CN216571192U - Electric stimulation face skin-care film - Google Patents
Electric stimulation face skin-care film Download PDFInfo
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- CN216571192U CN216571192U CN202121631865.XU CN202121631865U CN216571192U CN 216571192 U CN216571192 U CN 216571192U CN 202121631865 U CN202121631865 U CN 202121631865U CN 216571192 U CN216571192 U CN 216571192U
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Abstract
The utility model provides an electric stimulation facial skin care membrane which comprises a facial skin care membrane body, an electric pulse module and an electric stimulation module, wherein the electric pulse module is used for converting mechanical energy acting on the electric pulse module into electric pulses, the electric stimulation module is arranged on the facial skin care membrane body and faces one side of the surface of facial skin of a user, the electric stimulation module comprises a plurality of electric stimulation components, a first waterproof insulating layer is not completely wrapped outside each electric stimulation component of the plurality of electric stimulation components, the first waterproof insulating layer is used for isolating each electric stimulation component from the facial skin care membrane body and keeping the central part of each electric stimulation component to be in contact with the surface of the facial skin of the user, and each electric stimulation component of the plurality of electric stimulation components penetrates through the first waterproof insulating layer and the facial skin care membrane body through a lead wrapped by an insulating layer to be electrically connected with the electric pulse module. The electric stimulation facial skin care membrane provided by the utility model has the advantages of simple structure and process, low cost, no need of external power supply, application scene and wide applicable population.
Description
Technical Field
The utility model relates to the field of facial skin care, in particular to an electric stimulation facial skin care film.
Background
With the improvement of living standard of people, more and more people begin to pay attention to the skin state of people, and the simple form of applying cosmetics or facial masks cannot meet the requirement of people on skin anti-aging.
In the field of facial beauty, a micro-current machine can be used for stimulating facial muscles, promoting the growth of adenosine triphosphate cells and keeping the content of facial collagen, so that various beauty instruments are put forward in the market and combined with micro-current to increase the activity of skin and accelerate the metabolism of skin cells, thereby achieving the effect of resisting skin aging.
However, the existing electric stimulation beauty instrument has large volume and high cost, and needs a special medical beauty institution; no matter the external power supply or the portable battery, the existing electric stimulation beauty instrument needs external power supply, so that the use convenience is limited.
Therefore, the prior art lacks an electric stimulation facial skin care film which does not need an external power supply for power supply, is convenient to use, has simple structure and manufacturing process and is low in cost.
SUMMERY OF THE UTILITY MODEL
The utility model provides an electrically stimulated facial mask. The micro-current beauty instrument is used for solving the problems that the micro-current beauty instrument in the prior art is complex in structure and process, high in manufacturing cost, inconvenient to use and limited in application scenes and applicable crowds due to the fact that an external power supply is used for supplying power.
The utility model provides an electric stimulation facial skin care film, which comprises: the facial skin care mask comprises a facial skin care mask body, an electric pulse module and an electric stimulation module; wherein,
the electric pulse module is used for converting mechanical energy acted on the electric pulse module into an electric pulse;
the electrical stimulation module is arranged on the facial skin care membrane body, faces one side of the facial skin surface of a user, and comprises a plurality of electrical stimulation components, a first waterproof insulating layer is not completely wrapped outside each electrical stimulation component of the plurality of electrical stimulation components, and the first waterproof insulating layer is used for isolating each electrical stimulation component from the facial skin care membrane body and keeping the central part of each electrical stimulation component to be in contact with the facial skin surface of the user;
each electric stimulation component of the plurality of electric stimulation components passes through the first waterproof insulating layer and the face skin care film body through the conducting wire coated with the insulating layer and is electrically connected with the electric pulse module.
Optionally, the electrical pulse module comprises: a friction generator and/or a piezoelectric generator.
Optionally, the friction generator is at least one stacked film friction generator, and each friction generator of the at least one stacked film friction generator includes at least two surfaces forming a friction interface.
Optionally, at least one of the two surfaces forming the friction interface is provided with a relief array structure.
