CN116899114A - Face mask - Google Patents

Abstract

The face-beautifying mask comprises a mask main body, a first light source component and a first optical sheet component, wherein the first light source component is arranged on the mask main body, the first light source component comprises a light source, the first optical sheet component comprises at least one optical filter, light emitted by the light source of the first light source component is emitted through the at least one optical filter, the emitting direction is the front direction of the mask main body, and the light of the light source is emitted from the front direction to be irradiated on the face of a user wearing the face-beautifying mask. The application adopts large-area whole-surface light-emitting to cover all areas of the face, including dead corner parts such as nose, lips and the like. The whole surface irradiation ensures the consistency of facial skin treatment to the greatest extent, greatly improves the overall whitening and skin tendering effects of facial skin, can cover the facial skin by using the whole surface irradiation, and greatly shortens the service time.

Description

Face mask

Technical Field

The application relates to a cosmetic device, in particular to a photon cosmetic mask.

Background

Intense pulsed light (Intense Pulsed Light, IPL), a broad spectrum visible light, has achieved dramatic clinical effects in the treatment of vascular lesions, pigment lesions, hirsutism, scars, acne, and color light tendering skin. The IPL generating principle is that a light source with higher intensity is focused and primarily filtered to form a beam of intense light with the wavelength of 400-1200nm, and a light filter can be arranged in front of the intense light to obtain photons with preset wave bands, which are suitable for skin treatment or cosmetology. The IPL photon skin tendering can penetrate to deeper positions of the skin, and the elastic fiber and the collagen fiber of the skin are rearranged and combined again through the photo-thermal effect and the photochemical effect to restore the elasticity of the skin, so that the skin is more tightly and tightly clamped, the effect of enabling the skin state to be younger is achieved, and the effects of improving acne, removing redness, removing blackness, whitening, removing fine wrinkles, improving skin darkness, brightening the skin and the like are achieved.

Aiming at the skin tendering/whitening/shift removing/red blood streak removing and the like of the face, the existing photon skin tendering instrument is influenced by the area of a light outlet (generally 1-4 square centimeters), and when in use, the photon irradiation area moves along with the movement of the instrument, so that the partial overlapping or different interval widths of the photon irradiation areas can be caused each time, and the effect of different brightness is caused when the photon irradiation area is repeatedly irradiated or moved without being irradiated to the skin; if a large-area light outlet is directly adopted, the IPL photons can damage skin or other tissues easily due to distance control or improper use. In the prior art, a mask cosmetic instrument adopting an LED light source is also available, but the mask cosmetic instrument is insufficient in energy and has a single fixed wave band, cannot produce beneficial effects on different skin symptoms, and is insufficient in energy intensity and poor in cosmetic effect.

Therefore, it is desirable to provide a photonic cosmetic device that is safe, reliable, easy to use, and has good therapeutic/cosmetic effects.

Disclosure of Invention

The application aims to provide a face mask which is safe, reliable, convenient to use and good in face beautifying effect.

In order to achieve the purpose of the application, the following technical scheme is provided:

the application provides a cosmetic mask, which comprises a mask main body, a first light source component and a first optical sheet component, wherein the first light source component is arranged on the mask main body, the first light source component comprises a light source, the first optical sheet component comprises at least one optical filter or a filter film attached to the light source, and light emitted by the light source of the first light source component passes through the mask main body after passing through the at least one optical filter or the filter film. In some embodiments, the exit direction is a front direction of the mask body, wherein the front direction is a direction facing a face when the user wears the cosmetic mask, and the light of the light source is emitted from the front direction to irradiate the face of the user wearing the cosmetic mask.

The filter allows light of a specific wavelength to pass therethrough while light of other wavelengths is filtered, and finally emitted light is light of a specific wavelength band suitable for skin treatment or cosmetology. The application provides equipment capable of being used for treatment/cosmetology, and the application is used for determining the wave band required by the treatment/cosmetology scheme, and then the cosmetology mask and the corresponding filter thereof are adopted. The optical filter can be fixed on the face mask, and different requirements can be met by selecting face masks of different types; the optical filter can also be detachably arranged on the beauty mask, and different requirements can be met by replacing the optical filter; the color filter with different wave bands can be arranged in the beauty mask, and different light emitting wave bands can be selected by a switching mode. The face mask is safe and reliable, convenient to use and good in face beautifying effect.

In some embodiments, the first optical sheet component adopts an optical filter, the optical filter is detachably arranged on the beauty mask, and the optical filters with different wave bands can be switched according to the needs, especially the large-surface optical filter can be replaced, so that different skin symptoms can be completely and effectively solved. In some embodiments, the mask body is provided with at least one slot, and the at least one optical filter can be correspondingly accommodated in the at least one slot. In some other embodiments, the first optical sheet assembly further includes at least one optical sheet support, the at least one optical filter is correspondingly disposed on the at least one optical sheet support, magnetic pieces that are mutually matched and adsorbed are respectively disposed on the mask main body and the optical sheet support, and the optical sheet support is mounted on the mask main body through the magnetic pieces, so that the optical filter can be disassembled and replaced. In other embodiments, the first optical sheet assembly includes a filter film attached to a light source, and in particular, the light source may employ a lamp to which the filter film may be attached.

Compared with the contact type of DPL photon skin tendering instrument on the market, the face mask can effectively avoid scalding; compared with the LED mask, the LED mask has the advantages of high energy and high speed, and the difference between the heat of the deep layer and the heat of the surface layer of the skin is small when the energy of the LED light source is low for treatment, and the heat is absorbed by the surface layer of the skin, so that the treatment effect is poor. The face mask of the application adopts a large-area whole-surface light-emitting device to cover all areas of the face, including dead corner parts such as nose, lips and the like. The whole face irradiation ensures the consistency of facial skin treatment to the greatest extent, greatly improves the beneficial effects of whole whitening and skin tendering of facial skin and collagen regeneration stimulation, and simultaneously compared with a photon skin tendering instrument on the market, the photon skin tendering instrument only has flash effect on a small piece of skin each time, and can cover the whole face only by using the whole face irradiation for one flash according to the size of the face area, thereby greatly shortening the service time. The application can be used once (0.2-3 seconds) with photon skin tendering instrument on the market, which is about 3-5 minutes, if the application is used 30 times with flash, the effect is tens times of that of the conventional photon skin tendering instrument. The application adopts the way of wearing the mask to carry out treatment/cosmetology, the light source is turned on to obtain the light with the required wave band, and the light is directly irradiated on the face to implement the treatment/cosmetology scheme, thus the operation is very convenient.

