CN215533832U - Disinfecting and drying mirror cabinet - Google Patents

Abstract

The utility model provides a disinfection and drying mirror cabinet, which comprises: a cabinet divided into a first zone and a second zone for accommodating different articles; the cabinet door is connected with the cabinet body through a hinge element and is divided into a first area cabinet door arranged corresponding to the first area and a second area cabinet door arranged corresponding to the second area; a sterilizing member divided into a first sterilizing compartment provided corresponding to the first zone and a second sterilizing compartment provided corresponding to the second zone; the functional piece is arranged on the cabinet body; the control module is arranged on the cabinet body; the problem of current sterilizer function singleness, and space occupation rate is too big is solved. According to the sterilizing and drying mirror cabinet, the sterilizing piece is arranged in the cabinet body, so that articles placed in the cabinet body are sterilized and disinfected, the articles in the cabinet body are kept in a dry state on one hand, bacteria bred in a wet state are avoided, and on the other hand, live bacteria and viruses are killed through the sterilizing piece, and cleanness and sanitation are guaranteed.

Description

Disinfecting and drying mirror cabinet

Technical Field

The utility model belongs to the technical field of mirror cabinets, and particularly relates to a sterilizing and drying mirror cabinet.

Background

If the toilet is in a wet state for a long time, a lot of bacteria can be bred, articles such as towels, toothbrushes, bath towels and lady makeup tools used in the toilet can be frequently in the wet state, if the articles are stored indoors, the bacteria can be bred easily in the towels, the toothbrushes, the bath towels and the lady makeup tools, peculiar smell is generated, the towels and the bath towels are difficult to dry in rainy days, and a great deal of inconvenience is brought to use.

The disinfection cabinet is often adopted to solve the problems, but the existing disinfection cabinet has single function and overlarge space occupancy.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a disinfection and drying mirror cabinet, which solves the problems that the existing disinfection cabinet is single in function and overlarge in space occupancy.

The technical scheme adopted by the utility model is as follows:

a disinfecting and drying mirror cabinet, comprising:

a cabinet divided into a first zone and a second zone for accommodating different articles;

the cabinet door is connected with the cabinet body through a hinge element and is divided into a first area cabinet door arranged corresponding to the first area and a second area cabinet door arranged corresponding to the second area;

a sterilizing member divided into a first sterilizing member disposed corresponding to the first region and a second sterilizing member disposed corresponding to the second region;

the functional piece is arranged on the cabinet body; and

the control module is arranged on the cabinet body;

wherein, the outside and the inboard of first district cabinet door and second district cabinet door all are equipped with the level crossing.

This mirror cabinet is dried in disinfection places the cabinet in through the disinfection piece internal to placing the disinfection of disinfecting in the internal article of cabinet, making cabinet internal article keep in the dry condition on the one hand, avoiding the bacterium that breeds under the humid state, on the other hand kills the bacterium virus who survives through the disinfection piece, ensures clean health, has improved the security of using.

Optionally, the first sterilizing member comprises a first ultraviolet lamp and an ozone generator respectively fixed to the top of the first zone;

the top of the first area is also provided with a PTC heater, an air inlet fan, a first illuminating lamp and a first door control switch; an exhaust fan is arranged at the bottom of the first area;

the first gate control switch is divided into a first path and a second path, the first ultraviolet lamp, the air inlet fan, the ozone generator and the exhaust fan are electrically connected to the control module, the second path, the first illuminating lamp and the first gate control switch are connected in series to a power supply, the PTC heater is located at the air outlet end of the air inlet fan, and an air inlet cover is arranged on the air inlet end of the air inlet fan;

the first area cabinet door is closed and the first door control switch is pressed, the first path is closed, the first ultraviolet lamp and the ozone generator are electrified and work to carry out disinfection, the second path is disconnected, and the first illuminating lamp is powered off and closed; after the disinfection is finished, the control module controls the air inlet fan and the exhaust fan to be started so as to exhaust ozone;

the first door control switch is opened and loosened, the first path is disconnected, the first ultraviolet lamp and the ozone generator are powered off and closed, the second path is closed, and the first illuminating lamp is powered on and opened.

Optionally, the second area is divided into at least two sub-areas, and the second disinfection piece has at least two sub-areas which are arranged in one-to-one correspondence with the sub-areas;

the second gate control switch is a four-corner two-way switch and is divided into a third way and a fourth way, wherein the third way and the second disinfection part comprise second ultraviolet lamps arranged at the tops of the sub-areas; the top of the sub-area is also provided with a second illuminating lamp and a second door control switch, the second ultraviolet lamp is electrically connected with the control module, and the fourth path, the second illuminating lamp and the second door control switch are connected in series with the power supply;

the second area cabinet door is closed and the second door control switch is pressed, the third path is closed, the second ultraviolet lamp is powered on and works, the fourth path is disconnected, and the second illuminating lamp is powered off and closed; and the second cabinet door is opened and the second door control switch is loosened, the third path is disconnected, the second ultraviolet lamp is powered off and closed, the fourth path is closed, and the second illuminating lamp is powered on and opened.

