CN111939463A - Electrode subassembly, neck massage appearance and wearable massage equipment - Google Patents

Abstract

The invention relates to the technical field of massagers and discloses an electrode assembly, a neck massager and wearable massage equipment, wherein the electrode assembly comprises an elastic carrier and a flexible circuit board, one surface of the flexible circuit board is attached to the elastic carrier and can elastically deform along with the elastic carrier along any angle, one surface of the flexible circuit board, which is far away from the elastic carrier, is provided with an electrical stimulation circuit layer, the electrical stimulation circuit layer is electrically connected with the flexible circuit board, and the electrical stimulation circuit layer is used for applying stimulation current to a human body. The electrode assembly has better fitting performance with the skin of a user, and the flexible circuit board is adopted, so that the function expansibility of the electrode assembly is better.

Description

Electrode subassembly, neck massage appearance and wearable massage equipment

Technical Field

The invention relates to the technical field of massagers, in particular to an electrode assembly, a neck massager and wearable massage equipment.

Background

The electric stimulation type neck massage instrument comprises a wearing bracket and an electrode assembly, wherein the wearing bracket is suitable for being worn on the neck of a user, and the electrode assembly is used for applying pulse current to the neck of the user so as to promote blood circulation at the neck muscle of the user to massage the neck of the user.

Currently, electrode assemblies generally employ metal electrodes as the means for contacting the neck of the user to deliver a pulsed current. However, metal electrodes are hard and have poor conformity to the skin of the user, and electrode assemblies employing metal electrodes have poor functional expandability.

Disclosure of Invention

The embodiment of the invention discloses an electrode assembly, a neck massager and wearable massage equipment.

In a first aspect, an embodiment of the present invention discloses an electrode assembly, where the electrode assembly includes an elastic carrier and a flexible circuit board, one surface of the flexible circuit board is attached to the elastic carrier, and the flexible circuit board can elastically deform along with the elastic carrier along any angle, and one surface of the flexible circuit board, which is away from the elastic carrier, is provided with an electrical stimulation line layer, and the electrical stimulation line layer is used for applying a stimulation current to a human body.

As an optional implementation manner, in an embodiment of the present invention, the flexible circuit board is further provided with a functional circuit layer, and the functional circuit layer is electrically connected to the flexible circuit board.

As an optional implementation manner, in an embodiment of the present invention, the functional circuit layer includes at least one of an electrical stimulation circuit layer and an electrical stimulation circuit layer, the functional circuit layer and the electrical stimulation circuit layer are arranged in an insulating manner, and the electrical stimulation circuit layer are arranged on the same surface of the flexible circuit board.

As an optional implementation manner, in an embodiment of the present invention, the light emitting circuit layer is a graphene layer, and the light emitting circuit layer is an electric-to-optical conversion layer.

As an optional implementation manner, in an embodiment of the present invention, the functional circuit layer includes a regulation circuit layer, and the regulation circuit layer is further electrically connected to the electrical stimulation circuit layer, and the regulation circuit layer is configured to regulate and control a parameter of the electrical stimulation circuit layer.

As an optional implementation manner, in an embodiment of the present invention, when the functional circuit layer and the electrical stimulation circuit layer are located on the same surface of the flexible circuit board, a forming height of the functional circuit layer on the flexible circuit board is smaller than a forming height of the electrical stimulation circuit layer on the flexible circuit board, and the functional circuit layer is subjected to an insulation packaging process.

As an optional implementation manner, in an embodiment of the present invention, the electrical stimulation circuit layer includes at least two electrical stimulation areas arranged at intervals, where at least one of the electrical stimulation areas is used to connect to a positive electrode, and at least another one of the electrical stimulation areas is used to connect to a negative electrode.

As an alternative implementation manner, in an embodiment of the present invention, the flexible circuit board includes a main body portion and a conductive portion extending outward from the main body portion and electrically connected to the main body portion, the electrical stimulation circuit layer is disposed on the main body portion and electrically connected to the main body portion, and the conductive portion is electrically connected to the conductive member.

As an optional implementation manner, in an embodiment of the present invention, the electrode assembly further includes a flexible conductive sheet, the flexible conductive sheet is attached to one surface of the flexible circuit board, where the electrical stimulation circuit layer is disposed, and covers the electrical stimulation circuit layer, and the flexible conductive sheet is electrically connected to the electrical stimulation circuit layer.

As an optional implementation manner, in an embodiment of the present invention, the flexible conductive sheet is a conductive gel sheet, and the conductive gel sheet has an adhesive surface, and the adhesive surface is adhered to the flexible circuit board.

As an optional implementation manner, in an embodiment of the present invention, the elastic carrier includes a soft adhesive layer and a reinforcing layer disposed on the soft adhesive layer, and a surface of the flexible circuit board facing away from the electrical stimulation circuit layer is attached to the soft adhesive layer or the reinforcing layer.

