CN113546305A - Electrode assembly, massage head, neck massage instrument and wearable massage equipment - Google Patents

Abstract

An electrode assembly mounted to a main body of a massage machine, comprising: an electrode sheet; the carrier is used for carrying the electrode plates, the electrode plates are connected and separated with the host machine along with the carrier under the carrying of the carrier, and the carrier is carried by the host machine when connected with the host machine; the electric part is arranged on the carrier and is insulated from the electrode plate; the first conductive piece is used for forming separable electric connection with a host machine to which the electrode component is applied and accessing a first path of current to the electrode slice; and the second conductive piece is used for forming separable electric connection with a host machine to which the electrode component is applied and accessing a second path of current to the power utilization piece. The electric massager is used for solving the problems that in the prior art, an electrode plate cannot be detached relative to a neck massager, when an electric component in the electrode plate or the massage head needs to be replaced, the assembly and disassembly maintenance is complex, the electric connection circuit of the electrode plate and the electric component is easy to generate electric connection disorder when the electrode plate or the massage head is assembled and disassembled, the maintenance difficulty is high, the reliability is low, and the maintenance technical requirement is high.

Description

Electrode assembly, massage head, neck massage instrument and wearable massage equipment

Technical Field

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

Background

The electrical stimulation type neck massager can accelerate blood circulation at muscles by applying pulse current to the neck, and can effectively relieve the aching pain of the neck muscles.

At present, electrode plates of neck massage instruments on the market are all arranged in an undetachable mode relative to the neck massage instruments, when the electrode plates or power utilization parts in massage heads need to be replaced, assembly and disassembly maintenance are complex, the problem of power connection confusion of the electrode plates and power utilization parts is easily caused when the electrode plates and the power utilization parts are assembled and disassembled, the maintenance difficulty is high, the reliability is low, and the maintenance technical requirement is high.

Disclosure of Invention

The invention mainly aims to provide an electrode assembly, a massage head comprising the electrode assembly, a neck massage instrument and wearable massage equipment, which are used for solving the problems that in the prior art, electrode plates and electric parts are complex to assemble, disassemble and maintain, high in maintenance difficulty and low in reliability, and the maintenance technical requirement is high.

In order to achieve the purpose, the invention adopts the following technical scheme:

in one aspect, an embodiment of the present invention provides an electrode assembly installed on a main unit of a massage apparatus, including:

an electrode sheet;

the carrier is used for carrying the electrode slice, the electrode slice is connected and separated with the host machine along with the carrier under the carrying of the carrier, and the carrier is carried by the host machine when connected to the host machine;

the electric part is arranged on the carrier and is mutually insulated from the electrode plate;

the first conductive piece is used for forming separable electric connection with the electrode assembly and the host machine and connecting a first path of current to the electrode slice;

and the second conductive piece is used for forming a separable electric connection with a host machine to which the electrode assembly is applied and accessing a second path of current to the power utilization piece.

Optionally, the electrode assembly further includes a first connector, the first connector is disposed on the carrier, and the first connector is configured to form a detachable mechanical connection with a host to which the electrode assembly is applied.

Optionally, the electrode sheet is a conductive gel sheet.

Optionally, the electrode assembly further comprises a conductive film, the conductive film is arranged between the carrier and the electrode sheet, and the conductive film has a first surface facing the electrode sheet and a second surface facing away from the electrode sheet;

the first surface is provided with a conducting layer, at least part of the conducting layer is attached and electrically connected to the electrode plate, and the first conductive piece is electrically connected to the conducting layer so as to access the first path of current to the electrode plate.

Optionally, the conductive film has a waterproof insulating substrate, and the conductive layer is coated on one surface of the waterproof insulating substrate.

Optionally, the power consumption component includes a heating film, the heating film is disposed between the conductive film and the carrier, and the second surface of the conductive film and the heating film are insulated from each other.

Optionally, the power consumption part includes at least one of a heat generation part, a light emitting part and a sensor.

Optionally, the electrode assembly further includes a terminal plate disposed on the carrier, and the terminal plate is configured to receive the first path of current and the second path of current from outside, and to connect the first path of current to the first conductive member and connect the second path of current to the second conductive member.

Optionally, the electrode assembly further comprises a conductive film, and the conductive film is arranged between the carrier and the electrode sheet; the first conductive piece is used for fixing the conductive film to the carrier, and is electrically connected between the wiring board and the conductive layer so as to connect the first path of current into the electrode slice;

the second conductive piece is used for fixing the electric part to the carrier, and the second conductive piece is electrically connected between the wiring board and the electric part so as to connect the second path of current into the electric part.

Optionally, the electrode assembly further comprises a third conductive piece and a fourth conductive piece, and the third conductive piece and the fourth conductive piece are arranged on one side of the wiring board facing the electrode plate;

the third conductive piece is used for fixing the wiring board on the carrier, and is electrically connected between the wiring board and the first conductive piece so as to connect the first path of current into the electrode plate;

the fourth conductive element is used for fixing the wiring board on the carrier, and the fourth conductive element is electrically connected between the wiring board and the second conductive element so as to connect the second path of current into the power utilization element.

Optionally, the electrode assembly further comprises a first connector;

the first connecting pieces are a plurality of first magnetic suction pieces;

the wiring board is arranged in the middle of the carrier and is provided with at least one through hole; a first electrode and a second electrode are arranged on one side of the wiring board, which is far away from the electrode plate, the first electrode and the second electrode are arranged around the through hole, the third conductive piece is electrically connected with the first electrode, the fourth conductive piece is electrically connected with the second electrode, the first path of current is switched into the first conductive piece through the first electrode and the third conductive piece, and the second path of current is switched into the second conductive piece through the second electrode and the fourth conductive piece;

the carrier is provided with a plurality of accommodating grooves which are arranged in the circumferential direction of the wiring board, and the first magnetic suction piece is correspondingly embedded in the through hole and the accommodating grooves.

Optionally, a positioning groove is further formed on the carrier, the power consumption component and the electrode plate are arranged in the positioning groove, and the electrode plate is exposed from the positioning groove to contact with the skin of the human body.

In another aspect, an embodiment of the present invention provides a massage head including:

a mounting seat;

and an electrode assembly as described above;

wherein the mounting seat is provided with an electric connector;

the electric connecting pieces are respectively and electrically connected with the first conductive pieces and the second conductive pieces in a separable mode, so that the first path of current is connected to the electrode plate through the electric connecting pieces, and the second path of current is connected to the electricity utilization pieces.

