CN115400250A

CN115400250A - Disinfection method and disinfection apparatus

Info

Publication number: CN115400250A
Application number: CN202211133123.3A
Authority: CN
Inventors: 刘联杰; 林小明
Original assignee: Hangzhou Youlai Technology Co ltd
Current assignee: Hangzhou Youlai Technology Co ltd
Priority date: 2022-09-16
Filing date: 2022-09-16
Publication date: 2022-11-29
Anticipated expiration: 2042-09-16
Also published as: CN115400250B

Abstract

The application discloses a disinfection method and disinfection equipment, the disinfection method is applied to the disinfection equipment, the disinfection equipment is used for disinfecting cosmetic equipment, the method comprises the step of obtaining the type of the cosmetic equipment when obtaining an equipment detection signal, wherein the equipment detection signal is used for determining that the cosmetic equipment is placed to a preset position. Based on the type of the cosmetic device, a corresponding disinfection mode is configured for the cosmetic device. The cover of the control disinfection equipment is closed. And when the induction signal is acquired, sterilizing the beauty equipment based on the sterilization mode, wherein the induction signal is used for determining that the cover is closed. Through the mode, the head of the beauty equipment such as the depilating instrument and the beauty instrument can be disinfected, so that germs on the head of the beauty equipment are reduced, and the risk of damage to the body health of a user is reduced.

Description

Disinfection method and disinfection apparatus

Technical Field

The application relates to the technical field of beauty equipment, in particular to a disinfection method and disinfection equipment.

Background

With the improvement of living standard, more and more people begin to pay attention to beauty treatment and face care, and the depilating instrument and the beauty instrument are popular with more and more women as a beauty treatment device. During the use of the beauty equipment, the head of the beauty equipment needs to be frequently contacted with the skin of a human body to achieve the effects of hair removal, beauty and the like.

However, the head of the beauty treatment apparatus is easily infested with germs during long-term use of the beauty treatment apparatus, and may cause damage to the health of the user.

Disclosure of Invention

The application aims to provide a disinfection method and disinfection equipment, which can realize the disinfection of the head of beauty equipment such as a depilator, a beauty instrument and the like so as to reduce the germs on the head of the beauty equipment and reduce the risk of damage to the body health of a user.

To achieve the above object, in a first aspect, the present application provides a sterilization method applied to a sterilization apparatus for sterilizing a cosmetic apparatus, the method including:

when an equipment detection signal is acquired, acquiring the type of the beauty equipment, wherein the equipment detection signal is used for determining that the beauty equipment is placed to a preset position;

configuring a corresponding disinfection mode for the cosmetic device based on the type of the cosmetic device;

controlling the cover of the disinfection equipment to be closed;

and when an induction signal is acquired, disinfecting the beauty equipment based on the disinfection mode, wherein the induction signal is used for determining that the cover is closed.

In an optional manner, before the acquiring the type of the cosmetic device when the device detection signal is acquired, the method further includes:

and if the sensing signal and the opening signal are acquired, controlling the cover to be opened, wherein the opening signal is used for indicating the disinfection equipment to start disinfection operation.

In an optional mode, if a control instruction for closing or opening the cover is received, the cover is controlled to be opened or closed, wherein the control instruction comprises at least one of a touch input instruction, a voice input instruction and a gesture input instruction.

In an alternative form, the disinfection device includes at least one of a touch key module, a voice recognition module, and an imaging module, the method further comprising:

the touch input instruction is obtained through the touch key module, and/or the voice input instruction is obtained through the voice recognition module, and/or the gesture input instruction is obtained through the imaging module.

In an alternative form, the sterilizing apparatus includes a rotating shaft coupled to the cover, and a motor coupled to the rotating shaft, the method further comprising:

and controlling the motor to operate so as to control the rotating shaft to rotate and control the cover to close or open.

In an alternative mode, the disinfection device comprises an induction switch module, and/or a pressure detection module, and/or a first infrared detection module, and/or an ultrasonic detection module;

the device detection signal comprises a switching signal and/or a first voltage signal and/or an infrared detection signal and/or a second voltage signal;

the acquiring device detection signals includes:

the switch signal is obtained through the inductive switch module, and/or the first voltage signal is obtained through the pressure detection module, and/or the infrared detection signal is obtained through the first infrared detection module, and/or the second voltage signal is obtained through the ultrasonic detection module.

In an optional manner, the determining whether the cosmetic device has been placed to a preset position according to the device detection signal includes:

and if the level of the switching signal is a second preset level, and/or the first voltage signal is greater than a preset voltage threshold, and/or the level of the infrared detection signal is a third preset level, and/or the detection distance corresponding to the second voltage signal is less than a first preset distance, determining that the beauty equipment is placed at a preset position.

In an optional manner, before the obtaining the type of the cosmetic device, the method further comprises:

acquiring the head temperature of the beauty equipment;

performing acquiring the type of the beauty equipment if it is determined that the beauty equipment meets a sterilization condition based on the head temperature.

In an alternative form, the determining that the cosmetic device is in a disinfection condition based on the head temperature includes:

acquiring the ambient temperature inside the disinfection equipment;

and if the absolute value of the difference value between the environment temperature and the head temperature is smaller than a preset temperature threshold value, determining that the beauty equipment meets the disinfection condition.

In an optional manner, the disinfection device further comprises a heat dissipation module, the method further comprising:

if the absolute value is not smaller than the preset temperature threshold and the head temperature is larger than the environmental temperature, controlling the cover to open and controlling the heat dissipation module to operate to reduce the head temperature until the absolute value is smaller than the preset temperature threshold;

controlling the cover to close and performing the type of the beauty equipment.

In an alternative form, the obtaining of the type of cosmetic device comprises:

acquiring information corresponding to the NFC tag in the beauty equipment, and/or acquiring the weight of the beauty equipment;

determining a type of the cosmetic device based on the information, and/or the weight.

In an optional manner, the method further comprises:

when the cosmetic equipment is disinfected, if the cover is kept closed and a first time length is determined to be larger than a first preset time length threshold value according to the equipment detection signal, the cosmetic equipment is stopped to be disinfected, wherein the first time length is the time length of the cosmetic equipment which is not placed to the preset position.

In an optional manner, the method further comprises:

when the beauty equipment is disinfected, if a first condition or a second condition is met, obtaining a second time length for disinfecting the beauty equipment;

if the second time length is not less than a second time length threshold value, stopping disinfecting the beauty equipment;

wherein the first condition is that the lid remains closed and the first time period is not greater than a first preset time period threshold;

the second condition is that the cover remains closed and it is determined from the device detection signal that the cosmetic device remains placed in the preset position.

