CN115382106A - Mask control method, mask control device, readable storage medium and mask - Google Patents

Abstract

The invention provides a mask control method, a mask control device, a readable storage medium and a mask, wherein the mask comprises at least one far infrared heating layer and at least one outer side light-emitting device, light emitted by the outer side light-emitting device can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer, and the mask control method comprises the following steps: controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode; and/or controlling at least one outer side light-emitting device to work so as to realize non-far infrared light nursing modes such as red light, near infrared light, blue light, orange light and the like; and/or controlling at least one far infrared heating layer and at least one outer side light-emitting device to work so as to realize the combined nursing mode of far infrared and non-far infrared light such as red light, near infrared light, blue light, orange light and the like, thus the product can realize various modes such as red light, near infrared light, far infrared light and the like, and the functions of the mask are more diversified.

Description

Mask control method, mask control device, readable storage medium and mask

Technical Field

The invention relates to the field of beauty masks, in particular to a mask control method, a mask control device, a readable storage medium and a mask.

Background

In the prior art, for a beauty mask, the LED is generally used for emitting red light and near infrared light separately to carry out facial beauty. And there is no cosmetic mask having a plurality of light sources including far infrared light at the same time. Therefore, the beauty mask of the prior proposal can not have a plurality of light source nursing modes including far infrared light at the same time, thereby leading to single function of the beauty mask.

Therefore, how to provide a cosmetic mask capable of integrating a plurality of lights including far infrared light for combined heating is a problem to be solved.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

It is therefore a first object of the present invention to provide a mask control method.

A second object of the present invention is to provide a mask control device.

A third object of the present invention is to provide a readable storage medium.

A fourth object of the present invention is to provide a mask.

The technical scheme of the first aspect of the invention provides a mask control method, wherein the mask comprises at least one far infrared heating layer and at least one outer side light-emitting device, and light emitted by the outer side light-emitting device can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer. The mask control method comprises the following steps: controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode; and/or controlling at least one outer side light-emitting device to work so as to realize a non-far infrared nursing mode; and/or controlling at least one far infrared heating layer and at least one outer side light-emitting device to work so as to realize a non-far infrared combined nursing mode.

According to the mask control method provided by the invention, a plurality of functional modes are provided, for example, a far infrared nursing mode can be realized by independently controlling at least one far infrared heating layer to work. The skin tendering and nursing modes of non-far infrared light such as red light, near infrared light, blue light, orange light and the like can be realized by independently controlling at least one outer side light-emitting device to work. Meanwhile, by controlling the action duration of non-far infrared light such as red light, near infrared light, blue light, orange light and the like, a quick skin tendering mode or a common skin tendering mode can be realized. And the infrared combination mode of far infrared and non-far infrared such as red light, near infrared light, blue light, orange light and the like can be realized by controlling the combination work of the outer side light-emitting device and the far infrared heating layer. The mask control method can realize different skin care functions, and solves the problems that the existing mask which only emits red light and near infrared light or only emits far infrared light can not fully meet the skin care requirements of users and has single function.

Further, the step of controlling the at least one far-infrared heating layer and the at least one outer side light-emitting device to work so as to realize the far-infrared and non-far-infrared combined nursing mode comprises the following steps: controlling at least one far infrared heating layer to work continuously or intermittently; controlling the at least one outer light emitting device to operate continuously or intermittently.

In this technical scheme, when infrared combination mode, control the far infrared earlier and generate heat the layer and generate heat to the far infrared light that the layer sent is generated heat to the far infrared can radiate the face skin deep earlier, carries out deep stimulation to face skin, so that can fully open the pore, improves face skin's activity, then produces ruddiness or near infrared light through outside illuminator, in order to further realize the nursing to skin.

In the above technical solution, the step of controlling the at least one far-infrared heating layer and the at least one outside light emitting device to work to realize the combined nursing mode of far-infrared and non-far-infrared includes: controlling at least one far infrared heating layer to work and at least one outer side light-emitting device to work alternately for one or more times.

In the technical scheme, the far infrared heating layer and the outer side light-emitting device work alternately. The work can be performed once or multiple times. The specific times and the working time of the far infrared heating layer and the outer side light-emitting device can be set according to the requirement. Wherein, can make far infrared heating layer work earlier, outside illuminator is back-working, also can be far infrared heating layer work later, outside illuminator works earlier.

In another technical scheme, the step of controlling at least one far infrared heating layer and at least one outer side light-emitting device to work so as to realize the combined nursing mode of far infrared and non-far infrared light such as red light, near infrared light, blue light, orange light and the like comprises the following steps:

and controlling at least one far infrared heating layer to continuously work and controlling at least one outer side light-emitting device to continuously or discontinuously work.

In another aspect, the step of controlling the at least one far infrared heating layer and the at least one outer side light emitting device to work to realize the far infrared and non-far infrared combined nursing mode comprises: and controlling at least one outer side light-emitting device to continuously work and controlling at least one far infrared heating layer to continuously or discontinuously work. Wherein, the start-stop time of at least one outer side luminous device and at least one far infrared heating layer can be consistent, and can also be intercrossed.

In the above technical solution, the step of controlling the at least one far infrared heating layer and the at least one outside light emitting device to work so as to realize the combined nursing mode of far infrared and non-far infrared light such as red light, near infrared light, blue light, orange light, and the like specifically includes: controlling at least one of the outer light-emitting devices to work in response to a combined starting instruction; and responding to a combined starting instruction, controlling at least one far infrared heating layer to work, and closing at least one far infrared heating layer after the at least one far infrared heating layer works for a first preset time.

In this technical scheme, a combined start instruction can be generated after a user presses a combined function key, and after receiving the combined start instruction, the outside light emitting device can be controlled to operate as required, for example, the outside light emitting device is controlled to operate from beginning to end, or the outside light emitting device is controlled to operate for a period of time first, and then the far infrared heating layer is turned on, or of course, the far infrared heating layer can be turned on first, and then the outside light emitting device is turned on. And for the far infrared heating layer, the first preset time duration of the work of the far infrared heating layer can be controlled firstly, and the time duration can be set according to different modes. After the first preset time, the far infrared heating layer can stop working. Namely, the far infrared heating layer is opened and closed at fixed time. The operation of the outer light emitting device is more arbitrary and can be set as required.

Specifically, the step of controlling the operation of at least one outside light-emitting device in response to the combined start instruction specifically includes: and responding to a combined starting instruction to start timing, controlling the at least one outer side light-emitting device to work after a first preset time period, and turning off the at least one outer side light-emitting device after the at least one outer side light-emitting device works for a second preset time period.

In the technical scheme, a combined starting instruction can be generated after a user presses a combined function key, after the combined starting instruction is received, the far infrared heating layer can be controlled to work for a first preset time length firstly, then the outer side light-emitting device works for a second preset time length, and the time length can also be set according to different modes. This kind of mode can make far infrared generate heat layer and outside illuminator fore-and-aft work, and operating time is not crisscross to this just can avoid outside illuminator and far infrared to generate heat layer mutual interference, ensures user experience. Further, the mask control method further comprises: and generating a completion instruction after the at least one outer side light-emitting device is turned off for a third preset time, and performing completion reminding.

In the technical scheme, after the outside light-emitting device is turned off, the reminding is not completed immediately, but is performed for a while, so that the skin can be nursed by utilizing the residual heat.

In the technical scheme, the combined starting instruction is responded, at least one outer side light-emitting device and/or at least one far infrared heating layer are controlled to work, timing is carried out after the work of the at least one far infrared heating layer is finished, a finishing instruction is generated when the timing is carried out to a third preset time, and finishing reminding is carried out.

In the technical scheme, after the work of the external light-emitting device and the far infrared heating layer is finished, the reminding is not immediately finished, but the reminding is carried out for a period of time, so that the skin can be nursed by utilizing the residual heat. For example, in the far infrared nursing mode, after the far infrared heating layer stops working for a third preset time, a completion instruction is generated, and a completion prompt is performed.

Further, in the non-far-infrared light nursing mode such as red light, near-infrared light, blue light, orange light and the like, a completion instruction can be generated and a prompt can be completed after the external light-emitting device stops working for a third preset time. Meanwhile, in a combined nursing mode of non-far infrared light such as far infrared light, red light, near infrared light, blue light, orange light and the like, a completion instruction can be generated and a prompt can be completed after the far infrared heating layer stops not being started for a third preset time.

Further, at least one far infrared generates heat the layer including the chin far infrared that corresponds the regional setting of chin generate heat the layer, correspond the cheek far infrared that the regional setting of cheek generate heat the layer and correspond the forehead far infrared that the forehead region set up and generate heat the layer, and the step of controlling at least one far infrared and generating heat the layer work includes: the far infrared layer that generates heat of control forehead portion, cheek far infrared generate heat the layer and the chin far infrared generate heat the layer according to preset the circulation step in proper order and circulate work when reaching the target when total heating is long, and preset the circulation step and do: after the forehead far infrared heating layer is controlled to be heated to a first temperature, the cheek far infrared heating layer is controlled to be started to be heated for a first time period, and then the forehead far infrared heating layer and the cheek far infrared heating layer are stopped to be heated; and opening the chin far infrared heating layer to heat to a second temperature.

In the technical scheme, no matter in a far infrared nursing mode or a combined nursing mode of non-far infrared light such as far infrared light, red light, near infrared light, blue light, orange light and the like, when the far infrared heating layer is started, the far infrared heating layers in different areas sequentially work, so that deep stimulation can be carried out on the skin in different areas. And successively heat through the subregion, can ensure that the heating dynamics matches with heating portion phase to make the work on far infrared heating layer reasonable more healthy, both can avoid heating together like this, and lead to amazing too big, also can make different positions can discontinuously by the heating, with the comfortable experience degree that improves the user. And the far infrared heating layers in different areas can stop after working circularly for a target time (such as 300 s).

Further, the at least one lateral light-emitting device includes at least one of a lateral chin light-emitting device disposed corresponding to the chin region, a lateral cheek light-emitting device disposed corresponding to the cheek region, and a lateral forehead light-emitting device disposed corresponding to the forehead region, and the step of controlling the at least one lateral light-emitting device to operate includes: controlling the synchronous operation of the lateral chin light-emitting device, the lateral cheek light-emitting device and the lateral forehead light-emitting device.

In the technical scheme, no matter the outer side light-emitting devices are controlled to work independently, the non-far infrared light nursing modes such as red light, near infrared light, blue light and orange light are realized, or the non-far infrared light combined nursing modes such as far infrared light, red light, near infrared light, blue light and orange light are realized, the outer side light-emitting devices in different areas generally work simultaneously, because the outer side light-emitting devices are far away from the skin, the stimulation of the outer side light-emitting devices is soft, the work can save time and improve the skin nursing efficiency.

The technical scheme of the second aspect of the invention provides a mask control device, which is used for a mask, wherein the mask comprises at least one far infrared heating layer and at least one outer side light-emitting device, light emitted by the outer side light-emitting device can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer, and the mask control device comprises: the first control module is used for controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode; and/or the second control module is used for controlling at least one outer side light-emitting device to work so as to realize a non-far infrared nursing mode; and/or the third control module is used for controlling the at least one far infrared heating layer and the at least one outer side light-emitting device to work so as to realize a far infrared and non-far infrared combined nursing mode.