Optionally, when the electrode assembly further comprises a first connecting piece, and the first connecting piece is a first magnetic attraction piece;

the second connecting piece is a second magnetic suction piece;

the electrode assembly is installed in the mounting seat in a mutually attracting mode through the first magnetic attraction piece and the second magnetic attraction piece.

Optionally, the mounting surface of the mounting seat is a concave arc surface, the carrier of the electrode assembly is flexible, and when the first connecting piece is connected with the second connecting piece, the carrier is attached to the mounting surface.

In another aspect, an embodiment of the present invention provides a neck massager, which includes a wearing support and an electrode assembly as described above, wherein the electrode assembly is detachably and electrically connected to the wearing support through the first conductive member and the second conductive member, and the wearing support is used for being worn on the neck of a human body.

In another aspect, an embodiment of the present invention provides a neck massager, including a wearing support and the massage head as described above; the massage head is arranged on the wearing bracket, and the wearing bracket is used for being worn by the neck of a human body.

In another aspect, an embodiment of the present invention provides a wearable massage apparatus, including a wearable piece and the electrode assembly as described above, where the electrode assembly is detachably and electrically connected to the wearable piece through the first conductive piece and the second conductive piece, and the wearable piece is adapted to be worn by a human body.

In another aspect, an embodiment of the present invention provides a wearable massage apparatus, including a wearable piece and a massage head as described above, where the massage head is disposed on the wearable piece, and the wearable piece is worn by a human body.

Compared with the prior art, the invention has at least the following beneficial effects: the electrode plate and the power consumption part are integrally arranged on the carrier, the power consumption part and the electrode plate are mutually insulated, the first path of current is connected to the electrode plate through the first conductive part, the second path of current is connected to the power consumption part through the second conductive part, and the normal and independent work of the electrode plate and the power consumption part can be guaranteed. Meanwhile, the first conductive piece and the second conductive piece are detachably and electrically connected with the host machine to which the electrode assembly is applied, so that the electrode assembly can be detached and replaced relative to the applicable host machine, and the problems that in the prior art, the electrode plate of the neck massager is not detachable relative to the neck massager, when the electrode plate or the power utilization part needs to be replaced, the assembly and disassembly maintenance is complex, the power connection circuit of the electrode plate and the power utilization part is easy to generate power connection disorder during assembly and disassembly, the maintenance difficulty is high, the reliability is low, and the maintenance technical requirement is high are solved.

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 description of the embodiments will be briefly introduced 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 those skilled in the art to obtain other drawings based on these drawings without creative efforts.

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

FIG. 2 is a front view of an electrode assembly according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A' of FIG. 2 according to one embodiment of the present invention;

FIG. 4 is a rear view of an electrode assembly according to an embodiment of the present invention;

FIG. 5 is a cross-sectional view taken along line B-B' of FIG. 4 according to one embodiment of the present invention;

fig. 6 is a schematic structural diagram of a mounting base according to a second embodiment of the present invention;

fig. 7 is a schematic view of an internal structure of a mounting base according to a second embodiment of the present invention;

fig. 8 is a side view of a neck massager provided in the third embodiment of the present invention.

Icon: 1-an electrode assembly; 11-a carrier; 12-electrode slice; 13-power consumption piece; 14 a-a first electrically conductive member; 14 b-a second electrically conductive member; 15-a first connector; 16-a conductive film; 16 a-a first face; 16 b-a second face; 161-a conductive layer; 17-patch panel; 14 c-a third electrically conductive member; 14 d-a fourth conductive member; 171-a first electrode; 172-a second electrode; 18-a temperature sensor; p-a receiving groove; q-through hole; 19-a positioning groove; 191-a first trough body; 192-a second trough; 10-massage head; 2-mounting a base; 21-a second connector; 22-electrical connections; 23-a mounting surface; 20-wearing the bracket.

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 technical solution of the present invention will be further described with reference to the following embodiments and the accompanying drawings.

Example one

As shown in fig. 1, the embodiment of the present invention provides an electrode assembly 1, which is installed on a main machine of a massage apparatus, and is particularly applicable to a neck massage apparatus having a massage head, and is installed on the massage head of the neck massage apparatus or on a wearing bracket of the neck massage apparatus to massage a part of a human body to be massaged, and of course, can also be applied to wearable massage equipment. The electrode assembly 1 includes a carrier 11, an electrode tab 12, an electric component 13, a first conductive member 14a, and a second conductive member 14 b. The carrier 11 is used for carrying the electrode plates 12, the electrode plates 12 are connected and separated with and from the host machine along with the carrier 11 under the carrying of the carrier 11, and the carrier 11 is carried by the host machine when connected with the host machine, namely the carrier 11 can carry the electrode plates 12 and realize the installation and the detachment with and from the host machine together. That is, when the carrier 11 is connected with and carried on the host computer, the electrode plates 12 are also synchronously installed on the host computer; when the carrier 11 is detached from the main unit, the electrode pads 12 are also detached from the main unit together with the carrier 11. The electric element 13 is provided on the carrier 11 and insulated from the electrode pad 12. The first conductive member 14a is used to form a separable electrical connection with the main body of the electrode assembly 1 and supply a first current to the electrode tabs 12. The second conductive member 14b is used to form a separable electrical connection with a host machine to which the electrode assembly 1 is applied and to apply a second path of current to the electric element 13.

The separable electrical connection is a detachable electrical connection that does not break the conductive structure of the electrode assembly itself and does not require a tool to be attached or detached, and is an electrical connection that does not require a wire to be bonded when attached, such as a contact electrical connection or a plug-in electrical connection. According to the arrangement, the second conductive piece and the main machine can be regarded as two independent structural parts after being detached and separated, the problems that the second conductive piece and the main machine are difficult to detach conveniently due to structures such as welding wires and the like between the second conductive piece and the main machine and are independent of each other can be solved, and the electrode assembly can be repeatedly manually assembled and disassembled relative to the massage main machine applied to the electrode assembly, and the electrode assembly is of a replaceable and disposable structure like a massage head, a neck massage instrument and wearable massage equipment.

As described above, the carrier 11 carries the electrode tabs 12, and other components of the electrode assembly 1, and is attached to and detached from the main body of the electrode assembly 1.

