CN116832328A - Beauty Instrument - Google Patents

Abstract

The application provides a beauty instrument. The beauty instrument comprises at least two of an electrotherapy component, a phototherapy component and a thermal therapy component, wherein the electrotherapy component comprises at least one electrode, the electrotherapy component outputs electric energy to the skin through the at least one electrode, the phototherapy component comprises a luminous film for emitting light and a light transmission part, the light transmission part is arranged on the luminous side of the luminous film and used for allowing light emitted by the luminous film to pass through so as to irradiate the skin, the thermal therapy component comprises a heating film for heating and a heat conducting plate, the heat conducting plate and the heating film are arranged in a lamination way, and the surface of the heat conducting plate, which is far away from the heating film, is used for facing the skin when the beauty instrument acts on the skin so as to conduct heat generated by the heating film to the skin; wherein, the structure integration that the functional module includes at least two subassemblies sets up together. The beauty instrument provided by the application has the advantages that various components cannot be influenced, and the influence of phototherapy effect, thermal therapy effect and electrotherapy effect due to the existence of other components is avoided.

Description

Beauty instrument

Technical Field

The application relates to the technical field of beauty equipment, in particular to a beauty instrument.

Background

Phototherapy, electrotherapy, thermotherapy are the cosmetic modes commonly used by household cosmetic instruments, at present, the cosmetic instruments with phototherapy, electrotherapy and thermotherapy functions often interfere with each other in the action process of the phototherapy components, the electrotherapy components and the thermotherapy components, so that the light transmittance, the heat conductivity and the electrotherapy effects of the cosmetic instruments are affected, and further the respective cosmetic effects of the phototherapy components, the electrotherapy components and the thermotherapy components are affected.

Disclosure of Invention

In order to solve the technical problems, the application provides a beauty instrument which comprises at least two components of an electrotherapy component, a phototherapy component and a thermotherapy component, wherein the components cannot influence each other, and the reduction of the respective effects caused by the influence of the existence of other components on the beauty effect is avoided.

The application provides a beauty instrument, which comprises at least two of an electrotherapy component, a phototherapy component and a thermal therapy component, wherein the electrotherapy component comprises at least one electrode, the electrotherapy component outputs electric energy to skin through the at least one electrode, the phototherapy component comprises a luminous film for emitting light and a light transmission part, the light transmission part is arranged on the luminous side of the luminous film and is used for allowing light emitted by the luminous film to pass through so as to irradiate the skin, the thermal therapy component comprises a heating film for heating and a heat conducting plate, the heat conducting plate is laminated with the heating film, and the surface of the heat conducting plate, which is away from the heating film, is used for facing the skin when the beauty instrument acts on the skin so as to conduct heat generated by the heating film to the skin; wherein, the structure integration that the functional module includes at least two subassemblies sets up together.

The beauty instrument provided by the application comprises at least two components of an electrotherapy component, a phototherapy component and a thermotherapy component, is compatible with at least two functions of phototherapy, electrotherapy and thermotherapy, and the components cannot influence each other, so that the light transmittance, the heat conductivity and the output of electrotherapy energy of the beauty instrument cannot be influenced, and the reduction of respective effects caused by the influence of other components on the phototherapy effect, the thermotherapy effect and the electrotherapy effect is avoided.

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 schematic structural diagram of a cosmetic apparatus according to an embodiment of the present application.

Fig. 2 is an exploded view of the cosmetic device of fig. 1.

Fig. 3 is a further exploded view of fig. 2.

Fig. 4 is a schematic structural view of the functional module 1 shown in fig. 2.

Fig. 5 is a schematic view showing a sectional structure along the direction I-I shown in fig. 2.

Fig. 6 is a schematic structural view of the heat generating film shown in fig. 3.

Fig. 7 is a schematic structural view of the heat conductive plate shown in fig. 3.

Fig. 8 is a schematic structural view of the luminescent film shown in fig. 3.

Fig. 9 is a schematic view of the structure of the light-transmitting portion and the heat-insulating portion shown in fig. 3.

Fig. 10 is a schematic view of the functional assembly of fig. 3 at another angle.

Fig. 11 is an enlarged view of a in fig. 5.

Fig. 12 is a schematic structural view of the light guide plate shown in fig. 3.

Fig. 13 is a schematic structural view of the adhesive layer shown in fig. 3.

Fig. 14 is a schematic structural view of the light blocking portion shown in fig. 3.

Fig. 15 is a schematic view of the heat conductive plate shown in fig. 3 at another angle.

Fig. 16 is another exploded view of the cosmetic device of fig. 1.

Fig. 17 is an exploded view of the reservoir assembly of fig. 2.

Fig. 18 is a schematic diagram of a detection module according to an embodiment of the present application.

Reference numerals illustrate:

100-a beauty treatment instrument; 1-a functional component; 10-electrotherapy assembly; 11-electrodes; a 20-phototherapy assembly; 21-a luminescent film; 22-a light-transmitting portion; 211-a light emitting side of the light emitting film; 30-a hyperthermia assembly; 31-a heating film; 32-a heat-conducting plate; 311-hollowed-out areas; 6, a main control board; 111-a first end; 112-a second end; 23-a light guide plate; 12-an adhesive layer; 11 a-a first electrode; 11 b-a second electrode; 21 a-a first sub-luminescent film; 21 b-a second sub-luminescent film; 22 a-a first sub-light-transmitting portion; 22 b-a second sub-light-transmitting portion; 211 a-a light emitting side of the first sub-light emitting film; 211 b-a light emitting side of the second sub-light emitting film; 31 a-a first sub-heating film; 31 b-a second sub-heating film; 32 a-a first sub-heat-conducting plate; 32 b-a second sub-heat-conducting plate; 311 a-a first hollowed-out area; 311 b-a second hollowed-out area; 23 a-a first sub-light guide plate; 23 b-a second sub-light guide plate; 12 a-a first subbing layer; 12 b-a second subbing layer; 2-a light blocking part; 231-through holes; 3-a heat insulation part; 321-through holes; 322-blind hole; 4-a liquid storage component; 41-a liquid storage part; 42-connecting part; 5-a bracket; 51-a first opening; 7-a detection module; 81-an inner shell; 82-a housing; 9-upper cover.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without any inventive effort, are intended to be within the scope of the application.

In the description of the present application, the terms "first," "second," "third," "fourth," and the like are used for distinguishing between different objects and not for describing a particular sequential order, and furthermore, the terms "upper," "lower," "inner," "outer," and the like refer to an orientation or positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not denote or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the 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, whether 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 above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

The illustrations provided in the embodiments of the application are merely schematic illustrations of the basic concepts of the application, in which only the components related to the application are shown rather than being drawn according to the number, shape and size of the components in actual implementation, the form, number and proportions of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complex.

Referring to fig. 1 and 4, fig. 1 is a schematic overall structure of a cosmetic apparatus 100 according to an embodiment of the present application, fig. 2 is an exploded structure of the cosmetic apparatus 100 shown in fig. 1, fig. 3 is a schematic further exploded structure of fig. 2, and fig. 4 is a schematic structure of a functional component 1 shown in fig. 2. As shown in fig. 1 to 4, the beauty treatment apparatus 100 includes a functional module 1, the functional module 1 includes at least two of an electrotherapy module 10, a phototherapy module 20 and a thermal therapy module 30, the electrotherapy module 10 includes at least one electrode 11, the electrotherapy module 10 outputs electric energy to skin through the at least one electrode 11, the phototherapy module 20 includes a light-emitting film 21 for emitting light and a light-transmitting portion 22, the light-transmitting portion 22 is disposed on a light-emitting side 211 of the light-emitting film for allowing the light emitted by the light-emitting film 21 to pass through to irradiate the skin, the thermal therapy module 30 includes a heat-emitting film 31 for generating heat and a heat-conducting plate 32, the heat-conducting plate 32 is laminated with the heat-emitting film 31, and a surface of the heat-conducting plate 32 facing away from the heat-emitting film 31 is used for facing the skin when the beauty treatment apparatus 100 acts on the skin to conduct heat generated by the heat-emitting film 31 to the skin; wherein the functional module 1 comprises at least two modules which are integrated and arranged together.

The beauty instrument 100 provided by the embodiment of the application comprises at least two components of the electrotherapy component 10, the phototherapy component 20 and the thermotherapy component 30, is compatible with at least two functions of phototherapy, electrotherapy and thermotherapy, and the components cannot influence each other, so that the light transmittance, the heat conductivity and the output of electrotherapy energy of the beauty instrument 100 cannot be influenced, and the reduction of respective effects caused by the influence of other components on the phototherapy effect, the thermotherapy effect and the electrotherapy effect is avoided.

The electrode 11 may be made of a conductive material, such as a metal material, copper, titanium, gold, aluminum, or the like.

The heat conducting plate 32 may be made of a material with good heat conducting performance, such as copper, silver, gold, aluminum, etc. In some embodiments, the thermally conductive plate 32 may be a thermally conductive aluminum plate.

The light-transmitting portion 22 may be made of a transparent material, so as to facilitate the light emitted by the light-emitting film 21 to transmit, for example, a transparent polymer material or a transparent inorganic material. The transparent polymer material can be PC, transparent ABS, etc. The transparent inorganic material may be glass, sapphire, ruby, diamond, etc.

The heating film 31 may include a heating element and an insulating packaging film, where the heating element is used to generate heat after being electrified, and the heating element is packaged in the insulating packaging film, so that the heating element is insulated from the outside, short circuit is prevented, the heating element is protected, and the service time is prolonged. The heating body may include at least one of a metal foil, a metal wire, a carbon crystal, a carbon fiber, and graphene, and the insulating encapsulation film may be an insulating polymer material having a high melting point, such as polyimide. In some embodiments, the heat generating film 31 may be a polyimide electrothermal film. In other embodiments, the heat generating film 31 may be a graphene electrothermal film.

In some embodiments, a heat-conducting glue may be disposed between the heat-generating film 31 and the heat-conducting plate 32 to bond the heat-generating film 31 and the heat-conducting plate 32 together.

Wherein, the luminous film 21 can comprise a luminous body for emitting light after being electrified. In some embodiments, the light emitter may include an LED lamp that may emit at least one of red light, yellow light, and infrared light. In other embodiments, other wavelengths of light may also be emitted.

As shown in fig. 3, the beauty apparatus 100 further includes a main control board 6 electrically connected to the functional module 1, for controlling the functional module 1 to output energy.

In some embodiments, the beauty apparatus 100 includes the electrotherapy assembly 10, and the electrotherapy assembly 10 further includes an energy supply module electrically connected to the electrode 11 and the main control board 6, respectively, for outputting rf energy or EMS micro-current. In some embodiments, the power supply module may be a high frequency ac power module that outputs high frequency ac power for outputting rf power. In other embodiments, the power supply module may be a low frequency ac power source for outputting EMS micro-current.

In some embodiments, the beauty treatment apparatus 100 includes the phototherapy unit 20, and the main control board 6 is electrically connected to the light emitting film 21 to control the light emitting film 21 to emit light.

