CN219271962U - Mask and mask assembly - Google Patents

Abstract

The present utility model provides a mask and mask assembly, the mask comprising: the far infrared heating layer can emit far infrared light; the outer side light-emitting device is positioned at the outer side of the far infrared heating layer and is used for emitting at least one light, and the light emitted by the outer side light-emitting device can penetrate through the far infrared heating layer and irradiate the inner side of the far infrared heating layer. According to the scheme, through the integrated designs of red light, near infrared light, far infrared light and the like, the requirements of multiple aspects of skin care of a user are met, and the problems that the existing single red light and near infrared light or the mask with heating only by far infrared light cannot fully meet the requirements and the single function of skin care of the user are solved. The combination of the far infrared heating layer and the outer side light-emitting device can give consideration to the heating effect of the far infrared heating layer while the light loss is small, so that a better using effect is brought to a user, and the product competitiveness is improved.

Description

Mask and mask assembly

Technical Field

The utility model relates to the field of cosmetic masks, in particular to a mask and a mask assembly.

Background

In the prior art, for cosmetic masks, LEDs are generally used alone to emit red light and near infrared light for facial beauty. While there is no cosmetic mask having a plurality of light sources including far infrared light at the same time. Therefore, the prior art face mask cannot simultaneously have a plurality of light source nursing modes including far infrared light, so that the face mask has single function.

Therefore, how to provide a cosmetic mask capable of heating by combining multiple lights including far infrared light is a problem to be solved.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art or related art.

It is therefore an object of the present utility model to provide a mask.

It is another object of the present utility model to provide a mask assembly.

To achieve the above object, a first aspect of the present utility model provides a mask, including: the far infrared heating layer can emit far infrared light; the outer side light-emitting device is positioned at the outer side of the far infrared heating layer and is used for emitting at least one light, and the light emitted by the outer side light-emitting device can penetrate through the far infrared heating layer and irradiate the inner side of the far infrared heating layer.

The mask provided by the technical scheme of the utility model comprises a far infrared heating layer and an outside light-emitting device. The far infrared heating layer is positioned at the inner side of the outer side luminous device, and the far infrared light emitted by the far infrared heating layer can directly act on the face of the human body so as to realize the care of the face of the human body, such as beauty maintenance, skin care and the like, and achieve the effect of improving the skin quality and the like. The outer light-emitting device is positioned at the outer side of the far infrared heating layer and is used for emitting one or more combined lights of red light, near infrared light, blue light, orange light and the like, and the red light and/or the near infrared light and the blue light, the orange light and the like can penetrate through the far infrared heating layer and irradiate the inner side of the far infrared heating layer, so that the far infrared heating layer is applied to the face of a human body, the nursing of the face of the human body is realized, and the effects of improving the skin and the like are achieved. According to the scheme, the outer side light-emitting device used for emitting red light and/or near infrared light is arranged on the mask, and the far infrared heating layer is also arranged at the same time, so that the facial skin can be nursed and improved through the combination of the red light, the near infrared light, the blue light, the orange light and the like and the far infrared light, the function of the mask is widened, and the physiotherapy effect of the mask is improved. That is, the application meets the requirements of the skin care aspects of users through the design of the red light, the near infrared light, the blue light, the orange light and other external side light and far infrared light, solves the problems that the existing single red light and near infrared light or the mask only generates heat by far infrared light cannot fully meet the requirements of the skin care of users and has single function, and far infrared light can act on the deep layer of the skin due to the strong penetrating power, so that the beauty effect can be effectively improved through the cooperation of the far infrared light and the red light and/or the near infrared light. Meanwhile, through the combination mode of the outer side light-emitting device and the far infrared heating layer, red light and near infrared light emitted by the outer side light-emitting device can be transmitted to the skin of the surface layer of the human face through the far infrared heating layer with the characteristics of light scattering and high light transmittance, and the loss of light emitted by the outer side light-emitting device is reduced.

When the face mask is used, one side close to the face is the inner side, and one side far away from the face is the outer side. That is, the far infrared heating layer is arranged on the inner side of the far infrared heating layer, which is close to the human face, and the far infrared heating layer is arranged on the outer side of the far infrared heating layer, which is far away from the human face.

Further, the light transmittance of the far infrared heating film is more than or equal to 85%, so that the effect of heating the far infrared heating film can be considered under the condition of small light loss of the LED and other external light-emitting devices, the combination of the LED and the external light-emitting devices is realized, the better use effect is brought to users, and the competitiveness of the product is improved.

Further, the far infrared heating layer comprises a far infrared heating film. The far infrared heating film is used for emitting far infrared light. The far infrared heating film has good light transmittance, is not easy to block light emitted by the external light-emitting device, and ensures the normal operation of the external light-emitting device. Meanwhile, the far infrared heating film can emit far infrared light waves to radiate to the deep layer of the facial skin, and no obstruction exists between the far infrared heating film and the face, so that the far infrared light radiation energy can be maximally absorbed by the facial skin, and the effect of beautifying the face of the human body is realized.

Further, a preset distance is arranged between the far infrared heating layer and the outer light-emitting device.

In this technical scheme, the outside lighting device does not laminate completely with far infrared layer that generates heat between, has certain distance of predetermineeing, and this kind of setting can ensure that the light that outside lighting device sent can comparatively evenly see through far infrared layer that generates heat, makes the printing opacity homogeneity between the different lamp pearls of outside lighting device can reach an optimal equilibrium point, also sets up the luminousness and the printing opacity effect that the distance can be ensured the lamp source promptly, ensures that the light of lamp source can comparatively evenly act on human face.

Further, the preset distance is more than or equal to 2mm and less than or equal to 15mm, and is further 6mm, and the product thickness and the light transmission uniformity of the outer side light-emitting device, such as an LED lamp bead, can reach an optimal balance point under the design. Namely, the distance can ensure the light transmittance of the light source and avoid the excessive thickness of the mask.

Further, the outside light emitting device includes a flexible light panel. The flexible lamp panel enables the outside lighting device to better adapt to the structural deformation of the mask.

Further, the outside light emitting device includes an FPC lamp board, that is, a flexible electric circuit lamp board. The flexible circuit lamp panel is adopted, so that the lamp panel can be partially deformed along with the structure of the mask, the lamp panel can be better fixed on the mask, and the position of the flexible circuit lamp panel can be adjusted and designed more conveniently.

Further, LED lamp beads are arranged in the outer light-emitting device. Further, the outside light emitting device can generate light having a wavelength of 630nm to 2526 nm. Further, the outside light emitting device can generate light having a wavelength of 630nm to 850 nm. That is, the outer light emitting device has an LED structure, because the LED lamp beads are arranged inside the outer light emitting device. The LED energy-saving device can utilize the characteristic of energy saving of the LED, reduce the energy consumption of the outside light-emitting device and enable the product to be more energy-saving. The LED lamp beads can generate light with the wavelength of 630-850 nm, such as specific spectrum of 660nm of red light and 850nm of near infrared light, so that the irradiation treatment course of controllable pulse irradiation is carried out on the facial region, the activity of exciting facial skin cells is achieved, the generation of collagen is promoted, and the healing of injury is accelerated. Meanwhile, hyaluronic acid essence can be matched for use, so that the effects of tightening, brightening, resisting wrinkles and removing wrinkles are brought.

The utility model is designed to integrate red light, near infrared light and the like with far infrared light, can meet the requirements of the skin care of users in various aspects, and the prior art on the market at present has the functions of single red light and near infrared light or only far infrared light heating, and can not fully meet the requirements of the skin care of users. Under the red light and near infrared light modes, the household red light cosmetic mask generates specific spectrum through densely distributed LED lamp beads to perform controllable pulse irradiation illumination treatment course on the facial region, plays a role in exciting the activity of facial skin cells, promotes the generation of collagen and quickens the healing of injury. Meanwhile, hyaluronic acid essence can be matched for use, so that the effects of tightening, brightening, resisting wrinkles and removing wrinkles are brought.

Further, the far infrared heating layer is internally provided with a far infrared generating structure, and the far infrared generating structure can generate light with the wavelength larger than 7.8 um.

