CN117258129A - Permeation promotion control method, permeation promotion beauty instrument and storage medium - Google Patents

Abstract

The application provides a permeation promotion control method, a permeation promotion beauty instrument and a storage medium. The permeation promoting control method is applied to a permeation promoting beauty instrument, the permeation promoting beauty instrument comprises an ultrasonic permeation promoting assembly and an iontophoresis assembly, the ultrasonic permeation promoting assembly is used for sending ultrasonic waves to skin covered with a substance to be permeated so as to promote the substance to be permeated to permeate into the skin, and the iontophoresis assembly is used for outputting iontophoresis current so as to drive the substance to be permeated covered on the surface of the skin to permeate into the skin; the permeation promotion control method comprises the following steps: controlling the ultrasonic permeation promotion component to emit ultrasonic waves to the skin covered with the permeation promotion substance; judging whether the skin meets preset conditions or not when the ultrasonic permeation promoting assembly emits ultrasonic waves to the skin; and controlling the iontophoresis assembly to output iontophoresis current to the skin when it is determined that the skin meets the preset condition. The permeation control method combines two permeation promotion modes of ultrasonic permeation promotion and iontophoresis, and can remarkably improve the permeation effect of substances to be permeation promoted.

Description

Permeation promotion control method, permeation promotion beauty instrument and storage medium

Technical Field

The application relates to the technical field of beauty equipment, in particular to a permeation promotion control method, a permeation promotion beauty instrument and a storage medium.

Background

When the ultrasonic wave acts on the skin, cavitation effect, flow effect, mechanical effect and thermal effect can be generated, the absorption capacity of the skin to the permeation promoting functional substance can be improved, the permeation promoting functional substance to the skin can be more strongly permeated, and the permeation promoting effect with higher efficiency can be achieved. Even if the skin has different penetrating capacities, the better penetration promoting effect can be achieved. Iontophoresis is a process of promoting penetration of a functional substance to be promoted into skin by applying an electric current, and can promote penetration of the functional substance to be promoted.

At present, an ultrasonic permeation promoting mode or an iontophoresis mode is adopted for promoting permeation of substances to be promoted and a permeation promoting function is single.

Disclosure of Invention

In order to solve the technical problems, the application provides a permeation control method, a permeation promotion beauty instrument and a storage medium, which combine two permeation promotion modes of ultrasonic permeation promotion and iontophoresis, and can remarkably improve the permeation effect of substances to be permeation promoted.

The first aspect of the application provides a permeation promotion control method, which is applied to a permeation promotion beauty instrument, wherein the permeation promotion beauty instrument comprises an ultrasonic permeation promotion component and an iontophoresis component, the ultrasonic permeation promotion component is used for sending ultrasonic waves to skin covered with a substance to be permeation promoted so as to promote the substance to be permeation promoted to permeate the skin, and the iontophoresis component is used for outputting iontophoresis current so as to drive the substance to be permeation promoted covered on the surface of the skin to permeate the skin; the permeation promotion control method comprises the following steps: controlling the ultrasonic penetration enhancer to emit ultrasonic waves to the skin covered with the penetration enhancer; judging whether the skin meets preset conditions or not when the ultrasonic permeation promoting assembly sends ultrasonic waves to the skin; and controlling the iontophoresis assembly to output iontophoresis current to the skin when it is determined that the skin satisfies the preset condition.

The second aspect of the application provides a skin care instrument, which comprises an ultrasonic permeation promotion component, an iontophoresis component and a control module, wherein the ultrasonic permeation promotion component is used for sending out ultrasonic waves to skin covered with a substance to be permeated so as to promote the substance to be permeated into the skin, the iontophoresis component is used for outputting iontophoresis current so as to drive the substance to be permeated into the skin covered on the surface of the skin, the control module is used for controlling the ultrasonic permeation promotion component to send out ultrasonic waves to the skin covered with the substance to be permeated, and judging whether the skin meets preset conditions when the ultrasonic permeation promotion component sends out ultrasonic waves to the skin, and controlling the iontophoresis component to output iontophoresis current to the skin when the skin meets the preset conditions.

A third aspect of the present application provides a computer readable storage medium having a computer program stored therein, the computer program being configured to be executed after being called by a processor to implement the aforementioned penetration enhancing control method.

According to the permeation control method, the permeation control cosmetic instrument and the storage medium, the permeation of the substances to be permeated is performed in an ultrasonic permeation control mode, then when preset conditions are met, the substances to be permeated are permeated in an iontophoresis mode, the permeation effect of the substances to be permeated can be remarkably improved by combining the two permeation control modes of the ultrasonic permeation control mode and the iontophoresis mode, and the pore diameter of a pipeline of the skin is enlarged by utilizing cavitation effect, flow effect, mechanical effect and thermal effect generated by the ultrasonic permeation control mode, the substances to be permeated can be promoted to permeate the skin, and then the permeation control mode of the iontophoresis is adopted, so that the permeation control efficiency of the iontophoresis can be improved in the iontophoresis process, and the permeation of the substances to be permeated into the skin is further promoted.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a permeation promotion control method according to an embodiment of the present application.