In some embodiments, the beauty apparatus 100 includes the thermal therapy assembly 30, and the main control board 6 is electrically connected to the heat generating film 31 to control the heat generating film 31 to generate heat.

Referring to fig. 4 and 5, fig. 5 is a schematic cross-sectional structure along the I-I direction shown in fig. 2. In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the electrotherapy module 10 and the thermotherapy module 30, the electrode 11 is inserted through the heat conducting plate 32 and the heating film 31 and is fixed on the heat conducting plate 32, two opposite ends of the electrode 11 are respectively exposed on a surface of the heat conducting plate 32 facing away from the heating film 31 and a surface of the heating film 31 facing away from the heat conducting plate 32, one end of the electrode 11 exposed on a surface of the heating film 31 facing away from the heat conducting plate 32 is electrically connected with the main control board 6 of the beauty instrument 100, and the main control board 6 outputs electric energy to the skin through the electrode 11.

As shown in fig. 5, the opposite ends of the electrode 11 are a first end 111 and a second end 112, respectively, the first end 111 is exposed on the surface of the heat-conducting plate 32 facing away from the heat-generating film 31, and the second end 112 is exposed on the surface of the heat-generating film 31 facing away from the heat-conducting plate 32.

When the beauty apparatus 100 acts on the skin, the surface of the heat conducting plate 32 facing away from the heating film 31 is in direct contact or indirect contact with the skin, and the first end 111 of the electrode 11 penetrating through the heat conducting plate 32 is also in direct contact or indirect contact with the skin, so that the electrotherapy assembly 10 can output electric energy to the same skin area through the electrode 11 while the heat conducting plate 32 conducts heat to the same skin area, thereby realizing electrotherapy and thermotherapy on the same skin area by using the beauty apparatus 100, and the electrotherapy and thermotherapy processes are not affected by each other.

Wherein, the electrode 11 is insulated from the heating film 31, so that short circuit between the electrode 11 and the heating film 31 can be avoided.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the thermal therapeutic module 30 and the phototherapy module 20, the light-transmitting portion 22 is penetrated through and fixed on the heat-conducting plate 32, and two ends of the light-transmitting portion 22 along the thickness direction of the heat-conducting plate 32 are respectively exposed out of the heat-conducting plate 32, so that the light emitted by the light-emitting film 21 is not blocked by the heat-conducting plate 32 when propagating to the light-transmitting portion 22.

As shown in fig. 3, the heating film 31 includes a hollowed-out area 311, and the orthographic projection of the light-transmitting portion 22 on the heating film 31 is located in the hollowed-out area 311, so that the light-transmitting portion 22 is not blocked by the heating film 31, and the light emitted by the light-emitting film 21 can be transmitted from the hollowed-out area 311 into the light-transmitting portion 22.

As shown in fig. 4 and fig. 5, the light-emitting film 21 is disposed on a side of the heat-emitting film 31 facing away from the heat-conducting plate 32, and the light-emitting side 211 of the light-emitting film is opposite to a side of the heat-emitting film 31 facing away from the heat-conducting plate 32, so that light emitted by the light-emitting film 21 can pass through the hollowed-out area 311 of the heat-emitting film 31 to reach the light-transmitting portion 22 and be emitted from the light-transmitting portion 22, and the heat-emitting film 31 and the heat-conducting plate 32 are disposed adjacently, and a heat conduction path between the heat-conducting plate 32 and the heat-emitting film 31 is shorter, thereby improving heating efficiency and avoiding heat loss.

When the beauty apparatus 100 acts on the skin, the surface of the heat conducting plate 32 facing away from the heating film 31 is in direct contact or indirect contact with the skin, and the light transmitting portion 22 penetrating through the heat conducting plate 32 is also in direct contact or indirect contact with the skin, so that when the heat conducting plate 32 conducts heat to the skin area, the light emitted by the light emitting film 21 can penetrate through the light transmitting portion 22 to irradiate the same skin area, thereby realizing the heat treatment and phototherapy of the same skin area by using the beauty apparatus 100, and the heat treatment and phototherapy processes are not affected by each other.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the electrotherapy module 10 and the phototherapy module 20, the electrode 11 is disposed through and fixed on the light-transmitting portion 22, opposite ends of the electrode 11 are respectively exposed on a surface of the light-transmitting portion 22 close to the light-emitting film 21 and a surface of the light-emitting film 21 far away from the light-emitting film 21, wherein the first end 111 is exposed on a surface of the light-transmitting portion 22 far away from the light-emitting film 21, and the second end 112 is exposed on a surface of the light-transmitting portion 22 close to the light-emitting film 21 and is electrically connected to the main control board 6.

The electrode 11 is provided with the light-transmitting portion 22 penetrating along the direction from the light-transmitting portion 22 to the light-emitting film 21, so that the light emitted from the light-emitting film 21 can be emitted without being blocked by the electrode 11 when reaching the light-transmitting portion 22.

When the beauty instrument 100 acts on the skin, the surface of the light-transmitting part 22 facing away from the light-emitting film 21 is in direct contact or indirect contact with the skin, and the first end 111 of the electrode 11 penetrating through the light-transmitting part 22 is also in direct contact or indirect contact with the skin, so that the electrotherapy component 10 can output electric energy to the same skin area through the electrode 11 while the light emitted by the light-emitting film 21 irradiates the same skin area through the light-transmitting part 22, thereby realizing that the beauty instrument 100 is used for electrotherapy and phototherapy on the same skin area, and the electrotherapy and phototherapy processes are not mutually influenced.

In some embodiments, as shown in fig. 3, 4 and 5, the functional module 1 includes the electrotherapy module 10, the phototherapy module 20 and the hyperthermia module 30. The heat conducting plate 32 and the heating film 31 are stacked, the heating film 31 comprises a hollowed-out area 311, the light-transmitting part 22 penetrates through and is fixed on the heat conducting plate 32, two ends of the light-transmitting part 22 along the thickness direction of the heat conducting plate 32 are respectively exposed out of the heat conducting plate 32, orthographic projection of the light-transmitting part 22 on the heating film 31 is located in the hollowed-out area 311, the light-emitting film 21 is arranged on one side, deviating from the heat conducting plate 32, of the heating film 31, a light-emitting side 211 of the light-emitting film is opposite to one side, deviating from the heat conducting plate 32, of the heating film 31, so that the surface, close to the light-emitting film 21, of the light-transmitting part 22 is exposed out of the heating film 31, and the surface, far from the light-emitting film 21, of the light-transmitting part 22 is exposed out of the heat conducting film 32.

The electrode 11 is disposed through and fixed to the transparent portion 22, the orthographic projection of the electrode 11 on the heating film 31 is located in the hollow area 311, and is further disposed through and fixed to the heat conducting plate 32, two opposite ends of the electrode 11 are respectively exposed on a surface of the transparent portion 22, which is close to the light emitting film 21, and a surface of the light emitting film 21, and are further respectively exposed on a surface of the heat conducting plate 32, which is far away from the heating film 31, and a surface of the heating film 31, which is far away from the heat conducting plate 32, that is, the first end 111 is exposed on a surface of the light transmitting portion 22, which is far away from the light emitting film 21, and is exposed on a surface of the heat conducting plate 32, which is close to the light emitting film 21, and the second end 112 is exposed on a surface of the heating film 31, which is far away from the heat conducting plate 32.

When the beauty apparatus 100 is applied to the skin, the heat conducting plate 32, the light transmitting portion 22 and the first end 111 of the electrode 11 are in direct or indirect contact with the skin at the same time, thereby realizing the electrotherapy, phototherapy and thermal therapy functions of the beauty apparatus 100, and the electrotherapy, phototherapy and thermal therapy processes are not affected.

The light emitted by the light-emitting film 21 may pass through the hollowed-out area 311 to reach the light-transmitting portion 22, and the surface of the light-transmitting portion 22 away from the light-emitting film 21 is exposed to the heat-conducting plate 32, so that the light emitted by the light-emitting film 21 may be transmitted, and the phototherapy process of the cosmetic apparatus 100 may not be affected.

The heating film 31 and the heat conducting plate 32 are adjacently arranged, so that the heat conducting path between the heat conducting plate 32 and the heating film 31 is shorter, the heating efficiency can be improved, and the heat loss is avoided. Since the light-emitting film 21 is disposed on one side of the heat-emitting film 31 away from the heat-conducting plate 32, and the electrode 11 and the light-transmitting portion 22 penetrate the heat-conducting plate 32 and the heat-emitting film 31 along the lamination direction of the heat-emitting film 31 and the heat-conducting plate 32, the heat conduction process between the heat-conducting plate 32 and the heat-emitting film 31 is not affected, and thus the thermal therapy process of the cosmetic instrument 100 is not affected.

The second end 112 is exposed on the surface of the light-transmitting portion 22, which is close to the light-emitting film 21, and is exposed on the surface of the heat-generating film 31, which is away from the heat-conducting plate 32, so that the second end 112 is electrically connected with the main control board 6, and the main control board 6 outputs electric energy to the skin through the electrode 11. The first end 111 of the electrode 11 is exposed on the surface of the light-transmitting portion 22 away from the light-emitting film 21 and exposed on the surface of the heat-conducting plate 32 away from the heat-emitting film 31, so that the first end 111 is in direct or indirect contact with the skin, so that electric energy acts on the skin, and thus the electrotherapy process of the cosmetic instrument 100 is not affected.

In some embodiments, the beauty apparatus 100 includes the electrotherapy assembly 10, the phototherapy assembly 20, and the thermal therapy assembly 30, since the electrode 11 passes through the light-transmitting portion 22, that is, the light-transmitting portion 22 surrounds the electrode 11, the heat of the heat conducting plate 32 can be blocked from being conducted to the electrode 11 by the light-transmitting portion 22, so that the electrode 11 is prevented from overheating, and the use safety of the beauty apparatus 100 is improved.

In some embodiments, as shown in fig. 3, 4 and 5, the phototherapy assembly 20 further includes a light guide plate 23 disposed on the light emitting side 211 of the light emitting film and between the light emitting film 21 and the light transmitting portion 22, and the light guide plate 23 is configured to scatter the light emitted from the light emitting film 21, so that the light is uniformly irradiated to the skin after passing through the light transmitting portion 22.

The material of the light guide plate 23 may include an optical grade PC and/or an optical grade PMMA, among others.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the phototherapy module 20 and the electrotherapy module 10, the electrode 11 further passes through the light guide plate 23, and the second end 112 is exposed to the light guide plate 23 to be electrically connected to the main control board 6.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the phototherapy module 20 and the hyperthermia module 30, the light guide plate 23 is disposed on a side of the heating film 31 facing away from the heat conducting plate 32, so that a heat conduction path between the heating film 31 and the heat conducting plate 32 is shorter, and a surface of the light guide plate 23, which is close to the light emitting film 21, is not blocked by the heating film 31, and an area of the scattered light of the light guide plate 23 is not reduced, so that a light scattering effect of the light guide plate 23 is not affected.

