CN213852146U - Shoe disinfection device - Google Patents

Abstract

The utility model provides a shoe disinfection device, which comprises a main shell and a cover body, wherein the cover body is covered on the main shell; the main shell is provided with a shoe accommodating cavity, and at least one inner wall surface of the shoe accommodating cavity is provided with a UVC LED lamp group; UVC LED lamps in the UVC LED lamp group are evenly distributed on the inner wall surface, wherein the UVC LED lamps are made of AlGaN semiconductor materials. Use the utility model discloses a shoes degassing unit can effectively disinfect shoes.

Description

Shoe disinfection device

Technical Field

The utility model relates to a shoes disinfection technical field especially relates to a shoes degassing unit.

Background

The shoe cabinet is a storage cabinet for placing shoes, most shoe cabinets in the market have single function at present, are mainly used for storing the shoes and cannot provide other functions. The shoes are easy to breed bacteria in the using process, and are unsanitary when being touched by hands, so that the risk of infecting viruses and germs is easy to exist, and therefore, the shoes are easy to be polluted by the viruses and are carriers (particularly soles) for mutual retransmission, and therefore, the design of the shoe disinfection device with the disinfection and sterilization functions is very necessary.

Disclosure of Invention

The utility model mainly aims at providing a shoe disinfection device which can effectively disinfect shoes.

In order to achieve the main purpose, the shoe disinfection device provided by the utility model comprises a main shell and a cover body, wherein the cover body is covered on the main shell; the main shell is provided with a shoe accommodating cavity, and at least one inner wall surface of the shoe accommodating cavity is provided with a UVC LED lamp group; UVC LED lamps in the UVC LED lamp group are evenly distributed on the inner wall face, wherein the UVC LED lamps are made of AlGaN semiconductor materials.

According to the above technical scheme, the utility model discloses a shoes degassing unit sets up UVC LED banks through at least one internal face that holds the chamber at shoes, and wall including UVC LED lamp evenly distributed in the UVC LED banks can make shoes hold the ultraviolet illumination in chamber more even to can effectively disinfect to shoes. And the volume of UVC LED lamp is less, can save space. In addition, UVC LED lamp still has to start fast, accurate optical band, the switch number of times that allows is more, can ensure shoes degassing unit's disinfection performance. Moreover, the UVC LED lamp is made of AlGaN semiconductor materials, and the spectrum emitted by the UVC LED lamp can be optimized for virus killing.

In a further scheme, the shoe disinfection device further comprises a trigger switch, the trigger switch is installed in the shoe accommodating cavity, and the trigger switch is used for controlling the switch of the UVC LED lamp bank.

Therefore, the trigger switch is arranged to control the switch of the UVC LED lamp bank, and the on-off state of the UVC LED lamp bank can be conveniently controlled.

In a further scheme, the trigger switch comprises a pressing switch, and the pressing switch is arranged at the bottom of the shoe accommodating cavity.

In a further scheme, the trigger switch comprises an infrared induction type switch, and the transmitting end and the receiving end of the infrared induction type switch are respectively arranged on two opposite side wall surfaces of the shoe accommodating cavity.

Therefore, the trigger switch can be arranged in various modes, and the application of the shoe disinfection device can be improved conveniently.

In a further scheme, the shoe disinfection device further comprises a timing device, the timing device is installed outside the main shell, and the timing device is used for controlling the illumination time of the UVC LED lamp set.

Therefore, by setting the timing device, the illumination time of the UVC LED lamp set can be conveniently controlled, and the utilization rate of the power supply can be improved.

In a further embodiment, the UVC LED lamp has a wavelength in the range of 200nm to 380 nm.

Therefore, the UVC LED lamp has the wavelength range of 200nm to 380nm, and the sterilizing effect can be optimized.

In a further scheme, at least one inner wall surface is provided with an optical high-reflection film or an optical high-reflection plate.

Therefore, the inner wall surface can reflect the ultraviolet light emitted from the opposite surface back to enhance the reuse rate of the ultraviolet light by arranging the optical high-reflection film or the optical high-reflection plate.

In a further scheme, the number of the shoe accommodating cavities comprises at least two, and each shoe accommodating cavity is provided with a UVC LED lamp group.

Therefore, each shoe accommodating cavity is provided with the UVC LED lamp group, so that each shoe accommodating cavity can be conveniently and effectively sterilized, and the comprehensive sterilization effect is achieved.

In a further scheme, two adjacent shoe accommodating cavities are separated by a light-transmitting partition plate.

Therefore, the two adjacent shoe accommodating cavities are separated by the light-transmitting partition plate, so that ultraviolet rays in the shoe accommodating cavities can penetrate through the light-transmitting partition plate, and the reuse rate of the ultraviolet rays is improved.

