when the disinfection aerosol passes through the photodegradation bin 11, the 254nm single-waveband ultraviolet lamp tube 9 can degrade ozone into a large amount of active hydroxyl radicals and active oxygen atoms, so that the disinfection and sterilization capacity can be enhanced.

The lower side of the photodegradation bin 11 is provided with a first air suction fan 17. First air suction fan 17 can constantly inhale the produced disinfection aerial fog in the room is taken place to disinfection aerial fog and in light degradation room 11, degrades ozone through 254nm single band ultraviolet ray fluorescent tube 9, also can avoid leaking of ozone, causes the secondary pollution of environment.

A gas mixing chamber 4 is arranged below the electric rolling brush 2 and above the disinfection aerosol generating chamber, the gas mixing chamber 4 is communicated with the disinfection aerosol generating chamber, the dust collecting box 12 is arranged above the gas mixing chamber 4 and is communicated with the gas mixing chamber 4, a second air suction fan 13 is arranged below the dust collecting box 12, and the aperture of the upper surface of the dust collecting box 12 is larger than that of the lower surface; the blowing fan 10 has a wind power greater than that of the second suction fan 13. It can be understood that the second air suction fan 13 sucks the dust and the polluted air of the sole into the dust collection box 12, the dust is collected by the dust collection box 12, the polluted air enters the air mixing chamber 4 and is mixed with the disinfection aerosol, the disinfection aerosol can sterilize the polluted air, the processed clean air flows through the first air suction fan 17 and the photocatalysis chamber 11 again, and is blown to the sole from the air blowing fan 10 to sterilize the sole, so that the circulating disinfection aerosol is formed.

An air-uniformizing grid support 3 is arranged between the second air suction fan 13 and the dust collection box 12, and the second air suction fan 13 covers the whole dust collection box 12. The second air intake fan 13 and the air-uniformizing grille holder 3 can uniformly blow the air generated by the second air intake fan 13 into the air-mixing chamber 4, and can perform mixing sterilization with the sterilizing gas mist.

The water tank 15 is provided with a water inlet 7 and a water outlet 6, the water inlet 7 is arranged at the upper end of the water tank 15, the water outlet 6 is arranged at the lower end of the water tank 15, and valves are arranged at the positions of the water inlet 7 and the water outlet 6. The water tank 15 can be replenished with water through the water inlet 7, and when the water tank is not required to be used, water can be discharged outwards through the water outlet 6.

The specific working mode is as follows: with whole device circular telegram, when the user placed shoes on electronic round brush 2, open through hand switch's mode or infrared induction's mode, the automatic disinfection aerial fog that produces this moment disinfects user's sole to dust and dirt on the user's sole are absorbed to dust collection box 12 in through electronic round brush 2.

In the embodiment, 50g of simulated pollutants prepared by adding 15% of carbon black and 10% of culture solution (the ratio of white staphylococcus, staphylococcus aureus, escherichia coli and H1N1 virus components is 1: 1: 1: 1) into 75% of kaolin by mass percent, and 10g of pollutants are coated on a sole; starting the device to simulate cleaning of the sole for 2 minutes, and finally, carrying out statistical evaluation on the sole cleaning effect and the sterilization effect.

The following examples and comparative examples are provided, respectively:

example 1: by adopting the device of the utility model, the electric rolling brush 2 is a soft brush;

example 2: by adopting the device of the utility model, the electric rolling brush 2 is a hard brush;

example 3: by adopting the device of the utility model, the electric rolling brush 2 is foam sponge;

comparative example 1: the device and the conditions described in example 1 were not used for carrying out experiments, and the sole cleaning effect and the sterilization effect were statistically evaluated;

comparative example 2: carrying out experiments by using common sole cleaning equipment 1 on the market, and carrying out statistical evaluation on the sole cleaning effect and the sterilization effect;

comparative example 3: carrying out experiments by using common sole cleaning equipment 2 on the market, and carrying out statistical evaluation on the sole cleaning effect and the sterilization effect;

comparative example 4: carrying out experiments by using common sole cleaning equipment 3 on the market, and carrying out statistical evaluation on the sole cleaning effect and the sterilization effect;

comparative example 5: an experiment was conducted using the apparatus and conditions described in example 1, except that only the structure of the electric roll brush 2 was removed;

comparative example 6: the experiment was carried out using the apparatus and conditions described in example 1, with only the internal ultrasonic atomizer 8 switched off;

comparative example 7: an experiment was performed using the apparatus and conditions described in example 1, with only the internal ozone generator 14 turned off.

