CN216319507U - Facial mask type beauty instrument - Google Patents

Abstract

A facial mask-type cosmetic apparatus comprising a flexible facial mask, the flexible facial mask comprising: a first flexible layer; the second flexible layer and the second flexible layer are arranged in a stacked mode, and openings of eyes and mouths which correspond to each other are arranged on the second flexible layer and the second flexible layer; the functional layers are arranged between the first flexible layer and the second flexible layer, and each functional layer is a carbon nanotube layer; a plurality of electrodes, each electrode electrically connected to one functional layer or a pair of functional layers, wherein the facial beauty instrument further comprises at least one flexible conductive film, which in use is disposed between the flexible facial mask and the skin of the user's face.

Description

Facial mask type beauty instrument

Technical Field

The utility model relates to a facial mask type beauty instrument, in particular to a facial mask type beauty instrument with a carbon nano tube layer as a functional layer.

Background

Along with the continuous improvement of the living standard of people's materials, people's demand for beauty is also higher and higher. Along with this, products of the beauty flexible mask and the beauty instrument are sold. Especially, the beauty instrument can generate micro-current on the face of a person to stimulate the face, can achieve the effects of beautifying and nourishing the face, and is popular with more and more people. The existing beauty instruments are all hand-held beauty instruments. When in use, the mirror needs to be held by a person for operation and also needs to stand in front of the mirror. This makes the hand-held beauty instrument very inconvenient to use. Moreover, the hand-held beauty instrument needs to be operated on one face and then on the other face, so that the action parts of the faces are not consistent easily due to manual operation, or the force is different, and the face is possibly asymmetric after long-time use.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide a facial mask type cosmetic apparatus to overcome the above disadvantages.

A facial mask formula beauty instrument, includes a flexible facial mask and at least one slice of flexible conductive thin film, and this at least one slice of flexible conductive thin film sets up between flexible facial mask and user's facial skin when using, flexible facial mask includes: a first flexible layer; the first flexible layer and the second flexible layer are arranged in a stacked mode, and openings of eyes and mouths which correspond to each other are formed in the first flexible layer and the second flexible layer; the functional layers are arranged between the first flexible layer and the second flexible layer, and each functional layer is a carbon nanotube layer; a plurality of electrodes, each electrode electrically connected to one functional layer or a pair of functional layers.

Compared with the prior art, the facial mask type beauty instrument provided by the utility model can be directly attached to the face of a person without holding the hands, so that the hands of the user are liberated; simultaneously, facial mask formula beauty instrument includes a flexible conductive film, and this flexible conductive film is used for keeping apart flexible facial mask and user's skin, prevents that flexible facial mask from polluting by skin to make the reuse that flexible facial mask can be convenient, flexible conductive layer can change at will because of the cost angle, simultaneously, because flexible conductive film is conducting material, can not influence flexible facial mask and provide the electro photoluminescence to user's skin.

Drawings

Fig. 1 is a schematic structural view of a mask type beauty treatment apparatus according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a flexible mask provided by a first embodiment of the present invention.

Fig. 3 is a schematic numbering view of functional layers in the facial mask type beauty instrument according to the first embodiment of the present invention.

Fig. 4 is a schematic structural view of a mask type beauty instrument according to a second embodiment of the present invention.

Fig. 5 is a schematic structural view of a mask type beauty instrument according to a third embodiment of the present invention.

Description of the main elements

Facial mask type beauty instrument 100

A flexible mask 10; 20; 30

Flexible conductive film 12

A first flexible layer 102; 202; 302

A functional layer 104; 204; 304

A second flexible layer 106; 206; 306

Opening 1062

An electrode 108; 208; 308

A power inlet 110; 210; 310

Controller 40

The following detailed description will further illustrate the utility model in conjunction with the above-described figures.

Detailed Description

The mask-type beauty instrument and the method for using the same according to the present invention will be described in detail with reference to the accompanying drawings and embodiments.

Referring to fig. 1, a first embodiment of the present invention provides a facial mask type cosmetic apparatus 100. The facial mask type beauty instrument comprises a flexible facial mask 10 and a flexible conductive film 12. The flexible mask 10 and the flexible conductive film 12 are provided with eye and mouth openings corresponding to each other. The flexible mask 10 is provided with a power inlet 110. The facial mask beauty apparatus 100 may further include a controller 40, the controller 40 being configured to control the flexible facial mask 10. The controller 40 can be electrically connected to the flexible mask 10 through a power access 110.