In the technical scheme, the mask can radiate far infrared light with specific frequency spectrum, such as light larger than 7.8um, through heating materials in the far infrared heating film, so as to carry out illumination treatment course with controllable temperature on specific area of the face, and the effects of deep heating, pore expansion/capillary vessel expansion, blood circulation promotion, tissue metabolism enhancement and healing regeneration capacity are achieved by utilizing stronger skin penetrating power and obvious heat conversion effect of the far infrared light. Meanwhile, the effect of improving the physiological state of the skin can be achieved by matching with the moisturizing mask.

Further, a metal oxide layer is arranged in the far infrared heating layer, and the metal oxide layer can generate light with the wavelength of more than 7.8 um. After the far infrared heating layer (mainly the far infrared heating film) is electrified, the metal oxide layer is equivalent to a resistor, and the far infrared heating film can generate far infrared light after being heated.

Further, the light emitted from the outside light emitting device includes one or more of red light, near infrared light, blue light, and orange light. Wherein, the red light wave band is 660nm and the near infrared wave band is 850nm, the blue light wave band is 420nm-470nm, and the orange light wave band is 590nm-610nm. Wherein, the red light and near infrared light effects play roles in exciting the activity of facial skin cells, weakening pigment, promoting the generation of collagen and accelerating the healing of injury. The blue light can control oil and remove acnes, promote cell growth, and repair inflammatory cancer-control aging skin and allergic skin. The orange light wave band can supplement cell energy, strengthen muscles, improve the effects of relaxation, smoothness, tendering skin and the like.

In the above technical scheme, the far infrared heating layer comprises a far infrared heating film, a main cover and a fixing frame arranged on the main cover, and the far infrared heating film is arranged on the fixing frame. The mask further comprises an outer layer component, wherein the outer layer component comprises an outer side light-emitting device and a connecting fixing piece arranged on the main cover, and the outer side light-emitting device is arranged on the connecting fixing piece.

In this technical scheme, the face guard mainly includes inside and outside two-layer structure, and wherein, the inlayer structure mainly comprises far infrared heating film, main lid and fixed frame, is far infrared functional layer. The outer layer structure mainly comprises an outer side light-emitting device and a connecting fixing piece and is mainly used for forming an outer layer functional layer such as red light, blue light and the like. During installation, the inner layer structure and the outer layer structure can be assembled respectively, and then the installed inner layer structure is assembled on the installed outer layer structure. Specifically: the main cover is used as a framework of the mask and is mainly used for forming different hollowed-out mounting areas for cheek chin and the like, and fixing frames at different positions are correspondingly mounted in the mounting areas, so that the far infrared heating film can be correspondingly mounted on the main cover. The connecting and fixing piece is arranged between the decorative cover and the main cover and is mainly used for connecting the decorative cover and the main cover, and meanwhile, parts such as the outer side luminous device, the nose pad, the eye cover and the like are supported and installed. This kind of setting has realized the installation of the far infrared heating film in different regions through the main lid to this installs the far infrared heating film in the inboard of whole housing assembly, thereby has made things convenient for nursing such as heating skin through far infrared light.

For the mask set in the partition, the main cover and the connecting and fixing piece are provided with corresponding areas corresponding to different parts of the face, for example, the main cover is provided with cheek areas for cheeks, chin areas for chin, forehead areas for forehead, and similarly, the connecting and fixing piece is also provided with cheek areas, chin areas and forehead areas correspondingly.

Further, the fixing frame may be fixed on the main cover by one or more of a buckle, a hot melt, an ultrasonic wave, and a glue adhesive, which is not limited to the above.

In the above technical solution, the mask further includes a decorative cover mounted on the outer side of the outer member. The decorative cover is used as the decorative cover, so that on one hand, the parts inside the decorative cover can be protected, on the other hand, the attractiveness of the product can be enhanced, and the use experience of a user is improved.

In the above technical solution, the mask further includes: a housing assembly; the far infrared heating layer comprises one or more far infrared heating films and one or more outer side light-emitting devices, the one or more far infrared heating films and the one or more outer side light-emitting devices are all arranged on the shell component, and when the number of the far infrared heating films and the number of the outer side light-emitting devices are multiple, the multiple far infrared heating films and the multiple outer side light-emitting devices are respectively correspondingly arranged on multiple areas of the shell component.

In this technical solution, one or more areas may be provided on the housing assembly, and each area is provided with a corresponding far infrared heating film and an external light emitting device. That is, when the housing assembly is not zoned, the far infrared heating film and the outside light emitting device cover the entire mask. And when the shell component is arranged in a partitioning mode, the far infrared heating film and the outside light-emitting device are also arranged in a partitioning mode, and therefore partition heating can be achieved. I.e. in view of the fact that the mask has different heating requirements for different parts of the face, e.g. the cheek and chin are not exactly as much as the heating force is required. Therefore, in the application, the far infrared heating layer and the outer side light-emitting device are correspondingly arranged on different parts of the mask, so that different parts can be correspondingly heated through different far infrared heating layers and outer side light-emitting devices, different parts of the face can be independently heated, and the partition heating control of the face is realized. For example, the forehead may be heated alone, or the cheek or chin may be heated alone. Of course, the different far infrared heating layers and the outside light emitting devices can also be combined and controlled uniformly.

Further, the far infrared heating layer comprises a fixed frame, and the far infrared heating film is arranged on the shell component through the fixed frame.

In the technical scheme, the fixed frame is used for installing the far infrared heating film. During installation, the far infrared heating film can be firstly installed on the fixed frame, then the fixed frame is fixedly installed on the shell component, and the far infrared heating film is independently installed on the fixed frame more conveniently than the far infrared heating film is directly installed on the shell component, after all, the shell component is more in parts and relatively inconvenient to operate. Therefore, through setting up fixed frame, made things convenient for the installation of far infrared heating film, improved the installation convenience of far infrared heating film, also improved the installation reliability of far infrared heating film on housing assembly. Further, the mounting holes are formed in the fixing frame, far infrared light emitted by the far infrared heating film can be emitted through the mounting holes of the fixing frame, namely, the fixing frame is correspondingly arranged around the far infrared heating film in a surrounding mode, and the fixing and protecting effects on the far infrared heating film are achieved.

Further, the fixed frame can be detachably arranged on the shell assembly, and the fixed frame and the far infrared heating film can be independently replaced by the aid of the arrangement, so that the fixed frame and the far infrared heating film are convenient to maintain.

In general, the far infrared heating film deforms less along the 3D special-shaped curved surface. Therefore, after the far infrared heating film is assembled on the mask, the far infrared heating film cannot be well attached to the 3D special-shaped curved surface of the mask, and the design of the shape of the mask can be greatly limited. Meanwhile, the whole far infrared heating film has the advantages of overlarge area, longer heating time to the heating temperature of the mask, larger power required by the mask and uneven heating. And in this application, adopt the subregion design with far infrared heating film for the area of every far infrared heating film after the subregion is all the smaller, and far infrared heating film itself just can multi-direction flexible deformation like this, the radian of laminating face guard outward appearance dysmorphism curved surface that can be better has reduced the radian defect that 2D plane membrane can not laminate 3D dysmorphism curved surface face guard outward appearance better in the at utmost, the effectual designable space that has promoted face guard outward appearance design has promoted face guard appearance aesthetic property. Meanwhile, due to the partition heating, the heating of a single film and a single film is realized, so that the power of the mask is reduced, the heating efficiency of the far infrared heating film is improved, and the heating uniformity of the mask is ensured, so that the defect that the far infrared heating film with a 2D curved surface cannot be secondarily processed into a 3D special-shaped curved surface similar to a human face is overcome, and the limitation influence on the appearance of the mask due to the limitation of the far infrared heating film with the 2D curved surface is avoided to the greatest extent.

