CN109662694B - Facial mask, face mask, mobile terminal and system - Google Patents

Abstract

The invention discloses a facial mask, a face mask, a mobile terminal and a system. According to the embodiment provided by the invention, the nutrient content absorption condition of different areas of the face of a user of the facial mask can be deduced according to the detection of the residual components of the facial mask, the face state is judged, and the time for applying the facial mask is determined, so that the problems of facial mask material quality and facial mask applying time of the individual in the prior art are solved, the waste caused by too short facial mask applying time or moisture resorption caused by too long facial mask applying time can be avoided, and the user experience is effectively improved.

Description

Facial mask, face mask, mobile terminal and system

Technical Field

The invention relates to the technical field of sensors, in particular to a mask, a face mask, a mobile terminal and a system.

Background

At present, the common mask materials in the market are materials such as non-woven fabrics, silica gel, agar and the like, and the materials have the defects of poor adhesion with skin, air impermeability and the like. Meanwhile, because the skin conditions of each person have respective characteristics, the condition that the absorbing capacity of moisture and nutrient components is different does not need to be maintained by using the uniform standard mask applying time, and therefore, the mask applying time can be determined by monitoring the skin conditions of each person in real time.

Disclosure of Invention

In order to solve at least one of the above problems, the present invention provides in a first aspect a mask comprising

And the component content sensor is used for detecting the content of the components contained in the mask so as to present the components in a preset form.

Further, also comprises

The sound prompting device is used for presenting in a sound form when the content is less than the preset content; and/or

And the visual prompting device is used for presenting in a visual form when the content is less than the preset content.

Further, also comprises

A wireless transmitter for transmitting the content to a mobile terminal for display;

and the wireless receiver is used for receiving the external instruction.

Further, the component content sensor includes:

a nanopaper substrate;

the conductive film is positioned on the first surface of the nano paper substrate; and

connecting electrodes electrically connected to opposite ends of the conductive film,

wherein the resistance of the conductive thin film varies with the content of the component in the nanopaper substrate.

Further, also comprises

A micro-channel and a micro-chamber for storing liquid medicine are formed in a second surface of the nano-paper substrate opposite to the first surface;

a metal wire formed under the micro flow channel, the metal wire corresponding to the micro flow channel,

when the metal wire is electrified, the liquid medicine in the micro-chamber is guided to flow in the micro-channel.

Further, in response to the detection of the infrared light emission intensity of the face of the user on the facial mask, the metal wires are powered on, so that the liquid medicine in the micro-chamber is guided to the corresponding position of the user, of which the infrared light emission intensity is smaller than the initial threshold value, through the micro-channel.

Further, the component content sensor is a humidity sensor and/or an ion sensor.

In a second aspect, the present invention provides a mask for use with the mask of the first aspect, wherein the component content sensor comprises: a nanopaper substrate; the conductive film is positioned on the first surface of the nano paper substrate; and connecting electrodes electrically connected to opposite ends of the conductive thin film, respectively, wherein the resistance of the conductive thin film varies with the content of the components in the nanopaper substrate;

the mask further comprises a micro-channel formed in a second surface of the nano paper substrate opposite to the first surface and a micro-chamber for storing liquid medicine; the metal wire is formed below the micro flow channel and corresponds to the micro flow channel, and when the metal wire is powered on, liquid medicine in the micro chamber is guided to flow in the micro flow channel; in response to the detection of the infrared light emission intensity of the face of the facial mask user, the metal wiring is powered up, so that the liquid medicine in the micro-chamber is guided to the corresponding position of the infrared light emission intensity of the face of the user, which is smaller than the initial threshold value, through the micro-channel; and is

The mask comprises the infrared emission device and is used for emitting infrared light to the face of a user to which the mask is applied; and an infrared receiving device for receiving the light reflected from the user's face and sensing the light intensity of the light.

Further, the wireless transmitter is used for transmitting the light intensity to the mobile terminal for displaying;

and the wireless receiver is used for receiving the external instruction.

A third aspect of the present invention provides a mobile terminal for use with the mask of the first aspect, comprising

And the first display module displays a curve of the content changing along with time.