Alternatively, when two sub-zones are provided, the second ultraviolet lamps are divided into an upper ultraviolet lamp located in one of the sub-zones and a lower ultraviolet lamp located in the other sub-zone, and the second illumination lamps are divided into an upper illumination lamp located in one of the sub-zones and a lower illumination lamp located in the other sub-zone.

Optionally, the hinge members include a plurality of first hinge members and at least one second hinge member, wherein the first hinge members are fixed to the upper and lower top plates or the side plates of the cabinet, and the second hinge members are fixed to the panels or the side plates of the cabinet.

Optionally, the upper end and the lower end of the cabinet door in the first area are respectively hinged with the first hinge;

the upper end of the second area cabinet door is hinged to the first hinge piece, and the lower end of the second area cabinet door is hinged to the second hinge piece.

Optionally, at least one fixing hole is arranged in each of the first area and the second area;

the inner sides of the first area cabinet door and the second area cabinet door are both provided with door suction strips.

Optionally, the functional element comprises a towel rack arranged in the first area and a hand dryer positioned below the second area, wherein an air inlet cover is arranged at the air inlet end of the hand dryer, the air outlet end of the hand dryer faces the ground, and an air outlet cover of the hand dryer is arranged at the air outlet end cover of the hand dryer;

the bottom surface of the cabinet body is provided with a hand dryer inductive switch and a hand dryer power switch, the hand dryer inductive switch and the hand dryer power switch are electrically connected with the hand dryer, and the hand dryer inductive switch senses an approaching object to start the hand dryer.

Optionally, the towel rack comprises a rack body fixed in the first area and a plurality of rod bodies hinged on the rack body, wherein the rack body is provided with a slot body and a connecting rod fixed in the slot body, and the rod bodies are sleeved on the connecting rod.

Optionally, the control module comprises a processing submodule and a control submodule fixed below the second area, wherein the processing submodule comprises a main board and a processor arranged on the main board;

the control submodule comprises a display screen, a communication unit and a plurality of control buttons which are respectively and electrically connected with the main board; correspondingly, the first gate control switch and the second gate control switch are respectively and electrically connected to the mainboard;

the communication unit is in communication connection with a terminal so as to remotely control the disinfection and drying mirror cabinet to work;

the control button comprises a first area PTC heater and an air inlet fan working knob, and the first area PTC heater and the air inlet fan working knob are electrically connected with a power supply;

the PTC heater, the air inlet fan and the exhaust fan are started simultaneously to enable hot air to be exhausted through the exhaust fan after circulating in the first area.

The utility model has the beneficial effects that:

this mirror cabinet is dried in disinfection places the cabinet in through the disinfection piece internal to placing the disinfection of disinfecting in the internal article of cabinet, making cabinet internal article keep in the dry condition on the one hand, avoiding the bacterium that breeds under the humid state, on the other hand kills the bacterium virus who survives through the disinfection piece, ensures clean health, has improved the security of using. Meanwhile, the cabinet body is partitioned, and articles are placed in a classified mode, so that the utilization rate of space in the cabinet body is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of the cabinet for sterilizing and drying glasses when the door is closed;

FIG. 2 is a schematic view of the mirror cabinet with the door opened for sterilizing and drying;

FIG. 3 is a schematic isometric view of the cabinet with the door open;

FIG. 4 is a schematic view of the disinfection and drying cabinet with the bottom view when the door is closed;

FIG. 5 is a schematic diagram of the structure of one arrangement of the second zone;

FIG. 6 is an enlarged partial schematic view of FIG. 3 at A;

FIG. 7 is a schematic view of a portion of the enlarged structure at B in FIG. 3;

FIG. 8 is a schematic view of the first hinge;

FIG. 9 is a schematic structural view of the second hinge;

FIG. 10 is a schematic view of the structure of a towel rack;

fig. 11 is a circuit diagram of the disinfection and drying mirror cabinet.