The LED lamp beads on the FPC lamp panel in the forehead region emit red light and near infrared light, and the red light and the near infrared light are uniformly transmitted through the diffusion and high light transmittance characteristics of the far infrared heating film in the forehead region. LED lamp beads on the FPC lamp panel in the cheek area emit red light and near infrared light, and the LED lamp beads pass through the diffusion and high light transmittance characteristics of the far infrared heating film in the cheek area, so that the LED lamp beads can uniformly transmit the red light and the near infrared light. LED lamp beads on the chin area FPC lamp panel emit red light and near infrared light, and the LED lamp beads uniformly penetrate the red light and the near infrared light through the diffusion and high light transmittance characteristics of the chin area far infrared heating film. The combination mode can enable red light and near infrared light emitted by the LED lamp beads to transmit light energy to the skin of the surface layer of the human face through the far infrared heating film with the characteristics of astigmatism and high light transmittance, far infrared light waves can be emitted to the deep layer of the skin of the human face by heating the far infrared heating film, and the far infrared heating film is not blocked relative to the human face.

In the above technical solution, the mask further includes: the skin-proximal detector is disposed in correspondence with the chin area of the mask. In particular, the skin proximity detector may be mounted on an outside light emitting device in the chin area.

In this solution, the mask further comprises a skin proximity detector. The skin proximity detector may be specifically mounted on an outside light emitting device in the chin area. Whether the mask contacts the skin or not can be detected through the skin-approaching detector, so that whether the mask is correctly worn or not can be ensured, and the mask is prevented from being used by a user according to the specification. After all, the face mask of the application is specially provided with a far infrared heating layer and an outside light-emitting device corresponding to cheeks, forehead and the like, and if the face mask is not worn normally, the corresponding part cannot be heated just, so that the effect of the face mask can be reduced. And whether the mask is worn correctly can be detected through the skin-approaching detector, so that the user can be reminded in time when the user is not in normative wearing.

In the above technical solution, the mask further includes: the main control board is connected with the outer side light-emitting device and/or the far infrared heating film to supply power to the outer side light-emitting device and/or the far infrared heating film and control the work of the outer side light-emitting device and/or the far infrared heating film.

In this technical scheme, the face guard still includes the main control board, and the main control board is used for with outside lighting device and far infrared heating film power supply and control nature lamp plate and far infrared heating film's work. For example, the external light-emitting device and the far infrared heating film can be controlled to be turned on or off by the instruction sent by the main control board, so that different red light nursing modes can be realized.

In the above technical solution, the mask further includes: the eyeshade is correspondingly arranged in the eye area of the shell component and fixedly arranged on the connecting fixing piece; the nose pad is correspondingly arranged in the nose area of the shell component and fixedly arranged on the eyeshade and/or the connecting fixing piece.

In this technical scheme, the face guard still includes the eye-shade for cover user's eyes, in order to carry out the shading protection to user's eyes, in order to make the user wear the face guard and carry out physiotherapy in-process, can relax the rest, in order to enjoy physiotherapy process. Of course, the eyeshade may also have some energy supply for the care of the eyes. The nose pad is correspondingly arranged in the cheek area of the shell assembly, is fixedly arranged on the eyeshade and/or the connecting fixing piece, and can form a space near the cheek through the nose pad so as to facilitate breathing of a user, and avoid the mask from being stuck on the cheek to influence normal breathing of the user. Of course, the nose pad may also have a certain function of caring for the nose.

Further, the eyeshade is a silica gel cover. The silica gel eyeshade is common, so the silica gel eyeshade is better purchased, and the cost can be reduced. Furthermore, the nose pad is a metal nose pad, and the nose pad made of metal materials is more reliable. Further, the nose pads may be made of hardware. Further, the eye shield and/or the nose pad are/is buckled on the connecting fixing piece, or the eye shield and/or the nose pad are/is installed on the connecting fixing piece through screws. That is, the eyeshade and/or the nose pad can be mounted on the connecting fixing piece by means of screws or buckles, so as to realize the fixed mounting of the eyeshade and/or the nose pad on the connecting fixing piece.

In the above technical scheme, the decorative cover comprises a first cover body and a second cover body, and the first cover body and the second cover body are respectively installed on the connecting fixing piece.

In this technical scheme, decorate the lid and include first lid and second lid, all fix on connecting the mounting. That is, the decoration cover is of a split type structure, not of an integral type structure. The arrangement can divide the decorative cover into a plurality of parts for separate installation, so that a part of the decorative cover can be installed, and the decorative cover is convenient to install on the connecting fixing piece.

In any of the above technical solutions, the first cover and the second cover are disposed up and down or left and right; the first cover body and the second cover body can be detachably buckled and installed on the connecting fixing piece through the buckling structure respectively, or the first cover body and the second cover body are installed on the connecting fixing piece through screws respectively.

In this technical solution, the decorative cover may be divided up and down into an upper cover body and a lower cover body, i.e. the decorative cover is divided into two parts in the height direction. The decorative cover can be divided into a left cover body and a right cover body along the left-right direction. And the specific form of the decorative cover can be set according to the need. When the first cover body and the second cover body are installed, the first cover body and the second cover body can be installed on the connecting fixing piece in a common mode of screws, buckles or glue.

In any of the above technical solutions, the fixing frame is mounted on the main cover by a buckle; and/or the main cover and the connection fixing member are fixed by screws.

In this technical scheme, fixed frame accessible is beaten the mode of screw and is installed on the main lid, and screw installation is more common for fixed frame's installation is simpler, and screw installation, need not set up complicated buckle on fixed frame and main lid, only need set up corresponding hole, consequently, makes fixed frame and main lid's structure comparatively simple, consequently has reduced fixed frame and decorative cover's the processing degree of difficulty. The main cover and the connecting fixing piece are also preferably fixed by a screw in a relatively common and simple mode, so that the operation difficulty can be reduced, and the production and processing cost of products can be reduced. Of course, the main cover and the connecting and fixing piece can be installed and fixed in a fastening or gluing mode.

In any of the above embodiments, the outside light emitting device is mounted on the housing assembly by double-sided adhesive tape. Because the outside light emitting device is not good in punching and low in strength, the double faced adhesive tape is used for pasting, and thus holes or buckle structures are not required to be arranged on the outside light emitting device, and the structure of the outside light emitting device is simplified. Of course, the external light emitting device may be fixedly mounted by other mounting means and connecting fixtures.

In any of the above technical solutions, the housing component is a 3D shaped curved surface, and/or the far infrared heating film is a 2D curved surface. Furthermore, the appearance of the face mask in the face mask is a 3D special-shaped curved surface, and further the face mask is a 3D special-shaped curved surface similar to a human face, so that the face mask can be matched with the human face better. The far infrared heating film integrated with the far infrared radiation material is a 2D planar film, and has a certain thickness, but due to the adoption of the partition design, the far infrared heating film can be reliably attached to the mask shell.

In the above technical scheme, the controller can output 7V to 8V voltage to control the operation of the far infrared heating film and the outside light emitting device.

In the above technical solution, the controller includes: the main control board is connected with the outer side light-emitting device and/or the far infrared heating film to supply power to the outer side light-emitting device and/or the far infrared heating film and control the work of the outer side light-emitting device and/or the far infrared heating film. I.e. the main control board is arranged outside the mask.

In the technical scheme, the main control board is used for supplying power to the outside light-emitting device and the far infrared heating film and controlling the work of the lamp panel and the far infrared heating film. For example, the external light-emitting device and the far infrared heating film can be controlled to be turned on or off by the instruction sent by the main control board, so that different red light nursing modes can be realized.

Further, the at least one far infrared heating film comprises a chin far infrared heating film corresponding to a chin area, a cheek far infrared heating film corresponding to a cheek area and a forehead far infrared heating film corresponding to a forehead area, and the step of controlling the at least one far infrared heating film to work comprises the following steps: the forehead far infrared heating film, the cheek far infrared heating film and the chin far infrared heating film are controlled to sequentially and circularly work according to preset circulation steps until the total heating time length reaches the target time length, wherein the preset circulation steps are as follows: after the forehead far infrared heating film is controlled to be heated to a first temperature, the cheek far infrared heating film is controlled to be started to be heated for a first time, so that the forehead far infrared heating film and the cheek far infrared heating film stop heating; and opening the chin far infrared heating film to heat to a second temperature.