In a further scheme, the shoe disinfection device further comprises a photocatalyst disinfection device, and the photocatalyst disinfection device is installed in the shoe accommodating cavity.

Therefore, the shoe disinfection device can be further provided with a photocatalyst disinfection device so as to be matched with the UVC LED lamp set to carry out mixed disinfection.

Drawings

Fig. 1 is an exploded view of the first embodiment of the shoe disinfection device of the present invention.

Fig. 2 is a view of the main housing in a first embodiment of the shoe disinfection apparatus of the present invention.

Fig. 3 is a view showing another perspective of the main housing of the first embodiment of the shoe disinfection apparatus of the present invention.

Fig. 4 is a view showing another perspective of the main housing of the first embodiment of the shoe sterilizing device of the present invention.

Fig. 5 is a sectional view showing the structure of the main housing in the first embodiment of the shoe sterilizing apparatus of the present invention.

Fig. 6 is an exploded view of the second embodiment of the shoe disinfection device of the present invention.

Fig. 7 is a view showing the structure of the main housing in the second embodiment of the shoe sterilizing apparatus of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

First embodiment of shoe sterilizing device:

as shown in fig. 1 and 2, the shoe disinfection apparatus of the present embodiment includes a main housing 1 and a cover 2, wherein the cover 2 covers the main housing 1, and the cover 2 covers the top of the main housing 1. The main casing body 1 is provided with a shoe accommodating chamber 3, at least one inner wall surface of the shoe accommodating chamber 3 is provided with a UVC LED lamp set, and the inner wall surface includes four side wall surfaces, a top wall surface and a bottom wall surface of the main casing body 1 facing the shoe accommodating chamber 3. In this embodiment, referring to fig. 3 and 4, the side wall surfaces 31, 32, 33 and 34 of the main housing 1 facing the shoe receiving cavity 3 are each provided with a UVC LED light group. Referring to fig. 5, the UVC LED lamps 4 in the UVC LED lamp group are uniformly distributed on the inner wall surface. Wherein, the UVC LED lamp 4 is an LED lamp made of AlGaN semiconductor material, the wavelength range of the UVC LED lamp 4 is 200nm to 380nm for disinfecting different pathogens, and the LED lamp made of AlGaN semiconductor material is a technology known by those skilled in the art and is not described herein again.

The shoe disinfection device further comprises a trigger switch 5, the trigger switch 5 is installed in the shoe accommodating cavity 3, and the trigger switch 5 is used for controlling the switch of the UVC LED lamp set. The trigger switch 5 can be set in various ways as required. Preferably, as can be seen from fig. 2, the trigger switch 5 is a push switch disposed at the bottom of the shoe accommodating cavity 3, which is well known to those skilled in the art and will not be described herein again. Preferably, the trigger switch 5 includes an infrared inductive switch (not shown), and an emitting end and a receiving end of the infrared inductive switch are respectively disposed on two opposite side wall surfaces in the shoe accommodating cavity 3, for example, the side wall surfaces 31 and 33 or the side wall surfaces 32 and 34, respectively, and can block light transmission between the emitting end and the receiving end of the infrared inductive switch when the shoe is placed in the shoe.

The shoe disinfection device further comprises a timing device 6, the timing device 6 is mounted outside the main shell 1, in the embodiment, the timing device 6 is arranged at the top of the main shell 1, the timing device 6 is used for controlling the illumination time of the UVC LED lamp set, and the timing device 6 adopts a known timing device.

In addition, at least one inner wall surface is provided with an optical high reflection film or an optical high reflection plate (not shown) for reflecting the ultraviolet light emitted from the opposite surface back to enhance the reuse rate of the ultraviolet light. In this embodiment, optical highly reflective films or optical highly reflective plates are provided on six inner wall surfaces of the main housing 1 corresponding to the shoe accommodating chamber 3. The optical high-reflection film and the optical high-reflection plate are well-known optical high-reflection films and optical high-reflection plates.

In addition, the inner wall surface provided with the UVC LED light set is provided with a diffusion protection plate (not shown) which covers the surface of the UVC LED light set, and preferably, the diffusion protection plate is a well-known acryl diffusion protection plate. The diffusion protection plate may serve to protect the UVC LED lamp from damage, while the surface of the diffusion protection plate may be provided with a two-dimensional light scattering pattern so that the uv light emitted from the UVC LED lamp may be more uniformly distributed in the sterilization space.

