CN217661132U - Flexible phototherapy face guard - Google Patents

Abstract

The embodiment of the utility model discloses flexible phototherapy face guard. The flexible phototherapy mask comprises a flexible mask body and a lip care device; the flexible mask main part comprises a lip hollowed-out area, the lip nursing device is matched with the lip hollowed-out area, and the area of the lip nursing device is larger than or equal to that of the lip hollowed-out area. The flexible phototherapy mask provided by the embodiment of the utility model can be directly worn on the face for beauty treatment, can be rolled and stored after being used up, and is convenient to carry; the lip nursing module is added to beautify lips, so that a multifunctional effect is achieved, and more use requirements of users are met.

Description

Flexible phototherapy face guard

Technical Field

The embodiment of the utility model provides a relate to light medical treatment technical field, especially relate to a flexible phototherapy face guard.

Background

Along with the improvement of the living standard of the mass of people, the demand of people on healthy beauty is higher and higher, and the illumination technology is regarded as a mode with good safety effect and is loved by vast women, but the existing facial phototherapy products are generally bigger, are inconvenient to carry, have limitations on the use scene, have relatively single function of phototherapy, and can not meet the multifunctional demand.

SUMMERY OF THE UTILITY MODEL

The utility model provides a flexible phototherapy mask which can be directly worn on the face for beauty treatment, can be curled and stored after being used up and is convenient to carry; the lip care module is added to beautify the lips, so that the multifunctional effect is realized, and more use requirements of users are met.

The embodiment of the utility model provides a flexible phototherapy face guard, this flexible phototherapy face guard includes: a flexible mask body and a lip care device;

the flexible mask body comprises a lip hollowed-out area, the lip care device is matched with the lip hollowed-out area, and the area of the lip care device is larger than or equal to that of the lip hollowed-out area.

Optionally, the lip care device includes a first light emitting assembly, the first light emitting assembly includes a first substrate, a first graphene layer disposed on a surface of the first substrate, a first light emitting unit disposed on a side of the first graphene layer away from the first substrate, and a first protective layer disposed on a side of the first light emitting unit away from the first substrate, the first graphene layer includes a first power supply line and a first light emitting element, and the first power supply line is electrically connected to the first light emitting unit and is used for supplying power to the first light emitting unit;

or, the first light-emitting assembly comprises a first substrate, a first light-emitting unit and a first lead layer, wherein the first light-emitting unit and the first lead layer are arranged on one side of the first substrate, the second graphene layer is arranged on one side of the first substrate, the first light-emitting unit is far away from the first light-emitting unit, the second graphene layer covers the first light-emitting unit, a first transparent substrate is arranged between the second graphene layer and the first light-emitting unit, and the first lead layer comprises a second power supply circuit for supplying power to the first light-emitting unit.

Optionally, the first light emitting unit comprises red, yellow, blue, green, violet and infrared light emitting units.

Optionally, the lip care device includes a first magnetic attraction element, a second magnetic attraction element is disposed around the lip hollow-out area of the flexible mask body, and the lip care device is fixed to the flexible mask body through the first magnetic attraction element and the second magnetic attraction element.

Optionally, a first conductive layer is arranged on the surface of the first magnetic suction element, a second conductive layer is arranged on the surface of the second magnetic suction element, and a power supply circuit for supplying power to the first light emitting unit, the first light emitting element and the second graphene layer are electrically connected with the power supply circuit on the flexible mask main body through the first conductive layer and the second conductive layer.

Optionally, the flexible mask body includes a second light-emitting assembly, the second light-emitting assembly includes a second substrate, a third graphene layer disposed on a surface of the second substrate, a second light-emitting unit disposed on a side of the third graphene layer away from the second substrate, and a second protective layer disposed on a side of the second light-emitting unit away from the second substrate, the third graphene layer includes a third power line and a second light-emitting element, and the third power line is electrically connected to the second light-emitting unit and is used for supplying power to the second light-emitting unit, the first light-emitting element, and the second graphene layer;