The first path of current may be a power supply connected to the outside (for example, the massage head 10 of the neck massage apparatus 100) through the first conductive member 14a, and the first path of current is an EMS (Electrical Stimulation) power supply. The second current may be a power supply which is accessed to the outside (for example, the massage head 10 of the neck massage apparatus) through the second conductive member 14b, and the second current may be an internal power supply of the neck massage apparatus to which the electrode assembly 1 is applied, and may be, for example, 3.7V. It is understood that the second path of current of 3.7V is only an example, and this embodiment is not limited in this respect.

Further, as shown in fig. 1, the electrode assembly 1 further includes a first connecting member 15, the first connecting member 15 is disposed on the carrier 11, and the first connecting member 15 is used for forming a detachable mechanical connection with a host to which the electrode assembly 1 is applied. The connection stability between the electrode assembly 1 and a host machine to which the electrode assembly 1 is applied can be improved, and the electrode assembly 1 can be detached and replaced with respect to the host machine to which the electrode assembly 1 is applied. The problem of among the prior art neck massager electrode slice 12 can not dismantle for the neck massager, when needing to change electrode slice 12 or power consumption part, install and remove the maintenance comparatively complicacy is solved.

The electrode sheet 12 may be a metal electrode sheet or a silicone electrode sheet, and is not limited herein.

In some alternative embodiments of the present invention, the electrode sheet 12 may be a conductive gel sheet, and the carrier 11 may be a flexible carrier of an insulating material, for example, the carrier 11 is a plastic sheet. 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, the invention adopts the design of the gel sheet, and can fill the gap of the scaly stratum corneum by using the gel sheet, so that the gel sheet can be directly contacted with the corium layer under the stratum corneum of the human body, and further, the attached part of the gel sheet and the surface of the skin of the human body can be fully electrically conducted with the corium layer, thereby enlarging the action area of electric conduction, reducing the concentration of local energy, avoiding the stabbing pain during the use and improving the use experience of users. Meanwhile, the conductive gel sheet can generate water vapor, and can form good fit with skin when in use.

The specific material of the carrier 11 is not limited, and the carrier 11 may be a flexible material or a rigid material, or may be a conductive material or an insulating material.

In an alternative embodiment of the invention, the carrier 11 is a flexible carrier of insulating material. The carrier 11 is for example a plastic sheet. On the one hand, since the plastic sheet has good water and air impermeability, it is also possible to effectively prevent water vapor from penetrating into a main body to which the electrode assembly 1 is applied, such as the interior of the massage head 10, and to prevent corrosion of components therein or short-circuiting of noise internal circuits. Meanwhile, the carrier 11 is a plastic sheet, has good elasticity and plasticity, can adapt to the deformation of the mounting surface 23 of the host machine to which the electrode assembly 1 is applied, realizes good fitting and mounting, can have a relatively flat shape during manufacturing, transportation and storage, and is convenient to manufacture, transport and store.

Further, in order to improve the fit of the electrode assembly 1 to the human skin, the carrier 11 may be optionally a albumen.

Based on the above structure, in some embodiments of the present invention, as shown in fig. 1, the electrode assembly 1 further includes a conductive film 16, the conductive film 16 being disposed between the carrier 11 and the electrode pad 12, the conductive film 16 having a first face 16a facing the electrode pad 12 and a second face 16b facing away from the electrode pad 12; the first surface 16a is provided with a conductive layer 161, at least a portion of the conductive layer 161 is attached to and electrically connected to the electrode pad 12, and the first conductive member 14a is electrically connected to the conductive layer 161 to supply a first current to the electrode pad 12.

In this embodiment, the conductive gel sheet is covered over the entire surface by making the area of the conductive film 16 larger than the area of the conductive gel sheet, and the conductive gel sheet can be prevented from permeating water vapor into a main body, such as a massage head, to which the electrode assembly 1 is applied over the entire surface. Meanwhile, the conductivity of the conductive gel sheet can be increased by providing the conductive layer 161. Compared with the point-to-point electric connection mode between the first conductive piece 14a and the electrode plate 12, the scheme can also realize the face-to-face electric connection between the first conductive piece 14a and the electrode plate 12, and avoid the occurrence of stabbing pain caused by overlarge local current.

Optionally, the power consumption part 13 includes at least one of a heat generating part, a light emitting part, and a sensor. By integrating the heat generating member, the light emitting member, the sensor, and the like into the electrode assembly 1, the electrode assembly 1 can have functions of generating heat, emitting light, detecting (e.g., detecting temperature, blood pressure, body temperature, body fat, and bone density), and the like in addition to the EMS function, so that the electrode assembly 1 has various functions.

When the electric component 13 includes a heating component, the heat conduction effect between the integrated heating component and the electrode plate 12 is better than that between the heating component and the electrode plate 12 which are of a separate structure. Meanwhile, if the heating element is arranged on the mounting seat of the host machine applied to the electrode assembly 1, such as the massage head, for example, the heating element is arranged on the mounting surface of the mounting seat, the structure of the mounting surface of the massage head is not simple enough, after the electrode assembly 1 is disassembled relative to the massage head, the wiring structure and the connection structure on the heating element are exposed, the safety and the sealing performance are poor, and if the heating element is arranged on the inner side of the mounting surface, although the appearance integrity of the mounting surface can be ensured, the heat dissipation effect of the heating element is not facilitated, and the heat conducted to the electrode plate 12 is smaller than that of the heating element from the electrode plate 12 through the multi-layer structure separation, so that the purpose of effectively heating the electrode plate 12 cannot be achieved.

Meanwhile, when the power consumption part 13 is a heat generating sheet, the heat generating sheet is removed along with the electrode sheet 12 when the electrode assembly 1 is disassembled, so that thermal safety can be improved. Specifically, if the electrode plate 12 is a conductive gel sheet, a temperature difference exists between the conductive gel sheet and the heating sheet, the temperature of the heating sheet is higher than that of the conductive gel sheet, if the heating sheet is not a part of the electrode assembly 1, and the heating sheet is not detached together with the electrode plate 12, after the electrode assembly 1 is detached, the exposed heating sheet with the higher temperature risks scalding the human body, and if the heating sheet can be detached together as a part of the electrode assembly, the heating sheet can be directly powered off after the electrode assembly 1 is detached, so that the exposed heating sheet which is still powered on can be effectively prevented from scalding the human body.

