CN215652773U - Sole disinfection equipment - Google Patents

Abstract

The utility model is suitable for the technical field of sterilization and disinfection, and provides sole sterilization and disinfection equipment, which comprises a box body and at least one UVC ultraviolet lamp, wherein an open slot is formed in the upper end of the box body, the UVC ultraviolet lamp is arranged on the inner wall of the open slot and/or the bottom of the slot, a shoe is treaded into the open slot, and a heel pedal for lifting the sole of the shoe is arranged at the bottom of the open slot. Therefore, the shoe sole can be sterilized and disinfected, and simultaneously, the human body is effectively prevented from being exposed to ultraviolet radiation, so that the ultraviolet radiation is prevented from directly irradiating eyes.

Description

Sole disinfection equipment

Technical Field

The utility model relates to the technical field of sterilization and disinfection, in particular to sole sterilization and disinfection equipment.

Background

In 2020, the severe influence of the new coronavirus Covid-19 on various layers of the human society is proved, and how to effectively prevent the virus from spreading is proved, and the experts make various researches. In 7 months 2020, a research article entitled "Aerosol and Surface Distribution of Server administration research and synergy Central Structure 2in Hospital Wards" was published by a medical research team in the academic journal of New Infectious Diseases 26 of the center for disease control and prevention (CDC) in the United states. The research team detects virus specimens on various objects in an Intensive Care Unit (ICU) of a hospital, aiming to find a high pollution source which is ignored by people in the ward. As a result, half of the soles of medical staff can detect the new coronavirus. Researchers believe that there is a good chance that the virus will spread through the soles of medical personnel and therefore the researchers have expressed in the paper "We high recommency and that the viruses in the shoes have been washed out of the wards relating COVID-19 properties" (We strongly suggest that the soles of shoes should be disinfected before leaving the ward of the COVID-19 patient).

More studies have shown that new coronavirus, in addition to its buoyant character in air, can be attached to surrounding environmental facilities and objects for long periods of time. Therefore, when people come back in a place infected with a new coronavirus, their soles, which are objects directly contacting the ground, are necessary to be sterilized to protect the safety of others in the construction facilities they are about to enter.

Since the middle of the twentieth century, ultraviolet Germicidal Irradiation of UVGI (Ultra-Violet Germicidal Irradiation) has become a recognized practice and is widely used in medical health and aseptic workplaces. UVGI uses short-wave ultraviolet C band (UVC) radiation to destroy cellular nucleic acids and destroy their DNA to kill or reduce microbial activity, to achieve the function of killing germ cells, which has also been shown to be effective in killing new corona viruses. Therefore, UVC ultraviolet disinfection lamps are provided in many hospitals and public places at present, a plurality of UVC ultraviolet disinfection lamps are also provided in the home market, and the current bank is further provided with safe disinfection coins with the UVC ultraviolet disinfection lamps. However, for safety reasons, these UVC uv disinfection lamps must be turned on after the person leaves.

Improper use of UVC ultraviolet radiation can cause irreversible damage to the human body. Ultraviolet radiation can kill human cells and virus cells simultaneously, and the human body can cause acute and chronic health effects on skin, eyes, immune system and the like after being exposed to the ultraviolet radiation for a long time. UVC, one of the ultraviolet categories, is more likely to cause skin burns and is more severely associated with various degrees of mutation or carcinogenesis in human cells; the international organization for the world health organization to study cancer classified all classes of ultraviolet radiation as class 1 carcinogens on day 4/13 of 2011. This is the highest grade carcinogen recognized, meaning "there is insufficient evidence to exclude the possibility that it will be carcinogenic to humans". In addition, if the eye is exposed to UVC uv radiation, it can cause irritation of the cornea of the eye, short or long term visual impairment, and even blindness.

The ultraviolet C-band is the shortest wavelength, highest energy, most dangerous ultraviolet radiation. Thus, an apparatus that uses UVC uv to kill viral cells must minimize the exposure time and intensity of the human body to uv radiation, and must also minimize the exposure of the eye to uv radiation. This safety concern is particularly relevant for applications of UVC ultraviolet light in public or multi-person environments.