or the second light-emitting assembly comprises a second substrate, a second lead layer arranged on one side of the second substrate, a second light-emitting unit arranged on one side of the second lead layer far away from the second substrate, and a fourth graphene layer arranged on one side of the second light-emitting unit far away from the second substrate, wherein the fourth graphene layer covers the second light-emitting unit, and a second transparent substrate is arranged between the fourth graphene layer and the second light-emitting unit; the second lead layer comprises a fourth power supply circuit, and the fourth power supply circuit is electrically connected with the second light-emitting unit and is used for supplying power to the second light-emitting unit, the first light-emitting element and the second graphene layer;

wherein the second light emitting unit includes a red light emitting unit, a yellow light emitting unit, a blue light emitting unit, a green light emitting unit, a violet light emitting unit, and an infrared light emitting unit.

Optionally, the flexible mask body comprises a T-shaped region corresponding to a T-shaped region of a human face;

the number and/or the luminous intensity of the blue luminous units in the T-shaped area are respectively larger than the number and/or the luminous intensity of the red luminous units, the yellow luminous units, the green luminous units, the purple luminous units and the infrared luminous units.

Optionally, the flexible mask body comprises a first protective body and a second protective body,

the second light-emitting assembly is arranged between the first protection main body and the second protection main body, and the first protection main body is arranged on the non-light-emitting side of the second light-emitting assembly; the first protection main body and the second protection main body are bonded with the second light-emitting component through a glue layer, the first protection main body comprises an edge area, and the edge area of the first protection main body is directly bonded with the second protection main body through the glue layer; the edge area of the first protection main body is provided with a glue overflow groove;

the lip care device includes a third protective body and a fourth protective body, the first light emitting assembly being disposed between the third protective body and the fourth protective body.

Optionally, the flexible mask body comprises two eye hollow areas and a light shading ring arranged at the edge of the eye hollow area.

Optionally, the flexible phototherapy mask further comprises flexible fixing bands and a controller, wherein the flexible fixing bands are arranged on two sides of the flexible mask main body; the controller is electrically connected with a power supply circuit on the flexible mask main body and is used for controlling the first light-emitting unit and the second light-emitting unit.

The technical scheme of the embodiment solves the problem that the current phototherapy mask cannot meet the multifunctional phototherapy requirements of different users, and the flexible phototherapy mask of the embodiment can be directly worn on the face for beautifying, can be rolled and stored after being used up, and is convenient to carry; the lip care module is added to beautify the lips, so that the multifunctional effect is realized, and more use requirements of users are met.

Drawings

Fig. 1 is a schematic structural diagram of a flexible phototherapy mask provided in an embodiment of the present invention;

fig. 2 is a schematic view of a lip care device according to an embodiment of the present invention;

fig. 3 is a schematic view of another lip care device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of another flexible phototherapy mask provided by an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a light emitting assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another light emitting assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural view of another flexible phototherapy mask provided by an embodiment of the present invention;

fig. 8 is a schematic structural diagram of another light emitting assembly provided by an embodiment of the present invention;

fig. 9 is a schematic view of the overall structure of a flexible phototherapy mask provided by an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a schematic structural view of a flexible phototherapy mask provided by an embodiment of the present invention, and referring to fig. 1, the flexible phototherapy mask includes a flexible mask body 10 and a lip care device 20; the flexible mask body 10 comprises a lip hollow-out area 101, the lip care device 20 is arranged to match with the lip hollow-out area 101, and the area of the lip care device 20 is larger than or equal to that of the lip hollow-out area 101.

In particular, as an apparatus for applying light to therapy or health care, a flexible phototherapy mask mainly uses light with different wavelength ranges to irradiate the skin of a human body for therapy, such as whitening, removing sores and acne. The preparation material of flexible phototherapy face guard can be flexible collapsible material, can closely laminate in the skin surface, and close skin nature is better, can also improve the repair effect to the skin. The flexible mask main part 10 corresponds position fretwork setting with human lip for form lip fretwork area 101, lip care device 20 and lip fretwork area 101 phase-match set up, lip care device 20 embeds light emitting component, sends out different light through light emitting component and shines lip skin inlet wire phototherapy, restores impaired skin. The area of the lip care device 20 is larger than or equal to the area of the hollowed-out lip area 101, when the user wears the flexible phototherapy mask, light emitted by the lip care device 20 in a certain wavelength range can completely cover the lips, and the emitted light can perform separate phototherapy on the skin of the lips, for example, red light can stimulate and promote regeneration of lip cells and synthesis of collagen; the near-infrared light waves can play a role in health care and physical therapy of lips.