In some embodiments, at least one filter of the first optical sheet assembly is disposed in front of the front face of the mask body. The light emitted by the light source of the first light source component is emitted through the front light filter arranged on the front face of the mask main body, and the light filtered by the light filter irradiates on the face of a user wearing the cosmetic mask.

In some embodiments, the first light source assembly is provided with one of the light sources; in other embodiments, the first light source assembly has at least two light sources, and in specific embodiments, the at least two light sources are arranged along the surface of the mask body, which is matched with the shape of the mask body, so as to improve the beauty effect. Specifically, when the front appearance of the mask body is an arc-shaped surface matched with a human face, the at least two light sources are arranged in an array along the arc-shaped surface matched with the face of the mask body.

In some embodiments, the at least one optical filter has a switchable first position and a second position, and when the at least one optical filter is in the first position, light emitted by the first light source assembly exits through the at least one optical filter. In some specific embodiments, the first optical sheet assembly is provided with a piece of optical filter, when the optical filter is located at the first position, light emitted by the first light source assembly exits through the optical filter, when the optical filter is located at the second position, a power supply can be cut off through a synchronous power switch, the light source is turned off, and in other embodiments, a light shielding sheet can be provided, when the optical filter is located at the second position, the light shielding sheet is located at the first position, light is shielded, and light switching is realized. In other embodiments, the first optical sheet assembly is provided with two optical filters with different wavebands, the two optical filters are respectively switched between a first position and a second position, and the optical filter located at the first position filters the emergent light. In other embodiments, the first optical sheet assembly is provided with three or more optical filters with different wavebands, and the optical filters located at the first position are used for filtering the emergent light, and the switchable first position, the second position, the third position and the … … are corresponding to the optical filters.

In some embodiments, the first optical sheet assembly includes a rotatable optical sheet support, the at least one optical filter is correspondingly disposed on the optical sheet support, and the optical sheet support may rotate around the first light source assembly, so that the at least one optical filter may switch between a first position and a second position around the first light source assembly, where the first position is located at one side of the outgoing light direction. In further embodiments, the at least one optical filter is removably disposed on the rotatable optical sheet holder.

In some embodiments, the first optical sheet assembly includes at least one rotatable optical sheet support, and a corresponding number of optical filters and a corresponding number of light sources, where the optical filters are correspondingly disposed on the optical sheet support, and the optical sheet support may drive the optical filters to rotate around the light sources, so that the optical filters are switched around the light sources between a first position and a second position, and the first position is located at one side of the emergent light direction. In further embodiments, the first optical sheet assembly includes at least two optical filters that are rotatably switchable around the first light source assembly by manual or electric control; specifically, the first light source assembly may be an IPL tube disposed vertically.

In some embodiments, the light source of the first light source assembly is disposed vertically and extends axially along the optical sheet holder, the optical sheet holder rotates axially, the optical filter is disposed at the periphery of the light source along the circumference of the optical sheet holder, and the optical filter extends axially along the optical sheet holder.

In some embodiments, the cosmetic mask further includes an optical filter adjusting device, the optical filter adjusting device includes a first adjusting member, a second adjusting member matched with the optical sheet support is disposed on the optical sheet support, and the optical sheet support can be driven to rotate around the axial direction by the transmission of the first adjusting member to the second adjusting member. In some specific embodiments, the second adjusting member is an adjusting gear, the first adjusting member is an adjusting rack matched with the adjusting gear, and the optical filter adjusting device further comprises an operating member connected with the adjusting rack.

In some embodiments, the first optical sheet component correspondingly includes at least two optical sheet supports, the light source is the IPL fluorescent tube of vertical setting, and every fluorescent tube is all alone corresponding to be installed on one optical sheet support, the second regulating part is adjusting gear, first regulating part for with adjusting gear complex adjusting rack, all adjusting gear on the optical sheet support is followed mask main part appearance complex arc is arranged, adjusting rack appearance be the arc and with the outer Zhou Hudu phase-match of adjusting gear that the arc was arranged, adjusting rack and the outer Zhou Qiemian direction meshing of each adjusting gear, transmission efficiency is high and synchronism is strong.

In some embodiments, the second adjusting member is disposed in the mask body, and one side of the first adjusting member is matched with the second adjusting member, and the other side of the first adjusting member is connected with an operating member extending out of the mask body, so that the user can conveniently perform adjustment operation. In a specific embodiment, the first adjusting member is an adjusting rack, the second adjusting member is an adjusting gear, the adjusting rack is meshed with the adjusting gear, one side of the operating member is connected with the adjusting rack, the other side of the operating member extends out of the mask main body, a user can conveniently adjust the operation, the user pushes the adjusting rack through operating the operating member, so that the adjusting gear is driven to rotate, the adjusting gear is mounted on the optical sheet support, the rotating shaft of the adjusting gear is consistent with the shaft of the optical sheet support, and the optical sheet support can be driven to rotate around the axial direction. In a specific embodiment, the operating member may be another gear meshed with the adjusting rack, may also be a knob matched with the adjusting rack, may also be a push rod capable of driving the adjusting rack to move transversely, and the like.

In some embodiments, the adjusting rack may be arc-shaped to match the shape of the mask body, and the arc-shaped design matches the outer side Zhou Hudu of the adjusting gear, so as to improve the transmission efficiency.

In some embodiments, the light source of the first light source assembly has at least two, the first optical sheet assembly corresponds including at least two the optical sheet support, the light source is the IPL fluorescent tube of vertical setting, and every fluorescent tube is all alone corresponding to be installed on the optical sheet support, the second regulating part be adjusting gear, first regulating part be with adjusting gear complex adjusting rack, all adjusting gear on the optical sheet support is followed face guard main part appearance complex arc arranges, adjusting rack appearance be the arc and with the outer Zhou Hudu assorted of adjusting gear that the arc was arranged, adjusting rack and the outer Zhou Qiemian direction meshing of each adjusting gear, transmission efficiency is high and synchronism is strong.

In some embodiments, the first light source assembly comprises at least one IPL light source or at least one tungsten filament light source or at least one carbon fiber light source; in other embodiments, the first light source assembly includes at least one IPL light source and at least one tungsten light source, i.e., the light source emits light with the tungsten lamp using the IPL light source.

In some embodiments, the first optical sheet assembly further comprises a light reflector disposed behind the light source. The light of all light sources can be reflected by adopting one light reflecting piece, one light reflecting piece can be corresponding to each light source, the shape of the light reflecting piece is an arc surface which surrounds the light sources, specifically, the arc surface of the light reflecting piece extends along the circumference of the light sources and is arranged by taking the light sources as the center, so that the light emitted by the light sources backwards is efficiently reflected to the front direction of the mask, and when a plurality of light reflecting pieces are arranged, the light reflecting pieces can be connected with each other.