Fig. 2 is a block diagram of a permeation-promoting cosmetic instrument according to an embodiment of the present application.

Fig. 3 is a sub-flowchart of step S20 in fig. 1 according to an embodiment of the present application.

Fig. 4 is a block diagram of a penetration-promoting cosmetic apparatus according to another embodiment of the present application.

Reference numerals illustrate:

100-a penetration promoting cosmetic instrument; 10-an ultrasonic infiltration promoting assembly; a 20-iontophoresis assembly; 30-a skin parameter acquisition module; 40-control module.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without undue burden, are within the scope of the present application.

In the description of the present application, the terms "first," "second," "third," and the like are used for distinguishing between different objects and not for describing a particular sequence, and furthermore, the terms "upper," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the description of the present application, unless explicitly stated and limited otherwise, the term "coupled" is to be interpreted broadly, as for example, being either fixedly coupled, detachably coupled, or integrally coupled; can be directly connected, can also be indirectly connected through an intermediate medium, and can also be the communication between the two elements; may be a communication connection; may be an electrical connection. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1 and fig. 2, fig. 1 is a flowchart of a method for controlling permeation promotion according to an embodiment of the present application, and fig. 2 is a block diagram of a structure of a permeation promotion cosmetic instrument 100 according to an embodiment of the present application. As shown in fig. 2, the penetration enhancer 100 includes an ultrasonic penetration enhancer 10 and an iontophoresis unit 20, wherein the ultrasonic penetration enhancer 10 is used for emitting ultrasonic waves to skin covered with a substance to be penetrated to enhance penetration of the substance to be penetrated into the skin, and the iontophoresis unit 20 is used for outputting iontophoresis current to drive the substance to be penetrated to the skin covered on the surface of the skin. As shown in fig. 1, the permeation promotion control method includes the following steps:

s10: the sonophoresis assembly 10 is controlled to emit ultrasound waves to the skin covered with the substance to be osmolyte.

S20: when the ultrasonic infiltration promoting assembly 10 emits ultrasonic waves to the skin, whether the skin meets preset conditions is judged.

S30: upon determining that the skin satisfies the preset condition, controlling the iontophoresis assembly 20 to output iontophoresis current to the skin.

According to the permeation control method provided by the embodiment of the application, the permeation of the substances to be permeated is firstly promoted by adopting an ultrasonic permeation promotion mode, then when preset conditions are met, the permeation of the substances to be permeated is promoted by adopting an iontophoresis mode, and the permeation effects of the substances to be permeated can be remarkably improved by combining the two permeation promotion modes of ultrasonic permeation promotion and iontophoresis.

In some embodiments, the substances to be promoted can include at least one of toner, lotion, essence, whitening water, emulsion, face cream, eye cream, gel, lipstick, lip cream, skin milk and moisturizing milk, and the substances to be promoted can also be other types of substances with the effects of beautifying and protecting skin.

In some embodiments, the ultrasonic infiltration promoting assembly 10 includes an ultrasonic generator and an LC oscillating circuit (resonant circuit). The LC oscillating circuit comprises a capacitor and an inductor connected with the capacitor, the ultrasonic generator comprises a piezoelectric wafer and a resonance plate, and the LC oscillating circuit is used for applying an electric signal with a certain frequency to the piezoelectric wafer so that the piezoelectric wafer resonates and drives the resonance plate to vibrate to generate ultrasonic waves. Wherein, by controlling the LC oscillating circuit to emit electric signals with different frequencies, the ultrasonic generator can emit ultrasonic waves with different frequencies, and by controlling the output power of the LC oscillating circuit and the frequency of the emitted electric signals, the output power and the output frequency of the ultrasonic infiltration promoting assembly 10 can be adjusted.

When the ultrasonic wave acts on the skin, cavitation effect, flow effect, mechanical effect and thermal effect are generated, and the cavitation effect, flow effect, mechanical effect and thermal effect can promote substances to be promoted to permeate into the skin, so that the ultrasonic wave introduction function is realized. Specifically, cavitation effect can cause the lipid bilayer in the skin to become disordered, and the fluidity of the lipid bilayer is increased, so that the substances to be permeated penetrate through the lipid bilayer and enter the skin; the flowing effect enables the substances to be promoted to form induced convection with the skin, promotes the substances to be promoted to flow and transport to the skin, sweat glands and hair follicles, and further enables the penetration capacity of the substances to be promoted to be stronger; the mechanical effect can enable the skin cytoplasm to flow, the cells to vibrate and rotate, so that the substances to be promoted and the cell membranes generate shock waves in high-speed movement, and the substances to be promoted penetrate into the skin; the heat generated by the heat effect can be absorbed by the skin, and the temperature of the skin is increased after the heat is absorbed, so that the caliber of the vascular dilation, pore and sweat gland catheter is enlarged, the penetrating capacity of skin cells is improved, and the absorption capacity of the skin to permeation promoting substances is improved.