According to the technical scheme, the problem that the current phototherapy mask cannot meet the multifunctional phototherapy requirements of different users is solved, the flexible phototherapy mask can be directly worn on the face for beautifying, can be curled to store after being used up, and is convenient to carry; the lip care module is added to beautify the lips, so that the multifunctional effect is realized, and more use requirements of users are met.

Fig. 2 is a schematic structural diagram of a lip care device provided by an embodiment of the present invention, and fig. 3 is a schematic structural diagram of a lip care device provided by an embodiment of the present invention, optionally, referring to fig. 2, the lip care device includes a first light emitting assembly 200, the first light emitting assembly 200 includes a first substrate 201, a first graphene layer 202 disposed on a surface of the first substrate 201, a first light emitting unit 203 disposed on one side of the first graphene layer 202 away from the first substrate 201, and a first protective layer 204 disposed on one side of the first light emitting unit 203 away from the first substrate 201, the first graphene layer 202 includes a first power supply line and a first light emitting element, and the first power supply line is electrically connected to the first light emitting unit 203 for supplying power to the first light emitting unit 203.

Alternatively, referring to fig. 3, the first light emitting assembly 200 includes a first substrate 201, a first light emitting unit 203 and a first wire layer 207 that are disposed on one side of the first substrate 201, and a second graphene layer 205 that is disposed on one side of the first light emitting unit 203 away from the first substrate 201, the second graphene layer 205 covers the first light emitting unit 203, a first transparent substrate 206 is disposed between the second graphene layer 205 and the first light emitting unit 203, and the first wire layer 207 includes a second power supply line that supplies power to the first light emitting unit 203.

Specifically, the first substrate 201 may be a polyimide film or a polyester film. First light-emitting unit 203 can be LED, MINILED, MICRO-LED, quantum dot or OLED luminescence unit, and the material of first protective layer 204 is the transparent material of light-permeable, and first graphite alkene layer 202 can launch far-infrared wave, and graphite alkene release is more close even the same far-infrared light wave with the human body, consequently can form resonance to human tissue cell hydrone better, plays physiotherapy health care's effect to lip skin to better nurse the lip.

The line direction of the first power supply lines in the first graphene layer 202 corresponds to the layout of the first light emitting units 203. The first light emitting element in the first graphene layer 202 may be connected to a controller, and emit light under the control of the controller; the first power supply line in the first graphene layer 202 may be used as an electrode layer of the first light-emitting unit 203, the first power supply line in the first graphene layer 202 is electrically connected to the first light-emitting unit 203 and then connected to the controller, and the controller drives the LED, the MINILED, the MICRO-LED, the quantum dot, or the OLED light-emitting unit to emit light.

The first transparent substrate 206 is an insulating and light-permeable material, and the first transparent substrate 206 is disposed to prevent the second graphene layer 205 from being short-circuited with the first light-emitting unit 203. The second graphene layer 205 is directly connected to a controller, and emits light under the control of the controller. The second power supply line in the first wire layer 207 is electrically connected to the first light-emitting unit 203 and then connected to a controller, and the controller drives the LED, MINILED, MICRO-LED, quantum dot, or OLED light-emitting unit to emit light. First conductive layer 207 may be made of a conventional conductive material.

Optionally, the first light emitting unit comprises red, yellow, blue, green, violet and infrared light emitting units.