According to the mask control device provided by the invention, a plurality of functional modes are provided, for example, a far infrared nursing mode can be realized by independently controlling at least one far infrared heating layer to work. The operation of at least one outer side light-emitting device is independently controlled, and the skin tendering and nursing modes of non-far infrared light such as red light, near infrared light, blue light, orange light and the like can be realized. Meanwhile, by controlling the action duration of non-far infrared light such as red light, near infrared light, blue light, orange light and the like, a quick skin tendering mode or a common skin tendering mode can be realized. And the infrared combination mode of far infrared and non-far infrared such as red light, near infrared light, blue light, orange light and the like can be realized by controlling the combination work of the outer side light-emitting device and the far infrared heating layer. The mask control method can realize different skin care functions, and solves the problems that the existing mask with single red light and near infrared light or only far infrared light for heating cannot fully meet the skin care requirements of users and has single function.

Further, the third control module is used for controlling at least one far infrared heating layer and at least one outer side light-emitting device to work, and when realizing the far infrared and non-far infrared combined nursing mode, the third control module is specifically used for: controlling at least one far infrared heating layer to work continuously or intermittently; controlling the at least one outer light emitting device to operate continuously or intermittently.

In this technical scheme, when infrared combination mode, control the far infrared earlier and generate heat the layer and generate heat to the far infrared light that the layer sent is generated heat to the far infrared can radiate the face skin deep earlier, carries out deep stimulation to face skin, so that can fully open the pore, improves face skin's activity, then produces ruddiness or near infrared light through outside illuminator, in order to further realize the nursing to skin.

In the above technical solution, the step of controlling the at least one far-infrared heating layer and the at least one outer-side light emitting device to work to realize the combined nursing mode of far-infrared and non-far-infrared specifically comprises: responding to a combined starting instruction, controlling at least one far infrared heating layer to work, and closing at least one far infrared heating layer after the at least one far infrared heating layer works for a first preset time; and after the at least one outer side light-emitting device works for a second preset time, the at least one outer side light-emitting device is turned off.

In the technical scheme, the combined starting instruction can be generated after a user presses the combined function key, and after the combined starting instruction is received, the far infrared heating layer can be controlled to work for a first preset time length, and the time length can be set according to different modes. After the first preset time, the far infrared heating layer can stop working, and then the outer side light-emitting device works for a second preset time, wherein the time can be set according to different modes. This kind of mode can make far infrared generate heat layer and outside illuminator fore-and-aft work, and operating time is not crisscross to this just can avoid outside illuminator and far infrared to generate heat layer mutual interference, ensures user experience.

Further, the mask control method further comprises: and generating a completion instruction after the at least one outer side light-emitting device is turned off for a third preset time, and performing completion reminding.

In the technical scheme, after the outside light-emitting device is turned off, the reminding is not completed immediately, but is performed for a while, so that the skin can be nursed by utilizing the residual heat.

In the technical scheme, the combined starting instruction is responded, the work of at least one outer side light-emitting device and/or at least one far infrared heating layer is controlled, and after the work of at least one outer side light-emitting device and/or at least one far infrared heating layer is completed, a completion instruction is generated from the time to a third preset time and is used for completing reminding.

In this technical scheme, do not accomplish immediately after the work of luminescent device, far infrared heating layer in the outside is accomplished and remind, but wait a period of time and be reminding to this can utilize the waste heat to nurse skin. For example, in the far infrared nursing mode, after the far infrared heating layer stops working for a third preset time, a completion instruction is generated and a prompt is completed, and in the non-far infrared nursing mode such as red light, near infrared light, blue light, orange light and the like, after the external light-emitting device stops working for the third preset time, a completion instruction is generated and a prompt is completed. And in a combined nursing mode of non-far infrared light such as far infrared light, red light, near infrared light, blue light, orange light and the like, after the far infrared heating layer and the outer side light-emitting device are stopped for a third preset time period which is not started, a completion instruction is generated, and the completion reminding is carried out.

Further, at least one far infrared layer that generates heat includes that the chin far infrared that corresponds the regional setting of chin generates heat the layer, corresponds the cheek far infrared that the cheek region set up and generates heat the layer and correspond the forehead far infrared that the forehead region set up and generate heat the layer. First control module, third control module are used for controlling at least one far infrared layer during operation that generates heat, specifically are used for controlling the forehead far infrared layer that generates heat, the cheek far infrared layer that generates heat and chin far infrared layer that generates heat and according to predetermineeing the cyclic step and circulate work in proper order and reach the target length of time when total heating is long, predetermine the cyclic step and be: after the forehead far infrared heating layer is controlled to be heated to a first temperature, the cheek far infrared heating layer is controlled to be started to be heated for a first time period, and then the forehead far infrared heating layer and the cheek far infrared heating layer are stopped to be heated; and opening the chin far infrared heating layer to heat to a second temperature.

In the technical scheme, in a far infrared nursing mode or a combined nursing mode of far infrared light, red light, near infrared light, blue light, orange light and other non-far infrared light, when the far infrared heating layer is started, the far infrared heating layers in different areas work in sequence, so that deep stimulation can be carried out on the skin in different areas. And successively heat through the subregion, can ensure that the heating dynamics matches with heating portion phase to make the work on far infrared heating layer reasonable more healthy, both can avoid heating together like this, and lead to amazing too big, also can make different positions can discontinuously by the heating, with the comfortable experience degree that improves the user. And the far infrared heating layers in different areas can stop after working circularly for a target time (for example, 300 s).

Further, the at least one outer side light-emitting device comprises at least one of a chin outer side light-emitting device arranged corresponding to the chin area, a cheek outer side light-emitting device arranged corresponding to the cheek area, and a forehead outer side light-emitting device arranged corresponding to the forehead area, and the second control module controls the at least one outer side light-emitting device to work so as to specifically control the chin outer side light-emitting device, the cheek outer side light-emitting device, and the forehead outer side light-emitting device to work synchronously when non-far infrared light nursing modes such as red light, near infrared light, blue light, orange light and the like are realized.

In the technical scheme, no matter the outer side light-emitting devices are controlled to work independently, the non-far infrared light nursing modes such as red light, near infrared light, blue light and orange light are realized, or the non-far infrared light combined nursing modes such as far infrared light, red light, near infrared light, blue light and orange light are realized, the outer side light-emitting devices in different areas generally work simultaneously, because the outer side light-emitting devices are far away from the skin, the stimulation of the outer side light-emitting devices is soft, the work can save time and improve the skin nursing efficiency.

An aspect of the third aspect of the present invention provides a readable storage medium on which a program or instructions are stored, which program or instructions, when executed by a processor, implement the steps of the mask control method provided in any one of the aspects of the first aspect.

According to the readable storage medium provided by the invention, the mask control method provided by any technical scheme of the third aspect is included. Therefore, the readable storage medium has all the advantages of the mask control method provided in any one of the technical solutions of the third aspect, and is not described herein again.

An aspect of the fourth aspect of the present invention provides a mask, including the mask control device according to any one of the second aspect or the readable storage medium according to any one of the third aspect.

According to the mask provided by the invention, the mask control device provided by the technical scheme of the second aspect or the readable storage medium provided by the technical scheme of the third aspect is included. Therefore, the mask has all the advantages of the mask control device provided in any one of the second aspect or the readable storage medium provided in any one of the third aspect, and details are not repeated here.

The technical solution of the fifth aspect of the present invention provides a mask, comprising: a housing assembly; the far infrared heating layer is arranged on the inner side of the shell component; the outer side light-emitting device is arranged on the shell component and is positioned on the outer side of the far infrared heating layer, and 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; and the mask control device provided in any claim of the second aspect or the readable storage medium provided in any claim of the third aspect.

The mask provided by the technical scheme of the invention comprises a far infrared heating layer and an outer side light-emitting device. The far infrared heating layer is positioned on the inner side of the outer side light-emitting device, and far infrared light emitted by the far infrared heating layer can directly act on the face of a human body, so that the face of the human body can be beautified, beautified and the like, and the effect of improving the skin quality and the like is achieved. The outer side light emitting device is located on the outer side of the far infrared heating layer and 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, the blue light, the orange light and the like can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer, so that the far infrared heating layer acts on the face of a human body, the face of the human body is nursed, and the effects of improving the skin quality and the like are achieved. This kind of scheme has still set up the far infrared layer that generates heat through set up the outside illuminator that is used for sending red light and/or near infrared light on the face guard simultaneously to this just can be used for nursing facial skin through the combination of ruddiness, near infrared light and blue light, orange light etc. and far infrared light and improve, thereby widen the function of face guard, improved the physiotherapy effect of face guard. Also this application is through ruddiness, near infrared light and blue light, the integrative design of outside light + far infrared light such as orange light, the many-sided demand of user skin nursing has been satisfied, current single red light and near infrared light have been solved, or only the face guard that far infrared light generates heat, the demand that can not fully satisfy user skin nursing, the problem that the function is more single, and far infrared light is because its penetrating power is stronger, can act on the skin deep layer, consequently through its cooperation with ruddiness and/or near infrared light, can effectively improve cosmetic effect. Simultaneously, through the combination mode on outside illuminator and far infrared heating layer, can let the ruddiness that outside illuminator sent and near infrared light transmit light energy to face top layer skin through the far infrared heating layer that has astigmatism and high luminousness characteristic, reduced the loss of the light that outside illuminator sent. Meanwhile, the far infrared heating layer can emit far infrared light waves to radiate deep layers of human face skin, and the far infrared heating layer is not separated from the human face, so that far infrared light radiation energy can be absorbed by the human face skin to the maximum extent, and the effect of beautifying the human face is achieved. Meanwhile, the mask comprises the mask control device provided by any one of the technical schemes of the second aspect or the readable storage medium provided by any one of the technical schemes of the third aspect. Therefore, the mask has all the advantages of the mask control device provided in any one of the second aspect or the readable storage medium provided in any one of the third aspect, and details are not repeated here.

Further, the far infrared heating layer comprises a far infrared heating film. That is, the main luminous structure of the far infrared heating layer is in a film shape, and the luminous structure can enable the light to be more uniform. Of course, the light-emitting structure of the far infrared heating layer can also be a structure such as a light-emitting lamp bead. Structure of far infrared heating film

The light transmittance is good, the light emitted by the outer side light-emitting device is not easy to be blocked, and the normal work of the outer side light-emitting device is ensured.

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

Further, far infrared generates heat layer luminousness more than or equal to 85% to this can compromise the effect that the far infrared generates heat the layer and generates heat under the less condition of light loss to outside light emitting device such as LED, realizes both and uses jointly, brings better result of use for the user, promotes the competitiveness of product.

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

In this technical scheme, outside illuminator and far infrared generate heat between the layer not laminate completely, have certain distance of predetermineeing, this kind of setting can ensure that the light that outside illuminator sent can see through the far infrared layer that generates heat comparatively evenly, the printing opacity homogeneity that makes between the different lamp pearls of outside illuminator can reach an optimum balance point, also set up luminousness and the printing opacity effect that can ensure the lamp source apart from predetermineeing, the light of ensuring the lamp source can comparatively evenly be used human face.

Further, the preset distance is larger than or equal to 2mm and smaller than or equal to 15mm, and further is 6mm, and the product thickness and the outer side light-emitting device, such as the light transmission uniformity of the LED lamp beads, can reach an optimal balance point. The distance can ensure the light transmittance of the lamp source and avoid the overlarge thickness of the mask.

Further, the outside illuminator includes flexible lamp plate. The flexible lamp panel makes the structure that outside illuminator can adapt to the face guard better warp.

Further, the outer side light emitting device includes an FPC lamp panel, that is, a flexible circuit lamp panel. And adopt the flexible circuit lamp plate to make the lamp plate can carry out the part along with the structure of face guard and warp to this makes the lamp plate can be fixed better on the face guard, also more conveniently adjusts the position of design flexible circuit lamp plate.

