CN215190712U - Beauty treatment mirror - Google Patents

Abstract

The embodiment of the application provides a beauty mirror, including main part, makeup lamp and mirror surface, mirror surface and makeup lamp setting are in the main part, and beauty mirror is still including setting up the detection light source in the main part, and the detection light source includes at least one in first detection light source, second detection light source, third detection light source and the fourth detection light source, and first detection light source is a certain monochromatic light source between 390 ~ 450nm of wavelength, and the second detection light source is a certain monochromatic light source between 320 ~ 400nm of wavelength, and the third detection light source is a certain monochromatic light source between 480 ~ 610nm of wavelength, and the fourth detection light source is white light source. This application is through collecting skin care makeup and face detection as an organic whole on cosmetic mirror, provides the multiple light that can detect out the face in the detection light source, is fit for family expenses, has effectively saved time and space on the makeup table for the user.

Description

Beauty treatment mirror

Technical Field

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

Background

The tidying and clean appearance can often give good impression, so that the beauty mirror becomes a product which is frequently used by women and has the requirements of skin care, makeup and makeup. The cosmetic mirror in the market irradiates through a common cosmetic lamp, and a mirror image is formed in the mirror, so that a user can see the skin surface layer, and the state of the skin surface layer is known and known. If the user wants to understand the deep skin condition and typical facial problems, such as: dark (white) heads, dark spots, fine wrinkles (and large pores), red blood streaks (inflammation), dental plaque, and sun care tests, which are currently not visually seen through conventional cosmetic mirrors, require the passage of specialized skin test equipment.

The skin detection instrument in the market images the skin problem on a display through a special device and a camera and an image algorithm, so that the device is expensive and not suitable for home use, and the operation is complicated. The skin detection instrument is generally used for skin detection of professional beauty parlors, cannot directly carry out visual observation through eyes, and is not suitable for household skin detection of common users.

With the improvement of economic living standard and the attention on self instrument appearance and skin health state, a beauty mirror suitable for household use is urgently needed at present, and the skin state can be simply and conveniently observed, so that the prevention, the nursing and the beauty treatment are pertinently carried out.

Disclosure of Invention

For solving the technical problem that exists now, the application provides a cosmetic mirror, can be applicable to domestic detection skin.

In order to achieve the above purpose, the technical solution of the embodiment of the present application is implemented as follows:

the embodiment of the application provides a cosmetic mirror, including main part, vanity light and mirror surface, the mirror surface reaches the vanity light sets up in the main part, cosmetic mirror is still including setting up detection light source in the main part, detection light source includes in first detection light source, second detection light source, third detection light source and the fourth detection light source at least one, first detection light source is a certain monochromatic light source between 390 ~ 450nm of wavelength, second detection light source is a certain monochromatic light source between 320 ~ 400nm of wavelength, third detection light source is a certain monochromatic light source between 480 ~ 610nm of wavelength, fourth detection light source is white light source.

In one embodiment, the detection light source is provided with a polarizer in front of the third detection light source and the fourth detection light source to modulate light emitted by the third detection light source and the fourth detection light source into polarized light.

In one embodiment, the pair of beauty glasses further comprises polarized glasses worn by a user, and the polarized glasses are provided with a polarizer forming an included angle of 10-90 degrees with the polarizer in front of the third detection light source and the fourth detection light source, so that light is modulated into polarized light for filtering reflected light of the face of the user.

In one embodiment, the cosmetic mirror further comprises filter glasses worn by a user, wherein the filter glasses are provided with a high-pass filter with the wavelength of 440nm to 580nm or a high-pass absorption lens with the wavelength of 440nm to 580nm, so as to filter blue light and ultraviolet light.

In one embodiment, the main body is further provided with a main control module and a wireless signal receiving module, the filter glasses are provided with a first sensor and a first wireless signal module in signal connection with the first sensor, the polarization glasses are provided with a second sensor and a second wireless signal module in signal connection with the second sensor, the first wireless signal module, the second wireless signal module and the wireless signal receiving module are in wireless connection, the wireless signal receiving module is in signal connection with the main control module, and the main control module is in signal connection with the detection light source to control the detection light source to be turned on and turned off.