The shoes degassing unit of this embodiment is at the during operation, and the user can put into shoes and hold chamber 3 with shoes in, and at this moment, trigger switch 5 drive UVC LED banks is luminous to disinfect to shoes. In order to prevent the leakage of ultraviolet rays, when the UVC LED lamp group emits light, the cover 2 is closed to the main housing 1 to seal the shoe accommodating chamber 3. Furthermore, the sterilization time can be set by the timing means 6, ensuring that a complete sterilization cycle is completed within a defined time.

The shoe disinfection device of the embodiment is not only suitable for the portable disinfection (public place) of shoes when the shoes are not taken off, but also can be used for directly disinfecting the shoes by stepping into the shoe accommodating cavity 3. And is also suitable for independently disinfecting shoes taken off under the condition of home furnishing.

Second embodiment of shoe sterilizing device:

referring to fig. 6, the shoe sterilizing apparatus of the present embodiment includes a main housing 10 and a cover 20, wherein the cover 20 covers the main housing 10, the cover 20 is mounted on the main housing 10 by a hinge 30, and the cover 20 rotatably covers the main housing 10.

The main casing body 10 is provided with first shoes and holds chamber 40 and second shoes and hold chamber 50, and first shoes hold chamber 40 and second shoes and hold chamber 50 and be separated by printing opacity baffle 60, and printing opacity baffle 60 adopts acrylic material to make to guarantee the transparency to the ultraviolet light.

At least one inner wall surface of the main housing 10 facing the first shoe accommodating cavity 40 is provided with a first UVC LED lamp group, at least one inner wall surface of the main housing 10 facing the second shoe accommodating cavity 50 is provided with a second UVC LED lamp group, UVC LED lamps 80 in the first UVC LED lamp group are uniformly distributed on the inner wall surface corresponding to the first shoe accommodating cavity 40, and UVC LED lamps 90 in the second UVC LED lamp group are uniformly distributed on the inner wall surface corresponding to the second shoe accommodating cavity 50, wherein the inner wall surface comprises all side wall surfaces, a top wall surface and a bottom wall surface of each shoe accommodating cavity. Referring to fig. 7, in the present embodiment, the UVC LED lamps 80 in the first UVC LED lamp group are uniformly distributed on the side wall surface 401 and the top wall surface 402 corresponding to the first shoe accommodating cavity 40, and the UVC LED lamps 90 in the second UVC LED lamp group are uniformly distributed on the side wall surface 501 and the top wall surface 502 corresponding to the second shoe accommodating cavity 50. Among them, the UVC LED lamps 80 and 90 are LED lamps made of AlGaN semiconductor material. The UVC LED lamps 80 and 90 have a wavelength range of 200nm to 380nm, and LED lamps made of AlGaN semiconductor material are well known to those skilled in the art and will not be described herein.

The shoe disinfection device further comprises a timing device 70 and a photocatalyst disinfection device 100, wherein the timing device 70 is installed outside the main housing 10, in this embodiment, the timing device 70 is arranged on the top of the main housing 10, and the timing device 70 is used for controlling the illumination time of the UVC LED lamp set. Two photocatalyst sterilizing devices 100 are installed in the first shoe accommodating cavity 40 and the second shoe accommodating cavity 50. The photocatalyst disinfection device 100 is a known photocatalyst disinfection device, and can generate the effects of antibiosis, deodorization, oil stain decomposition, mildew prevention, stain prevention, air purification and the like under the irradiation of the UVC LED lamp, and the details thereof are omitted.

In addition, the first shoe accommodating cavity 40 is provided with an optical high-reflection film or an optical high-reflection plate (not shown) corresponding to at least one inner wall surface, and the second shoe accommodating cavity 50 is provided with an optical high-reflection film or an optical high-reflection plate corresponding to at least one inner wall surface, so as to reflect the ultraviolet light emitted from the opposite surface back to enhance the reuse rate of the ultraviolet light. In this embodiment, all the side wall surfaces and the top wall surface of the first shoe accommodating cavity 40 are provided with an optical high-reflection film or an optical high-reflection plate, and all the side wall surfaces and the bottom wall surface of the second shoe accommodating cavity 50 are provided with an optical high-reflection film or an optical high-reflection plate. The optical high-reflection film and the optical high-reflection plate are well-known optical high-reflection films and optical high-reflection plates.

In addition, the inner wall surface provided with the first UVC LED lamp set or the second UVC LED lamp set is provided with a diffusion protection plate (not shown) which covers the surface of the UVC LED lamp set, and preferably, the diffusion protection plate is a well-known acryl diffusion protection plate. The diffusion protection plate may serve to protect the UVC LED lamp from damage, while the surface of the diffusion protection plate may be provided with a two-dimensional light scattering pattern so that the uv light emitted from the UVC LED lamp may be more uniformly distributed in the sterilization space.