Referring to fig. 2, the flexible mask 10 includes: a first flexible layer 102; a second flexible layer 106, the first flexible layer 102 and the second flexible layer 106 are stacked (for clarity, the first flexible layer 102 and the second flexible layer 106 are shown separately in fig. 2), and the first flexible layer 102 and the second flexible layer 106 are provided with openings (not shown) for eyes and mouths corresponding to each other; and a plurality of functional layers 104, the plurality of functional layers 104 disposed between the first flexible layer 102 and the second flexible layer 106; the plurality of functional layers 104 are symmetrically or regularly distributed, wherein each pair or each functional layer 104 of the plurality of functional layers 104 is electrically connected to one electrode 108. When the number of the electrodes 108 is defined as K (K ═ 1, 2, 3, 4, 5 … …), the number of the functional layers 104 is defined as K (K ═ 1, 2, 3, 4, 5 … …) pairs or K. The controller 40 is electrically connected to the K electrodes 108, and the K electrodes 108 control the plurality of functional layers 104 in the flexible mask 100. The number of electrodes 108 is independent of the position of their corresponding functional layer 104, and the corresponding electrode numbers of adjacently positioned functional layers 104 may not be adjacent. When the stimulation device is applied, voltage is applied between the two electrodes 108 in a circulating mode in a mode of 1 and 2, 2 and 3, 3 and 4 … … K-1 and K, so that current is input to the two pairs of functional layers 104 or the two functional layers 104 corresponding to each two electrodes 108 in a circulating mode, and the purpose of sequentially stimulating the skin in a circulating mode is achieved. The number of the functional layers 104 is not limited, and the functional layers can be arranged at any position of the flexible mask 100 according to requirements. The area of the functional layer 104 may be different and may be adjusted as desired. In this embodiment, the number of the functional layers 104 is 8, the number of the electrodes 108 is 4, each electrode 104 is electrically connected to a pair of functional layers 104 symmetrically distributed at two cheek positions of the flexible mask 100, and the area of the functional layers 104 is gradually reduced from top to bottom.

The flexible conductive film 12 is adapted to be directly attached to the face of a user. The flexible conductive film 12 is made of a conductive material, has certain flexibility, and can be attached to the face of a user. Preferably, the flexible conductive film 12 has a certain viscosity, and has a certain bonding force with the face of the user, so that the flexible conductive film can be more fit. In this embodiment, the flexible conductive film 12 is a hydrogel. The hydrogel has certain viscosity, so that the flexible mask 10 can be completely attached to the surface of the hydrogel flexible conductive film, and the hydrogel can be closely attached to the skin of a user. Further, hydrogels have a certain resistance and moderate degree of conductivity. The flexible conductive film 12 may be replaceable. The facial mask beauty instrument 100 may include a plurality of flexible conductive films 12 for replacement.

The flexible conductive film 12 is used to separate the flexible mask 10 from the skin of the user, and prevent the flexible mask 10 from being contaminated by the skin, because the flexible conductive film 12 has a low cost and can be replaced at will, and meanwhile, because the flexible conductive film 12 is a conductive material, the flexible mask 10 is not affected in providing electrical stimulation to the skin of the user.

The controller 40 is electrically connected to the K electrodes for inputting electrical signals between any two electrodes 108. The K electrodes 108 are integrated into the power inlet 110. Referring to fig. 1, the controller 40 is connected to the first electrode 108 via a connection line, where the connection line includes K conductive wires insulated from each other. The controller 40 is provided with a plurality of function buttons for controlling the flexible mask 10. Each function button can control the current intensity, the current frequency, the position of input current and the like, so as to control the functional layer 104 inside the flexible facial mask and realize different functions. The flexible mask 10 can be movably connected to a controller 40. In this embodiment, the flexible facial mask 10 has a power inlet 110 on the second flexible layer 106, and the controller 40 is connected to the flexible facial mask 100 through the power inlet 110.