In one embodiment, the main body is further provided with a display screen in signal connection with the main control module, so that the main control module controls the display screen to be turned on and off and display contents.

In one embodiment, the detection light source is an LED light bar, and the LED light bar is fixed on the main body in a manner that a horizontal included angle between the LED light bar and the mirror surface is 0-60 degrees.

In one embodiment, the first detection light source, the second detection light source, the third detection light source and the fourth detection light source are a plurality of LED lamps distributed at intervals on a light bar.

In one embodiment, the makeup lamp includes an LED lamp strip, a light guide plate, and a light-diffusing plate, the LED lamp strip emits light to the light incident surface of the light guide plate, the light-diffusing plate is disposed on the light emergent surface of the light guide plate, the light guide plate and the light-diffusing plate are disposed on two sides of the mirror surface, and the LED lamp strip is disposed on the left and right sides or upper and lower ends of the light guide plate.

In one embodiment, a heat dissipation structure is arranged behind the light bars of the cosmetic light and the detection light source.

The cosmetic mirror of the present application has at least the following beneficial effects: the cosmetic mirror integrates skin care and makeup with face detection, has multiple functions, and effectively saves space on a dressing table for a user; the beauty treatment of the invention is suitable for household use, and can directly lead a user to finish the detection of facial problems at home and observe the problems on the skin at any time, thereby taking prevention and treatment measures in time; the light of various wave bands is provided in the detection light source, various problems of the face can be detected respectively, various functions of detecting black (white) heads, invisible spots (dark spots), fine wrinkles (and large pores), red blood filaments (inflammation), dental plaque, sun-screening nursing detection and the like on the skin are integrated, and the detection range is wide and comprehensive; the beauty mirror has the advantages that the whole structure is small and compact, the beauty mirror is convenient to store, does not occupy too much space, can be designed into a portable style according to needs, and provides great convenience for users; the cosmetic mirror of the present invention intersects a bulky, expensive skin detection device, with cost advantages.

Drawings

Fig. 1 is a schematic front view structure diagram of a beauty mirror according to an embodiment of the present application;

FIG. 2 is a partial cross-sectional view of the cosmetic mirror of FIG. 1;

FIG. 3 is a schematic view of the frame structure of the beauty mirror in FIG. 1;

FIG. 4 is a schematic view of the construction of one embodiment of the cosmetic light of FIG. 1;

FIG. 5 is a schematic view of the construction of one embodiment of the cosmetic light of FIG. 1;

fig. 6 is a schematic structural diagram of an embodiment of the detection light source in fig. 1.

The elements in the figures are numbered as follows:

a main body 10;

a cosmetic light 20 (among them, an LED light bar 21, a light guide plate 22, and a light diffusion plate 23);

a detection light source 30 (a polarizing plate 35, a high-transmittance quartz glass plate 36, among others);

a mirror surface 40;

filter glasses 50 (wherein, the first sensor 51, the first wireless signal module 52)

Polarized glasses 60 (wherein, the second sensor 61, the second wireless signal module 62);

a main control module 70;

a wireless signal receiving module 80;

a display screen 90;

the heat dissipation structure 100.

Detailed Description

The technical solution of the present application is further described in detail with reference to the drawings and specific embodiments of the specification.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of implementations of the present application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The application provides a beauty mirror which can be used for detecting skin at home of common consumers, and the beauty mirror can be realized without complex graphic imaging and computer image algorithm, and light sources with different wavelengths and different brightness are adopted to realize that eyes see deep skin mirror images and typical face problems from the mirror. Since the skin is composed of multiple layers, and the compositions of the layers are different, the optical properties of the skin are equivalent to a highly scattering chaotic medium. The light beam is incident on the skin surface, partially reflected at the stratum corneum and partially incident into the epidermis and dermis of the skin tissue. In the case of normal incidence, about 5% of the incident light is reflected by the stratum corneum and a portion of the incident light is selectively absorbed by the skin, some of which can react with skin tissue to produce a fluorescence emission effect. Part of the incident light is scattered by the skin tissue and undergoes multiple repeated scattering, absorption, and reflection processes (absorption transitions), and finally a part of the incident light can also return to the skin surface through a tortuous path. The emitted light that passes through the tissue inside the skin and returns to the outside carries information inside the tissue, so the state inside the skin can be analyzed accordingly.