When using electric component 13 to include the illuminating component, compare for the components of a whole that can function independently structure with illuminating component and electrode slice 12, the light guide effect between the illuminating component of integrated setting and the electrode slice 12 is better, and is concrete, when using, more is favorable to the light that the illuminating component sent to see through electrode slice 12. Meanwhile, if the light emitting element is disposed on the mounting seat of the host machine to which the electrode assembly 1 is applied, for example, the light emitting element is disposed on the mounting surface of the mounting seat, the structure of the mounting surface is also not simple enough, and after the electrode assembly 1 is disassembled relative to the massage head, the wiring structure and the connection structure on the light emitting element are exposed, which results in poor safety and sealing performance.

When the power consumption part 13 comprises a sensor, such as a pressure sensor, the pressure sensor and the electrode plate 12 are integrated, so that the pressure sensor can sense the pressure acting on the electrode plate 12 better, and the fitting effect of the electrode plate 12 and a human body can be detected in real time.

Wherein, it is still explicated that, when the consumer 13 includes heating element and temperature sensor 18, heating element makes electrode slice 12 have better hot compress effect, and the temperature sensor 18 of integrated setting with it can also more accurately sense electrode slice 12 and/or the temperature of heating element to can carry out more accurate control to the temperature of hot compress, avoid taking place the scald.

The specific shape of the heating member is not limited, the heating member can be of a sheet structure, and at the moment, the heating member is a heating film.

When the heat generating member is a heat generating film, as shown in fig. 1 and 3, the heat generating film is disposed between the conductive film 16 and the carrier 11, and the second surface 16b of the conductive film 16 and the heat generating film are insulated from each other. At this time, the heating film can be directly attached to the conductive film 16, so that heat can be directly transferred to the conductive film 16, and then the heat can be transferred to the electrode plate 12 by using the conductive film 16, so that the electrode plate 12 can be effectively heated, the heat can be prevented from being lost in the transfer process, and the heat conduction effect can be improved.

Further, in order to enable the electrode assembly 1 to have a hot compress function and a far infrared physiotherapy function, optionally, the heating element may be a graphene heating element.

Wherein, it is still explainable that, when consumer 13 includes the illuminating part, the light that the illuminating part sent is passed through electrode slice 12 and is passed through, selects through the wavelength to the light that the illuminating part sent, can also play the illumination, build the atmosphere, decorate light effects such as warning light to and the supplementary physiotherapy effect of phototherapy.

In order to make the light that illuminating part sent act on the human body more evenly, avoid light local concentration, be unfavorable for illumination and phototherapy, it is optional, illuminating part can be the lamp plate. The lamp plate is exemplary, can be the LED lamp plate, and this LED lamp plate can include the circuit board, set up a plurality of LED lamp pearls on the circuit board to and set up in the transparent protective layer that circuit board one side was kept away from to a plurality of LED lamp pearls, wherein, a plurality of LED lamp pearls can be arranged in the form of array. At this time, the light emitting member is electrically connected to the second conductive member 14b through the circuit board. As another example, the lamp panel may include a light emitting plate, for example, a light emitting layer may be formed on a base material, the light emitting layer may be an electroluminescent material, and at this time, a circuit layer for supplying power to the light emitting layer may be further disposed on the base material, and at this time, the light emitting element is electrically connected to the second conductive elements 14b through the circuit layer.

Of course, it can be understood that, in practical applications, in order to make the light emitted by the light emitting element act on the human body more uniformly, a light homogenizing element may be disposed between the light emitting element and the electrode sheet 12, and the light can also be prevented from being locally concentrated.

The embodiment of the present invention is mainly described by taking an example that the electric component 13 includes a heating film. It will be appreciated by those skilled in the art that the following description of the embodiments applies equally to the other consumers 13.

When the heat generating film is disposed between the conductive film 16 and the carrier 11, the second surface 16b of the conductive film 16 and the heat generating film are insulated from each other, and this can be achieved by disposing an insulating layer between the conductive film 16 and the heat generating film.

In an embodiment of the present invention, the conductive film 16 has a waterproof insulating substrate, and one side of the waterproof insulating substrate is covered with the conductive layer 161.

The waterproof insulating substrate may be a plastic sheet, such as a PET (polyester resin) film.

Through setting up waterproof insulation substrate, utilize the good waterproof nature of waterproof insulation substrate, can prevent effectively that the steam that aquogel produced from permeating, avoid the steam of aquogel to form the corruption or cause the circuit short circuit to electrical property components and parts.

The specific material of the conductive layer 161 is not limited.

In an embodiment of the invention, the conductive layer 161 may be an ITO (Indium Tin oxide) material. In this case, the conductive film 16 is an ITO film. A transparent conductive film is formed by spraying indium tin oxide over an insulating material such as glass or plastic. The ITO film is single-sided conductive, the conductive surface faces the electrode plate 12, the insulating surface faces the electric part 13, and the electrode plate 12 and the electric part 13 are insulated while the ITO film and the electrode plate 12 are conductive.

In still other embodiments of the present invention, as shown in fig. 3 to 5, the electrode assembly 1 further includes a terminal plate 17 disposed on the carrier 11, wherein the terminal plate 17 is configured to receive a first external current and a second external current, and to connect the first external current to the first conductive member 14a and connect the second external current to the second conductive member 14 b.

In these embodiments, by providing the wiring board 17, it is possible to integrally transit the wiring between the electrode assembly 1 and the host to which the electrode assembly 1 is applied, making the assembly of the electrode assembly 1 simpler. Meanwhile, the wiring board 17 can be pre-wired when the electrode assembly 1 is assembled, so that the problems of wire missing or low reliability of electrical connection can be effectively overcome.

The specific structure of the first conductive member 14a and the second conductive member 14b is not limited, as long as the conductive film 16 and the wiring board 17 can be electrically connected through the first conductive member 14a, the heating film and the wiring board 17 can be electrically connected through the second conductive member 14b, the first path of current received by the wiring board 17 is connected to the electrode sheet 12, and the second path of current received by the wiring board 17 is connected to the electric component 13.

For example, the first conductive member 14a and the second conductive member 14b may be conductive pillars.

The conductive posts may be elastic pins or rivets.

In an alternative embodiment, when the first conductive member 14a and the second conductive member 14b are elastic pins, the first conductive member 14a and the second conductive member 14b may be electrically connected to the conductive film 16 and the power utilization member 13 in a contact manner. Specifically, the first conductive member 14a and the second conductive member 14b are disposed on the wiring board 17, and then the first through hole penetrating to the conductive film 16 or the electrode plate 12 is disposed, so that the first conductive member 14a can penetrate to abut against the conductive film 16 or the electrode plate 12 from the first through hole, and contact electrical conduction is achieved. By providing the second through hole penetrating to the electric component 13, the second conductive component 14b can penetrate through the second through hole to abut against the electric component 13, so that the contact and the electric conduction are realized.