Furthermore, an LED lamp bead is arranged in the outer side light-emitting device. Further, the outer light emitting device is capable of generating light having a wavelength of 620nm to 1000 nm. Further, the outer light emitting device is capable of generating light having a wavelength of 620nm to 850 nm. That is, the outer side light-emitting device is of an LED structure, and the LED lamp beads are arranged in the outer side light-emitting device. The mode can utilize the energy-saving characteristic of the LED, reduce the energy consumption of the outer side light-emitting device and enable the product to be more energy-saving. The LED lamp beads can generate light with the wavelength of 620-850 nm, such as specific spectrums of red light 660nm and near infrared light 850nm, so that the illumination treatment course of controllable pulse type irradiation is carried out on the face area, the activity of facial skin cells is excited, the generation of collagen is promoted, and the injury healing is accelerated. Meanwhile, hyaluronic acid essence can be used in a matching manner, so that the effects of tightening, brightening, resisting wrinkles and removing wrinkles are achieved.

The invention comprises a design integrating far infrared light such as red light, near infrared light and the like, can meet the requirements of users in various aspects of skin care, and the prior art on the market at present has the function of heating only by the far infrared light or single red light and near infrared light, and can not fully meet the requirements of the users of skin care. Under the red light and near infrared light modes, the household red light beauty mask generates specific spectrum through the densely distributed LED lamp beads to carry out controllable pulse type irradiation on the facial area for an illumination course, so that the activity of the facial skin cells is excited, the generation of collagen is promoted, and the injury healing is accelerated. Meanwhile, hyaluronic acid essence can be used in combination, so that the effects of tightening, brightening, resisting wrinkles and removing wrinkles are achieved.

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

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

Further, be provided with metal oxide layer in the far infrared heating layer, metal oxide layer can produce the light that the wavelength is greater than 7.8 um. After the far infrared heating layer is electrified, the metal oxide layer is equivalent to a resistor, and the far infrared heating layer can generate far infrared light after being heated.

Further, the light emitted from the outer 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, the near infrared light wave band is 850nm, the blue light wave band is 420nm-470nm, and the orange light wave band is 590nm-610nm. The red light and near infrared light effect has the effects of exciting the activity of facial skin cells, lightening pigments, promoting the generation of collagen and accelerating the healing of injury. The blue light can control oil and acne, promote cell growth, and repair inflammatory cancer-control aged skin and allergic skin. The orange light wave band can supplement cell energy, strengthen muscle, improve relaxation, and smooth and tender skin.

In the above technical solution, the mask further includes: a main cover; the far infrared heating layer comprises a far infrared heating film 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 assembly, the outer layer assembly 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 the technical scheme, the face mask mainly comprises an inner layer structure and an outer layer structure, wherein the inner layer structure mainly comprises a far infrared heating layer, a main cover and a fixing frame and is a 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 outer layer functional layers of 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 method comprises the following steps: the main lid is as the skeleton of face guard, and its mainly used forms different fretwork installing zones to cheek chin etc. and the fixed frame correspondence at different positions is installed in the installing zone to this alright with far infrared heating layer correspondence install on the main lid. A connecting and fixing piece is arranged between the outer cover and the main cover and is mainly used for connecting the outer cover and the main cover and supporting and installing parts such as an outer side light-emitting device, a nose support and an eye mask. This kind of setting has realized the installation on the layer that generates heat of the far infrared of different regions through the main lid to this generates heat the layer with the far infrared and has installed the inboard at whole casing assembly, thereby has made things convenient for nursing such as heating skin through the far infrared light.

Wherein, for the face guard of subregion setting, the main lid all is provided with corresponding region with the different positions that connect the mounting and correspond the face, for example, the main lid is provided with cheek region to the cheek, is provided with chin region to the chin, is provided with forehead region to the forehead, and in the same way, also correspond on the connection mounting and be provided with cheek region, chin region and forehead region.

Further, the fixing frame can be fixed on the main cover by one or more of a buckle, hot melting, ultrasonic wave and glue, and certainly not limited to the above.

In the above technical solution, the mask further includes an outer cover installed at an outer side of the outer layer assembly. The outer cover serves as an outer cover to protect parts inside the outer cover, 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: the far infrared heating layer and the outer side light-emitting device are both arranged on the shell component; the far infrared heating layers and the outer side light-emitting devices are multiple, and the far infrared heating layers and the outer side light-emitting devices are installed on multiple regions of the shell assembly in one-to-one correspondence.

In the technical scheme, one or more areas can be arranged on the shell component, and a corresponding far infrared heating layer and an outer side light-emitting device are arranged on each area. That is, when the shell component is not designed in a partition mode, the far infrared heating layer and the outer side light-emitting device cover the whole face mask. And when the shell assembly is arranged in a subarea manner, the far infrared heating layer and the outer side light-emitting device are also arranged in a subarea manner, so that subarea heating can be realized. That is, the heating power of the cheek and the chin is not exactly the same, because the mask has different heating requirements corresponding to different parts of the face. Therefore, in the application, all correspond to the different positions to the face guard and set up far infrared layer and the outside illuminator that generates heat, generate heat layer and outside illuminator alright correspond the different positions of heating through the far infrared of difference like this for the different positions homoenergetic of face heats alone, has realized facial subregion heating control with this. For example, the forehead alone, or the cheeks or chin alone may be heated. Of course, different far infrared heating layers and outer side light-emitting devices can be combined and controlled in a unified mode.

Furthermore, the far infrared heating layer also comprises a fixing frame, and the far infrared heating film is installed on the shell component through the fixing frame.

In the technical scheme, the fixing frame is used for installing the far infrared heating film. During the installation, can install far infrared heating film on fixed frame earlier, then with fixed frame fixed mounting on casing subassembly, and install far infrared heating film alone on fixed frame than direct with far infrared heating film install on casing subassembly convenient many, after all, casing subassembly goes up spare part more, operates inconvenient relatively. Therefore, the fixing frame is arranged, so that the far infrared heating film can be conveniently installed, the installation convenience of the far infrared heating film is improved, and the installation reliability of the far infrared heating film on the shell assembly is also improved. Furthermore, the fixing frame is provided with a mounting hole, and far infrared light emitted by the far infrared heating film can be emitted through the mounting hole of the fixing frame, so that the fixing frame is arranged around the far infrared heating film, and the far infrared heating film is fixed and protected.

Further, the fixed frame can be detachably installed on the shell assembly, and the fixed frame and the far infrared heating film can be independently replaced through the arrangement, so that the maintenance of the fixed frame and the far infrared heating film is facilitated.

In the technical scheme, the mask has different heating requirements corresponding to different parts of the face, for example, the heating force requirements of the cheeks and the chin are not the same. Therefore, in the application, the far infrared heating layer and the outer side light-emitting device are correspondingly arranged at different positions of the mask, and the different far infrared heating layers and the different outer side light-emitting devices can be combined and controlled in a unified manner. The structures of the far infrared heating layer and the outer side light-emitting device in different areas are basically the same, for example, the different areas comprise a fixing frame, a far infrared heating film and an outer side light-emitting device. Simultaneously, this application has divided into the mode including three region with the compound mode of ruddiness, near-infrared light and far infrared heating film, and three subregion is the forehead region respectively, the cheek region, the chin region. Wherein. The forehead region comprises a forehead region fixed frame, a forehead region far infrared heating film, a main cover forehead region, a forehead region FPC lamp panel and a forehead region connecting part. The cheek area comprises a cheek area fixing frame, a cheek area far infrared heating film, a main cover cheek area, a cheek area FPC lamp panel and a cheek area connected with the fixing piece. The chin area comprises a chin area fixing frame, a chin area far infrared heating film, a main cover chin area, a chin area FPC lamp panel and a chin area connecting fixing piece. The far infrared heating film and the FPC lamp panel of these three subregion pass through the cable and are connected to the main control board of face guard, like above each part subregion assembly of three different regions is fixed. The red light, the near infrared light and the far infrared heating film are combined and partitioned in three modes.

Wherein, generally speaking, far infrared heating film self is less along 3D dysmorphism curved surface deformation. Therefore, after the far infrared heating film is assembled on the face mask, the far infrared heating film cannot be well attached to the 3D special-shaped curved surface of the face mask, and the design of the appearance of the face mask can be greatly limited. Meanwhile, the whole far infrared heating film has a longer heating time to the heating temperature of the mask due to overlarge area, and the mask needs larger power and generates heat unevenly. And in this application, adopt the subregion design with far infrared heating film for every far infrared heating film's after the subregion area is all on the small side, and far infrared heating film itself just can multi-direction flexonics like this, the radian of laminating face guard outward appearance dysmorphism curved surface that can be better, has reduced the radian defect that 2D planar film can not better laminate 3D dysmorphism curved surface face guard outward appearance to the at utmost, and the effectual design space that can promote face guard outward appearance design has promoted face guard appearance aesthetic property. Simultaneously, because the subregion heating, so can the heating of list membrane, single mould to this has just reduced the power of face guard, has promoted the efficiency that far infrared heating film generates heat, has ensured the homogeneity that generates heat of face guard, thereby just solved the defect that the far infrared heating film of 2D curved surface can not the secondary operation become the 3D dysmorphism curved surface of similar people's face, and the maximize is avoided the limitation of the far infrared heating film self of 2D curved surface and is caused the restriction influence to the face guard outward appearance.

Wherein, LED lamp pearl on the regional FPC lamp plate of forehead sends red light and near infrared light, and through astigmatic and the high luminousness characteristic of the regional far infrared heating film of forehead, more even red light and near infrared light of permeating through. LED lamp beads on the FPC lamp panel in the cheek area emit red light and near infrared light, and the red light and the near infrared light are uniformly transmitted through the light scattering and high light transmittance characteristics of the far infrared heating film in the cheek area. LED lamp pearl on the regional FPC lamp plate of chin sends red light and near infrared light, astigmatism and the high light transmittance characteristic through the regional far infrared heating film of chin, the more even red light and near infrared light of permeating through. This kind of combination mode can let the ruddiness and the near infrared light that LED lamp pearl sent transmit light energy to people's face top layer skin through the far infrared heating film that has astigmatism and high luminousness characteristic, and far infrared heating film heating can send far infrared light wave radiation to people's face skin deep layer, and does not have the separation between the relative people's face of far infrared heating film, and the advantage is that far infrared ray radiation energy can the maximize by people's face skin absorption.

In the above technical solution, the mask further includes: a skin proximity detector disposed corresponding to a chin region of the mask. In particular, the skin proximity detector may be mounted on an external light emitting device in the chin region.

In this solution, the mask further comprises a near-skin detector. The skin proximity detector may be mounted in particular on the outer light emitting means of the chin region. Whether the mask contacts the skin can be detected through the skin proximity detector, so that whether the mask is worn correctly can be ensured, and the condition that a user does not use the mask according to the standard is avoided. After all, the mask is specially provided with the far infrared heating layer and the outer side light-emitting device corresponding to the cheeks, the forehead and the like, if the mask is worn out of specification, the corresponding part cannot be heated, and therefore the efficacy of the mask can be reduced. Whether the mask is worn correctly or not can be detected through the near-skin detector, and the user can be reminded in time when the user wears the mask in an irregular manner.

In the above technical solution, the mask further includes: and the main control board 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.

In this technical scheme, the face guard still includes the main control board, and the main control board is used for heating up the work on layer power supply and controlability lamp plate and far infrared heating layer with outside illuminator and far infrared. For example, the opening and closing of the outer side light-emitting device and the far infrared heating layer can be controlled through the instruction sent by the main control panel, 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 is fixedly arranged on the connecting and fixing piece; the nose support is correspondingly arranged in the nose area of the shell assembly and is 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, so that the user can relax the rest wearing the in-process that the face guard carries out the physiotherapy, in order to enjoy the physiotherapy process. Of course, the eye mask may also have a certain power supply for eye care. The nose support is correspondingly arranged on the cheek area of the shell component and is fixedly arranged on the eye mask and/or the connecting fixing piece, and a space can be formed near the cheek through the nose support, so that the user can conveniently breathe, and the influence on the normal breathing of the user caused by the fact that the face mask is attached to the cheek is avoided. Of course, the nose pad can also have a certain function of nursing the nose.