The conventional patent document (publication number: CN202724291U) discloses a handheld LED ultraviolet germicidal lamp, which is formed by opening a slot on the outer wall of an aluminum bar, inserting an ultraviolet LED light bar into the slot, and arranging a handle at the other end of the aluminum bar, so that a user can hold the aluminum bar by hand, open the LED light bar, move the aluminum bar to the vicinity of an object, and irradiate ultraviolet rays on the object, thereby achieving the purpose of sterilization. However, the prior art is not suitable for use in the public or private areas of human beings because of the severe damage to human skin and eyes caused by direct exposure to ultraviolet radiation, particularly in the public or private areas of many people, where the patented technology is not effective in protecting other people present from direct exposure to ultraviolet radiation.

As can be seen, the conventional method has many problems in practical use, and therefore, needs to be improved.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks, the present invention provides a shoe sole disinfection apparatus, which effectively reduces the intensity of the human body exposed to the ultraviolet radiation and simultaneously effectively prevents the eyes from being exposed to the ultraviolet radiation.

In order to achieve the purpose, the utility model provides a sole disinfection and sterilization device which comprises a box body and at least one UVC (ultraviolet C band) ultraviolet lamp, wherein an open slot is formed in the upper end of the box body, the UVC ultraviolet lamp is arranged on the inner wall of the open slot and/or the bottom of the slot, a shoe is treaded into the open slot, and a heel pedal for lifting the sole of the shoe is arranged at the bottom of the open slot.

Optionally, the UVC ultraviolet lamp is a UVC-LED lamp.

According to the sole disinfection and sterilization equipment, the UVC-LED lamps are transversely distributed on the inner wall of the open slot.

Optionally, the irradiation angle of the UVC ultraviolet lamp is adjusted to cover a preset area; the preset area is an area where the sole is stepped into the open slot.

Optionally, the UVC ultraviolet lamp is disposed on the inner wall, and at least one angle shielding sheet is disposed at an upper edge of the UVC ultraviolet lamp, where the angle shielding sheet shields an irradiation light of the UVC ultraviolet lamp so as to cover an irradiation angle of the UVC ultraviolet lamp to a preset area; the preset area is an area where the sole is stepped into the open slot.

Optionally, the notch of the open slot and the horizontal plane form an inclined shape, and the heel pedal is arranged at the inclined lower edge of the open slot.

According to the sole disinfection and sterilization equipment, the edge of the open slot is formed by at least one coaming, and the inner surface of the coaming is used for shielding ultraviolet light of the UVC ultraviolet lamp from irradiating the outside of the box body.

Optionally, the shoe protection device further comprises a control unit and at least one sensor for detecting the shoe treaded into the open slot, wherein the control unit is respectively connected with the sensor and the UVC ultraviolet lamp, and is used for respectively turning on or turning off the UVC ultraviolet lamp when the shoe treaded into or leaving the open slot is detected.

Optionally, the disinfection device further comprises a timing device and a prompting device, the timing device and the prompting device are connected with the control unit, the timing device is used for automatically timing according to preset disinfection time after the control unit starts the UVC ultraviolet lamp, and the prompting device is used for generating a disinfection end prompting message when the timing device finishes timing.

According to the sole disinfection and sterilization equipment, the timing device is connected with a digital display screen, and the digital display screen is arranged on the surface of the box body and used for displaying the timing time of the timing device in real time; and/or

The prompting device is an audio prompting device and/or a visual display device.

Optionally, the electronic device is provided with a password switch, and the electronic device is connected with the control unit in a wired or wireless manner and is used for controlling the power switch of the UVC ultraviolet lamp; and/or

The rechargeable battery module also comprises a rechargeable first battery module and/or a detachable second battery module.

Optionally, a support rod for supporting the sole is installed in the open slot.