As an optional implementation manner, in an embodiment of the present invention, one surface of the reinforcing layer is disposed on the soft adhesive layer, and one surface of the flexible circuit board facing away from the electrical stimulation line layer is in insulation fit with one surface of the reinforcing layer facing away from the soft adhesive layer;

or the reinforcing layer is embedded in the soft rubber layer, and one surface of the flexible circuit board, which deviates from the electrical stimulation circuit layer, is attached to the soft rubber layer.

As an optional implementation manner, in an embodiment of the present invention, a receiving groove is disposed on one surface of the soft adhesive layer, the reinforcing layer is disposed in the receiving groove and has a bonding surface facing to the outside of the receiving groove, and one surface of the flexible circuit board facing away from the electrical stimulation circuit layer is bonded to the bonding surface of the reinforcing layer.

As an optional implementation manner, in the embodiment of the present invention, the soft rubber layer is a silica gel layer, a rubber layer, or a latex layer, and the reinforcing layer is a metal reinforcing layer or a plastic reinforcing layer.

As an optional implementation manner, in an embodiment of the present invention, the electrode assembly further includes a conductive member, the conductive member is disposed on the elastic carrier or the flexible circuit board and is electrically connected to the flexible circuit board, and the conductive member is configured to apply current to the flexible circuit board.

In a second aspect, an embodiment of the present invention discloses a neck massager with the electrode assembly of the first aspect, the neck massager includes a wearing bracket and the electrode assembly, a power supply is disposed in the wearing bracket, the electrode assembly is connected to the wearing bracket, the electrode assembly further includes a conductive member, and the conductive member is electrically connected to the flexible circuit board and the power supply.

As an alternative implementation manner, in an embodiment of the present invention, the wearing bracket includes a middle bracket and two clamping arms, the two clamping arms are respectively connected to two ends of the middle bracket, and the electrode assembly is connected to an inner side of the middle bracket or connected to the two clamping arm brackets.

As an optional implementation manner, in an embodiment of the present invention, two end portions of the elastic carrier along a length direction thereof are respectively provided with a first connecting piece and a second connecting piece, the first connecting piece is detachably connected to one of the clamp arms, the second connecting piece is detachably connected to the other clamp arm, and a gap is provided between a surface of the elastic carrier facing away from the flexible circuit board and an inner side of the middle bracket.

As an optional implementation manner, in the embodiment of the present invention, the first connection member and/or the second connection member is provided with the conductive member;

one of the clamping arms is provided with an electric connecting piece electrically connected with the power supply, and the electric conducting piece arranged on the first connecting piece or the electric conducting piece arranged on the second connecting piece is detachably connected with the electric connecting piece.

As an alternative implementation, in an embodiment of the present invention, the neck massager further includes an elastic member connected to the electrode assembly and the middle support and located in a gap between the electrode assembly and the middle support.

As an optional implementation manner, in this embodiment, the neck massager further includes a circuit board, the circuit board is disposed inside one of the clamping arms, the power supply is disposed inside the other clamping arm, the middle bracket has a hollow structure communicating the interiors of the two clamping arms, and a circuit of the circuit board extends along the hollow structure to the interior of the other clamping arm to be electrically connected to the power supply.

As an alternative, in the embodiment of the present invention, the electrode assembly has an overall arc-shaped sheet structure, and the length extension direction of the electrode assembly coincides with the surrounding direction of the middle support.

In a third aspect, the embodiment of the invention discloses a wearable massage device with the electrode assembly of the first aspect, the wearable massage device comprises a wearing part and the electrode assembly, the electrode assembly is arranged on the wearing part, and the wearing part is worn by a human body.

Compared with the prior art, the embodiment of the invention at least has the following beneficial effects:

the embodiment of the invention provides an electrode assembly, a neck massager and wearable massage equipment. Moreover, the flexible circuit board provides conditions for the expansion function of the electrode assembly, and the function expansibility of the electrode assembly is better.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for a person skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of an electrode assembly according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the disclosed electrode assembly in accordance with one embodiment of the present invention;

FIG. 3 is an exploded view of a disclosed electrode assembly in accordance with an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a flexible printed circuit board according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a flexible circuit board disposed on a reinforcing layer according to an embodiment of the disclosure;

FIG. 6 is a schematic structural diagram of a reinforcing layer disposed in a soft rubber layer according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a neck massager disclosed in the second embodiment of the present invention;

FIG. 8 is an exploded view of the neck massager disclosed in the second embodiment of the present invention;

fig. 9 is an enlarged schematic view at I in fig. 8.

Icon: 100-an electrode assembly; 10-an elastomeric carrier; 10 a-a holding tank; 10 b-a binding face; 101-a soft adhesive layer; 102-a stiffening layer; 11-a flexible circuit board; 11 a-a body portion; 11 b-a conductive portion; 111-electrical stimulation line layer; 112-functional circuit layer; 111 a-electrical stimulation zone; 111 b-an electrical stimulation zone; 12-a conductive member; 13-a flexible conductive sheet; 200-neck massager; 20-wearing a bracket; 20 a-inside; 201-intermediate support; 202-a clamping arm; 21-a power supply; 22 a-a first connector; 22 b-a second connector; 23-connecting electric pieces; 24-a circuit board; a-the wearing area.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "center", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the present invention can be understood by those skilled in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The invention discloses an electrode assembly, a neck massager and wearable massage equipment.