A fourth aspect of the invention provides a mobile terminal for use with the mask of the second aspect, comprising

The second display module is used for displaying the corresponding position of the point with the infrared light emission intensity smaller than the initial threshold value on the facial graph in the form of the facial graph of the user; and

and the sending module responds to the touch of the user on the corresponding position, sends an instruction to the mask, and indicates that the metal wiring between the micro-chamber and the corresponding position is electrified, so that the liquid medicine in the micro-chamber is guided to the corresponding position through the micro-channel.

A fifth aspect of the invention provides a system comprising

The mask of the first aspect;

the mask of the second aspect; and

the mobile terminal of the third or fourth aspect.

The invention has the following beneficial effects:

the invention relates to a facial mask, a manufacturing method of the facial mask, a using method of the facial mask, the facial mask and a skin care system, aiming at the problems of the material of the existing facial mask and the application time of an individual to the facial mask, and provides the facial mask, the using method of the facial mask, the facial mask and the skin care system.

Drawings

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

FIG. 1 shows a schematic view of a mask according to one embodiment of the present invention;

FIG. 2 shows a schematic view of a composition sensor according to an embodiment of the invention;

fig. 3 shows a schematic circuit configuration diagram of the mask according to an embodiment of the present invention;

FIGS. 4a-4c are schematic diagrams illustrating moisture content profiles according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating a mobile terminal according to an embodiment of the present invention;

fig. 6 shows a schematic diagram of a mobile terminal according to another embodiment of the invention;

fig. 7 is a schematic view showing the structure of a micro flow channel and a micro reservoir of the mask according to an embodiment of the present invention;

fig. 8 shows a schematic diagram of a mobile terminal according to yet another embodiment of the invention;

FIG. 9 shows a schematic view of a mask according to an embodiment of the present invention;

FIG. 10 shows a schematic top view of a mask according to an embodiment of the present invention;

fig. 11 shows a block diagram of the system according to an embodiment of the invention.

Detailed Description

In order to more clearly illustrate the invention, the invention is further described below with reference to preferred embodiments and the accompanying drawings. Similar parts in the figures are denoted by the same reference numerals. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and is not to be taken as limiting the scope of the invention.

As shown in fig. 1, one embodiment of the present invention provides a mask including an ingredient content sensor for detecting the content of an ingredient contained in the mask for presentation in a preset form. Because the facial mask is in the process of applying, facial skin of the facial mask user absorbs nutrition and moisture from the facial mask, when moisture is less, the facial mask is continuously applied, but the moisture of the face of the user is caused to be absorbed back to the facial mask, so that the component content in the facial mask needs to be detected in time, the facial mask is prevented from absorbing moisture from the face of the user, and the detected component content is presented.

In a preferred embodiment, the mask further comprises an acoustic prompt device for presenting in an acoustic form when the content of the component of the mask is less than a preset content; and the visual prompting device is used for presenting in a visual form when the content is less than the preset content. For example, the determination is performed according to the detected moisture content, and if the moisture content does not meet the preset threshold, the facial mask performs voice prompt, visual prompt or voice and visual prompt. Meanwhile, considering that the mask is a disposable consumable, in order to reduce the manufacturing cost of the mask, the mask further comprises a wireless transmitter and a wireless receiver, wherein the wireless transmitter is used for transmitting the content to a mobile terminal for display, and the wireless receiver is used for receiving an external instruction.

In a specific example, the facial mask uses the nano paper as a substrate, the nano paper is specifically nano fiber paper, and in order to homogenize paper pulp into a product made of nano cellulose, the product has good biocompatibility, is degradable, has adjustable water absorption, good adhesiveness with a human body and good air permeability, so that the defects of poor adhesiveness, air impermeability and the like existing in materials such as non-woven fabrics, silica gel, agar and the like can be overcome by using the nano paper as the substrate. The component sensor is a graphene film sensor array and comprises a humidity sensor and an ion sensor, the component sensor is the humidity sensor when the mask is a moisturizing mask, and the component sensor is the humidity sensor and the ion sensor when the mask is a nourishing mask, such as a collagen-supplementing mask.