Optionally, the electrical stimulation module is adhered to one side of the facial skin care membrane body close to the facial skin surface of the user; or the electrical stimulation module is embedded in the facial skin care membrane body.
Optionally, the plurality of electrical stimulation components included in the electrical stimulation module are arranged at positions corresponding to the facial acupuncture points of the facial skin care membrane body.
Optionally, the electric pulse module is flexible and is arranged on one side of the facial skin care membrane body, which is far away from the facial skin surface of the user;
the electric pulse module is completely wrapped by a second waterproof insulating layer which is used for protecting the electric pulse module to work normally;
each electric stimulation component of the plurality of electric stimulation components sequentially passes through the first waterproof insulating layer, the facial skin care membrane body and the second waterproof insulating layer through the conducting wire of the outer insulating layer and is electrically connected with the electric pulse module.
Optionally, the electrically-stimulated facial skin care membrane further comprises: a power supply, a switch, and a vibration module; wherein,
the electric pulse module is arranged separately from the facial skin care membrane body, and the vibration module is arranged in contact with the electric pulse module;
the switch is respectively connected with the power supply and the vibration module and is used for controlling whether the power supply supplies power to the vibration module;
the vibration module receives power supply of a power supply through the control of the switch, generates vibration with preset frequency and preset amplitude and transmits the vibration to the electric pulse module.
Optionally, the vibration module includes: a drive member, and at least one vibration member; wherein,
the power supply is electrically connected with the driving part through the switch and used for providing electric energy for the driving part;
the driving component is connected with the at least one vibration component and is used for controlling the at least one vibration component to vibrate at a preset frequency and a preset amplitude;
at least one vibration component is arranged in contact with the electric pulse module and transmits vibration with preset frequency and preset amplitude to the electric pulse module.
Optionally, the at least one vibration member is one of a rotor motor, a longitudinal linear motor, and a transverse linear motor.
The electrically stimulated facial skin care film provided by the utility model has the following beneficial effects:
(1) according to the electric stimulation facial skin care membrane provided by the utility model, the electric pulse module adopts the friction generator and/or the piezoelectric generator, and can directly convert mechanical energy in an external environment into electric pulses under the condition of no external power supply, so that the electric stimulation module carries out electric stimulation, the energy is saved, the environment is protected, and the problem that the electric stimulation facial skin care membrane cannot be used due to no external power supply is provided.
(2) According to the electric stimulation facial skin care membrane provided by the utility model, the flexible electric pulse module is arranged on the facial skin care membrane, and multiple effects of facial massage, acupoint electric stimulation, nutrient substance absorption and the like can be realized through slight flapping.
(3) According to the electric stimulation facial skin care membrane provided by the utility model, the vibration module generates the vibration with the preset frequency and the preset amplitude, the electric pulse output to the electric stimulation module by the electric pulse module is accurately controlled, and different electric pulses are accurately applied according to different facial skin conditions.
(4) According to the electric stimulation facial skin care membrane provided by the utility model, the electric pulse generated by the electric pulse module enables the micro-current acted on facial skin by the electric stimulation module to be just suitable for human body electric stimulation, the use is safe, the arrangement of the first waterproof insulating layer and the second waterproof insulating layer effectively protects users, and the electric shock hazard is avoided.
(5) The electric stimulation facial skin care membrane provided by the utility model is simple in structure and process, low in cost, convenient to use and suitable for large-scale industrial production.
Drawings
FIG. 1 is a schematic structural diagram of a first embodiment of an electrically-stimulated facial skin-care membrane provided by the present invention;
FIG. 2a is a schematic view of an electrical stimulation module according to an embodiment of the present invention;
FIG. 2b is a schematic view of another arrangement of an electrical stimulation module according to a first embodiment of the electrically-stimulated facial skin care membrane provided by the present invention;
FIG. 3 is a schematic structural view of a second embodiment of an electrically-stimulated facial skin care membrane provided by the present invention;
fig. 4 is a schematic structural view of a third embodiment of the electrically-stimulated facial skin-care membrane provided by the present invention.
Detailed Description
In order to fully understand the objects, features and effects of the present invention, exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the utility model are shown in the drawings, it should be understood that the utility model can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.