In some embodiments, the iontophoresis device 20 includes at least two electrodes disposed at intervals, and the at least two electrodes are used for respectively outputting voltages with opposite polarities, and outputting the iontophoresis current so as to drive the substances to be permeated, which are output to the skin surface, to permeate the skin. The material of the electrode may comprise a conductive material, such as a metal.

Wherein the substance to be pro-osmotic agent comprises a charged substance comprising a negatively charged substance and a positively charged substance. When the skin permeation enhancer 100 is used, at least two electrodes of the iontophoresis assembly 20 are respectively contacted with a human body, and when the at least two electrodes respectively output voltages with opposite polarities, the at least two electrodes and the human body form a current loop to drive a substance to be permeation enhancer covered on the skin into the skin, and the direction of current in the current loop is from the electrode outputting a positive voltage from the at least two electrodes to the electrode outputting a negative voltage from the human body to the at least two electrodes.

Since the movement direction of the negatively charged substance is opposite to the direction of the current, by controlling the at least two electrodes to output positive and negative voltages, respectively, the negatively charged substance can be driven to move in the direction from the electrode outputting the negative voltage to the human body, thereby promoting the negatively charged substance to permeate into the inner layer of the skin. On the other hand, it is also understood that negatively charged substances that are applied to the skin repel the electrode that outputs the negative voltage and attract the electrode that outputs the positive voltage through the human body, so that the negatively charged substances enter the skin, and the introduction of the negatively charged substances into the skin is achieved.

Since the movement direction of the positively charged substance is the same as the direction of the current, the positively charged substance can be driven to move in the direction from the electrode outputting the positive voltage to the human body by controlling the at least two electrodes to output the positive voltage and the negative voltage, respectively, thereby promoting the positively charged substance to permeate into the skin lining. On the other hand, it is also understood that a positively charged substance applied to the skin repels the electrode outputting the positive voltage and attracts the electrode outputting the negative voltage through the human body, so that the positively charged substance enters the skin, thereby realizing the introduction of the positively charged substance into the skin.

Referring to fig. 3, a sub-flowchart of step S20 in fig. 1 is provided in an embodiment of the present application. In some embodiments, as shown in fig. 3, when the sonotrode assembly 10 emits ultrasonic waves to the skin, determining whether the skin meets a preset condition includes the steps of:

s21: obtaining skin parameters of the skin.

S22: judging whether the acquired skin parameters meet preset conditions.

Controlling the iontophoresis assembly 20 to output iontophoresis current to the skin when it is determined that the skin satisfies the preset condition includes: upon determining that the acquired skin parameter satisfies the preset condition, controlling the iontophoresis assembly 20 to output iontophoresis current to the skin.

By acquiring the skin parameters of the skin and controlling the iontophoresis current to be output when the skin parameters meet the preset conditions, the output of the iontophoresis assembly 20 can be adapted to the current skin condition of the skin, and the iontophoresis effect can be improved.

Referring to fig. 4, a block diagram of a penetration enhancing cosmetic apparatus 100 according to another embodiment of the present application is shown. As shown in fig. 2, in some embodiments, the penetration enhancing cosmetic device 100 may include a skin parameter acquisition module 30 for acquiring skin parameters of the skin.

In some embodiments, the skin parameter comprises skin temperature and/or skin impedance. The acquiring the skin parameters of the skin comprises: and acquiring the skin temperature of the skin at the current moment and/or acquiring the skin impedance of the skin at the current moment and the last moment.

The judging whether the acquired skin parameter meets a preset condition comprises the following steps: when the skin temperature obtained at the current moment is in a preset temperature range, determining that the skin parameter meets the preset condition; and/or determining an impedance variation according to the skin impedance obtained at the current moment and the skin impedance obtained at the last moment, and determining that the skin parameter meets the preset condition when the impedance variation is larger than a preset impedance variation.

The skin impedance obtained at the previous moment can be subtracted from the skin impedance obtained at the current moment to obtain the impedance variation.

Wherein, in some embodiments, the skin parameter of the skin can be detected in real time, and the current time and the last time can be two adjacent times. In other embodiments, the skin parameter of the skin may be obtained at intervals of a predetermined time, and the current time and the previous time may be separated by the predetermined time, where the predetermined time may be set according to actual requirements.

When the skin temperature obtained at the current moment is within a preset temperature range, determining that the skin parameter meets the preset condition may include: and when the skin temperature acquired at the current moment is increased and is increased to be within a preset temperature range, determining that the skin parameter meets the preset condition.