The first conductive member 14a and the second conductive member 14b adopt an elastic thimble manner, so as to realize contact or separable conduction, and the elastic pressure of the elastic thimble enables the electrical contact between the first conductive member 14a and the second conductive member 14b and the conductive film 16 and the electrical component 13 to be more stable and reliable.

In another alternative embodiment, when the first and second conductive members 14a and 14b are rivets, the first and second conductive members 14a and 14b respectively conduct electricity to the electrode pads 12 and the electric components 13, and also fix the conductive film 16 and the electric components 13 to the carrier 11. For example, the first conductive member 14a may be a first rivet, and the second conductive member 14b may be a second rivet.

At this time, a third through hole is formed in the carrier 11, the conductive film 16 and the electric element 13, the first rivet is inserted through the third through hole and is riveted corresponding to the third through hole, and meanwhile, one end of the first rivet is abutted to the electrode plate 12, and the other end of the first rivet is electrically connected to the wiring board 17; and arranging a fourth through hole on the carrier 11 and the electric part 13, penetrating a second rivet through the fourth through hole, riveting the second rivet corresponding to the fourth through hole, and simultaneously enabling one end of the second rivet to be electrically connected with the electric part 13 through contact and the other end of the second rivet to be electrically connected with the wiring board 17.

In this embodiment, the first conductive member 14a and the second conductive member 14b are rivets, which not only can electrically connect the first conductive member 14a with the electrode sheet 12 and the wiring board 17, but also can electrically connect the second conductive member 14b with the power consumption member 13 and the wiring board 17, and can also mechanically connect the conductive film 16, the power consumption member 13 and the carrier 11 while forming electrical connection, and make the arrangement of the conductive film 16 and the power consumption member 13 on the carrier 11 more firm and reliable.

Alternatively, the wiring board 17 may be fixed to the carrier 11 by any means, without limitation, and for example, the wiring board 17 may be fixed to the carrier 11 by gluing, riveting or screwing. Further, in order to avoid the influence of the wiring board 17 on the overall flexibility of the electrode assembly 1, the wiring board 17 may optionally have a flexible substrate.

In still other embodiments of the present invention, the electrode assembly 1 further includes a third conductive member 14c and a fourth conductive member 14d, the third conductive member 14c and the fourth conductive member 14d are disposed on the wiring board 17, the third conductive member 14c is used for fixing the wiring board 17 to the carrier 11, and the third conductive member 14c is electrically connected between the wiring board 17 and the first conductive member 14a to connect the first path of current to the electrode tab 12, the fourth conductive member 14d is used for fixing the wiring board 17 to the carrier 11, and the fourth conductive member 14d is electrically connected between the wiring board 17 and the second conductive member 14b to connect the second path of current to the electric element 13.

That is, the third conductive member 14c and the fourth conductive member 14d also function to fix the wiring board 17 to the carrier 11 while conducting electricity to the first conductive member 14a and the second conductive member 14b, respectively.

For example, when the first conductive member 14a is a first rivet and the second conductive member 14b is a second rivet, the third conductive member 14c may be a third rivet and the fourth conductive member 14d may be a fourth rivet.

At this time, by correspondingly fixing the third conductive member 14c and the first conductive member 14a and the fourth conductive member 14d and the second conductive member 14b, the third conductive member 14c and the fourth conductive member 14d are electrically conducted with the first conductive member 14a and the second conductive member 14b, respectively, and the wiring board 17 is fixed to the carrier 11.

In still other embodiments of the present invention, the electrode assembly 1 further includes a temperature sensor 18, the temperature sensor 18 being used to sense the temperature of the electric element 13 and/or the electrode sheet 12, the temperature sensor 18 being provided on the terminal plate 17.

In these embodiments, by providing the temperature sensor 18 on the terminal block 17, the temperature of the electric component 13 and/or the electrode sheet 12 can be sensed more accurately. Wiring between the temperature sensor 18 and the wiring board 17 can also be saved, reducing wiring complexity.

It should be noted that the detachable connection between the first connector 15 and the host to which the electrode assembly 1 is applied may at least include one or more of magnetic attraction, snap, and screw.

Referring to fig. 1 and 4, for example, the first connecting element 15 is a plurality of first magnetic attraction elements. The wiring board 17 is arranged in the middle of the carrier 11, and at least one through hole Q is formed in the wiring board 17; the carrier 11 is formed with a plurality of accommodating grooves P, the plurality of accommodating grooves P are disposed in the circumferential direction of the wiring board 17, and the first magnetic attraction pieces are correspondingly embedded in the through holes Q and the accommodating grooves P.

In these embodiments, by forming the receiving grooves P on the carrier 11 and providing at least one through hole Q on the wiring board 17, the first magnetic attraction members are embedded in the receiving grooves P and the through holes Q, on the one hand, the appearance of the electrode assembly 1 can be made more compact. On the other hand, the connection stability of the first magnetic attraction piece on the carrier 11 can be improved. On the other hand, when the electrode assembly 1 is installed, the center and the periphery of the electrode assembly 1 can be connected with a host machine applied to the electrode assembly 1 through magnetic attraction, and the connection stability of the electrode assembly 1 and the host machine applied to the electrode assembly 1 is improved.

Considering that while the flatness of the mounting surface of the host to which the electrode assembly 1 is applied is ensured, if the sides of the plurality of first magnetic attraction pieces far away from the carrier 11 are not coplanar and the electrode assembly 1 is not deformable, the connection stability of the first magnetic attraction pieces and the mounting surface is affected, and when the electrode assembly 1 is flexible or deformable, although the connection stability of the first magnetic attraction pieces and the mounting surface can be ensured, the connection stability of the first magnetic attraction pieces and the mounting surface is affected by the flatness of the appearance when the electrode assembly 1 is mounted on the mounting surface.

Therefore, the embodiment adopts the coplanar first magnetic attraction pieces on the side far away from the carrier 11, which not only can ensure the flatness of the mounting surface and make the appearance of the mounting surface simpler, but also can keep the flatness of the appearance of the electrode assembly 1 when the electrode assembly 1 is flexible or deformable and the electrode assembly 1 is mounted on the mounting surface.