Optionally, a drying device for drying the shoe sole is further arranged in the open slot; and/or at least one drainage outlet is arranged on two sides of the heel pedal.

According to the sole disinfection and sterilization equipment, through the installation of the UVC ultraviolet rays in the open slot of the box body, people step shoes into the open slot, and ultraviolet rays are irradiated on soles transversely or from bottom to top by using the UVC ultraviolet lamps; can effectively reduce the intensity of human bodies exposed in the ultraviolet radiation, and simultaneously effectively avoid the chance that eyes are exposed in the ultraviolet radiation. The device of the patent is a hands-free device, and does not cause virus propagation under the condition of being used by a plurality of people, so the device can be placed at the entrance and exit of public or private building facilities, and the sole sterilization is carried out by utilizing UVC ultraviolet radiation.

Drawings

FIG. 1 is a schematic perspective view of a sole disinfection apparatus according to an embodiment of the present invention;

FIG. 2 is a side perspective view of the apparatus for sterilizing and disinfecting shoe soles according to an embodiment of the present invention;

FIG. 3 is a schematic view of the internal structure of the shoe sole sterilizing apparatus according to one embodiment of the present invention;

FIG. 4 is a side sectional view of the apparatus for sterilizing and disinfecting shoe soles according to an embodiment of the present invention;

FIG. 5 is a top view of the sole sterilization device according to one embodiment of the present invention;

FIG. 6 is a schematic structural view of the UVC ultraviolet lamp irradiation of the sole sterilization equipment according to one embodiment of the present invention;

FIG. 7 is a side perspective view of the apparatus for sterilizing shoe soles according to one embodiment of the present invention in use.

Detailed Description

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

It should be noted that references in the specification to "one embodiment," "an example embodiment," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not intended to refer to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Moreover, where certain terms are used throughout the description and following claims to refer to particular components or features, those skilled in the art will understand that manufacturers may refer to a component or feature by different names or terms. This specification and the claims that follow do not intend to distinguish between components or features that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. In addition, the term "connected" as used herein includes any direct and indirect electrical connection. Indirect electrical connection means include connection by other means.

Fig. 1 to 5 show a shoe sole sterilizing and disinfecting apparatus according to an embodiment of the present invention, which includes a box body 10 and at least one UVC ultraviolet lamp 20, wherein an open slot 101 is formed at an upper end of the box body 10, and in an embodiment, the UVC ultraviolet lamp 20 is disposed on an inner wall of the open slot 101; of course, in other embodiments, the UVC uv lamp 20 may also be disposed at the bottom of the open slot 101, or the UVC uv lamp 20 may be disposed on the inner wall of the open slot and the bottom of the slot; wherein, the open slot 101 is used for the shoes to step in and the slot bottom of open slot 101 is equipped with the heel footboard 102 that is used for lifting the sole of shoes. The opening size of the open channel 101 is preferably adapted to most shoe sizes in order to be adapted to more users. As shown in fig. 2, when the shoe sole is used, a user steps the shoe into the open slot, steps the heel of the shoe on the heel pedal 102, and raises the heel by the heel pedal 102, so that the shoe upper and the bottom of the slot are hollow, and the UVC ultraviolet lamp 20 can irradiate the shoe sole on the side surface or the bottom surface of the open slot 101, and sterilize and disinfect the shoe upper by using the UVC ultraviolet light.

The device can safely use UVC ultraviolet radiation to sterilize soles in public or multi-person environments, can effectively reduce the intensity of human bodies exposed to the ultraviolet radiation, and avoids the chance of eyes exposed to the ultraviolet radiation. Meanwhile, the device is a hands-free device, so that virus cannot be spread when the device is used by a plurality of people, and the device can be placed at an entrance and an exit of public or private building facilities and is used for sterilizing soles by UVC ultraviolet radiation.