Wherein the impedance variation includes an impedance increase, and when the impedance variation is greater than a preset impedance variation, determining that the skin parameter meets the preset condition may include: and when the impedance increase is larger than a first preset impedance increase, determining that the skin parameter meets the preset condition.

When the obtained skin temperature is within a preset temperature range and/or the impedance variation is greater than the preset impedance variation, the vasodilation of the skin is obvious, the caliber of pores and sweat gland ducts is enlarged more, and at the moment, the iontophoresis assembly 20 is controlled to output iontophoresis current to the skin, so that the iontophoresis current can be facilitated to drive the substances to be promoted to permeate into the skin, the iontophoresis promoting efficiency can be improved, and the penetration of the substances to be promoted to permeate into the skin is further promoted.

Wherein, the preset temperature range and the preset impedance variation can be set according to actual requirements.

In some embodiments, the skin parameter obtaining module 30 may include a temperature sensor for obtaining a skin temperature of the skin at a current time and/or a current sampling circuit for collecting a current flowing through the electrode, and may determine an impedance of the skin according to the current collected by the current sampling circuit and an output voltage of the electrode.

In some embodiments, the penetration enhancing control method further comprises: and when the skin parameter is determined not to meet the preset condition, controlling and adjusting the output power and/or the output frequency of the ultrasonic penetration promoting assembly 10 according to the acquired skin parameter, wherein the skin parameter comprises skin temperature and/or skin impedance. That is, when the obtained skin parameter does not meet the preset condition, the iontophoresis device 10 is controlled to emit ultrasonic waves, the iontophoresis device 20 does not output, and during the process that the sonophoresis device 10 emits ultrasonic waves to promote the permeation of the substances to be infiltrated into the skin, the skin parameter of the skin is detected, and the output power and/or the output frequency of the sonophoresis device 10 are controlled and adjusted according to the detected skin parameter.

In the process that the ultrasonic permeation promoting assembly 10 emits ultrasonic waves and the iontophoresis assembly 20 does not output ultrasonic waves, the output power and/or the output frequency of the ultrasonic permeation promoting assembly 10 can be adjusted by controlling and adjusting according to the detected skin parameters, so that the output power and/or the output frequency of the ultrasonic permeation promoting assembly 10 can be adapted to the condition of the skin acted by the ultrasonic waves, and the ultrasonic permeation promoting effect can be improved and the skin is prevented from being damaged.

In some embodiments, when the obtained temperature increase of the skin temperature at the current time relative to the previous time is greater than the first preset temperature increase and/or the obtained impedance increase of the skin impedance at the current time relative to the previous time is greater than the second preset impedance increase, controlling to reduce the output power and/or the output frequency of the sonophoresis assembly 10 or sending out prompt information for prompting to perform an adjustment operation for reducing the output power and/or the output frequency of the sonophoresis assembly 10 so as to avoid burning the skin; when the obtained temperature reduction amount of the skin temperature at the current moment relative to the last moment is larger than a first preset temperature reduction amount and/or the obtained impedance change amount of the skin impedance at the current moment relative to the last moment is larger than a first preset impedance reduction amount, controlling to increase the output power and/or the output frequency of the ultrasonic permeation promotion component 10 or sending out prompt information for prompting to perform the adjustment operation for reducing the output power and/or the output frequency of the ultrasonic permeation promotion component 10 so as to avoid insufficient ultrasonic permeation promotion intensity and influence on the ultrasonic permeation promotion effect.

The first preset temperature rise, the second preset impedance rise, the first preset temperature decrease and the first preset impedance decrease can be set according to actual requirements. In some embodiments, the second preset impedance increase is less than the first preset impedance increase.

In some embodiments, upon determining that the skin meets the preset condition, the method further comprises: the ultrasonic infiltration promoting assembly 10 is controlled to stop emitting ultrasonic waves. That is, upon determining that the skin satisfies the preset condition, the iontophoresis assembly 20 is controlled to output iontophoresis current, and the sonophoresis assembly 10 is controlled to stop emitting ultrasound. Wherein the iontophoresis assembly 20 may be simultaneously controlled to output while the sonophoresis assembly 10 does not.

When the skin satisfies the preset condition, the iontophoresis assembly 20 is controlled to output iontophoresis current, and the sonophoresis assembly 10 is controlled to stop emitting ultrasonic waves, so that power consumption can be reduced, and energy waste can be avoided.

In other embodiments, upon determining that the skin meets the preset condition, the iontophoresis assembly 20 may be controlled to output iontophoresis current and maintain the sonophoresis assembly 10 continuing to emit ultrasound waves.