Please refer to fig. 1 to fig. 4, which are schematic structural diagrams of the beauty mirrors according to the embodiments of the present application. The beauty mirror in the illustrated embodiment includes a main body 10, a cosmetic light 20, a detection light source 30, a mirror surface 40, filter glasses 50, polarization glasses 60, a main control module 70, a bluetooth receiving module 80, a display screen 90, and a heat dissipation structure 100. The mirror 40, the cosmetic light 20, the detection light source 30, and the display 90 are concentrated on the main body 10, and the main control module 70 and the bluetooth receiving module 80 are disposed inside the main body 10. The filter glasses 50 and the polarization glasses 60 may be placed on and attached to the body 10, or may be provided as separate components from the body 10. The makeup lamp 20 provides light for makeup illumination, the detection light source 30 provides a light source for detecting facial problems, the mirror surface 40 reflects and observes a detection part (such as a face) of a user, the filter glasses 50 and the polarization glasses 60 filter or polarize under different working states of the detection light source 30, the main control module 70 is used for carrying out centralized control on the whole system, the wireless signal receiving module 80 is used for communicating with the filter glasses 50 and the polarization glasses 60, the display screen 90 is arranged beside the mirror surface 40 to display related information, and the heat dissipation structure 100 is used for dissipating heat of heating elements.

The main body 10 mainly functions to integrate the makeup lamp 20, the detection light source 30, the mirror 40, the main control module 70), the wireless signal receiving module 80, and the display screen 90 together to realize the skin detection and makeup functions, as shown in fig. 1.

The cosmetic light 20 may be disposed on both sides or above and below the mirror surface 40 as desired. The cosmetic light 20 has an LED light bar structure, and includes an LED light bar 21, a light guide plate 22, and a light-diffusing plate 23, wherein the LED light bar 21 is disposed behind the mirror surface 40 and is located on one side (both upper and lower ends or both left and right sides) of the light incident surface of the light guide plate 22, and the light emergent surface of the light guide plate 22 faces the light-diffusing plate 23. As shown in fig. 2, the light-diffusing plate 23 is disposed on the left and right sides of the mirror surface 40 or below the mirror surface 40 so as to be flush with the mirror surface 40, and illuminates light emitted from the LED light bar 21 with the light-diffusing plate 23 to provide a cosmetic light source.

Referring to fig. 4 and 5, in the illustrated embodiment, 8 (2 to 16) LED lamps are arranged on each LED light bar 21, wherein the cold and warm lamps are arranged side by side longitudinally (fig. 4) or transversely (fig. 5). Through the cold light source and the warm light source, the cosmetic lamp 20 can provide three light effects of cold light (color temperature 5000-8000K), warm light (color temperature 2500-4000K) and natural light (color temperature 4000-5000K) to meet the selection of a user on a suitable light source in different environments.

The detection light source 30 provides a detection light source based on the optical properties of the skin. Since the light sources for detecting different facial problems are different, the detection light source 30 is composed of light sources of different wavelengths. The detection light source 30 can be respectively distributed with LED lamp strips on two sides (up and down or left and right) of the mirror surface 40 or below the mirror surface 40, and 30 (10-50) LED lamp beads are arranged on each LED lamp strip. As shown in fig. 2, in the illustrated embodiment, the light bar of the detection light source 30 is horizontally inclined at an angle of 20 ° with respect to the mirror surface 40, so that the light emitted from the detection light source 30 can be directly irradiated on the face of the user. In other preferred embodiments, the horizontal angle between the light bar of the detection light source 30 and the mirror surface 40 may be in the range of 0-60 °.