In some embodiments, as shown in fig. 3, 4 and 5, the electrotherapy assembly 10 further includes a glue layer 12, and the electrode 11 is disposed through the glue layer 12.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the electrotherapy module 10 and the thermal therapy module 30, the adhesive layer 12 is disposed on a side of the heating film 31 facing away from the heat conducting plate 32, so that heat generated by the heating film 31 is not affected to be conducted to the heat conducting plate 32, the electrode 11 penetrates through the heat conducting plate 32, the heating film 31 and the adhesive layer 12, and the second end 112 is exposed to the adhesive layer 12 to be electrically connected with the main control board 6.

By providing the adhesive layer 12, the electrode 11, the heat conducting plate 32 and the heating film 31 can be further fixed, and when the beauty instrument 100 is used in combination with a beauty substance, the adhesive layer 12 can prevent the beauty substance from entering the inside of the beauty instrument 100 from the first end 111 side of the electrode 11, and further can avoid damaging the circuit structure inside the beauty instrument 100, such as the main control board 6.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the electrotherapy module 10 and the phototherapy module 20, the adhesive layer 12 is disposed on one side of the light-transmitting portion 22 near the light-emitting film 21 and between the light-transmitting portion 22 and the light-emitting film 21, the electrode 11 penetrates the light-transmitting portion 22 and the adhesive layer 12, and the second end 112 is exposed to the adhesive layer 12 to be electrically connected with the main control board 6, the adhesive layer 12 is transparent, so that the light emitted by the light-emitting film 21 can reach the light-transmitting portion 22 through the adhesive layer 12. The adhesive layer 12 may further fix the electrode 11 and the light-transmitting portion 22, and when the beauty apparatus 100 is used in combination with a beauty substance, the adhesive layer 12 may prevent the beauty substance from entering the beauty apparatus 100 from the first end 111 side of the electrode 11, so as to avoid damaging the circuit structures inside the beauty apparatus 100, such as the main control board 6 and the light-emitting film 21.

Wherein the glue layer 12 may be a UV glue.

In some embodiments, the phototherapy assembly 20 includes the light guide plate 23, and the adhesive layer 12 is located between the light-transmitting portion 22 and the light guide plate 23, so as to facilitate fixing the light-transmitting portion 22, the electrode 11, and the light guide plate 23.

In some embodiments, the adhesive layer 12 may include a light-diffusing powder, which can secondarily diffuse the light scattered through the light guide plate 23, so that the light reaching the light-transmitting part 22 is more uniform.

In some embodiments, as shown in fig. 4 and 5, the functional module 1 includes the electrotherapy module 10, the phototherapy module 20 and the hyperthermia module 30, the adhesive layer 12 is disposed on a side of the heating film 31 facing away from the heat conducting plate 32, so as to avoid affecting heat conduction generated by the heating film 31, and the adhesive layer 12 is disposed between the heating film 31 and the luminescent film 21, so as to avoid that cosmetic substances enter the interior of the beauty apparatus 100 from the first end 111 side of the electrode 11 to affect the luminescent film 21. When the phototherapy assembly 20 further includes the light guide plate 23, the adhesive layer 12 is located between the heating film 31 and the light guide plate 23.

In some embodiments, the functional module 1 includes the thermal therapy module 30 and the phototherapy module 20, the light-transmitting portion 22 is flush with the heat-conducting plate 32, so as to facilitate the adhesion of the adhesive layer 12 to the heat-generating film 31, and the light-conducting plate 23 is adhered to the adhesive layer 12. Thus, the functional module 1 can be made more compact, which is advantageous in reducing the volume of the cosmetic instrument 100.

Referring to fig. 6 and 7, fig. 6 is a schematic structural diagram of the heat generating film 31 shown in fig. 3, and fig. 7 is a schematic structural diagram of the heat conducting plate 32 shown in fig. 3. In some embodiments, as shown in fig. 6, the heat generating film 31 includes a first sub heat generating film 31a and a second sub heat generating film 31b, as shown in fig. 7, the heat conducting plate 32 includes a first sub heat conducting plate 32a and a second sub heat conducting plate 32b arranged along a length direction of the heat conducting plate 32, the first sub heat generating film 31a and the second sub heat generating film 31b are respectively stacked on the first sub heat conducting plate 32a and the second sub heat conducting plate 32b, the first sub heat generating film 31a is used for outputting with a first heat energy, the second sub heat generating film 31b is used for outputting with a second heat energy, and the first heat energy is less than or equal to the second heat energy.

In some embodiments, the first thermal energy is less than the second thermal energy, and the user may directly or indirectly contact the first sub-thermal conductive plate 32a or the second sub-thermal conductive plate 32b with the skin area according to the energy requirement of the skin area to be thermally treated, thereby thermally treating the skin area with the first thermal energy or with the second thermal energy. For example, the user needs to heat the eye region, and the first sub-heat-conducting plate 32a may be in direct contact or indirect contact with the eye region, so that the eye region may be prevented from being damaged by heat treatment using the first heat energy with low energy. For another example, the user needs to heat the cheek area or the forehead area, and the second sub-heat-conducting plate 32b may be in direct contact or indirect contact with the cheek area or the forehead area, so that the cheek area or the forehead area with thicker horny layer may be heat treated by using the second heat energy with higher energy.

In other embodiments, the first thermal energy is equal to the second thermal energy.

The first and second heating sub-films 31a and 31b are electrically connected to the main control board 6, the main control board 6 can control whether the first heating sub-film 31a generates heat and whether the second heating sub-film 31b generates heat, and the main control board 6 can also control the first and second heating sub-films 31a and 31b to output the first and second heat energy.

Thus, whether the first and second sub heat generating films 31a and 31b are output can be controlled according to actual demands.

In some embodiments, as shown in fig. 6, the first sub-heat generating film 31a and the second sub-heat generating film 31b are in the same plane. As shown in fig. 7, the first sub heat-conducting plate 32a and the second sub heat-conducting plate 32b are in the same plane. Therefore, the first and second sub heat-conductive plates 32a and 32b can be simultaneously contacted with different skin areas, and the first and second sub heat-generating films 31a and 31b can simultaneously heat different skin areas, and are convenient for manufacturing and mounting. In other embodiments, the first sub-heat generating film 31a and the second sub-heat generating film 31b are in the same curved surface, and the first sub-heat conducting plate 32a and the second sub-heat conducting plate 32b are in the same curved surface.

In some embodiments, the first sub-heat-conducting plate 32a and the second sub-heat-conducting plate 32b are integrally formed, which facilitates manufacturing and assembly, and the first sub-heat-generating film 31a and the second sub-heat-generating film 31b are integrally formed, which facilitates manufacturing and assembly.

Referring to fig. 8 and 9, fig. 8 is a schematic structural view of the luminescent film 21 shown in fig. 3, and fig. 9 is a schematic structural view of the light-transmitting portion 22 and the heat-insulating portion 3 shown in fig. 3. In some embodiments, as shown in fig. 8, the light emitting film 21 includes a first sub light emitting film 21a and a second sub light emitting film 21b, where the first sub light emitting film 21a is configured to output a first light energy, and the second sub light emitting film 21b is configured to output a second light energy, and the first light energy is less than or equal to the second light energy. As shown in fig. 9, the light-transmitting portion 22 includes at least one first sub-light-transmitting portion 22a and at least one second sub-light-transmitting portion 22b, the first sub-light-transmitting portion 22a is located at the light-emitting side 211a of the first sub-light-emitting film, and the second sub-light-transmitting portion 22b is located at the light-emitting side 211b of the second sub-light-emitting film.

In some embodiments, the first light energy is less than the second light energy, and the user may directly or indirectly contact the first or second sub-light-transmitting portions 22a, 22b with the skin area for phototherapy with the first light energy or with the second light energy, as desired by the area of skin requiring phototherapy. For example, the user may need to perform phototherapy on the eye region, and the first sub-light-transmitting portion 22a may be in direct contact or indirect contact with the eye region, so that the fragile skin region such as the eye region may be prevented from being damaged by performing phototherapy on the eye region using the first light energy having low energy. For another example, the user needs to perform phototherapy on the cheek area or the forehead area, and the second sub-light-transmitting portion 22b may be in direct contact or indirect contact with the cheek area or the forehead area, so that the cheek area or the forehead area with a thicker stratum corneum may be subjected to phototherapy by using the second light energy with a higher energy.

In other embodiments, the first light energy is equal to the second light energy.

The first sub-luminescent film 21a and the second sub-luminescent film 21b are electrically connected to the main control board 6, the main control board 6 can control whether the first sub-luminescent film 21a generates heat and whether the second sub-luminescent film 21b generates heat, and the main control board 6 can also control the first sub-luminescent film 21a and the second sub-luminescent film 21b to output the first light energy and the second light energy, respectively.

Thus, whether the first and second sub-light emitting films 21a and 21b output or not can be controlled according to actual demands.

In some embodiments, as shown in fig. 8, the first sub-luminescent film 21a and the second sub-luminescent film 21b are in the same plane. As shown in fig. 9, the first sub-light-transmitting portion 22a and the second sub-light-transmitting portion 22b are on the same plane. Therefore, the first sub-light-transmitting portion 22a and the second sub-light-transmitting portion 22b can be simultaneously contacted with different skin areas, and the first sub-light-emitting film 21a and the second sub-light-emitting film 21b can simultaneously emit light to the different skin areas, and the manufacturing and the installation are facilitated. In other embodiments, the first sub-light-transmitting portion 22a and the second sub-light-transmitting portion 22b are on the same curved surface, and the first sub-light-emitting film 21a and the second sub-light-emitting film 21b are on the same curved surface.

In some embodiments, the first sub-light-transmitting portion 22a and the second sub-light-transmitting portion 22b are integrally formed, which facilitates manufacturing and assembly, and the first sub-light-emitting film 21a and the second sub-light-emitting film 21b are integrally formed, which facilitates manufacturing and assembly.

Referring to fig. 10, another angle of the functional module 1 shown in fig. 3 is shown. In some embodiments, as shown in fig. 10, the electrotherapy assembly 10 includes at least two electrodes 11, the at least two electrodes 11 including at least one first electrode 11a and at least one second electrode 11b, the at least one first electrode 11a configured to output a first electrical energy and the at least one second electrode 11b configured to output a second electrical energy, the first electrical energy being less than or equal to the second electrical energy.

In some embodiments, the first electrical energy is less than the second electrical energy, and the user may directly or indirectly contact the first electrode 11a or the second electrode 11b with the skin area according to the energy requirement of the skin area requiring the electrotherapy, thereby performing the electrotherapy on the skin area with the first electrical energy or performing the electrotherapy with the second electrical energy. For example, the user may need to perform electrotherapy on the eye region, and the first electrode 11a may be in direct contact with or indirect contact with the eye region, so that the first electric energy with low energy may be used to perform electrotherapy on the eye region, thereby avoiding damage to the fragile skin region such as the eye region. For another example, the user needs to perform electrotherapy on the cheek area or the forehead area, and the second electrode 11b may be directly or indirectly contacted with the cheek area or the forehead area, so that the second electric energy with higher energy may perform electrotherapy on the cheek area or the forehead area, and a better electrotherapy effect may be achieved on the cheek area or the forehead area with thicker horny layer.

In other embodiments, the first electrical energy is equal to the second electrical energy.