Fig. 1 shows a schematic structural diagram of an electrically-stimulated facial skin-care membrane according to an embodiment of the utility model. As shown in fig. 1, the electrically-stimulated facial skin care film of the present embodiment includes: the facial skin care film comprises a facial skin care film body 10, an electric pulse module 20 and an electric stimulation module 30.
The electrical pulse module 20 is used to convert the mechanical energy acting thereon into electrical pulses.
The electric pulse module 20 may be, but is not limited to, provided separately from the facial skin care film body 10, detachably provided with the facial skin care film body 10, or integrally provided with the facial skin care film body 10.
The electrical stimulation module 30 is disposed on the facial skin care membrane body 10 and faces one side of the facial skin surface of the user, and includes a plurality of electrical stimulation components 31, a first waterproof insulating layer 32 is not completely wrapped outside each electrical stimulation component 31 of the plurality of electrical stimulation components 31, and the first waterproof insulating layer 32 is used for isolating each electrical stimulation component 31 from the facial skin care membrane body 10 and keeping the center portion of each electrical stimulation component 31 in contact with the facial skin surface of the user.
The plurality of electrostimulation components 31 may include, but are not limited to, the following forms: a sheet form, or a raised form. Sheet-like forms may include, but are not limited to, circular electrode sheets, strip electrode sheets, or interdigitated electrodes; the bulge can be in the form of a semicircular bulge made of conductive silica gel, conductive metal, liquid metal hydrogel and other materials.
When the plurality of electrostimulation members 31 are in the form of a sheet, a person skilled in the art can select the electrode sheet material in the prior art according to actual needs, and the present invention is not limited thereto.
When the plurality of electrical stimulation components 31 are in the form of conductive silicone bumps, they may include, but are not limited to, conductive particles and silicone. The conductive particles are uniformly distributed in the silica gel and are mutually contacted and communicated through the conductive particles, so that a good conductive effect is achieved. The conductive material can be selected from copper powder, tin-coated graphite powder, and the like.
When the plurality of electrical stimulation components 31 are in the form of liquid metal hydrogel bumps, they may include, but are not limited to, liquid metals and hydrogels. The liquid metal is liquid metal at normal temperature; hydrogels may include, but are not limited to, polyvinyl alcohol, chitosan, vitamins, poly N-isopropylacrylamide, gelatin, polyglutamic acid, and polypeptide hydrogels, among others. The liquid metal hydrogel has good conductivity and ductility, and can ensure that the plurality of electrostimulation components 31 are well attached to the facial skin surface of the user.
Taking the direction shown in fig. 1 as an example, the first waterproof insulating layer 32 is wrapped on the upper part and the periphery of each electrical stimulation component 31 of the plurality of electrical stimulation components 31, the first waterproof insulating layer 32 isolates each electrical stimulation component 31 from the facial skin care membrane body 10 above the electrical stimulation component 31, and the central part of the lower surface of each electrical stimulation component 31 is kept in contact with the surface of the facial skin of the user.
The first waterproof insulation layer 32 can be, but not limited to, a waterproof insulation tape, a silicone grease, etc. in the prior art, and a person skilled in the art can select a waterproof insulation material in the prior art according to actual needs, which is not limited herein.
Each electrical stimulation component 31 of the plurality of electrical stimulation components 31 passes through the first waterproof insulation layer 32 and the facial skin care film body 10 through the conducting wire 33 coated with the insulation layer and is electrically connected with the electrical pulse module 20
The wire 33 wrapped by the insulating layer is a layer of non-conductive material uniformly and hermetically wrapped around the conductor, and the non-conductive material may include but is not limited to resin, plastic, silicon rubber, etc., to form an insulating layer to prevent the conductor from contacting with the outside to cause electric leakage. The conducting wire 33 covered by the insulating layer and the first waterproof insulating layer 32 are protected doubly, so that electric shock danger is avoided when a user uses the electric stimulation facial skin care mask.
The facial skin care mask body 10 may be, but not limited to, a shape covering the entire face of the user, or a circle, a rectangle, etc. that can be attached to any place of the face of the user, and those skilled in the art can select the shape of the facial skin care mask body 10 according to actual needs, and is not limited herein.