In an alternative form, after the stopping of the sterilizing of the cosmetic device, the method further comprises:

controlling the cover to open, and controlling the speed of opening the cover to be reduced to a first preset speed.

In an optional manner, the method further comprises:

when the disinfection operation is not executed, if the sensing signal is not acquired within a first time period and the distance between the inner side of the cover and the front obstacle is detected to be greater than a second preset distance, the cover is controlled to be closed.

In a second aspect, the present application provides a disinfection apparatus comprising:

the cover and the shell form a containing cavity when the cover is closed;

the disinfection module is arranged in the accommodating cavity and is used for disinfecting the beauty equipment;

a control module for controlling a sterilization duration and/or a sterilization power of the sterilization module, the control module comprising:

at least one processor and a memory communicatively coupled to the at least one processor, the memory storing instructions executable by the at least one processor to enable the at least one processor to perform a method as described above.

The beneficial effect of this application is: the application provides a disinfection method applied to a disinfection device, which is used for disinfecting a cosmetic device, and the method comprises the following steps: when an equipment detection signal is acquired, acquiring the type of the beauty equipment, wherein the equipment detection signal is used for determining that the beauty equipment is placed at a preset position; configuring a corresponding disinfection mode for the beauty equipment based on the type of the beauty equipment; the cover of the control disinfection equipment is closed; and when the induction signal is acquired, disinfecting the beauty equipment based on the disinfection mode, wherein the induction signal is used for determining that the cover is closed. Through the mode, the disinfection process of the beauty equipment can be realized through the disinfection box, namely the head of the beauty equipment such as a depilating instrument and a beauty instrument is disinfected, so that germs on the head of the beauty equipment can be reduced, and the risk of damage to the body health of a user is reduced.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a schematic structural diagram of a sterilization apparatus provided in an embodiment of the present application;

FIG. 2 is a schematic structural view of a sterilization apparatus according to another embodiment of the present application;

FIG. 3 is a schematic structural view of a sterilization apparatus according to another embodiment of the present application;

FIG. 4 is a flow chart of a sterilization method provided by an embodiment of the present application;

fig. 5 is a flowchart of a method provided in an embodiment of the present application before step 401 shown in fig. 4 is performed;

fig. 6 is a flow chart of a sterilization method according to another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic structural view of a sterilization apparatus provided in an embodiment of the present application. The sterilizing apparatus 1000 includes a cover 10 and a housing 20. The cover 10 and the housing 20 may be integrally formed. The cover 10 and the housing 20 may also be detachably connected, for example, the cover 10 and the housing 20 may be detachably connected by a snap structure or a magnetic attraction structure. When the cover 10 is closed, a receiving cavity is formed between the cover 10 and the housing 20, and the receiving cavity can receive and protect other components (such as the sterilization module 50 and the control module 40).

The cover 10 is removably aligned in functional relationship with the housing 20. Various mechanisms may be utilized to connect the cap 10 to the housing 20 to create a threaded engagement, a press-fit engagement, an interference fit, a magnetic engagement, and the like. In some embodiments, the disinfection device 1000 may be substantially oblate or cylindrical in shape, etc., when the lid 10 is in an assembled configuration with the housing 20.

The cover 10 and housing 20 may be formed of any suitable structurally sound material. In some examples, the lid 10 and the housing 20 may be formed of a metal or alloy such as stainless steel, aluminum, or the like. Other suitable materials include various plastics (e.g., polycarbonate), ceramics, and the like.

In other embodiments, the disinfection apparatus 1000 further comprises a rotating shaft 30 and a motor (not shown). Wherein the motor is connected to a rotating shaft 30, the rotating shaft 30 is rotatably connected to the housing 20, and the cover 10 is connected to the rotating shaft. By controlling the operation of the motor, the motor operates to drive the rotating shaft 30 to rotate, and the rotating shaft rotates to drive the cover 10 to rotate, so as to control the cover 10 to be closed or opened. Meanwhile, by controlling the speed at which the motor rotates, it is also possible to control the speed at which the cover 10 is closed or opened.

Referring to fig. 1 and 2, the sterilization apparatus 1000 further includes a control module 40 and a sterilization module 50.

Wherein, disinfection module 50 sets up in holding the intracavity, and disinfection module 50 is used for disinfecting cosmetic equipment. The disinfection module 50 is mainly used for disinfecting a part of the beauty equipment, which is in contact with a human body, for example, when the beauty equipment is a hair removal instrument or a beauty instrument, the disinfection module 50 is used for disinfecting a head of the hair removal instrument or the beauty instrument.

In one embodiment, the sterilization module 50 includes a UVC (UV fluorescent lamp) sterilization lamp, such as a low pressure mercury lamp or the like, capable of emitting ultraviolet rays to sterilize the cosmetic device when power is applied. Simultaneously, in some embodiments, because consider that ultraviolet light is invisible light, then for the convenience of promoting the user when disinfecting to the sterilamp, still can set up supplementary pilot lamp all the way at least, wherein, supplementary pilot lamp can be purple light pilot lamp, through control purple light pilot lamp and UVC sterilamp simultaneous working to instruct and observe the disinfection condition of UVC sterilamp through supplementary pilot lamp.

In another embodiment, the disinfection module 50 comprises an ozone generator capable of generating a light blue gas (i.e., ozone) with a special grassy smell, wherein the ozone is capable of removing harmful substances existing on the head of the beauty equipment through oxidation and decomposition, so that the beauty equipment is sterilized and disinfected.

Of course, in other embodiments, the sterilization module 50 may also include any other module capable of sterilizing the beauty treatment apparatus, such as an anion generator for generating anions, and the like, which is not particularly limited in the embodiments of the present application.

The control module 40 is electrically connected to the sterilization module 50, and the control module 40 is configured to control a sterilization duration of the sterilization module 50 and/or a sterilization power, i.e., the control module 40 can control at least one of the sterilization duration and the sterilization power of the sterilization module 50.

The control module 40 may be a Micro Controller Unit (MCU) or a Digital Signal Processing (DSP) controller.

The control module 40 includes at least one processor 41 and a memory 42, wherein the memory 42 may be built in the control module 40 or may be externally installed outside the control module 40, and the memory 42 may be a remotely installed memory and connected to the control module 40 through a network.

Memory 42, which is a non-volatile computer-readable storage medium, may be used to store non-volatile software programs, non-volatile computer-executable programs, and modules. The memory 42 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal, and the like. Further, the memory 42 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, the memory 42 may optionally include memory located remotely from the processor 41, which may be connected to the terminal over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The processor 41 performs various functions of the terminal and processes data by operating or executing software programs and/or modules stored in the memory 42 and calling data stored in the memory 42, thereby performing overall monitoring of the terminal, for example, implementing a sterilization method in any of the embodiments of the present application.