In the figure: 1. a cabinet body; 101. a first region; 102. a second region; 2. a cabinet door; 21. a first zone cabinet door; 22. a second zone cabinet door; 3. an articulation member; 31. a first hinge member; 32. a second hinge member; 41. a first disinfection member; 42. a second sterilization member; 411. a first ultraviolet lamp; 412. a PTC heater; 413. an air inlet fan; 414. a first illumination lamp; 415. an ozone generator; 416. a first gate control switch; 417. an exhaust fan; 421. a second ultraviolet lamp; 421a, an upper ultraviolet lamp; 421b, a lower ultraviolet lamp; 422. a second illumination lamp; 422a, an upper lighting lamp; 422b, a lower illuminating lamp; 423. a second gate control switch; 51. a towel rack; 52. a hand dryer; 53. an air inlet cover; 54. a hand dryer induction switch; 55. a power switch of the hand dryer; 56. an air outlet mask of the hand dryer; 61. a display screen; 62. a first zone reset switch; 63. the PTC heater and the air inlet fan working knob are arranged in the first area; 64. a second zone reset switch; 7. a door stopper strip; 8. a plane mirror; 9. an air inlet cover; 10. and (7) fixing holes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In addition, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or orientations or positional relationships that are conventionally placed when the products of the present invention are used, or orientations or positional relationships that are conventionally understood by those skilled in the art, and are used only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element that is referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model is further described with reference to the following figures and specific embodiments.

Example 1:

as shown in fig. 1 to 11, a disinfection and drying cabinet of the present embodiment includes: a cabinet 1 divided into a first zone 101 and a second zone 102 for accommodating different articles; the backplate of the cabinet body 1 is provided with a plurality of holes for fixing, such as screw holes or unthreaded holes, so that the disinfection and drying mirror cabinet is fixed on the side wall, the wall surface or other suitable places.

Alternatively, the shape of the cabinet 1 is not limited to the square shape shown in the drawings, and will not be described herein.

A cabinet door 2 connected to the cabinet body 1 by a hinge 3 and divided into a first zone cabinet door 21 disposed corresponding to the first zone 101 and a second zone cabinet door 22 disposed corresponding to the second zone 102; the cabinet door 2 seals the cabinet body 1, so that germs, dust and the like in the external environment are prevented from floating into the cabinet body 1, and the effects of sterilization and disinfection are improved.

A sterilizing member divided into a first sterilizing member 41 disposed corresponding to the first region 101 and a second sterilizing member 42 disposed corresponding to the second region 102; the articles placed in the cabinet body 1 are sterilized and disinfected, and the first disinfecting part 41 and the second disinfecting part 42 are arranged aiming at different subareas, so that the sterilizing and disinfecting thoroughness of each subarea is effectively ensured.

The functional part is arranged on the cabinet body 1. Aiming at different types of placed objects, corresponding functional parts are placed in the cabinet body 1, so that the objects can be conveniently taken and placed, the practicability is improved, and the utilization rate of the space in the cabinet body 1 is improved.

The control module is arranged on the cabinet body 1; for the control module, a user realizes manual control on the disinfection piece through a wireless connection mode or through the control submodule, so that starting and stopping of the disinfection piece are controlled.

The outer sides and the inner sides of the first area cabinet door 21 and the second area cabinet door 22 are provided with plane mirrors 8; the plane mirror 8 is convenient for users to use, and the application range of the disinfection and drying mirror cabinet is expanded.

Aiming at the shortcoming that current sterilizer exists, designed this disinfection stoving mirror cabinet, place the cabinet body 1 in through the disinfection piece promptly in to the disinfection of disinfecting to placing the article in the cabinet body 1, make 1 interior article of cabinet body keep in the dry state on the one hand, avoid the bacterium of breeding under the humid state, on the other hand kills the bacterium virus who survives through the disinfection piece, ensures clean health, has improved the security of using. Meanwhile, the cabinet body 1 is partitioned, and articles are placed in a classified mode, so that the utilization rate of the space in the cabinet body 1 is improved.

Preferably, the time of each work of disinfection piece is settable, selects disinfection time according to the actual use condition on the one hand, and on the other hand avoids the disinfection piece work for a long time to energy saving reduces economic cost. It is easy to understand that the setting of the working time of the disinfection component by the relay is an existing and public conventional technical means, and is not described in detail herein.

In the embodiment provided by the present invention, the first sterilizing member 41 includes a first ultraviolet lamp 411 and an ozone generator 415 respectively fixed to the top of the first zone 101; the top of the first area 101 is also provided with a PTC heater 412, an air inlet fan 413, a first lighting lamp 414 and a first door control switch 416; an exhaust fan 417 is arranged at the bottom of the first area 101; the first gate control switch 416 is a four-corner two-way switch, the first gate control switch 416 is divided into a first way and a second way, the first ultraviolet lamp 411, the air inlet fan 413, the ozone generator 415 and the exhaust fan 417 are electrically connected to the control module, the second way, the first illuminating lamp 414 and the first gate control switch 416 are connected in series to a power supply, the PTC heater 412 is located at the air outlet end of the air inlet fan 413, and an air inlet cover 9 is arranged at the air inlet end of the air inlet fan 413.

