CN219208754U - Photon skin-tendering mask instrument - Google Patents

Abstract

The utility model provides a photon skin tender mask instrument, comprising: the controller is internally provided with a power supply and an output electrode electrically connected with the power supply; the mask body is internally provided with a light source assembly and a conductive electrode, one end of the conductive electrode is electrically connected with the light source assembly, and the other end of the conductive electrode penetrates through the mask body and is exposed on the outer side surface of the mask body; the controller and the mask body are provided with magnets, the other one of the controller and the mask body is provided with a magnetic piece which can be attracted by the magnets, and when the controller is fixed on the mask body through the magnetic attraction of the magnets and the magnetic piece, the output electrode is electrically connected with the conductive electrode, so that the power supply can supply power for the light source assembly, and the light source assembly is driven and controlled to emit light. The technical scheme of the utility model aims at avoiding the need of externally connecting a power supply cable, and can not limit the range of motion of users in the wearing process.

Description

Photon skin-tendering mask instrument

Technical Field

The utility model relates to the field of photon skin tender mask instruments, in particular to a photon skin tender mask instrument.

Background

With the increasing level of living in substances, people are paying more attention to skin care, especially facial care. Some phototherapy skin tender masks gradually appear on the market, and physiotherapy is carried out on the face of a human body by wearing the mask on the face of the human body and emitting light rays with different wavelengths.

However, the phototherapy skin care mask in the market usually needs to be externally connected with a power supply cable and a controller for control, so that the use environment of users is greatly limited.

Disclosure of Invention

The utility model mainly aims to provide a photon skin tender mask instrument, which aims to avoid the need of externally connecting a power supply cable and avoid limiting the range of motion of a user in the wearing process.

To achieve the above object, the present utility model provides a photon skin-rejuvenating mask instrument, comprising:

the controller is internally provided with a power supply and an output electrode electrically connected with the power supply;

the mask body is internally provided with a light source assembly and a conductive electrode, one end of the conductive electrode is electrically connected with the light source assembly, and the other end of the conductive electrode penetrates through the mask body and is exposed on the outer side surface of the mask body;

the controller and the mask body are provided with magnets, the other one of the controller and the mask body is provided with a magnetic piece which can be attracted by the magnets, and when the controller is fixed on the mask body through the magnetic attraction of the magnets and the magnetic piece, the output electrode is electrically connected with the conductive electrode, so that the power supply can supply power for the light source assembly, and the light source assembly is driven and controlled to emit light.

Optionally, a magnet is disposed in the mask body, and the output electrode is made of a magnetic material that can be attracted by the magnet to form the magnetic member.

Optionally, the surface of the output electrode is provided with an antirust conductive layer.

Optionally, the output electrode includes a conductive head and a conductive spring arm, the outer end of the conductive head is exposed on the outer surface of the controller and is used for establishing electrical connection with the conductive electrode, the inner end of the conductive head is located in the controller, a part of the conductive spring arm is fixedly installed inside the controller and establishes electrical connection with the power supply, and the other part of the conductive spring arm is suspended to form an elastic arm and elastically abuts against the inner end of the conductive head to establish electrical connection.

Optionally, the outer end surface of the conductive head is provided with a conductive concave part, the conductive electrode is provided with a conductive convex part matched with the conductive concave part, and when the controller is installed on the mask body, the conductive convex part is inserted into the conductive concave part;

and/or, the inner end surface of the conductive head is convexly provided with a connecting convex column, the elastic arm is provided with a connecting hole corresponding to the connecting convex column, and the connecting convex column penetrates through the connecting hole;

and/or, both ends of the conductive spring arm are fixedly arranged on the controller, the middle part of the conductive spring arm is in arch suspension, and the arch-shaped protruding surface is elastically abutted with the inner end of the conductive head.

Optionally, the mask body comprises: an outer layer adapted to the outline of the face of the human body and an inner layer constructed on the inner side of the outer layer and used for contacting the human body, wherein a closed installation space is formed between the outer layer and the inner layer;

the light source component is positioned in the installation space, and the inner layer is provided with a light transmission area for emitting light of the light source component;

the conductive electrode is exposed from the outer layer and is used for establishing electrical connection with a controller.

Optionally, the conductive electrode is located at a forehead or cheek portion of the face of the person corresponding to the outer layer, so that the controller mounted on the mask body is located at the forehead or cheek portion.