The facial skin care film body 10 may be a blended fabric layer including, but not limited to, full face, silk, tencel, polyester, plant fiber, etc. The facial skin care film body 10 can adsorb liquid skin care products, so that the skin can absorb more nutrient substances in the skin care products while performing electric stimulation, and the anti-aging effect is better achieved; of course, it will be understood by those skilled in the art that the facial mask body 10 may not adsorb liquid skin care products.
When the user uses the electrically stimulating facial skin care membrane of the present embodiment, the electrical pulse module 20 converts the mechanical energy into electrical pulses by the force acting on the electrical pulse module 20, so that the electrical stimulation module 30 electrically stimulates the facial skin of the user. According to the electric stimulation facial skin care membrane disclosed by the embodiment of the utility model, an external power supply is not needed for supplying power, so that the energy is saved, and the environment is protected; the structure and the process are simple, the cost is low, the use is convenient, and the method is suitable for large-scale industrial production.
To make the electrical pulse module 20 more clearly understood by those skilled in the art, the following detailed description is provided:
the electric pulse module 20 includes: a friction generator and/or a piezoelectric generator. The triboelectric generator may be, but is not limited to, any of a three-layer structure, a four-layer structure, a five-layer intermediate film structure, or a five-layer intermediate electrode structure film type triboelectric generator; the piezoelectric generator may be any one of a zinc oxide piezoelectric generator, a PZT piezoelectric generator, and a PVDF piezoelectric generator.
The number of the friction generators and/or the piezoelectric generators may be one or more. When multiple friction generators and/or piezoelectric generators are employed, the multiple friction generators and/or piezoelectric generators are in a stacked arrangement. A plurality of friction generators and/or piezoelectric generators are connected in series and/or in parallel; the friction generator and/or the piezoelectric generator are connected in series, so that the output voltage can be increased; the output current can be increased by connecting a plurality of friction generators and/or piezoelectric generators in parallel; the selection can be made by those skilled in the art according to the actual situation, and is not limited herein.
Each of the at least one stacked film friction generator comprises at least two surfaces forming a friction interface and the friction generator has an output. Preferably, at least one of the two surfaces constituting the frictional interface is provided with a relief array structure. This embodiment is not particularly limited, and is exemplified as follows:
as an example, the thin film type friction generator of the three-layer structure includes: the first electrode layer, the first high polymer insulating layer and the second electrode layer are sequentially stacked. Wherein, two surfaces of the first high molecular polymer insulating layer opposite to the second electrode layer form a friction interface; the first electrode layer and the second electrode layer are output ends of the friction generator. Optionally, the concave-convex array structure is disposed on at least one of two oppositely disposed surfaces of the first high polymer insulating layer and the second electrode layer.
As an example, the thin film type friction generator of the four-layer structure includes: the electrode comprises a first electrode layer, a first high molecular polymer insulating layer, a second high molecular polymer insulating layer and a second electrode layer which are sequentially stacked. Wherein, the two surfaces of the first high molecular polymer insulating layer opposite to the second high molecular polymer insulating layer form a friction interface. Optionally, at least one of two surfaces of the first high molecular polymer insulating layer and the second high molecular polymer insulating layer, which are disposed opposite to each other, is provided with a concave-convex array structure.
As an example, a thin film type friction generator of a five-layer intermediate thin film structure includes: the multilayer capacitor comprises a first electrode layer, a first high polymer insulating layer, an intermediate thin film layer, a second high polymer insulating layer and a second electrode layer which are sequentially stacked. And two surfaces of the first high molecular polymer insulating layer opposite to the intermediate thin film layer and/or two surfaces of the second high molecular polymer insulating layer opposite to the intermediate thin film layer form a friction interface. Optionally, at least one of two surfaces of the first high molecular polymer insulating layer and the intermediate thin film layer and/or the second high molecular polymer insulating layer and the intermediate thin film layer, which are arranged oppositely, is provided with a concave-convex array structure.