In some embodiments, the first optical sheet assembly further comprises at least one cosmetic lens removably mountable on the front face of the cosmetic mask. In other embodiments, the optical filter of the first optical sheet component is disposed on the front surface of the cosmetic mask, one surface of the optical filter is coated with a filter film, and the other surface of the optical filter is coated with a single-surface light-transmitting film, so that light can penetrate through the single-surface light-transmitting film after passing through the surface of the filter film to realize photon beauty.

In some embodiments, the cosmetic mask further comprises a heat sink disposed behind the reflector. The light source can radiate by adopting a fan blowing/air suction mode or adopting a heat conduction and radiation mode such as aluminum pieces/copper blocks/heat pipes and the like. In some embodiments, the cosmetic mask further comprises a mask rear shell, the mask rear shell is mounted in cooperation with the mask main body to form a cavity capable of accommodating the light source, the reflecting piece and the radiating piece, the mask rear shell is arranged at the rear of the cosmetic mask, the rear is opposite to the front direction of the cosmetic mask, the face of the user faces outwards when wearing the cosmetic mask, and the mask rear shell is provided with a radiating hole communicated with the cavity.

In some embodiments, the cosmetic mask further comprises a head stopper, and the head stopper is fixedly mounted or detachably disposed in the front direction of the mask body.

In some embodiments, the cosmetic mask further comprises a stretch band. The elastic belt is used for encircling the head of a user to help fix the cosmetic mask when the cosmetic mask is worn, and is provided with an elastic adjusting structure or elastic.

In some embodiments, the cosmetic mask further comprises a circuit board within the mask body, the first light source assembly being connected to the circuit board. In other embodiments, the circuit board is disposed outside of the cosmetic mask and is connected in use by a connector socket.

Compared with the prior art, the application has the following advantages:

compared with the contact type of a DPL photon skin tendering instrument on the market, the cosmetic mask can effectively avoid scalding, and the non-contact type enables light to have scattering conditions to act on skin more effectively. The application adopts large-area whole-surface light-emitting to cover all areas of the face, including dead corner parts such as nose, lips and the like. The whole face irradiation ensures the consistency of facial skin treatment to the greatest extent, greatly improves the beneficial effects of whole whitening and skin tendering of facial skin and collagen regeneration stimulation, and simultaneously compared with a photon skin tendering instrument on the market, the photon skin tendering instrument only has flash effect on a small piece of skin each time, and can cover the whole face only by using the whole face irradiation for one flash according to the size of the face area, thereby greatly shortening the service time. The application can be used once (0.2-3 seconds) with photon skin tendering instrument on the market, which is about 3-5 minutes, if the application is used 30 times with flash, the effect is tens times of that of the conventional photon skin tendering instrument.

Furthermore, the filter can be replaced to obtain different waves Duan Chushe light, so that different treatment/beautifying requirements are met, different skin symptoms can be met, different skin problems can be comprehensively and effectively solved, the filter is convenient to use, the treatment/beautifying effects are good, and the filter loading switching mode is flexible, convenient and diversified.

Furthermore, the application adopts the characteristic of the IPL light source to instantly apply the light energy to the skin harrow target, thereby reducing the loss of energy and heat and further achieving the quicker and more effective treatment effect; the LED light source of the general beauty instrument has small heat differentiation between the deep layer of the skin and the surface layer of the skin during low energy treatment, the heat is absorbed by the skin epidermis, and the treatment effect is poor; compared with an LED beauty instrument, the application has the advantages of high energy and high speed. In addition, the halogen lamp is adopted in some embodiments of the application, the continuous wide spectrum of the near infrared wavelength can better act on the deep layer of the skin to stimulate collagen regeneration, and meanwhile, the full spectrum characteristic can more effectively inhibit melanin secretion to better achieve the whitening effect.

Drawings

FIG. 1 is a perspective view of a cosmetic mask according to an embodiment of the present application;

FIG. 2 is a second perspective view of a cosmetic mask according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of a cosmetic mask according to an embodiment of the present application;

FIG. 4 is a longitudinal cross-sectional view of a cosmetic mask according to an embodiment of the present application;

FIG. 5 is an exploded view of a cosmetic mask according to an embodiment of the present application;

FIG. 6 is a schematic view of a face mask according to an embodiment of the present application inserted into a power supply base;

FIG. 7 is a schematic diagram showing a connection relationship between a face mask and a power base according to an embodiment of the present application;

FIG. 8 is a schematic diagram of a power supply base according to a second embodiment of the present application;

FIG. 9 is a perspective view of one of a second embodiment of a cosmetic mask of the present application;

FIG. 10 is a second perspective view of a cosmetic mask according to a second embodiment of the present application;

FIG. 11 is one of the transverse cross-sectional views of a cosmetic mask according to a second embodiment of the present application;

FIG. 12 is a second cross-sectional view of a cosmetic mask according to a second embodiment of the present application;

FIG. 13 is a longitudinal cross-sectional view of a cosmetic mask according to a second embodiment of the present application;

FIG. 14 is an exploded view of a second embodiment of a cosmetic mask;

FIG. 15 is a schematic diagram of a connection relationship between a face mask and a power base according to a second embodiment of the present application;

FIG. 16 is a perspective view of a three-photon cosmetic mirror according to an embodiment of the present application;

FIG. 17 is a schematic diagram of a slot-in first optical sheet assembly of a three-photon cosmetic mirror according to an embodiment of the application;

FIG. 18 is a longitudinal cross-sectional view of a three-photon cosmetic mirror according to an embodiment of the application;

FIG. 19 is an exploded view of a three-photon cosmetic mirror according to an embodiment of the present application;

FIG. 20 is a schematic diagram of a three-photon cosmetic mirror according to an embodiment of the present application;

FIG. 21 is a schematic view of a magnetic attraction type first optical sheet assembly of a three-photon beauty treatment mirror according to an embodiment of the application;

FIG. 22 is a perspective view of a four-photon cosmetic mirror according to an embodiment of the present application;

FIG. 23 is a longitudinal cross-sectional view of a four-photon cosmetic mirror according to an embodiment of the application;

FIG. 24 is a transverse cross-sectional view of a four-photon cosmetic mirror according to an embodiment of the application;

FIG. 25 is an exploded view of a four-photon cosmetic mirror according to an embodiment of the present application;

FIG. 26 is a perspective view of a five-photon cosmetic mirror according to an embodiment of the present application;

FIG. 27 is a longitudinal cross-sectional view of a five-photon cosmetic mirror according to an embodiment of the application;

FIG. 28 is a transverse cross-sectional view of a five-photon cosmetic mirror according to an embodiment of the application;

FIG. 29 is a front cross-sectional view of a five-photon cosmetic mirror according to an embodiment of the application;

FIG. 30 is an exploded view of a five-photon cosmetic mirror according to an embodiment of the present application;

FIG. 31 is a longitudinal cross-sectional view of a six-photon cosmetic mirror according to an embodiment of the application;

FIG. 32 is a front cross-sectional view of a six-photon cosmetic mirror according to an embodiment of the application;

FIG. 33 is a transverse cross-sectional view of a six-photon cosmetic mirror according to an embodiment of the application;

fig. 34 is an exploded view of a six-photon cosmetic mirror according to an embodiment of the present application.