The first electrode 11a and the second electrode 11b are electrically connected to the main control board 6, the main control board 6 can control whether the first electrode 11a generates heat and whether the second electrode 11b generates heat, and the main control board 6 can also control the first electrode 11a and the second electrode 11b to output the first light energy and the second light energy respectively.

Therefore, whether the first electrode 11a and the second electrode 11b output can be controlled according to actual requirements.

In some embodiments, the energy supply module includes a first sub energy supply module and a second sub energy supply module, the first sub energy supply module is electrically connected with the first electrode 11a and the main control board 6, respectively, and the second sub energy supply module is electrically connected with the second electrode 11b and the main control board 6, respectively.

Referring to fig. 10 and 11, fig. 11 is an enlarged view of fig. 5 a. In some embodiments, as shown in fig. 10 and 11, the functional module 1 includes the electrotherapy module 10 and the hyperthermia module 30, the first electrode 11a is disposed through the first sub-heat-conducting plate 32a and the first sub-heat-generating film 31a and is fixed to the first sub-heat-conducting plate 32a, two opposite ends of the first electrode 11a are respectively exposed to a surface of the first sub-heat-conducting plate 32a facing away from the first sub-heat-generating film 31a and a surface of the first sub-heat-generating film 31a facing away from the first sub-heat-conducting plate 32a, the second electrode 11b is disposed through the second sub-heat-conducting plate 32b and the second sub-heat-generating film 31b and is fixed to the second sub-heat-conducting plate 32b, and two opposite ends of the second electrode 11b are respectively exposed to a surface of the second sub-heat-conducting plate 32b facing away from the second sub-heat-generating film 31b and a surface of the second sub-heat-conducting plate 32b facing away from the second sub-heat-conducting film 31 b.

In some embodiments, as shown in fig. 10 and 11, the functional module 1 includes the electrotherapy module 10 and the phototherapy module 20, the first electrode 11a is disposed through and fixed on the first sub-transparent portion 22a, opposite ends of the first electrode 11a are respectively exposed on a surface of the first sub-transparent portion 22a near the first sub-luminescent film 21a and a surface far from the first sub-luminescent film 21a, opposite ends of the second electrode 11b are respectively exposed on a surface of the second sub-transparent portion 22b near the second sub-luminescent film 21b and a surface far from the second sub-luminescent film 21 b.

In some embodiments, as shown in fig. 10 and 11, the functional module 1 includes the thermal therapeutic module 30 and the phototherapy module 20, the first sub-transparent portion 22a is penetrated and fixed on the first sub-heat conducting plate 32a, two ends of the first sub-transparent portion 22a along the thickness direction of the first sub-heat conducting plate 32a are respectively exposed on the first sub-heat conducting plate 32a, the second sub-transparent portion 22b is penetrated and fixed on the second sub-heat conducting plate 32b, two ends of the second sub-transparent portion 22b along the thickness direction of the second sub-heat conducting plate 32b are respectively exposed on the second sub-heat conducting plate 32b, the first sub-heat generating film 31a includes a first hollowed-out area 311a, the second sub-heat generating film 31b includes a second hollowed-out area 311b, the first hollowed-out area 311a and the second hollowed-out area 311b are arranged at intervals, the orthographic projection of the first light-transmitting sub-portion 22a on the first heat-generating sub-film 31a is located in the first hollow area 311a, the orthographic projection of the second light-transmitting sub-portion 22b on the second heat-generating sub-film 31b is located in the second hollow area 311b, the first light-emitting sub-film 21a is located at one side of the first heat-generating sub-film 31a facing away from the first heat-conducting sub-plate 32a, the light-emitting side 211a of the first light-emitting sub-film is opposite to one side of the first heat-generating sub-film 31a facing away from the first heat-conducting sub-plate 32a, the second light-emitting sub-film 21b is located at one side of the second heat-generating sub-film 31b facing away from the second heat-conducting sub-plate 32b, and the light-emitting side of the second light-emitting sub-film 21b is opposite to one side of the second heat-generating sub-film 31b facing away from the second heat-conducting sub-plate 32 b.

In some embodiments, as shown in fig. 10 and 11, the functional module 1 includes the electrotherapy module 10, the phototherapy module 20, and the hyperthermia module 30.

The first sub-transparent portion 22a is disposed through and fixed to the first sub-heat conducting plate 32a, two ends of the first sub-transparent portion 22a along the thickness direction of the first sub-heat conducting plate 32a are exposed to the first sub-heat conducting plate 32a, an orthographic projection of the first sub-transparent portion 22a on the first sub-heat generating film 31a is located in the first hollowed-out area 311a, the first sub-light emitting film 21a is disposed on a side of the first sub-heat generating film 31a facing away from the first sub-heat conducting plate 32a, and a light emitting side 211a of the first sub-light emitting film is opposite to a side of the first sub-heat generating film 31a facing away from the first sub-heat conducting plate 32a, so that a surface of the first sub-transparent portion 22a close to the first sub-light emitting film 21a is exposed to the first sub-heat generating film 31a, and a surface of the first sub-transparent portion 22a facing away from the first sub-light emitting film 21a is exposed to the first sub-heat conducting plate 32a.

The second light-transmitting portion 22b is disposed through and fixed to the second heat-conducting plate 32b, two ends of the second light-transmitting portion 22b along the thickness direction of the second heat-conducting plate 32b are exposed to the second heat-conducting plate 32b, an orthographic projection of the second light-transmitting portion 22b on the second heat-generating film 31b is located in the second hollowed-out area 311b, the second light-emitting film 21b is disposed on a side of the second heat-generating film 31b facing away from the second heat-conducting plate 32b, and a light-emitting side 211b of the second light-emitting film is opposite to a side of the second heat-generating film 31b facing away from the second heat-conducting plate 32b, so that a surface of the second light-transmitting portion 22b adjacent to the second light-emitting film 21b is exposed to the second heat-generating film 31b, and a surface of the second light-transmitting portion 22b facing away from the second light-emitting film 21b is exposed to the second heat-conducting plate 32b.

The first electrode 11a is disposed through and fixed to the first sub-transparent portion 22a, and further disposed through and fixed to the first sub-heat conducting plate 32a, opposite ends of the first electrode 11a are respectively exposed on a surface of the first sub-transparent portion 22a, which is close to the first sub-light emitting film 21a, and a surface of the first sub-light emitting film 21a, which is far away from the first sub-light emitting film 31a, and further respectively exposed on a surface of the first sub-heat conducting plate 32a, which is far away from the first sub-heat conducting plate 32a, and a surface of the first sub-heat conducting film 31a, which is far away from the first sub-light emitting film 21a, that is, the first end 111 is exposed on a surface of the first sub-light conducting portion 22a, which is far away from the first sub-light emitting film 31a, and the second end 112 is exposed on a surface of the first sub-light conducting plate 22a, which is close to the first sub-light emitting film 21a, and is far away from the first sub-heat conducting film 31 a.

The second electrode 11b is disposed through and fixed to the second light-transmitting sub-portion 22b, and further disposed through and fixed to the second heat-conducting sub-plate 32b, opposite ends of the second electrode 11b are respectively exposed on a surface of the second light-transmitting sub-portion 22b, which is close to the second light-emitting sub-film 21b, and a surface of the second light-transmitting sub-portion 22b, which is far away from the second light-emitting sub-film 21b, and further respectively exposed on a surface of the second heat-conducting sub-portion 32b, which is far away from the second light-emitting sub-film 31b, and a surface of the second heat-generating sub-film 31b, which is far away from the second light-emitting sub-film 21b, that is, the first end 111 is exposed on a surface of the second light-transmitting sub-portion 22b, which is far away from the second light-emitting sub-film 31b, and the second end 112 is exposed on a surface of the second light-transmitting sub-portion 22b, which is far away from the second light-emitting sub-film 31b, which is exposed on the second heat-conducting sub-film 32 b.

Please refer to fig. 12, which is a schematic diagram of the structure of the light guide plate 23 shown in fig. 3. In some embodiments, the functional module 1 includes the phototherapy module 20, as shown in fig. 12, the light guide plate 23 includes a first sub-light guide plate 23a and a second sub-light guide plate 23b, the first sub-light guide plate 23a is disposed on the light emitting side 211a of the first sub-light emitting film and between the first sub-light emitting film 21a and the first sub-light transmitting portion 22a, and the first sub-light guide plate 23a is configured to scatter the light emitted by the first sub-light emitting film 21a, so that the light is uniformly irradiated to the skin after passing through the first sub-light transmitting portion 22 a.

In some embodiments, the first sub-light guide plate 23a and the second sub-light guide plate 23b may be in the same plane, which is beneficial to manufacture and installation, or may be in the same curved surface. In some embodiments, the first sub-light guide plate 23a and the second sub-light guide plate 23b may be integrally formed, which is convenient for manufacturing and assembling.

As shown in fig. 10 and 11, the second sub-light guide plate 23b is disposed on the light emitting side 211b of the second sub-light emitting film and between the second sub-light emitting film 21b and the second sub-light transmitting portion 22b, and the second sub-light guide plate 23b is configured to scatter the light emitted from the second sub-light emitting film 21b, so that the light passes through the second sub-light transmitting portion 22b and is uniformly irradiated on the skin.

In some embodiments, as shown in fig. 10 and 11, the functional module 1 includes the phototherapy module 20 and the electrotherapy module 10, the first electrode 11a further penetrates the first sub-light guide plate 23a and is exposed to the first sub-light guide plate 23a to be electrically connected to the main control board 6, and the second electrode 11b further penetrates the second sub-light guide plate 23b and is exposed to the second sub-light guide plate 23b to be electrically connected to the main control board 6.

In some embodiments, as shown in fig. 10 and 11, the functional module 1 includes the phototherapy module 20 and the hyperthermia module 30, the first sub-light guide plate 23a is disposed on a side of the first sub-heating film 31a facing away from the first sub-heat guide plate 32a, and the second sub-light guide plate 23b is disposed on a side of the second sub-heating film 31b facing away from the second sub-heat guide plate 32 b.

Fig. 13 is a schematic structural diagram of the adhesive layer 12 shown in fig. 3. In some embodiments, as shown in fig. 13, the adhesive layer 12 includes a first sub-adhesive layer 12a and a second sub-adhesive layer 12b, the first electrode 11a is disposed through the first sub-adhesive layer 12a, and the second electrode 11b is disposed through the second sub-adhesive layer 12b.

In some embodiments, as shown in fig. 11, the functional module 1 includes the electrotherapy module 10 and the thermal therapy module 30, the first sub-adhesive layer 12a is disposed on a side of the first sub-heating film 31a facing away from the first sub-heat conducting plate 32a, so that heat generated by the first sub-heating film 31a is not affected to be conducted to the first sub-heat conducting plate 32a, the first electrode 11a penetrates through the first sub-heat conducting plate 32a, the first sub-heating film 31a and the first sub-adhesive layer 12a, and the second end 112 is exposed to the first sub-adhesive layer 12a to be electrically connected with the main control board 6.