Further, the eye cover is a silica gel cover. Silica gel eyeshade is more common, so better purchase to this can reduce cost. Furthermore, the nose support is a metal nose support, and the nose support made of metal materials is more reliable. Further, the nose pads may be made of hardware. Further, the eye mask and/or the nose support are/is arranged on the connecting fixing piece in a buckling mode, or the eye mask and/or the nose support are/is arranged on the connecting fixing piece through screws. That is, the eye mask and/or the nose support can be arranged on the connecting fixing piece through screws or buckles and the like, so that the eye mask and/or the nose support can be fixedly arranged on the connecting fixing piece.

In the above technical solution, the outer cover includes 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 and fixing member.

In this technical scheme, the enclosing cover includes first lid and second lid, all fixes on connecting the mounting. That is, the outer cover is a split structure and is not an integrated structure. The arrangement can divide the outer cover into a plurality of parts to be separately installed, so that a part of the outer cover can be installed, and the outer cover can be conveniently installed on the connecting and fixing piece.

In any of the above technical solutions, the first cover body and the second cover body are disposed up and down or left and right; the first cover body and the second cover body are detachably mounted on the connecting and fixing part through the buckle structures respectively, or the first cover body and the second cover body are mounted on the connecting and fixing part through screws respectively.

In this technical solution, the outer lid may be divided into an upper lid body and a lower lid body along the upper and lower directions, that is, the outer lid is divided into two parts along the height direction. Of course, the outer lid may be divided into left and right lid bodies in the left-right direction. And the specific form of the outer cover can be set as required. And when first lid and the installation of second lid, accessible screw, buckle or gluing etc. common mode are installed on connecting the mounting.

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

In this technical scheme, the mode that fixed frame accessible was beaten the screw is installed on the main lid, and the mounting screw is more common for the installation of fixed frame is fairly simple, and the mounting screw, need not cover at fixed frame and main and set up complicated buckle, only need set up the hole that corresponds, consequently, makes the structure of fixed frame and main lid comparatively simple, therefore has reduced the processing degree of difficulty of fixed frame and enclosing cover. The main cover and the connecting and fixing piece are preferably fixed by a common and simple mode of a screw, so that the operation difficulty and the production and processing cost of the product can be reduced. Of course, the main cover and the connecting fixing piece can be installed and fixed by means of buckles or glue or the like.

In any of the above technical solutions, the outside light emitting device is mounted on the housing assembly by double-sided adhesive tape. Because the outside light emitting device is not easy to punch and has lower strength, the double-sided adhesive tape is used for pasting, so that holes or buckle structures do not need to be arranged on the outside light emitting device, and the structure of the outside light emitting device is simplified. Of course, the outer light emitting device can be fixedly installed by other installation methods and connecting and fixing pieces.

In any of the above technical schemes, the shell component is a 3D special-shaped curved surface, and/or the far infrared heating layer is a 2D curved surface. Further, the appearance of face guard in this application is 3D dysmorphism curved surface, further is the 3D dysmorphism curved surface similar with the people's face to make the face guard can with the better matching of people's face. And the far infrared of integrated far infrared radiation material generates heat the layer and be the 2D plane, and it has certain thickness, nevertheless owing to adopted the subregion design, so makes the far infrared generate heat the layer also can with the reliable laminating of face guard casing.

In the above technical scheme, the control device can output 7V to 8V voltage to control the work of the far infrared heating layer and the outer side light-emitting device.

In the above technical solution, the manipulation device includes: and the main control board 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. I.e. the main control panel is arranged outside the mask.

In this technical scheme, the main control board is used for heating up the work on layer and controlability lamp plate and far infrared heating up with outside illuminator and far infrared heating up the power supply. For example, the opening and closing of the outer side light-emitting device and the far infrared heating layer can be controlled through the instruction sent by the main control panel, so that different red light nursing modes can be realized.

Further, at least one far infrared generates heat the layer including the chin far infrared that corresponds the regional setting of chin generate heat the layer, correspond the cheek far infrared that the regional setting of cheek generate heat the layer and correspond the forehead far infrared that the forehead region set up and generate heat the layer, and the step of controlling at least one far infrared and generating heat the layer work includes: the far infrared layer that generates heat of control forehead portion, cheek far infrared generate heat the layer and the chin far infrared generate heat the layer according to preset the circulation step in proper order and circulate work when reaching the target when total heating is long, and preset the circulation step and do: after the forehead far infrared heating layer is controlled to be heated to a first temperature, the cheek far infrared heating layer is controlled to be started to be heated for a first time period, and then the forehead far infrared heating layer and the cheek far infrared heating layer are stopped to be heated; and opening the chin far infrared heating layer to heat to a second temperature.

In the technical scheme, no matter in a far infrared nursing mode or a combined nursing mode of far infrared, infrared light and/or near infrared light, when the far infrared heating layers are started, the far infrared heating layers in different areas sequentially work, so that deep stimulation can be performed on the skin in different areas. And successively heat through the subregion, can ensure that the heating dynamics matches with heating portion phase to make the work on far infrared heating layer reasonable more healthy, both can avoid heating together like this, and lead to amazing too big, also can make different positions can discontinuously by the heating, with the comfortable experience degree that improves the user. And the far infrared heating layers in different areas can stop after working circularly for a target time (for example, 300 s).

In any of the above embodiments, the plurality of outer light emitting devices can be individually energized to operate. That is, the outer light emitting devices can be operated independently or synchronously. Thereby enabling an increase in the mode of operation of the mask.

In any of the above technical schemes, the plurality of far infrared heating layers can be combined to be electrified to work or each far infrared heating layer can be electrified to work independently. That is, each far infrared heating layer can be independently controlled, and a plurality of far infrared heating layers can also be synchronously controlled. Thereby enabling an increase in the mode of operation of the mask. The plurality of outer side light emitting devices and the plurality of far infrared heating layers can work in a combined mode, or can work independently to realize a far infrared heating layer type or a common mode.

Further, the mask further comprises: the control device is connected with the main control panel of the mask to control the work of the mask; wherein, the control device can control the far infrared heating layer and the outer side light-emitting device to work independently or in combination. Furthermore, the control device also has the functions of displaying parameters and collecting user input instructions.

In this solution, the control device is used to control the operation of the mask and to supply power to the mask. Specifically, the control device is used for being in communication connection with a main control board of the mask so as to be capable of sending commands and data to the main control board or receiving instructions or data fed back by the main control board.

Further, the control device is a handheld control device or a remote controller. Because the operation device can be operated well by the hand-held or remote control, the user experience is improved. When in use, the control device can control the mask to realize various functions.

In the above technical scheme, the control device can output 7V to 8V voltage to control the work of the far infrared heating layer and the outer side light-emitting device.

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

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flow chart of a control method of a mask according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of another method of controlling a mask provided by an embodiment of the present invention;

FIG. 3 is a block diagram of a mask control device provided by an embodiment of the present invention;

fig. 4 is a block diagram of a mask control device according to another embodiment of the present invention;

FIG. 5 is a schematic view of a mask according to an embodiment of the present invention;

FIG. 6 is a schematic view of a mask with an operating device according to an embodiment of the present invention;

FIG. 7 is an exploded view of a portion of the mask components provided in accordance with an embodiment of the present invention;

fig. 8 is an exploded view of the far infrared heating film and the corresponding fixing frame of each part of the mask according to the embodiment of the present invention;

FIG. 9 is a schematic view of the structure of the main cover of the mask provided by the embodiment of the present invention;

FIG. 10 is a schematic view of the connection fixture of the mask according to the present invention;

FIG. 11 is a schematic structural view of the outer cover of the mask provided by the embodiment of the present invention;

FIG. 12 is an exploded view of the outer cap of FIG. 11;

wherein, the correspondence between the reference numbers and the component names in fig. 3 to 12 is:

1 shell component, 12 main cover, 120 second buckle, 122 fourth screw hole, 14 outer cover, 142 first cover, 1422 second screw column, 144 second cover, 1442 third screw column, 16 connection fixing piece, 162 first screw column, 164 third screw hole, 166 fourth screw column, 168 second screw hole, 22 far infrared heating film, 24 outside light-emitting device, 26 fixing frame, 262 first buckle, 3 near skin detector, 4 main control board, 5 eye shade, 6 nose support, 62 first screw hole, 7 control device, a forehead area, B cheek area, C chin area, 8 mask control device, 81 first control module, 82 second control module, 83 third control module, 84 judgment module.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

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

A mask, a mask assembly, a mask control method, and a mask control device provided by embodiments of the present application are described below with reference to fig. 1 to 12.

Embodiments of the first aspect of the present invention provide a mask control method for a mask as in fig. 5 to 12, specifically, a mask including a far infrared heat generating layer and an outside light emitting device 24. And the outer side light-emitting device 24 is positioned on the outer side of the far infrared heating layer and used for emitting at least one light, and the light emitted by the outer side light-emitting device 24 can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer. As shown in fig. 1, the mask control method includes:

s102, controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode.

And S104, controlling at least one outer side light-emitting device to work so as to realize a non-far infrared nursing mode.

And S106, controlling at least one far infrared heating layer and at least one outer side light-emitting device to work so as to realize a far infrared and non-far infrared combined nursing mode.

According to the mask control method provided by the invention, a plurality of functional modes are provided, for example, a far infrared nursing mode can be realized by independently controlling at least one far infrared heating layer to work. The skin tendering and nursing modes of non-far infrared light such as red light, near infrared light, blue light, orange light and the like can be realized by independently controlling at least one outer side light-emitting device to work. Meanwhile, by controlling the action duration of non-far infrared light such as red light, near infrared light, blue light, orange light and the like, a quick skin tendering mode or a common skin tendering mode can be realized. And the infrared combination mode of far infrared and non-far infrared such as red light, near infrared light, blue light, orange light and the like can be realized by controlling the combination work of the outer side light-emitting device and the far infrared heating layer. The mask control method can realize different skin care functions, and solves the problems that the existing mask with single red light and near infrared light or only far infrared light for heating cannot fully meet the skin care requirements of users and has single function.

Further, S106 specifically includes: controlling at least one far infrared heating layer to work continuously or intermittently; controlling the at least one outer light emitting device to operate continuously or intermittently.

In this embodiment, when infrared combination mode, control the far infrared earlier and generate heat the layer and generate heat to the far infrared light that the layer sent is generated heat to the far infrared can radiate the face skin deep layer earlier, carries out deep stimulation to face skin, so that can fully open the pore, improves face skin's activity, then produces ruddiness or near infrared light through outside illuminator, in order further to realize the nursing to skin.

In the above embodiment, S106 specifically includes: controlling at least one far infrared heating layer to work and at least one outer side light-emitting device to work alternately for one or more times.

In this embodiment, the far infrared heat generating layer and the outside light emitting device are alternately operated. The work can be performed once or multiple times. The specific times and the working time of the far infrared heating layer and the outer side light-emitting device can be set according to the requirement. Wherein, can make far infrared heating layer work first, outside illuminator is back-working, also can be far infrared heating layer work later, outside illuminator is first working.

In another embodiment, S106 specifically includes: and controlling at least one far infrared heating layer to work continuously and controlling at least one outer side light-emitting device to work continuously or discontinuously.

In another embodiment, S106 specifically includes: and controlling at least one outer side light-emitting device to continuously work and controlling at least one far infrared heating layer to continuously or discontinuously work. Wherein, the start-stop time of at least one outer side light-emitting device and at least one far infrared heating layer can be consistent, and can also be intercrossed.