In this embodiment, the UVC ultraviolet lamp 101 is a UVC-LED lamp, that is, the UVC ultraviolet lamp is a short-wave ultraviolet C-band LED ultraviolet lamp. A plurality of the UVC-LED lamps are transversely distributed on an inner wall of the open groove 101. In a specific implementation, a plurality of UVC-LED lamps are uniformly distributed on the inner side wall of the open slot 101 and the heel pedal 102, and emit UVC ultraviolet rays at a transverse angle; the LED ultraviolet rays are emitted to the sole from four directions of the front end and two sides of the groove in the box 10 and the side surface of the heel pedal 102, the maximum range can be covered by the emission angle, dead angles covered by light rays are avoided as much as possible, and the sole can be covered by the ultraviolet radiation in the maximum range. Published studies have shown that UVC ultraviolet radiation, at wavelengths between 200-280nm through the atmosphere, kills genetic material in humans and viral cells, rendering it incapable of further proliferation. The UVC-LED lamps used in the open slots 101 of the cassette 10 of the present apparatus are capable of producing UVC radiation doses consistent with sterilization and disinfection.

UVC ultraviolet rays are easily absorbed by partial metal, plastic or glass materials; therefore, the UVC-LED lamp device of the embodiment is arranged at the side of the open slot 101, not arranged at the bottom of the open slot, and directly radiates from bottom to top, so that damage caused by shoes stepping on the UVC-LED lamp can be avoided, and plastic or glass sheets covering the UVC-LED lamp can also be avoided.

In one embodiment, the irradiation angle of the UVC uv lamp 20 is adjusted to cover a preset area; the preset area is an area where the sole is stepped into the open slot 101. That is, the irradiation angle of the UVC ultraviolet lamp 20 is adjusted to cover the preset area, so that the shoe sole can be irradiated by ultraviolet light when the shoe is stepped into the open slot 101, and the ultraviolet light is prevented from being diffused to the outside.

Referring to fig. 6, in another embodiment, optionally, the UVC uv lamp 20 is disposed on the inner wall, and at least one angle shielding sheet 21 is disposed at an upper edge of the UVC uv lamp 20, wherein the angle shielding sheet 21 shields the irradiation light of the UVC uv lamp 20 so as to cover the irradiation angle of the UVC uv lamp 20 to a preset area; wherein the preset area is the area where the sole is stepped into the open slot 101. The angle shielding sheet 21 is made of a non-permeable material and is arranged at the upper edge of the UVC-LED lamp to block the upward diffusion angle of ultraviolet light; as shown, the UVC-LED lamp is installed on an inner sidewall of the open groove 101, and a part of an irradiation angle of the UVC-LED lamp is blocked by the angle shielding sheet 21 at an upper edge thereof, thereby limiting the irradiation angle of the UVC-LED lamp within a preset range to avoid a risk of ultraviolet light diffusing to the outside of the case 10.

The irradiation angle of the UVC ultraviolet lamp 20 can be adjusted by selecting a UVC-LED lamp with a proper irradiation angle; at least one angle shielding sheet 21 is arranged at the upper edge of the UVC-LED lamp, and the irradiation light of the UVC-LED lamp is shielded by the angle shielding sheet 21 so as to cover the irradiation angle of the UVC-LED lamp to a preset area.

Preferably, the edge of the open slot 101 is formed by at least one enclosing plate, and the inner surface of the enclosing plate is used for shielding the ultraviolet light of the UVC ultraviolet lamp from irradiating the box body. The inside of the open slot 101 is in a semi-closed cavity structure through the coaming; the opening groove 101 of the present embodiment is formed by surrounding a plurality of enclosing plates, and the enclosing plates around the box 10 are used for shielding ultraviolet rays from irradiating the outside of the box 10, so as to prevent the ultraviolet rays from directly irradiating users and surrounding people as much as possible; at the same time, because the properties of UVC ultraviolet light are readily absorbed by objects surfaces such as shoes and box materials, the intensity of UVC ultraviolet radiation that can be reflected outside the box can be substantially reduced. In specific implementation, the inner wall of the open slot 101 is in a dome-like shape, but may be in other semi-closed cavity structures. That is, the enclosing plate of the present embodiment forms a dome-like structure to cover and block ultraviolet rays inside the open groove 101 to prevent ultraviolet rays generated inside from being emitted to the outside of the case 10.