Example one

Referring to fig. 1 to 3 together, which are schematic structural diagrams of an electrode assembly 100 according to an embodiment of the present invention, the electrode assembly 100 is applied to a massage device, the electrode assembly 100 includes an elastic carrier 10 and a flexible circuit board 11, one surface of the flexible circuit board 11 is attached to the elastic carrier 10, the flexible circuit board 11 can elastically deform along with the elastic carrier 10 along any angle, one surface of the flexible circuit board 11 away from the elastic carrier 10 is provided with an electrical stimulation circuit layer 111, the electrical stimulation circuit layer 111 is electrically connected to the flexible circuit board 11, and the electrical stimulation circuit layer 111 is used for applying a stimulation current to a human body.

In the electrode assembly 100 of the present embodiment, the flexible circuit board 11 is disposed on the elastic carrier 10, and the flexible circuit board 11 can be connected to current to supply power to the electrical stimulation circuit layer 111, so that the electrical stimulation circuit layer 111 can apply stimulation current to a human body to achieve electrical stimulation massage. In addition, since the flexible circuit board 11 can elastically deform along any angle along with the elastic carrier 10, the electrode assembly 100 of the present embodiment is elastic and can deform under the action of the massage part (such as the neck, the waist, the leg, etc.) of the user, so that the whole electrode assembly 100 is adapted to the massage part of the user, and the electrical stimulation circuit layer 111 can cling to the skin of the user, resulting in a better fitting effect. In the present embodiment, the massage part will be described by taking the neck as an example.

Considering that the surface of the user's neck is generally uneven, for example, an outward bulge is formed at the spine or a rich bag exists in the user's neck, and the uneven position of the user's neck surface is changed along with the movement of the user's neck. Therefore, in the present embodiment, the electrode assembly 100 is elastic as a whole, and can elastically deform along any angle, so that the electrode assembly 100 elastically deforms corresponding to the uneven surface of the neck of the user, thereby matching the surface of the neck of the user, and along with the change of the uneven surface of the neck of the user, the electrode assembly 100 elastically deforms accordingly, thereby effectively eliminating the gap between the electrode assembly 100 and the neck of the user, so that the electrode assembly 100 can be tightly attached to the neck of the user, and further improving the attachment effect.

Illustratively, the electrode assembly may further include a conductive member 12, the conductive member 12 is disposed on the elastic carrier 10 or the flexible circuit board 11 and electrically connected to the flexible circuit board 11, and the conductive member 12 is used for supplying current to the flexible circuit board 11.

Alternatively, the conductive member 12 may be an electrical terminal or an electrical post. It is understood that, in some other embodiments, the conductive device 12 may also be a flexible conductive circuit integrated with the flexible circuit board 11, a base material of the conductive device 12 is the same as a base material of the flexible circuit board 11, and the conductive circuit on the conductive device 12 is electrically connected to the electrical stimulation circuit layer 111 to connect the electrical stimulation circuit layer 111, which is not limited in this embodiment.

Specifically, the flexible circuit board 11 and the elastic carrier 10 are both in a sheet shape, the electrode assembly 100 is in a sheet shape as a whole, when the massage device is provided with the electrode assembly 100 of the present embodiment, one electrode assembly 100 can be separately provided, and the electrode assembly 100 in the sheet shape as a whole can be attached to the neck of a user in a large area.

Further, by forming the electrical stimulation line layer 111 on the flexible circuit board 11, while the electrical stimulation massage function is realized, the flexible circuit board 11 is utilized to easily form different types of lines, and conditions for expanding other functions are provided for the electrode assembly 100, so that the electrode assembly 100 of the embodiment has better function expansibility. Illustratively, as shown in fig. 4, the flexible circuit board 11 is further provided with a functional circuit layer 112, and the functional circuit layer 112 is electrically connected to the flexible circuit board 11.

As an alternative embodiment, the functional circuit layer 112 includes at least one of a heating circuit layer and a light-emitting circuit layer, the functional circuit layer 112 is disposed in an insulating manner from the electrical stimulation circuit layer 111, and the light-emitting circuit layer and the electrical stimulation circuit layer 111 are disposed on the same surface of the flexible circuit board 11. Illustratively, the heat generating circuit layer may be a graphene layer capable of generating heat and far infrared rays when energized; the light-emitting circuit layer can be an electro-optic conversion layer, such as a phosphor layer, and the light-emitting circuit layer can be a luminescent sheet. That is, a heat generating circuit layer may be formed on the flexible circuit board 11, and the heat generating circuit layer may emit heat when power is applied, thereby expanding a hot compress function for the electrode assembly 100. A light emitting circuit layer may be formed on the flexible circuit board 11, and the light emitting circuit layer may emit light when being powered on, thereby expanding functions of phototherapy, decoration, illumination, and the like for the electrode assembly 100.