Wherein, the red light of the red light-emitting unit can stimulate collagen regeneration and promote blood circulation; the infrared light-emitting unit is used for emitting near-infrared waves and is used for promoting metabolism, increasing cell regeneration and generating a repairing function on lip skin; the yellow light-emitting unit can relieve skin problems such as skin redness, swelling and inflammation, such as burn, sunburn and the like; the blue luminous unit has strong antibacterial performance, can kill acne pathogenic bacteria, is used for preventing and treating mild and moderate acnes, is beneficial to purifying skin, stabilizing oil glands and relieving inflammation, and has the functions of relieving, calming, repairing and accelerating wound healing by matching with other skin care means; the green light-emitting unit has a calming effect on skin, and is helpful for relieving pigmentation spots and brightening skin; the purple light in the wavelength range of 380-420 nm emitted by the purple light-emitting unit can increase cell regeneration. Through the cooperation of the first light-emitting unit and the graphene layer, the lip care and nursing device has a better physiotherapy and health care effect on skin near the lips.

Fig. 4 is a schematic structural diagram of another flexible phototherapy mask provided in an embodiment of the present invention, referring to fig. 4, optionally, the lip care device 20 includes a first magnetic attraction element 201, a second magnetic attraction element 1011 is disposed around the lip hollow-out area 101 of the flexible mask main body 10, and the lip care device 20 is fixed to the flexible mask main body 10 through the first magnetic attraction element 201 and the second magnetic attraction element 1011.

The first magnetic element 201 and the second magnetic element 1011 have the same size. The magnetic attraction element is convenient and quick to connect, accurate alignment is not needed, and the magnetic attraction element is automatically attracted only by the N magnet and the S magnet, so that time is saved. Magnetism is inhaled and is connected reliably stably, and long service life avoids outside wiring, and then promotes the aesthetic property of flexible phototherapy face guard.

With continued reference to fig. 4, optionally, a first conductive layer 2011 is disposed on a surface of the first magnetic-attraction element 201, a second conductive layer 10111 is disposed on a surface of the second magnetic-attraction element 1011, and a power supply line that supplies power to the first light-emitting unit, the first light-emitting element, and the second graphene layer are electrically connected to the power supply line on the flexible mask main body 10 through the first conductive layer 2011 and the second conductive layer 10111.

Specifically, the first light emitting element in the first graphene layer is electrically connected to the power supply line on the flexible mask main body 10 through the first conductive layer 2011 and the second conductive layer 10111, and then connected to the controller. The second graphene layer is electrically connected to the power supply line on the flexible mask main body 10 through the first conductive layer 2011 and the second conductive layer 10111, and then connected to the controller.

Fig. 5 is a schematic structural diagram of a light emitting assembly provided by an embodiment of the present invention, and fig. 6 is a schematic structural diagram of another light emitting assembly provided by an embodiment of the present invention, optionally, referring to fig. 5, the flexible mask body includes a second light emitting assembly 102, the second light emitting assembly 102 includes a second substrate 1021, a third graphene layer 1022 disposed on a surface of the second substrate 1021, a second light emitting unit 1023 disposed on a side of the third graphene layer 1022 away from the second substrate 1021, and a second protective layer 1024 disposed on a side of the second light emitting unit 1023 away from the second substrate 1021, the third graphene layer 1022 includes a third power line and a second light emitting element, the third power line is electrically connected to the second light emitting unit 1023 for supplying power to the second light emitting unit 1023, the first light emitting unit, the first light emitting element, and the second graphene layer.

Alternatively, referring to fig. 6, the second light emitting assembly 102 includes a second substrate 1021, a second wire layer 1025 disposed on one side of the second substrate 1021, a second light emitting unit 1023 disposed on one side of the second wire layer 1025 away from the second substrate 1021, and a fourth graphene layer 1026 disposed on one side of the second light emitting unit 1023 away from the second substrate 1021, wherein the fourth graphene layer 1026 covers the second light emitting unit 1023, and a second transparent substrate 1027 is disposed between the fourth graphene layer 1026 and the second light emitting unit 1023; second wiring layer 1025 comprises a fourth power supply line; the fourth power supply line is electrically connected to the second light emitting unit 1023, and is used for supplying power to the second light emitting unit, the first light emitting element, and the second graphene layer.

Among them, the second light emitting unit 1023 includes a red light emitting unit, a yellow light emitting unit, a blue light emitting unit, a green light emitting unit, a violet light emitting unit, and an infrared light emitting unit.