Namely, the device can select a UVC ultraviolet lamp 20 with a proper radiation angle or control the coverage angle of light rays through an angle shielding sheet 21 of ultraviolet light rays, so that the UVC ultraviolet light rays irradiate towards the soles and the interior of the box body 10; meanwhile, the enclosing plate of the box body 10 is used for shielding other ultraviolet rays which are not shielded by the shoes.

As shown in fig. 2, the notch of the opening slot 101 is inclined from the horizontal plane, and the heel pedal 102 is disposed at the inclined lower edge of the opening slot 101. A user steps shoes into the open slot, so that a heel of the shoe is stepped on the heel pedal 102, the vamp and the bottom of the open slot 101 are hollowed out, and ultraviolet light is transversely emitted by UVC-LED lamps on the inner wall of the open slot 101 to irradiate the sole surface with ultraviolet light; the inclined open slot 101 is convenient for a user to put shoes worn on feet into the slot; the user needs to raise the toe slightly to allow the sole to be placed in the box at an upward bevel. In specific implementation, the UVC-LED lamps are transversely arranged, and the irradiation angle is slightly adjusted upwards, so that ultraviolet rays generated in the sterilization and disinfection process all act on the sole surface.

Preferably, the shoe cleaning device further comprises a control unit and at least one sensor for detecting the shoes 200 treaded into the open slot, wherein the control unit is respectively connected with the sensor and the UVC ultraviolet lamps 20 and is used for respectively starting or stopping the UVC ultraviolet lamps 20 when detecting that the shoes 200 are treaded into or leave the open slot 101. The control unit of this embodiment is a main control circuit board 105, the main control circuit board 105 is connected to the sensor and the UVC ultraviolet lamp 20, and controls the UVC ultraviolet lamp 20 to perform corresponding functions, such as turning on, turning off, or enhancing and weakening ultraviolet light, according to a sensing signal detected by the sensor; the sensor can be arranged inside the open slot 101, the sensor can be an infrared sensor, a pressure sensor or an ultrasonic sensor, and the like, referring to fig. 4, in this embodiment, the infrared sensor 108 is preferably adopted, the infrared sensor 108 is arranged on the inner wall of the open slot 101 to be used for measuring the treading or leaving of the shoe 200 in or from the open slot 101 by sensing infrared rays radiated by a target and utilizing the physical property of the infrared rays, so that a corresponding sensing signal is generated and sent to the control unit, and the control unit controls the UVC ultraviolet lamp 20 to execute a corresponding function according to the received sensing signal, thereby realizing the automatic working function of the sole disinfection and sterilization device, avoiding manual contact, and reducing the risk of infection of bacteria and viruses.

After the power of the equipment is turned on, the equipment starts to operate; in this embodiment, a system for controlling an LED ultraviolet lamp by an infrared inductive switch system is provided, in which an infrared sensor is disposed at the front end of an open slot 101 of a box 10 to emit infrared light at a transverse angle, and detect whether an object is present in the open slot 101; before the infrared induction is not started, the UVC-LED lamp is kept closed; when a user puts shoes into the range of the grooves in the box, the infrared induction is started, and the UVC-LED lamps are turned on by the system to sterilize and disinfect the soles. Of course, in other embodiments, an induction system not limited to infrared induction, pressure induction, ultrasonic induction and the like is provided as a front trigger induction device of the UVC-LED lamp, and the UVC-LED lamp is triggered to turn on only when a shoe or other object to be disinfected and sterilized is stepped into the open slot 101; and triggers the UVC-LED lamps to turn off when shoes or other articles to be disinfected leave the open slot 101.