As shown in fig. 2-3, the volume of the first zone 101 is greater than the volume of the second zone 102, the first zone 101 being the primary article placement location of the cabinet 1. The first sterilizing member 41 has many constituent parts, thereby contributing to an improvement in sterilizing and drying effects of the first region 101.

Specifically, the first ultraviolet lamp 411 emits ultraviolet rays, thereby sterilizing the articles using the ultraviolet sterilization property. The ozone generator 415 is coupled to the first ultraviolet lamp 411, and sterilizes the article by generating ozone, and cleans a place where ultraviolet rays are not irradiated, thereby improving the completeness of sterilization.

The PTC heater 412 is used in cooperation with the air supply fan 413 to heat the first zone 101 to accelerate the evaporation of the liquid, thereby ensuring that the first zone 101 is in a dry state; meanwhile, the exhaust fan 417 is coupled to the intake fan 413 to increase the fluidity of the air in the first zone 101, so as to accelerate the outflow of the steam during the drying process, and to perform the air exchange after the sterilization process, thereby ensuring the freshness of the air in the first zone 101.

The air inlet cover 9 effectively filters the air passing through the air inlet fan 413, prevents impurities from entering, prolongs the service life, and avoids the impurities attached to the articles in the first area 101.

The first illuminating lamp 414 is arranged to supplement light to the first area 101, so that the use is convenient, especially in the dark environment. The first door control switch 416 is used for detecting whether the first zone cabinet door 21 is opened or not, so that the various components can be started or stopped.

The operation of the first zone is explained, wherein the first zone cabinet door 21 is closed and the first door control switch 416 is pressed, the first path is closed, the first ultraviolet lamp 411 and the ozone generator 415 are powered on and operate to perform disinfection, the second path is disconnected, and the first illuminating lamp 414 is powered off and closed; after the sterilization is completed, the control module controls the supply fan 413 and the exhaust fan 417 to be activated to discharge ozone.

The first zone cabinet door 21 is opened and the first door control switch 416 is released, the first path is opened, the first ultraviolet lamp 411 and the ozone generator 415 are powered off and closed, the second path is closed, and the first illuminating lamp 414 is powered on and opened. Preferably, as an option, the arrangement positions of the first ultraviolet lamp 411, the PTC heater 412, the air intake fan 413, the first illumination lamp 414, the ozone generator 415, the first gate control switch 416 and the exhaust fan 417 are as shown in fig. 2; it is easy to understand that those skilled in the art can also change the arrangement position according to the actual use condition to meet the use requirement, and the description is omitted here.

In one possible design, both the inlet fan 413 and the outlet fan 417 communicate the first zone 101 with the outside. Thereby facilitating the inflow and outflow of gas and improving the fluidity of air in the first region 101.

In the embodiment provided by the present invention, the second area 102 is divided into at least two sub-areas, and the second disinfectant member 42 has at least two sub-areas and is disposed corresponding to the sub-areas one by one; as shown in fig. 2, the second area 102 has a small volume and can be used for placing small objects, and a plurality of sub-areas are provided to facilitate placing different objects, such as a toothbrush, a tooth mug, toothpaste, a brow brush, a brow pen and the like.

In one possible design, the second sterilization member 42 includes a second ultraviolet lamp 421 disposed at the top of the subregion; the top of the sub-area is also provided with a second illuminating lamp 422 and a second door control switch 423, the second door control switch 423 is a four-corner two-way switch, the second door control switch 423 is divided into a third way and a fourth way, wherein the third way and the second ultraviolet lamp 421 are electrically connected to the control module, and the fourth way, the second illuminating lamp 422 and the second door control switch 423 are connected in series with the power supply.

The operation of the second zone is explained, that is, the second zone cabinet door 22 is closed and the second door control switch 423 is pressed, the third path is closed and opened, the second ultraviolet lamp 421 is powered on and works, the fourth path is opened, and the second illuminating lamp 422 is powered off and closed; the second cabinet door 22 is opened and releases the second door control switch 423, the third path is opened, the second ultraviolet lamp 421 is powered off and closed, the fourth path is closed, and the second illuminating lamp 422 is powered on and opened. Since the second region 102 has a small volume and the volume of each sub-region is smaller after being divided into sub-regions, the second disinfectant member 42 has a simple structure to be adapted to a smaller installation position.

The second ultraviolet lamp 421, the second illumination lamp 422 and the second door control switch 423 have the same functions as the first ultraviolet lamp 411, the first illumination lamp 414 and the first door control switch 416 in the first sterilization member 41, respectively, and thus, no further description is provided herein.