Detailed Description

Exemplary embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the application to those skilled in the art.

It is to be understood that the terminology used herein is for the purpose of describing particular example embodiments only, and is not intended to be limiting. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. The terms "comprises," "comprising," "includes," "including," and "having" are inclusive and therefore specify the presence of stated features, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, elements, components, and/or groups thereof. The method steps, processes, and operations described herein are not to be construed as necessarily requiring their performance in the particular order described or illustrated, unless an order of performance is explicitly stated. It should also be appreciated that additional or alternative steps may be used.

Although the terms first, second, third, etc. may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms may be only used to distinguish one element, component, region, layer or section from another region, layer or section. Terms such as "first," "second," and other numerical terms when used herein do not imply a sequence or order unless clearly indicated by the context. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings of the example embodiments.

For ease of description, spatially relative terms, such as "inner," "outer," "lower," "below," "upper," "above," "front," "back," and the like, may be used herein to describe one element's or feature's relationship to another element's or feature as illustrated in the figures. Such spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" or "over" the other elements or features. Thus, the example term "below … …" may include both upper and lower orientations. The device may be otherwise oriented (rotated 90 degrees or in other directions) and the spatial relative relationship descriptors used herein interpreted accordingly.

Referring to fig. 1 to 5, a cosmetic mask according to an embodiment of the application includes a mask body 6100, a first light source component disposed on the mask body 6100, and a first optical sheet component, where the first light source component includes a light source 6210, in this embodiment, three light sources 6210 are disposed, the first optical sheet component includes an optical filter 6310, the optical filter 6310 is disposed in front of the mask body 6100 and covers the light source in a space between the mask body 6100 and a reflective member 6320, and light emitted by the light source 6210 of the first light source component exits through the optical filter 6310, and the exit direction is a front direction of the mask body 6100, where a region a is a light exit region in the drawing. Wherein, the frontal direction is the direction facing the face of the user when the user wears the cosmetic mask, and the light of the light source 6210 is emitted from the frontal direction to irradiate the face of the user wearing the cosmetic mask.

The front surface of the mask body 6100 may be curved to fit the face as shown in fig. 1-11, and in other embodiments, the front surface of the mask body may be planar or may be formed of a plurality of surfaces that are angled with respect to one another. In this embodiment, the application is embodied in the form of a wearable mask, and in other embodiments, the application may be used on a desktop or in a hand-held manner.

The filter allows light of a specific wavelength to pass therethrough while light of other wavelengths is filtered, and finally emitted light is light of a specific wavelength band suitable for skin treatment or cosmetology. The application provides equipment capable of being used for treatment/cosmetology, and the application is used for determining the wave band required by the treatment/cosmetology scheme, and then the cosmetology mask and the corresponding filter thereof are adopted. The optical filter can be fixed on the face mask, and different requirements can be met by selecting face masks of different types; the optical filter can also be detachably arranged on the beautifying face mask, and different requirements can be met by replacing the optical filter.

Compared with the contact type of IPL photon skin tendering instrument on the market, the face mask can effectively avoid scalding; compared with the LED mask, the LED mask has the advantages of high energy and high speed, and the difference between the heat of the deep layer and the heat of the surface layer of the skin is small when the energy of the LED light source is low for treatment, and the heat is absorbed by the surface layer of the skin, so that the treatment effect is poor. The face mask of the application adopts a large-area whole-surface light-emitting device to cover all areas of the face, including dead corner parts such as nose, lips and the like. The whole face irradiation ensures the consistency of facial skin treatment to the greatest extent, greatly improves the beneficial effects of whole whitening and skin tendering of facial skin and collagen regeneration stimulation, and simultaneously compared with a photon skin tendering instrument on the market, the photon skin tendering instrument only has flash effect on a small piece of skin each time, and can cover the whole face only by using the whole face irradiation for one flash according to the size of the face area, thereby greatly shortening the service time. The application can be used once (0.2-3 seconds) with photon skin tendering instrument on the market, which is about 3-5 minutes, if the application is used 30 times with flash, the effect is tens times of that of the conventional photon skin tendering instrument. The application adopts the way of wearing the mask to carry out treatment/cosmetology, the light source is turned on to obtain the light with the required wave band, and the light is directly irradiated on the face to implement the treatment/cosmetology scheme, thus the operation is very convenient.

As shown in fig. 1 to 7, in the first embodiment, the light source 6210 of the first light source assembly adopts three vertically arranged IPL light tubes, or alternatively adopts IPL light tubes and halogen light tubes, and the first optical sheet assembly further includes a reflector 6320 disposed behind the light source 6210, where the reflector 6320 reflects light from all the light sources 6210, in this embodiment, each light source 6210 corresponds to one reflector 6320, all the reflectors 6320 are connected, each reflector 6320 is shaped to surround an arc surface disposed corresponding to the light source 6210, and specifically, the arc surface of the reflector 6320 extends along the circumference of the light source 6210 and is disposed with the light source 6210 as a center, so as to reflect light emitted by the light source 6210 backward to the front face of the mask more efficiently. It will be appreciated that the reflector 6320 may be a unitary structure with three curved shapes corresponding to the rear of the three lamps.

The cosmetic mask further includes a heat sink 6410, and the heat sink 6410 is disposed behind the light reflector 6320 to be matched with the shape of the light reflector or to be integrally formed with the light reflector 6320. Heat sink 6410 is a heat sink or a combination of one or more of a heat pipe, a temperature equalizing plate, a super heat pipe, or a heat conducting substrate made of a single heat conducting material (e.g., aluminum or copper). The heat dissipation of the light source 6210 can also be replaced by a fan blowing/sucking mode. The face-beautifying mask further comprises a mask rear shell 6420, the mask rear shell 6420 is matched with the mask main body 6100 to form a containing cavity capable of containing the light source 6210, the reflecting piece 6320 and the radiating piece 6410, the mask rear shell 6420 is arranged at the rear of the face-beautifying mask, the rear is opposite to the front direction of the face-beautifying mask, the face-beautifying mask is outwards faced for a user to wear, and the mask rear shell 6420 is provided with a radiating hole 6421 communicated with the containing cavity, so that the face-beautifying mask is convenient to radiate and cool.