As an example, a thin film triboelectric generator of a five-layer intermediate electrode structure comprises: the electrode comprises a first electrode layer, a first high molecular polymer insulating layer, an intermediate electrode layer, a second high molecular polymer insulating layer and a second electrode layer which are sequentially stacked. And two surfaces of the first high molecular polymer insulating layer, which are opposite to the intermediate electrode layer, and/or two surfaces of the second high molecular polymer insulating layer, which are opposite to the intermediate electrode layer, form a friction interface. Optionally, at least one of two surfaces of the first high molecular polymer insulating layer and the intermediate electrode layer and/or the second high molecular polymer insulating layer and the intermediate electrode layer is provided with a concave-convex array structure.
Wherein, the materials of each layer of the film type friction generator can be selected from the materials in the existing flexible generator technology. Specifically, the materials of the first electrode layer, the second electrode layer and the intervening electrode layer are selected from indium tin oxide, graphene, silver nanowire films, metals or alloys; wherein the metal is gold, silver, platinum, palladium, aluminum, nickel, copper, titanium, chromium, tin, iron, manganese, molybdenum, tungsten or vanadium; the alloy is an aluminum alloy, a titanium alloy, a magnesium alloy, a beryllium alloy, a copper alloy, a zinc alloy, a manganese alloy, a nickel alloy, a lead alloy, a tin alloy, a cadmium alloy, a bismuth alloy, an indium alloy, a gallium alloy, a tungsten alloy, a molybdenum alloy, a niobium alloy, or a tantalum alloy.
Wherein the material of the first high molecular polymer insulating layer, the second high molecular polymer insulating layer and the intermediate thin film layer is selected from a polyimide film, an aniline formaldehyde resin film, a polyoxymethylene film, an ethylcellulose film, a polyamide film, a melamine formaldehyde film, a polyethylene glycol succinate film, a cellulose acetate film, a polyethylene adipate film, a polydiallyl phthalate film, a fiber (regenerated) sponge film, a polyurethane elastomer film, a styrene-propylene copolymer film, a styrene-butadiene copolymer film, a rayon film, a polyacrylate polymer film, a polyvinyl alcohol film, a polyisobutylene film, a polyethylene terephthalate film, a polyvinyl butyral film, a formaldehyde-phenol polycondensate film, a chloroprene rubber film, a butadiene-propylene copolymer film, a poly (ethylene-co-butylene copolymer) film, a poly (ethylene-co-butylene-propylene copolymer) film, a poly (ethylene-butylene copolymer) film, a poly (ethylene-butylene-co-propylene copolymer) film, a poly (ethylene-butylene copolymer) film, a poly (ethylene-butylene copolymer) film, a copolymer film, a poly (propylene copolymer) film, a poly (propylene copolymer film, a poly (propylene copolymer) film, a copolymer film, a, Any one of a natural rubber film, a polyacrylonitrile film, an acrylonitrile-vinyl chloride copolymer film and a polyethylene propylene glycol carbonate film.
In order to improve the friction power generation effect, in the film friction generator with the four-layer structure, the first high polymer insulating layer and the second high polymer insulating layer are preferably made of different materials. In the above five-layer intermediate film type friction generator, the first high molecular polymer insulating layer and the intermediate film layer are preferably different materials; the second high molecular polymer insulating layer and the intermediate thin film layer are preferably different materials.
Fig. 2a and 2b are schematic diagrams respectively showing the arrangement mode of the electrostimulation module 30 for electrically stimulating the facial skin care membrane according to the first embodiment of the present invention.
As shown in fig. 2a, the electrical stimulation module 30 is attached to the facial skin care mask body 10 on the side close to the facial skin surface of the user. In this case, the upper surface of the first waterproof insulating layer 32 above each of the plurality of electrostimulation members 31 is integrally adhered to the lower surface of the facial mask body 10. The first waterproof insulating layer 32 on the upper portion of each of the plurality of electrostimulation members 31 isolates each of the plurality of electrostimulation members 31 from the facial mask body 10.