The shoe sterilizing apparatus further includes a trigger switch (not shown) installed in the first shoe accommodating chamber 40 and/or the second shoe accommodating chamber 50, the trigger switch being used to control the switching of the UVC LED lamp set. The setting mode of the trigger switch has a plurality of types and can be set according to the requirement. Preferably, the trigger switch is a push switch disposed at the bottom of the first shoe receiving cavity 40 and/or the second shoe receiving cavity 50, which is well known to those skilled in the art and will not be described herein. Preferably, the trigger switch includes an infrared inductive switch, and the transmitting end and the receiving end of the infrared inductive switch are respectively disposed on two opposite side wall surfaces of the main housing 10 located in the first shoe accommodating cavity 40, or the transmitting end and the receiving end of the infrared inductive switch are respectively disposed on two opposite side wall surfaces of the first shoe accommodating cavity 50. In addition, a trigger switch may be further disposed on the cover 20, and the trigger switch detects an on/off state of the cover 20 to control on/off of the UVC LED light group.

When the shoe disinfection device of the embodiment is in operation, a user can place shoes into the first shoe accommodating cavity 40 and/or the second shoe accommodating cavity 50, and at the moment, the trigger switch drives the UVC LED lamp set to emit light, so that the shoes are disinfected. In order to prevent the leakage of ultraviolet rays, when the UVC LED lamp set emits light, the cover 20 is closed to the main housing 10, and the first shoe accommodating chamber 40 and the second shoe accommodating chamber 50 are in a sealed state. Furthermore, the sterilization time may be set by the timing device 70 to ensure that a complete sterilization cycle is completed within a defined time.

According to two above-mentioned embodiments, the utility model discloses a shoes degassing unit sets up UVC LED banks through at least one internal face that holds the chamber at shoes, and wall including UVC LED lamp evenly distributed among the UVC LED banks can make shoes hold the ultraviolet illumination in chamber more even to can effectively disinfect to shoes. And the volume of UVC LED lamp is less, can save space. In addition, UVC LED lamp still has to start fast, accurate optical band, the switch number of times that allows is more, can ensure shoes degassing unit's disinfection performance. Moreover, the UVC LED lamp is made of AlGaN semiconductor materials, and the spectrum emitted by the UVC LED lamp can be optimized for virus killing.

It should be noted that the above is only a preferred embodiment of the present invention, but the design concept of the present invention is not limited thereto, and all insubstantial modifications made by using the design concept of the present invention also fall within the protection scope of the present invention.

Claims (9)

1. A shoe disinfection device is characterized in that: the device comprises a main shell and a cover body, wherein the cover body covers the main shell;

the shoe cabinet is characterized in that the main shell is provided with a shoe accommodating cavity, and at least one inner wall surface of the shoe accommodating cavity is provided with a UVC LED lamp set;

UVC LED lamps in the UVC LED lamp group are uniformly distributed on the inner wall surface, wherein the UVC LED lamps are made of AlGaN semiconductor materials;

at least one of the inner wall surfaces is provided with an optical high-reflection film or an optical high-reflection plate.

2. A shoe disinfection apparatus as claimed in claim 1, wherein:

the shoe disinfection device further comprises a trigger switch, the trigger switch is installed in the shoe accommodating cavity, and the trigger switch is used for controlling the switch of the UVC LED lamp bank.

3. A shoe disinfection apparatus as claimed in claim 2, wherein:

the trigger switch comprises a push switch, and the push switch is arranged at the bottom of the shoe accommodating cavity.

4. A shoe disinfection apparatus as claimed in claim 2, wherein:

trigger switch includes infrared induction type switch, infrared induction type switch's transmitting terminal and receiving terminal set up respectively shoes hold the relative two lateral wall faces in chamber.

5. A shoe disinfection apparatus as claimed in any one of claims 1 to 4, wherein:

the shoe disinfection device further comprises a timing device, the timing device is installed outside the main shell body, and the timing device is used for controlling the illumination time of the UVC LED lamp set.

6. A shoe disinfection apparatus as claimed in any one of claims 1 to 4, wherein:

the UVC LED lamp has a wavelength range of 200nm to 380 nm.

7. A shoe disinfection apparatus as claimed in any one of claims 1 to 4, wherein:

the number of the shoe accommodating cavities comprises at least two, and each shoe accommodating cavity is provided with the UVC LED lamp set.

8. A shoe disinfection apparatus as claimed in claim 7, wherein:

two adjacent shoes accommodate the chamber and are kept apart by the printing opacity baffle.

9. A shoe disinfection apparatus as claimed in any one of claims 1 to 4, wherein:

the shoe disinfection device further comprises a photocatalyst disinfection device, and the photocatalyst disinfection device is installed in the shoe accommodating cavity.

Images