CN214105574U - Electrode assembly, massage head, neck massage appearance and wearable massage equipment - Google Patents

Abstract

The utility model relates to a massage device technical field discloses an electrode subassembly, massage head, neck massage appearance and wearable massage equipment, electrode subassembly includes the printing opacity electrode piece, the printing opacity conductive film, first electrically conductive piece and shielding member, the laminating of printing opacity conductive film is at the printing opacity electrode piece and is connected rather than the electricity, the printing opacity conductive film has the laminating region with the printing opacity electrode piece laminating and the dislocation region that outwards extends the formation from the edge in laminating region, the regional at least partial printing opacity of laminating, first electrically conductive piece is used for inserting the electric current, first electrically conductive piece is connected in the printing opacity conductive film in order to the regional conduction electric current of laminating in the region of dislocation. The light-transmitting electrode plate of the electrode assembly can give out light comprehensively, and the massage head using the electrode assembly can expand the phototherapy function and has better function expansibility.

Description

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

Technical Field

The utility model relates to a massage device technical field especially relates to an electrode subassembly, massage head, neck massage appearance and wearable massage equipment.

Background

The electric stimulation type neck massage instrument comprises a wearing bracket and a massage head, wherein the wearing bracket is suitable for being worn on the neck of a user, and the massage head is used for applying low-frequency pulse current to the neck of the user, so that blood circulation at the neck muscle of the user is promoted to massage the neck of the user.

At present, a massage head generally adopts a metal electrode with opaque property as a component which is in contact with the neck of a user to transmit low-frequency pulse current, and the metal electrode is made to be transparent by arranging a light-transmitting structure on the annular direction of the metal electrode, but the metal electrode is only partially transparent and has a small light-emitting area.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses electrode subassembly, massage head, neck massage appearance and wearable massage equipment, electrode subassembly's printing opacity electrode slice can give out light comprehensively, uses this electrode subassembly's massage head can extend functions such as phototherapy, decoration, function expansibility preferred.

In a first aspect, the embodiment of the utility model discloses an electrode assembly, electrode assembly includes printing opacity electrode slice, printing opacity conductive film and first electrically conductive piece, the printing opacity electrode slice is nonmetal printing opacity electrode slice, the laminating of printing opacity conductive film is in printing opacity electrode slice is connected rather than the electricity, the printing opacity conductive film have with the laminating region of printing opacity electrode slice laminating and certainly the dislocation region that the outside extension of edge in laminating region formed, the regional at least partial printing opacity of laminating, first electrically conductive piece is used for the access current, first electrically conductive piece is in the regional electricity of dislocation connect in the printing opacity conductive film with to the regional conduction of laminating the electric current.

As an optional implementation manner, in the embodiment of the present invention, the light-transmissive electrode plate is a conductive gel electrode plate.

As an optional implementation manner, in an embodiment of the present invention, the electrode assembly further includes a light-transmitting heat-generating sheet, and a second conductive member and a third conductive member, the light-transmitting heat-generating sheet is disposed on a surface of the light-transmitting conductive film facing away from the light-transmitting electrode sheet, and the light-transmitting heat-generating sheet and the light-transmitting conductive film are insulated from each other, the light-transmitting heat-generating sheet has a first electrical connection end and a second electrical connection end, the second conductive member is electrically connected to the first electrical connection end, the third conductive member is electrically connected to the second electrical connection end, and the second conductive member and the third conductive member are respectively used for connecting two poles of a second power supply;

projections of the first electrical connection end, the second conductive piece, the second electrical connection end and the third conductive piece on the light-transmitting conductive film fall in the dislocation region.

As an optional implementation manner, in the embodiment of the present invention, the projections of the first conductive element, the second conductive element, and the third conductive element on the light-transmitting conductive film are distributed in a staggered manner.

As an optional implementation manner, in an embodiment of the present invention, an edge of the heat generating sheet is provided with a bending portion extending outward and bending toward a direction away from the transparent conductive film, a gap is provided between the bending portion and the transparent conductive film, and the first electrical connection end and the second electrical connection end are provided at the bending portion;

when the second conductive piece is electrically connected with the first electric connection end, a gap is formed between the second conductive piece and the light-transmitting conductive film, and when the third conductive piece is electrically connected with the second electric connection end, a gap is formed between the third conductive piece and the light-transmitting conductive film.