The processor 41 may be one or more, and one processor 41 is illustrated in fig. 2. The processor 41 and the memory 42 may be connected by a bus or other means. Processor 41 may include a Central Processing Unit (CPU), digital Signal Processor (DSP), application Specific Integrated Circuit (ASIC), controller, field Programmable Gate Array (FPGA) device, and the like. Processor 41 may also be implemented as a combination of computing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration.

It should be noted that the hardware configuration of the disinfection device 1000 as shown in fig. 2 is only one example, and that the disinfection device 1000 may have more or fewer components than shown in the figures, may combine two or more components, or may have a different configuration of components, and that the various components shown in the figures may be implemented in hardware, software, or a combination of hardware and software including one or more signal processing and/or application specific integrated circuits.

For example, in one embodiment, as shown in FIG. 3, the disinfection device 1000 further comprises a sensing module 60. The sensing module 60 is electrically connected to the control module 40.

The sensing module 60 is at least partially disposed on the cover 10 shown in fig. 1, and when the cover 10 is closed, the sensing module 60 outputs a sensing signal and transmits the sensing signal to the control module 40; the sensing module 60 does not output a sensing signal when the cover 10 is opened. For example, in one embodiment, when the cover 10 is opened, the output terminal of the sensing module 60 (i.e. the terminal of the sensing module 60 outputting the sensing signal) is connected to the power supply, and the output terminal of the sensing module 60 outputs a high level signal, which corresponds to the case where the sensing module 60 does not output the sensing signal; when the cover 10 is closed, the output terminal of the sensing module 60 is grounded, and the output terminal of the sensing module 60 outputs a low level signal, which corresponds to the sensing module 60 outputting a sensing signal in this embodiment. Thus, if the control module 40 detects the sensing signal, it is determined that the cover 10 is closed. Of course, in other embodiments, when the cover 10 is opened, the output end of the sensing module 60 outputs a low level signal, and the sensing module 60 does not output a sensing signal; meanwhile, when the lid 10 is closed, the output terminal of the sensing module 60 outputs a high level signal, and corresponds to the sensing module 60 outputting a sensing signal.

In turn, the control module 40, upon determining whether the lid 10 has been closed, can determine whether the sterilizing apparatus 1000 is in working condition. Wherein, when it is determined that the cover 10 is closed, the sterilizing apparatus 1000 meets the working condition, at which time the sterilizing apparatus 1000 can start sterilizing the beauty equipment; otherwise, the working condition is not met, and the sterilizing apparatus 1000 cannot start sterilizing the beauty appliance. Can prevent the body of the user from being damaged by the disinfection operation which is carried out by mistake when the cover 10 is opened, and is beneficial to protecting the personal safety of the user.

In one embodiment, the sensing module 60 may be an electronic door switch, which is composed of a switch portion and a magnet portion, wherein the switch portion is formed by connecting, shaping and packaging a magnetic reed switch through a lead, and one end of the lead is electrically connected to the power supply, and the other end of the lead is electrically connected to the control module 40; the magnet part is made of a magnet with a certain magnetic field intensity, is packaged in a plastic or alloy shell and is arranged on the cover 10. When the switch part and the magnet part are separated by a certain distance, the switch part is disconnected, and the control module 40 does not receive the induction signal; when the switch portion and the magnet portion approach to a certain distance, the switch portion is turned on to input a high level signal to the control module 40 through the power supply, that is, the sensing signal received by the control module 40 is a high level signal.

In another embodiment, the sensing module 60 may also be a mechanical limit switch with contacts. The limit switch may be disposed on the cover 10 or may be disposed on the housing 20. One end of the limit switch is electrically connected with the power supply, and the other end of the limit switch is electrically connected with the control module 40. When the cover 10 is closed, the contact is pressed down, the limit switch is closed, so that a high-level signal is input to the control module 40 through the power supply, namely, an induction signal received by the control module 40 is a high-level signal; when the cover 10 is opened, the contacts spring open, the limit switch is turned off, and the control module 40 does not receive the sensing signal.

It is understood that the above embodiments exemplarily show two implementations of the sensing module 60, and in other embodiments, other implementations may also be adopted, and the present application is not particularly limited thereto.

For another example, in an embodiment, please continue to refer to fig. 3, the sterilization apparatus 1000 further includes at least one of the inductive switch module 100, the pressure detection module 70, the first infrared detection module 80, and the ultrasonic detection module 90. The inductive switch module 100, the pressure detection module 70, the first infrared detection module 80 and the ultrasonic detection module 90 are all connected with the control module 40, and the inductive switch module 100, the pressure detection module 70, the first infrared detection module 80 and the ultrasonic detection module 90 are all arranged in the accommodating cavity of the disinfection apparatus 1000. The inductive switch module 100, the pressure detection module 70, the first infrared detection module 80 and the ultrasonic detection module 90 can be used to detect whether the beauty equipment is placed in the disinfection equipment, i.e. whether the beauty equipment is placed to a preset position.

The inductive switch module 100 is configured to output a switching signal to the control module 40. The inductive switch module 100 has one end electrically connected to the power source and the other end electrically connected to the control module 40 to input a switching signal to the control module 40. In one embodiment, when the beauty appliance is placed in the receiving cavity of the sterilizing apparatus 1000, the inductive switch module 100 is pressed and the connection between the power supply and the control module 40 is established, and the level of the switch signal is a high level signal; when the beauty equipment is not placed in the receiving cavity of the sterilizing apparatus 1000, the inductive switch module 100 is released and disconnects the connection between the power supply and the control module 40, the level of the switching signal is a low level signal, and the second preset level corresponds to a high level signal. The control module 40 may determine that the cosmetic device is placed in the receiving chamber of the sterilizing apparatus 1000 when the level of the switching signal is a second preset level.

The pressure detecting module 70 is used for detecting pressure and outputting a first voltage signal corresponding to the pressure to the control module 40. When the beauty equipment is placed in the accommodating cavity of the sterilizing device 1000, the beauty equipment acts on the pressure detection module 70, the pressure is increased, the voltage corresponding to the first voltage signal is increased and is greater than the preset voltage threshold, that is, the control module 40 can determine that the beauty equipment is placed in the accommodating cavity of the sterilizing device 1000 when detecting that the voltage of the first voltage signal is greater than the preset threshold; when the beauty equipment is not placed in the receiving cavity of the sterilizing apparatus 1000, the beauty equipment leaves the pressure detecting module 70, the pressure is reduced to zero or close to zero, and the voltage corresponding to the first voltage signal is reduced to zero or close to zero, and then the control module 40 may determine that the beauty equipment is not placed in the receiving cavity of the sterilizing apparatus 1000.