In one possible design, as shown in fig. 5, when two sub-zones are provided, the second ultraviolet lamps 421 are divided into upper ultraviolet lamps 421a located in one of the sub-zones and lower ultraviolet lamps 421b located in the other sub-zone, and the second illumination lamps 422 are divided into upper illumination lamps 422a located in one of the sub-zones and lower illumination lamps 422b located in the other sub-zone.

In the specific embodiment provided by the present invention, the hinge member 3 may alternatively include a plurality of first hinge members 31 and at least one second hinge member 32, wherein the first hinge members 31 are fixed to the upper and lower top plates or the side plates of the cabinet 1, and the second hinge members 32 are fixed to the panels or the side plates of the cabinet 1.

The hinged plate is used for connecting the cabinet door 2 and the cabinet body 1, generally, when the upper end and the lower end of the cabinet door 2 are flush with the cabinet body 1, like the first-zone cabinet door 21, the first hinged member 31 is used; and when the length of the cabinet door 2 is shorter than that of the cabinet body 1, for example, one end of the second-zone cabinet door 22 is located on the panel of the cabinet body 1, the second hinge member 32 is used. Thereby improving the efficiency of the connection.

In one possible design, as shown in fig. 7 and 8, the first hinge member 31 includes a plate body and a first hinge shaft fixed to the plate body.

In one possible design, as shown in fig. 4 and 9, the second hinge member 32 includes a vertical plate, a cross plate fixedly connected to the vertical plate, and a second hinge shaft fixed to the cross plate.

In the embodiment provided by the present invention, as an option, the upper and lower ends of the first area cabinet door 21 are respectively hinged to the first hinge 31; the upper end of the second zone cabinet door 22 is hinged to the first hinge 31 and the lower end of the second zone cabinet door 22 is hinged to the second hinge 32. The lower end of the second cabinet door 22 can not be flush with the lower end of the cabinet 1 by combining the position of the control button disposed outside the hand dryer 52, so that the lower end of the second cabinet door 22 is connected to the cabinet 1 through the second hinge member 32.

In one possible design, at least one fixing hole 10 is provided in each of the first region 101 and the second region 102; through the fixing hole 10 to facilitate the fixing of the cabinet 1. It is understood that the number of the fixing holes 10 is determined according to the actual use requirement, and the present invention is not limited thereto.

In one possible design, the first zone cabinet door 21 and the second zone cabinet door 22 are each provided with a door stop strip 7 on the inside. The arrangement of the door suction strips 7 improves the sealing performance of the closed cabinet door 2 and reduces the probability of dust and germs entering the cabinet body 1.

Preferably, as an option, the door strip 7 is provided as a closed loop, further improving the tightness after the cabinet door 2 is closed.

In the embodiment of the present invention, as an option, the functional element includes a towel rack 51 disposed in the first area 101 and a hand dryer 52 disposed below the second area 102, wherein an air inlet cover 53 is disposed at an air inlet end of the hand dryer 52, an air outlet end of the hand dryer 52 faces the ground, and an air outlet cover 56 is disposed at an air outlet end cover of the hand dryer 52. The towel rack 51 is used for placing towels and is helpful for placing a plurality of towels.

A hand dryer inductive switch 54 and a hand dryer power switch 55 are arranged on the bottom surface of the cabinet body 1, the hand dryer inductive switch 54 and the hand dryer power switch 55 are electrically connected with the hand dryer 52, wherein the hand dryer inductive switch 54 is started when a hand approaches to dry, and the hand dryer 52 stops working and enters a dormant state after the preset working time is reached; the hand dryer power switch 55 controls the start and stop of the hand dryer 52, and cuts off the power supply of the hand dryer 52 when the hand dryer is not used for a long time, thereby reducing the power consumption.

Optionally, the hand dryer power switch 55 is set as a three-way switch, which is respectively set to power on, power off, and heating on. Or any other suitable switch may be selected, as the present invention is not limited in this respect.

Optionally, a heating structure is provided on the hand dryer 52 to blow hot air for winter use. Or any other suitable hand dryer may be selected, as the present invention is not limited in this respect.

In one possible design, as shown in fig. 10, the towel rack 51 includes a rack body fixed in the first area 101 and a plurality of rod bodies hinged on the rack body, wherein the rack body is provided with a slot body and a connecting rod fixed in the slot body, and the rod bodies are sleeved on the connecting rod.