The cosmetic mask further comprises a head limiting block 6510, wherein the head limiting block 6510 is fixedly mounted or detachably arranged in the front direction of the mask main body 6100, and is convenient for a user to wear and position and keeps a certain safety distance.

The cosmetic mask also includes a stretch band 6520. The strap 6520 may have a telescopic adjustment mechanism for encircling the head of a user when wearing the mask to help secure the mask, or the strap 6520 may have elasticity to accommodate different users.

As shown in fig. 5, the cosmetic mask is further provided with a control circuit board 6430 in the mask main body 6100, and the light source of the first light source assembly is connected to the control circuit board 6430, in this embodiment, the control circuit board is disposed in the mask main body 6100. In other embodiments, the circuit board may be located outside the cosmetic mask, with connection power being applied through a socket in use.

Referring to fig. 6 to 8, the present application further includes a power supply base 6600, wherein a power supply circuit board 6620 is disposed in the power supply base 6600 for supplying power, and the power supply base is electrically connected to the control circuit board in the cosmetic mask through a power supply wire 6611 extending out of the power supply base connector 6610. In other embodiments, the power socket connector may be a plug-in power interface or a charging interface, and the cosmetic mask is directly plugged into the power socket connector to be powered or charged.

The optical filter in the first embodiment may be changed into a filter form, for example, a filter film which can filter a specific wavelength band is attached to the IPL lamp tube in the first embodiment, and a film is coated on the surface of the lamp tube by an optical coating process to form a lamp tube with the filter film; at this time, a transparent sheet/cover may be provided in front of the front face of the mask body to cover the light source.

Referring to fig. 9 to 15, a second embodiment of the cosmetic mask of the present application is different from the first embodiment in that the first optical sheet assembly is different. The cosmetic mask of the second embodiment of the present application includes a mask body 6100, a first light source assembly disposed on the mask body 6100, and a first optical sheet assembly, where the first light source assembly includes a light source 6210, and in this embodiment, three light sources 6210 are provided. The first optical sheet assembly includes rotatable optical sheet holders 7330 corresponding to the number of light sources, the light sources 6210 are vertically disposed in the cavity of the mask body 6100 and extend along the axial direction of the optical sheet holders 7330, and each optical sheet holder 7330 is respectively provided with two optical filters 7310, 7320 with different filtering bands, for example, one optical filter has a wavelength band of 500-600nm of outgoing light after filtering, and the other optical filter has a wavelength band of 900-1800nm of outgoing light after filtering. Each of the optical sheet holders 7330 is rotatable around the corresponding light source 6210 in the axial direction, specifically, the optical filters 7310, 7320 are disposed on the outer circumference of the light source 6210 in the circumferential direction of the optical sheet holders 7330, and the optical filters 7310, 7320 extend in the axial direction of the optical sheet holders 7330, each of the light sources 6210 is disposed coaxially with the corresponding optical sheet holder 7330, and the optical filters 7310, 7320 disposed on each of the optical sheet holders 7330 are switched around the light source 6210 between a first position on one side in the light-emitting direction and a second position on the non-light-emitting side. The optical filter is fixed on the rotatable optical sheet support or is detachably arranged on the rotatable optical sheet support. The light emitting direction is the front direction of the mask body 6100, and a transparent cover 7500 is further provided on the front of the mask body 6100. Wherein, the frontal direction is the direction facing the face of the user when the user wears the cosmetic mask, and the light of the light source 6210 is emitted from the frontal direction to irradiate the face of the user wearing the cosmetic mask.

When one of the filters 7310 is positioned at the first position, the light emitted from the light source 6210 is emitted through the filter 7310 positioned at the first position. The optical sheet support 7330 may rotate the optical filters 7310 and 7320 around the light source 6210, and the optical sheet support 7330 may be driven to rotate by a manual or electric control manner, so that the optical filters 7310 and 7320 may be switched between a first position and a second position around the light source 6210. When another one of the filters 7320 is switched to the first position, the light emitted from the light source 6210 exits through the filter 7320 at the first position.

In other embodiments, the first optical sheet assembly is provided with three or more optical filters with different wavebands, and the optical filters located at the first position are used for filtering the emergent light, and the switchable first position, the second position, the third position and the … … are corresponding to the optical filters.

In a second embodiment, the cosmetic mask further includes an optical filter adjusting device, the optical filter adjusting device includes a first adjusting member, a second adjusting member matched with the optical sheet bracket 7330 is disposed on the optical sheet bracket 7330, and the optical sheet bracket can be driven to rotate around the axial direction by transmitting the first adjusting member to the second adjusting member. Specifically, the second adjusting member is an adjusting gear 7420 disposed on the optical sheet bracket 7330, the first adjusting member is an adjusting rack 7410 mated with the adjusting gear 7410, and the optical filter adjusting device further includes an operating member 7430 connected to the adjusting rack 7410.

All adjusting gears 7420 on the optical film support are arranged along the arc shape matched with the outline of the mask main body 6100, the outline of each adjusting rack 7410 is arc-shaped and matched with the outer Zhou Hudu of the adjusting gears 7420 arranged in the arc shape, and each adjusting rack 7410 is meshed with each adjusting gear 7420 in the outer Zhou Qiemian direction, so that the transmission efficiency is high and the synchronism is strong.

The adjusting gear 7420 is disposed in the mask body 6100, one side of the optical filter adjusting device is meshed with the adjusting gear 7420 through the adjusting gear rack 7410, the other side is connected with an operating member 7430 extending out of the mask body 6100, so that a user can conveniently adjust the optical filter adjusting device, the user can push the adjusting gear rack 7410 by operating the operating member 7430, thereby driving the adjusting gear 7420 to rotate, the adjusting gear 7420 is mounted on the optical sheet bracket 7330, and the adjusting gear 7420 is coaxial with the optical sheet bracket 7330, so as to drive the optical sheet bracket 7330 to rotate around the axial direction. In a specific embodiment, the operating member 7430 may be another gear engaged with the adjusting rack 7410, or may be a knob matched with the adjusting rack 7410, where in this embodiment, the operating member 7430 is a push rod that can drive the adjusting rack 7410 to move.