As shown in fig. 2, the composition sensor includes a nanopaper substrate, a thin film on a first surface of the nanopaper substrate, and connection electrodes electrically connected to opposite ends of the thin film, respectively, wherein the resistance of the conductive thin film varies with the content of the composition in the nanopaper substrate. The film comprises a plurality of conductive elements, adjacent conductive elements are mutually overlapped, and the resistance of the film changes along with the expansion change of the nano paper substrate in a humidity change environment. The component sensor takes nano paper as a substrate, graphene is sprayed on the substrate to form a graphene film, electrodes are formed at two ends of the film perpendicular to the substrate, and the resistance of the graphene film changes according to the conductivity of conductive elements which are mutually lapped in the film; when the moisture content of the nano paper substrate is more and the expansion is larger, the lower the lapping degree between the conductive elements in the film is, the larger the resistance of the film is, so that the component content of the nano paper substrate can be detected according to the change of the resistance in the film.

In this embodiment, when the mask is taken out of the package, the nano paper is filled with the nutrient solution, the nano paper expands to the maximum extent, the conductive elements loaded on the nano paper have the least lap joints, and the sheet resistance is the largest. Along with the absorption of the facial skin to the liquid and the volatilization of the liquid in the air, the nutrient solution in the nano paper mask can be reduced, the expansion degree of the nano paper mask is reduced, and in the process, the resistance values of the sensors distributed at all parts of the mask can be changed so as to reflect the change of the humidity of the mask. Because the actual humidity of the face of the user is not easy to monitor in the state of applying the facial mask, the optimal time for taking off the facial mask can be judged by detecting the humidity change of the base of the facial mask in the process of applying the facial mask. Similarly, in the present embodiment, for a nutritional mask for supplementing collagen, the content of collagen remaining in the mask is sensed by using the graphene ion sensor array, and the degree of deficiency and the supplementing effect of the user on collagen can also be determined by the change of the content.

According to the working principle of the component sensor, as shown in fig. 3, the circuit structure of the facial mask is schematically illustrated, and the facial mask comprises the component sensor, a power supply device, a sampling resistor and a controller. For example, the component sensor detects the moisture content of the nano paper substrate, the resistance of the component sensor is reduced according to the reduction of the moisture content, the current of the circuit is increased accordingly, the circuit further comprises a sampling resistor and a controller, the controller compares the sampling voltage of the sampling resistor with a preset voltage value, if the sampling voltage reaches the preset voltage value, the resistance of the component sensor is reduced to a critical state, namely the moisture content of the facial mask is basically exhausted, moisture can not be provided for the skin any more, and at the moment, a user of the facial mask is reminded to take down the facial mask to avoid the facial mask from sucking back the moisture in the skin of the user.

In this embodiment, when the user starts applying the mask, a power supply device provided on the mask, which is a battery or a super capacitor acting as a battery, supplies power to the component sensor and the controller. The component sensor senses the content of components in the mask, the current of the circuit changes, and the controller processes, analyzes and judges according to the current change. As shown in fig. 4a, if the mask moisture rapidly drops over time, it indicates severe skin hydration; as shown in fig. 4b, if the mask humidity slowly decreased over time in the higher humidity range, it indicated adequate skin moisturization; as shown in fig. 4c, if the mask moisture slowly drops over time in the lower moisture range, this indicates that the moisture has been extracted from the mask. The controller processes, analyzes and judges according to the received component content, and when the controller judges that the component content does not meet the preset content, the controller prompts through a sound prompting device or a visual prompting device, or a sound prompting device and a time prompting device: the sound prompting device is provided with a micro loudspeaker on the facial mask, for example, when the controller judges that the moisture content of the nano paper substrate detected by the component sensor is less than the preset content, the micro loudspeaker prompts a user of the facial mask to take down the facial mask; the visual prompting device is, for example, provided with a light emitting diode on the facial mask, and the light emitting diode is lightened when prompting is needed, or the light emitting diode is lightened when the resistance of the component sensor is smaller and larger as the corresponding current is larger and larger in the process that the moisture content of the facial mask is gradually reduced; or displaying the sensed component content through a display device arranged on the mask; the present invention is not limited in this regard, as long as the prompting effect is achieved.