In the technical scheme, in the far infrared nursing mode or the far infrared, infrared light and/or near infrared light combined nursing mode, when the far infrared heating films are started, the far infrared heating films in different areas sequentially work in sequence, so that deep stimulation can be carried out on the skin in different areas. And through the district heating successively, can ensure heating dynamics and heating position assorted to make the work of far infrared heating film more reasonable healthy, both can avoid heating together like this, and lead to the stimulation too big, also can make different positions can be intermittently heated, in order to improve user's comfort experience degree. And the far infrared heating films in different areas can be stopped after being circularly operated for a target time period (such as 300 s).

In any of the above aspects, the plurality of outside light emitting devices can be individually energized. That is, the outside light emitting devices may operate independently, or may operate synchronously. Thereby enabling an increase in the operating mode of the mask.

In any of the above technical solutions, the plurality of far infrared heating films can be combined to perform power-on operation or each far infrared heating film can be separately powered on to perform power-on operation. That is, each far infrared heating film can be controlled independently, and of course, a plurality of far infrared heating films can also be controlled synchronously or synchronously. Thereby enabling an increase in the operating mode of the mask. The plurality of outside light emitting devices and the plurality of far infrared heating films can work in a combined mode to realize a combined heating mode, or can work independently to realize a far infrared heating mode or a common mode.

The technical solution of the second aspect of the present utility model provides a mask assembly, including: the mask provided in any one of the aspects of the first aspect; a controller connected to the mask to control operation of the mask; wherein the controller can control the far infrared heating layer and the outside light emitting device to work independently and/or work in combination.

A mask assembly according to the present utility model includes a mask of the first aspect and a controller. Wherein the controller is used for controlling the work of the mask and supplying power to the mask. Specifically, the controller is used for being in communication connection with the main control board of the mask so as to be capable of sending commands and data to the main control board or receiving commands or data fed back by the main control board. Meanwhile, since the mask assembly provided by the utility model comprises the mask provided by any one of the technical schemes of the second aspect. Accordingly, the mask assembly has all of the advantages of the mask provided by any one of the aspects of the second aspect, and will not be described in detail herein.

Further, the controller is a hand-held controller or a remote controller. Because the controller can be operated well, whether it is hand-held or remote-controlled, the user experience is improved. In use, the controller may control the mask to perform various functions.

Further, the controller comprises a main control board which is connected with the outer side light-emitting device and/or the far infrared heating layer to supply power to the outer side light-emitting device and/or the far infrared heating layer and control the work of the outer side light-emitting device and/or the far infrared heating layer. The main control board is mainly used for controlling the far infrared heating layer to work.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic illustration of the structure of a mask provided by an embodiment of the present utility model;

FIG. 2 is a schematic structural view of a mask assembly provided by an embodiment of the present utility model;

FIG. 3 is a schematic illustration of an exploded view of the parts of a mask provided by an embodiment of the present utility model;

FIG. 4 is a schematic view of an exploded structure of the far infrared heat generating film and corresponding fixing frame of various parts of the mask provided by the embodiment of the present utility model;

FIG. 5 is a schematic view of the structure of the main cover of the mask provided by an embodiment of the present utility model;

FIG. 6 is a schematic view of the attachment fixture of the mask provided by an embodiment of the present utility model;

FIG. 7 is a schematic view of the structure of a decorative cover of a mask provided by an embodiment of the present utility model;

fig. 8 is an exploded view of the decorative cover of fig. 7.

Wherein, the correspondence between the reference numerals and the component names in fig. 1 to 8 is:

the device comprises a shell component, a main cover, a 120 second buckle, a 122 fourth screw hole, a 14 decorative cover, a 142 first cover body, a 1422 second screw column, a 144 second cover body, a 1442 third screw column, a 16 connection fixing piece, a 162 first screw column, a 164 third screw hole, a 166 fourth screw column, a 168 second screw hole, a 22 far infrared heating film, a 24 outer side light emitting device, a 26 fixing frame, a 262 first buckle, a 3 skin approaching detector, a 4 main control board, a 5 eyeshade, a 6 nose pad, a 62 first screw hole, a 7 controller, an A forehead area, a B cheek area and a C chin area.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present utility model can be understood in detail, a more particular description of the utility model, briefly summarized below, may be had by reference to the appended drawings. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and therefore the scope of the present utility model is not limited to the specific embodiments disclosed below.

The mask and mask assembly provided by embodiments of the present application are described below with reference to fig. 1-8.

Example 1

As shown in fig. 1-8, an embodiment of the first aspect of the present utility model provides a mask comprising a far infrared heat generating layer and an outboard light emitting device 24. The far infrared heating layer is used for emitting far infrared light. The outer light emitting device 24 is located outside the far infrared heating layer and is used for emitting at least one light, and the light emitted by the outer light emitting device 24 can pass through the far infrared heating layer and irradiate to the inner side of the far infrared heating layer.

A mask according to an embodiment of the present utility model is provided that includes a far infrared heat generating layer and an outboard light emitting device 24. The far infrared heating layer is located at the inner side of the outer side lighting device 24, and the far infrared light emitted by the far infrared heating layer can directly act on the face of the human body so as to realize the care of the face of the human body, such as beauty maintenance, skin care, and the like, and achieve the effect of improving the skin quality, and the like. The outer light emitting device 24 is located at the outer side of the far infrared heating layer, and the outer light emitting device 24 is used for emitting one or more of red light, near infrared light, blue light, orange light and the like, and the red light and/or the near infrared light and the blue light, the orange light and the like can pass through the far infrared heating layer to irradiate the inner side of the far infrared heating layer, so that the light is applied to the face of a human body, the nursing of the face of the human body is realized, and the effects of improving the skin quality and the like are achieved. According to the scheme, the outer side light-emitting device 24 for emitting red light and/or near infrared light is arranged on the mask, and meanwhile, the far infrared heating layer is also arranged, so that the facial skin can be nursed and improved through the combination of the red light, the near infrared light, the blue light, the orange light and the like and the far infrared light, the function of the mask is widened, and the physiotherapy effect of the mask is improved. That is, the application meets the requirements of the skin care aspects of users through the design of the red light, the near infrared light, the blue light, the orange light and other external side light and the far infrared light, and solves the problems that the existing mask with single red light and near infrared light or only far infrared light heats, and the requirements of the skin care of the users and the problem of single function cannot be fully met. The far infrared light can act on the deep layer of the skin due to the strong penetrating power, so that the beauty effect can be effectively improved through the cooperation of the far infrared light and the red light and/or the near infrared light. Meanwhile, the red light and the near infrared light emitted by the outer light-emitting device 24 can be transmitted to the skin of the face surface through the far infrared heating layer with the characteristics of astigmatism and high light transmittance by the combination mode of the outer light-emitting device 24 and the far infrared heating layer, so that the loss of the light emitted by the outer light-emitting device 24 is reduced.

When the face mask is used, one side close to the face is the inner side, and one side far away from the face is the outer side. That is, the far infrared heating film 22 is on the inner side near the face and on the outer side far away from the face.

Further, the far infrared heat generating layer includes a far infrared heat generating film 22. The far infrared heating film 22 has good light transmittance, is not easy to block the light emitted by the external light-emitting device 24, and ensures the normal operation of the external light-emitting device 24. Meanwhile, the far infrared heating film 22 can emit far infrared light wave radiation to the deep layer of the facial skin, and the far infrared heating film 22 is not blocked relative to the facial skin, so that the far infrared light radiation energy can be maximally absorbed by the facial skin, and the effect of beautifying the facial of the human body is realized.

In the above-described embodiment, as shown in fig. 1 to 6, the far infrared heat generation layer, which includes the far infrared heat generation film 22, the main cover 12, and the fixing frame 26 mounted on the main cover 12, the far infrared heat generation film 22 is mounted on the fixing frame 26. The mask further includes an outer member including an outer lighting device 24 and a connection mount 16 mounted to the main cover 12, the outer lighting device 24 being mounted to the connection mount 16.