Optionally, the magnet is a ring magnet, the conductive electrode is located the protruding installation projection that is equipped with of one end in installation space, ring magnet cup joint in the installation projection.

Optionally, a ring magnet is interference fit with the mounting boss and clamps the outer layer between the ring magnet and the conductive electrode; and the end face of the mounting convex column far away from one end of the conductive electrode is provided with a concave hole.

Optionally, the outer layer and the inner side are both made of flexible materials, and the light source assembly comprises a flexible circuit board and a lamp bead electrically integrated with the flexible circuit board;

the outer layer corresponds human ear still and is equipped with the ear that hangs, and the outer middle part that corresponds human forehead still is equipped with the hole of dodging that supplies the bandage to pass.

According to the photon skin-care mask instrument, the power supply and the output electrode are arranged in the controller, so that the photon skin-care mask instrument can provide current and function on-off and switching for the mask body. The mask body and the controller are provided with the magnet, and the other one of the mask body and the controller is provided with the magnetic piece which can be attracted by the magnet, so that the controller can be magnetically attracted and fixed on the mask body, and the electric connection is established through the output electrode and the conductive electrode of the mask body, so that the internal power supply of the controller can supply power for the light source component in the mask body, meanwhile, the external power supply is not required to be connected with an external commercial power by an extra cable, and the controller can be moved randomly in the use process of a user and is not limited by the range of the external commercial power.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional view of a connection structure of a photon skin rejuvenation mask meter according to the utility model;

FIG. 2 is an enlarged schematic view of a portion of the connection structure of FIG. 1A according to the present utility model;

FIG. 3 is a schematic perspective view of the connection structure of the controller in the photon skin tender mask instrument of the present utility model;

FIG. 4 is a schematic perspective view of the connection structure of the mask body in the photon skin rejuvenation mask instrument according to the utility model;

FIG. 5 is an exploded schematic view of the connection structure of the controller in the photon skin rejuvenation mask meter according to the utility model;

FIG. 6 is a schematic perspective view of the connection structure of the output electrode in the photon skin rejuvenation mask according to the utility model;

FIG. 7 is a schematic perspective view of the connection structure of the output electrode from another perspective in the photon skin rejuvenation mask meter according to the utility model;

FIG. 8 is a schematic perspective view of the connection structure of the conductive electrode in the photon skin care mask apparatus of the present utility model;

fig. 9 is a schematic perspective view showing a connection structure of the conductive electrode from another view angle in the photon skin care mask apparatus of the present utility model.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "first", "second" may include the feature explicitly or implicitly. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-9, the present utility model provides a photon skin rejuvenation mask instrument 100, including a controller 30 and a mask body 10. The controller 30 is internally provided with a power source (a battery capable of being circularly charged), a control board electrically connected with the power source, and an output electrode 31. The output electrode 31 is partially exposed on the outer surface of the controller 30 for establishing electrical connection with the mask body 10. A light source assembly and a conductive electrode 13 are arranged in the mask body 10, one end of the conductive electrode 13 is electrically connected with the light source assembly, and the other end of the conductive electrode passes through the mask body 10 and is exposed on the outer side surface of the mask body 10; the controller 30 and the mask body 10 are provided with a magnet 14, one of them is provided with a magnetic member which can be attracted by the magnet 14, and the other one is provided with a magnetic member which can be attracted by the magnet 14, when the controller 30 is fixed on the mask body 10 by the magnetic attraction between the magnet 14 and the magnetic member, the output electrode 31 is electrically connected with the conductive electrode 13, so that the power supply can supply power for the light source assembly, and the light source assembly is driven to emit light rays, so that the human face is irradiated for physiotherapy, and the skin of the human face is improved.

Specifically, to reduce the weight of the controller 30, the magnetic attraction is made more stable. In this embodiment, the housing of the controller 30 is made of plastic material, and the magnet 14 is disposed in the mask body 10, and the output electrode 31 is made of a magnetic material that can be absorbed by the magnet 14 to form the magnetic member, so that the magnet 14 and the magnetic member absorbed by the magnet 14 are not required to be additionally disposed in the controller 30, thereby reducing the weight of the controller 30 and reducing the falling risk of the controller 30 during use.