In a preferred embodiment, the mask comprises a plurality of component sensors distributed on different areas of the face, and the controller receives the component contents sensed by the component sensors and processes, analyzes and judges the component contents according to the component contents, considering that the skin conditions of different areas of the face are different, such as the T-shaped area near the nose of the mixed skin is the dry and the most water-deficient, and the skin around the lip is easy to be water-deficient compared with other areas. When the controller judges that the moisture in the mask is close to the critical value according to the sensing signals of the T-shaped area and the lip area, the prompting device is controlled to prompt information; or the controller can also judge that the skin has sufficient water supplement and reaches the absorption limit by judging the rate of water reduction in a certain time and keeping a stable state after the water is reduced to a certain degree, and the facial mask can be taken down; or the controller judges by adopting the two indexes simultaneously, and the time for applying the mask is determined more accurately.

In this embodiment, the mask may also transmit the content to a mobile terminal for display via a wireless transmitter, and a wireless receiver receives external instructions. For example, the wireless transmitter and receiver may be bluetooth, or may be an electronic tag with low power consumption and low cost. I.e., by an external device used in conjunction with the mask, such as a mobile terminal, which receives the content and processes, analyzes, and determines it. For example, when the user of the mask starts to apply the mask, the mobile terminal starts and receives the contents sensed by the composition sensor, and through a large amount of sensing data, the mobile terminal can plot and display a time-varying curve of the contents, as shown in fig. 5.

Further, the mobile terminal can draw a plurality of curves according to the content sensed by the component sensors in different areas of the face, and photograph the face of the mask user through the mobile terminal to display a specific face image on the photograph, as shown in fig. 6, and the mask user can display the content change curve as shown in fig. 5 by clicking the specific position of the face image. Further, the mobile terminal may also perform a prompt according to the content of components in different areas of the face, for example, in a facial picture, a prompt is performed by lighting lights at different positions according to the moisture content of the mask or a prompt is performed by changing the displayed background color, or a voice prompt is performed through a speaker of the mobile terminal.

Further, in consideration of the limited battery capacity on the mask, a mask user may send a sensing instruction to a controller of the mask through a mobile terminal, the controller controlling the component sensor to sense according to the received sensing instruction; or presetting a sensing time node in the mobile terminal, and sending an instruction to the controller for sensing by the mobile terminal according to the sensing time node.

In another preferred embodiment, as shown in fig. 7, the mask further comprises a micro channel formed in a second surface of the nanopaper substrate opposite to the first surface and a micro chamber for storing a liquid medicine; and the metal wire is formed below the micro-channel and corresponds to the micro-channel, and when the metal wire is powered on, the liquid medicine in the micro-chamber is guided to flow in the micro-channel. For example, when the skin is sunburned, the mask of the embodiment can be used for applying medicine to various positions on the skin, the micro-chamber is stored with the medicine for relieving sunburn, the nano-paper substrate is made of hydrophobic materials, the medicine is stored in the substrate and does not flow, when voltage is applied to the metal wiring below the micro-channel, the medicine is driven to flow into the micro-channel from the micro-chamber, and the medicine is remained to various positions according to the flow direction of the micro-channel and applied to the affected part, so that medicine application to various positions on the skin is realized.

In a preferred embodiment, in response to the detection of the infrared emission intensity of the face of the user facing the facial mask, the metal wire is powered on, so as to guide the liquid medicine in the micro-chamber to the corresponding position where the infrared emission intensity of the face of the user is smaller than the initial threshold value through the micro-channel. For example, an external device used in cooperation with the facial mask performs infrared detection on the face of a user of the facial mask, judges whether the condition that the medicine needs to be applied to the skin of the face exists in real time, and energizes the metal wiring according to the corresponding face position so as to apply the medicine according to a specific position once the medicine needs to be applied. Meanwhile, the mask can also receive an instruction of an external device to apply medicine to a specified position, such as an instruction of a mobile terminal. When the controller determines that the position with serious sunburn is the forehead according to an external infrared detection signal or a mobile terminal instruction, the controller calculates the micro-bin with the closest distance and powers up the metal wires corresponding to the micro-channels required to be used according to the distribution of the micro-channels, so that the medicine is driven to flow according to a set route and coated on the skin, and the problem of sunburn of the skin is solved.