As described above, it can be understood that the electrical stimulation circuit layer 111 and the heat generating circuit layer may be formed by attaching conductive patterns to the substrate of the flexible circuit board 11. The conductive pattern forming the electrical stimulation circuit layer 111 is an electrical stimulation circuit, and the conductive pattern forming the heating circuit layer is a heating circuit. Similarly, other conductive patterns may be attached to the substrate of the flexible circuit board 11 to form circuit layers with different functions, which is not described herein again.

As another alternative, the functional circuit layer 112 is a control circuit layer, which is electrically connected to the flexible circuit board 11 and the electrical stimulation circuit layer 111, and is used for controlling parameters of the electrical stimulation circuit layer 111. Specifically, the parameters of the electrical stimulation circuit layer 111 may include voltage, frequency, and the like, and the parameters are regulated and controlled by the regulating and controlling circuit layer, so that different electrical stimulation effects are provided for the user, and different use requirements of the user are met. By forming the regulation and control circuit layer on the flexible circuit board 11, parameters of the electrical stimulation circuit layer 111 are regulated and controlled without additionally arranging a control component, so that the integration level of the electrode assembly 100 is effectively improved, and the electrode assembly is more miniaturized.

Illustratively, the functional circuit layer 112 and the electrical stimulation circuit layer 111 may be located on the same surface or different surfaces of the flexible circuit board 11, for example, when the functional circuit layer 112 is an electrical-optical conversion layer, the electrical-optical conversion layer and the electrical stimulation circuit layer 111 may be located on the same surface of the flexible circuit board 11, so that light emitted by the electrical-optical conversion layer after being powered on is conveniently transmitted out, and is prevented from being blocked by the flexible circuit board 11 or from adding a light transmission structure to the flexible circuit board 11. Therefore, the specific location of the functional circuit layer 112 can be considered according to its actual function, which is not limited in this embodiment.

In consideration of the fact that the functional wiring layer 112 is formed on the flexible circuit board 11, it is necessary to avoid the functional wiring layer 112 from affecting the normal application of the stimulation current to the human body by the electrical stimulation wiring layer 111. Therefore, when the functional circuit layer 112 and the electrical stimulation circuit layer 111 are located on the same surface of the flexible circuit board 11, the formation height of the functional circuit layer 112 on the flexible circuit board 11 is smaller than the formation height of the electrical stimulation circuit layer 111 on the flexible circuit board 11, and the functional circuit layer 112 is subjected to an insulation packaging process. Therefore, the functional circuit layer 112 does not interfere with the attachment of the electrical stimulation circuit layer 111 to the skin of the user, and the attachment effect of the electrical stimulation circuit layer 111 to the skin of the user is effectively ensured.

Optionally, the electrical stimulation circuit layer 111 includes at least two electrical stimulation regions spaced apart from each other, the electrical stimulation regions are spaced apart from each other to form a physical insulation, at least one electrical stimulation region is used to connect to the positive electrode, and at least another electrical stimulation region is used to connect to the negative electrode. The electrode assembly 100 of the present embodiment has two electrical stimulation regions 111a and 111b connected to different electrodes, and when the electrical stimulation circuit layer 111 is attached to the skin of the user, the two electrical stimulation regions 111a and 111b and the skin can form a discharge circuit, so as to perform electrical stimulation massage on the user.

In addition, when the electrode assembly 100 is applied to a neck massager, the electrode assembly 100 is integrally sheet-shaped, and the extending direction of the electrode assembly 100 is the same as the surrounding direction of the bracket of the neck massager, so that the electrode assembly 100 can surround the neck of a user in a surrounding manner, and a larger electrical stimulation area can be provided. Form the discharge circuit through two electric stimulation district 111a and 111b and user's neck laminating, compare current neck massager and have two at least electrode subassembly 100, form the mode of discharge circuit through two electrode subassembly access different electrodes, this application adopts the design in two electric stimulation district 111a and 111b, can make neck massager's structure simpler. It is understood that in other embodiments, the electrical stimulation circuit layer 111 may include more than two electrical stimulation regions, such as 3, 4, 5 or more, so as to form various combinations of different electrical stimulation regions, thereby further diversifying the massage manipulation.

It will be appreciated that the electrical stimulation zone is not limited to the wire-wound shape shown, but may be in the form of a monolithic sheet, thereby providing a stimulation current output surface with a larger area.