Specifically, the second substrate 1021 may be a polyimide film or a polyester film. The second luminescence unit 1023 can be LED, MINILED, MICRO-LED, quantum dot or OLED luminescence unit, and the material of second protective layer 1024 is the transparent material of light-permeable, and far-infrared wave can be launched to third graphite alkene layer 1022, and graphite alkene release is more close even the same far-infrared light wave with the human body, consequently can form resonance to human tissue cell hydrone better, plays physiotherapy health care's effect to face's skin to realize multi-functional effect.

The wiring direction of the third power supply line in the third graphene layer 1022 corresponds to the layout of the second light emitting unit 1023. The second light emitting element in the third graphene layer 1022 is directly connected to the controller, and emits light under the control of the controller; the third power supply line in the third graphene layer 1022 may serve as an electrode layer of the second light emitting unit 1023, the third power supply line in the third graphene layer 1022 is electrically connected with the second light emitting unit 1023 and connected with a controller, and the controller drives the LED, MINILED, MICRO-LED, quantum dot or OLED light emitting unit to emit light.

The second transparent substrate 1027 is an insulating and light-permeable material, and the second transparent substrate 1027 is disposed to prevent the fourth graphene layer 1026 from being short-circuited with the second light-emitting unit 1023. The fourth graphene layer 1026 is directly connected to a controller, and emits light under the control of the controller; the fourth power supply line in the second wire layer 1025 is electrically connected to the second light emitting unit 1023 and then connected to the controller, and the controller drives the LED, MINILED, MICRO-LED, quantum dot, or OLED light emitting unit to emit light. Second wire layer 1025 may be formed of a conventional conductive material.

The second light emitting assembly 102 can emit light with different wavelengths, so that skin problems at different parts of a user can be treated in a targeted manner, and the application range of the flexible phototherapy mask is expanded. For example, the yellow light-emitting unit is used for emitting yellow light, and the yellow light can improve dull face and make the face skin glow and fresh. The blue light emitting unit is used for emitting blue light, and the blue light can lighten nevus and clean skin and make facial skin recover white and clean; the green light-emitting unit is used for emitting green light, has a calming effect on skin, is beneficial to relieving pigmentation spots and brightening skin color; the purple light in the wavelength range of 380-420 nm emitted by the purple light-emitting unit can increase cell regeneration; the infrared light emitting unit emits near infrared light, the third graphene layer 1022 and the fourth graphene layer 1026 emit far infrared light waves, and according to the same-frequency resonance principle, graphene releases far infrared light waves which are closer to or even identical to human bodies, so that resonance can be better formed on water molecules of human tissue cells, and the effects of physical therapy and health care on facial skin are achieved.

Fig. 7 is a schematic structural view of another flexible phototherapy mask provided by an embodiment of the present invention, referring to fig. 7, optionally, the flexible mask body 10 includes a T-shaped region 103, the T-shaped region 103 corresponds to a T-shaped region of a human face; the number and/or the luminous intensity of the blue luminous units in the T-shaped area are respectively larger than the number and/or the luminous intensity of the red luminous units, the yellow luminous units, the green luminous units, the purple luminous units and the infrared luminous units.

The light-emitting units in the T-shaped area can be distributed in different areas, the T-shaped area of the forehead and the nose bridge of a human face is generally high in oil, the T-shaped area is arranged on the flexible mask main body aiming at the T-shaped area, the number of the blue light-emitting units in the T-shaped area is the largest, the emitted blue light is the strongest, and a good oil removal effect can be achieved.

With continued reference to fig. 7, optionally, the flexible mask body 10 includes two eye hollow areas 106 and a bezel 107 disposed at an edge of the eye hollow areas.

The shading ring 107 may be a flexible rubber ring. Because eyes are sensitive to infrared light, a shading ring 107 needs to be arranged at the edge of the eye hollow area, the size of the shading ring 107 is matched with that of the eye hollow area 106, so that eyes can be shielded, and the eyes are prevented from being damaged due to infrared light irradiation. In addition, the number of infrared light-emitting units in the second light-emitting unit can be reduced by arranging the second light-emitting assembly around the corresponding eye hollow-out area 106 in the flexible mask body.