Further, when a mask user uses the mobile terminal to check the mask use condition and the detection condition, the medicine can be applied through the mobile terminal, for example, the mobile terminal marks the user picture displayed according to the infrared detection signal, as shown in fig. 8, the mask user can click the mark on the mobile terminal to control the mask to apply medicine to the skin corresponding to the position.

Corresponding to the facial mask, as shown in fig. 5 and 6, an embodiment of the present invention further provides a mobile terminal, which is used in cooperation with the facial mask, and includes a first display module for displaying a time-varying curve of the content. The method is specifically represented as an application program on a mobile terminal, the application program draws a relation curve of component content and time according to a received sensing signal, for example, after a mask user applies a mask, the humidity sensor senses the moisture content and sends the moisture content to the mobile terminal through a wireless transmitter, the mobile terminal processes, analyzes and judges according to the received moisture content sensed by the plurality of humidity sensors, and draws a plurality of curves of the moisture content changing along with time for different positions and displays the curves in the application program, for example, a T-shaped part, a forehead or a chin position where oil is easy to be extracted, so that the mask user can intuitively judge the optimal time for taking off the mask according to the relation curve.

Corresponding to the facial mask provided by the above embodiments, an embodiment of the present invention further provides a facial mask, which is used in cooperation with the facial mask, and since the facial mask provided by the embodiments of the present application corresponds to the facial masks provided by the above embodiments, the foregoing embodiments are also applicable to the using method provided by the present embodiment, and detailed description is omitted in the present embodiment.

As shown in fig. 9 and 10, an embodiment of the present invention further provides a mask for use with the mask described above, the mask having a composition content sensor including: a nanopaper substrate; the conductive film is positioned on the first surface of the nano paper substrate; and connecting electrodes electrically connected to opposite ends of the conductive thin film, respectively, wherein the resistance of the conductive thin film varies with the content of the components in the nanopaper substrate; the mask further comprises a micro-channel formed in a second surface of the nano paper substrate opposite to the first surface and a micro-chamber for storing liquid medicine; the metal wiring is formed below the micro flow channel and corresponds to the micro flow channel, and when the metal wiring is powered on, the liquid medicine in the micro chamber is guided to flow in the micro flow channel; in response to the detection of the infrared light emission intensity of the face of the facial mask user, the metal wiring is powered up, so that the liquid medicine in the micro-chamber is guided to the corresponding position of the infrared light emission intensity of the face of the user, which is smaller than the initial threshold value, through the micro-channel; and the mask comprises the infrared emission device for emitting infrared light to the face of the user to which the mask is applied; and an infrared receiving device for receiving the light reflected from the user's face and sensing the light intensity of the light.

In one specific example, the mask may monitor skin for pox and allergies in real time. Generally, pox is an inflammation caused by local pore blockage on the skin, when tissues are stimulated by inflammatory factors, transient vasospasm rapidly occurs through nerve reversal, followed by dilation of arterioles and capillaries, local blood flow is accelerated, blood pressure is increased, blood flow is increased, and hyperemia occurs. Similarly, allergy is caused by local congestion of capillaries, which leads to poor blood circulation. Therefore, in this embodiment, a plurality of infrared emitting devices and infrared receiving devices are disposed on the mask to monitor the blood circulation around the face by a photoplethysmography method. Specifically, the detection is performed by a photoelectric volume method, which is a non-invasive detection method for detecting blood volume change in living tissue by photoelectric means, when a light beam of certain wavelength infrared light is irradiated onto the skin surface, the light beam is transmitted to a photoelectric receiver (i.e., an infrared receiving device) in a transmission or reflection mode, and in the process, the light intensity detected by the receiving device is weakened due to the absorption and attenuation effects of skin muscles and blood at the detection end, wherein the absorption of the light by the skin muscles, tissues and the like is constant in the whole blood circulation, and when the blood flow is large, the light absorption amount is maximum and the detected light intensity is minimum; when the blood flow is small, the detected light intensity is maximum, and the light intensity change signal is converted into an electric signal, so that the change of the blood flow can be obtained. Namely, the blood flow in the micro-vessels such as the arterioles, the capillaries and the like in the peripheral vessels on the facial skin can be effectively obtained through the detected light intensity signals, and the blood flow contains rich microcirculation physiological and pathological information. As shown in fig. 10, the mask includes an infrared emitting device for emitting infrared light to the skin to which the mask is applied and an infrared receiving device; the infrared receiving device is used for receiving the light reflected or transmitted from the skin, sensing the light intensity of the light and outputting a light intensity signal to the controller; the controller judges whether the light intensity signal meets a preset light intensity range or not, and if not, the light intensity signal is presented according to a preset form.