Because common facial problems include detecting black (white) heads, invisible spots (dark spots), fine wrinkles (and large pores), red blood filaments (inflammation), dental plaque, sun-screening care and the like, the wavelengths of the used LED lamps are different, so that the LED lamps corresponding to the various facial problems are alternately arranged on the lamp strip of the detection light source 30. The light source provided by the LED lamps with different wavelengths is combined with the filtering structures (optical filters, polaroids and the like) on the glasses and the light source to filter and screen light source and skin reflected light, so that the detection of black (white) heads, hidden spots (dark spots), fine wrinkles (and large pores), red blood filaments (inflammation), dental plaque, sun protection nursing and the like on the skin is realized.

Specifically, the detection light source 30 includes a first detection light source, a second detection light source, a third detection light source and a fourth detection light source, wherein the first detection light source is a monochromatic light source with a wavelength of 390-450 nm, the second detection light source is a monochromatic light source with a wavelength of 320-400 nm, the third detection light source is a monochromatic light source with a wavelength of 480-610 nm, and the fourth detection light source is a white light source. A polarizing film 35 is arranged in front of the third detection light source and the fourth detection light source to polarize the light emitted by the third detection light source and the fourth detection light source. The detection light source 30 is provided with a high-transmittance quartz glass sheet 36 at the position level with the mirror surface 40, which plays a role in covering the first detection light source, the second detection light source, the third detection light source, the fourth detection light source and the polarizing sheet 35 and enables ultraviolet light to be transmitted out.

The first detection light source emits a certain monochromatic light with a wavelength of 390-450 nm, and can be used for detecting black (white) heads and invisible spots (dark spots) by matching with the filter lens 50.

The second detection light source emits a certain monochromatic light with a wavelength of 320-400 nm, and can be used for dental plaque detection and sun protection nursing detection in cooperation with the filter glasses 50.

The third detection light source emits a certain monochromatic light with the wavelength of 480-610 nm, and can be used for fine wrinkle (and large pore) detection in cooperation with the polarized glasses 60. The third detecting light source is externally provided with a polarizing plate 35.

The fourth detection light source emits white light, and can be used with the polarized glasses 60 for red blood cell (inflammation) detection.

The polarized glasses 60 and the polarizer 35 in the detection light source 30 form an included angle of 90 ° (any angle between 10 ° and 90 °), so as to achieve the purpose of filtering unwanted light, and detect fine wrinkles (and large pores) and red blood filaments (inflammation) on the skin.

The filter glasses 50 have a high-pass filter with a selective wavelength of 480nm (in the range of 440-580 nm) or a high-pass light-absorbing lens in the same wavelength range, and can filter out ultraviolet light to prevent the ultraviolet light from irradiating eyes, thereby protecting the eyes. In addition, the filter lens 50 can filter out unwanted stray light when used to detect black (white) heads on the skin, contact spots (dark spots), sun care, and dental plaque on the teeth.

The following description will be made separately for each face problem detection item.

The black (white) head detection is performed using a first detection light source and filter glasses 50. The first detection light source is a monochromatic LED lamp arranged on the LED light bar and emitting light with a wavelength of 405nm, and in the illustrated embodiment, the first detection light source is 8 monochromatic LED lamps (i.e., D9-D16 in fig. 6) arranged on the light bar of the detection light source 30. It should be noted that, the first detection light source can adopt 2-30 monochromatic light LED lamps, and is not limited to the 8 LED lamps shown in the figure.

When detecting a black (white) head, the first detection light source is lighted to make the light with the wavelength incident on the face, and different tissues present different fluorescent or phosphorescent reactions through the energy absorption transition process of the light on facial skin tissues, so that different tissue structures of the skin present different colors and are mirrored into the mirror surface 40. Under the illumination of the wavelength, the smooth part of the face is in faint yellow, the black head is in reddish brown, the white head can shine due to the fluorescent reaction, after the light with the wave band below 480nm is filtered by the high-pass filter on the filter glasses 50, the light with the remaining wavelength reflected by the mirror surface 40 enters human eyes, so that the human eyes can see the obvious problem of the black (white) head, and the problem is not interfered by the emitted light, thereby achieving the purpose of identifying the black (white) head. In addition, the high-pass filter on the filter glasses 50 filters out blue light and ultraviolet light below 480nm, and the damage of the blue light to human eyes is also avoided.