In the above embodiment, the step of controlling the at least one far-infrared heating layer and the at least one outer-side light-emitting device to work so as to realize the combined nursing mode of far infrared light and non-far infrared light such as red light, near infrared light, blue light, orange light and the like specifically includes: controlling at least one outer light-emitting device to work in response to the combined starting instruction; and responding to a combined starting instruction, controlling at least one far infrared heating layer to work, and closing at least one far infrared heating layer after the at least one far infrared heating layer works for a first preset time.

In this embodiment, a combined start instruction is generated after a user presses a combined function key, and after receiving the combined start instruction, the outside light emitting device may be controlled to operate as required, for example, the outside light emitting device is controlled to operate from beginning to end, or the outside light emitting device is controlled to operate for a period of time before the far infrared heating layer is turned on, or of course, the far infrared heating layer may be turned on before the outside light emitting device is turned on. And for the far infrared heating layer, the first preset time duration of the work of the far infrared heating layer can be controlled firstly, and the time duration can be set according to different modes. After the first preset time, the far infrared heating layer can stop working. Namely, the far infrared heating layer is opened and closed at fixed time. The operation of the outer light emitting device is more arbitrary and can be set as required.

Specifically, the step of controlling the operation of at least one outside light-emitting device in response to the combined start instruction specifically includes: and responding to a combined starting instruction to start timing, controlling the at least one outer side light-emitting device to work after a first preset time period, and turning off the at least one outer side light-emitting device after the at least one outer side light-emitting device works for a second preset time period.

In this embodiment, a combined start instruction is generated after a user presses a combined function key, and after receiving the combined start instruction, the far infrared heating layer may be controlled to operate for a first preset duration, and then the outside light-emitting device may be operated for a second preset duration, which may also be set according to different modes. This kind of mode can make far infrared generate heat layer and outside illuminator fore-and-aft work, and operating time is not crisscross to this just can avoid outside illuminator and far infrared to generate heat layer mutual interference, ensures user experience.

Further, the mask control method further comprises: and generating a completion instruction after the at least one outer side light-emitting device is turned off for a third preset time, and performing completion reminding.

In this embodiment, after the outside light-emitting device is turned off, the reminding is not immediately completed, but is performed for a while, so that the skin can be nursed by using the residual heat.

In the above embodiment, in response to the combined starting instruction, the at least one outer side light-emitting device and/or the at least one far infrared heating layer is controlled to operate, and after the at least one outer side light-emitting device and/or the at least one far infrared heating layer operate, a completion instruction is generated and a completion prompt is performed when the third preset time length is reached.

In this embodiment, after the operation of the external light emitting device and the far infrared heating layer is completed, the prompt is not completed immediately, but the prompt is performed after a certain period of time, so that the skin can be nursed by using the residual heat. For example, in the far infrared nursing mode, after the far infrared heating layer stops working for a third preset time, a completion instruction is generated and the completion is reminded, and in the non-far infrared nursing mode such as red light, near infrared light, blue light, orange light and the like, after the outside light-emitting device stops working for the third preset time, a completion instruction is generated and the completion is reminded. And in a combined nursing mode of non-far infrared light such as far infrared light, red light, near infrared light, blue light, orange light and the like, after the far infrared heating layer and the outer side light-emitting device are both stopped and are not started for a third preset time, a completion instruction is generated, and the completion reminding is carried out.

Further, at least one far infrared layer that generates heat includes that the chin far infrared that corresponds the regional setting of chin generates heat the layer, corresponds the far infrared that the cheek region set up and generates heat the layer and correspond the far infrared that the forehead region set up and generate heat the layer. Further, the at least one lateral light-emitting device includes at least one of a lateral chin light-emitting device disposed corresponding to the chin region, a lateral cheek light-emitting device disposed corresponding to the cheek region, and a lateral forehead light-emitting device disposed corresponding to the forehead region. As shown in fig. 2, the control method includes:

s202, after the far infrared heating layer in the forehead area is controlled to be heated to a first temperature, the far infrared heating layer in the cheek area is controlled to be started to be heated for a first time, the far infrared heating layer in the forehead area and the far infrared heating layer in the cheek area are stopped to be heated, and the far infrared heating layer in the chin area is started to be heated to a second temperature;

s204, judging whether the total heating time reaches the target time 300S, if so, turning to S206, and if not, turning to S202.

And S206, controlling the lateral chin light-emitting device, the lateral cheek light-emitting device and the lateral forehead light-emitting device to synchronously work.

In the embodiment, no matter in the far infrared nursing mode or in the combined nursing mode of far infrared light, red light, near infrared light, blue light, orange light and other non-far infrared light, when the far infrared heating layers are started, the far infrared heating layers in different areas work in sequence, so that deep stimulation can be performed on the skin in different areas. And successively heat through the subregion, can ensure that the heating dynamics matches with heating portion phase to make the work on far infrared heating layer reasonable more healthy, both can avoid heating together like this, and lead to amazing too big, also can make different positions can discontinuously by the heating, with the comfortable experience degree that improves the user. And the far infrared heating layers in different areas can stop after working circularly for a target time (such as 300 s).

Further, the at least one lateral light emitting device includes at least one of a lateral chin light emitting device disposed corresponding to the chin region, a lateral cheek light emitting device disposed corresponding to the cheek region, and a lateral forehead light emitting device disposed corresponding to the forehead region, and S104 specifically includes: controlling the synchronous operation of the lateral chin light-emitting device, the lateral cheek light-emitting device and the lateral forehead light-emitting device.

In this embodiment, no matter whether the outer light emitting devices are controlled to work independently, and a non-far infrared light nursing mode such as red light, near infrared light, blue light, orange light and the like is realized, or a combined nursing mode of the far infrared light such as the far infrared light, the red light, the near infrared light, the blue light, the orange light and the like is realized, the outer light emitting devices in different areas generally work simultaneously, because the outer light emitting devices are far away from the skin, the stimulation is soft, the work can save time and improve the skin nursing efficiency.

In a specific embodiment, the mask specifically includes the following four functional modes:

infrared combination mode, function: the far infrared heating layer works for 5min → the red light + the near infrared works for 20min.

Far infrared heating mode, function: the far infrared heating layer works for 5min.

Skin tenderness mode FAST, function: the total of red light and near infrared light works for 10min.

Skin rejuvenation mode, function: the total operation of red light and near infrared is 20min.

Wherein, the theory of operation of face guard subassembly is as follows: after the control device 7 controls and starts the heating function of the far infrared heating layer, the three far infrared heating layers are controlled by the main control panel to start to work in sequence, the far infrared heating layer in the forehead area starts to heat to 65 ℃, the far infrared heating layer in the cheek area starts to preheat at the moment, the heating work is carried out for a period of time, the far infrared heating layer in the forehead area and the far infrared heating layer in the cheek area stop working, the far infrared heating layer in the chin area starts to preheat to 65 ℃, the heating work is carried out in sequence, and the total heating time is 300s. After the red light and near infrared light functions are switched and started, the forehead region outer side light-emitting device, the cheek region outer side light-emitting device and the chin region outer side light-emitting device simultaneously start to work to emit red light and near infrared light, and light energy is transmitted out through the far infrared heating layer with light scattering and high light transmittance.

As shown in fig. 3, an embodiment of the second aspect of the present invention provides a mask control device 8 for a mask (as shown in fig. 5 to 12), the mask including at least one far-infrared heating layer and at least one outer light-emitting device 24, the outer light-emitting device 24 being located outside the far-infrared heating layer and being capable of emitting non-far-infrared light such as red light, near-infrared light, blue light, orange light, etc., and emitting light capable of passing through the far-infrared heating layer to irradiate the inner side of the far-infrared heating layer, the mask control device 8 including: the first control module 81 is used for controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode; and/or the second control module 82 is configured to control at least one outer side light-emitting device 24 to operate, so as to implement a non-far infrared light nursing mode such as red light, near infrared light, blue light, orange light, and the like; and/or a third control module 83, configured to control the at least one far-infrared heating layer and the at least one outside light-emitting device 24 to operate, so as to implement a combined nursing mode of far-infrared light and non-far-infrared light such as red light, near-infrared light, blue light, orange light, and the like.

According to the mask control device 8 provided by the invention, a plurality of functional modes are provided, for example, a far infrared nursing mode can be realized by independently controlling at least one far infrared heating layer to work. The operation of at least one outer side light-emitting device 24 is independently controlled, and the skin tendering and nursing modes of non-far infrared light such as red light, near infrared light, blue light, orange light and the like can be realized. Meanwhile, by controlling the action duration of non-far infrared light such as red light, near infrared light, blue light, orange light and the like, a quick skin tendering mode or a common skin tendering mode can be realized. And the infrared combination mode of far infrared and non-far infrared light such as red light, near infrared light, blue light, orange light and the like can be realized by controlling the combined work of the outer side light-emitting device 24 and the far infrared heating layer. The mask control method can realize different skin care functions, and solves the problems that the existing mask with single red light and near infrared light or only far infrared light for heating cannot fully meet the skin care requirements of users and has single function.

Further, as shown in fig. 3, the third control module 83 is specifically configured to, when controlling the at least one far infrared heating layer and the at least one outer side light emitting device 24 to operate so as to implement a combined nursing mode of far infrared light and non-far infrared light such as red light, near infrared light, blue light, and orange light: controlling at least one far infrared heating layer to work continuously or intermittently; the at least one outer light emitting device 24 is controlled to operate continuously or intermittently.

In this embodiment, when infrared combination mode, control far infrared earlier and generate heat the layer and generate heat to the far infrared light that the layer sent generates heat by far infrared can radiate the face skin deep layer earlier, carries out deep stimulation to face skin, so that can fully open the pore, improves face skin's activity, then produces ruddiness or near infrared light through outside illuminator 24, in order to further realize the nursing to skin.

In the above embodiment, the step of controlling the at least one far-infrared heating layer and the at least one outer-side light-emitting device 24 to work so as to realize the combined nursing mode of far infrared light and non-far infrared light such as red light, near infrared light, blue light, orange light, and the like specifically includes: responding to a combined starting instruction, controlling at least one far infrared heating layer to work, and closing at least one far infrared heating layer after the at least one far infrared heating layer works for a first preset time; and after the first preset time period, controlling the at least one outer light-emitting device 24 to work, and after the at least one outer light-emitting device 24 works for a second preset time period, turning off the at least one outer light-emitting device 24.

In this embodiment, a combination start instruction is generated after a user presses a combination function key, and after receiving the combination start instruction, the far infrared heating layer can be controlled to work for a first preset duration, and the duration can be set according to different modes. After the first preset time period, the far infrared heating layer stops working, and then the outer side light emitting device 24 works for a second preset time period, which can also be set according to different modes. This kind of mode can make far infrared generate heat layer and outside illuminator 24 front and back work, and operating time is not crisscross to this just can avoid outside illuminator 24 and far infrared to generate heat layer mutual interference, ensures user experience.

Further, the third control module 83 generates a completion instruction after the third preset time period of the at least one outside light-emitting device 24 is turned off, and performs the completion prompt.

In this embodiment, the completion of the warning is not immediately performed after the outside light-emitting device 24 is turned off, but the warning is performed for a while, so that the skin can be treated by using the residual heat.

In the above embodiment, in response to the combined start instruction, the at least one outside light-emitting device 24 and/or the at least one far infrared heating layer is controlled to operate, and after the at least one outside light-emitting device 24 and/or the at least one far infrared heating layer operates and finishes operating, a completion instruction is generated from the timing to a third preset time period, and a completion prompt is performed.