Similar to the mask, the mask can prompt through a sound prompt device and a visual prompt device: for example, one or more of a micro-speaker, a light emitting diode and a display device are arranged on the mask, when the controller judges that the light intensity signal does not meet a preset light intensity range, the local hyperemia phenomenon exists at the position corresponding to the facial skin of a mask user, meanwhile, the judgment is carried out by combining the time of applying the mask and the light intensity signal in the time, if the light intensity signal at the position with the hyperemia state is basically the same as the light intensity signal detected when the mask is just applied, and the light intensity signal is not intensified or even lightened in the time period of applying the mask, the judgment is that acne or other inflammation exists before the mask is applied by the user, and the medicine can be applied to the position with the hyperemia state through a micro-channel of the mask; if the light intensity signal of the position with the congestion condition is different from the light intensity signal detected when the facial mask is applied, the congestion condition does not occur when the facial mask is applied, and the congestion condition is generated or aggravated only during the facial mask application, the hyperemia condition at the position is judged to be an allergy phenomenon caused by the facial mask or worse influence on damaged skin, and a user of the facial mask is prompted to take down the facial mask as soon as possible to prevent the hyperemia condition from aggravating. Therefore, the mask can monitor the face condition of a user in real time and detect whether the mask is suitable for the user, particularly for the user who is sensitive to skin and easy to be allergic.

In a preferred embodiment, the mask further comprises a wireless transmitter for transmitting the light intensity to a mobile terminal for display and a wireless receiver for receiving external instructions. The wireless transmitter and the receiver can be Bluetooth or electronic tags with low power consumption and low cost. Namely, the mask transmits the light intensity signal through the wireless transmitter, the mobile terminal receives the light intensity signal, processes, analyzes and judges the signal and displays the signal on the mobile terminal, and a mask user can check the signal sensed by the mask and the facial condition in real time through the mobile terminal and take medicine or take down the mask as soon as possible according to the prompt. The mask can receive a detection instruction sent by the mobile terminal, send an infrared light signal to the face of a user of the mask according to the detection instruction, receive light reflected from the face of the user, and sense the light intensity of the light.

Corresponding to the mask, as shown in fig. 8, an embodiment of the present invention further provides a mobile terminal, for use with the mask, including a second display module, for displaying, in the form of a facial graph of a user, a corresponding position on the facial graph of a point with an infrared light emission intensity smaller than an initial threshold; and the sending module is used for responding to the touch of the user on the corresponding position, sending an instruction to the mask and indicating that the metal wiring between the micro-chamber and the corresponding position is electrified, so that the liquid medicine in the micro-chamber is guided to the corresponding position through the micro-channel.

Based on the facial mask, the face mask and the mobile terminal, as shown in fig. 11, an embodiment of the present invention further provides a system, including the facial mask, the face mask and the mobile terminal, where the facial mask sends a sensing signal to the mobile terminal, receives a light intensity signal sent by the face mask, and receives an instruction sent by the mobile terminal, the face mask sends a light intensity signal to the mobile terminal or the facial mask, and receives an instruction sent by the mobile terminal, and the mobile terminal is configured to receive, perform calculation, analysis and judgment according to the sensing signal and the light intensity signal, and send and display an instruction to the facial mask and the face mask. The mobile device can be an intelligent electronic device such as a mobile phone, a PAD and the like, performs data processing, analysis and judgment by receiving detection signals of the mask and the face mask, sends prompt information to a user according to a judgment result, can also store the past information of the user, and provides skin change and diagnosis within preset time for the user.