Based on the above structure, in another embodiment of the present invention, with reference to fig. 1, 3, 4 and 5, a first electrode 171 and a second electrode 172 are disposed on a side of the wiring board 17 facing away from the electrode sheet 12, the first electrode 171 and the second electrode 172 are disposed around the through hole Q, the third conductive member 14c is electrically connected to the first electrode 171, and the fourth conductive member 14d is electrically connected to the second electrode 172, so that a first path of current is supplied to the first conductive member 14a through the first electrode 171 and the third conductive member 14c, and a second path of current is supplied to the second conductive member 14b through the second electrode 172 and the fourth conductive member 14 d.

Based on this, the third conductive member 14c and the first electrode 171 may correspond to each other one-to-one, one-to-many or many-to-one, the fourth conductive member 14d and the second electrode 172 may correspond to each other one-to-one, one-to-many or many-to-one, and the positions of the first electrode 171 and the second electrode 172 on the wiring board 17 are relatively fixed, thereby achieving a better alignment accuracy. Meanwhile, the first electrode 171 and the second electrode 172 can be electrically connected with the conductive members on the mounting surface of the host machine to which the electrode assembly 1 is applied in a contact manner, and the contact-type connection omits wiring, thereby providing convenience for assembly, disassembly and replacement of the electrode assembly 1, and further ensuring the simple appearance of the mounting surface.

In yet another embodiment of the present invention, as shown in fig. 4, the first electrode 171 and the second electrode 172 are both ring electrodes. On the one hand, the annular electrode can provide bigger electric contact area, and on the other hand, the annular electrode can form electrodeless contact in any installation direction, guarantees counterpoint contact, has better installation fool-proofing effect.

As shown in fig. 1 and 2, a positioning groove 19 is further formed on a surface of the carrier 11 facing the electrode plate 12, the electric element 13 and the electrode plate 12 are disposed in the positioning groove 19, and the electrode plate 12 is exposed from the positioning groove 19 to contact with the skin of the human body. Through setting up constant head tank 19, can fix a position with electric 13 and electrode slice 12, prevent to drop from carrier 11 with electric 13 and electrode slice 12, still be favorable to electrode slice 12 to laminate mutually with human skin simultaneously, realize the contact.

Optionally, the electrode sheet 12 protrudes relative to the upper end face of the positioning groove 19 of the carrier 11, and the height of the protrusion may be 0.1mm to 0.3 mm. The height of the protrusions can be any value between 0.1 and 0.3, for example, the height of the protrusions can be 0.1mm, 0.2mm or 0.3 mm.

Optionally, the positioning groove 19 includes a first groove 191 for accommodating the electrode sheet 12, and a second groove 192 for accommodating the remaining layers other than the electrode sheet 12. Along the thickness direction of the electrode sheet 12, the orthographic projection area of the second groove body 192 is larger than that of the first groove body 191, and the orthographic projection of the first groove body 191 is located in the middle of the orthographic projection of the second groove body 192. By arranging the first groove body 191 and the second groove body 192, arranging the electrode plate 12 in the first groove body 191, and arranging the rest layers except the electrode plate 12 in the second groove body 192, the positioning effect of the positioning groove 19 on the electric element 13 can be improved.

In the specific arrangement, two ends of the carrier 11 along the first direction are bent towards one side of the electrode plate 12 and then bent towards the middle to form a second groove 192, two ends of the carrier 11 along the first direction are formed into the second groove 192, and the first direction is perpendicular to the thickness direction of the electrode plate 12 and passes through any straight line direction of the center of the carrier 11.

The positioning groove 19 is formed by bending the carrier 11, so that the preparation process is simple, and compared with the way of arranging the groove on the carrier 11, the characteristics (such as thickness and the like) of the carrier 11 are not affected.

The first embodiment of the present invention provides an electrode assembly 1, wherein an electrode piece 12 and an electric component 13 are both arranged on a carrier 11, the electrode piece 12 is electrically connected with a host machine to which the electrode assembly 1 is applied through a first conductive piece 14a, the electric component 13 is electrically connected with the host machine to which the electrode assembly 1 is applied through a second conductive piece 14b, and the first conductive piece 14a and the second conductive piece 14b are separable from the host machine to which the electrode assembly 1 is applied, so that the electrode assembly 1 can be detached and replaced relative to the host machine to which the electrode assembly 1 is applied; the problems that in the prior art, the electrode plate 12 of the neck massager cannot be detached relative to the neck massager, when the electrode plate 12 or the power utilization part needs to be replaced, the assembly and disassembly maintenance is complex, the power connection circuit of the electrode plate 12 and the power utilization part is disordered when the electrode plate is assembled and disassembled, the maintenance difficulty is high, the reliability is low, and the maintenance technical requirement is high are solved. Meanwhile, by integrating the electrode plate 12 and the electric part 13 together, the electric part 13 can be detached and replaced together with the electrode assembly 1, compared with the split arrangement of the electric part 13 and the electrode plate 12, the situation that the installation surface structure of a host machine to which the electrode assembly 1 is applied is not simple can be avoided, the wiring structure and the connection structure of the electric part 13 are exposed, the safety and the sealing performance are poor, and by integrally arranging the electrode plate 12 and the electric part 13, the association effect between the electrode plate 12 and the electric part 13 can be improved, for example, the heat conduction effect between the heating part and the electrode plate 12 can be improved.

Example two

Referring to fig. 6 and 7, a second embodiment of the invention provides a massage head 10, and the massage head 10 may be independently installed or may be installed on a wearable massage apparatus.

Specifically, when the massage head 10 is provided with a power supply and a circuit board inside, it can be used as a separate massage device, for example, the user can hold the massage head 10 by hand to massage the head, eyes, feet, shoulders, legs, waist, etc. of the user.

When the massage head 10 is used in cooperation with a wearable massage device, the massage head 10 can be mounted on the wearable massage device, and at the moment, the massage head does not need to be held by a user, and can be worn on a corresponding part of a human body to massage through a wearable piece of the wearable massage device.

The massage head 10 includes a mounting base 2 and an electrode assembly 1 as in the first embodiment described above. The mounting base 2 is the host to which the electrode assembly 1 is applied, and the mounting base 2 is provided with an electrical connector 22. The electrical connecting members 22 are respectively in separable electrical connection with the first and second electrically conductive members 14a and 14b to supply a first path of current to the electrode sheet 12 and a second path of current to the electric component 13 through the electrical connecting members 22.