In some embodiments, the penetration enhancing control method further comprises: when the iontophoresis assembly 20 outputs iontophoresis current to the skin, the iontophoresis current output by the iontophoresis assembly 20 is controlled and regulated according to the acquired skin parameters, wherein the skin parameters comprise skin temperature and/or skin impedance. That is, after controlling the iontophoresis assembly 20 to output the iontophoresis current, a skin parameter of the skin is detected and the iontophoresis current output by the iontophoresis assembly 20 is controlled to be adjusted according to the detected skin parameter.

In the process of outputting the iontophoresis current by the iontophoresis assembly 20, the iontophoresis current output by the iontophoresis assembly 20 is controlled and regulated according to the detected skin parameter, so that the iontophoresis current output by the iontophoresis assembly 20 is adapted to the condition of the skin, thereby improving the iontophoresis effect and avoiding the skin from being damaged.

In some embodiments, adjusting the iontophoresis current output by the iontophoresis assembly 20 according to the obtained skin temperature and/or the skin impedance control when the iontophoresis assembly 20 outputs the iontophoresis current to the skin comprises: when the obtained temperature rise of the skin temperature at the current moment relative to the previous moment is larger than a second preset temperature rise and/or the obtained impedance change of the skin impedance at the current moment relative to the previous moment is larger than a third preset impedance rise, controlling to reduce the iontophoresis current or sending out prompt information for prompting the regulation operation of reducing the iontophoresis current so as to avoid burning the skin; when the obtained temperature reduction amount of the skin temperature at the current moment relative to the last moment is larger than a second preset temperature reduction amount and/or the obtained impedance change amount of the skin impedance at the current moment relative to the last moment is larger than a second preset impedance reduction amount, the iontophoresis current is controlled to be increased or prompt information for prompting the adjustment operation for increasing the iontophoresis current is sent out, so that the iontophoresis effect is prevented from being influenced due to insufficient iontophoresis intensity.

The second preset temperature rise, the third preset impedance rise, the second preset temperature decrease and the second preset impedance decrease can be set according to actual requirements. In some embodiments, the third preset impedance increase is less than the first preset impedance increase.

Wherein, the penetration enhancer 100 may include a prompt component, such as a vibration component, a voice component, a display screen, a communication module, etc., for sending the prompt message to prompt for an adjustment operation for decreasing or increasing iontophoresis current.

In some embodiments, the penetration enhancing control method further comprises: the penetration enhancer 100 is controlled to send out prompt information to prompt current penetration enhancer information, wherein the penetration enhancer information comprises at least one of skin parameters, a penetration enhancer mode at the current moment and output intensity at the current moment, and the penetration enhancer mode is one of an ultrasonic penetration enhancer mode, an iontophoresis mode and a combined penetration enhancer mode, and the output intensity comprises the output intensity of the ultrasonic penetration enhancer assembly 10 and/or the output intensity of the iontophoresis assembly 20.

The skin parameter included in the penetration promoting information may include a skin temperature and/or a skin impedance at the current time, and/or a temperature variation of the skin temperature at the current time relative to the skin temperature at the previous time, and/or an impedance variation of the skin impedance at the current time relative to the skin impedance at the previous time, where the temperature variation includes a temperature increase or a temperature decrease, and the impedance variation includes an impedance increase or an impedance decrease.

Wherein, when the penetration enhancer 100 is in the sonophoresis mode, the sonophoresis assembly 10 outputs and the iontophoresis assembly 20 does not output; when the penetration enhancer 100 is in the iontophoresis mode, the ultrasonic penetration enhancer 10 is not output and the iontophoresis module 20 is output; when the penetration enhancer 100 is in the combined penetration enhancer mode, both the ultrasonic penetration enhancer assembly 10 and the iontophoresis assembly 20 are output.

Wherein the output intensity of the sonotrode assembly 10 may comprise the output power and/or output frequency of the sonotrode assembly 10. The output intensity of the iontophoresis assembly 20 may include an iontophoresis current output by the iontophoresis assembly 20.

By controlling the permeation promoting beauty instrument 100 to send out the prompt information for prompting the permeation promoting information, the user can know the current permeation promoting condition of the permeation promoting beauty instrument 100 conveniently, and the user can adjust the ultrasonic permeation promoting assembly 10 and/or the iontophoresis assembly 20 to the permeation promoting beauty instrument 100 according to the permeation promoting information.

In some embodiments, the penetration enhancing control method further comprises: generating a pro-osmotic mode adjustment signal in response to a pro-osmotic mode adjustment operation; determining a target pro-osmotic mode according to the pro-osmotic mode adjustment signal; controlling the output of the ultrasonic penetration enhancing assembly 10 and/or the iontophoresis assembly 20 such that the penetration enhancing cosmetic device 100 is in the target penetration enhancing mode; and/or generating a first output intensity adjustment signal in response to the first output intensity adjustment operation; determining a first target output intensity according to the first output intensity adjustment signal; controlling the sonophoresis assembly 10 to output at the first target output intensity; and/or generating a second output intensity adjustment signal in response to a second output intensity adjustment operation; determining a second target output intensity from the second output intensity adjustment signal; the iontophoresis device 20 is controlled to output at the second target output intensity.