As shown in fig. 2b, the electrical stimulation module 30 is embedded in the facial skin care mask body 10. In this case, the outer surface of the first waterproof insulating layer 32 around each of the plurality of electrostimulation members 31 is integrally embedded in the facial mask body 10. The first waterproof insulating layer 32 around each of the plurality of electrostimulation members 31 insulates each of the plurality of electrostimulation members 31 from the facial skin care film body 10.
The plurality of electrical stimulation components 31 included in the electrical stimulation module 30 may be, but are not limited to, be disposed at corresponding positions of the facial skin care film body 10 and the facial acupuncture points to achieve a better electrical stimulation effect.
Fig. 3 shows a schematic structural diagram of an electrically-stimulated facial skin-care membrane according to a second embodiment of the utility model. As shown in fig. 3, the electrically-stimulated facial skin-care film of the present embodiment is an improvement over the electrically-stimulated facial skin-care film of the first embodiment.
The electric pulse module 20 is flexible and is disposed on the side of the facial skin care film body 10 away from the facial skin surface of the user.
The electric pulse module 20 may be, but is not limited to, a thin film friction generator. Because the film type friction generator has good flexibility and can better adapt to the radian of the facial skin of a user, the film type friction generator is arranged on the side, away from the facial skin surface of the user, of the facial skin care film body 10.
The electric pulse module 20 is completely wrapped by the second waterproof insulating layer 21, and the second waterproof insulating layer 21 is used for protecting the electric pulse module 20 from working normally.
The second waterproof insulating layer 21 wraps the electric pulse module 20 to form a closed space, so that electromagnetic interference in the external environment is avoided, and humidity interference of skin care products possibly adsorbed by the facial skin care film body 10 is effectively isolated. The second waterproof insulating layer 21 can be, but not limited to, a waterproof insulating tape, a silicone grease, etc. in the prior art, and a person skilled in the art can select a waterproof insulating material in the prior art according to actual needs, and is not limited herein.
Each electrical stimulation component 31 of the plurality of electrical stimulation components 31 passes through the first waterproof insulation layer 32, the facial skin care membrane body 10 and the second waterproof insulation layer 21 in sequence through the conducting wire 33 coated with the insulation layer and is electrically connected with the electrical pulse module 20.
The electric pulse module 20 and the facial skin care film body 10 can be arranged integrally or detachably. The integrated arrangement mode can enable the electric pulse module 20 to be better fixed on the facial skin care film body 10, and the detachable arrangement mode can enable the electric pulse module 20 to be recycled. When the electric pulse module 20 and the facial skin care film body 10 are detachably disposed, the insulating layer-covered wire 33 is preferably disposed in a detachable manner, respectively. The skilled person can select the setting according to the actual need, and the setting is not limited herein.
The user can generate the electric stimulation to act on the facial skin of the user by slightly pressing the abdomen of the fingers or slightly patting the fingers with the palm by using the electric stimulation facial skin care film of the embodiment. The pressing of the finger abdomen or the beating of the palm is combined with the stimulation of the electric stimulation part 31, so that the facial muscle tension of the user is improved and the skin is tightened while the massage is carried out. When the facial skin care film body 10 adsorbs the skin care product, absorption of nutrients in the skin care product can be promoted.
Fig. 4 shows a schematic structural diagram of an electrically-stimulated facial skin-care membrane according to a third embodiment of the utility model. As shown in fig. 4, the electrically-stimulated facial skin-care film of the present embodiment is an improvement on the electrically-stimulated facial skin-care film of the first embodiment, and further includes: a power source 40, a switch 50, and a vibration module 60. The electric pulse module 20 is arranged separately from the facial skin care membrane body 10, and the vibration module 60 is arranged in contact with the electric pulse module 20; the switch 50 is respectively connected with the power supply 40 and the vibration module 60 and is used for controlling the power supply 40 to supply power to the vibration module 60; the vibration module 60 receives power supplied by the power source 40 through the control of the switch 50, and generates vibration with a preset frequency and a preset amplitude to be transmitted to the electric pulse module 20.
In some cases, the user does not want to press or tap on the face. Therefore, the electric pulse module 20 of the electrically-stimulated facial skin care membrane of the present embodiment is disposed separately from the facial skin care membrane body 10, and the vibration module 60 is disposed in contact with the electric pulse module 20.