Further, in order to prevent the output electrode 31 from being oxidized and rusted, in the embodiment of the present application, an anti-rust conductive layer (not shown) is provided on the surface of the output electrode 31, for example, the output electrode 31 is made of an iron material, and the anti-rust conductive layer is one of gold, silver, nickel, zinc, and the like, and is attached to the surface of the output electrode 31 made of an iron material through electroplating or other processing technologies, so that the phenomenon that poor conductive contact is caused due to rusting is prevented.

Specifically, as shown in fig. 2 and 5 in combination with fig. 6 and 7, the stability of conduction during connection is enhanced, and the processing and production are facilitated. In this embodiment, the output electrode 31 includes a conductive head 311 and a conductive spring arm 312, the surface of the conductive head 311 is provided with the anti-rust conductive layer, and the outer end of the conductive head 311 is exposed to the outer surface of the controller 30, so as to establish electrical connection with the conductive electrode 13, and the inner end of the conductive head 311 is located in the controller 30. To prevent the outer end of the conductive head 311 from being pressed to be embedded into the product, the outer end of the conductive head 311 is larger than the mounting hole through which the inner end of the conductive head 311 passes. The conductive spring arm 312 is made of copper, an electroplating antirust conductive layer is not needed, material cost is reduced, a part of the conductive spring arm 312 is fixedly installed inside the controller 30 and electrically connected with the power supply, the other part of the conductive spring arm 312 is suspended to form the elastic arm 3121 and is elastically abutted to the inner end of the conductive head 311 to establish the electrical connection, so that wire bonding connection is not needed, labor operation cost is reduced, the plastic shell of the controller 30 can be prevented from being scalded by the bonding wire, and during installation, the conductive head 311 is only required to be pressed into the shell of the controller 30 from the outer part of the shell of the controller 30 in an interference fit manner along the inner end of the conductive head 311 by the mounting hole, and the conductive spring arm 312 is elastically abutted to complete the installation, so that the installation is more convenient.

Specifically, as shown in fig. 2 and fig. 3, in order to prevent the two output electrodes 31 from being in contact with the external conductive material by mistake, the electrical connection is established, which results in the occurrence of a potential safety hazard. The inner end of the conductive head 311 passes through the small-diameter section of the counter bore to be electrically connected with the conductive spring arm 312, the outer end of the conductive head 311 is in interference fit with the large-diameter section of the counter bore and is positioned at the inner side of the opening of the large-diameter section towards the outside, namely, the whole body is sunken in the inner surface of the outer shell of the controller 30, when the controller 30 is contacted with an external object, the outer shell of the controller 30 can support the external object, and the phenomenon that the external conductive object contacts the conductive heads 311 of the two output electrodes 31 at the same time to cause short circuit is reduced.

Specifically, as shown in fig. 5, for the convenience of user operation, a control key 32 is disposed on the outer surface of the controller 30, and the control key 32 is electrically connected to the internal control board and configured to control the opening and closing of the control board and the switching of the working modes. The controller 30 is provided with the output electrode 31 toward the inner side surface of the mask body 10, so that in use, the output electrode 31 and the conductive electrode 13 are covered by the mask body 10, resulting in a more attractive product.

In addition, as shown in fig. 2 to 4 in conjunction with fig. 6 and 8, in order to facilitate blind operation of the output electrode 31 and the conductive electrode 13, in this embodiment, the outer end surface of the conductive head 311 is provided with a conductive concave portion 3111, the conductive electrode 13 is provided with a conductive convex portion 131 adapted to the conductive concave portion 3111, when the controller 30 is mounted on the mask body 10, the controller 30 is only required to be placed in a substantially sliding position, and under the action of magnetic attraction, the conductive convex portion 131 is inserted into the conductive concave portion 3111, so that the user can complete the pairing without observation, the plug-in conductive connection mode is more stable, and a supporting force overcoming the direction of gravity is provided between the conductive convex portion 131 and the conductive concave portion 3111, so as to prevent the controller 30 from dropping from the mask body 10 under the action of gravity. Meanwhile, the conductive head 311 is formed by stamping, so that when the conductive recess 3111 is stamped on the outer end surface of the conductive head 311, the connection boss 3112 is formed by protruding the inner end surface of the conductive head 311. The elastic arm 3121 is provided with a connection hole 3122 corresponding to the connection boss 3112, and the connection boss 3112 passes through the connection hole 3122; thereby preventing the conductive spring arm 312 from being separated from the conductive head 311 under the action of external force, and causing unstable conduction.