Wherein when the target permeation promotion mode is determined to be the ultrasonic permeation promotion mode according to the permeation promotion mode adjusting signal, the ultrasonic permeation promotion assembly 10 is controlled to emit ultrasonic waves, and the iontophoresis assembly 20 is controlled not to output; when the target permeation promoting mode is determined to be the iontophoresis mode according to the permeation promoting mode adjusting signal, controlling the ultrasonic permeation promoting assembly 10 not to emit ultrasonic waves and controlling the iontophoresis assembly 20 to output iontophoresis current; when the target pro-osmotic mode is determined to be the combined pro-osmotic mode according to the pro-osmotic mode adjusting signal, the ultrasonic pro-osmotic assembly 10 is controlled to emit ultrasonic waves, and the iontophoresis assembly 20 is controlled to output iontophoresis current.

In some embodiments, the pro-penetration cosmetic apparatus 100 may be provided with at least two pro-penetration mode buttons for performing a pro-penetration mode switching operation to generate the pro-penetration mode adjustment signal. The user may switch the pro-penetration mode of the pro-penetration cosmetic instrument 100 by pressing the pro-penetration mode button.

In some embodiments, the penetration enhancer 100 is provided with at least two ultrasonic penetration enhancer steps, each corresponding to the output intensity of an ultrasonic penetration enhancer 10, and determining the first target output intensity according to the first output intensity adjustment signal may include: determining a target ultrasonic infiltration promoting gear according to the first output intensity adjusting signal; and determining the output intensity corresponding to the target ultrasonic penetration promoting gear as the first target output intensity.

In some embodiments, the penetration enhancing cosmetic device 100 may be provided with at least two ultrasonic penetration enhancing gear buttons for performing an ultrasonic penetration enhancing gear adjustment operation to generate the first output intensity adjustment signal. The user may increase or decrease the output intensity of the sonotrode assembly 10 by pressing the sonotrode gear button.

In some embodiments, the penetration enhancer 100 is provided with at least two iontophoresis gear positions, each iontophoresis gear position corresponding to the output intensity of one iontophoresis assembly 20, and the determining the second target output intensity according to the second output intensity adjustment signal may include: determining a target iontophoresis gear according to the second output intensity adjustment signal; and determining the output intensity corresponding to the target iontophoresis gear as the second target output intensity.

In some embodiments, the penetration enhancing cosmetic device 100 may be provided with at least two iontophoresis gear buttons for performing iontophoresis gear adjustment operations to generate the second output intensity adjustment signal. The user may adjust the output intensity of the iontophoresis assembly 20 by pressing the iontophoresis gear button to increase or decrease the output intensity.

In other embodiments, the penetration enhancing cosmetic device 100 further comprises a display screen provided with a penetration enhancing mode adjustment operation interface for performing a penetration enhancing mode switching operation to generate the penetration enhancing mode adjustment signal, an ultrasonic penetration enhancing gear adjustment operation interface for performing an ultrasonic penetration enhancing gear adjustment operation to generate the first output intensity adjustment signal, and an iontophoresis gear adjustment operation interface for performing an iontophoresis gear adjustment operation to generate the second output intensity adjustment signal. The user may also input the first target output intensity at the ultrasound-assisted permeation range adjustment operating interface and/or the second target output intensity at the iontophoresis range adjustment operating interface.

In some embodiments, the controlling the iontophoresis assembly 20 to output iontophoresis current when it is determined that the skin satisfies the preset condition includes: and controlling the iontophoresis assembly 20 to output iontophoresis current when the duration of time that the skin receives the ultrasonic wave emitted by the ultrasonic infiltration promoting assembly 10 is longer than a preset duration of time.

That is, when the period of time that the ultrasonic wave is emitted from the ultrasonic horn 10 reaches the preset period of time, it is determined that the skin satisfies the preset condition, and the iontophoresis assembly 20 is controlled to output iontophoresis current.

The preset time length can be set according to actual requirements.

In some embodiments, the penetration enhancing control method further comprises: and when the acquired skin temperature is greater than a preset temperature threshold value and/or the acquired current passing through the electrode is greater than a preset current threshold value, controlling the ultrasonic permeation promotion assembly 10 and/or the iontophoresis assembly 20 to stop outputting so as to protect the skin.

The current passing through the electrode can be acquired through the current sampling circuit. The skin temperature may be obtained by the aforementioned temperature sensor.