The first infrared detection module 80 is configured to output an infrared detection signal to the control module 40. In one embodiment, when the beauty equipment is placed in the accommodating cavity of the sterilizing apparatus 1000, the distance between the first infrared detection module 80 and the sterilizing apparatus 1000 is less than the detection distance of the first infrared detection module 80, and the level of the infrared detection signal is a high level signal; when the beauty equipment is not placed in the accommodating cavity of the sterilizing equipment 1000, the distance between the first infrared detection module 80 and the sterilizing equipment 1000 is greater than the detection distance of the first infrared detection module 80, the level of the infrared detection signal is a low level signal, and the third preset level corresponds to a high level signal. The control module 40 may determine that the cosmetic device is placed in the receiving chamber of the sterilizing apparatus 1000 when the level of the infrared detection signal is a third preset level.

The ultrasonic detection module 90 is configured to detect an obstacle distance from a direction in which the ultrasonic detection module 90 transmits the ultrasonic wave, and output a second voltage signal corresponding to the distance to the control module 40. When the beauty equipment is placed in the accommodating cavity of the sterilizing equipment 1000, the distance between the first infrared detection module 80 and the sterilizing equipment 1000 is reduced and is smaller than the first preset distance, that is, the control module 40 can determine that the beauty equipment is placed in the accommodating cavity of the sterilizing equipment 1000 according to the fact that the detection distance corresponding to the second voltage signal is smaller than the first preset distance; when the beauty equipment is not placed in the accommodating cavity of the sterilizing apparatus 1000, the distance between the first infrared detection module 80 and the sterilizing apparatus 1000 is increased and is greater than the first preset distance, and at this time, the control module 40 may determine that the beauty equipment is not placed in the accommodating cavity of the sterilizing apparatus 1000.

It is understood that the above embodiments exemplarily show various implementations for detecting whether the cosmetic device has been placed to the preset position, and in other embodiments, other implementations may also be adopted, and the present application is not particularly limited thereto.

For another example, in an embodiment, referring to fig. 3, the sterilization apparatus 1000 further includes a temperature detection module 110 and a heat dissipation module 120.

The temperature detection module 110 is electrically connected to the control module 40. When the beauty treatment apparatus is disposed in the receiving cavity of the sterilizing apparatus 1000, the temperature detecting module 110 is used to detect the temperature of the head of the beauty treatment apparatus (i.e., the head temperature) and to detect the ambient temperature in the receiving cavity, and simultaneously transmit the head temperature and the ambient temperature to the control module 40. Then, the control module 40 can determine whether the beauty equipment meets the disinfection condition according to the head temperature and the environmental temperature. Specifically, when the absolute value of the difference between the ambient temperature and the head temperature is smaller than the preset temperature threshold, the control module 40 determines that the beauty equipment meets the sterilization condition, and can sterilize the beauty equipment; when the absolute value of the difference between the ambient temperature and the head temperature is not less than the preset temperature threshold, the control module 40 determines that the beauty equipment does not meet the sterilization condition, and the beauty equipment cannot be sterilized. Therefore, the beauty equipment can be sterilized at a proper temperature, and a better sterilization effect can be achieved.

In some embodiments, the temperature detecting module 110 may include a thermistor, a resistance value of the thermistor changes with a change in temperature, and the actual change in temperature can be determined by obtaining the resistance value of the thermistor or an electrical signal related to the resistance value (e.g., a current value flowing through the thermistor, or a voltage value across the thermistor, etc.). Of course, other temperature measurement methods can be used, and the embodiment of the present application is not limited to this, for example, the temperature detection module 110 may include an infrared temperature detection sensor, and determine the head temperature of the beauty device by measuring the infrared energy radiated by the head of the beauty device.

Then, if the control module 40 determines that the beauty equipment does not meet the sterilization condition, the head temperature of the beauty equipment can be adjusted. For example, if the head temperature of the beauty equipment is greater than the ambient temperature and the absolute value of the difference between the head temperature and the ambient temperature is not less than the preset temperature threshold, the box 10 may be controlled to be opened first, and the head temperature of the beauty equipment is reduced through the operation of the heat dissipation module 120 until the absolute value of the difference between the head temperature and the ambient temperature is less than the preset temperature threshold, so that the beauty equipment meets the sterilization condition, and the beauty equipment may be sterilized. In some embodiments, the heat dissipation module 120 may be a fan, and the fan is controlled to blow air to the head of the beauty apparatus to reduce the temperature of the head. In addition, at least one of the operation duration and the operation power of the heat dissipation module 120, that is, the operation duration and the operation power of the fan, may be correspondingly controlled according to the head temperature of the beauty equipment, so as to simultaneously implement the energy saving function and the cooling function.

For another example, in another embodiment, please continue to refer to fig. 3, the disinfection apparatus 1000 further includes at least one of the touch button module 130, the voice recognition module 140 and the imaging module 150. The touch key module 130, the voice recognition module 140 and the imaging module 150 are all connected with the control module 40, and the touch key module 130, the voice recognition module 140 and the imaging module 150 are all disposed in the accommodating cavity of the disinfection apparatus 1000. The touch key module 130, the voice recognition module 140, and the imaging module 150 receive an instruction input by a user, and perform a corresponding operation according to the instruction input by the user, for example, perform a closing or opening operation of the cover 10.

The touch key module 130 is configured to obtain a touch input instruction of a user. When the user touches the touch key module 130, the touch key module 130 directly generates a touch input command and transmits the touch input command to the control module 40. For example, when the user needs to control the opening or closing of the cover 10, the user may touch a position of the touch key module 130 related to the opening or closing of the cover 10, and then the touch key module 130 generates a control command related to the opening or closing of the cover 10, and the control module 40 controls the opening or closing of the cover 10 accordingly (for example, controls the forward rotation or the reverse rotation of the motor in the above embodiment to control the opening or closing of the cover 10) after receiving the control command.

In some embodiments, the touch key module 130 may include a resistive touch key or a capacitive touch key. The resistance type touch key changes the resistance size based on the fact that a human body presses the resistance, and therefore a touch input instruction is generated; the capacitive touch key generates a touch input instruction through human body induction capacitance.

The voice recognition module 140 is used for acquiring a voice input instruction of a user. When the user sends a voice to the voice recognition module 140, the voice recognition module 140 can recognize information corresponding to the voice, convert the signal into a voice input instruction, and transmit the voice input instruction to the control module 40. For example, when the user needs to control the cover 10 to be opened, the user may speak a voice "open the cover", and the voice recognition module 140 generates a voice input instruction corresponding to "open the cover". The control module 40 controls the cover 10 to be opened after receiving the voice input command.