Aiming at the problems of the material quality of the existing facial mask and the application time of an individual to the facial mask, the invention provides the facial mask, the manufacturing method of the facial mask, the using method of the facial mask, the facial mask and the skin care system.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations or modifications may be made on the basis of the above description, and all embodiments may not be exhaustive, and all obvious variations or modifications may be included within the scope of the present invention.

Claims (8)

1. A facial mask is characterized by comprising

A component content sensor for detecting the content of a component contained in the mask so as to be presented in a preset form;

the component content sensor includes:

a nanopaper substrate;

the conductive film is positioned on the first surface of the nano paper substrate; and

connecting electrodes electrically connected to opposite ends of the conductive film,

wherein the resistance of the conductive thin film varies with the content of the component in the nanopaper substrate;

the mask further comprises:

a micro-channel and a micro-chamber for storing liquid medicine are formed in a second surface of the nano-paper substrate opposite to the first surface;

a metal trace formed below the micro flow channel, the metal trace corresponding to the micro flow channel;

in response to the detection of the infrared light emission intensity of the face of the facial mask user, the metal wiring is powered up, so that the liquid medicine in the micro-chamber is guided to the corresponding position of the infrared light emission intensity of the face of the user, which is smaller than the initial threshold value, through the micro-channel;

the mask further comprises:

a wireless transmitter for transmitting the content to a mobile terminal for display;

and the wireless receiver is used for receiving the external instruction.

2. The mask pack of claim 1, further comprising

The voice prompt device is used for presenting in a voice form when the content is less than the preset content; and/or

And the visual prompting device is used for presenting in a visual form when the content is less than the preset content.

3. The mask pack according to claim 2,

the component content sensor is a humidity sensor and/or an ion sensor.

4. A mask for use with the mask according to any one of claims 1 to 3, wherein the mask comprises a component content sensor for detecting the content of a component contained in the mask for presentation in a predetermined form;

wherein the component content sensor includes: a nanopaper substrate; the conductive film is positioned on the first surface of the nano paper substrate; and connecting electrodes electrically connected to opposite ends of the conductive thin film, respectively, wherein the resistance of the conductive thin film varies with the content of the components in the nanopaper substrate;

the facial mask also comprises a micro-channel formed in a second surface of the nano paper substrate opposite to the first surface and a micro-chamber for storing liquid medicine; the metal wiring is formed below the micro flow channel and corresponds to the micro flow channel, and when the metal wiring is powered on, the liquid medicine in the micro chamber is guided to flow in the micro flow channel; in response to the detection of the infrared light emission intensity of the face of the facial mask user, the metal wiring is powered up, so that the liquid medicine in the micro-chamber is guided to the corresponding position of the infrared light emission intensity of the face of the user, which is smaller than the initial threshold value, through the micro-channel; and is

The mask comprises an infrared emission device for emitting infrared light to the face of a user to which the mask is applied; and an infrared receiving device for receiving the light reflected from the user's face and sensing the light intensity of the light.

5. A mask according to claim 4,

a wireless transmitter for transmitting the light intensity to a mobile terminal for display;

and the wireless receiver is used for receiving the external instruction.

6. A mobile terminal for use with a mask according to any one of claims 1-3, comprising

And the first display module displays a curve of the content changing along with time.

7. A mobile terminal for use with a mask according to any one of claims 1-3, comprising

The second display module is used for displaying the corresponding position of the point with the infrared light emission intensity smaller than the initial threshold value on the facial graph in the form of the facial graph of the user; and

and the sending module responds to the touch of the user on the corresponding position, sends an instruction to the mask and indicates that the metal wiring between the micro-chamber and the corresponding position is electrified, so that the liquid medicine in the micro-chamber is guided to the corresponding position through the micro-channel.

8. A system for monitoring a user's face, comprising

The mask pack of any one of claims 1-3;

the mask of any one of claims 4-5; and

a mobile terminal according to claim 6 or 7.

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