The second sub-adhesive layer 12b is disposed on a side of the second sub-heating film 31b away from the second sub-heat-conducting plate 32b, so that heat generated by the second sub-heating film 31b is not affected to be conducted to the second sub-heat-conducting plate 32b, the second electrode 11b penetrates through the second sub-heat-conducting plate 32b, the second sub-heating film 31b and the second sub-adhesive layer 12b, and the second end 112 is exposed out of the second sub-adhesive layer 12b to be electrically connected with the main control board 6.

In some embodiments, as shown in fig. 11, the functional module 1 includes the electrotherapy module 10 and the phototherapy module 20, the first sub-adhesive layer 12a is disposed on a side of the first sub-transparent portion 22a near the first sub-luminescent film 21a and between the first sub-transparent portion 22a and the first sub-luminescent film 21a, the first electrode 11a penetrates the first sub-transparent portion 22a and the first sub-adhesive layer 12a, and the second end 112 is exposed to the first sub-adhesive layer 12a to be electrically connected with the main control board 6, and the first sub-adhesive layer 12a is transparent.

The second sub-adhesive layer 12b is disposed on a side of the second sub-light-transmitting portion 22b, which is close to the second sub-light-emitting film 21b, and between the second sub-light-transmitting portion 22b and the second sub-light-emitting film 21b, the second electrode 11b penetrates the second sub-light-transmitting portion 22b and the second sub-adhesive layer 12b, and the second end 112 is exposed to the second sub-adhesive layer 12b to be electrically connected to the main control board 6, and the second sub-adhesive layer 12b is transparent.

In some embodiments, as shown in fig. 11, the phototherapy assembly 20 includes the first sub-light guide plate 23a and the second sub-light guide plate 23b, and the first sub-adhesive layer 12a is located between the first sub-light-transmitting portion 22a and the first sub-light guide plate 23 a. In some embodiments, the first sub-adhesive layer 12a and the second sub-adhesive layer 12b may include light-diffusing powder, and may be capable of secondarily diffusing the light scattered by the first sub-light guide plate 23a and the second sub-light guide plate 23b, so that the light reaching the first sub-light-transmitting portion 22a and the second sub-light-transmitting portion 22b is more uniform.

In some embodiments, the first sub-adhesive layer 12a and the second sub-adhesive layer 12b may be in the same plane, which is beneficial for manufacturing and installation. In some embodiments, the first and second sub-adhesive layers 12a and 12b may be integrally formed.

Referring to fig. 3, 11 and 14, fig. 14 is a schematic structural view of the light isolation portion 2 shown in fig. 3. In some embodiments, as shown in fig. 3, 11 and 14, the beauty apparatus 100 further includes a light-shielding portion 2, the light-shielding portion 2 is disposed between the first sub-light guide plate 23a and the second sub-light guide plate 23b and is used for shielding the light emitted by the first sub-light-emitting film 21a from passing through the second sub-light guide plate 23b and the second sub-light-transmitting portion 22b, and the light-shielding portion 2 is also used for shielding the light emitted by the second sub-light-emitting film 21b from passing through the first sub-light guide plate 23a and the first sub-light-transmitting portion 22a so as to avoid crosstalk between the light emitted by the first sub-light-emitting film 21a and the second sub-light-emitting film 21b when the first sub-light-emitting film 21a and the second sub-light-emitting film 21b emit light at the same time. The light blocking portion 2 may reflect the light emitted from the first sub-light emitting film 21a to be emitted from the first sub-light transmitting portion 22a, so that energy loss of the output of the first sub-light emitting film 21a may be avoided. Similarly, the energy loss of the output of the second sub-luminescent film 21b can be avoided.

The light blocking portion may be made of an opaque material, for example, a black polymer material.

In some embodiments, as shown in fig. 12, the light guide plate 23 is integrally formed, and the light guide plate 23 has a through hole 231 penetrating in a direction perpendicular to a plane of the light guide plate 23, the through hole 231 divides the light guide plate 23 into the first sub light guide plate 23a and the second sub light guide plate 23b, and the light blocking part 2 is inserted into the through hole 231 to be fixed with the light guide plate 23. In other embodiments, the first sub-light guide plate 23a and the second sub-light guide plate 23b may be two independent components, the first sub-light guide plate 23a and the second sub-light guide plate 23b may be fixedly connected by a screw connection, a riveting connection, and a snap connection, and the light blocking portion 2 is disposed between the first sub-light guide plate 23a and the second sub-light guide plate 23 b.

In some embodiments, the light-blocking portion 2 is flush with the light guide plate 23, so that the light guide plate 23 is not affected by the heat-generating film 31 or the adhesive layer 12, which may make the structure of the functional module 1 more compact.

In some embodiments, the functional module 1 includes the thermal therapy module 30, as shown in fig. 3, 9 and 11, the beauty apparatus 100 further includes a heat insulation portion 3 penetrating and fixed between the first sub-heat-conducting plate 32a and the second sub-heat-conducting plate 32b, and the heat insulation portion 3 is used for blocking heat generated by the first sub-heat-generating film 31a from being conducted to the second sub-heat-conducting plate 32b, and blocking heat generated by the second sub-heat-generating film 31b from being conducted to the first sub-heat-conducting plate 32a, so as to prevent heat generated by the first sub-heat-generating film 31a and the second sub-heat-generating film 31b from being conducted to adjacent sub-heat-conducting plates of each other to affect heating effects of the first sub-heat-generating film 31a and the second sub-heat-generating film 31b, and further prevent heat generated by any sub-heat-generating film from being conducted to adjacent sub-heat-conducting plates of another sub-heat-generating film from being lost to affect heating effects of the first sub-heat-generating film when the first sub-heat-generating film generates heat.

The material of the heat insulating part 3 may be a material having poor heat conductive property, for example, a polymer material.

In some embodiments, the heat insulation part 3 and the heat conducting plate 32 may be flush, so that the heat conducting plate 32 and the heat generating film 31 are not affected, the heat conduction path between the heat generating film 31 and the heat conducting plate 32 may be further shortened, and the structure of the functional module 1 may be more compact.

Referring to fig. 7, 11 and 15, fig. 15 is a schematic view of the heat conducting plate 32 shown in fig. 3 at another angle. In some embodiments, the beauty apparatus 100 includes the phototherapy assembly 20 and the thermal therapy assembly 30, as shown in fig. 7 and 15, the heat insulation portion 3 and the light transmission portion 22 are integrally formed and made of the same material, the heat conduction plate 32 is provided with a through hole 321 penetrating the heat conduction plate 32 along the thickness direction of the heat conduction plate 32, and a blind hole 322 not penetrating the heat conduction plate 32, and an opening of the blind hole 322 is located on a surface of the heat conduction plate 32 near the heating film 31.

As shown in fig. 11, the light-transmitting portion 22 is inserted through and fixed to the through hole 321 of the heat-conducting plate 32, and opposite ends of the light-transmitting portion 22 along the thickness direction of the heat-conducting plate 32 are exposed to the heat-conducting plate 32, respectively, so that the light emitted from the light-emitting film 21 can be emitted through the light-transmitting portion 22. As shown in fig. 11, the heat insulation portion 3 is engaged in the blind hole 322 of the heat conduction plate 32 and is fixedly connected with the heat conduction plate 32, so that the light emitted by the light emitting film 21 can be prevented from being emitted from the heat insulation portion 3, and the area of the light emitted by the beauty apparatus 100 can be prevented from not meeting the requirement.

In some embodiments, the heat-conducting plate 32 is integrally formed, and the blind holes 322 divide the heat-conducting plate 32 into the first sub-heat-conducting plate 32a and the second sub-heat-conducting plate 32b.

In some embodiments, the heat insulating part 3 divides the light transmitting part 22 into the first sub-light transmitting part 22a and the second sub-light transmitting part 22b, and the orthographic projection of the heat insulating part 3 on the light emitting film 21 at least partially coincides with the orthographic projection of the light insulating part 2 on the light emitting film 21.

In other embodiments, the material of the heat insulating part 3 and the light transmitting part 22 may be different, and the heat insulating part 3 is opaque and penetrates the heat conductive plate 32.

In other embodiments, the heat insulating portion 3 and the light transmitting portion 22 may be separate components.

In some embodiments, as shown in fig. 10, the number of the first electrodes 11a is smaller than the number of the second electrodes 11 b. So that the user can apply the first electrode 11a or the second electrode 11b to the skin area to be electrically treated according to the skin area when using the cosmetic apparatus 100 to supply electric power thereto.

When the beauty apparatus 100 is used, if the electric therapy is needed for the eye area, the first electrodes 11a may be directed toward the eye area, and the number of the first electrodes 11a is small, so that the available skin area is small, and the beauty apparatus is suitable for the eye area, thereby not only meeting the electric therapy requirement of the eye area, but also avoiding the waste of energy. If electrotherapy is required for the cheek region or other facial region with larger area, the second electrode 11b may be directed to the cheek region or other facial region, and the second electrode 11b has a larger number of the second electrodes, so that the available skin region has a larger area, and is suitable for the cheek region or other facial region with larger area, and the electrotherapy efficiency of the cheek region or other facial region with larger area can be improved; alternatively, the first electrode 11a and the second electrode 11b may be simultaneously directed to the cheek region or other face region, and the heat treatment efficiency of the cheek region or other face region having a larger area can be further improved by directing all the electrodes 11 to the cheek region or other face region having a larger area.

In some embodiments, the heat conduction area of the first sub heat conduction plate 32a is smaller than the heat conduction area of the second sub heat conduction plate 32b, and the heat generation area of the first sub heat generation film 31a is smaller than the heat generation area of the second sub heat generation film 31 b. So that the user can direct the first sub heat conductive plate 32a or the second sub heat conductive plate 32b toward, i.e., directly or indirectly contact with, the skin area according to the size of the area of the skin to be thermally treated when using the cosmetic apparatus 100, to heat the skin area.

When the beauty apparatus 100 is used, if the eye area needs to be thermally treated, the first sub-heat-conducting plate 32a can be oriented to the eye area, and the heat-conducting area of the first sub-heat-conducting plate 32a is smaller, so that the beauty apparatus is suitable for the eye area, and the heat generated by the first sub-heat-generating film 31a can be conducted to the eye area, so as to meet the thermal treatment requirement of the eye area, and meanwhile, the first sub-heat-generating film 31a with a smaller heat-generating area is arranged to generate heat to the eye area, so that the waste of energy can be avoided. If the cheek region or the other face region with a larger area needs to be thermally treated, the second sub-heat-conducting plate 32b may be oriented to the cheek region or the other face region, and the heat generated by the second sub-heat-generating film 31b may be conducted to the cheek region or the other face region with a larger area due to the larger heat-conducting area of the second sub-heat-conducting plate 32b, so as to meet the thermal treatment requirement, and the thermal treatment efficiency of the cheek region or the other face region with a larger area may be improved due to the larger heating area of the second sub-heat-generating film 31 b; alternatively, the first and second sub heat-conductive plates 32a and 32b may be simultaneously directed toward the cheek region or other facial region, and thus the entire heat-conductive plate 32 may be directed toward the cheek region or other facial region having a larger area, thereby further improving the heat treatment efficiency of the cheek region or other facial region having a larger area.