Referring to fig. 2 and 3, the flexible circuit board 11 includes a main body portion 11a and a conductive portion 11b extending outward from the main body portion 11a and electrically connected to the main body portion 11a, the electrical stimulation circuit layer 111 is disposed on the main body portion 11a and electrically connected to the main body half portion, and the conductive portion 11b is electrically connected to the conductive member 12. That is, the main body portion 11a may be used to form an electrical stimulation line layer 111 and a functional line layer 112, and the conductive portions 11b may extend outwardly along both ends of the main body portion 11a, respectively, for extending the overall length of the flexible circuit board 11 to facilitate better connection with the conductive member 12, as an operating region of the flexible circuit board 11. It is understood that the conductive portion 11b may also extend outwardly from a face of the main body portion 11a, and this embodiment is not particularly limited thereto.

In this embodiment, the electrode assembly 100 may further include a flexible conductive sheet 13, the flexible conductive sheet 13 is attached to the surface of the flexible circuit board 11 on which the electrical stimulation circuit layer 111 is disposed and covers the electrical stimulation circuit layer, and the flexible conductive sheet 13 is electrically connected to the electrical stimulation circuit layer 111. The attachment of the electrode assembly 100 to the skin is further improved by providing the flexible conductive sheet 13.

Illustratively, the flexible conductive sheet 13 may be a conductive gel sheet having an adhesive surface adhered to the flexible circuit board 11. Because the human skin surface is covered with a scaly cuticle which is an electrical poor conductor, when the metal electrode plate is directly attached to the cuticle surface, the current is not easy to be conducted with the human skin through the metal electrode plate, and the local energy concentration is easy to occur, thus causing stabbing pain. Therefore, this embodiment adopts this flexible conducting strip 13 to be the design of conductive gel piece, and usable conductive gel piece fills into the clearance of scale stratum corneum to make conductive gel piece can be direct and the corium direct contact under the human stratum corneum, and then make conductive gel piece and the attached part in human skin surface can fully communicate with corium electric conductance, increased electric conductance and led to the effect area, reduced local energy and concentrated, produce the stabbing pain when having avoided using, promote user's use experience nature. In addition, when the flexible conductive sheet 13 made of conductive gel is used, water vapor is generated, so that the flexible conductive sheet 13 is tightly attached to the neck of a user, and the condition that a gap is formed between the flexible conductive sheet 13 and the neck of the user to cause a stimulation current to generate large stimulation to the local part of the neck of the user to cause the local part of the neck of the user to be stabbed is avoided.

In this embodiment, the elastic carrier 10 includes a soft adhesive layer 101 and a reinforcing layer 102 disposed on the soft adhesive layer 101, and one surface of the flexible circuit board 11 facing away from the electrical stimulation circuit layer 111 is attached to the soft adhesive layer 101 or the reinforcing layer 102. The elastic carrier 10 has elasticity through the soft rubber layer 101, and can deform under the action of the neck of a user to adapt to the neck of the user, the reinforcing layer 102 can improve the plasticity of the elastic carrier 10, and the reinforcing layer 102 has a certain shaping function while ensuring the elasticity of the elastic carrier 10, so that the elastic carrier 10 can maintain an inherent shape in a normal state. The elastic carrier 10 is designed by the soft rubber layer 101 and the reinforcing layer 102, so that the elasticity and the plasticity of the elastic carrier 10 can be well balanced, the electrode assembly 100 can be effectively ensured to be deformed to be well attached to the skin of a user, and the inherent shape of the electrode assembly 100 can be maintained in a normal state.

For example, the soft adhesive layer 101 may be a silicone layer, a rubber layer, or a latex layer, and the reinforcing layer 102 may be a metal reinforcing layer or a plastic reinforcing layer. That is, the elastic carrier 10 can be matched with the soft rubber layer 101 and the reinforcing layer 102 made of different materials according to the requirement, so as to adjust the elasticity and plasticity of the elastic carrier 10 and meet different use requirements.

As an optional implementation manner, as shown in fig. 5, one surface of the reinforcing layer 102 is disposed on the soft glue layer 101, and one surface of the flexible circuit board 11 facing away from the electrical stimulation circuit layer 111 is attached to one surface of the reinforcing layer 102 facing away from the soft glue layer 101 in an insulating manner. That is, the flexible circuit board 11, the reinforcement layer 102, and the soft glue layer 101 form a laminated structure that is sequentially stacked, reducing the difficulty of manufacturing the electrode assembly 100.

As another alternative embodiment, as shown in fig. 6, the reinforcing layer 102 is embedded in the soft rubber layer 101, and a surface of the flexible circuit board 11 facing away from the electrical stimulation circuit layer 111 is attached to the soft rubber layer 101. By embedding the reinforcing layer 102 in the soft rubber layer 101, the overall thickness of the elastic carrier 10 can be reduced, so that the electrode assembly 100 is lighter and thinner, deformation of the electrode assembly 100 is facilitated to be matched with the neck of a user, and the attaching effect of the electrode assembly and the skin of the user is improved.