Alternatively, in order to match the shape of the neck of the human body, the mounting surface 23 of the mounting seat 2 is formed in a concave arc surface as a whole, the carrier 11 of the electrode assembly 1 is flexible, and the carrier 11 is attached to the mounting surface 23 when the first connecting member 15 and the second connecting member 21 are connected.

When the electrode assembly 1 further comprises the first connecting member 15, the electrode assembly 1 is detachably mechanically connected to the mounting surface 23 of the mounting seat, which is mainly realized by detachably mounting the first connecting member 15 and the second connecting member 21 on the electrode assembly 1, and the details are described in conjunction with the figures.

When the first connecting member 15 is a first magnetic member, the second connecting member 21 is a second magnetic member, and the electrode assembly 1 is mounted in the mounting base 2 by the first magnetic member and the second magnetic member.

In the embodiment of the invention, the first magnetic part and the second magnetic part are adopted, so that the installation efficiency can be improved.

The installation position of the second magnetic attraction piece in the installation seat 2 is not specifically limited. In order to keep the appearance of the mounting surface 23 of the mounting seat 2 simple, the second magnetic attracting element may be arranged in the mounting seat 2 and flush with the mounting surface 23.

Alternatively, the electrical connection member 22 is an elastic conductive column disposed on the mounting surface 23, and the elastic conductive column is disposed around the center position of the mounting surface 23 for electrically connecting with the first electrode 171 and the second electrode 172 on the wiring board 17 by contact. By providing the elastic conductive column, when the electrode assembly 1 is mounted on the mounting surface 23 of the mounting base 2, the first electrode 171 and the second electrode 172 on the wiring board 17 are respectively in contact with the elastic conductive column to realize electrical conduction, and meanwhile, under the squeezing action of the first electrode 171 and the second electrode 172 on the wiring board 17, the elastic conductive column is subjected to a compression acting force to apply an elastic acting force opposite to the compression acting force to the first electrode 171 and the second electrode 172, so that the elastic conductive column is in close contact with the first electrode 171 and the second electrode 172, and the reliability of electrical connection is ensured.

Further, as can be seen from the first embodiment, the first electrode 171 and the second electrode 172 on the wiring board 17 are both ring electrodes, and the ring electrodes are disposed to contact the elastic conductive columns annularly arranged on the mounting surface 23, so as to achieve the fool-proof effect when the electrode assembly 1 is mounted on the mounting surface 23.

The second embodiment of the invention provides a massage head 10, the massage head 10 comprises the electrode assembly 1 and a mounting seat 2, the electrode assembly 1 and the mounting seat 2 are detachably and electrically connected with an electric connecting piece 22 through a first conductive piece 14a and a second conductive piece 14b, normal and independent work of an electric part 13 and an electrode plate 12 in the electrode assembly 1 can be realized, and the electrode assembly 1 can be detached and replaced relative to the mounting seat 2. The problems that in the prior art, the electrode plate 12 of the neck massager cannot be detached relative to the neck massager, when the electrode plate 12 or the power utilization part needs to be replaced, the assembly and disassembly maintenance is complex, the power connection circuit of the electrode plate 12 and the power utilization part is disordered when the electrode plate is assembled and disassembled, the maintenance difficulty is high, the reliability is low, and the maintenance technical requirement is high are solved.

On the other hand, electrode subassembly 1 and mount pad 2 are inhaled the piece through magnetism and are realized dismantling mechanical connection, can improve installation and dismantlement efficiency, simultaneously, through inhale the piece setting in mount pad 2 with the second magnetism, and flush with installation face 23, can make installation face 23 outward appearance succinct, and make a plurality of first magnetism inhale one side coplanar that the piece kept away from carrier 11, can guarantee the connection stability of first magnetism and installation face 23, and when this electrode subassembly 1 is flexible or can be out of shape, outward appearance planarization when can also guaranteeing electrode subassembly 1 and install on installation face 23. In addition, by providing the electrical connection member 22 in the mount 2 as an elastic conductive column, it is also possible to bring the elastic conductive column into close contact with the first electrode 171 and the second electrode 172 in the wiring board 17 by a pressing force, ensuring reliability of electrical connection.

EXAMPLE III

The third embodiment of the invention discloses a neck massager, which comprises a wearing support and an electrode assembly as in the first embodiment, wherein the electrode assembly is detachably and electrically connected to the wearing support through a first conductive piece and a second conductive piece, the wearing support is used for being worn on the neck of a human body, and the wearing support is a main machine applied to the electrode assembly.

The electrode assembly is protrudingly disposed on the inner side surface of the wearing bracket and extends toward the neck portion side. The wearing support is approximately C-shaped, and can be made of materials with elastic performance, such as silica gel, rubber and the like, so that the wearing support is convenient to wear on the neck of a human body and has certain skin-friendly performance. When the user uses the neck massager, the wearing support can be arranged on the neck in a straddling mode, so that the electrode assembly can be aligned to the part, to be massaged, of the neck and attached to the skin of the neck, and massage is achieved.

Example four

Referring to fig. 8, a neck massager is disclosed in the fourth embodiment of the present invention, the neck massager includes a wearing bracket 20 and a massage head 10 according to the second embodiment, the massage head 10 is disposed on the wearing bracket 20, and the wearing bracket 20 is used for being worn on the neck of a human body.

The massage head 10 is provided projecting on the inner side surface of the wearing bracket 20 and extends toward the neck portion side. The wearing support 20 is approximately C-shaped, and can be made of elastic materials, such as silica gel and rubber, so as to be convenient for wearing on the neck of a human body and have certain skin-friendly property. When the user uses the neck massage apparatus, the wearing bracket 20 can be arranged on the neck in a straddling manner, so that the massage head 10 can be aligned with the part to be massaged on the neck and attached to the skin of the neck, thereby realizing massage.

EXAMPLE five

The fifth embodiment of the invention discloses wearable massage equipment, which comprises a wearable piece and the electrode assembly as described in the first embodiment, wherein the electrode assembly is detachably and electrically connected to the wearable piece through a first conductive piece and a second conductive piece, the wearable piece is used for being worn by a human body, and the wearable piece is a host machine applied to the electrode assembly.