In some embodiments, the light-transmitting area of the first sub-light-transmitting portion 22a is smaller than the light-transmitting area of the second sub-light-transmitting portion 22b, and the light-emitting area of the first sub-light-emitting film 21a is smaller than the light-emitting area of the second sub-light-emitting film 21 b. So that the user can direct the first sub-light-transmitting portion 22a or the second sub-light-transmitting portion 22b toward the skin area according to the area size of the skin area requiring light treatment when using the cosmetic apparatus 100 to light treat the skin area.

When the beauty apparatus 100 is used, if the eye area needs to be phototherapy, the first sub-light-transmitting portion 22a may face the eye area, and since the light-transmitting area of the first sub-light-transmitting portion 22a is smaller, the beauty apparatus is suitable for the eye area, and not only can the light emitted by the first sub-light-emitting film 21a be transmitted to the eye area, so as to meet the phototherapy requirement of the eye area, but also the phototherapy is performed on the eye area by setting the first sub-light-emitting film 21a with a smaller light-emitting area, so that the energy waste can be avoided. If phototherapy is required for a cheek region or other facial region with a larger area, the second light-transmitting sub-portion 22b may be directed towards the cheek region or other facial region, and the light-transmitting sub-portion 22b has a larger light-transmitting area, so that the light emitted by the second light-emitting sub-film 21b can pass through to irradiate the cheek region or other facial region with a larger area, thereby satisfying the phototherapy requirement, and the phototherapy efficiency of the cheek region or other facial region with a larger area can be improved due to the larger light-emitting area of the second light-emitting sub-film 21 b; alternatively, the first and second sub-light-transmitting portions 22a and 22b may be simultaneously directed toward the cheek region or other face region, and the entire light-transmitting portion 22 may be directed toward the cheek region or other face region having a larger area, so that the phototherapy efficiency of the cheek region or other face region having a larger area may be further improved.

In some embodiments, the functional module 1 includes the electrotherapy module 10, the phototherapy module 20 and the hyperthermia module 30, and if the eye region needs to be beautified, the first electrode 11a, the first sub-light-transmitting portion 22a and the first sub-heat-conducting plate 32a can be oriented towards the eye region to perform electrotherapy, phototherapy and hyperthermia on the eye region at the same time, so that power consumption can be reduced and energy waste can be avoided. If the cheek area or other facial area with larger area needs to be beautified, the second electrode 11b, the second sub-light-transmitting portion 22b and the second sub-heat-conducting plate 32b can be oriented towards the cheek area or other facial area with larger area, so as to simultaneously perform electrotherapy, phototherapy and thermotherapy on the cheek area or other facial area with larger area, and the beautifying efficiency can be improved; alternatively, the first electrode 11a, the first sub-light-transmitting portion 22a, the first sub-heat-conducting plate 32a, the second electrode 11b, the second sub-light-transmitting portion 22b, and the second sub-heat-conducting plate 32b may be simultaneously directed toward the cheek region or other facial region, and the electrotherapy efficiency, phototherapy efficiency, and hyperthermia efficiency of the cheek region or other facial region having a large area may be further improved by directing all the electrodes 11, the entire light-transmitting portion 22, and the entire heat-conducting plate 32 toward the cheek region or other facial region having a large area.

In some embodiments, as shown in fig. 10, the shape of the surface of the first sub-light-transmitting portion 22a away from the first sub-light-emitting film 21a is different from the shape of the surface of the second sub-light-transmitting portion 22b away from the second sub-light-emitting film 21b, so as to identify the first sub-light-transmitting portion 22a and the second sub-light-emitting film 21b. Therefore, when the user selects to direct the first sub-light-transmitting portion 22a or the second sub-light-emitting film 21b to the skin area as required, the first sub-light-transmitting portion 22a and the second sub-light-emitting film 21b can be recognized by the shape of the first sub-light-transmitting portion 22a and the shape of the second sub-light-emitting film 21b, and the first sub-light-transmitting portion 22a or the second sub-light-emitting film 21b can be directed to the skin area accurately, so that the skin area can be treated with light emitted from the corresponding sub-light-emitting film. For example, the surface of the first sub-light-transmitting portion 22a away from the first sub-light-emitting film 21a is C-shaped, and the surface of the second sub-light-transmitting portion 22b away from the second sub-light-emitting film 21b is L-shaped.

If the eye region needs to be treated with light, the user can identify the shape of the first sub-transparent portion 22a to determine the first sub-transparent portion 22a, and accurately orient the first sub-transparent portion 22a to the eye region, so as to treat the eye region with the first sub-luminescent film 21 a. If the cheek region or other facial region with larger area needs to be phototherapy, the user may determine the second sub-light-transmitting portion 22b by identifying the shape of the second sub-light-transmitting portion 22b, and accurately orient the second sub-light-transmitting portion 22b toward the eye region, so as to utilize the second sub-light-emitting film 21b to phototherapy the cheek region or other facial region with larger area; alternatively, the first and second light-transmitting sub-portions 22a and 22b may be simultaneously directed toward the cheek region or other large-area face region.

In some embodiments, the first electrode 11a is arranged in a different shape than the second electrode 11b, so as to identify the first electrode 11a and the second electrode 11b. Therefore, when the user selects to orient the first electrode 11a or the second electrode 11b to the skin area according to the need of beauty treatment, the first electrode 11a and the second electrode 11b can be identified by the arrangement shape of the first electrode 11a and the arrangement shape of the second electrode 11b, and the first electrode 11a and the second electrode 11b can be oriented to the skin area accurately, so that the corresponding electrodes can be utilized to perform electrotherapy on the skin area. For example, the first electrode 11a is arranged in a circular ring shape, and the second electrode 11b is arranged in an array shape.

In some embodiments, as shown in fig. 9, the beauty apparatus 100 includes the phototherapy assembly 20 and the thermal therapy assembly 30, and the thermal therapy assembly 30 includes at least two second sub-transparent portions 22b, and the at least two second sub-transparent portions 22b are spaced apart and respectively pass through the second sub-heat conductive plates 32b. The at least two second sub-light-transmitting portions 22b may serve as heat insulation to prevent the central portion of the second sub-heat-conductive plate 32b from being overheated.

The beauty apparatus 100 further comprises the electrotherapy assembly 10, the second electrodes 11b include at least two second electrode groups, the at least two second electrode groups 11b are divided into at least two second electrode groups arranged at intervals, each second electrode group includes a preset number of second electrodes 11b, and the second electrode 11b of each second electrode group is penetrated by a second sub-light-transmitting portion 22b. By dividing all the second electrodes 11b into a plurality of groups arranged at intervals, and putting the second electrodes 11b of each group through the same second sub-light-transmitting portion 22b. Wherein the number of the second electrodes 11b of each second electrode group may be the same so that the electric power may be uniformly output to the skin.

In some embodiments, the at least two second electrodes 11b are arranged in an array, and may be arranged in other forms.

Referring to fig. 2, 3 and 16, fig. 16 is another exploded structure of the cosmetic apparatus 100 shown in fig. 1. In some embodiments, as shown in fig. 2, 3 and 16, the cosmetic device 100 further includes a liquid storage component 4 and a bracket 5, the bracket 5 surrounds the functional component 1 and is fixedly mounted on the functional component 1, the liquid storage component 4 is detachably connected with the bracket 5, and covers the functional component 1, the liquid storage component 4 stores a cosmetic substance, and the liquid storage component 4 contacts with the skin and releases the cosmetic substance to the skin surface when the cosmetic device 100 acts on the skin.

Wherein the reservoir assembly 4 covers the functional assembly 1 such that when the reservoir assembly 4 contacts the skin and releases the cosmetic substance to the surface of the skin area, the energy output by the functional assembly 1 can act on the skin area covered with the cosmetic substance. Wherein the functional module 1 is indirectly contacted with the skin through the liquid storage module 4, the functional module 1 comprises at least two of an electrotherapy module 10, a phototherapy module 20 and a thermotherapy module 30, and at least two of the electrode 11, the light-transmitting part 22 and the heat conducting plate 32 are indirectly contacted with the skin through the liquid storage module 4.

As shown in fig. 3, the opposite ends of the support 5 have a first opening 51 and a second opening, the functional component 1 is covered with the first opening 51 and located inside the support 5, and the liquid storage component 4 is fixed on the peripheral edge of the support 5 and covered with the functional component 1. The functional module 1 closes the first opening 51 to prevent the cosmetic substances of the reservoir module 4 from entering the interior of the cosmetic instrument 100. When the beauty treatment instrument 100 includes the heat conductive plate 32, the heat conductive plate 32 covers the first opening 51 to close the first opening 51, thereby preventing cosmetic substances from entering from the first opening 51.

Wherein the cosmetic material has conductivity, and can conduct the energy output by the functional component 1 to the skin to carry out cosmetic repair on the skin. In the process of outputting energy to the skin by the functional component 1, the cosmetic substance can moisten and lubricate the skin to play a role in buffering, so that the skin is prevented from being damaged. In addition, the cosmetic substance can be used for caring skin, and the cosmetic instrument 100 and the liquid storage component 4 can be combined for use, so that the absorption of the cosmetic substance by the skin can be promoted, and the cosmetic effect of the cosmetic instrument 100 can be further improved.

In some embodiments, the cosmetic substance may include at least one of a toner, essence, lotion, cream, eye cream, gel, lipstick, lip cream, skin milk, and moisturizing milk, and the cosmetic substance may also be other types of substances having a cosmetic skin care effect.

In other embodiments, the user himself applies the cosmetic substance to the skin, and the cosmetic device 100 may not be provided with the reservoir assembly 4, but directly act on the skin, i.e., the functional assembly 1 directly contacts the skin to which the cosmetic substance is applied and outputs energy to the skin. Wherein the functional module 1 includes at least two of an electrotherapy module 10, a phototherapy module 20 and a hyperthermia module 30, and at least two of the electrode 11, the light-transmitting portion 22 and the heat-conducting plate 32 are directly contacted with the skin coated with the cosmetic substance to perform electrotherapy, phototherapy and hyperthermia on the skin.

In other embodiments, the cosmetic device 100 may also act on skin that is not coated with a cosmetic substance, at least two of the electrode 11, the light-transmitting portion 22, and the heat-conducting plate 32 being in direct contact with the skin.

Fig. 17 is an exploded view of the liquid storage assembly 4 shown in fig. 2. In some embodiments, as shown in fig. 17, the liquid storage assembly 4 includes a liquid storage portion 41 and a connection portion 42, the connection portion 42 is detachably connected with the bracket 5, the liquid storage portion 41 is fixed to the connection portion 42 and covers the functional assembly 1, the liquid storage portion 41 stores a cosmetic substance, and the liquid storage portion 41 contacts with the skin and releases the cosmetic substance to the skin surface when the cosmetic instrument 100 acts on the skin.

In some embodiments, the liquid storage portion 41 includes a sponge body, and is fixedly connected to the connecting portion 42, for example, by an adhesive manner. The sponge is used for absorbing and storing the cosmetic substances, and when the cosmetic instrument 100 comprising the liquid storage assembly 4 is applied to the skin, the cosmetic substances can be released to the skin surface by pressing the cosmetic instrument 100 to the skin, and the sponge is pressed.