In the specific embodiment provided by the present invention, as an option, the control module includes a processing sub-module and a control sub-module fixed below the second area 102, wherein the processing sub-module includes a main board and a processor disposed on the main board; the control submodule comprises a display screen 61, a communication unit and a plurality of control buttons which are respectively and electrically connected with the mainboard, and the display screen 61 and the control buttons are electrically connected with the mainboard; accordingly, the first gate control switch 416 and the second gate control switch 423 are electrically connected to the main board, respectively.

Typically, the processor controls the operation of the first 41 and second 42 sterilizers by receiving signals from the first 416 and/or second 423 gated switches. Alternatively, the user is connected to the communication unit by a terminal for communication, thereby performing remote control by the terminal.

Optionally, the control sub-module includes a display screen 61 disposed on the cabinet 1 so as to display the working state of the disinfection component, for example, as shown in fig. 1, a plurality of keys are further disposed on the display screen 61, so as to input the instruction through the keys.

The control submodule further comprises a plurality of control buttons arranged on the cabinet body 1, the control buttons are used for controlling starting and stopping of corresponding parts, working time of a disinfection piece and the like, for example, as shown in fig. 1 and 3, the control buttons comprise a first area reset switch 62, a first area PTC heater, a fan inlet working knob 63 and a second area reset switch 64, and the first area reset switch 62, the first area PTC heater, the fan inlet working knob 63 and the second area reset switch 64 are all electrically connected to a power supply.

Specifically, the first zone reset switch 62 is electrically connected to a power source, and when the first zone reset switch 62 is pressed, the first ultraviolet lamp 411, the PTC heater 412, the air inlet fan 413, the ozone generator 415, and the air outlet fan 417 are activated, thereby sterilizing and drying the first zone, that is, the first ultraviolet lamp 411 is turned on and emits ultraviolet rays, and the ozone generator 415 is activated and generates ozone, thereby sterilizing; the PTC heater 412, the supply fan 413, and the exhaust fan 417 are all activated, the supply fan 413 blows heat generated by the PTC heater 412 into the first zone 101 to dry, and the exhaust fan 417 operates to guide substances such as air, water vapor, etc. in the first zone 101 to the outside.

The PTC heater 412, the air supply fan 413 and the exhaust fan 417 are driven by rotating the first zone PTC heater and air supply fan operating knob 63 to set an operating time, the heat generated by the PTC heater 412 is blown into the first zone 101 by the air supply fan 413 to dry, and the air, water vapor and other substances in the first zone 101 are guided to the outside by the exhaust fan 417.

The second zone reset switch 64 is electrically connected to the power source, and the second zone reset switch 64 is pressed to activate the second ultraviolet lamp 421, and the second ultraviolet lamp 421 emits ultraviolet rays to sterilize the second zone 102.

Namely, the disinfection and drying mirror cabinet has three control methods, one of which is that when a user is positioned near the cabinet body 1, the disinfection and drying mirror cabinet is manually controlled by a first zone reset switch 62 and a second zone reset switch 64; secondly, the PTC heater 412, the air inlet fan 413 and the exhaust fan 417 are automatically started at intervals by setting working time intervals between the PTC heater of the first zone and the air inlet fan working knob 63; and thirdly, after the remote connection with the terminal is carried out through the communication unit, the remote control is carried out through the terminal.

Example 2:

on the basis of embodiment 1, the present embodiment explains the operation of the disinfection and drying cabinet by combining the specific structure of the disinfection and drying cabinet:

for the first area 101, when the disinfection work of the first area 101 is started, and the first area cabinet door 21 is closed and the first door control switch 416 is pressed, the disinfection work is started; when the first cabinet door 21 is opened and the first door control switch 416 is not pressed, the sterilization operation is started and suspended.

Specifically, when the first zone cabinet door 21 is closed, the first zone cabinet door 21 presses the first door control switch 416, the first path is closed, and the first ultraviolet lamp 411 and the ozone generator 415 are powered on, so that the control module receives a door closing signal from the first door control switch 416, and the first ultraviolet lamp 411 and the ozone generator 415 operate to perform disinfection; meanwhile, the second path, the first illuminating lamp 414 and the first gate control switch 416 are connected in series to the power supply, and when the first gate control switch 416 is pressed, the second path is in an off state, and the first illuminating lamp 414 is kept off; after the sterilization is completed, the first ultraviolet lamp 411 and the ozone generator 415 are turned off, and the control module controls the supply fan 413 and the exhaust fan 417 to be turned on to discharge ozone.

When the first cabinet door 21 is opened, the first door control switch 416 is released by the first cabinet door 21, the first path is disconnected, the first ultraviolet lamp 411 and the ozone generator 415 are powered off, so that the control module receives a door opening signal from the first door control switch 416, the first ultraviolet lamp 411 and the ozone generator 415 are turned off, when the first door control switch 416 is opened, the second path is in a closed state, and the first illuminating lamp 414 is powered on and opened, so that a user can conveniently view the first path.