In this embodiment, after the operation of the external light emitting device 24 and the far infrared heating layer is completed, the completion of the operation is not immediately prompted, but the operation is prompted for a certain period of time, so that the skin can be nursed by using the residual heat. For example, in the far infrared nursing mode, the completion instruction is generated and the completion is reminded after the far infrared heating layer stops working for the third preset time, and in the non-far infrared nursing mode such as red light, near infrared light, blue light, orange light, and the like, the completion instruction is generated and the completion is reminded after the outside light-emitting device 24 stops working for the third preset time. In the combined nursing mode of non-far infrared light such as far infrared light, red light, near infrared light, blue light, orange light and the like, a completion instruction is generated and a prompt is completed after the far infrared heating layer and the outer side light-emitting device 24 are both stopped and are not started for a third preset time.

Further, at least one far infrared layer that generates heat includes that the chin far infrared that corresponds the regional setting of chin generates heat the layer, corresponds the cheek far infrared that the cheek region set up and generates heat the layer and correspond the forehead far infrared that the forehead region set up and generate heat the layer. First control module 81, third control module 83 are used for controlling at least one far infrared layer during operation that generates heat, specifically are used for controlling forehead portion far infrared layer, cheek far infrared layer and the chin far infrared layer that generates heat and circulate work according to predetermineeing the loop step in proper order and reach the target duration when total heating is long, and it is long to predetermine the loop step: after the forehead far infrared heating layer is controlled to be heated to a first temperature, the cheek far infrared heating layer is controlled to be started to be heated for a first time period, and then the forehead far infrared heating layer and the cheek far infrared heating layer are stopped to be heated; and opening the chin far infrared heating layer to heat to a second temperature.

In the embodiment, no matter in the far infrared nursing mode or in the combined nursing mode of far infrared light, red light, near infrared light, blue light, orange light and other non-far infrared light, when the far infrared heating layers are started, the far infrared heating layers in different areas work in sequence, so that deep stimulation can be performed on the skin in different areas. And successively heat through the subregion, can ensure that the heating dynamics matches with heating portion phase to make the work on far infrared heating layer reasonable more healthy, both can avoid heating together like this, and lead to amazing too big, also can make different positions can discontinuously by the heating, with the comfortable experience degree that improves the user. And the far infrared heating layers in different areas can stop after working circularly for a target time (for example, 300 s).

As shown in fig. 4, the mask control device 8 further includes a determination module 84 for determining whether the total heating period has reached the target period. The first control module 81 and the third control module 83 stop heating when the determination module 84 determines that the total heating time period reaches the target time period.

Further, the second control module 82 controls at least one lateral light-emitting device 24 to operate, so as to implement a non-far infrared light nursing mode such as red light, near infrared light, blue light, orange light, and the like, and is specifically configured to control the lateral chin light-emitting device 24, the lateral cheek light-emitting device 24, and the lateral forehead light-emitting device 24 to operate synchronously.

In this embodiment, no matter whether the outer light emitting devices 24 are controlled to work alone, so as to realize a non-far infrared light nursing mode of red light, near infrared light, blue light, orange light and the like, or a combined nursing mode of far infrared light, red light, near infrared light, blue light, orange light and the like, the outer light emitting devices 24 in different areas generally work simultaneously, because the outer light emitting devices 24 are far away from the skin, the stimulation is soft, the work can save time and improve the skin nursing efficiency.

Embodiments of the third aspect of the invention provide a readable storage medium having stored thereon a program or instructions which, when executed by a processor, carry out the steps of the mask control method provided in any one of the embodiments of the first aspect.

According to the readable storage medium provided by the invention, the mask control method provided by any embodiment of the third aspect is included. Therefore, the readable storage medium has all the advantages of the mask control method provided by any embodiment of the third aspect, and the description thereof is omitted here.

Embodiments of the fourth aspect of the invention provide a mask comprising a mask control device as provided in any embodiment of the second aspect or a readable storage medium as provided in any embodiment of the third aspect.

According to the mask provided by the invention, the mask control device provided by any embodiment of the second aspect or the readable storage medium provided by any embodiment of the third aspect is included. Therefore, the mask has all the advantages of the mask control device provided in any embodiment of the second aspect or the readable storage medium provided in any embodiment of the third aspect, and the description is omitted here.

The mask provided by embodiments of the fifth aspect of the present application will be further described below in conjunction with several specific embodiments.

Example one

As shown in fig. 5 to 12, an embodiment of the first aspect of the present invention provides a face mask including a far-infrared heat generating layer and an outside light emitting device 24. And the outer side light-emitting device 24 is positioned outside the far infrared heating layer and used for emitting at least one light, and the light emitted by the outer side light-emitting device 24 can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer.

The mask provided according to the embodiment of the present invention includes a far infrared heat generating layer and an outside light emitting device 24. The far infrared heating layer is positioned at the inner side of the outer side light-emitting device 24, and far infrared light emitted by the far infrared heating layer can directly act on the face of a human body, so that the face of the human body can be beautified, beautified and the like, and the effect of improving the skin quality and the like is achieved. The outer side light emitting device 24 is located on the outer side of the far infrared heating layer, the outer side 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, the blue light, the orange light and the like can penetrate through the far infrared heating layer to irradiate the inner side of the far infrared heating layer, so that the far infrared heating layer acts on the face of a human body, the face of the human body is nursed, and the effects of improving the skin quality and the like are achieved. This kind of scheme has still set up the far infrared layer that generates heat through set up the outside illuminator 24 that is used for sending red light and/or near infrared light on the face guard simultaneously to this just can be used for nursing facial skin through the combination of ruddiness, near infrared light and blue light, orange light etc. and far infrared light and improve, thereby widen the function of face guard, improved the physiotherapy effect of face guard. Also this application is through ruddiness, near infrared light and blue light, the integrative design of outside light + far infrared light such as orange light, the many-sided demand of user skin nursing has been satisfied, current single red light and near infrared light have been solved, or only the face guard that far infrared light generates heat, the demand that can not fully satisfy user skin nursing, the problem that the function is more single, and far infrared light is because its penetrating power is stronger, can act on the skin deep layer, consequently through its cooperation with ruddiness and/or near infrared light, can effectively improve cosmetic effect. Meanwhile, the combination mode of the outer side light-emitting device 24 and the far infrared heating layer can enable the red light and the near infrared light emitted by the outer side light-emitting device 24 to transmit light energy to the surface skin of the face through the far infrared heating layer with the characteristics of astigmatism and high light transmittance, and the loss of the light emitted by the outer side light-emitting device 24 is reduced. The far infrared heating layer has good light transmittance, so that light emitted by the outer side light-emitting device 24 is not easy to be blocked, and the normal work of the outer side light-emitting device 24 is ensured. Meanwhile, the far infrared heating layer can emit far infrared light waves to radiate deep layers of human face skin, and the far infrared heating layer is not separated from the human face, so that far infrared light radiation energy can be absorbed by the human face skin to the maximum extent, and the effect of beautifying the human face is achieved.

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

Further, the far infrared heating layer includes a far infrared heating film 22. Certainly, the far infrared heating element may not be a film structure, for example, a far infrared heating layer with a certain light transmittance and a good performance composed of point light source structures. In addition, the far infrared heating film 22 has a good light transmittance, and is not easy to obstruct the light emitted from the outer side light emitting device 24, thereby ensuring the normal operation of the outer side light emitting device 24. Meanwhile, the far infrared heating film 22 can emit far infrared light waves to be radiated to the deep layer of the skin of the human face, and the far infrared heating film 22 is not separated relative to the human face, so that far infrared light radiation energy can be absorbed by the skin of the human face to the maximum extent, and the effect of beautifying the face of the human body is achieved.

In the above embodiment, as shown in fig. 5 to 10, the mask further includes: the main cover 12: the far infrared heating layer comprises a far infrared heating film 22 and a fixing frame 26 arranged on the main cover 12, and the far infrared heating film 22 is arranged on the fixing frame 26; and an outer assembly including an outer light emitting device 24 and a connection fixture 16 mounted on the main cover 12, the outer light emitting device 24 being mounted on the connection fixture 16.

In this embodiment, the face mask mainly comprises an inner and an outer two-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 an outer light emitting device 24 and a connecting fastener 16, and is mainly used for forming outer 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 method comprises the following steps: the main cover 12 is used as a framework of the mask, and is mainly used for forming different hollow installation areas for cheeks and chin, and the fixing frames 26 at different positions are correspondingly installed in the installation areas, so that the far infrared heating film 22 can be correspondingly installed on the main cover 12. A connecting fastener 16 is disposed between the outer cover 14 and the main cover 12, and the connecting fastener 16 is mainly used for connecting the outer cover 14 and the main cover 12, and supporting and mounting components such as the outer light emitting device 24, the nose pad, the eye mask, and the like. This kind of setting has realized the installation of the far infrared heating film 22 in different regions through main lid 12 to this is so that installed the inboard at whole casing assembly with far infrared heating film 22, thereby has made things convenient for nursing such as heating skin through far infrared light.

For the mask arranged in different regions, corresponding regions are arranged at different parts of the face corresponding to the main cover 12 and the connecting and fixing member 16, for example, the main cover 12 is provided with a cheek region for cheeks, a chin region for chins, and a forehead region for forehead, and similarly, the connecting and fixing member 16 is also correspondingly provided with a cheek region, a chin region, and a forehead region.

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

Further, there is not laminating completely between outside illuminator 24 and the far infrared heating film 22, there is certain distance of predetermineeing, this kind of setting, the light that can ensure that outside illuminator 24 sends can comparatively see through far infrared heating film 22 uniformly, the printing opacity homogeneity that makes between the different lamp pearls of outside illuminator 24 can reach an optimum balance point, also set up the luminousness and the printing opacity effect that can ensure the lamp source that predetermine the distance, ensure that the light of lamp source can comparatively uniformly be used human face.

Further, the preset distance is larger than or equal to 2mm and smaller than or equal to 15mm, and further is 6mm, and the product thickness and the outer side light-emitting device 24, such as the light transmission uniformity of the LED lamp beads, can reach an optimal balance point. The distance can ensure the light transmittance of the lamp source and avoid the overlarge thickness of the mask.

Further, the outer light emitting device 24 includes a flexible lamp panel. The flexible lamp panel enables the outer light emitting device 24 to better adapt to the structure of the mask for deformation.

Further, the outer light emitting device 24 includes an FPC lamp panel, that is, a flexible circuit lamp panel. And adopt the flexible circuit lamp plate to make the lamp plate can carry out the part along with the structure of face guard and warp to this makes the lamp plate can be fixed better on the face guard, also more conveniently adjusts the position of flexible circuit lamp plate.

Further, an LED lamp bead is arranged in the outer side light-emitting device 24. Further, the outer light emitting device 24 is capable of generating light having a wavelength of 620nm to 1000 nm. Further, the outside light-emitting device 24 can generate light having a wavelength of 620nm to 850 nm. That is, the outer light emitting device 24 is of an LED structure because an LED lamp bead is provided therein. The mode can utilize the energy-saving characteristic of the LED, 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 620nm-850nm, such as specific spectrums of red light 660nm and near infrared light 850nm, so that the illumination course of controllable pulse type irradiation is carried out on the face area, the activity of facial skin cells is excited, the generation of collagen is promoted, and the injury healing is accelerated. Meanwhile, hyaluronic acid essence can be used in a matching manner, so that the effects of tightening, brightening, resisting wrinkles and removing wrinkles are achieved.

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

In this embodiment, the mask can radiate far infrared light with a 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 temperature-controllable lighting treatment on a specific area of the face, and by utilizing the strong skin penetrating power and the remarkable heat conversion efficiency of the far infrared light, the effects of deep heating, pore/capillary expansion, blood circulation promotion, tissue metabolism enhancement and healing regeneration capacity can be achieved. Meanwhile, the effect of improving the physiological state of the skin can be achieved by matching with a moisturizing mask.