In this embodiment, the mask mainly comprises an inner layer structure and an outer layer structure, wherein the inner layer structure mainly comprises a far infrared heating film 22, a main cover 12 and a fixing frame 26, and is a far infrared functional layer. The outer layer structure mainly comprises the outer side light emitting device 24 and the connecting fixing piece 16, and is mainly used for forming outer layer functional layers such as red light, blue light and the like. During installation, the inner layer structure and the outer layer structure can be assembled respectively, and then the installed inner layer structure is assembled on the installed outer layer structure. Specifically: the main cover 12 is used as a framework of the mask, and is mainly used for forming different hollowed-out mounting areas for cheek chin and the like, and fixing frames 26 at different positions are correspondingly arranged in the mounting areas, so that the far infrared heating film 22 can be correspondingly arranged on the main cover 12. A connecting and fixing member 16 is provided between the decorative cover 14 and the main cover 12, and the connecting and fixing member 16 is mainly used for connecting the decorative cover 14 and the main cover 12, and simultaneously supporting and installing the external light emitting device 24, the nose pad, the eye shield and other parts. This arrangement allows for the mounting of the far infrared heating film 22 in different areas through the main cover 12, so that the far infrared heating film 22 is mounted inside the whole housing assembly, thereby facilitating the care of skin heating and the like by far infrared light.

For the mask set in the partition, the main cover 12 and the connecting fixing piece 16 are respectively provided with corresponding areas corresponding to different parts of the face, for example, the main cover 12 is provided with a cheek area for the cheek, a chin area for the chin, a forehead area for the forehead, and similarly, the connecting fixing piece 16 is correspondingly provided with a cheek area, a chin area and a forehead area.

Further, the transmittance of the far infrared heating film 22 is greater than or equal to 85%, so that the effect of heating the far infrared heating film 22 can be considered under the condition of small light loss of the LED and other external light-emitting devices 24, the combination of the two is realized, a better use effect is brought to users, and the product competitiveness is improved.

Further, the outer light-emitting device 24 and the far infrared heating film 22 are not completely attached, and a certain preset distance exists, so that the arrangement can ensure that light emitted by the outer light-emitting device 24 can uniformly penetrate through the far infrared heating film 22, so that the light transmission uniformity among different lamp beads of the outer light-emitting device 24 can reach an optimal balance point, namely, the preset distance can ensure the light transmittance and the light transmission effect of the lamp source, and the light of the lamp source can uniformly act on the face of a human body.

Further, the preset distance is greater than or equal to 2mm and less than or equal to 15mm, and further is 6mm, and the product thickness and the light transmission uniformity of the outer side light emitting device 24, such as an LED lamp bead, can reach an optimal balance point under the design. Namely, the distance can ensure the light transmittance of the light source and avoid the excessive thickness of the mask.

Further, the outside light 24 includes a flexible light panel. The flexible light panel enables the outboard lighting arrangement 24 to better accommodate the structural deformation of the mask.

Still further, the outside light 24 includes an FPC board, that is, a flexible electric board. The flexible electric street lamp plate is adopted, so that the lamp plate can be partially deformed along with the structure of the mask, the lamp plate can be better fixed on the mask, and the position of the flexible electric street lamp plate can be conveniently adjusted.

Further, an LED lamp bead is disposed in the outer lighting device 24. Further, the outer light emitting device 24 is capable of generating light having wavelengths of 630nm-2526 nm. Further, the outer lighting device 24 is capable of generating light having a wavelength of 630nm-850 nm. That is, the outer lighting device 24 is of an LED structure because the inside thereof is provided with LED beads. The mode can utilize the characteristic of energy conservation of the LEDs, reduce the energy consumption of the outer-side light-emitting device 24, and enable the product to be more energy-saving. The LED lamp beads can generate light with the wavelength of 630-850 nm, such as specific spectrum of 660nm of red light and 850nm of near infrared light, so that the irradiation treatment course of controllable pulse irradiation is carried out on the facial region, the activity of exciting facial skin cells is achieved, the generation of collagen is promoted, and the healing of injury is accelerated. Meanwhile, hyaluronic acid essence can be matched for use, so that the effects of tightening, brightening, resisting wrinkles and removing wrinkles are brought.

Further, a far infrared generating structure is provided in the far infrared heating film 22, and the far infrared generating structure can generate light with a wavelength greater than 7.8 um.

In this embodiment, the mask can radiate far infrared light with specific spectrum, such as light greater than 7.8um, through the heating material, such as metal oxide, in the far infrared heating film 22 to perform a controlled temperature illumination treatment on specific area of the face, and the effect of deep heating, pore/capillary expansion, blood circulation promotion, tissue metabolism enhancement and healing regeneration capability is achieved by utilizing the strong skin penetration and significant heat conversion effect of far infrared light. Meanwhile, the effect of improving the physiological state of the skin can be achieved by matching with the moisturizing mask.

Further, a metal oxide layer is provided in the far infrared heat generating film 22, and the metal oxide layer is capable of generating light having a wavelength of more than 7.8 um. Wherein, after the far infrared heating film 22 is electrified, the metal oxide layer corresponds to a resistor, and the far infrared heating film 22 can generate far infrared light after being heated.

Further, the light emitted from the outside light emitting device 24 includes one or more of red light, near infrared light, blue light, and orange light. Wherein, the red light wave band is 660nm and the near infrared wave band is 850nm, the blue light wave band is 420nm-470nm, and the orange light wave band is 590nm-610nm. Wherein, the red light and near infrared light effects play roles in exciting the activity of facial skin cells, weakening pigment, promoting the generation of collagen and accelerating the healing of injury. The blue light can control oil and remove acnes, promote cell growth, and repair inflammatory cancer-control aging skin and allergic skin. The orange light wave band can supplement cell energy, strengthen muscles, improve the effects of relaxation, smoothness, tendering skin and the like.

In the above embodiment, as shown in fig. 2 to 4, the mask further includes: a housing assembly; the far infrared heating film 22 and the outside light emitting device 24 are both mounted on the housing assembly; the far infrared heating film 22 and the outer side light emitting devices 24 are all a plurality of, and the far infrared heating film 22 and the outer side light emitting devices 24 are arranged on a plurality of areas of the shell component in a one-to-one correspondence manner.

In this embodiment, one or more areas may be provided on the housing assembly, with a corresponding far infrared heat generating film 22 and outside light 24 being provided on each area. That is, when the housing assembly is not separately designed, the far infrared heat generating film 22 and the outboard lighting device 24 cover the entire mask. In the case of the case assembly, the far infrared heating film 22 and the outside light emitting device 24 are also provided in a partitioned manner, so that the partitioned heating can be realized. I.e. in view of the fact that the mask has different heating requirements for different parts of the face, e.g. the cheek and chin are not exactly as much as the heating force is required. Therefore, in the application, the far infrared heating layer and the outer side light-emitting device 24 are correspondingly arranged on different parts of the mask, so that different parts can be correspondingly heated through different far infrared heating layers and the outer side light-emitting devices 24, different parts of the face can be independently heated, and the regional heating control of the face is realized. For example, the forehead may be heated alone, or the cheek or chin may be heated alone. Of course, the different far infrared heating layers and the outside light emitting devices 24 may be controlled in combination.

Further, as shown in fig. 4, the far infrared heat generating layer includes a fixing frame 26, and the fixing frame 26 is for mounting the far infrared heat generating film 22. During installation, the far infrared heating film 22 can be firstly installed on the fixed frame 26, then the fixed frame 26 is fixedly installed on the shell component, and the far infrared heating film 22 is independently installed on the fixed frame 26 more conveniently than the far infrared heating film 22 is directly installed on the shell component, after all, the shell component has more parts and is relatively inconvenient to operate. Therefore, by providing the fixing frame 26, the installation of the far infrared heating film 22 is facilitated, the installation convenience of the far infrared heating film 22 is improved, and the installation reliability of the far infrared heating film 22 on the housing assembly is also improved. Further, the fixing frame 26 is provided with a mounting hole, and far infrared light emitted by the far infrared heating film 22 can be emitted through the mounting hole of the fixing frame 26, that is, the fixing frame 26 is equivalent to being enclosed around the far infrared heating film 22, and has the functions of fixing and protecting the far infrared heating film 22.

Further, the fixing frame 26 can be detachably mounted on the housing assembly, and the fixing frame 26 and the far infrared heating film 22 can be replaced independently, so that the fixing frame 26 and the far infrared heating film can be maintained conveniently.