For the second area 102, when the disinfection work of the second area 102 is started, and the second area cabinet door 22 is closed and the second door control switch 423 is pressed, the disinfection work is started; when the second cabinet door 22 is opened and the second door switch 423 is not pressed, the sterilization operation is started and suspended.

Specifically, when the second cabinet door 22 is closed, the second cabinet door 22 presses the second door control switch 423, the third path is closed, and the second ultraviolet lamp 421 is powered on, so that the control module receives a door closing signal from the second door control switch 423, and thus the second ultraviolet lamp 421 works, and meanwhile, the fourth path, the second illuminating lamp 422 and the second door control switch 423 are connected in series to the power supply, and when the second door control switch 423 is pressed, the fourth path is in an off state, and then the second illuminating lamp 422 keeps closed.

When the second district cabinet door 22 is opened, the second district cabinet door 22 loosens second door control switch 423, and the disconnection of third way, second ultraviolet lamp 421 outage to make control module receive the signal of opening the door that comes from second door control switch 423, thereby make second ultraviolet lamp 421 close, and when second door control switch 423 opened the door, the fourth way was in the closure state, and second light 422 circular telegram was opened, thereby the person of facilitating the use looks over.

For the operation process of drying in the first zone 101, the first zone PTC heater and the air supply fan operation knob 63 are rotated, the PTC heater 412, the air supply fan 413 and the exhaust fan 417 are started, and the operation time is set at the same time, and the air supply fan 413 is positioned above the PTC heater 412, so that the air supply fan 413 blows the heat generated by the PTC heater 412 into the first zone 101, thereby performing drying; the rotation of the exhaust fan 417 guides air, water vapor, etc. in the first zone 101 to the outside, thereby keeping the first zone 101 dry; on the other hand, the hot air is circulated in the first zone 101 to ensure the overall drying. After the set operation time is reached, the first zone PTC heater and the intake fan operation knob 63 are reset to zero, and the PTC heater 412, the intake fan 413, and the exhaust fan 417 stop operating and enter a sleep state.

For the hand dryer 52 disposed below the second area 102, the hand dryer power switch 55 is pressed down to energize the hand dryer 52 and put it in a standby state; the user places both hands under the hand dryer 52 and is sensed by the hand dryer sensing switch 54, the hand dryer 52 is started and dried, and after the preset working time is reached, the hand dryer 52 stops working and enters a dormant state.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the utility model. The utility model is not described in detail in order to avoid unnecessary repetition.

The utility model is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims (9)

1. A disinfection drying mirror cabinet is characterized by comprising:

a cabinet (1) divided into a first zone (101) and a second zone (102) containing different articles;

the cabinet door (2) is connected to the cabinet body (1) through a hinge piece (3) and is divided into a first zone cabinet door (21) arranged corresponding to the first zone (101) and a second zone cabinet door (22) arranged corresponding to the second zone (102);

a sterilizing member divided into a first sterilizing member (41) disposed corresponding to the first region (101) and a second sterilizing member (42) disposed corresponding to the second region (102);

the functional element comprises a towel rack (51) arranged in the first area (101) and a hand dryer (52) positioned below the second area (102); and

the control module is arranged on the cabinet body (1);

the outer sides and the inner sides of the first area cabinet door (21) and the second area cabinet door (22) are provided with plane mirrors (8);

the first disinfection piece (41) comprises a first ultraviolet lamp (411) and an ozone generator (415) which are respectively fixed on the top of the first area (101);

the top of the first area (101) is also provided with a PTC heater (412), an air inlet fan (413), a first illuminating lamp (414) and a first door control switch (416); an exhaust fan (417) is arranged at the bottom of the first area (101);

the first gate control switch (416) is a four-corner two-way switch, the first gate control switch (416) is divided into a first path and a second path, the first ultraviolet lamp (411), the air inlet fan (413), the ozone generator (415) and the exhaust fan (417) are electrically connected to the control module, the second path, the first illuminating lamp (414) and the first gate control switch (416) are connected in series to a power supply, the PTC heater (412) is located at the air outlet end of the air inlet fan (413), and an air inlet cover (9) is arranged at the air inlet end of the air inlet fan (413);

the first area cabinet door (21) is closed and the first door control switch (416) is pressed, the first path is closed, the first ultraviolet lamp (411) and the ozone generator (415) are electrified and work to carry out disinfection, the second path is opened, and the first illuminating lamp (414) is powered off and closed; after the disinfection is finished, the control module controls the air inlet fan (413) and the air exhaust fan (417) to be started so as to exhaust ozone;

the first area cabinet door (21) is opened and the first door control switch (416) is released, the first path is opened, the first ultraviolet lamp (411) and the ozone generator (415) are powered off and closed, the second path is closed, and the first illuminating lamp (414) is powered on and opened.