In some embodiments, the liquid storage part 41 may further include a membrane cloth covering the sponge body, the membrane cloth being fixed to a side of the sponge body away from the connection part 42, the membrane cloth being used to contact the skin, and the body feeling of the skin may be improved when the liquid storage assembly 4 contacts the skin. The membrane cloth can be fixed with the sponge body in a knitting mode.

In some embodiments, the connection portion 42 is annular and surrounds the liquid storage portion 41, the connection portion 42 is fixed to the outer peripheral edge of the support 5, and the liquid storage portion 41 is in contact with at least two of the electrode 11, the light-transmitting portion 22, and the heat-conducting plate 32. Wherein, the connecting portion 42 may be provided with a magnetic attraction member for magnetically attracting the bracket 5, so that the liquid storage assembly 4 is detachably connected with the bracket 5. Or, the connecting portion 42 is provided with one of a buckle and a clamping groove, the bracket 5 is provided with the other one of the buckle and the clamping groove, and the connecting portion 42 is detachably connected with the bracket 5 through clamping.

In some embodiments, the functional module 1 includes the phototherapy module 20, and the liquid storage portion 41 is transparent to light, so as to allow the light passing through the transparent portion 22 to irradiate the skin.

In some embodiments, the functional module 1 includes the electrotherapy module 10 and the connection part 42 is mounted to the support 5, and the electrode 11 is in contact with the cosmetic substance stored in the reservoir 41 to conduct the energy output from the electrotherapy module 10 to the skin through the cosmetic substance stored in the reservoir 41. When the beauty apparatus 100 is applied to the skin, the liquid storage portion 41 contacts the skin and releases the beauty material to the skin surface, and the electrode 11 is electrically conductive to the skin through the beauty material, so that the electrotherapy unit 10 can conduct the output energy to the skin through the electrode 11 and the beauty material.

In some embodiments, the liquid storage component 4 comprises at least two types, each type of liquid storage component 4 stores a cosmetic substance, the liquid storage component 4 is connected to the peripheral edge of the bracket 5, and the inner side of the liquid storage component 4 is provided with a mark and/or a magnetic attraction piece, and the magnetic attraction piece is used for magnetically attracting with the bracket 5.

Referring to fig. 18, a schematic diagram of a detection module 7 according to an embodiment of the application is shown. As shown in fig. 18, the beauty apparatus 100 further includes a detection module 7 electrically connected to the main control board 6.

The detection module 7 is configured to detect the identifier of the liquid storage component 4 and/or the magnetic parameter value of the magnetic attraction component, and the main control board 6 is configured to determine the type of the liquid storage component 4 according to the identifier of the liquid storage component 4 and/or the magnetic parameter value of the magnetic attraction component detected by the detection module 7, determine the target component in the functional component 1 and the output parameter of the target component according to the type of the liquid storage component 4, and control the target component to output with the output parameter.

In some embodiments, different types of the liquid storage components 4 store different types of cosmetic substances, and the different types of the cosmetic substances have different cosmetic effects, i.e., the different types of the liquid storage components 4 may represent different cosmetic effects.

When a user performs beauty treatment by using the beauty treatment instrument 100, a liquid storage component 4 of a corresponding type can be selected according to the beauty treatment effect which is required to be achieved, the liquid storage component 4 is mounted on the support 5, the main control board 6 detects the type of the liquid storage component 4 through the detection module 7, determines output parameters of a target component and a target component in the functional component 1 according to the determined type of the liquid storage component 4, and controls the target component to output according to the output parameters, so that the size and the form of energy output by the target component are matched with the beauty treatment substances stored by the liquid storage component 4, and better beauty treatment effect can be achieved.

In some embodiments, different types of liquid storage components 4 correspond to different regions of action, and different types of liquid storage components 4 include an eye-type, a cheek-type, and a full-face-type liquid storage components 4 correspond to an eye region, a cheek region, and a full-face region, respectively.

When the main control board 6 determines that the type of the liquid storage component 4 is an eye type, it determines that the target component includes at least two of the first sub energy supply module, the first sub light emitting film 21a and the first sub heating film 31a, and controls at least two of the first sub energy supply module, the first sub light emitting film 21a and the first sub heating film 31a to output energy to skin, and the second sub energy supply module, the second sub light emitting film 21b and the second sub heating film 31b do not output energy; when the type of the liquid storage component 4 is determined to be cheek type, determining that the target component comprises at least two of the second sub-energy supply module, the second sub-luminous film 21b and the second sub-heating film 31b, and controlling at least two of the second sub-energy supply module, the second sub-luminous film 21b and the second sub-heating film 31b to output energy to the skin, wherein the first sub-energy supply module, the first sub-luminous film 21a and the first sub-heating film 31a do not output energy; when the type of the liquid storage component 4 is determined to be the full face type, the target component is determined to comprise at least two of the electrotherapy component 10, the phototherapy component 20 and the thermotherapy component 30, and at least two of the electrotherapy component 10, the phototherapy component 20 and the thermotherapy component 30 are controlled to output energy to the skin.

When the user performs beauty treatment using the beauty treatment instrument 100, the user can select a corresponding type of liquid storage module 4 according to a face area, such as an eye area, a cheek area, a full face area, etc., to be beautified, and mount the liquid storage module 4 on the bracket 5. When the beauty apparatus 100 detects an eye-type or face-type liquid storage component, it controls only at least two of the first sub-energy supply module, the first sub-luminous film 21a and the first sub-heating film 31a or controls only at least two of the second sub-energy supply module, the second sub-luminous film 21b and the second sub-heating film 31b to output energy to the skin, so that energy waste can be avoided; when the full face type liquid storage component is detected, at least two of the electrotherapy component 10, the phototherapy component 20 and the thermotherapy component 30 are controlled to output energy to the skin, so that the beautifying efficiency can be improved.

In some embodiments, the identification includes at least one of color, pattern, text, number, information code and electronic tag, and the detection module 7 includes at least one of color recognition sensor, image sensor, code reader, electronic tag reader and magnetic sensor.

The information code may be a bar code, a two-dimensional code, or the like. The code reader can read the information code.

The electronic tag can be an RFID electronic tag, an NFC electronic tag and the like. The electronic tag reader-writer can read the electronic tag.

The magnetic sensor may be a hall sensor, a gauss meter, or the like. The magnetic sensor is configured to detect a magnetic field parameter value of the magnetic attraction member, which may include a magnetic field strength value and/or a magnetic flux value.

The color recognition sensor is used for detecting color. The image sensor may be used to detect at least one of color, pattern, text, and number.

In some embodiments, as shown in fig. 3, the beauty apparatus 100 further includes an inner case 81 and an outer case 82, the inner case 81 is located at the second opening side of the stand 5 and closes the second opening of the stand 5, the inner case 81 is detachably connected to the stand 5, the inner case 81 and the stand 5 cooperate to form a containing space, at least part of the main control board 6, the functional module 1 and the battery of the beauty apparatus 100 are contained in the containing space, and the outer case 82 covers the inner case 81 and is detachably connected to the stand 5. Wherein, the inner shell 81 and the outer shell 82 may be connected to the bracket 5 by means of fastening, screwing, magnetic attraction, etc.

In some embodiments, the beauty treatment apparatus 100 further includes an upper cover 9 detachably connected to the outer peripheral edge of the stand 5 and covering the liquid storage assembly 4. The upper cover 9 and the bracket 5 can be connected by means of clamping, screw connection, magnetic attraction and the like.

In some embodiments, the beauty apparatus 100 further includes a temperature detection component electrically connected to the main control board 6, where the temperature detection component is configured to detect a temperature of a skin area contacted by the functional component 1 and send the detected temperature to the main control board 6, and the main control board 6 is configured to control an amount of energy output by the functional component 1 according to the temperature detected by the temperature detection component, so as to avoid scalding skin.

In some embodiments, the temperature detection component comprises a first sub-temperature detection component and a second sub-temperature detection component.

The first sub-temperature detecting component is configured to detect a temperature of skin contacted by at least one of the first electrode 11a, the first sub-heat conducting plate 32a and the first sub-light transmitting portion 22a, and send the detected temperature to the main control board 6, and the main control board 6 controls the energy output by at least one of the first sub-heating film 31a, the first sub-light emitting film 21a and the first sub-power supply module according to the temperature detected by the first sub-temperature detecting component.

The second sub-temperature detecting component is configured to detect a temperature of skin contacted by at least one of the second electrode 11b, the second sub-heat conducting plate 32b and the second sub-light transmitting portion 22b, and send the detected temperature to the main control board 6, and the main control board 6 controls an amount of energy output by at least one of the second sub-heat generating film 31b, the second sub-light emitting film 21b and the second sub-power supplying module according to the temperature detected by the second sub-temperature detecting component.

In some embodiments, as shown in fig. 1, the beauty treatment instrument 100 is in a shape of earphone box as a whole, which is convenient for a user to hold in his/her hand.

The foregoing is a description of embodiments of the present application, and it should be noted that, for those skilled in the art, modifications and variations can be made without departing from the principles of the embodiments of the present application, and such modifications and variations are also considered to be within the scope of the present application.

Claims (17)

1. A cosmetic device, comprising:

the functional component comprises at least two of an electrotherapy component, a phototherapy component and a thermal therapy component, wherein the electrotherapy component comprises at least one electrode, the electrotherapy component outputs electric energy to the skin through the at least one electrode, the phototherapy component comprises a luminous film for emitting light and a light transmission part, the light transmission part is arranged on the luminous side of the luminous film and is used for allowing light emitted by the luminous film to pass through so as to irradiate the skin, the thermal therapy component comprises a heating film for heating and a heat conducting plate, the heat conducting plate and the heating film are arranged in a lamination mode, and the surface of the heat conducting plate, which is away from the heating film, is used for facing the skin when the beauty instrument acts on the skin so as to conduct heat generated by the heating film to the skin; wherein, the structure integration that the functional module includes at least two subassemblies sets up together.

2. The cosmetic apparatus according to claim 1, wherein the functional component comprises the electrotherapy component and the thermotherapy component, the electrode penetrates through the heat conducting plate and the heating film and is fixed on the heat conducting plate, and opposite ends of the electrode are respectively exposed on the surface of the heat conducting plate, which is away from the heating film, and the surface of the heating film, which is away from the heat conducting plate; or alternatively

The functional component comprises the thermal therapy component and the phototherapy component, the light transmission part is penetrated and fixed on the heat conduction plate, the two ends of the light transmission part in the thickness direction of the heat conduction plate are respectively exposed out of the heat conduction plate, the heating film comprises a hollowed-out area, the orthographic projection of the light transmission part on the heating film is positioned in the hollowed-out area, the luminous film is arranged on one side of the heating film, which is far away from the heat conduction plate, and the luminous side of the luminous film is opposite to one side of the heating film, which is far away from the heat conduction plate; or alternatively

The functional component comprises the electrotherapy component and the phototherapy component, the electrode penetrates through and is fixed to the light-transmitting part, and the opposite ends of the electrode are respectively exposed on the surface, close to the luminous film, of the light-transmitting part and the surface, far away from the luminous film.