The imaging module 150 is configured to obtain a gesture image of a user, and convert the gesture image into a corresponding gesture output instruction. When a user makes a gesture to the imaging module 150, the imaging module 150 can recognize information corresponding to the gesture, convert the signal into a gesture input instruction, and transmit the gesture input instruction to the control module 40. For example, when the user needs to control the cover 10 to open, the user may perform a finger opening action on the imaging module 150, the imaging module 150 recognizes the information corresponding to the gesture as "open the cover", and the imaging module 150 generates a gesture input instruction corresponding to "open the cover". The control module 40 controls the cover 10 to open after receiving the gesture input command.

In one embodiment, with continued reference to fig. 3, the disinfection apparatus 1000 further comprises a second infrared detection module 160.

The second infrared detection module 160 is electrically connected to the control module 40. The second infrared detection module 160 is vertically disposed on one side of the cover 10 shown in fig. 1 close to the housing 20 (i.e., the inner side of the cover 10). The second infrared detection module 160 is used to detect a distance between the inside of the cover 10 and a front obstacle, where the front obstacle is an obstacle in which the second infrared detection module 160 emits red light. When the distance between the inner side of the cover 10 and the front obstacle is less than a second preset distance, that is, the distance between the obstacle and the second infrared detection module 160 is less than the detection distance of the second infrared detection module 160, the second infrared detection module 160 can output a corresponding obstacle detection signal to the control module 40, so that the control module 40 determines that the front obstacle of the cover 10 exists. Then, when an obstacle such as a hand of a user exists between the cover 10 and the housing 20 when the cover 10 is opened, the control module 40 can determine that an obstacle exists in front of the cover 10, and the control module 40 controls the cover 10 to be kept open, thereby preventing injury to the body of the user when the cover 10 is closed. Meanwhile, when the cover 10 is opened and the sterilization apparatus is not sterilized, if the control module 40 determines that there is no obstacle in front of the cover 10 through the second infrared detection module 160, the control module 40 may control the cover 10 to close at this time, so as to prevent the sterilization apparatus from affecting its normal use due to abnormal conditions such as dust generated inside.

Referring to fig. 4, fig. 4 is a flowchart of a sterilization method according to an embodiment of the present disclosure. The disinfection method is applied to disinfection equipment which is used for disinfecting beauty equipment. In some embodiments, the disinfecting device can be implemented by the structures shown in fig. 1 to fig. 3, and the specific implementation process is described in detail in the above embodiments and is not described herein again. In other embodiments, the cosmetic device includes a depilatory device, a cosmetic device, or the like for beautifying or improving a human body.

As shown in fig. 4, the sterilization method includes the steps of:

step 401: and acquiring the type of the beauty equipment when the equipment detection signal is acquired.

Wherein the device detection signal is used to determine that the cosmetic device has been placed in a preset position. The preset position is a position that can be used for sterilizing the cosmetic device, for example, the sterilizing device is a sterilizing device 1000 shown in fig. 1, and the preset position is located in a receiving cavity of the sterilizing device 1000. And when the cosmetic apparatus is placed at the preset position, the cosmetic apparatus should be at least partially (e.g., a portion of the cosmetic apparatus contacting a human body, such as a head of an epilator) opposite to the sterilizing module 30 in the sterilizing apparatus 1000 so that the sterilizing module 30 can sterilize the cosmetic apparatus.

In one embodiment, disinfection device 1000 includes inductive switch module 100, and/or pressure detection module 70, and/or infrared detection module 80, and/or ultrasonic detection module 90 as shown in fig. 3, the device detection signal includes a switch signal, and/or a first voltage signal, and/or an infrared detection signal, and/or a second voltage signal.

The specific process of acquiring the device detection signal in step 401 includes the following steps: the switch signal is obtained by the inductive switch module 100, and/or the first voltage signal is obtained by the pressure detection module 70, and/or the infrared detection signal is obtained by the infrared detection module 80, and/or the second voltage signal is obtained by the ultrasonic detection module 90.

The specific process of determining whether the beauty equipment is placed at the preset position according to the equipment detection signal in step 401 includes the following steps: and if the level of the switch signal is a second preset level, and/or the first voltage signal is greater than a preset voltage threshold, and/or the level of the infrared detection signal is a third preset level, and/or the detection distance corresponding to the second voltage signal is less than a preset distance threshold, determining that the beauty equipment is placed at the preset position.

The implementation process of step 401 may refer to the detailed description of the inductive switch module 100, the pressure detection module 70, the infrared detection module 80, and the ultrasonic detection module 90 in fig. 3 in the foregoing embodiment, and is not described herein again.

In another embodiment, before performing step 401, the sterilization method further comprises the steps of: and if the sensing signal and the opening signal are acquired, controlling the cover to open. Wherein the turn-on signal is used to instruct the disinfection apparatus to start a disinfection operation.

Specifically, if the sensing signal is acquired, it is determined that the lid is closed at this time. Meanwhile, if the opening signal is acquired, it is determined that the sterilization operation is to be started, and then the cosmetic device is placed in the sterilization device for the convenience of a user, and the cover is automatically controlled to be opened. When the user places the beauty equipment into the sterilizing apparatus and to a preset position, the equipment detection signal can be acquired, and then step 401 can be performed.

The start signal is a signal input by a user, for example, the user inputs the start signal through at least one of the touch key module 130, the voice recognition module 140, and the imaging module 150 shown in fig. 3.

In an embodiment, as shown in fig. 5, before performing the acquiring of the type of cosmetic device in step 401, the sterilization method further comprises the steps of:

step 501: the head temperature of the cosmetic device is acquired.

Step 502: acquiring the type of the beauty equipment is performed if it is determined that the beauty equipment meets the sterilization condition based on the head temperature.

In particular, during the operation of the beauty equipment, a higher or lower cooling power may be set, so that the temperature of the head of the beauty equipment just after the operation is finished may be too high or too low after the beauty equipment is shut down, and in this case, the effect of sterilizing the beauty equipment is poor. Therefore, after the cosmetic device is determined to be placed to the preset position, whether the sterilization condition is met needs to be further determined according to the head temperature of the cosmetic device, so that a better sterilization effect is achieved.

In one embodiment, the specific process of determining that the cosmetic device meets the disinfection condition based on the head temperature in step 502 comprises the following steps: the ambient temperature inside the disinfection apparatus is obtained. And if the absolute value of the difference value between the ambient temperature and the head temperature is less than the preset temperature threshold, determining that the beauty equipment meets the disinfection condition.