Specifically, as shown in fig. 5 and fig. 7, in this embodiment, the two ends of the conductive spring arm 312 are fixedly mounted on the controller 30, the middle part is in an arch-shaped suspension, and the arch-shaped protruding surface is elastically abutted against the inner end of the conductive head 311, and is provided with the connection hole 3122, so that the supporting force of the arch-shaped conductive spring arm 312 is stronger, and when the conductive head 311 is pressed in from the mounting hole, if the conductive head 311 is deviated, a larger resistance is received, so that the conductive spring arm 312 is prevented from being deviated from being extruded, and the phenomenon that the conductive spring arm 312 does not pass through the connection hole 3122 occurs.

Specifically, as shown in fig. 1, in the embodiment of the present application, the mask body 10 includes: the outer layer 11 matched with the outline of the face of the human body and the inner layer 12 constructed on the inner side of the outer layer 11 and used for being contacted with the human body, and the edges of the outer layer 11 and the inner layer 12 can be tightly pressed and sealed by adopting sealing silica gel interference, or are connected by adopting modes of gluing according to specific materials, forming integration by ultrasonic hot melting and the like. Thereby forming a closed installation space 20 between the outer layer 11 and the inner layer 12; thereby preventing the external water flow from entering the installation space 20 during cleaning, which causes damage to the internal light source assembly. The light source component is located in the installation space 20, and the inner layer 12 is provided with a light transmission area 121 for emitting light of the light source component; the conductive electrode 13 is exposed from the outer layer 11 for establishing an electrical connection with the controller 30. In this embodiment, the outer layer 11 and the inner side are both made of flexible materials, so as to enhance wearing comfort, the inner layer 12 is made of transparent silica gel materials, so as to form a transparent area 121, and the light source assembly (not shown) includes a flexible circuit board and multicolor LED beads electrically integrated with the flexible circuit board; the plurality of multicolor LED lamp beads can emit light rays with different color wavelengths, and the light rays penetrate through the inner layer 12 made of the transparent silica gel material to emit, so that the facial skin of a human body is irradiated.

Further, as shown in fig. 1, in order to prevent light from being emitted from the outer layer 11, which results in poor aesthetic properties of the product, the outer layer 11 is made of opaque material. In addition, the window that outer layer 11 and inlayer 12 correspond human eye and set up still installs the light-proof cover 40, light-proof cover 40 adopts the silica gel material preparation to the profile of adaptation human eye week, when wearing, light-proof cover 40 encircles human eye, prevents that the light of LED lamp pearl transmission from penetrating into, and the window that the user accessible light-proof cover 40 middle part fretwork is surveyed outside, avoids the human body to be in the dark environment and causes uncomfortable phenomenon to produce

Specifically, as shown in fig. 3, in the embodiment of the present application, the conductive electrode 13 is located at a forehead or cheek portion of the face of the person corresponding to the outer layer 11, so that the controller 30 mounted on the mask body 10 is located at the forehead or cheek portion, and the controller 30 is more attractive and is not easy to block the line of sight because the cheek or cheek portion of the person has a larger area. And in order to prevent the mask body 10 from being installed behind the controller 30, the phenomenon that is pulled down by the gravity action of the controller 30 produces, in this embodiment of the application, the outer layer 11 still is equipped with the ear-hanging portion 111 corresponding to human ear, and the middle part that the outer layer 11 corresponds human forehead still is equipped with the hole 112 of dodging that supplies the bandage to pass, through having the magic tape or buckle bandage to pass and dodge the hole 112 to combine ear-hanging portion 111 to wear in human ear, thereby provide support for the mask body 10.

Specifically, as shown in fig. 2 and fig. 8 in combination with fig. 9, in the embodiment of the present application, the magnet 14 is a ring magnet 14, one end of the conductive electrode 13 located in the installation space 20 is convexly provided with an installation convex column 132, and the ring magnet 14 is sleeved on the installation convex column 132. And the ring magnet 14 is interference fit with the mounting boss 132 and clamps the outer layer 11 between the ring magnet 14 and the conductive electrode 13; thereby preventing the ring magnet 14 from being separated from the conductive electrode 13 under the action of external force, and preventing the phenomenon that stable magnetic connection cannot be established. And the end surface of the mounting boss 132 far away from one end of the conductive electrode 13 is provided with a concave hole 1321, and the conductive cable is welded in the concave hole 1321, so that the inner wall of the concave hole 1321 has a certain protection force on the conductive cable, and the phenomenon that the conductive cable connecting the conductive electrode 13 and the flexible circuit board is broken in the cleaning process in the use process is prevented. In addition, after the installation is completed, the concave hole 1321 can be punched by using a jig, so that the flange of the concave hole 1321 is bent to the end face of the ring magnet 14, thereby limiting the ring magnet 14 and further preventing the ring magnet 14 from being separated from the conductive electrode 13.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. A photon skin rejuvenation mask meter, comprising:

the controller is internally provided with a power supply and an output electrode electrically connected with the power supply;

the mask body is internally provided with a light source assembly and a conductive electrode, one end of the conductive electrode is electrically connected with the light source assembly, and the other end of the conductive electrode penetrates through the mask body and is exposed on the outer side surface of the mask body;

the controller and the mask body are provided with magnets, the other one of the controller and the mask body is provided with a magnetic piece which can be attracted by the magnets, and when the controller is fixed on the mask body through the magnetic attraction of the magnets and the magnetic piece, the output electrode is electrically connected with the conductive electrode, so that the power supply can supply power for the light source assembly, and the light source assembly is driven and controlled to emit light.

2. The photon skin rejuvenation mask instrument as defined in claim 1 wherein said magnets are disposed within said mask body, said output electrodes being formed from a magnetic material that is attracted to said magnets to form said magnetic elements.

3. The photon skin rejuvenation mask instrument as defined in claim 2 wherein the output electrode surface is provided with a rust-resistant conductive layer.

4. The photon skin rejuvenation mask instrument according to claim 1, wherein the output electrode comprises a conductive head and a conductive spring arm, wherein an outer end of the conductive head is exposed out of the controller for establishing electrical connection with the conductive electrode, an inner end of the conductive head is positioned in the controller, a part of the conductive spring arm is fixedly arranged in the controller and establishes electrical connection with the power supply, and the other part of the conductive spring arm is suspended to form an elastic arm and elastically abuts against the inner end of the conductive head to establish electrical connection.

5. The photon skin rejuvenation mask instrument according to claim 4, wherein the outer end surface of the conductive head is provided with a conductive recess, the conductive electrode is provided with a conductive protrusion adapted to the conductive recess, and the conductive protrusion is inserted into the conductive recess when the controller is mounted on the mask body;

and/or, the inner end surface of the conductive head is convexly provided with a connecting convex column, the elastic arm is provided with a connecting hole corresponding to the connecting convex column, and the connecting convex column penetrates through the connecting hole;

and/or, both ends of the conductive spring arm are fixedly arranged on the controller, the middle part of the conductive spring arm is in arch suspension, and the arch-shaped protruding surface is elastically abutted with the inner end of the conductive head.

6. The photon skin rejuvenation mask as claimed in claim 1, wherein,

the mask body includes: an outer layer adapted to the outline of the face of the human body and an inner layer constructed on the inner side of the outer layer and used for contacting the human body, wherein a closed installation space is formed between the outer layer and the inner layer;

the light source component is positioned in the installation space, and the inner layer is provided with a light transmission area for emitting light of the light source component;

the conductive electrode is exposed from the outer layer and is used for establishing electrical connection with a controller.

7. The photon skin rejuvenation mask unit as defined in claim 6 wherein said conductive electrodes are positioned on said outer layer corresponding to a forehead or cheek portion of a human face such that a controller mounted to said mask body is positioned on the forehead or cheek portion.

8. The photon skin rejuvenation mask instrument according to claim 6, wherein the magnet is a ring magnet, wherein an installation stud is provided at one end of the conductive electrode located in the installation space, and the ring magnet is sleeved on the installation stud.

9. The photon skin rejuvenation mask unit as defined in claim 8 wherein said ring magnet is an interference fit with said mounting posts and clamps said outer layer between said ring magnet and said conductive electrode; and the end face of the mounting convex column far away from one end of the conductive electrode is provided with a concave hole.

10. The photon skin rejuvenation mask instrument according to claim 6, wherein the outer layer and the inner side are both made of flexible materials, and the light source assembly comprises a flexible circuit board and light beads electrically integrated with the flexible circuit board;

the outer layer corresponds human ear still and is equipped with the ear that hangs, and the outer middle part that corresponds human forehead still is equipped with the hole of dodging that supplies the bandage to pass.

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