In other embodiments, the filters 730, 7320 may be coated on the same transparent substrate (e.g. arc or cylindrical) in regions, where each region corresponds to a different filtering band, and the regions are axially parallel to each other, so as to obtain a plurality of regions of filters with different filtering bands.

The first optical sheet assembly further includes a reflector 7340 disposed behind the light sources 6210, the reflector 7340 reflecting light from all the light sources 6210, in this embodiment, each light source 6210 corresponds to one reflector 7340, all the reflectors 7340 are connected, each reflector 7340 is shaped as a cambered surface disposed around the corresponding light source 6210, extends along the circumference of the light source 6210 and is disposed with the light source 6210 as a center, so as to reflect light emitted from the light source 6210 backward to the front direction of the mask more efficiently. The three counter-pieces 7340 may also be of unitary construction, including three arcuate shapes, adapted to three light sources.

The cosmetic mask also includes a heat sink 6410, the heat sink 6410 being disposed behind the reflector 7340. The cosmetic mask further comprises a mask rear shell 6420, the mask rear shell 6420 is matched with the mask main body 6100 to form a cavity capable of accommodating the light source 6210, the reflecting member 7340 and the radiating member 6410, and the mask rear shell 6420 is provided with a radiating hole 6421 communicated with the cavity, so that heat dissipation and cooling are facilitated.

The cosmetic mask further comprises a head limiting block 6510, wherein the head limiting block 6510 is fixedly mounted or detachably arranged in the front direction of the mask main body 6100, and is convenient for a user to wear and position and keeps a certain safety distance. The cosmetic mask also includes a stretch band 6520. The strap 6520 may have a telescopic adjustment mechanism for encircling the head of a user when wearing the mask to help secure the mask, or the strap 6520 may have elasticity to accommodate different users. The cosmetic mask is further provided with a control circuit board 6430 in the mask main body 6100, and the light source of the first light source assembly is connected to the control circuit board 6430, in this embodiment, the control circuit board 6430 is disposed in the mask main body 6100.

Referring to fig. 15, in a second embodiment, a plug-in power interface 7610 on a power base 7600 is shown,

the bottom of the mask main body 6100 of the cosmetic mask is provided with a matched socket 6101, and the cosmetic mask can be directly inserted on the power supply base connector to be powered on or charged.

The light source 6210 of the cosmetic mask of the present application may be an IPL light source or a tungsten filament light source or a carbon fiber light source.

The tungsten filament light source or the carbon fiber light source takes tungsten filament or carbon fiber as a filament, namely a luminescent material, the filament is arranged in a bulb (a lamp tube), and the filament emits light after being electrified. The bulb (lamp tube) is maintained in vacuum or filled with an inert gas or halogen gas at a low pressure to prevent oxidation of the filament at high temperature. When a bulb (tube) of a tungsten filament light source or a carbon fiber light source is filled with halogen gas such as iodine or bromine, a halogen lamp (also called a tungsten halogen lamp) is obtained. Tungsten filament light source or carbon fiber light source belongs to the incandescent lamp, and is realized by adopting the structure of the incandescent lamp.

The light source 6210 of the face mask of the application takes tungsten filament and/or carbon fiber as luminous material, namely filament, can fill inert gas or halogen gas with a certain proportion in the bulb (tube) to increase the service life of the light source, and can change the spectrum distribution of the tungsten filament and/or carbon fiber lamp by adjusting the pressure and the gas proportion in the lamp, adjusting the current pulse or the power supply voltage, and the like.

Tungsten filament light source or carbon fiber light source has full spectral characteristic and characteristic of being always bright. The light source generates full spectrum light including visible light and invisible light; after being filtered by the optical filter or the optical filter film, the light with a preset wave band is obtained, and the skin is subjected to beauty treatment or treatment, for example, visible light with the wavelength of 500-600nm can lighten the melanin of epidermis, near infrared light with the wavelength of 900-2500 nm can directly reach the dermis layer, basal layer, collagen regeneration stimulation, basal layer restoration and the like.

Meanwhile, the light source 6210 of the face mask can be used for accurately selecting and treating wave bands according to different skin symptoms, different crowds and different skin beautifying requirements by plating a filter film on the surface of the lamp tube or adopting a switching filter mode.

The first embodiment and the second embodiment of the present application are presented in the form of a mask, but the technical scheme of the present application is not limited to a single product form, and other embodiments of the cosmetic device of the present application may be a product capable of placing a tabletop without a head-wearing telescopic strap, or may be a handheld product, and other embodiments are described below.

Referring to fig. 16 to 21, a third embodiment of the present application is a photon beauty treatment mirror product, which includes a main frame 100 (the conversion form of the mask body in the first and second embodiments), a first light source assembly disposed on the main frame 100, a first optical sheet assembly, and a circuit board 105, wherein the first light source assembly is connected to the circuit board 105, and the light emitted by the first light source assembly exits through the first optical sheet assembly. The first light source component comprises an IPL light source, and the first optical sheet component comprises at least one optical filter. The first optical sheet assembly is detachably disposed on the main support 100. The detachable arrangement of the first optical sheet component can switch optical filters with different wave bands according to requirements, and particularly can change a large-surface optical filter. Corresponding to different skin symptoms, the skin care product can comprehensively and effectively solve different skin problems. The application adopts large-area whole-surface light-emitting to cover all areas of the face, including dead corner parts such as nose, lips and the like. The whole surface irradiation ensures the consistency of facial skin treatment to the greatest extent, greatly improves the overall whitening and skin tendering effects of facial skin, can cover the facial skin by using the whole surface irradiation, and greatly shortens the service time.

Specifically, the main support 100 is provided with two slots 101, the first optical sheet assembly includes a first optical sheet support 102 and a second optical sheet support 103 that can be correspondingly accommodated in the two slots, optical filters are respectively installed on the first optical sheet support and the second optical sheet support, one surface of at least one optical filter in the first optical sheet assembly is coated with a filter film, and the other surface is coated with a single-sided light-transmitting film; that is, at least one optical filter for photon beauty and a cosmetic lens for a cosmetic mirror are designed as a whole, one surface of the optical filter is coated with an optical filter film for filtering light, the light can penetrate through the single-surface transparent film after passing through the optical filter film surface to realize photon beauty, and the other surface of the optical filter is coated with the single-surface transparent film. In another embodiment, the first optical sheet support 102 and the second optical sheet support 103 are respectively provided with an optical filter 109 and a cosmetic lens, that is, the optical filter for photon beauty treatment and the cosmetic lens are designed in a split type. The first optical sheet holder 102 and the second optical sheet holder 103 are specific examples of embodiments, and only one optical sheet holder may be actually provided, or more than two optical sheet holders may be provided, on which optical sheets are respectively provided, and the optical sheets may be optical sheets of an optical filter or a cosmetic mirror, or an optical sheet of a combination of both functions.