Further, the fixing frame 26 may be fixed to the main cover 12 by one or more of a snap, a heat fusion, an ultrasonic wave, and a glue, which is not limited to the above.

In one embodiment, the fixed frame 26 is snap-fit to the main cover 12; and/or the main cover 12 and the connection fixing member 16 are fixed by screws.

In this embodiment, the fixing frame 26 may be mounted on the main cover 12 by screwing, and the screw mounting is relatively common, so that the mounting of the fixing frame 26 is relatively simple, and the screw mounting does not need to provide complex fasteners on the fixing frame 26 and the main cover 12, but only corresponding holes, so that the structures of the fixing frame 26 and the main cover 12 are relatively simple, and the processing difficulty of the fixing frame 26 and the decorative cover 14 is reduced. The main cover 12 and the connecting fixing piece 16 are also preferably fixed by screws in a relatively common and simple manner, so that the operation difficulty and the production and processing cost of products can be reduced. Of course, the main cover 12 and the connecting and fixing member 16 may be mounted and fixed by means of a snap fit, an adhesive, or the like.

In any of the above embodiments, the outside light 24 is mounted to the housing assembly by a double sided adhesive tape. Since the outer light emitting device 24 is not well perforated and has low strength, the outer light emitting device 24 is stuck by double-sided tape, and thus, holes or a buckle structure is not required to be provided on the outer light emitting device 24, thereby simplifying the structure of the outer light emitting device 24. Of course, the outer lighting device 24 may be fixedly mounted by other mounting means and the attachment fixture 16.

Wherein a to B to C in fig. 1 to 8 in the present application represent directions from the forehead to the cheek and then to the chin.

Example two

As shown in fig. 1 to 8, this embodiment further includes the following technical features: the far infrared heating layer further includes a fixing frame 26, and the fixing frame 26 is used for mounting the far infrared heating film 22. During installation, the far infrared heating film 22 can be firstly installed on the fixed frame 26, then the fixed frame 26 is fixedly installed on the shell component 1, and the far infrared heating film 22 is independently installed on the fixed frame 26 more conveniently than the far infrared heating film 22 is directly installed on the shell component 1, after all, the shell component 1 has more parts and is relatively inconvenient to operate. Therefore, by providing the fixing frame 26, the installation of the far infrared heating film 22 is facilitated, the installation convenience of the far infrared heating film 22 is improved, and the installation reliability of the far infrared heating film 22 on the housing assembly 1 is also improved.

Further, the fixing frame 26 can be detachably mounted on the housing assembly 1, and the fixing frame 26 and the far infrared heating film 22 can be independently replaced, so that the fixing frame 26 and the far infrared heating film can be maintained conveniently.

Further, the mask has different heating requirements corresponding to different parts of the face, for example, the cheek and chin do not have the same heating force requirements. Therefore, in the application, the far infrared heating layer and the outer side light-emitting device 24 are correspondingly arranged on different parts of the mask, so that different parts can be correspondingly heated through different far infrared heating layers and the outer side light-emitting devices 24, different parts of the face can be independently heated, and the regional heating control of the face is realized. For example, the forehead may be heated alone, or the cheek or chin may be heated alone. Of course, the different far infrared heating layers and the outside light emitting devices 24 may be controlled in combination. As shown in fig. 2 to 4, the zone heating structures of different parts are basically identical, that is, each zone heating structure comprises a fixing frame 26, a far infrared heating film 22 and an external light-emitting device 24, that is, for a chin area, each zone heating structure comprises a chin fixing frame, a chin far infrared heating film and a chin external light-emitting device, for a cheek area, each zone heating structure comprises a cheek fixing frame, a cheek far infrared heating film and a cheek external light-emitting device, and for a forehead area, each zone heating structure comprises a forehead fixing frame, a forehead far infrared heating film and a forehead external light-emitting device.

Further, as shown in fig. 1 to 4, the combination of the red light, near infrared light, and far infrared heat generating film 22 is divided into three regions, namely, a forehead region a, a cheek region B, and a chin region C. Wherein. The forehead area a includes a forehead area fixing frame 26, a forehead area far infrared heating film 22 of the forehead area a, a forehead area of the main cover 12, an FPC light board on the forehead area a, and a forehead area a on the connecting fixing member 16. Cheek region B includes a fixed frame 26 of cheek region B, a far infrared heat generating film 22 of cheek region B, cheek region of main cover 12, FPC light for cheek region B, and cheek region on attachment fixture 16. The chin area C includes a fixing frame 26 on the chin area C, a far infrared heating film 22 on the chin area C, a chin area on the main cover 12, and an FPC light board on the chin area C connected to the chin area on the fixing member 16. The far infrared heating film 22 and the FPC lamp board of the three subareas are connected to the main control board 4 of the mask through cables, and all the parts of the three different areas are assembled and fixed in the subareas. The red light, near infrared light and far infrared heating film 22 are combined and partitioned in three ways.

Example III

As shown in fig. 1 to 8, embodiment 3 of the first aspect of the present utility model provides a mask which differs from embodiment 1 and embodiment 2 in that the mask further comprises a skin proximity detector 3 as shown in fig. 3. The skin proximity detector 3 is mounted on an external light emitting device 24 in the chin area. Whether the mask is in contact with the skin can be detected by the skin proximity detector 3, so that it can be ensured that the mask is worn correctly, avoiding that the user does not use the mask as per the specifications. After all, the mask of the present application is specially provided with a far infrared heating layer and an outer side lighting device 24 corresponding to the forehead, cheeks and the like, if the mask is not worn normally, the corresponding part cannot be heated just, so that the efficacy of the mask is reduced. And whether the mask is worn correctly or not can be detected through the skin-approaching detector 3, so that the user can be reminded in time when the user is not wearing the mask normally.

In the above embodiment, as shown in fig. 5, the housing assembly 1 includes the main cover 12, the decorative cover 14 and the connecting fixing member 16, the main cover 12 is used as a frame of the mask, and is mainly used for forming different hollowed-out mounting areas for cheek chin, etc., and the fixing frames 26 at different positions are correspondingly mounted in the mounting areas, so that the far infrared heating film 22 can be correspondingly mounted on the main cover 12. As shown in fig. 7 and 8, a connecting and fixing member 16 (as shown in fig. 6) is provided between the decorative cover 14 and the main cover 12, and the connecting and fixing member 16 is mainly used for connecting the decorative cover 14 and the main cover 12, and supporting and mounting the external light emitting device 24, the nose pad 6, the eye mask 5, and other parts. This arrangement realizes the installation of the far infrared heating film 22 in different areas through the main cover 12, so that the far infrared heating film 22 is installed on the inner side of the whole shell assembly 1, thereby facilitating the nursing such as the heating of the skin through far infrared light. The decorative cover 14 can protect the internal parts, and can enhance the aesthetic property of the product and improve the use experience of the user. The main cover 12 and the connecting fixing member 16 are respectively provided with corresponding regions corresponding to different portions of the face, for example, the main cover 12 is provided with a cheek region B for the cheek, a chin region C for the chin, a forehead region a for the forehead, and similarly, the connecting fixing member 16 is correspondingly provided with a cheek region B, a chin region C and a forehead region a.

In the above embodiment, as shown in fig. 1 and 3, the mask further includes an eye mask 5 for covering eyes of the user to protect the eyes of the user from light, so that the user can relax to rest during the physiotherapy process by wearing the mask to enjoy the physiotherapy process. As shown in fig. 1 and 3, the mask further includes a nose pad 6 correspondingly disposed on the nose area of the housing assembly 1, fixedly mounted on the eye mask 5 and/or the connection fixing member 16, and capable of forming a space near the cheek through the nose pad 6, so as to facilitate the breathing of the user, and prevent the mask from being stuck on the cheek, thereby affecting the normal breathing of the user.

Further, the eye mask 5 is a silicone mask. The silica gel cover is common, so that the silica gel cover is better purchased, and the cost can be reduced. Further, the nose pad 6 is a metal nose pad, and the nose pad 6 made of metal materials is more reliable. Further, the nose pad 6 may be made of hardware. Further, the eye mask 5 and/or the nose pad 6 are snap-fitted to the connection fixture 16, or the eye mask 5 and/or the nose pad 6 are screw-fitted to the connection fixture 16. That is, the eyeshade 5 and/or the nose pad 6 may be mounted on the connection fixture 16 by means of screws or snaps, etc. to achieve a fixed mounting of the eyeshade 5 and/or the nose pad 6 on the connection fixture 16.