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

EXAMPLE six

The sixth embodiment of the invention discloses wearable massage equipment, which comprises a wearable piece and the massage head as described in the second embodiment, wherein the massage head is arranged on the wearable piece, and the wearable piece is worn by a human body.

Alternatively, the wearable massage device may be, but 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 wearable piece can be a belt body or a frame for being worn on the ears or the head of a human body, and the belt body can be an adjustable connecting belt. Taking the waist massager as an example, the wearable piece can be a belt or an abdominal belt which can be worn on the waist of the human body.

The electrode assembly, the massage head, the neck massage apparatus and the wearable massage device disclosed by the embodiments of the present invention are described in detail, and the principle and the implementation of the present invention are explained by applying specific embodiments, and the description of the embodiments is only used to help understand the electrode assembly, the massage head, the neck massage apparatus 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 (16)

1. An electrode assembly is installed in the host computer of massage appearance, its characterized in that includes:

the electrode plate is a non-metal conducting plate;

the carrier is used for carrying the electrode slice, the electrode slice is connected and separated with the host machine along with the carrier under the carrying of the carrier, and the carrier is carried by the host machine when connected to the host machine;

the electricity utilization piece is arranged on the carrier and is insulated from the electrode plate;

the first conductive piece is used for forming separable electric connection with the electrode assembly and the host machine and connecting a first path of current to the electrode slice;

and the second conductive piece is used for forming separable electrical connection with the host and accessing a second path of current to the power utilization piece.

2. The electrode assembly of claim 1,

the electrode assembly further comprises a first connecting piece, the first connecting piece is arranged on the carrier, and the first connecting piece is used for forming detachable mechanical connection with a host machine to which the electrode assembly is applied.

3. The electrode assembly of claim 1, wherein the electrode tabs are conductive gel tabs.

4. The electrode assembly of claim 1,

the electrode assembly further comprises a conductive film, the conductive film is arranged between the carrier and the electrode plate, and the conductive film is provided with a first surface facing the electrode plate and a second surface facing away from the electrode plate;

the first surface is provided with a conducting layer, at least part of the conducting layer is attached and electrically connected to the electrode plate, and the first conductive piece is electrically connected to the conducting layer so as to access the first path of current to the electrode plate.

5. The electrode assembly of claim 4,

the conductive film is provided with a waterproof insulating base material, and the conductive layer is covered on one surface of the waterproof insulating base material.

6. The electrode assembly of claim 4,

the electric part comprises a heating film, the heating film is arranged between the conductive film and the carrier, and the second surface of the conductive film and the heating film are mutually insulated.

7. The electrode assembly according to claim 1, wherein the electricity using member includes at least one of a heat generating member, a light emitting member, and a sensor.

8. The electrode assembly of claim 1, further comprising a terminal plate disposed on the carrier, the terminal plate being configured to receive the first and second external currents and to couple the first current to the first electrically conductive member and the second current to the second electrically conductive member.

9. The electrode assembly of claim 8, wherein the electrode assembly comprises a conductive film disposed between the carrier and the electrode tab;

the first conductive piece is used for fixing the conductive film to the carrier, and is electrically connected between the wiring board and the conductive layer so as to connect the first path of current into the electrode slice;

the second conductive piece is used for fixing the electric part to the carrier, and the second conductive piece is electrically connected between the wiring board and the electric part so as to connect the second path of current into the electric part.

10. The electrode assembly of claim 8 or 9,

the electrode assembly further includes third and fourth conductive members disposed on a side of the terminal plate facing the electrode tabs;

the third conductive piece is used for fixing the wiring board on the carrier, and is electrically connected between the wiring board and the first conductive piece so as to connect the first path of current into the electrode plate;

the fourth conductive element is used for fixing the wiring board on the carrier, and the fourth conductive element is electrically connected between the wiring board and the second conductive element so as to connect the second path of current into the power utilization element.

11. The electrode assembly of claim 8, further comprising a first connector;

the first connecting pieces are a plurality of first magnetic suction pieces;

the wiring board is arranged in the middle of the carrier and is provided with at least one through hole; a first electrode and a second electrode are arranged on one side of the wiring board, which is far away from the electrode plate, the first electrode and the second electrode are arranged around the through hole, a third conductive piece is electrically connected with the first electrode, a fourth conductive piece is electrically connected with the second electrode, the first conductive piece is connected with the first conductive piece through the first electrode and the third conductive piece, and the second conductive piece is connected with the second conductive piece through the second electrode and the fourth conductive piece;

the carrier is provided with a plurality of accommodating grooves which are arranged in the circumferential direction of the wiring board, and the first magnetic suction piece is correspondingly embedded in the through hole and the accommodating grooves.

12. A massage head, comprising:

a mounting seat;

and an electrode assembly as claimed in any one of claims 1 to 11;

wherein the mounting seat is provided with an electric connector;

the electric connecting pieces are respectively and electrically connected with the first conductive pieces and the second conductive pieces in a separable mode, so that the first path of current is connected to the electrode plate through the electric connecting pieces, and the second path of current is connected to the electricity utilization pieces.

13. The massage head of claim 12,

when the electrode assembly further comprises a first connecting piece, and the first connecting piece is a first magnetic attraction piece;

the second connecting piece is a second magnetic suction piece;

the electrode assembly is installed in the mounting seat in a mutually attracting mode through the first magnetic attraction piece and the second magnetic attraction piece.

14. The massage head as claimed in claim 12 or 13,

the mounting surface of the mounting seat is a concave arc surface, the carrier of the electrode assembly is flexible, and when the first connecting piece is connected with the second connecting piece, the carrier is attached to the mounting surface.

15. A neck massager comprising a wearing support and an electrode assembly as claimed in any one of claims 1 to 11, the electrode assembly being detachably and electrically connected to the wearing support via the first and second electrically conductive members, the wearing support being adapted to be worn around a neck of a human being;

alternatively, the neck massager comprises a wearing bracket and the massage head as claimed in any one of claims 12 to 14, wherein the massage head is arranged on the wearing bracket, and the wearing bracket is worn by the neck of a human body.

16. A wearable massage apparatus, comprising a wearable member and an electrode assembly as claimed in any of claims 1-11, wherein the electrode assembly is detachably electrically connected to the wearable member via the first and second electrically conductive members, and wherein the wearable member is adapted to be worn by a human body;

alternatively, the wearable massage apparatus comprises a wearable element and the massage head of any of claims 12-14, the massage head being provided on the wearable element, the wearable element being adapted to be worn by a human body.

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