Further, a metal oxide layer is arranged in the far infrared heating film 22, and the metal oxide layer can generate light with the wavelength being more than 7.8 um. After the far infrared heating film 22 is electrified, the metal oxide layer is equivalent to a resistor, and the far infrared heating film 22 can generate far infrared light after being heated.

Further, the light emitted by the outer 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, the near infrared light wave band is 850nm, the blue light wave band is 420nm-470nm, and the orange light wave band is 590nm-610nm. The red light and near infrared light effect has the effects of exciting the activity of facial skin cells, lightening pigments, promoting the generation of collagen and accelerating the healing of injury. The blue light can control oil and acne, promote cell growth, and repair inflammatory cancer-control aged skin and allergic skin. The orange light wave band can supplement cell energy, strengthen muscle, improve relaxation, and smooth and tender skin.

In the above embodiment, as shown in fig. 6 to 8, the mask further includes: a housing assembly; at least one far infrared heating layer and an outer side light-emitting device 24, wherein the far infrared heating layer and the outer side light-emitting device 24 are both arranged on the shell component; the plurality of far infrared heating layers and the outer light emitting devices 24 are installed on a plurality of regions of the case assembly in a one-to-one correspondence.

In this embodiment, one or more regions may be provided on the housing assembly, with each region having a corresponding far infrared heat generating layer and an outer light emitting device 24 provided thereon. That is, when the shell assembly is not designed to be divided, the far infrared heating layer and the outer side light emitting device 24 cover the whole face mask. When the shell component is arranged in a subarea manner, the far infrared heating layer and the outer side light-emitting device 24 are also arranged in a subarea manner, so that subarea heating can be realized. That is, the heating power of the cheek and the chin is not exactly the same, because the mask has different heating requirements corresponding to different parts of the face. Therefore, in the application, all correspond to the different positions to the face guard and set up far infrared layer and the outside illuminator that generates heat, generate heat layer and outside illuminator alright correspond the different positions of heating through the far infrared of difference like this for the different positions homoenergetic of face heats alone, has realized facial subregion heating control with this. For example, the forehead alone, or the cheeks or chin alone may be heated. Of course, different far infrared heating layers and outer side light-emitting devices can be combined and controlled in a unified mode. Wherein, the far infrared heating layer and the outer side light-emitting device at different parts have basically the same structure.

Further, as shown in fig. 8, the far infrared heating layer includes a far infrared heating film 22 and a fixing frame 26, and the fixing frame 26 is used for mounting the far infrared heating film 22. During the installation, can install far infrared heating film 22 on fixed frame 26 earlier, then with fixed frame 26 fixed mounting on casing assembly, and install far infrared heating film 22 alone on fixed frame 26 than directly install far infrared heating film 22 on casing assembly convenient many, after all, casing assembly goes up spare part more, operates inconvenient relatively. 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. Furthermore, 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 arranged around the far infrared heating film 22, so as to fix and protect the far infrared heating film 22.

Further, the fixing frame 26 is detachably mounted on the case assembly, and this arrangement enables the fixing frame 26 and the far infrared heating film 22 to be replaced individually, thereby facilitating maintenance of the fixing frame 26 and the far infrared heating film.

Further, the fixing frame 26 can be fixed on the main cover 12 by one or more of snap, heat melting, ultrasonic wave, and glue adhesion, but is not limited thereto.

In a particular embodiment, the fixing frame 26 is mounted on the main cover 12 by snap-fitting; and/or the main cover 12 and the connection fixture 16 are fixed by screws.

In this embodiment, the fixing frame 26 can be installed on the main cover 12 by screwing, and the screwing is relatively common, so that the fixing frame 26 is relatively simple to install, and the screwing is performed without arranging complex fasteners on the fixing frame 26 and the main cover 12, and only corresponding holes need to be arranged, therefore, 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 outer cover 14 is reduced. The main cover 12 and the connecting fixture 16 are preferably fixed by screws in a relatively common and simple manner, so as to reduce the difficulty of operation and the production and processing costs of the product. Of course, the main cover 12 and the connecting fixture 16 may be fixed by snap-fitting or gluing.

In any of the above embodiments, the outside light emitting device 24 is mounted on the housing assembly by double-sided adhesive tape. Since the outer light emitting device 24 is not easy to be punched and has low strength, it is unnecessary to provide holes or fasteners on the outer light emitting device 24 by adhering the outer light emitting device 24 with a double-sided tape, and the structure of the outer light emitting device 24 is simplified. Of course, the outer light emitting device 24 may be fixedly mounted by other mounting methods and the connecting fixture 16.

Here, a to B and C in fig. 5 to 12 in the present application indicate directions from the forehead, the cheek and then the chin.

Example two

As shown in fig. 5 to 12, this embodiment further includes the following technical features: the far infrared heating layer comprises a far infrared heating film 22 and a fixing frame 26, and the fixing frame 26 is used for installing the far infrared heating film 22. During the installation, can install far infrared heating film 22 on fixed frame 26 earlier, then with fixed frame 26 fixed mounting on casing subassembly 1, and install far infrared heating film 22 alone on fixed frame 26 than directly install far infrared heating film 22 on casing subassembly 1 more convenient, after all, casing subassembly 1 goes up spare part more, the operation is inconvenient relatively. Therefore, by arranging 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 is detachably mounted on the case assembly 1, and this arrangement enables the fixing frame 26 and the far infrared heating film 22 to be replaced individually, thereby facilitating maintenance of the fixing frame 26 and the far infrared heating film.

Further, the mask may have different heating requirements for different parts of the face, for example, the cheek and chin may not have the same heating requirements. Therefore, in the application, the far infrared heating film 22 is correspondingly arranged on different parts of the face mask, so that the different parts of the face can be independently heated, and the face can be heated in a subarea manner. For example, the forehead alone, or the cheeks or chin alone may be heated. As shown in fig. 6, 7 and 8, the heating structures at different positions are substantially the same, that is, the heating structures include a fixing frame 26, a far infrared heating film 22 and an outer side light emitting device 24, that is, for the chin heating assembly, the fixing frame, the far infrared heating film and the outer side light emitting device are included, for the cheek area, the cheek fixing frame, the cheek far infrared heating film and the outer side light emitting device are included, and for the forehead area, the fixing frame, the forehead far infrared heating film and the outer side light emitting device are included.

Further, as shown in fig. 5 to 8, the combination of the red light, the near-infrared light, and the far-infrared heating 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 comprises a fixed frame 26 of the forehead area, a far infrared heating film 22 of the forehead area A, the forehead area of the main cover 12, an FPC lamp panel on the forehead area A and the forehead area A connected with the fixing piece 16. The cheek region B comprises a fixing frame 26 of the cheek region B, a far infrared heating film 22 of the cheek region B, the cheek region of the main cover 12, an FPC lamp panel of the cheek region B and a cheek region connected with the fixing piece 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, an FPC lamp panel on the chin area C, and a chin area on the connecting fixing member 16. The far infrared heating film 22 and the FPC lamp panel of the three subareas are connected to the main control board 4 of the mask through cables, and all the components in the three different areas are assembled and fixed in the subareas. The red light, the near infrared light and the far infrared heating film 22 are divided into three parts.

EXAMPLE III

Embodiment 3 of the first aspect of the invention, as shown in figures 5 to 12, provides a mask which differs from embodiments 1 and 2 in that it further comprises a near skin detector 3, as shown in figure 7. The skin proximity detector 3 is mounted on the outer light emitting device 24 of the chin region. Whether the mask contacts the skin can be detected by the skin proximity detector 3, so that whether the mask is worn correctly can be ensured, and the condition that a user does not use the mask according to the standard is avoided. After all, the mask is specially provided with a far infrared heating layer and a common outer side light-emitting device 24 corresponding to the forehead, cheeks and the like, if the mask is worn out of specification, the corresponding part cannot be heated, and therefore the efficacy of the mask can be reduced. And whether can detect face guard wearing correctly through nearly skin detector 3, can in time remind the user when the user wears the irregularity.

In the above embodiment, as shown in fig. 9, the shell assembly 1 includes the main cover 12, the outer cover 14 and the connecting fixture 16, the main cover 12 is used as a framework of the mask, and is mainly used for forming different hollow installation areas for cheeks and chin, and the fixing frames 26 at different positions are correspondingly installed in the installation areas, so that the far infrared heating film 22 can be correspondingly installed on the main cover 12. As shown in fig. 11 and 12, a connecting fastener 16 (shown in fig. 10) is provided between the outer cover 14 and the main cover 12, and the connecting fastener 16 is mainly used for connecting the outer cover 14 and the main cover 12 and supporting and mounting components such as the outer light emitting device 24, the nose pad 6, the eyecup 5, and the like. This kind of setting has realized the installation of the far infrared heating film 22 in different regions through main lid 12 to this is so that installed the inboard at whole casing subassembly 1 with far infrared heating film 22, thereby has made things convenient for nursing such as heating skin through far infrared light. The outer cover 14, as an outer cover, can protect the parts inside the outer cover, and can enhance the aesthetic property of the product and improve the user experience. The main cover 12 and the connection fixing member 16 are provided with corresponding regions corresponding to different parts of the face, for example, the main cover 12 is provided with a cheek region B for cheeks, a chin region C for chins, and a forehead region a for the forehead, and similarly, the connection fixing member 16 is also provided with the cheek region B, the chin region C, and the forehead region a correspondingly.

In the above embodiment, as shown in fig. 5 and 7, the mask further includes an eye mask 5 for covering the eyes of the user to shield the eyes of the user from light, so that the user can relax and rest to enjoy the physiotherapy process while wearing the mask for physiotherapy. As shown in fig. 5 and 7, the mask further comprises a nose pad 6, which is correspondingly disposed in the nose region of the shell assembly 1, and is fixedly mounted on the eye mask 5 and/or the connecting fixing piece 16, and a space can be formed near the cheek by the nose pad 6, so as to facilitate the breathing of the user, and prevent the mask from being attached to the cheek, which affects the normal breathing of the user.

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

In any of the above embodiments, as shown in fig. 11 and 12, the outer lid 14 is divided into the upper lid body and the lower lid body in the up-down direction, that is, the outer lid 14 is divided into two parts in the height direction. In another embodiment (not shown), the outer lid 14 is divided into left and right lid bodies in the left-right direction. And the specific form of the outer lid 14 may be set as desired. The first cover 142 and the second cover 144 can be mounted on the connecting fixture 16 by conventional means such as screws, snaps, or adhesives.

In any of the above embodiments, the fixing frame 26 can be installed on the main cover 12 by screwing, and the screwing is relatively common, so that the fixing frame 26 is relatively simple to install, and the screwing is performed without setting complex fasteners on the fixing frame 26 and the main cover 12, and only corresponding holes need to be set, therefore, 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 outer cover 14 is reduced. The main cover 12 and the connecting and fixing member 16 are preferably fixed by screws in a relatively common and simple manner, so as to reduce the difficulty of operation and the production and processing costs of the product. Of course, the main cover 12 and the connecting fixture 16 may be fixed by snap-fitting or gluing.

In any of the above embodiments, the outside light-emitting device 24 is mounted on the case assembly 1 by double-sided tape bonding. Since the outer light emitting device 24 is not easy to be punched and has low strength, it is unnecessary to provide holes or fasteners on the outer light emitting device 24 by adhering the outer light emitting device 24 with a double-sided tape, and the structure of the outer light emitting device 24 is simplified.