In any of the above embodiments, as shown in fig. 7 and 8, the decorative cover 14 is divided into an upper cover body and a lower cover body in the up-down direction, that is, the decorative cover 14 is divided into two parts in the height direction. In another embodiment (not shown), the decorative cover 14 is divided into a left cover body and a right cover body in the left-right direction. And the specific form of the decorative cover 14 may be set as desired. While the first cover 142 and the second cover 144 may be mounted to the connecting fixture 16 by screws, snaps, or glue.

In any of the above embodiments, the fixing frame 26 may be mounted on the main cover 12 by screwing, and the screw mounting is relatively common, so that the mounting of the fixing frame 26 is relatively simple, and the screw mounting does not require complex fasteners on the fixing frame 26 and the main cover 12, but only corresponding holes, so that the structures of the fixing frame 26 and the main cover 12 are relatively simple, and the processing difficulty of the fixing frame 26 and the decorative cover 14 is reduced. The main cover 12 and the connecting fixing piece 16 are also preferably fixed by screws in a relatively common and simple manner, so that the operation difficulty and the production and processing cost of products can be reduced. Of course, the main cover 12 and the connecting and fixing member 16 may be mounted and fixed by means of a snap fit, an adhesive, or the like.

In any of the above embodiments, the outside light 24 is mounted on the housing assembly 1 by double-sided adhesive tape. Since the outer light emitting device 24 is not well perforated and has low strength, the outer light emitting device 24 is stuck by double-sided tape, and thus, holes or a buckle structure is not required to be provided on the outer light emitting device 24, thereby simplifying the structure of the outer light emitting device 24.

Example IV

Embodiment 4 of the first aspect of the present utility model provides a mask, which is different from embodiments 1 to 3 in that the outside light emitting device 24 is an FPC board, that is, a flexible electric board. The flexible circuit lamp panel is adopted, so that the lamp panel can be partially deformed along with the structure of the mask, the lamp panel can be better fixed on the mask, and the position of the flexible circuit lamp panel can be adjusted and designed more conveniently.

Further, an LED lamp bead is disposed in the outer light emitting device 24, and the LED lamp bead can generate light with a wavelength of 640nm-2526 nm. That is, the outer lighting device 24 is an LED outer lighting device 24 because the LED beads are disposed therein. The mode can utilize the characteristic of energy conservation of the LEDs, reduce the energy consumption of the outer-side light-emitting device 24, and enable the product to be more energy-saving. The LED lamp beads can generate light with the wavelength of 660-850 nm, such as specific spectrum of 660-850 nm of red light and 850nm of near infrared light, so that the irradiation treatment course of controllable pulse irradiation is carried out on the facial region, the effects of exciting the activity of facial skin cells, promoting the generation of collagen and accelerating the healing of injury are achieved, and the effects of tightening, brightening, anti-wrinkle and anti-wrinkle can be brought by being matched with hyaluronic acid essence.

In any of the above embodiments, the far infrared heating film 22 is provided therein with a far infrared generating structure capable of generating light having a wavelength greater than 7.8 um.

In this embodiment, the mask can radiate far infrared light with specific spectrum, such as light greater than 7.8um, through the heating material in the far infrared heating film 22, so as to perform a controllable temperature illumination treatment course on a specific area of the face, and the mask can achieve the effects of deep heating, pore/capillary expansion, blood circulation promotion, tissue metabolism enhancement and healing regeneration capability by utilizing the strong skin penetration and remarkable heat conversion effect of the far infrared light, and can achieve the effect of improving the physiological state of the skin by matching with the moisturizing mask.

Further, the light transmittance of the far infrared heating film 22 is greater than or equal to 85%, so that the effect of heating the far infrared heating film 22 can be considered under the condition of small light loss of the LED and other external light-emitting devices, the combination of the two is realized, a better using effect is brought to a user, and the competitiveness of the product is improved.

Further, a certain distance between the far infrared heating film 22 and the outer side light emitting device 24, such as an LED lamp bead, is 2mm-15mm, such as 6mm, and the product thickness and the light transmission uniformity of the outer side light emitting device 24, such as an LED lamp bead, can reach an optimal balance point under the design. That is, the distance can ensure the transmittance of the outside light emitting device 24 and avoid the excessive thickness of the mask.

Wherein, the LED lamp beads on the FPC lamp panel of the forehead area A emit red light and near infrared light, and the red light and the near infrared light are uniformly transmitted through the astigmatism and the high light transmittance of the far infrared heating film 22 of the forehead area A. The LED lamp beads on the FPC lamp panel on the cheek region B emit red light and near infrared light, and the red light and the near infrared light are uniformly transmitted through the astigmatism and the high light transmittance of the far infrared heating film 22 on the cheek region B. The LED lamp beads on the FPC lamp panel on the chin area C emit red light and near infrared light, and the red light and the near infrared light are uniformly transmitted through the astigmatism and the high light transmittance of the far infrared heating film 22 on the chin area C. The combination mode can enable red light and near infrared light emitted by the LED lamp beads to transmit light energy to the skin of the surface layer of the face through the far infrared heating film 22 with the characteristics of astigmatism and high light transmittance, far infrared light waves can be emitted to the deep layer of the skin of the face by heating the far infrared heating film 22, and no obstruction exists between the far infrared heating film 22 and the face, so that the far infrared light radiation energy can be absorbed by the skin of the face to the maximum extent.

Further, under red light and near infrared light modes, the household red light cosmetic mask generates specific spectrums (such as 640-780 nm of red light wavelength and 780-2526 nm of near infrared light wavelength) through densely distributed LED lamp beads, further, for example, the red light wavelength is 660nm and the near infrared light wavelength is 850 nm) and performs controllable pulse irradiation illumination treatment course on the facial region, so that the face skin cell activation is achieved, the collagen generation is promoted, the injury healing is accelerated, and the effects of tightening, brightening, crease resistance and wrinkle removal are brought by being matched with hyaluronic acid essence.

As shown in fig. 1 to 8, an embodiment of a second aspect of the present utility model provides a mask assembly comprising: the mask provided by any of the embodiments of the first aspect and the controller 7 (as shown in fig. 2). A controller 7 is connected to the mask to control the operation of the mask. The controller 7 can control the far infrared heating film 22 and the outside light emitting device 24 to operate singly or in combination.

A mask assembly according to the present utility model is provided comprising a mask of the first aspect and a controller 7. Wherein the controller 7 is used to control the operation of the mask and to power the mask. Specifically, the controller 7 is configured to be communicatively connected to the main control board 4 of the mask, so as to send commands and data to the main control board 4 or receive commands and data fed back by the main control board 4.

Further, as shown in fig. 2, the controller 7 is a hand-held controller or a remote controller. The controller 7 is connected with the main control board 4 through a wire. Because the controller 7 can be operated well, either by hand or by remote control, the user experience is improved. In use, the mask may be controlled by the controller 7 to perform various functions.

In the above embodiment, the controller is capable of outputting a voltage of 7V to 8V to control the operation of the far infrared heat generating film 22 and the outside light emitting device 24.

In the above embodiment, the controller includes: the main control board 4 is connected with the outer side light-emitting device 24 and/or the far infrared heating film 22 to supply power to the outer side light-emitting device 24 and/or the far infrared heating film 22 and control the work of the outer side light-emitting device 24 and/or the far infrared heating film 22. I.e. the main control board 4 is arranged outside the mask.

In this embodiment, the main control board 4 is used to supply power to the outside light emitting device 24 and the far infrared heating film 22 and control the operation of the lamp panel and the far infrared heating film 22. For example, the instructions sent by the main control board 4 can control the on and off of the outer light-emitting device 24 and the far infrared heating film 22, so that different red light nursing modes can be realized.