Contact patch (dark spot) detection is performed using a first detection light source and filter lens 50. The first detection light source is a monochromatic LED lamp arranged on an LED light bar and emitting light with a wavelength of 405nm, and in the illustrated embodiment, the first detection light source is 8 high-brightness monochromatic LED lamps (i.e., D9-D16 in fig. 6) arranged on the light bar of the detection light source 30. It should be noted that, the first detection light source can adopt 2-30 monochromatic light LED lamps, and is not limited to the 8 LED lamps shown in the figure.

When the invisible spot (dark spot) is detected, the first detection light source is lightened to enable the light with the wavelength to be irradiated on the face, the micro-tissue of the light on the face skin absorbs energy transition to enable the face to show fluorescence or phosphorescence reaction, and different tissue structures of the skin show different colors and are mirrored into the mirror surface 40. Under the illumination of the wavelength, the smooth part of the face is in faint yellow, the invisible spots (dark spots) are in brown, after the light with the wave band below 480nm is filtered by the high-pass filter of the filter glasses 50, the light with the rest wavelength reflected by the mirror surface 40 enters human eyes, the human eyes can see the obvious problem of the invisible spots and can not be interfered by the emitted light, and therefore the purpose of detecting the invisible spots (dark spots) is achieved. In addition, the high-pass filter on the filter glasses 50 filters out ultraviolet light, and the damage of the ultraviolet light to human eyes is also avoided.

Plaque detection contact spot (dark spot) detection is performed using a second detection light source and filter lens 50. When the invisible plaque (dark spot) of the dental plaque detection is detected, the second detection light source is lightened, the light with the wavelength is irradiated on the tooth, the dental plaque generates fluorescence or phosphorescence reaction through energy absorption transition of the light, and the obvious reddish color is presented. The high pass filter glasses of the filter glasses 50 filter out the ultraviolet light, thereby avoiding the ultraviolet light from damaging the eyes and enabling the eyes to directly observe the dental plaque inflammatory tissue.

The suncare test is performed using a second test light source and filter glasses 50. When the sunscreen nursing detection is carried out, the second detection light source is lightened, so that the light with the wavelength is irradiated on the face, and because the ultraviolet light of the skin coated with the sunscreen nursing product is prevented, the skin is obviously dark compared with the skin not coated with the sunscreen nursing product, and therefore, the skin at any place is easily identified to be not nursed. The ultraviolet light is filtered by combining the high-pass filter of the filter glasses, so that the user can intuitively carry out sunscreen effective nursing after the ultraviolet light is prevented from hurting eyes.

The second detection light source is a monochromatic LED lamp arranged on the LED light bar and emitting light with a wavelength of 365nm, and in the illustrated embodiment, the second detection light source is 8 high-brightness monochromatic LED lamps (i.e., D1-D8 in fig. 6) uniformly arranged on the light bar of the detection light source 30. It should be noted that the second detection light source may employ 2 to 30 monochromatic LED lamps, and the number of LED lamps is not limited to the 8 LED lamps shown in the figure. Fine wrinkle (and large pore) detection is performed using a third detection light source and polarized glasses 60. The third detection light source is a monochromatic LED lamp arranged on the LED light bar and emitting light with a wavelength of 550nm, and in the illustrated embodiment, the third detection light source is 7 monochromatic LED lamps (i.e., D17-D23 in fig. 6) arranged on the light bar of the detection light source 30. It should be noted that 2 to 30 monochromatic light LED lamps can be used as the third detection light source, and the third detection light source is not limited to the 7 LED lamps shown in the figure.

When fine wrinkles (and large pores) are detected, a polarizing film 35 is added on a corresponding LED lamp to modulate lamp light into a polarized light source to be applied to a face, the light is reflected by the face skin, the state of the face skin is mirrored into a mirror surface 40, smooth skin can reflect bright light, the light is reflected into light rays with different angles due to the skin microstructure in places with wrinkles, pores and the like, the reflected light of the smooth face skin is filtered out, different light and shade visual effects are achieved by enabling the smooth face skin and the fine wrinkles or the pores to react, and the purpose of detecting the fine wrinkles and the large pores is achieved.