The first light source component adopts an IPL light source or a tungsten filament light source or a carbon fiber light source. Illustratively, an IPL tube 104, and in particular, a halogen light source may also be added; for example, the light source employs one IPL tube and one or two halogen lamps, or employs two IPL tubes and one halogen lamp, etc. The first light source assembly further comprises a reflector 1041 and a convex lens 1042, wherein the reflector is disposed behind the IPL tube 104, and the convex lens is disposed between the IPL tube 104 and the optical filter 109. The convex lens is used for conducting light, so that the face is more uniformly exposed, and divergent light is uniformly emitted to the light emitting area by means of the convex lens principle after passing through the convex lens.

Referring to fig. 20 in combination, the photon beauty treatment mirror is further provided with goggles 200 for protecting eyes of a user, and preventing the light source from damaging the eyes when the photon beauty treatment mirror is used. Further, the goggles 200 and the main support 100 are respectively provided with a sensing component for sensing a matched signal, so that the distance between the goggles and the light source can be sensed, the sensing signal is connected with a control circuit of the photon beauty mirror, the control association of the sensing signal and the start/stop of the light source can be realized, the light source can be started after the sensing component senses that the goggles are at a specific distance, when the face of a user leaves a design lighting area, the sensing component signals of the beauty mirror and the goggles are disconnected, and the light emission is correspondingly stopped, so that other risks are avoided; when the distance between the forehead area of the user and the light emitting surface of the cosmetic mirror is too small (exceeds the safety distance), the sensing component can give out a light emitting stopping signal. Specifically, the goggles 200 are provided with a sensor 201, and the main support 100 is provided with a goggle sensing region 106; the sensors may be provided at the front and/or both sides of the goggles.

The goggles are also provided with goggles limiting blocks 202 for limiting the distance between the goggles and the main support 100. When the forehead of the user moves towards the light-emitting surface of the beauty mirror, the limiting block is contacted with the mirror surface support of the beauty mirror, the face of the user cannot be close to the mirror surface, and scalding is avoided. In some embodiments, the goggles are further provided with a gear adjusting key 203, so that a user can conveniently adjust the gear in the use process.

The photon beauty treatment mirror further comprises a base 300 and a head positioning support 400, wherein the base 300 is provided with a goggle accommodating cavity 301 and a support accommodating cavity 302, the goggle 200 can be accommodated in the goggle accommodating cavity 301, the head positioning support 400 can be accommodated in the support accommodating cavity 302, and the head positioning support can be connected through a rotating shaft, so that the head positioning support can be folded and accommodated in the support accommodating cavity after being rotated. The head positioning support frame can be used for supporting the head when a user uses the head positioning support frame, so that the fatigue caused by keeping a certain position for a long time is avoided, and the experience is reduced; the user can position the chin on the head positioning support frame so as to be convenient for positioning the distance between the head and the beauty mirror, so that the face and the mirror surface (light-emitting surface) can keep a fixed distance, and the face is prevented from being scalded by contacting the mirror surface; meanwhile, accurate positioning can be realized, so that each face of the user is positioned in the optimal area irradiated by the light source.

A connection frame 500 is provided between the base 300 and the main support 100. A ventilation channel communicated with the main support 100 is arranged in the connecting frame, and a fan 501 is also arranged in the connecting frame. The main support 100 is provided with heat dissipating holes 107 and heat dissipating elements 108. The light source can radiate by adopting a fan blowing/air suction mode or adopting a heat conduction and radiation mode such as aluminum pieces/copper blocks/heat pipes and the like. Referring to fig. 24, the air outlet channel a/B/C mainly passes through the surface of the optical filter; the heat dissipation channel B mainly passes through the lamp tube; the heat dissipation channel C mainly passes through the light reflecting member and the heat dissipation element.

Referring to fig. 21, based on the photon beauty treatment mirror of the embodiment of fig. 16-20, the first optical sheet component 1021 may be installed and removed by magnetic attraction, specifically, magnetic pieces 1022 with magnetic attraction are respectively arranged on each optical sheet support provided with the optical filter/cosmetic mirror and corresponding matching positions of the main support, so as to install and detach the optical sheet support. The replaced filter/cosmetic lens may be received in the rear case of the main support 100.

Referring to fig. 22 to 25, the four-photon beauty treatment mirror according to the third embodiment of the present application is different from the third embodiment in that the four-photon beauty treatment mirror further includes an auxiliary support 110 connected to two sides of the main support 100, the auxiliary support 110 is provided with a second light source assembly and a second optical sheet assembly, the light emitted by the second light source assembly exits through the second optical sheet assembly, and the second light source assembly includes at least one of an IPL light source, an LED light source or a halogen light source; the second optical sheet assembly includes an optical filter 112. The second optical sheet assembly may be installed in a slot-type, magnetic-attraction type, or fixed-type manner, and the slot-type may be provided with a notch above the auxiliary bracket 110 or a notch on the side surface. The auxiliary bracket 110 is also provided with a heat dissipation hole 107. The auxiliary support can also be provided with a goggles sensing area 106.

The light emitted by the first light source component through the first optical sheet component is the front light emitted by the photon beauty mirror, and can correspondingly irradiate the front face region, and the light emitted by the second light source component through the second optical sheet component is the left side face and/or the right side face light emitted by the photon beauty mirror, and can correspondingly irradiate the left face region and/or the right face region.

In the fourth embodiment, the auxiliary support 110 is rotatably connected with the main support 100, and the auxiliary support 110 is connected with two sides of the front of the main support 100 through a rotating shaft, so that the auxiliary support 110 can rotate relative to the main support 100 to realize opening and closing.

Referring to fig. 26 to 30, the fifth embodiment is different from the fourth embodiment in that the second light source assembly disposed on the auxiliary support 120 includes an IPL light source 123, a convex lens 124 is disposed in front of the IPL light source 123, a light reflecting member 125 and a heat dissipating element 122 are disposed at the rear, and the second optical sheet assembly includes a third optical sheet support 121 with an optical filter disposed thereon. The structures of the second light source assembly and the second optical sheet assembly on the sub-mount 120 are similar to the structures of the first light source assembly and the first optical sheet assembly on the main mount. The third optical sheet holder 121 may be mounted in a slot-type, magnetic-attraction type, or fixed type, and the slot-type may be formed with a slot or a slot on the upper side of the sub-holder 120. The auxiliary bracket 120 is also provided with a heat dissipation hole 107. The auxiliary support can also be provided with a goggles sensing area 106. The third optical sheet holder 121 may be provided in one, two, or more than two. The first optical sheet holder 102, the second optical sheet holder 103, and the third optical sheet holder 121 are specific examples of embodiments, and in practice, only one optical sheet holder may be provided for each of the main holder and the sub-holder, or two or more optical sheet holders may be provided, on which optical sheets are respectively provided, and the optical sheets may be optical sheets of an optical filter or a cosmetic mirror, or an optical sheet of a combination of both functions.