Fig. 8 is a schematic structural view of another light-emitting assembly provided by an embodiment of the present invention, referring to fig. 8, optionally, the flexible mask body 10 includes a first protective body 104 and a second protective body 105, the second light-emitting assembly 102 is disposed between the first protective body 104 and the second protective body 105, and the first protective body 104 is disposed on the non-light-emitting side of the second light-emitting assembly 102; the first protection body 104 and the second protection body 105 are bonded to the second light emitting element 102 through a glue layer, the first protection body 104 includes an edge region, and the edge region of the first protection body 104 is directly bonded to the second protection body 105 through the glue layer; an overflow groove 1041 is arranged at the edge region of the first protection main body 104;

the lip care device comprises a third protective body and a fourth protective body, and a first light-emitting assembly is arranged between the third protective body and the fourth protective body.

Specifically, in order to ensure that the second light emitting element 102 is in a sealed and insulated state, the first protective body 104 and the second protective body 105 are arranged to cover the second light emitting element 102, the second light emitting element 102 is embedded between the first protective body 104 and the second protective body 105, the first protective body 104 is close to the face of the human body and is located on the non-light emitting side of the second light emitting element 102, and the second protective body 105 is far away from the face of the human body and is located on the light emitting side of the second light emitting element 102. The first protection body 104 may be made of any one of silica gel, rubber, polyethylene terephthalate, and polyurethane; the second protection body 105 may be made of silicon gel or polyethylene terephthalate.

The marginal region of first protection main part 104 directly bonds with second protection main part 105 through the glue film, and the marginal region of first protection main part 104 is provided with excessive gluey groove 1041, and excessive glue that produces when excessive gluey groove 1041 can take in first protection main part 104 and the bonding of second protection main part 105 increases the aesthetic property of flexible face guard main part 10 when guaranteeing second light-emitting component 102 leakproofness.

Fig. 9 is a schematic view of an overall structure of a flexible phototherapy mask provided by an embodiment of the present invention, referring to fig. 9, optionally, the flexible phototherapy mask further includes a flexible fixing band 30 and a controller 40, the flexible fixing band 30 is disposed on two sides of the flexible mask body 10; the controller 40 is electrically connected to the power supply line on the flexible mask body 10 for controlling the first and second light emitting units.

Specifically, in order to make the flexible phototherapy mask wear conveniently, improve the travelling comfort of wearing, flexible fixing band 30 sets up in the both sides of flexible mask main part 10, is convenient for fix in ear department. The flexible fixing band 30 is designed with a main fixing band and an auxiliary band, wherein the left side and the right side of the main fixing band are oppositely arranged, and the flexible phototherapy mask can be annularly fixed around the head; the auxiliary belt upwards sets up, can solve flexible phototherapy face guard and appear whole tenesmic problem easily when wearing, makes to wear more comfortablely.

The controller 40 includes a battery that supplies power to the first and second light emitting units and a button switch for controlling the first and second light emitting units to emit light. Place battery and button switch in controller 40, can alleviate the weight of flexible phototherapy face guard, improve and wear the comfort level, promote the cosmetic experience of user.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious modifications, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (9)

1. A flexible phototherapy mask comprising: a flexible mask body and a lip care device;

the flexible mask main body comprises a lip hollowed-out area, the lip nursing device is matched with the lip hollowed-out area, and the area of the lip nursing device is larger than or equal to that of the lip hollowed-out area;

the lip nursing device comprises a first light-emitting assembly, the first light-emitting assembly comprises a first substrate, a first graphene layer arranged on the surface of the first substrate, a first light-emitting unit arranged on one side, far away from the first substrate, of the first graphene layer, and a first protective layer arranged on one side, far away from the first substrate, of the first light-emitting unit, the first graphene layer comprises a first power supply circuit and a first light-emitting element, and the first power supply circuit is electrically connected with the first light-emitting unit and used for supplying power to the first light-emitting unit;

or, the first light-emitting assembly comprises a first substrate, a first light-emitting unit and a first lead layer, wherein the first light-emitting unit and the first lead layer are arranged on one side of the first substrate, the second graphene layer is arranged on one side of the first substrate, the first light-emitting unit is far away from the first light-emitting unit, the second graphene layer covers the first light-emitting unit, a first transparent substrate is arranged between the second graphene layer and the first light-emitting unit, and the first lead layer comprises a second power supply circuit for supplying power to the first light-emitting unit.