2. The mirror cabinet of claim 1, wherein: the second area (102) is divided into at least two sub-areas, and at least two second disinfection pieces (42) are arranged corresponding to the sub-areas one by one;

the second disinfection member (42) comprises a second ultraviolet lamp (421) arranged at the top of the subarea; a second illuminating lamp (422) and a second gate control switch (423) are also arranged on the top of the sub-area;

the second gate control switch (423) is a four-corner two-way switch, the second gate control switch (423) is divided into a third way and a fourth way, the third way and the second ultraviolet lamp (421) are electrically connected to the control module, and the fourth way, the second illuminating lamp (422) and the second gate control switch (423) are connected in series to the power supply;

the second area cabinet door (22) is closed and the second door control switch (423) is pressed, the third path is closed, the second ultraviolet lamp (421) is electrified and works, the fourth path is opened, and the second illuminating lamp (422) is powered off and closed; and the second zone cabinet door (22) is opened and the second door control switch (423) is loosened, the third path is disconnected, the second ultraviolet lamp (421) is powered off and closed, the fourth path is closed, and the second illuminating lamp (422) is powered on and opened.

3. The mirror cabinet of claim 2, wherein: when two sub-zones are provided, the second ultraviolet lamp (421) is divided into an upper ultraviolet lamp (421 a) located in one of the sub-zones and a lower ultraviolet lamp (421 b) located in the other sub-zone, and the second illumination lamp (422) is divided into an upper illumination lamp (422 a) located in one of the sub-zones and a lower illumination lamp (422 b) located in the other sub-zone.

4. The mirror cabinet of claim 1, wherein: the hinge parts (3) comprise a plurality of first hinge parts (31) and at least one second hinge part (32), wherein the first hinge parts (31) are fixed on an upper top plate and a lower top plate or a side plate of the cabinet body (1), and the second hinge parts (32) are fixed on a panel or a side plate of the cabinet body (1).

5. The mirror cabinet of claim 4, wherein: the upper end and the lower end of the first area cabinet door (21) are respectively hinged to a first hinge piece (31);

the upper end of the second area cabinet door (22) is hinged to the first hinge piece (31), and the lower end of the second area cabinet door (22) is hinged to the second hinge piece (32).

6. The mirror cabinet of claim 1, wherein: at least one fixing hole (10) is arranged in each of the first area (101) and the second area (102);

the inner sides of the first area cabinet door (21) and the second area cabinet door (22) are both provided with door suction strips (7).

7. The mirror cabinet of claim 1, wherein: an air inlet cover (53) is arranged at the air inlet end of the hand dryer (52), the air outlet end of the hand dryer (52) faces the ground, and an air outlet cover (56) of the hand dryer is arranged at the air outlet end of the hand dryer (52);

the bottom surface of the cabinet body (1) is provided with a hand dryer inductive switch (54) and a hand dryer power switch (55), the hand dryer inductive switch (54) and the hand dryer power switch (55) are electrically connected with the hand dryer (52), and the hand dryer inductive switch (54) senses an approaching object to start the hand dryer (52).

8. The cabinet for sterilizing and drying mirrors according to claim 7, wherein: the towel rack (51) comprises a rack body fixed in the first area (101) and a plurality of rod bodies hinged on the rack body, wherein the rack body is provided with a groove body and a connecting rod fixed in the groove body, and the rod bodies are sleeved on the connecting rod.

9. The disinfection drying mirror cabinet of any one of claims 1-7, wherein: the control module comprises a processing submodule and a control submodule fixed below the second area (102), wherein the processing submodule comprises a main board, a processor communication unit and a communication unit, the processor communication unit is arranged on the main board;

the control submodule comprises a display screen (61), a communication unit and a plurality of control buttons which are respectively and electrically connected with the main board; correspondingly, the first gate control switch (416) and the second gate control switch (423) are electrically connected to the mainboard respectively;

the communication unit is in communication connection with a terminal so as to remotely control the disinfection and drying mirror cabinet to work;

the control button comprises a first area PTC heater and an air inlet fan working knob (63), and the first area PTC heater and the air inlet fan working knob (63) are electrically connected with a power supply;

the PTC heater (412), the air inlet fan (413) and the exhaust fan (417) are started simultaneously by rotating the first zone PTC heater and the air inlet fan working knob (63) to set the working time of the PTC heater (412), the air inlet fan (413) and the exhaust fan (417), so that hot air is exhausted through the exhaust fan (417) after circulating in the first zone (101).

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