The material of the first flexible layer 102 or/and the second flexible layer 106 may be: non-woven fabrics, silk layers, common flexible cloth, porous flexible paper, silica gel and other flexible materials. The thickness of the first flexible layer 102 or/and the second flexible layer 106 can be set according to actual needs, and in this embodiment, the thickness of the first flexible layer 102 or/and the second flexible layer 106 is 10 micrometers to 100 micrometers. The second flexible layer 106 is in contact with the flexible conductive film 12. The second flexible layer 106 is provided with at least one opening 1062 at a position corresponding to the functional layer 104, so as to expose the functional layer 104. In fig. 2, the second flexible layer 106 is provided with a plurality of openings 1062 spaced apart from each other at a position corresponding to each functional layer 104. The opening 1062 serves to expose the functional layer 104 to be in direct contact with the flexible conductive film 12. The shape of the opening 1062 is not limited, and may be circular or square. The size of the opening 1062 should be smaller than the size of the corresponding functional layer 104 to prevent the functional layer 104 from falling off.

The K electrodes 108 are not limited in shape and may be conductive films, metal sheets, or metal leads. Preferably, the K electrodes 108 are all linear conductive films, and the thickness of the linear conductive film is not limited. The material of the electrode 108 may be metal, alloy, Indium Tin Oxide (ITO), Antimony Tin Oxide (ATO), conductive silver paste, conductive polymer, conductive carbon nanotube, or the like. The metal or alloy material may be aluminum, copper, tungsten, molybdenum, gold, titanium, neodymium, palladium, cesium or an alloy of any combination thereof. In this embodiment, the k electrodes 108 are all linear copper conductive films, and have a thickness of 1 μm. The electrode 108 should be made of a material that is flexible, thin, and thick.

When the facial mask type beauty instrument 100 is used, the functional layer 104 forms a loop with the skin of a user, and current flows through the skin of the user. Referring to fig. 3, when one electrode 108 is connected to a pair of functional layers 104, the numbering scheme is as shown in fig. 3. For clarity, the two functional layers 104 electrically connected to the same electrode 108 are numbered the same as the electrode 108 and are divided into a left functional layer 104 and a right functional layer 104 according to the position of the functional layer 104. When the flexible mask 10 is electrically connected to an external power source and an electrical signal is applied, a voltage is applied between any two electrodes 108. For example, when a voltage is applied between two electrodes numbered 1 and 2, two loops are formed at the same time. In the first loop, the current path is, in order, an external power source, electrode number 1 108, left functional layer number 1 104, flexible conductive film 12, the skin of the user's face, flexible conductive film 12, left functional layer number 2, and electrode number 2. The second loop, the path of the current, is in order the external power supply, electrode number 1 108, right functional layer number 1 104, flexible conductive film 12, the user's facial skin, flexible conductive film 12, right functional layer number 2, electrode number 2. That is, the two functional layers 104 on the left side and the two functional layers 104 on the right side are arranged in parallel. Any two functional layers 104 on the same side are connected in series, and micro current flows through the facial skin of a user between the two functional layers 104 connected in series, so that the effect of locally stimulating the skin is achieved. It is to be understood that when one electrode 108 is connected to one functional layer 104, a loop is formed only on the left or right side of the flexible mask 10.

From the above-mentioned formed loop, it can be seen that the flexible conductive film 12 should have a certain resistance, so that the current in the loop is transmitted to the skin of the user in the thickness direction, rather than only along the surface parallel to the flexible conductive film 12.

Each functional layer 104 may be a carbon nanotube layer. The carbon nanotube layer comprises a large number of uniformly distributed carbon nanotubes, and the carbon nanotubes are tightly bonded through van der waals force. The carbon nanotube layer may be a pure carbon nanotube layer including only carbon nanotubes. The thickness of the carbon nanotube layer is preferably 50 nm to 100 μm. The carbon nanotubes in the carbon nanotube layer include one or more of single-walled carbon nanotubes, double-walled carbon nanotubes and multi-walled carbon nanotubes. The carbon nanotube can be a pure carbon nanotube, and the pure carbon nanotube means that the surface of the carbon nanotube does not contain other impurities, such as amorphous carbon, functional groups and the like. The diameter of the single-walled carbon nanotube is 0.5 to 50 nanometers, the diameter of the double-walled carbon nanotube is 1.0 to 50 nanometers, and the diameter of the multi-walled carbon nanotube is 1.5 to 50 nanometers. The carbon nanotube layer may include carbon nanotubes arranged in an ordered manner, and the carbon nanotubes are preferentially aligned along a fixed direction. The carbon nanotube layer may also include a random arrangement of carbon nanotubes.