As another alternative embodiment, as shown in fig. 3, a receiving groove 10a is disposed on one surface of the soft glue layer 101, the reinforcing layer 102 is disposed on the receiving groove 10a and has an attaching surface 10b facing the outside of the receiving groove 10a, and one surface of the flexible circuit board 11 facing away from the electrical stimulation circuit layer 111 is attached to the attaching surface 10 b. The accommodating groove 10a accommodates the reinforcing layer 102, so that the overall thickness of the elastic carrier 10 can be reduced, the electrode assembly 100 is lighter and thinner, deformation of the electrode assembly 100 is facilitated to be matched with the neck of a user, and the fitting effect of the electrode assembly 100 and the skin of the user is improved. In addition, the bonding surface 10b of the metal reinforcing layer 102 has better bonding force and better bonding effect with the flexible circuit board 11. By means of the manner that the joint surface 10b of the metal reinforcing layer 102 is jointed with the flexible circuit board 11, the situation that the flexible circuit board 11 is arranged on the soft adhesive layer 101 in a nailing connection or active agent bonding manner to damage the surface of the soft adhesive layer 101 can be avoided, and the integrity of the soft adhesive layer 101 is ensured.

The embodiment of the invention provides an electrode assembly, a neck massager and wearable massage equipment. Moreover, the flexible circuit board provides conditions for the expansion function of the electrode assembly, and the function expansibility of the electrode assembly is better.

Example two

Referring to fig. 7 to 8, which are schematic structural views of a neck massager 200 having the electrode assembly 100 of the first embodiment of the present invention, the neck massager 200 includes a wearing frame 20 and the electrode assembly 100, a power supply 21 is disposed in the wearing frame 20, the electrode assembly 100 is connected to the wearing frame 20, and the conductive member 12 is connected to the power supply 21.

In this embodiment, the wearing frame 20 includes a middle frame 201 and two clamping arms 202, the two clamping arms 202 are respectively connected to two ends of the middle frame 201, and the electrode assembly 100 is connected to the inner side 20a of the middle frame 201 or connected between the two clamping arms 202. Specifically, the middle bracket 201 and the two clamping arms 202 enclose a wearing area a therebetween for a user to wear on the neck, and the inner side 20a of the middle bracket 201 refers to a side of the middle bracket 201 facing the wearing area a.

The electrode assembly 100 has an overall arc-shaped sheet structure, and the length extension direction of the electrode assembly 100 coincides with the surrounding direction of the middle support 201. Thereby enabling the electrode assembly 100 to surround the neck portion in a surrounding manner, and providing a larger electrical stimulation area. Wherein, the surrounding direction refers to a direction in which the middle support 201 extends along the neck of the user to surround the neck of the user. Specifically, the neck massager 200 is provided with an electrode assembly 100, the length of the electrode assembly 100 is approximately matched with the length of the middle support 201, the electrode assembly 100 is arranged on the middle support 201 in a one-piece manner, when a user uses the neck massager 200, the electrode assembly 100 can deform along with the neck of the user, the electrode assembly 100 can continuously fit the neck of the user along the direction in which one side of the neck of the user extends to the other side of the neck of the user, the degree of freedom of deformation is larger, and the fitting effect with the neck of the user is better. The electrode subassembly of the neck massager of this embodiment adopts the design that wholly is a slice, and the area of electrode subassembly and the laminating of user's neck is bigger, and for the laminating of continuous parcel formula, effectively ensures the laminating area of electrode subassembly and user's neck, promotes user's massage travelling comfort.

In this embodiment, two ends of electrode assembly 100 are respectively connected to inner sides of two clamping arms 202, and when the user wears neck massager 200, electrode assembly 100 and the inner sides of two clamping arms 202 together form a clamp for the neck. Because electrode assembly 100 can be laminated at the neck and take place the deformation, when the neck drove electrode assembly 100 and warp, two arm lock 202 can be pulled respectively to the both ends of electrode assembly 100 for the arm lock is further clamped towards the neck, and neck massage appearance 200 has better centre gripping effect.

Furthermore, the two ends of the elastic carrier 10 along its length direction are respectively provided with a first connector 22a and a second connector 22b, the first connector 22a is detachably connected to one of the clamping arms 202, the second connector 22b is detachably connected to the other clamping arm 202, and a gap is formed between a surface of the elastic carrier 10 facing away from the flexible circuit board and the inner side 20a of the middle bracket 201. That is, the electrode assembly 100 can be detachably connected to the wearable support 20 through the first connector 22a and the second connector 22b, so that the electrode assembly 100 can be easily replaced and maintained. Specifically, the first connecting part 22a and the second connecting part 22b may be shell-shaped parts provided with magnetic attraction structures or fastening structures, two ends of the elastic carrier 10 are located in the first connecting part 22a and the second connecting part 22b, and the conductive member 12 may be partially embedded in the first connecting part 22a or the second connecting part 22b, and partially exposed out of the first connecting part 22a or the second connecting part 22b to be connected with the power supply 21. In addition, the gap between the elastic carrier 10 and the middle support 201 can provide a space for the elastic carrier 10 to deform, and when the elastic carrier is acted by the neck of a user, the electrode assembly 100 can deform towards the gap, so that the electrode assembly 100 is matched with the neck of the user, and the flexible conductive sheet 13 can be better attached to the neck of the user.