The auxiliary support can be fixedly installed on the main support 100, and also can be installed through a rotating shaft, and the design of the rotatable adjusting angle can adapt to different face widths, so that the auxiliary support is convenient to store when not in use, and space is saved. But also can be detachably mounted by a snap-in manner or the like, etc.

Referring to fig. 31 to 34, the sixth embodiment is different from the fourth embodiment in that the filter arrangement manner in the main frame is different. The main support is internally provided with a first optical sheet assembly, the first optical sheet assembly comprises a rotatable optical sheet support 136 and two optical filters 132, the two optical filters 132 are correspondingly arranged on the rotatable optical sheet support 136 and can rotate around the light source 131 to change positions, so that the optical filters passing through the emergent direction of the light source can be changed. The two optical filters can be switched around the light source in a rotary mode by manual or electric control mode; specifically, the light source may be an IPL tube disposed vertically. Two filters are only specific embodiments, and one or more filters may be actually provided. Correspondingly, a slot 1351 is provided on the reflector 135 to allow the optical filter 132 to rotate through, and an opening 1352 is also provided on the heat dissipation element 133 to allow the optical filter 132 to rotate through. The light emitted from the light source passes through the optical filter 132 rotated to the emitting direction thereof, then passes through the convex lens 134, and then passes through the other optical sheet 109, and the conversion of the optical sheet 109 in this embodiment may be identical to that of the optical sheet in the third embodiment, that is, the optical sheet may be an optical filter or a cosmetic mirror, or an optical sheet combining the functions of the two. One or more optical sheet supports are also arranged on the front end face of the main support, and optical sheets are respectively arranged on the optical sheet supports, wherein the optical sheets can be optical filters or cosmetic mirrors or optical sheets with combined functions.

The light source 104 of the photon beauty treatment mirror of the application can be an IPL light source or a tungsten filament light source or a carbon fiber light source. Tungsten filament light sources or carbon fiber light sources are described with reference to the previous embodiments. Halogen lamps may be used. Repairing the substrate layer, etc.

Compared with the prior art, the application has the following advantages:

the photon beauty mirror adopts the IPL light source, comprises at least one optical filter, and switches the optical filters with different wave bands to correspond to different skin symptoms, so that different skin problems can be comprehensively and effectively solved, and the optical filter loading switching mode is flexible, convenient and diversified. The application adopts large-area whole-surface light-emitting to cover all areas of the face, including dead corner parts such as nose, lips and the like. The whole face irradiation ensures the consistency of facial skin treatment to the greatest extent, greatly improves the overall whitening and skin tendering effects of facial skin, and simultaneously compared with a photon skin tendering instrument on the market, the photon skin tendering instrument only has flash on a small piece of skin at each time, and can cover the whole face only by using the whole face irradiation for one flash according to the size of the face area, thereby greatly shortening the service time. The application can be used once (0.2-3 seconds) with photon skin tendering instrument on the market, which is about 3-5 minutes, if the application is used 30 times with flash, the effect is tens times of that of the conventional photon skin tendering instrument. When the photon beauty treatment is not used, the utility model can be used as a conventional cosmetic mirror, thereby effectively improving the utilization rate of products and reducing the cost and the use time of purchasing instruments for users. The photon beauty mirror is provided with the goggles and the induction sensor, so that the safety is improved, the signal can be intelligently disconnected when a user leaves, the energy is saved, and the photon beauty mirror is convenient to use.

The photon beauty treatment mirror can be powered by direct plug-in or battery power or rechargeable battery power.

The above-mentioned embodiments are only preferred embodiments of the present application, and the scope of the present application is not limited thereto, and any equivalent transformation based on the technical solution of the present application falls within the scope of the present application.

Claims (10)

1. The face-beautifying mask is characterized by comprising a mask main body, a first light source component and a first optical sheet component, wherein the first light source component is arranged on the mask main body, the first light source component comprises a light source, the first optical sheet component comprises at least one optical filter or a filter film attached to the light source, and light emitted by the light source of the first light source component passes through the mask main body after passing through the at least one optical filter or the filter film.

2. The cosmetic mask of claim 1, wherein at least one filter of the first optical sheet assembly is disposed in front of the face of the mask body.

3. The cosmetic mask of claim 1, wherein the at least one filter has a switchable first position and a second position, wherein when the at least one filter is in the first position, light emitted by the first light source assembly exits through the at least one filter.

4. A cosmetic mask as defined in claim 3, wherein the first optical sheet assembly includes a rotatable optical sheet mount, the at least one optical sheet filter being correspondingly disposed on the optical sheet mount, the optical sheet mount being rotatable about the first light source assembly to switch the at least one optical sheet filter about the first light source assembly between a first position and a second position, the first position being on one side of the direction of exiting light.

5. A cosmetic mask as defined in claim 4, further comprising a filter adjustment device, wherein the filter adjustment device comprises a first adjustment member, wherein the optical sheet support is provided with a second adjustment member engaged therewith, and wherein the optical sheet support is driven to rotate about an axis by the first adjustment member.

6. The cosmetic mask of claim 5, wherein the second adjustment member is an adjustment gear, the first adjustment member is an adjustment rack that mates with the adjustment gear, and the filter adjustment device further comprises an operation member coupled to the adjustment rack.

7. The cosmetic mask of any one of claims 1-6, wherein the first light source assembly comprises one or more of an IPL light source, a tungsten filament light source, or a carbon fiber light source.

8. The cosmetic mask of any one of claims 1-6, wherein the first optical sheet assembly further comprises a reflector disposed behind the light source.

9. The cosmetic mask of any one of claims 1-6, further comprising a heat sink and a mask back shell, wherein the heat sink is disposed behind the light reflecting member, the mask back shell is mounted in cooperation with the mask body to form a cavity capable of accommodating the light source, and the mask back shell is provided with heat dissipating holes.

10. A cosmetic mask as claimed in any one of claims 1 to 6, further comprising a head stopper fixedly mounted or removably mounted in a front direction of the mask body.