Preferably, the carbon nanotube layer is a self-supporting structure. The "self-supporting structure" is a structure in which the carbon nanotube layer can maintain its own specific shape without being supported by a support. The carbon nanotube structure of the self-supporting structure comprises a plurality of carbon nanotubes, the carbon nanotubes are mutually attracted by Van der Waals force to form a network structure, and the carbon nanotube structure is enabled to have a specific shape to form an integrated self-supporting carbon nanotube layer. Compared with an unsupported carbon nanotube layer, such as a carbon nanotube slurry layer, the self-supported carbon nanotube layer has better flexibility. Experiments prove that if the carbon nanotube slurry is coated inside the flexible mask 10 as the functional layer 104, after the carbon nanotube slurry is dried, the flexibility of the flexible mask 100 is reduced due to the carbon nanotube slurry layer.

Specifically, the carbon nanotube layer includes at least one carbon nanotube film or at least one carbon nanotube wire. It is understood that when the carbon nanotube layer includes a plurality of carbon nanotube films, the plurality of carbon nanotube films may be disposed in a stack. The carbon nanotube film is an ordered carbon nanotube film or a disordered carbon nanotube film. The disordered carbon nanotube film comprises a plurality of carbon nanotubes which are arranged in a disordered way, wherein the disordered way means that the arrangement direction of the carbon nanotubes is irregular. The ordered carbon nanotube film means that the arrangement direction of most carbon nanotubes in the carbon nanotube film has a certain rule. Specifically, the carbon nanotubes in the disordered carbon nanotube film can be further intertwined with one another, and the carbon nanotube layer formed by the disordered carbon nanotubes is isotropic; the carbon nanotubes in the ordered carbon nanotube film are preferentially oriented in one direction or a plurality of directions.

When the carbon nanotube layer includes a plurality of carbon nanotube lines, the plurality of carbon nanotube lines may be arranged in parallel, side by side, or cross to form a two-dimensional carbon nanotube layer or woven to form a two-dimensional carbon nanotube layer. The carbon nanotube wire may include a plurality of carbon nanotubes aligned along a length of the carbon nanotube wire. Preferably, the carbon nanotubes are end-to-end. The carbon nanotube wire may further include a plurality of carbon nanotubes arranged along a length of the carbon nanotube wire and connected end to end.

The carbon nano tube layer has better flexibility than the flexible layer or/and the second flexible layer, and when the carbon nano tube layer is used as the functional layer to be applied to the flexible mask, the flexibility of the whole flexible mask cannot be reduced due to the arrangement of the functional layer; the carbon nanotube layer's intensity is great, and no matter how flexible facial mask buckles and pulls, can not cause the destruction to carbon nanotube layer.

The second embodiment of the utility model provides a facial mask type beauty instrument, which comprises a flexible facial mask and a controller. Referring to fig. 4, the flexible mask 20 includes: a flexible layer 202; a second flexible layer 206, wherein the flexible layer 202 and the second flexible layer 206 are stacked; and a plurality of functional layers 204, the plurality of functional layers 204 disposed between the flexible layer 202 and the second flexible layer 206; the plurality of functional layers 204 are symmetrically or regularly distributed, wherein each pair of functional layers 204 in the plurality of functional layers 204 is electrically connected to one electrode 208. The facial mask beauty instrument of the present embodiment is basically the same as that of the first embodiment, and differs therefrom in the number and distribution position of the functional layers 204 and the number of the electrodes 208. In this embodiment, the functional layer 204 includes 12, that is, 6 pairs of functional layers respectively distributed on the cheek and the forehead of the flexible mask.