The red blood cell (inflammation) detection is performed using a fourth detection light source and polarized glasses 60. The fourth band detection light source is an LED lamp arranged on the LED light bar to emit white light, and in the illustrated embodiment, the fourth detection light source is 7 white LED lamps (i.e., D24-D30 in fig. 6) arranged on the light bar of the detection light source 30. It should be noted that 2 to 30 monochromatic light LED lamps can be used as the fourth detection light source, and the fourth detection light source is not limited to the 7 LED lamps shown in the figure.

When red blood silk (inflammation) detection is carried out, a polaroid 35 is added on a corresponding LED lamp by a fourth detection light source to modulate lamp light into polarized light to be applied to the face, the skin state of the face is mirrored into the mirror surface 40 through the light reflection of the face, the polarized light can be modulated into the polarized light by forming 90 degrees (10-90 degrees) with the polaroid (circular polarization or linear polarization) on the polarized glasses 60, the interference of useless light (such as reflected light on the surface of the skin) after the face skin is mirrored into the mirror surface 40 is filtered, the color of the problem tissue of the bottom layer of the skin is obviously presented, and the purpose of identifying the red blood silk is achieved.

The main body 10 is provided with a main control module 70 and a wireless signal receiving module 80 for interacting with the filter glasses 50 and the polarized glasses 60. Specifically, the filter glasses 50 and the polarization glasses 60 are respectively provided with a first sensor 51, a first wireless signal module 52, a second sensor 61, and a second wireless signal module 62, as shown in fig. 3. The first wireless signal module 52, the second wireless signal module 62 and the wireless signal receiving module 80 can be connected by bluetooth or wifi, so as to realize signal transmission and reception.

When the filter glasses 50 or the polarization glasses 60 are worn, the first sensor 51 and the second sensor 61 automatically sense and send information to the wireless signal receiving module 80 through the first wireless signal module 52 and the second wireless signal module 62, after the wireless signal receiving module 80 receives the information, the main control module 70 is awakened, the main control module 70 lights the corresponding LED lamp of the detection light source 30 according to the content of the information, and simultaneously displays the current working state of the mirror surface 40 on the display screen 90 of the mirror surface 40.

After the filter glasses 50 or the polarization glasses 60 are removed, the first sensor 51 and the second sensor 61 on the filter glasses 50 and the polarization glasses 60 automatically sense and send information to the wireless signal receiving module 80 through the first wireless signal module 52 and the second wireless signal module 62, and after the wireless signal receiving module 80 receives the information, the main control module 70 is informed to turn off the LED lamp of the detection light source 30, turn off the display screen 90, and enter a sleep state.

In addition, because the power of the makeup lamp 20 and the detection light source 30 is relatively large, the heat dissipation structure 100 is arranged behind the lamp strips of the makeup lamp 20 and the detection light source 30, and the heat dissipation structure 100 can adopt a heat dissipation sheet or a fan to dissipate heat generated by the work of the LED, so that the overhigh temperature rise is avoided.

In the illustrated embodiment, the LED light bars 21 of the cosmetic light 20 of the cosmetic mirror are disposed on the left and right sides of the light guide plate 22, and the LED light bars 21 are respectively illuminated from both sides (or one side); in other embodiments, the LED light bars 21 of the cosmetic light 20 may be disposed at the upper and lower ends of the light guide plate 22 to illuminate from the two ends to the middle.

In the illustrated embodiment, the cosmetic light 20 and the detection light source 30 are respectively disposed at both sides of the mirror surface 40, and the light sources are provided from both sides of the mirror surface; in other embodiments, the makeup light 20 and/or the inspection light source 30 may be disposed above and/or below the mirror 40, respectively.