Preferably, the disinfection device further comprises a timing device and a prompting device, wherein the timing device and the prompting device are connected with the control unit, the timing device is used for automatically timing according to preset disinfection time after the control unit starts the UVC ultraviolet lamp 20, and the prompting device is used for generating a disinfection ending prompting message when the timing device finishes timing. The timing device is connected with a digital display screen 103, and the digital display screen 103 is arranged on the surface of the box body 10 and used for displaying the timing time of the timing device in real time; and/or the prompting device is an audio prompting device and/or a visual display device.

In specific implementation, when the infrared induction is started, the system starts the timing device; simultaneously prompting the user that the ultraviolet disinfection and sterilization program is in progress through a prompting device, wherein the prompting device can comprise a sound and/or visual display device; the timing device performs timing according to the time preset by the system or the time set by the user, the system turns off the LED ultraviolet lamp after the completion of the timing, and prompts to display that the disinfection and sterilization program is completed.

In the whole sole sterilization and disinfection process, a user does not need to contact equipment, the hands-free function is achieved, and the propagation of bacteria and viruses under the condition of contact of multiple people is avoided; the safety of use has been promoted.

In one embodiment, an electronic device having a combination switch is included, and is wired or wirelessly connected to the control unit for controlling the power switch 104 of the UVC uv lamp 20. In order to avoid the children from touching the infrared sensor by mistake during playing, the electronic device with a password switch is added in the embodiment, and the electronic device can control the power switch 104 of the UVC ultraviolet lamp 20 of the sole disinfection and sterilization equipment in a wired or wireless transmission mode.

Referring to fig. 7, in one embodiment, a support rod 109 for supporting the shoe sole is installed in the open groove 101. The supporting rod 109 can be fixedly installed in the open slot 101 or detachably installed in the open slot 101, and the supporting rod 109 is vertically erected for supporting the shoe when the user steps the shoe into the open slot; and simultaneously, the upward oblique angle placing angle of the shoe is fixed. Since the support rods 109 block the areas of the sole that contact with the shoe, so that the ultraviolet light cannot cover the areas, the present embodiment requires the user to move the shoe after the first disinfection, and perform the second disinfection to expose the areas of the sole that cannot be covered before the ultraviolet light irradiates. In the embodiment, the UVC ultraviolet lamp is arranged at the front end of the heel pedal 102, and irradiates the sole from the rear end, so that the ultraviolet ray coverage angle and range are increased.

In one embodiment, a drying device for drying the shoe sole is further arranged in the open slot 101. The drying device has a heating function, so that a user can dry the water shoes after wetting the water shoes, and the sterilization and drying effects are achieved.

Furthermore, at least one drainage outlet is arranged on two sides of the heel pedal 102 of the embodiment; the drain outlet is provided at the lower edge of the inclined open groove 101, thereby preventing accumulation in the apparatus. In other embodiments, the drainage outlet may be disposed below the heel plate 102 or at the bottom of the open slot 101. Or a drain hole may be provided at the bottom of the open groove 101 to drain contaminated water from the bottom of the groove during the drying process of the shoes.

In one embodiment, a first rechargeable battery module 106 is also included; other embodiments also include a second removable battery module; when the first rechargeable battery module 106 or the second detachable battery module is used, an alternating current wire is not required to be connected, and the first rechargeable battery module or the second detachable battery module is convenient to move to an entrance and an exit of a building facility for use. The charging port 107 of the first battery module 106 is provided on the outer surface of the cartridge 10, and an external power source can charge the first battery module 106 through the charging port 107.

The equipment can be applied to the access & exit of various occasions and used, such as public places like district, hospital, asylum for the aged, market, office building, school, etc., or can also be applied to the access & exit of family and used. The device may also be used in many other applications, including but not limited to in a residential or public multi-person environment where people go out to disinfect clothing, hats, purses, handbags, cell phones, and other objects that are potentially at risk of viral infection.