Illustratively, as shown in fig. 9, the first connecting member 22a and the second connecting member 22b are provided with conductive members 12, the clip arms 202 are provided with electric connecting members 23 electrically connected to the power source 21, and the conductive members 12 are detachably connected to the electric connecting members 23. Specifically, the electrical component 23 may be an electrical terminal or an electrical hole, which is not limited in this embodiment. That is, when the electrode assembly 100 is mounted between the two clamping arms 202 through the first connecting member 22a and the second connecting member 22b, the conductive member 12 located at the first connecting member 22a or the second connecting member 22b is connected to the electric connecting member 23, so that the mechanical connection and the electrical connection are realized, and the mounting is convenient, and the design that the conductive members 12 are provided at the first connecting member 22a and the second connecting member 22b enables the electrode assembly 100 to have two mounting directions, that is, the connection between the first connecting member 22a and the clamping arms 202 and the connection between the second connecting member 22b and the clamping arms 202 can be reversed, so as to realize fool-proof. In some other embodiments, the conductive member 12 may be disposed only on the first connecting member 22a or the second connecting member 22b, which is not particularly limited.

Further, the neck massager 200 further includes an elastic member (not shown) connected to the electrode assembly 100 and the middle support 201 and located in a gap between the electrode assembly 100 and the middle support 201. For example, the elastic member may be a flexible rubber sleeve with folds, the flexible rubber sleeve may be integrally formed on the flexible rubber layer of the elastic carrier 10, the flexible rubber sleeve provides a force for recovering deformation when the electrode assembly 100 is not stressed, and limits the deformation of the electrode assembly 100, so as to prevent the electrode assembly 100 from being pulled outward away from the middle support 201 excessively, and the electrode assembly 100 is pulled off the wearable support 20.

In this embodiment, the neck massager 200 further includes a circuit board 24, the circuit board 24 is disposed inside one of the clamping arms 202, the power source 21 is disposed inside the other clamping arm 202, the middle support 201 has a hollow structure communicating with the interiors of the two clamping arms 202, and the circuit of the circuit board 24 extends along the hollow structure to the interior of the other clamping arm 202 to be electrically connected to the power source 21.

The embodiment of the invention provides a neck massager, an electrode assembly of the neck massager can deform along with the neck of a user, and the flexible conducting strip has a good fitting effect with the neck of the user.

EXAMPLE III

The third embodiment of the invention discloses wearable massage equipment with the electrode assembly of the first embodiment, the wearable massage equipment comprises a wearing part and the electrode assembly, the electrode assembly is arranged on the wearing part, and the wearing part is used for being worn by a human body.

Alternatively, the wearable massage device may be, but is not limited to, an eye massager, a shoulder massager, a leg massager, a waist massager, a head massager, or the like. Taking the eye massager as an example, the wearing part can be a belt body or a frame for wearing on the ears or the head of the human body, and the belt body can be an adjustable connecting belt. Taking the waist massager as an example, the wearing part can be a connecting belt body such as an abdominal belt and a waist belt which are worn on the human body.

The embodiment of the invention provides wearable massage equipment, an electrode assembly of the wearable massage equipment can deform along with the neck of a user, and the fit effect of a flexible conducting strip and the neck of the user is good.

The electrode assembly, the neck massager and the wearable massage device disclosed by the embodiment of the invention are introduced in detail, an example is applied to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the electrode assembly, the neck massager and the wearable massage device and the core ideas thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (23)

1. An electrode assembly, comprising

An elastic carrier; and

one surface of the flexible circuit board is attached to the elastic carrier and can elastically deform along with the elastic carrier at any angle, and one surface of the flexible circuit board, which is far away from the elastic carrier, is provided with an electrical stimulation line layer which is used for applying stimulation current to a human body.

2. The electrode assembly of claim 1, wherein the flexible circuit board is further provided with a functional wiring layer, the functional wiring layer being electrically connected to the flexible circuit board.

3. The electrode assembly of claim 2, wherein the functional circuit layer includes at least one of a heat emitting circuit layer and a light emitting circuit layer, the functional circuit layer is disposed to be insulated from the electrical stimulation circuit layer, and the light emitting circuit layer and the electrical stimulation circuit layer are disposed on the same surface of the flexible circuit board.

4. The electrode assembly according to claim 3, wherein the light emitting circuit layer is a graphene layer, and the light emitting circuit layer is an electro-optic conversion layer.

5. The electrode assembly of claim 2, wherein the functional circuit layer comprises a modulation circuit layer, the modulation circuit layer further electrically connected to the electrical stimulation circuit layer, the modulation circuit layer for modulating a parameter of the electrical stimulation circuit layer.