Compared with the prior art, the cosmetic mirror of this application has following advantage at least:

(1) the cosmetic mirror integrates the cosmetic and the face detection, and has multiple functions, so that the space on a dressing table is effectively saved for a user;

(2) the beauty mirror is suitable for household use, and can directly enable a user to complete the detection of facial problems at home and observe the problems on the skin at any time, thereby taking prevention and treatment measures in time;

(3) the light of various wave bands is provided in the detection light source, various problems of the face can be detected respectively, various functions of detecting black (white) heads, invisible spots (dark spots), fine wrinkles (and large pores), red blood filaments (inflammation), dental plaque, sun-screening nursing detection and the like on the skin are integrated, and the detection range is wide and comprehensive;

(4) the beauty mirror has the advantages that the whole structure is small and compact, the beauty mirror is convenient to store, does not occupy too much space, can be designed into a portable style according to needs, and provides great convenience for users;

(5) the cosmetic mirror of the present application has a cost advantage over bulky, expensive skin detection devices.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A cosmetic mirror, comprising a main body, a cosmetic lamp and a mirror surface, wherein the mirror surface and the cosmetic lamp are disposed on the main body, the cosmetic mirror is characterized by comprising: the beauty mirror is characterized by further comprising a detection light source arranged on the main body, wherein the detection light source comprises at least one of a first detection light source, a second detection light source, a third detection light source and a fourth detection light source, the first detection light source is a certain monochromatic light source with the wavelength ranging from 390 nm to 450nm, the second detection light source is a certain monochromatic light source with the wavelength ranging from 320 nm to 400nm, the third detection light source is a certain monochromatic light source with the wavelength ranging from 480nm to 610nm, and the fourth detection light source is a white light source.

2. The cosmetic mirror of claim 1, wherein: polarizing plates are arranged in front of the third detection light source and the fourth detection light source to modulate light emitted by the third detection light source and the fourth detection light source into polarized light.

3. The cosmetic mirror of claim 2, wherein: the beauty glasses also comprise polarized glasses worn by a user, and the polarized glasses are provided with a polarized film forming an included angle of 10-90 degrees with the polarized film in front of the third detection light source and the fourth detection light source so as to modulate light into polarized light for filtering reflected light of the face of the user.

4. The cosmetic mirror of claim 3, wherein: the beauty glasses also comprise filter glasses worn by a user, and the filter glasses are provided with high-pass filters with the selective wavelength of 440 nm-580 nm or high-pass absorption lenses with the selective wavelength of 440 nm-580 nm so as to filter blue light and ultraviolet light.

5. Cosmetic mirror according to claim 4, characterized in that: still be equipped with host system and wireless signal receiving module in the main part, be equipped with on the filter glasses first sensor and with first sensor signal connection's first wireless signal module, be equipped with on the polarization glasses second sensor and with second sensor signal connection's second wireless signal module, first wireless signal module second wireless signal module with wireless signal receiving module wireless connection, wireless signal receiving module signal connection to host system, host system signal connection to detect the light source with control detect the light source and open and close.

6. Cosmetic mirror according to claim 5, characterized in that: the main body is further provided with a display screen in signal connection with the main control module.

7. The cosmetic mirror of claim 1, wherein: the detection light source is fixed on the main body in a mode that a horizontal included angle between the detection light source and the mirror surface is 0-60 degrees.

8. Cosmetic mirror according to claim 7, characterized in that: the first detection light source, the second detection light source, the third detection light source and the fourth detection light source are a plurality of LED lamps distributed on the lamp strip at intervals.

9. The cosmetic mirror of claim 1, wherein: the makeup lamp comprises an LED lamp strip, a light guide plate and light-diffusing plates, wherein the LED lamp strip emits light to the light incident surface of the light guide plate, the light-diffusing plates are arranged on the light emergent surface of the light guide plate, the light guide plate and the light-diffusing plates are arranged on two sides of the mirror surface, and the LED lamp strip is arranged on the left side or the right side or the upper end and the lower end of the light guide plate.

10. The cosmetic mirror of claim 1, wherein: the cosmetic light with be equipped with heat radiation structure behind the lamp strip of testing light source.

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