Wherein the ambient temperature inside the disinfection apparatus may be detected by a temperature detection module, such as the temperature detection module 110 shown in fig. 3. When the difference between the ambient temperature and the head temperature is small, the cosmetic device can be sterilized with a good sterilization effect.

When the absolute value of the difference between the ambient temperature and the head temperature is less than the preset temperature threshold, namely when the ambient temperature is greater than the head temperature, the difference between the ambient temperature and the head temperature is less than the preset temperature threshold; when the ambient temperature is less than the head temperature, the difference between the head temperature and the ambient temperature is less than a preset temperature threshold. In this case, the difference between the ambient temperature and the head temperature may be small. The preset temperature threshold value can be set according to practical application conditions, and is not specifically limited in the embodiment of the application, for example, in order to improve the disinfection effect, the preset temperature threshold value can be set to a small value, such as 10 ℃.

And when the absolute value of the difference value between the ambient temperature and the head temperature is not less than the preset temperature threshold value and the head temperature is greater than the ambient temperature, namely the head temperature is too high at the moment, the head temperature can be cooled, so that the beauty equipment meets the disinfection condition, and the beauty equipment can be disinfected. Specifically, in an embodiment, the sterilization apparatus further includes a heat dissipation module, and if the absolute value of the difference between the ambient temperature and the head temperature is not less than the preset temperature threshold and the head temperature is greater than the ambient temperature, the cover is controlled to open, and the heat dissipation module is controlled to operate to reduce the head temperature until the absolute value of the difference is less than the preset temperature threshold. Controlling the cover to close and performing the type of the beauty equipment.

Wherein, control the lid earlier and open, be favorable to making disinfecting equipment inside and outside air carry out heat transfer to accelerate the speed of cooling, and be in. The specific process for controlling the operation of the heat dissipation module comprises the following steps: and determining the operation power and/or the operation duration of the heat dissipation module according to the head temperature. And controlling the operation of the heat dissipation module according to the operation power and/or the operation duration. For a specific implementation process, reference may be made to the detailed description of the heat dissipation module 120 in fig. 3 in the foregoing embodiment, which is not described herein again.

Step 402: based on the type of the beauty equipment, a corresponding disinfection mode is configured for the beauty equipment.

In one embodiment, the specific process of obtaining the type of the beauty device in step 402 includes the following steps: and acquiring information corresponding to the NFC tag in the beauty equipment, and/or acquiring the weight of the beauty equipment. Based on the information, and/or the weight, the type of cosmetic device is determined.

The NFC tag comprises information such as the type of the beauty equipment, and the type of the beauty equipment can be determined by acquiring the information corresponding to the NFC tag.

The weight (or mass) of different beauty equipment is different, and the type of the beauty equipment can be determined by acquiring the weight of the beauty equipment and according to the preset corresponding relation between the weight and the type. In some embodiments, the weight of the beauty device can be obtained through the first voltage signal output by the pressure detection module 70 shown in fig. 3, so that the determination that the beauty device is placed at the preset position and the determination of the type of the beauty device can be simultaneously achieved only by providing the pressure detection module 70, and the cost can be reduced.

In addition, if the type of the beauty equipment is determined by combining the weights of the NFC tag and the beauty equipment, abnormal conditions caused by attachment errors of the NFC tag or weight detection errors can be reduced, and the accuracy is improved.

In one embodiment, after obtaining the type of cosmetic device in step 402, the sterilization method further comprises the steps of: and judging whether the type of the beauty equipment is matched with a preset type. And if the type of the beauty equipment is matched with the preset type, executing a corresponding disinfection mode configured for the beauty equipment. And if the type of the beauty equipment is not matched with the preset type, stopping executing the disinfection mode corresponding to the beauty equipment configuration.

In this embodiment, the correspondence between the type of the beauty treatment apparatus (i.e., the preset type) and the sterilization mode should be set in advance, wherein the preset type includes at least one type. Then, it should be determined whether the type of the current beauty equipment corresponds to the preset type, and only if the type of the beauty equipment corresponds to the preset type, that is, only if the type of the beauty equipment is one of the preset types, the configuring of the corresponding disinfection mode for the beauty equipment and the subsequent steps are continuously performed. For example, the preset types include A, B, C, if the type of the obtained beauty equipment is a, B or C, the corresponding disinfection mode configured for the beauty equipment can be continuously executed; otherwise, the corresponding disinfection mode configured for the beauty equipment and the subsequent steps are stopped to be continuously executed. Thus, it is possible to prevent the occurrence of an abnormal situation in which the user is erroneously sterilized when placing other devices that do not need sterilization into the sterilizing apparatus.

In one embodiment, the specific content of configuring the corresponding disinfection mode for the cosmetic device in step 402 includes the following steps: configuring the cosmetic device with a corresponding disinfection duration and/or disinfection power.

Specifically, the different sterilization modes correspond to at least one of different sterilization durations and sterilization powers. That is, for different types of cosmetic devices, corresponding disinfection duration may be configured, or corresponding disinfection power may be matched, or corresponding disinfection duration and disinfection power may be matched, so as to achieve a more effective disinfection effect.

Step 403: the cover of the control disinfection equipment is closed.

After the corresponding disinfection mode is matched for the beauty equipment, the cover is automatically controlled to be closed, so that the disinfection equipment meets the working condition of disinfection. The working condition is a condition capable of disinfecting the beauty equipment, and generally refers to whether a space for disinfecting the beauty equipment is a closed space, and if the space is the closed space, the disinfection condition is met, namely the working condition is met, so that the body of a user can be prevented from being damaged in the disinfection process of the beauty equipment. For example, in an embodiment, when the sterilization apparatus is the sterilization apparatus 1000 shown in fig. 1, the accommodating chamber of the sterilization apparatus 1000 is a closed space when the cassette is closed, and the sterilization apparatus 1000 meets the working condition.

Step 404: and when the induction signal is acquired, disinfecting the beauty equipment based on the disinfection mode.

When the sensing signal is obtained, the cover can be determined to be closed, and the sterilizing equipment is determined to be in accordance with the working condition. It can be understood that, the detailed description of the sensing module 60 in fig. 3 in the above embodiment can be referred to for a specific implementation process of obtaining the sensing signal, and is not repeated here.

In some embodiments, the sterilization method further comprises the steps of: and when a control command of closing or opening the cover is received, the cover is controlled to be opened or closed. The control instruction comprises at least one of a touch input instruction, a voice input instruction and a gesture input instruction.

Specifically, if a control instruction for closing the cover is received, closing the cover is controlled; and if a control instruction for opening the cover is received, the cover is controlled to be opened.