The power source 40 may be a battery of the prior art, and the type thereof can be selected by those skilled in the art according to actual needs, and is not limited herein. For example, the power source 40 may be a rechargeable or non-rechargeable nickel-cadmium battery, a nickel-metal hydride battery, a lithium ion battery, a lead storage battery, or an iron-lithium battery.
The switch 50 may be a switch 50 in the prior art, and the type of the switch 50 can be selected by those skilled in the art according to actual needs, which is not limited herein. For example, the switch 50 may be a mechanical key switch 50, a touch switch 50, a membrane switch 50, or the like. When switch 50 selects non-mechanical switch 50, power source 40 powers switch 50 to ensure that switch 50 is active.
When the vibration module 60 receives power supplied from the power source 40 through the control of the switch 50, vibration of a preset frequency and a preset amplitude is generated, and the vibration of the preset frequency and the preset amplitude is transmitted to the electric pulse module 20 based on the contact setting of the vibration module 60 and the electric pulse module 20.
The vibration module 60 may include, but is not limited to, a driving part 61, and at least one vibration part 62. The power source 40 is electrically connected to the driving part 61 through the switch 50, and is used for providing power to the driving part 61. The driving member 61 is connected to the at least one vibration member 62 for controlling the at least one vibration member 62 to vibrate at a preset frequency and at a preset amplitude. At least one vibration member 62 is disposed in contact with the electrical pulse module 20 to transmit vibrations of a predetermined frequency and a predetermined amplitude to the electrical pulse module 20. The at least one vibration member 62 is one of a rotary motor, a longitudinal linear motor, and a transverse linear motor.
The driving part 61 may be a driving chip in the prior art. The at least one vibration member 62 is a prior art vibration motor, which may include, but is not limited to, a rotor motor, a longitudinal linear motor, or a transverse linear motor. If there are a plurality of vibration members 62, the plurality of vibration members 62 are uniformly arrayed and contacted on the electrical pulse module 20, and this arrangement is to enable the plurality of vibration members 62 to apply regular longitudinal or transverse vibration to the electrical pulse module 20, so as to precisely control the preset frequency and the preset amplitude of the electrical pulse output by the electrical pulse module 20.
That is, the vibration module 60 achieves the vibration to reach the preset frequency and the preset amplitude by adjusting the driving component 61 and/or adjusting the at least one vibration component 62. I.e., increasing or decreasing the driving strength of the driving member 61, and/or increasing or decreasing the vibration strength of the at least one vibration member 62, while adjusting the frequency at which the driving member 61 drives the at least one vibration member 62, the vibration module 60 reaches the preset frequency and the preset amplitude.
The specific arrangement position of the vibration module 60 is not limited in the present invention, and only the contact between the vibration module 60 and the electric pulse module 20 is ensured. In order to avoid the conduction problem between the vibration module 60 and the electric pulse module 20, an insulating interlayer (not shown) is provided between the vibration module 60 and the electric pulse module 20. The insulating interlayer can transmit the vibration of the vibration module 60 to the electric pulse module 20 and prevent the vibration module 60 from being conducted with the electric pulse module 20. The insulating interlayer can be selected from, but not limited to, insulating films such as polyvinyl chloride films, polyethylene films, polypropylene films, polystyrene films, etc.
When the user uses the electrically-stimulated facial skin-care membrane of the embodiment, the vibration module 60 generates vibration with a preset frequency and a preset amplitude, the electric pulse module 20 is accurately controlled to output the electric pulse to the electrically-stimulated module 30, and different electric pulses are accurately applied according to different use scenes of the user. The user can obtain the facial skin improvement effect brought by the electric stimulation without active operation.