Example four

Embodiment 4 of the first aspect of the present invention provides a visor which differs from embodiments 1 to 3 in that the outer light emitting device 24 is an FPC board, that is, a flexible circuit board. And adopt the flexible circuit lamp plate to make the lamp plate can carry out the part along with the structure of face guard and warp to this makes the lamp plate can be fixed better on the face guard, also more conveniently adjusts the position of design flexible circuit lamp plate.

Further, an LED lamp bead is arranged in the outer side light-emitting device 24, and the LED lamp bead can generate light with the wavelength of 640nm-1000 nm. That is, the outer side light emitting device 24 is the LED outer side light emitting device 24 because the LED lamp beads are arranged inside the outer side light emitting device. The mode can utilize the energy-saving characteristic of the LED, 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 660nm-850nm, such as specific spectrums of red light 660nm and near infrared light 850nm, so that the illumination treatment course of controllable pulse type irradiation is carried out on a face area, 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 LED lamp beads can be matched with hyaluronic acid essence to achieve the effects of compacting, brightening, resisting wrinkles and removing wrinkles.

In any of the above embodiments, the far infrared heating film 22 is provided with a far infrared generating structure therein, 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 a specific frequency spectrum, such as light larger than 7.8um, through the heating material, such as metal oxide, in the far infrared heating film 22 to perform a temperature-controllable illumination treatment course on a specific area of the face, and the mask can achieve the effects of deep heating, expanding pores/capillaries, promoting blood circulation, enhancing tissue metabolism and healing regeneration capacity by using strong skin penetrating power and remarkable heat conversion efficiency of the far infrared light, and can improve the physiological state of the skin by matching with a moisturizing mask.

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

Further, a certain distance of 2mm-15mm, such as 6mm, is left between far infrared heating film 22 and outside illuminator 24, for example the LED lamp pearl, and product thickness and outside illuminator 24 under this design, for example LED lamp pearl printing opacity homogeneity can reach an optimum balance point. That is, the distance can not only ensure the light transmittance of the outer light-emitting device 24 but also prevent the mask from being too thick.

Wherein, LED lamp pearl on the FPC lamp plate of forehead region A sends red light and near-infrared light, and through astigmatic and the high luminousness characteristic of forehead region A far infrared heating film 22, more even red light and near-infrared light of permeating through. The LED lamp beads on the FPC lamp panel on the cheek area B emit red light and near infrared light, and the red light and the near infrared light are uniformly transmitted through the light scattering and high light transmittance characteristics of the far infrared heating films 22 on the cheek area B. LED lamp pearl on the FPC lamp plate on the regional C of chin sends red light and near-infrared light, and through the astigmatism and the high luminousness characteristic of the far infrared heating film 22 on the regional C of chin, the more even red light and near-infrared light that see through. This kind of combination mode can let the ruddiness and the near infrared light that LED lamp pearl sent transmit light energy to people's face top layer skin through the far infrared heating film 22 that has astigmatism and high luminousness characteristic, and far infrared heating film 22 heating can send far infrared light wave radiation to people's face skin deep layer, and does not have the separation between the relative people's face of far infrared heating film 22, and the advantage is that far infrared light radiation energy can the maximize by people's face skin absorption.

Further, in the red light and near infrared light modes, the household red light beauty mask generates specific light spectrum (such as the red light wavelength is 640-780 nm, the near infrared light wavelength is 780-1000 nm, further such as the red light wavelength is 660nm, and the near infrared light wavelength is 850 nm) through the densely distributed LED lamp beads to carry out the illumination course of controllable pulse type irradiation on the face area, so that the effects of exciting the activity of facial skin cells, promoting the generation of collagen, accelerating the healing of injuries are achieved, and the transparent hyaluronic acid essence can be matched, so that the effects of compacting, brightening, resisting wrinkles and removing wrinkles are achieved.

Further, the mask also comprises a handling device 7 (shown in fig. 6). The control device 7 is used to control the operation of the mask. The operation and control device 7 can control the far infrared heating film 22 and the outer side light-emitting device 24 to work alone or in combination.

Further, as shown in fig. 6, the manipulation device 7 is a hand-held manipulation device or a remote controller. The control device 7 is connected with the main control board 4 through a lead. Because the operation device 7 can be operated well by both hand holding and remote control, the user experience is improved. In use, the mask can be controlled by the control device 7 to perform various functions.

In the above embodiment, the manipulation device can output a voltage of 7V to 8V to control the operations of the far infrared heating film 22 and the outside light emitting device 24.

In the above embodiment, the manipulation device includes: and 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 panel 4 is arranged outside the mask.

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

1. as shown in fig. 11 and 12, the first cover 142 and the connection fixture 16 are assembled and fixed by screws through the second screw posts 1422 of the first cover 142 and the second screw holes 168 of the connection fixture 16.

2. The second cover 144 and the connecting fixture 16 are assembled and screwed by the third screw post 1442 on the second cover 144 and the third screw hole 164 on the connecting fixture 16.

3. The eyeshade 5 and the connecting and fixing piece 16 are assembled and are in limited fixing through the groove on the eyeshade 5 which is matched with the convex rib position on the connecting and fixing piece 16.

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

5. As shown in fig. 5, the outer light emitting device 24 (typically, a flexible lamp panel) in the forehead region a is mounted on the connection holder 16, and the outer light emitting device 24 (typically, a flexible lamp panel) in the forehead region a is fixed to the connection holder 16 by attaching a double-sided tape to the back surface thereof. The outer light emitting devices 24 (typically, flexible lamp panels) in the cheek regions B are mounted on the connecting fixture 16, and the outer light emitting devices 24 (typically, flexible lamp panels) in the cheek regions B are fixed to the connecting fixture 16 by attaching double-sided adhesive tapes to the back surfaces thereof. The outer side light emitting device 24 (typically, a flexible lamp panel) on the chin area C is mounted on the connection holder 16, and the outer side light emitting device 24 (typically, a flexible lamp panel) on the chin area C is fixed by attaching a double-sided tape to the back of the connection holder 16. As shown in fig. 7, the skin proximity detector is provided on the outer light emitting device 24 (typically a flexible lamp panel) in the chin area C.

6. The main control board 4 is assembled on the connecting and fixing piece 16, and the cables on the outer side light-emitting devices 24 (generally flexible lamp panels) are connected to the main control board 4 through four screws for fixing.

7. As shown in fig. 5 and 6, the far infrared heating films 22 on the cheek regions B are assembled to the fixing frames 26 on the cheek regions B, and then assembled to the corresponding regions of the main cover 12, and the first fasteners 262 on the fixing frames 26 on the cheek regions B are engaged with the second fasteners 120 on the main cover 12. The first buckle 262 is a protrusion structure, and the second buckle 120 is a slot structure. Further, as shown in fig. 5 and 6, 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 lid 12, and the first buckle 262 on the fixing frame 26 on the forehead area a is buckled with the second buckle 120 on the main lid 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. 9 and 10, the main cover 12 and the connection fixture 16 are assembled and screwed by the fourth screw hole 122 of the main cover 12 and the fourth screw post 166 of the connection fixture 16.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The present invention has been described in terms of the preferred embodiment, and it is not intended to be limited to the embodiment. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A mask control method for a mask including at least one far-infrared heat generating layer and at least one outside light emitting device that emits light that can be irradiated to an inside of the far-infrared heat generating layer through the far-infrared heat generating layer, the mask control method comprising:

controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode; and/or

Controlling at least one outer side light-emitting device to work so as to realize a non-far infrared nursing mode; and/or

And controlling at least one far infrared heating layer and at least one outer side light-emitting device to work so as to realize a far infrared and non-far infrared combined nursing mode.

2. A mask control method according to claim 1, wherein the step of controlling at least one far-infrared heating layer and at least one outside light-emitting device to operate so as to realize a far-infrared and non-far-infrared combined nursing mode comprises:

controlling at least one far infrared heating layer to work continuously or intermittently;

and controlling at least one of the outer light-emitting devices to work continuously or intermittently.

3. The mask control method according to claim 2, wherein the step of controlling the at least one far-infrared heating layer and the at least one outside light-emitting device to work so as to realize a far-infrared and non-far-infrared combined nursing mode specifically comprises:

controlling at least one of the outer light-emitting devices to work in response to a combined starting instruction;

and responding to a combined starting instruction, controlling at least one far infrared heating layer to work, and closing at least one far infrared heating layer after at least one far infrared heating layer works for a first preset time.

4. A mask control method according to claim 3, wherein the step of controlling operation of at least one of the lateral light emitting devices in response to a combined activation command specifically comprises:

and responding to a combination starting instruction to start timing, controlling at least one outer side light-emitting device to work after a first preset time, and turning off at least one outer side light-emitting device after at least one outer side light-emitting device works for a second preset time.

5. A mask control method according to claim 1, further comprising:

in response to a combined starting instruction, controlling at least one outer side light-emitting device and/or at least one far infrared heating layer to work,

and timing after at least one far infrared heating layer finishes working, generating a finishing instruction after timing to a third preset time, and finishing reminding.

6. The mask control method according to any one of claims 1 to 5, wherein the at least one far infrared heat generating layer includes a chin far infrared heat generating layer provided corresponding to a chin region, a cheek far infrared heat generating layer provided corresponding to a cheek region, and a forehead far infrared heat generating layer provided corresponding to a forehead region, and the step of controlling the at least one far infrared heat generating layer to operate includes:

controlling the forehead far infrared heating layer, the cheek far infrared heating layer and the chin far infrared heating layer to sequentially and circularly work according to preset circulating steps until the total heating time reaches the target time, wherein the preset circulating steps are as follows:

after the forehead far infrared heating layer is controlled to be heated to a first temperature, the cheek far infrared heating layer is controlled to be started to be heated for a first time period, and then the forehead far infrared heating layer and the cheek far infrared heating layer are stopped to be heated;

and opening the chin far infrared heating layer to heat to a second temperature.

7. The mask control method according to any one of claims 1 to 5, wherein the at least one lateral light-emitting device includes at least one of a lateral chin light-emitting device provided in correspondence with a chin region, a lateral cheek light-emitting device provided in correspondence with a cheek region, and a lateral forehead light-emitting device provided in correspondence with a forehead region, and the step of controlling the at least one lateral light-emitting device to operate includes:

controlling the lateral chin light-emitting device, the lateral cheek light-emitting device and the lateral forehead light-emitting device to work synchronously.

8. A mask control method according to any one of claims 1 to 5,

the outer light emitting device can generate light with the wavelength of 620nm-1000 nm; and/or

The light transmittance of the far infrared heating layer is more than or equal to 85 percent; and/or

A preset distance is arranged between the far infrared heating layer and the outer side light-emitting device, and the preset distance is more than or equal to 2mm and less than or equal to 15mm; and/or

The far infrared generates heat and is provided with the heating member in the layer, the heating member can produce the far infrared light that the wavelength is greater than 7.8 um.

9. A mask control device, for a mask including at least one far-infrared heat generating layer and at least one outside light emitting device, the light emitted from the outside light emitting device being capable of passing through the far-infrared heat generating layer to irradiate the inside of the far-infrared heat generating layer, the mask control device comprising:

the first control module is used for controlling at least one far infrared heating layer to work so as to realize a far infrared nursing mode; and/or

The second control module is used for controlling at least one outer side light-emitting device to work so as to realize a non-far infrared nursing mode; and/or

And the third control module is used for controlling the work of at least one far infrared heating layer and at least one outer side light-emitting device so as to realize a far infrared and non-far infrared combined nursing mode.

10. A readable storage medium having a program or instructions stored thereon, which when executed by a processor, implement the steps of a mask control method according to any one of claims 1 to 8.

11. A mask, comprising:

the mask control device of claim 9; and/or

The readable storage medium of claim 10.

12. A mask, comprising:

a far infrared heating layer;

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

a mask control device according to claim 9, and/or a readable storage medium according to claim 10.

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