In one embodiment, the sterilization apparatus includes at least one of a touch key module, a voice recognition module and an imaging module, and the sterilization method further includes the steps of: the touch input instruction is obtained through the touch key module, and/or the voice input instruction is obtained through the voice recognition module, and/or the gesture input instruction is obtained through the imaging module.

The above implementation process may refer to the above embodiment to describe details of the touch key module 130, the voice recognition module 140, and the imaging module 150 in fig. 3, which is not described herein again.

In one embodiment, the sterilization method further comprises the steps of: when the cosmetic device is sterilized, if the cover of the sterilization device is opened, the sterilization of the cosmetic device is stopped.

In any process of disinfecting the beauty equipment, as long as the disinfecting equipment is opened, the disinfecting process is stopped immediately, so that the accidents of user injury and the like are prevented, and the reliability of the disinfecting process is improved.

In another embodiment, the sterilization method further comprises the steps of: when the cosmetic equipment is disinfected, if the cover of the disinfection equipment is kept closed, and the first time length is determined to be larger than a first preset time length threshold value according to the equipment detection signal, the disinfection of the cosmetic equipment is stopped, wherein the first time length is the time length when the cosmetic equipment is not placed to a preset position.

In this embodiment, when the cosmetic device is sterilized, the sterilizing device meets the working condition if the cover is kept closed. In this case, the time length (i.e., the first time length) during which the beauty apparatus is not placed at the preset position is determined by the apparatus detection signal, and if the first time length is greater than the first preset time length threshold value, it is determined that the beauty apparatus has been removed from the preset position, i.e., the beauty apparatus is not in the preset position, and at this time, the sterilization process should be stopped.

The first preset time threshold is a preset time threshold, and can be set according to practical application conditions, and the embodiment of the application does not specifically limit the time threshold, for example, in some embodiments, the first preset time threshold can be set to be 2 seconds, and only when the first time is longer than 2 seconds, the disinfection of the beauty equipment is stopped, so that the disinfection process can be prevented from being stopped mistakenly due to the vibration of the disinfection equipment, and the stability of the disinfection process is favorably maintained.

In one embodiment, the sterilization method further comprises the steps of: when the cosmetic device is sterilized, if the first condition or the second condition is met, a second time length for sterilizing the cosmetic device is acquired. And if the second time length is not less than the second time length threshold value, stopping disinfecting the beauty equipment.

Wherein the first condition is that the cover of the disinfection device remains closed and that the first time period is not greater than a first preset time period threshold value as determined from the device detection signal. The second condition is that the cover of the sterilizing device is kept closed and it is determined that the cosmetic device is kept placed at the preset position according to the device detection signal.

In this embodiment, two ways of determining that the cosmetic device is held in the preset position during the sterilization of the cosmetic device are provided. The first way is that the lid remains closed (i.e. corresponding to the sterilisation device being in working condition) and it is determined from the device detection signal that the cosmetic device remains placed in the preset position, this way corresponding to the second condition. The second mode is that the cover is kept closed, and the time length (namely the first time length) that the cosmetic device is not placed to the preset position is determined to be not more than the first preset time length threshold value through the device detection signal, then it is determined that the cosmetic device may temporarily leave the preset position due to the fact that the disinfection device is shaken and the like, but the cosmetic device is located at the preset position again due to the fact that the disinfection device is stable in a short time, the situation is still determined at the preset position, so that misjudgment caused by the reasons that the disinfection box is shaken and the like is reduced, and the mode corresponds to the first condition.

In the process of disinfecting the beauty equipment, the cover is kept closed, and the beauty equipment is kept at the preset position, so that the disinfection duration (namely the second duration) of the beauty equipment can be obtained in real time to determine the moment when the disinfection is finished. When the second time length is less than the second time length threshold value, the disinfection is not finished correspondingly; and when the second time length is not less than the second time length threshold value, the disinfection is finished, namely, the disinfection of the beauty equipment is stopped. After configuring the corresponding disinfection mode according to the type of the beauty equipment, the total disinfection time for the beauty equipment is determined, the total disinfection time is the second time threshold, and the size of the second time threshold can be set according to the actual application situation, which is not specifically limited in the embodiment of the present application.

In some embodiments, after the step of stopping sterilizing the cosmetic device is performed, the sterilization method further includes the steps of: controlling the opening of the cover, and controlling the speed of the opening of the cover to be reduced to a first preset speed.

In particular, after the sterilization operation is finished, the cover is automatically opened at a slower speed, which can provide convenience to the user on the one hand; on the other hand, the opening speed of the cover is reduced, so that the phenomenon that a user is still influenced in the opening process of the cover can be avoided, and the safety is improved.

In other embodiments, the sterilization method further comprises the steps of: when the disinfection operation is not executed, if the induction signal is not acquired within the first time and the distance between the inner side of the cover and the front obstacle is detected to be greater than a second preset distance, the cover is controlled to be closed.

The sensing signal is not acquired within a period of time (namely within a first period of time) after the disinfection operation is stopped, namely, the cover is still in an open state within a period of time after the disinfection operation is stopped, at the moment, if the fact that the distance between the inner side of the cover and the front barrier is greater than a second preset distance is detected, the fact that the cover does not contact the front barrier in the cover closing process can be determined, and under the condition, the cover is controlled to be automatically closed. On the one hand, the cover 10 can be prevented from harming the body of the user when closed; on the other hand, the normal use of the disinfection equipment is prevented from being influenced by the abnormal condition of dust and the like generated inside the disinfection equipment.

In one embodiment, if the sterilizing apparatus is provided with the second infrared detection module 160 as shown in fig. 3, it can be determined whether there is an obstacle in front of the inside of the cover by the second infrared detection module 160. For the implementation process, reference may be made to the above-described embodiment to describe details of the second infrared detection module 160 in fig. 3, which is not described herein again.