The mask has a plurality of modes, such as can control the operation of at least one far infrared heating film 22 to achieve a far infrared care mode; and/or controlling the operation of at least one outside light 24 to achieve an infrared and/or near infrared light care mode; and/or controlling the at least one far infrared heating film 22 and the at least one outside light emitting device 24 to operate sequentially or cyclically alternately or one continuously, and the other intermittently, to achieve a combined far infrared, infrared and/or near infrared care mode.

Further, the at least one far infrared heating film 22 includes a chin far infrared heating film 22 disposed corresponding to the chin area C, a cheek far infrared heating film 22 disposed corresponding to the cheek area B, and a forehead far infrared heating film 22 disposed corresponding to the forehead area a, and the step of controlling the operation of the at least one far infrared heating film 22 includes: the forehead far infrared heating film 22, the cheek far infrared heating film 22 and the chin far infrared heating film 22 are controlled to sequentially and circularly work according to preset circulation steps until the total heating time length reaches the target time length, wherein the preset circulation steps are as follows: after the forehead far infrared heating film 22 is controlled to be heated to a first temperature, the cheek far infrared heating film 22 is controlled to be started to be heated for a first time, so that the forehead far infrared heating film 22 and the cheek far infrared heating film 22 stop heating; the chin far infrared heating film 22 is turned on to heat to the second temperature.

In this embodiment, the far infrared heating films 22 of different regions are sequentially operated when the far infrared heating film 22 is activated, regardless of the far infrared care mode or the combination care mode of the far infrared, infrared and/or near infrared light, so that deep skin irritation of different regions can be performed. And through the district heating successively, can ensure heating dynamics and heating position assorted to make the work of far infrared heating film 22 more reasonable healthy, both can avoid heating together like this, and lead to the stimulation too big, also can make different positions can be intermittently heated, in order to improve user's comfort experience degree. And the far infrared heating film 22 in different areas can be stopped after being circularly operated for a target time period (such as 300 s).

The installation between the various components of the present application is further described below. The installation steps are as follows:

1. as shown in fig. 7 and 8, the first cover 142 and the connection fixing member 16 are assembled, and screw-fixed through the second screw hole 168 on the connection fixing member 16 and the second screw hole 1422 on the first cover 142.

2. The second cover 144 and the connection fixing member 16 are assembled, and screw-fixed through the third screw post 1442 of the second cover 144 and the third screw hole 164 of the connection fixing member 16.

3. The eyeshade 5 and the connecting fixing piece 16 are assembled, and the protruding rib positions on the connecting fixing piece 16 are matched and fixed in a limiting mode through the grooves on the eyeshade 5.

4. The nose pad 6 is assembled to the eye mask 5, and the nose pad 6 is assembled to the connection fixture 16, and is screwed through the first screw hole 62 of the nose pad 6 and the first screw post 162 of the connection fixture 16.

5. As shown in fig. 1, the outer light emitting device 24 on the forehead area a is assembled to the connection fixture 16, and the back surface of the outer light emitting device 24 on the forehead area a is attached to the connection fixture 16 by double-sided adhesive tape. The outside light emitting device 24 on the cheek area B is fitted to the connection fixture 16, and the back surface of the outside light emitting device 24 on the cheek area B is attached to the connection fixture 16 by double-sided adhesive tape. The outer light emitting device 24 on the chin area C is assembled to the connection fixing member 16, and the back surface of the outer light emitting device 24 on the chin area C is attached to the connection fixing member 16 by double-sided adhesive tape. As shown in fig. 3, the external light emitting device 24 on the chin area C has a near skin detector thereon.

6. The main control board 4 is assembled to the connection fixing member 16, and the cables on the outer side light emitting devices 24 are connected to the main control board 4 through four screws.

7. As shown in fig. 1 and 2, the far infrared heating film 22 on the cheek region B is assembled to the fixing frame 26 on the cheek region B, and then assembled to the corresponding region of the main cover 12, and the first fastening hooks 262 on the fixing frame 26 on the cheek region B are fastened to the second fastening hooks 120 on the main cover 12. The first buckle 262 is a protruding structure, and the second buckle 120 is a slot structure. Further, as shown in fig. 1 and 2, the far infrared heating film 22 on the forehead area a is assembled to the fixing frame 26 on the forehead area a, and then assembled to the corresponding area of the main cover 12, and the first fastening buckle 262 on the fixing frame 26 on the forehead area a is fastened to the second fastening buckle 120 on the main cover 12. The far infrared heating film 22 on the chin area C is assembled to the fixing frame 26 on the chin area C, and then assembled to the corresponding area of the main cover 12, and the first buckle 262 on the fixing frame 26 on the chin area C is buckled with the second buckle 120 on the main cover 12.

8. As shown in fig. 5 and 6, the main cap 12 and the connection fixture 16 are assembled, and screw-fixed through the fourth screw hole 122 on the main cap 12 and the fourth screw post 166 on the connection fixture 16.

In the description of the present specification, the terms "connected," "mounted," "secured," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (11)

1. A mask, comprising:

the far infrared heating layer can emit far infrared light;

the outer light-emitting device is positioned outside the far infrared heating layer, and light emitted by the outer light-emitting device can penetrate through the far infrared heating layer to irradiate the inner side of the infrared heating layer.

2. The mask of claim 1 wherein the mask is configured to,

the far infrared heating layer comprises a far infrared heating film, and the light transmittance of the far infrared heating film is more than or equal to 85%.

3. The mask of claim 2 wherein the mask is configured to,

the far infrared heating layer and the outside light-emitting device are provided with a preset distance, and the preset distance is more than or equal to 2mm and less than or equal to 15mm.

4. The mask of claim 1 wherein the mask is configured to,

the outer light-emitting device comprises a flexible lamp panel or comprises an FPC lamp panel; and/or

The outside light-emitting device is internally provided with LED lamp beads, and/or the outside light-emitting device can generate light with the wavelength of 630nm-2526 nm; and/or

The infrared heating layer is internally provided with a far infrared generating structure, the far infrared generating structure can generate light with the wavelength larger than 7.8um, or the far infrared heating layer is internally provided with a metal oxide layer, and the metal oxide layer can generate light with the wavelength larger than 7.8 um.

5. The mask of claim 1 wherein the mask is configured to,

the light emitted by the outer light-emitting device comprises one or more of red light, near infrared light, blue light and orange light; and/or

The external light emitting device is capable of generating light having a wavelength of 630nm to 850 nm.

6. The mask according to any one of claims 1 to 4, wherein,

the far infrared heating layer comprises a far infrared heating film, a main cover and a fixed frame arranged on the main cover, and the far infrared heating film is arranged on the fixed frame;

the mask further comprises an outer layer component, wherein the outer layer component comprises the outer side luminous device and a connecting fixing piece arranged on the main cover, and the outer side luminous device is arranged on the connecting fixing piece.

7. The mask of claim 6 wherein the mask comprises,

the face mask also comprises a decorative cover which is arranged on the outer side of the outer layer component; and/or

The fixing frame is fixed on the main cover through one or more modes of buckling, hot melting, ultrasonic wave and glue adhesion.

8. The mask according to any one of claims 1 to 5, further comprising:

a housing assembly;

the far infrared heating layer comprises far infrared heating films, the number of the far infrared heating films and the number of the outer side light-emitting devices are one or more, one or more of the far infrared heating films and the outer side light-emitting devices are all installed on the shell component, and when the number of the far infrared heating films and the number of the outer side light-emitting devices are multiple, the far infrared heating films and the outer side light-emitting devices are correspondingly installed on multiple areas of the shell component respectively.

9. The mask according to any one of claims 1 to 5, further comprising:

and the skin-approaching detector is arranged corresponding to the chin area of the mask.

10. A mask assembly, comprising:

the mask of any one of claims 1 to 9;

a controller coupled to the mask to control operation of the mask;

wherein the controller is capable of controlling the far infrared heating layer and the outside light emitting device to operate alone and/or in combination.

11. The mask assembly according to claim 10, wherein,

the controller is a handheld controller or a remote controller; and/or

The controller comprises a main control board which is connected with the outer side light-emitting device and/or the far infrared heating layer to supply power to the outer side light-emitting device and/or the far infrared heating layer and control the outer side light-emitting device and/or the far infrared heating layer to work.

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