The experimental results are as follows:

the comparison example shows that the hard brush and the foam sponge have the best cleaning effect on the sole, the sterilization effect also reaches a higher level, and the whole effect is the best.

Comparative example 1 the device is not adopted, only sampling is carried out for analysis, the cleaning rate of the sole is 0, and bacteria and viruses have certain natural decay rate and can be used as background contrast of the embodiment; the comparative examples 2, 3 and 4 adopt three different types of common sole cleaning equipment in the market to carry out experiments, so that the cleaning effects of the three types of common sole cleaning equipment on soles are different, and the sterilization effect is relatively low; comparative example 5 the structure of the electric rolling brush 2 is removed, the equipment can not effectively clean the sole, and the sterilization effect is correspondingly poor; comparative example 6 only closing the interior and closing the interior ultrasonic atomizer 8, so that the interior of the device can not generate water mist ultrasonically, free oxygen and hydroxyl free radicals can not be effectively excited, the disinfection and sterilization effect is poor, and simultaneously, the sole cleaning ability is slightly reduced due to the reduction of the humidity; comparative example 7 the internal ozone generator 14 was turned off and a large amount of ozone, a bactericidal basic active substance, could not be generated, and the sterilizing and purifying effects were greatly reduced.

The above embodiments are preferred embodiments, it should be noted that the above preferred embodiments should not be considered as limitations of the present invention, and the scope of the present invention should be limited by the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the spirit and scope of the invention, and such modifications and enhancements are intended to be within the scope of the invention.

Claims (7)

1. A device for sole disinfection, comprising a disinfection shoe box (1), characterized in that: the disinfection shoe box (1) is rotatably connected with an electric rolling brush (2), a dust collection box (12) is arranged in the disinfection shoe box (1) and below the electric rolling brush (2), a disinfection aerosol generating chamber is arranged below the dust collection box (12), an open water tank (15) is arranged in the disinfection aerosol generating chamber, an ultrasonic atomizer (8) is arranged in the open water tank (15), and an ozone generator (14) is arranged above the open water tank (15); the sterilizing shoe box is characterized in that a blowing fan (10) is arranged in the sterilizing shoe box (1) and on the side face of the electric rolling brush (2), an air channel of the blowing fan (10) is communicated with the sterilizing aerosol generating chamber, and the blowing direction of the blowing fan (10) faces the direction of the sole.

2. The apparatus for sterilizing shoe soles according to claim 1, characterized in that: the disinfection aerosol generating chamber is also provided with a photocatalysis net (6) and an 185/254nm dual-band ultraviolet light lamp tube (5), and the photocatalysis net (6) and the 185/254nm dual-band ultraviolet light lamp tube (5) are positioned above the open water tank (15) and cover the whole opening; the device is characterized in that the blowing fans (10) are symmetrically arranged into two, the blowing fans (10) are positioned in the photodegradation bin (11), the photodegradation bin (11) is communicated with the disinfection aerosol generation chamber, and a 254nm single-waveband ultraviolet lamp tube (9) is arranged in the photodegradation bin (11).

3. The apparatus for sterilizing shoe soles according to claim 2, characterized in that: and a first air suction fan (17) is arranged on the lower side of the photodegradation bin (11).

4. The apparatus for sterilizing shoe soles according to claim 1, characterized in that: a gas mixing chamber (4) is arranged below the electric rolling brush (2) and above the disinfection gas fog generating chamber, the gas mixing chamber (4) is communicated with the disinfection gas fog generating chamber, the dust collecting box (12) is arranged above the gas mixing chamber (4) and is communicated with the gas mixing chamber (4), a second air suction fan (13) is arranged below the dust collecting box (12), and the aperture of the upper surface of the dust collecting box (12) is larger than that of the lower surface; the wind power of the blowing fan (10) is greater than that of the second suction fan (13).

5. The device for sterilizing shoe soles according to claim 4, characterized in that: a uniform air grid support (3) is arranged between the second air suction fan (13) and the dust collection box (12), and the second air suction fan (13) covers the whole dust collection box (12).

6. The apparatus for sterilizing shoe soles according to claim 1, characterized in that: the water tank (15) is provided with a water inlet (7) and a water outlet (16), the water inlet (7) is arranged at the upper end of the water tank (15), the water outlet (16) is arranged at the lower end of the water tank (15), and valves are arranged at the water inlet (7) and the water outlet (16).

7. The apparatus for sterilizing shoe soles according to claim 1, characterized in that: the brush on the electric rolling brush (2) is a hard brush or foam sponge.

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