Referring again to fig. 2, the present application further provides an apparatus 100 for promoting permeation, as mentioned above, the apparatus 100 further includes an ultrasonic promoting component 10 and an iontophoresis component 20, the apparatus 100 further includes a control module 40, the ultrasonic promoting component 10 is configured to send out ultrasonic waves to the skin covered with the substance to promote permeation, so as to promote permeation of the substance to be promoted into the skin, the iontophoresis component 20 is configured to output iontophoresis current to drive the substance to be promoted to permeate into the skin, the control module 40 is configured to control the ultrasonic promoting component 10 to send out ultrasonic waves to the skin covered with the substance to be promoted, and when the ultrasonic promoting component 10 sends out ultrasonic waves to the skin, determine whether the skin meets a preset condition, and when it is determined that the skin meets the preset condition, control the iontophoresis component 20 to output iontophoresis current to the skin.

According to the permeation promotion cosmetic instrument 100 provided by the embodiment of the application, the permeation promotion is performed on the substances to be permeated in an ultrasonic permeation promotion mode, then when preset conditions are met, the substances to be permeated are subjected to permeation promotion in an iontophoresis mode, the permeation effects of the substances to be permeated can be remarkably improved by combining the two permeation promotion modes of the ultrasonic permeation promotion and the iontophoresis, and the permeation of the substances to be permeated into the skin can be promoted by expanding the pipeline aperture of the skin by using cavitation effect, flow effect, mechanical effect and thermal effect generated by the ultrasonic permeation promotion, and then permeation promotion is performed in an iontophoresis mode, so that the substances to be permeated into the skin to be permeated can be driven to expand the pipeline aperture, and the iontophoresis permeation promotion efficiency can be improved in the iontophoresis process, so that the substances to be permeated into the skin can be further promoted.

The control module 40 may include a CPU (central processing unit), DSP (digital signal processor), a single-chip microcomputer, and the like.

In some embodiments, the penetration enhancing cosmetic device 100 further comprises a skin parameter acquisition module 30.

Wherein, the penetration enhancer 100 corresponds to the penetration enhancer control method, and the more detailed description can be found in the content of each embodiment of the penetration enhancer control method, and the content of the penetration enhancer 100 and the content of the penetration enhancer control method can also be referred to each other. In the method steps of the embodiments of the present application, when the execution subject is not specifically described, the execution subject may be executed by the control module 40.

The embodiment of the application also provides a computer readable storage medium, wherein a computer program is stored in the computer readable storage medium, and the computer program is used for being executed after being called by a processor so as to realize the permeation promotion control method provided by any embodiment.

Those of ordinary skill in the art will appreciate that all or a portion of the steps in the various methods of the above embodiments may be implemented by a program that instructs associated hardware, and the program may be stored in a computer readable memory, which may include: flash disk, read-only memory, random access memory, magnetic or optical disk, etc.

It should be noted that, for simplicity of description, the foregoing method embodiments are all expressed as a series of action combinations, but it should be understood by those skilled in the art that the present application is not limited by the order of actions described, as some steps may be performed in other order or simultaneously in accordance with the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required in the present application.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

The foregoing is a description of embodiments of the present application, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the principles of the embodiments of the present application, and these improvements and modifications are also considered as the protection scope of the present application.

Claims (12)

1. The permeation promoting control method is applied to a permeation promoting beauty instrument and is characterized by comprising an ultrasonic permeation promoting assembly and an iontophoresis assembly, wherein the ultrasonic permeation promoting assembly is used for sending ultrasonic waves to skin covered with a substance to be permeated so as to promote the substance to be permeated to permeate the skin, and the iontophoresis assembly is used for outputting iontophoresis current so as to drive the substance to be permeated covered on the surface of the skin to permeate the skin; the permeation promotion control method comprises the following steps:

controlling the ultrasonic penetration enhancer to emit ultrasonic waves to the skin covered with the penetration enhancer;

judging whether the skin meets preset conditions or not when the ultrasonic permeation promoting assembly sends ultrasonic waves to the skin;

and controlling the iontophoresis assembly to output iontophoresis current to the skin when the skin is determined to meet the preset condition.

2. The penetration control method of claim 1, wherein determining whether the skin meets a preset condition when the ultrasonic penetration promoting assembly emits ultrasonic waves to the skin comprises:

acquiring skin parameters of the skin;

judging whether the acquired skin parameters meet preset conditions or not;

controlling the iontophoresis assembly to output iontophoresis current to the skin when it is determined that the skin satisfies the preset condition, comprising:

and controlling the iontophoresis component to output iontophoresis current to the skin when the acquired skin parameter is determined to meet the preset condition.