In conclusion, the sole disinfection and sterilization equipment disclosed by the utility model has the advantages that through the installation of the UVC ultraviolet rays in the open slot of the box body, people step shoes into the open slot, and ultraviolet rays are irradiated on soles transversely or from bottom to top by utilizing the UVC ultraviolet rays; can effectively reduce the intensity of human bodies exposed in the ultraviolet radiation, and simultaneously effectively avoid the chance that eyes are exposed in the ultraviolet radiation. The equipment of this patent is a hand-free device, can not cause the virus to spread under the condition that many people used, can place in house or public many people's environment, disinfects the disinfection to the sole of the shoes that the user wore safely effectively, can also avoid LED's ultraviolet radiation direct irradiation to cause the injury to human body and eyes simultaneously.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (13)

1. The utility model provides a sole disinfection and isolation equipment, its characterized in that, including box body and an at least UVC ultraviolet lamp, the upper end of box body is equipped with an open slot, the UVC ultraviolet lamp is located on the inner wall of open slot and/or the tank bottom portion, the open slot is used for shoes to step into just the tank bottom portion of open slot is equipped with and is used for the lifting the heel footboard of the sole of shoes.

2. The apparatus of claim 1, wherein the UVC uv lamp is a UVC-LED lamp.

3. The apparatus as claimed in claim 2, wherein a plurality of the UVC-LED lamps are transversely distributed on an inner wall of the open groove.

4. The shoe sole disinfection and sterilization apparatus according to any one of claims 1 to 3, wherein the irradiation angle of the UVC ultraviolet lamp is adjusted to cover a preset area; the preset area is an area where the sole is stepped into the open slot.

5. The shoe sole disinfection and sterilization apparatus according to any one of claims 1 to 3, wherein the UVC ultraviolet lamps are disposed on the inner wall and at least one angle shielding sheet is disposed at an upper edge of the UVC ultraviolet lamps, the angle shielding sheet shielding irradiation light of the UVC ultraviolet lamps so as to cover an irradiation angle of the UVC ultraviolet lamps to a preset area; the preset area is an area where the sole is stepped into the open slot.

6. The sole disinfection and sterilization apparatus of claim 1, wherein the notch of the open slot is inclined from the horizontal plane, and the heel pedal is disposed at the inclined lower edge of the open slot.

7. The apparatus as claimed in claim 1, wherein the open slot is formed at its edge by at least one wall plate, the inner surface of the wall plate being adapted to shield the ultraviolet light of the UVC uv lamp from irradiating to the outside of the case.

8. The apparatus as claimed in claim 1, further comprising a control unit and at least one sensor for detecting the shoes stepped into the open slot, wherein the control unit is connected to the sensor and the UVC uv lamp, respectively, for turning on or off the UVC uv lamp when the shoes stepped into or out of the open slot are detected, respectively.

9. The shoe sole disinfection and sterilization apparatus according to claim 8, further comprising a timing device and a prompting device connected to said control unit, wherein said timing device is used for automatically timing according to a preset disinfection time after said control unit starts said UVC ultraviolet lamp, and said prompting device is used for generating a disinfection end prompting message when the timing of said timing device is over.

10. The sole disinfection and sterilization apparatus of claim 9, wherein said timing device is connected to a digital display screen, said digital display screen is disposed on the surface of said box body for displaying the timing time of said timing device in real time; and/or

The prompting device is an audio prompting device and/or a visual display device.

11. The shoe sole disinfection apparatus of claim 8, further comprising an electronic device having a password switch, wherein said electronic device is connected to said control unit by wire or wirelessly for controlling the power switch of said UVC uv lamp; and/or

The rechargeable battery module also comprises a rechargeable first battery module and/or a detachable second battery module.

12. The apparatus as claimed in claim 1, wherein a support rod for supporting the shoe sole is installed in the open groove.

13. The sole disinfection and sterilization apparatus of claim 1, wherein a drying device for drying the sole is further disposed in the open slot; and/or

At least one drainage outlet is arranged on two sides of the heel pedal.

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