The third embodiment of the utility model provides a facial mask type beauty instrument, which comprises a flexible facial mask and a controller. Referring to fig. 5, the flexible mask 30 includes: a flexible layer 302; a second flexible layer 306, the flexible layer 302 and the second flexible layer 306 being stacked; and a plurality of functional layers 304, the plurality of functional layers 304 disposed between the flexible layer 302 and the second flexible layer 306; the plurality of functional layers 304 are symmetrically or regularly distributed, wherein each functional layer 304 of the plurality of functional layers 304 is electrically connected to one electrode 308, that is, the functional layers 304 and the electrodes 308 are in a one-to-one correspondence relationship. The plurality of functional layers 304 is defined to include N (N ═ 1, 2, 3, 4, 5 … …) functional layers 304, the N functional layers 304 being electrically connected to N (N ═ 1, 2, 3, 4, 5 … …) electrodes 308. The facial mask beauty instrument of the present embodiment is basically the same as that of the first embodiment, but the difference is that the functional layers 304 and the electrodes 308 are arranged in a one-to-one correspondence, that is, the number of the functional layers 304 is the same as that of the electrodes 308. The controller controls only one functional layer 304 by controlling one electrode 308. This arrangement is more advantageous for the selective application of the functional layer 304 to the human face.

Compared with the prior art, the facial mask type beauty instrument provided by the utility model has the following advantages: first, can directly laminate in people's face, need not to hold by hand, liberated user's both hands. Secondly, through controller control circuit, can realize the selective amazing skin of face, the position that can more accurate selection needs the stimulation can not cause facial asymmetry moreover. The third adopts the carbon nanotube layer as the functional layer, and the carbon nanotube layer has the flexibility better than flexible layer or/and the flexible layer of second, and the flexibility of whole flexible facial mask can not reduce because of the setting of functional layer, and laminating that flexible facial mask can be better is in people's face, and user's comfort level is higher moreover. Fourth, facial mask formula beauty instrument includes a flexible conductive film, and this flexible conductive film is used for separating flexible facial mask and user's skin, prevents that flexible facial mask from polluting by skin to make the reuse that flexible facial mask can be convenient, flexible conductive layer can change at will because of the cost angle, simultaneously, because flexible conductive film is conducting material, can not influence flexible facial mask and provide the electro photoluminescence to user's skin.

In addition, other modifications within the spirit of the utility model will occur to those skilled in the art, and it is understood that such modifications are included within the scope of the utility model as claimed.

Claims (10)

1. A facial mask formula beauty instrument, its characterized in that includes a flexible facial mask and at least one slice of flexible conductive thin film, this at least one slice of flexible conductive thin film sets up between flexible facial mask and user's facial skin when using, flexible facial mask includes:

a first flexible layer;

the first flexible layer and the second flexible layer are arranged in a stacked mode, and openings of eyes and mouths which correspond to each other are formed in the first flexible layer and the second flexible layer;

the functional layers are arranged between the first flexible layer and the second flexible layer, and each functional layer is a carbon nanotube layer;

a plurality of electrodes, each electrode electrically connected to one functional layer or a pair of functional layers.

2. The mask-type cosmetic apparatus of claim 1, further comprising a controller, wherein the flexible mask is movably coupled to the controller.

3. The mask-type cosmetic apparatus of claim 2, wherein the first flexible layer or the second flexible layer is provided with an access port, and the controller is electrically connected to the flexible mask through the access port.

4. The facial mask type beauty instrument according to claim 1, wherein the material of the first flexible layer or the second flexible layer is non-woven fabric, silk, common flexible cloth, porous flexible paper or silica gel.

5. The facial mask beauty instrument of claim 1, wherein said second flexible layer comprises at least one opening at a position corresponding to said functional layer, said at least one opening exposing said functional layer.

6. The facial mask beauty instrument of claim 5, wherein, in use, said second flexible layer is in contact with said flexible conductive film.

7. The facial mask beauty instrument of claim 1, wherein said one electrode is electrically connected to a pair of functional layers.

8. The mask-type cosmetic apparatus according to claim 7, wherein the pair of functional layers electrically connected to the same electrode are distributed at both cheek positions of the flexible mask and are symmetrical to each other.

9. The facial mask beauty instrument of claim 1, wherein the material of said flexible conductive film is hydrogel.

10. The facial mask beauty instrument of claim 1, wherein the carbon nanotube layer is a self-supporting structure.

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