Referring to fig. 6, fig. 6 is a flowchart of a sterilization method according to another embodiment of the present application. As shown in fig. 6, after the disinfection apparatus is powered on, the disinfection apparatus is in a dormant state in which the disinfection apparatus does not perform any substantial work. Then, judging whether an opening signal is acquired, namely judging whether to start to execute a disinfection operation, and if the opening signal is acquired, keeping the disinfection equipment in a dormant state; if the opening signal is acquired, whether the induction signal is acquired or not is further judged, namely whether the cover is closed or not is judged (namely whether the working condition is met or not is judged). If the induction signal is acquired, the cover is in a closed state at the moment, and the cover needs to be controlled to be opened, so that a user can conveniently place the beauty equipment into the disinfection equipment. If the sensing signal is not acquired, the cover is not closed, and whether the key module is pressed down or not can be further judged (namely whether the cosmetic equipment is placed to a preset position or not is judged according to the equipment detection signal output by the key module). If the key module is not pressed, the disinfection equipment still keeps a dormant state. And if the key module is pressed down, determining that the beauty equipment is placed at the preset position. Then, the head temperature of the beauty equipment and the ambient temperature inside the sterilizing equipment are detected. If the absolute value of the difference between the head temperature and the ambient temperature is not less than the preset temperature threshold, the cover is opened, the head of the beauty equipment is cooled until the absolute value of the difference between the head temperature and the ambient temperature is less than the preset temperature threshold, and the cover is closed. And if the absolute value of the difference value between the two is smaller than the preset temperature threshold value, closing the cover. After the cover is closed, determining the type of the beauty equipment, judging whether the type of the beauty equipment is the type meeting the requirements, specifically judging whether the type of the beauty equipment is matched with a preset type or not, and if the type of the beauty equipment is matched with the preset type, judging that the type of the beauty equipment is the type meeting the requirements; otherwise, the type is not qualified. If the type is not in accordance with the requirement, a corresponding prompt is given, for example, an indicator lamp regularly flashes or a buzzer is adopted, and then the disinfection device is kept in a dormant state to wait for a user to perform subsequent operation. And if the type of the cosmetic equipment meets the requirement, matching a corresponding disinfection mode for the cosmetic equipment according to the type of the cosmetic equipment, and starting to disinfect.

Whether the cover is opened or not (or whether the cover is not closed) is judged in real time during the process of sterilizing the beauty equipment. If the cover is opened, the cosmetic equipment is stopped being disinfected, namely the disinfection is finished, and the disinfection equipment is kept in a dormant state after the cover is opened; if the cover is not opened, whether the key module is released or not is judged (whether the key module is not pressed or not can also be judged). If the key module is released, whether the released time length of the key module is greater than a first preset time length threshold value is further judged so as to determine whether the key module is released due to vibration. If the loosening time is longer than a first preset time threshold, determining that the beauty equipment is moved away from the disinfection equipment, namely the beauty equipment is not positioned at a preset position, stopping disinfecting the beauty equipment at the moment, namely finishing the disinfection, and opening a cover to keep the disinfection equipment in a dormant state; and if the releasing time length is not greater than the first preset time length threshold value, the beauty equipment is still kept at the preset position. Of course, if the key module is not released, it is also determined that the beauty equipment is kept at the preset position. In this case, it is only necessary to obtain the time length (i.e., the second time length) for sterilizing the beauty equipment and determine whether the time length for sterilizing is greater than the second time length threshold. If the second time length is less than the second preset time length threshold value, the disinfection equipment is kept to be disinfected, and whether the cover is opened or not is kept to be judged. If the second time length is greater than or equal to the second preset time length threshold value, the disinfection finishing time can be determined, the cosmetic equipment is stopped being disinfected at the time, namely the disinfection is finished, and the disinfection equipment is kept in a dormant state after the cover is opened.

In conclusion, in the embodiment, when the beauty equipment needs to be disinfected, the process of automatically disinfecting the beauty equipment is realized, the object to be disinfected and the disinfection environment are accurately determined, an effective disinfection effect can be achieved, germs on the head of the beauty equipment can be reduced, and the risk of damage to the body health of a user is reduced. In the disinfection process, various conditions (such as whether the cover is opened) for disinfecting the beauty equipment are detected in real time, so that the stability and the high efficiency of the disinfection process of the beauty equipment are realized, and the personal safety of a user is protected.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; within the context of the present application, where technical features in the above embodiments or in different embodiments can also be combined, the steps can be implemented in any order and there are many other variations of the different aspects of the present application as described above, which are not provided in detail for the sake of brevity; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A sterilization method, characterized by being applied to a sterilization apparatus for sterilizing a cosmetic apparatus, the method comprising:

controlling the cover of the disinfection equipment to close;

and when a sensing signal is acquired, disinfecting the beauty equipment based on the disinfection mode, wherein the sensing signal is used for determining that the cover is closed.

2. The disinfection method according to claim 1, wherein before said acquiring the type of the beauty appliance upon acquiring the appliance detection signal, the method further comprises:

3. The sterilization method according to claim 1, further comprising:

and if a control instruction for closing or opening the cover is received, the cover is controlled to be opened or closed, wherein the control instruction comprises at least one of a touch input instruction, a voice input instruction and a gesture input instruction.

4. The sterilization method according to claim 3, wherein the sterilization apparatus includes at least one of a touch key module, a voice recognition module, and an imaging module, the method further comprising:

5. A sterilization method according to claim 1, wherein said sterilization apparatus includes a rotation shaft connected to said cover, and a motor connected to said rotation shaft, said method further comprising:

the motor is controlled to operate so as to control the rotating shaft to rotate and control the cover to close or open.

6. A disinfection method as claimed in claim 1, characterized in that said disinfection apparatus comprises an inductive switch module, and/or a pressure detection module, and/or a first infrared detection module, and/or an ultrasonic detection module;

the acquiring device detection signals includes:

the switch signal is acquired through the inductive switch module, and/or the first voltage signal is acquired through the pressure detection module, and/or the infrared detection signal is acquired through the first infrared detection module, and/or the second voltage signal is acquired through the ultrasonic detection module.

7. The disinfection method according to claim 6, wherein the determining whether the cosmetic device has been placed to a preset position according to the device detection signal comprises:

8. The sterilization method according to claim 1, wherein prior to said obtaining the type of the cosmetic device, the method further comprises:

acquiring the head temperature of the beauty equipment;

9. The sterilization method according to claim 8, wherein the determining that the cosmetic device meets the sterilization condition based on the head temperature includes:

acquiring the ambient temperature inside the disinfection equipment;

10. The sterilization method of claim 9, wherein the sterilization apparatus further comprises a heat dissipation module, the method further comprising:

controlling the cover to close and performing the type of the beauty equipment.

11. The sterilization method according to claim 1, wherein said obtaining of the type of said cosmetic device comprises:

12. The sterilization method according to claim 1, further comprising:

13. The sterilization method according to claim 12, further comprising:

when the cosmetic equipment is disinfected, if a first condition or a second condition is met, obtaining a second time length for disinfecting the cosmetic equipment;

14. The sterilization method according to claim 12 or 13, wherein after the stopping of the sterilization of the cosmetic device, the method further comprises:

15. The sterilization method according to claim 1, further comprising:

16. A disinfection apparatus, comprising:

the cover and the shell form a containing cavity when the cover is closed;

at least one processor and a memory communicatively coupled to the at least one processor, the memory storing instructions executable by the at least one processor to enable the at least one processor to perform the method of any of claims 1-15.