3. The penetration enhancing control method of claim 2, wherein the skin parameter comprises skin temperature and/or skin impedance; the acquiring the skin parameters of the skin comprises:

acquiring the skin temperature of the skin at the current moment and/or acquiring the skin impedance of the skin at the current moment and the last moment;

the judging whether the acquired skin parameter meets a preset condition comprises the following steps:

when the skin temperature obtained at the current moment is in a preset temperature range, determining that the skin parameter meets the preset condition; and/or

And determining an impedance variation according to the skin impedance obtained at the current moment and the skin impedance obtained at the last moment, and determining that the skin parameter meets the preset condition when the impedance variation is larger than a preset impedance variation.

4. The permeation control method according to claim 2, wherein said method further comprises:

and when the skin parameter is determined not to meet the preset condition, controlling and adjusting the output power and/or the output frequency of the ultrasonic penetration promoting assembly according to the acquired skin parameter, wherein the skin parameter comprises skin temperature and/or skin impedance.

5. The penetration enhancing control method of claim 1, wherein upon determining that the skin meets the preset condition, the method further comprises:

and controlling the ultrasonic infiltration promoting assembly to stop emitting ultrasonic waves.

6. The permeation control method according to claim 2, wherein said method further comprises:

and when the iontophoresis assembly outputs iontophoresis current to the skin, controlling and adjusting the iontophoresis current output by the iontophoresis assembly according to the acquired skin parameters, wherein the skin parameters comprise skin temperature and/or skin impedance.

7. The permeation-promoting control method according to claim 6, wherein adjusting the iontophoresis current output by the iontophoresis assembly according to the obtained skin temperature and/or the skin impedance control when the iontophoresis assembly outputs the iontophoresis current to the skin, comprises:

when the obtained temperature rise of the skin temperature at the current moment relative to the previous moment is larger than a preset temperature rise and/or the obtained impedance change of the skin impedance at the current moment relative to the previous moment is larger than a preset impedance increase, controlling to reduce the iontophoresis current or sending out prompt information for prompting to carry out adjustment operation for reducing the iontophoresis current;

and when the obtained temperature reduction amount of the skin temperature at the current moment relative to the last moment is larger than a preset temperature reduction amount and/or the obtained impedance change amount of the skin impedance at the current moment relative to the last moment is larger than a preset impedance reduction amount, controlling to increase the iontophoresis current or sending out prompt information for prompting to perform adjustment operation for increasing the iontophoresis current.

8. The permeation control method according to claim 2, wherein said method further comprises:

the permeation promoting beauty instrument is controlled to send out prompt information to prompt current permeation promoting information, the permeation promoting information comprises at least one of skin parameters, a permeation promoting mode at the current moment and output intensity at the current moment, the permeation promoting mode is one of an ultrasonic permeation promoting mode, an iontophoresis mode and a combined permeation promoting mode, and the output intensity comprises the output intensity of the ultrasonic permeation promoting component and/or the output intensity of the iontophoresis component.

9. The permeation control method according to claim 8, further comprising:

generating a pro-osmotic mode adjustment signal in response to a pro-osmotic mode adjustment operation;

determining a target pro-osmotic mode according to the pro-osmotic mode adjustment signal;

controlling the ultrasonic penetration enhancer assembly and/or the iontophoresis assembly to output so that the penetration enhancer beauty instrument is in the target penetration enhancer mode; and/or

Generating a first output intensity adjustment signal in response to a first output intensity adjustment operation;

determining a first target output intensity according to the first output intensity adjustment signal;

controlling the ultrasonic infiltration promoting assembly to output at the first target output intensity; and/or

Generating a second output intensity adjustment signal in response to a second output intensity adjustment operation;

determining a second target output intensity from the second output intensity adjustment signal;

controlling the iontophoresis device to output at the second target output intensity.

10. The permeation-promoting control method according to claim 1, wherein said controlling said iontophoresis assembly to output iontophoresis current to said skin when it is determined that said skin satisfies said preset condition, comprises:

and when the duration time that the skin receives the ultrasonic waves sent by the ultrasonic permeation promoting assembly is longer than the preset duration time, controlling the iontophoresis assembly to output iontophoresis current.

11. A penetration-enhancing cosmetic device, comprising:

an ultrasonic penetration enhancer assembly for emitting ultrasonic waves to the skin covered with a substance to be penetrated to enhance penetration of the substance to be penetrated into the skin;

an iontophoresis assembly for outputting iontophoresis current to drive the permeation-promoting substance covered on the skin surface to permeate the skin;

the control module is used for controlling the ultrasonic permeation promotion assembly to emit ultrasonic waves to the skin covered with the substances to be permeation promoted, judging whether the skin meets the preset condition when the ultrasonic permeation promotion assembly emits the ultrasonic waves to the skin, and controlling the iontophoresis assembly to output iontophoresis current to the skin when the skin is determined to meet the preset condition.

12. A computer readable storage medium, wherein a computer program is stored in the computer readable storage medium, and the computer program is used for being executed after being called by a processor, so as to implement the permeation promotion control method according to any one of claims 1-10.