2. A flexible phototherapy mask as claimed in claim 1 wherein the first lighting unit comprises red, yellow, blue, green, violet and infrared lighting units.

3. A flexible phototherapy mask as recited in claim 1, wherein the lip care device includes a first magnetically attractive element, a second magnetically attractive element is disposed around the hollowed out region of the lip of the flexible mask body, and the lip care device is secured to the flexible mask body by the first magnetically attractive element and the second magnetically attractive element.

4. The flexible phototherapy mask of claim 3 wherein the first magnetic component surface is provided with a first conductive layer, the second magnetic component surface is provided with a second conductive layer, and a power supply line for supplying power to the first light emitting unit, the first light emitting component and the second graphene layer are electrically connected to the power supply line on the flexible mask body through the first conductive layer and the second conductive layer.

5. The flexible phototherapy mask of claim 4, wherein the flexible mask body comprises a second light emitting assembly, the second light emitting assembly comprises a second substrate, a third graphene layer disposed on a surface of the second substrate, a second light emitting unit disposed on a side of the third graphene layer away from the second substrate, and a second protective layer disposed on a side of the second light emitting unit away from the second substrate, the third graphene layer comprises a third power line and a second light emitting element, the third power line is electrically connected with the second light emitting unit for supplying power to the second light emitting unit, the first light emitting element, and the second graphene layer;

or the second light-emitting assembly comprises a second substrate, a second lead layer arranged on one side of the second substrate, a second light-emitting unit arranged on one side, far away from the second substrate, of the second lead layer, and a fourth graphene layer arranged on one side, far away from the second substrate, of the second light-emitting unit, wherein the fourth graphene layer covers the second light-emitting unit, and a second transparent substrate is arranged between the fourth graphene layer and the second light-emitting unit; the second wire layer comprises a fourth power supply circuit, and the fourth power supply circuit is electrically connected with the second light-emitting unit and is used for supplying power to the second light-emitting unit, the first light-emitting element and the second graphene layer;

the second light-emitting unit comprises a red light-emitting unit, a yellow light-emitting unit, a blue light-emitting unit, a green light-emitting unit, a purple light-emitting unit and an infrared light-emitting unit.

6. The flexible phototherapy mask of claim 5 wherein the flexible mask body includes a T-shaped region corresponding to a T-shaped region of a human face;

the number and/or the luminous intensity of the blue luminous units in the T-shaped area are respectively larger than the number and/or the luminous intensity of the red luminous units, the yellow luminous units, the green luminous units, the purple luminous units and the infrared luminous units.

7. The flexible phototherapy mask of claim 5 wherein the flexible mask body comprises a first protective body and a second protective body,

the second light emitting assembly is arranged between the first protection main body and the second protection main body, and the first protection main body is arranged on the non-light emitting side of the second light emitting assembly; the first protection main body and the second protection main body are bonded with the second light-emitting component through a glue layer, the first protection main body comprises an edge area, and the edge area of the first protection main body is directly bonded with the second protection main body through the glue layer; the edge area of the first protection main body is provided with a glue overflow groove;

the lip care device includes a third protective body and a fourth protective body, the first light emitting assembly being disposed between the third protective body and the fourth protective body.

8. The flexible phototherapy mask as recited in claim 1, wherein the flexible mask body includes two eye hollow areas and a shade ring disposed at edges of the eye hollow areas.

9. The flexible phototherapy mask of claim 5 further comprising flexible fixation straps and a controller, the flexible fixation straps being disposed on both sides of the flexible mask body; the controller is electrically connected with a power supply line on the flexible mask main body and is used for controlling the first light-emitting unit and the second light-emitting unit.

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