3. The apparatus according to claim 2, wherein the phototherapy unit further comprises a light guide plate, which is disposed on a light emitting side of the light emitting film and between the light emitting film and the light transmitting portion, the light guide plate is configured to scatter light emitted from the light emitting film, so that the light passes through the light transmitting portion and is uniformly irradiated to the skin, and the electrode is further disposed through the light guide plate when the functional unit includes the phototherapy unit and the electrotherapy unit; when the functional component comprises the phototherapy component and the thermal therapy component, the light guide plate is arranged on one side of the heating film, which is away from the heat guide plate.

4. The cosmetic apparatus of claim 2, wherein the electrotherapy assembly further comprises a glue layer, the electrode penetrates through the glue layer, and when the functional assembly comprises the electrotherapy assembly and the thermotherapy assembly, the glue layer is arranged on one side of the heating film, which is away from the heat conducting plate, and the electrode penetrates through the heat conducting plate, the heating film and the glue layer; when the functional component comprises the electrotherapy component and the phototherapy component, the adhesive layer is arranged on one side of the light-transmitting part, which is close to the luminous film, the electrode penetrates through the light-transmitting part and the adhesive layer, and the adhesive layer can transmit light.

5. The cosmetic apparatus of claim 2, wherein the heating film comprises a first sub-heating film and a second sub-heating film, the heat conductive plate comprises a first sub-heat conductive plate and a second sub-heat conductive plate arranged along a length direction of the heat conductive plate, the first sub-heating film and the second sub-heating film are respectively laminated with the first sub-heat conductive plate and the second sub-heat conductive plate, the first sub-heating film is used for outputting with first heat energy, the second sub-heating film is used for outputting with second heat energy, and the first heat energy is less than or equal to the second heat energy; the light-emitting film comprises a first sub light-emitting film and a second sub light-emitting film, the first sub light-emitting film is used for outputting first light energy, the second sub light-emitting film is used for outputting second light energy, the first light energy is smaller than or equal to the second light energy, the light-transmitting part comprises at least one first sub light-transmitting part and at least one second sub light-transmitting part, the first sub light-transmitting part is positioned on the light-emitting side of the first sub light-emitting film, and the second sub light-transmitting part is positioned on the light-emitting side of the second sub light-emitting film; the electrotherapy assembly includes at least two electrodes including at least one first electrode for outputting with a first electrical energy and at least one second electrode for outputting with a second electrical energy, the first electrical energy being less than or equal to the second electrical energy.

6. The cosmetic apparatus of claim 5, wherein the first and second sub-heat generating films are in the same plane, and the first and second sub-heat conducting plates are in the same plane; the first sub-luminous film and the second sub-luminous film are positioned on the same plane, and the first sub-light-transmitting part and the second sub-light-transmitting part are positioned on the same plane.

7. The cosmetic apparatus according to claim 5, wherein when the functional component includes the electrotherapy component and the thermotherapy component, the first electrode penetrates through the first sub-heat-conducting plate and the first sub-heat-generating film and is fixed on the first sub-heat-conducting plate, opposite ends of the first electrode are respectively exposed on a surface of the first sub-heat-conducting plate facing away from the first sub-heat-generating film and a surface of the first sub-heat-generating film facing away from the first sub-heat-conducting plate, the second electrode penetrates through the second sub-heat-conducting plate and the second sub-heat-generating film and is fixed on the second sub-heat-conducting plate, and opposite ends of the second electrode are respectively exposed on a surface of the second sub-heat-conducting plate facing away from the second sub-heat-generating film and a surface of the second sub-heat-generating film facing away from the second sub-heat-conducting plate; when the functional component comprises the electrotherapy component and the phototherapy component, the first electrode penetrates through and is fixed on the first sub-light-transmitting part, the opposite ends of the first electrode are respectively exposed on the surface, close to the first sub-light-emitting film, of the first sub-light-transmitting part and the surface, far away from the first sub-light-emitting film, of the first sub-light-transmitting part, the second electrode penetrates through and is fixed on the second sub-light-transmitting part, and the opposite ends of the second electrode are respectively exposed on the surface, close to the second sub-light-emitting film, of the second sub-light-transmitting part and the surface, far away from the second sub-light-emitting film; when the functional component comprises the thermal therapy component and the phototherapy component, the first sub-light-transmitting part penetrates through and is fixed on the first sub-heat-conducting plate, the two ends of the first sub-light-transmitting part along the thickness direction of the first sub-heat-conducting plate are respectively exposed out of the first sub-heat-conducting plate, the second sub-light-transmitting part penetrates through and is fixed on the second sub-heat-conducting plate, the two ends of the second sub-light-transmitting part along the thickness direction of the second sub-heat-conducting plate are respectively exposed out of the second sub-heat-conducting plate, the first sub-heating film comprises a first hollowed-out area, the second sub-heating film comprises a second hollowed-out area, the first hollowed-out area and the second hollowed-out area are arranged at intervals, the front projection of the first sub-light-transmitting part on the first sub-heating film is located in the first hollow area, the front projection of the second sub-light-transmitting part on the second sub-heating film is located in the second hollow area, the first sub-light-emitting film is arranged on one side of the first sub-heating film, which is away from the first sub-heat-conducting plate, the light-emitting side of the first sub-light-emitting film is opposite to one side of the first sub-heating film, which is away from the first sub-heat-conducting plate, the second sub-light-emitting film is arranged on one side of the second sub-heating film, which is away from the second sub-heat-conducting plate, and the light-emitting side of the second sub-light-emitting film is opposite to one side of the second sub-heating film, which is away from the second sub-heat-conducting plate.

8. The cosmetic apparatus according to claim 5, wherein the functional component comprises the phototherapy component, the cosmetic apparatus further comprises a light isolation part, a first sub-light guide plate and a second sub-light guide plate, the first sub-light guide plate is arranged on the light emitting side of the first sub-light emitting film and is positioned between the first sub-light emitting film and the first sub-light transmission part, the first sub-light guide plate is used for scattering the light emitted by the first sub-light emitting film, so that the light uniformly irradiates the skin after passing through the first sub-light transmission part, the second sub-light guide plate is arranged on the light emitting side of the second sub-light emitting film and is positioned between the second sub-light emitting film and the second sub-light transmission part, the second sub-light guide plate is used for scattering the light emitted by the second sub-light emitting film, so that the light uniformly irradiates the skin after passing through the second sub-light transmission part, the light isolation part is arranged between the first sub-light guide plate and the second sub-light guide plate, and the light isolation part is used for blocking the light emitted by the first sub-light guide plate and the second sub-light transmission part; when the functional component comprises the phototherapy component and the electrotherapy component, the first electrode is further penetrated through the first sub-light guide plate, and the second electrode is further penetrated through the second sub-light guide plate; when the functional component comprises the phototherapy component and the thermal therapy component, the first sub-light guide plate is arranged on one side of the first sub-heating film, which is away from the first sub-heat guide plate, and the second sub-light guide plate is arranged on one side of the second sub-heating film, which is away from the second sub-heat guide plate.

9. The cosmetic apparatus of claim 5, wherein the functional component comprises the thermal therapy component, and further comprising a heat insulation part penetrating and fixed between the first sub-heat-conductive plate and the second sub-heat-conductive plate, wherein the heat insulation part is used for blocking heat generated by the first sub-heat-generating film from being conducted to the second sub-heat-conductive plate and blocking heat generated by the second sub-heat-generating film from being conducted to the first sub-heat-conductive plate.

10. The cosmetic apparatus according to claim 5, wherein a shape of a surface of the first sub-light-transmitting portion remote from the first sub-light-emitting film is different from a shape of a surface of the second sub-light-transmitting portion remote from the second sub-light-emitting film; the arrangement shape of the first electrode is different from the arrangement shape of the second electrode.

11. The cosmetic apparatus of claim 5, wherein the number of first electrodes is less than the number of second electrodes; the heat conduction area of the first sub heat conduction plate is smaller than that of the second sub heat conduction plate, and the heat generation area of the first sub heat generation film is smaller than that of the second sub heat generation film; the light transmission area of the first sub-light transmission part is smaller than that of the second sub-light transmission part, and the light emitting area of the first sub-light emitting film is smaller than that of the second sub-light emitting film.

12. The cosmetic apparatus of claim 11, wherein the cosmetic apparatus comprises the electrotherapy unit, the phototherapy unit and the hyperthermia unit, the hyperthermia unit comprises at least two second sub-light-transmitting parts, the at least two second sub-light-transmitting parts are arranged at intervals and penetrate through the second sub-heat-conducting plate, the electrotherapy unit comprises at least two second electrodes, the at least two second electrodes are divided into at least two second electrode groups arranged at intervals, each second electrode group comprises a preset number of second electrodes, and the second electrode of each second electrode group penetrates through one second sub-light-transmitting part.

13. The cosmetic apparatus of claim 1 further comprising a reservoir assembly and a support, the support surrounding and being mounted to and secured to the functional assembly, the reservoir assembly being removably connected to the support and covering at least a portion of the functional assembly, the reservoir assembly storing a cosmetic substance, the reservoir assembly contacting the skin and releasing the cosmetic substance to the skin surface when the cosmetic apparatus is applied to the skin.

14. The cosmetic apparatus of claim 13, wherein the reservoir assembly comprises a reservoir portion and a connecting portion, the connecting portion being detachably connected to the support, the reservoir portion being secured to the connecting portion and covering the functional assembly, the reservoir portion storing a cosmetic substance, the reservoir portion contacting the skin when the cosmetic apparatus is applied to the skin and releasing the cosmetic substance to the skin surface; the reservoir may be transparent to light when the functional component includes the phototherapy component.

15. The cosmetic apparatus of claim 14, wherein the reservoir comprises a sponge and a membrane cloth fixedly connected, the sponge being fixed to the connection portion, the membrane cloth being fixed to a side of the sponge remote from the connection portion, the membrane cloth being adapted to contact the skin.

16. The cosmetic apparatus of claim 14, wherein the functional module includes the electrotherapy module and the connection part is mounted to the bracket, and the electrode is in contact with the cosmetic substance stored in the liquid storage part to conduct energy output from the electrotherapy module to the skin through the cosmetic substance stored in the liquid storage part.

17. The cosmetic apparatus of claim 13, wherein the reservoir assembly comprises at least two types, each type of reservoir assembly storing a cosmetic substance, the reservoir assembly being connected to the outer peripheral edge of the support, the reservoir assembly being provided with a logo and/or a magnetic attraction member on the inner side thereof, the magnetic attraction member being for magnetic attraction with the support; the beauty instrument further comprises a main control board and a detection module electrically connected with the main control board, wherein the main control board is electrically connected with the functional components and used for controlling the functional components to output energy, the detection module is used for detecting the identification of the liquid storage components and/or the magnetic field parameter value of the magnetic attraction piece, and the main control board is used for determining the type of the liquid storage components according to the identification of the liquid storage components and/or the magnetic field parameter value of the magnetic attraction piece detected by the detection module, determining the target components in the functional components and the output parameters of the target components according to the type of the liquid storage components and controlling the target components to output according to the output parameters.