It will also be appreciated that the arrangement of devices shown in the figures or embodiments is merely schematic and represents a logical arrangement. Where modules shown as separate components may or may not be physically separate, components shown as modules may or may not be physical modules.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. An electrically stimulated facial skin care membrane, comprising: the facial skin care mask comprises a facial skin care mask body, an electric pulse module and an electric stimulation module; wherein,
the electric pulse module is used for converting mechanical energy acted on the electric pulse module into an electric pulse;
the electric stimulation module is arranged on the facial skin care membrane body, faces one side of the facial skin surface of a user, and comprises a plurality of electric stimulation components, a first waterproof insulating layer is not completely wrapped outside each electric stimulation component of the plurality of electric stimulation components, and the first waterproof insulating layer is used for isolating each electric stimulation component from the facial skin care membrane body and keeping the central part of each electric stimulation component to be in contact with the facial skin surface of the user;
each electric stimulation component of the plurality of electric stimulation components penetrates through the first waterproof insulating layer and the facial skin care membrane body through a lead coated with an insulating layer and is electrically connected with the electric pulse module.
2. The electrically stimulated facial skin care film of claim 1, wherein the electrical pulse module comprises: a friction generator and/or a piezoelectric generator.
3. The electrically stimulated facial skin care membrane of claim 2, wherein the triboelectric generator is at least one stacked thin film triboelectric generator, each of the at least one stacked thin film triboelectric generator comprising at least two surfaces that form a frictional interface.
4. The electrically stimulated facial skin care membrane of claim 3, wherein the at least one of the two surfaces forming the frictional interface is provided with a relief array structure.
5. The electrically stimulated facial skin care membrane of claim 1, wherein the electrical stimulation module is adhered to the side of the facial skin care membrane body that is close to the facial skin surface of the user; or the electric stimulation module is embedded in the facial skin care membrane body.
6. The electrically-stimulated facial skin care membrane of claim 5, wherein the plurality of electrical stimulation components included in the electrical stimulation module are disposed at positions of the facial skin care membrane body corresponding to the facial acupuncture points.
7. The electrically stimulated facial skin care membrane of any one of claims 1-6, wherein the electrical pulse module is flexible and is disposed on a side of the facial skin care membrane body that is distal from a facial skin surface of a user;
the electric pulse module is completely wrapped by a second waterproof insulating layer, and the second waterproof insulating layer is used for protecting the electric pulse module to normally work;
each electric stimulation component of the plurality of electric stimulation components sequentially penetrates through the first waterproof insulating layer, the facial skin care membrane body and the second waterproof insulating layer through a lead coated with an insulating layer, and is electrically connected with the electric pulse module.
8. The electrically stimulated facial skin care film according to any one of claims 1 to 6, wherein the electrically stimulated facial skin care film further comprises: a power supply, a switch, and a vibration module; wherein,
the electric pulse module is arranged separately from the facial skin care membrane body, and the vibration module is arranged in contact with the electric pulse module;
the switch is respectively connected with the power supply and the vibration module and is used for controlling the power supply to supply power to the vibration module;
the vibration module receives power supply of the power supply through the control of the switch, generates vibration with preset frequency and preset amplitude and transmits the vibration to the electric pulse module.
9. The electrically stimulated facial skin care membrane of claim 8, wherein the vibration module comprises: a drive member, and at least one vibration member; wherein,
the power supply is electrically connected with the driving part through a switch and used for providing electric energy for the driving part;
the driving part is connected with at least one vibration part and is used for controlling at least one vibration part to vibrate at the preset frequency and the preset amplitude;
at least one vibration component is arranged in contact with the electric pulse module and transmits the vibration with the preset frequency and the preset amplitude to the electric pulse module.
10. The electrically stimulated facial skin care membrane of claim 9, wherein at least one of the vibration members is one of a rotor motor, a longitudinal linear motor, and a transverse linear motor.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121631865.XU CN216571192U (en) | 2021-07-19 | 2021-07-19 | Electric stimulation face skin-care film |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121631865.XU CN216571192U (en) | 2021-07-19 | 2021-07-19 | Electric stimulation face skin-care film |
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| Publication Number | Publication Date |
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| CN216571192U true CN216571192U (en) | 2022-05-24 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN202121631865.XU Active CN216571192U (en) | 2021-07-19 | 2021-07-19 | Electric stimulation face skin-care film |
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2021
- 2021-07-19 CN CN202121631865.XU patent/CN216571192U/en active Active
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