6. The electrode assembly according to any one of claims 2 to 5, wherein when the functional circuit layer and the electrical stimulation circuit layer are positioned on the same surface of the flexible circuit board, the formation height of the functional circuit layer on the flexible circuit board is smaller than that of the electrical stimulation circuit layer on the flexible circuit board, and the functional circuit layer is subjected to insulation packaging treatment.

7. The electrode assembly of any one of claims 1 to 5, wherein the electrical stimulation circuit layer comprises at least two electrical stimulation regions spaced apart from each other, wherein at least one of the electrical stimulation regions is connected to a positive electrode and at least another one of the electrical stimulation regions is connected to a negative electrode.

8. The electrode assembly of any of claims 1-5, wherein the flexible circuit board includes a body portion and an electrically conductive portion extending outwardly from and electrically connected to the body portion, the electrical stimulation circuit layer being disposed on and electrically connected to the body portion, the electrically conductive portion being configured to receive electrical current.

9. The electrode assembly according to any one of claims 1 to 5, further comprising a flexible conductive sheet attached to a surface of the flexible circuit board on which the electrical stimulation circuit layer is provided and covering the electrical stimulation circuit layer, the flexible conductive sheet being electrically connected to the electrical stimulation circuit layer.

10. The electrode assembly of claim 9, wherein the flexible conductive sheet is a conductive gel sheet having an adhesive surface that is adhered to the flexible circuit board.

11. The electrode assembly of any one of claims 1 to 5, wherein the elastic carrier comprises a soft adhesive layer and a reinforcing layer disposed on the soft adhesive layer, and a surface of the flexible circuit board facing away from the electrical stimulation circuit layer is attached to the soft adhesive layer or the reinforcing layer.

12. The electrode assembly of claim 11, wherein one side of the reinforcing layer is disposed on the soft adhesive layer, and one side of the flexible circuit board facing away from the electrical stimulation circuit layer is attached to one side of the reinforcing layer facing away from the soft adhesive layer in an insulating manner;

or the reinforcing layer is embedded in the soft rubber layer, and one surface of the flexible circuit board, which deviates from the electrical stimulation circuit layer, is attached to the soft rubber layer.

13. The electrode assembly of claim 11, wherein a receiving groove is formed on a surface of the soft adhesive layer, the reinforcing layer is disposed on the receiving groove and has a bonding surface facing to an outside of the receiving groove, and a surface of the flexible circuit board facing away from the electrical stimulation circuit layer is bonded to the bonding surface of the reinforcing layer.

14. The electrode assembly of claim 11, wherein the soft adhesive layer is a silicone layer, a rubber layer, or a latex layer, and the reinforcing layer is a metal reinforcing layer or a plastic reinforcing layer.

15. The electrode assembly of any one of claims 1 to 5, further comprising a conductive member disposed on the elastic carrier or the flexible circuit board and electrically connected to the flexible circuit board, the conductive member being configured to supply current to the flexible circuit board.

16. A neck massager comprising a wear cradle having a power source therein and an electrode assembly as claimed in any one of claims 1 to 14 connected to the wear cradle, the electrode assembly further comprising an electrically conductive member electrically connected to the flexible circuit board and the power source.

17. The neck massager of claim 16 wherein the wearing support comprises a middle support and two clamping arms, the two clamping arms are respectively connected to two ends of the middle support, and the electrode assembly is connected to the inner side of the middle support or connected between the two clamping arms.

18. The neck massager of claim 17 wherein the elastic carrier has a first connector and a second connector at opposite ends along a length direction thereof, the first connector is detachably connected to one of the clamping arms, the second connector is detachably connected to the other clamping arm, and a gap is provided between a surface of the elastic carrier facing away from the flexible circuit board and an inner side of the middle support.

19. The neck massager of claim 18 wherein the first connector and/or the second connector is provided with the conductive member;

one of the clamping arms is provided with an electric connecting piece electrically connected with the power supply, and the electric conducting piece arranged on the first connecting piece or the electric conducting piece arranged on the second connecting piece is detachably connected with the electric connecting piece.

20. The neck massager of claim 18 further comprising an elastic member connected to the electrode assembly and the intermediate support and positioned in a gap between the electrode assembly and the intermediate support.

21. The neck massager of any one of claims 17-20, further comprising a circuit board disposed inside one of the clamping arms, wherein the power source is disposed inside the other of the clamping arms, wherein the middle support has a hollow structure communicating the interiors of the two clamping arms, and wherein the circuit board extends along the hollow structure to the interior of the other clamping arm to be electrically connected to the power source.

22. The neck massager of any one of claims 17-20 wherein the electrode assembly has an overall arc-shaped sheet structure, and the electrode assembly has a length extending in a direction corresponding to the circumferential direction of the middle support.

23. A wearable massage apparatus, comprising a wearing part and an electrode assembly as claimed in any one of claims 1 to 15, wherein the electrode assembly is provided on the wearing part, and the wearing part is adapted to be worn by a human body.

Images