As an optional implementation manner, in an embodiment of the present invention, the projection of the transparent electrode sheet on the conductive film completely falls into the attaching region.

As an optional implementation manner, in the embodiment of the present invention, the electrode assembly further includes a shielding member, the shielding member is a light-tight member, and the shielding member covers the misalignment area from one side of the light-transmissive electrode sheet attached to the light-transmissive conductive film.

In a second aspect, an embodiment of the present invention discloses a massage head with an electrode assembly of the first aspect, the massage head includes a base, a light emitting part and the electrode assembly, the electrode assembly is installed in the base, the light emitting part is located the base, and is located between the base and the electrode assembly, the light emitted by the light emitting part is from the light-transmitting electrode sheet is exposed.

As an optional implementation manner, in an embodiment of the present invention, the massage head further includes a shielding member, the shielding member is a light-tight member, the shielding member covers the misalignment region from one side of the light-tight conductive film, to which the light-tight electrode sheet is attached, and the shielding member is connected to the base, so as to install the electrode assembly between the shielding member and the base.

As an optional implementation manner, in the embodiment of the present invention, the shielding member and the base form a detachable buckle connection, the base is provided with a first electrical connector, and the transparent conductive film forms a separable electrical connection with the electrical connector through the first conductive member.

As an optional implementation manner, in an embodiment of the present invention, the massage head further includes a circuit board disposed on the base, the light emitting component is disposed on the circuit board and electrically connected to the circuit board, and the first electrical connector is electrically connected to the circuit board.

As an optional implementation manner, in an embodiment of the present invention, the massage head further includes a support, the support is connected to the base, the circuit board and the light-transmitting heat-generating sheets of the electrode assembly are respectively located on two opposite sides of the support, the circuit board is located in a cavity directly enclosed with the base, and the support has a light-transmitting structure allowing light emitted by the light-emitting component to transmit to the electrode assembly.

As an optional implementation mode, in the utility model discloses in the implementation, the shielding member is constructed into annular cover form, the shielding member includes ring portion and interior knot portion, ring portion with interior knot portion is connected and is formed and accept the chamber, luminous component printing opacity conductive film with first electrically conductive piece accept in accept the intracavity, interior knot portion is equipped with the intercommunication accept the logical groove in chamber, logical groove with the appearance phase-match and the corresponding setting of printing opacity electrode piece, printing opacity electrode piece protrusion in interior knot portion deviates from the one side of printing opacity conductive film, interior knot portion orientation the one side subsides of printing opacity conductive film are located the printing opacity conductive film dislocation region, ring portion certainly the periphery of interior knot portion is followed to the direction of base extends, ring portion can dismantle connect in the base.

As an optional implementation manner, in an embodiment of the present invention, the massage head further includes a light-equalizing sheet, and the light-equalizing sheet is disposed between the light-emitting component and the transparent conductive film.

In a third aspect, the embodiment of the utility model discloses neck massage appearance with massage head of second aspect, neck massage appearance is including wearing support and above-mentioned massage head, the massage head is located wear on the support, it is used for supplying human neck to dress to wear the support.

In a fourth aspect, the embodiment of the utility model discloses a wearable massage equipment of massage head with second aspect, wearable massage equipment is including wearing part and above-mentioned massage head, the massage head is located wear the part, it is used for supplying the human body to dress to wear the part.

Compared with the prior art, the embodiment of the utility model has following beneficial effect at least:

the embodiment of the utility model provides an electrode subassembly, massage head, neck massage appearance and wearable massage equipment, through the laminating of printing opacity electrode slice and the electricity connect in the laminating region of printing opacity conductive film, first electrically conductive piece connects in the regional electricity of dislocation of printing opacity conductive film and connects the regional conduction this electric current of current direction laminating for this electrode subassembly realizes the electrical stimulation massage, and the printing opacity electrode slice does not sheltered from, can be comprehensive printing opacity, thereby can realize giving out light, this electrode subassembly is applied to massage head, neck massage appearance and wearable massage equipment can extend the phototherapy function.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required 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 for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a schematic structural view illustrating a transparent electrode sheet attached to a transparent conductive film according to an embodiment of the present invention;

fig. 3 is an exploded schematic view of an electrode assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 5 is a schematic view of a massage head according to the second embodiment of the present invention;

fig. 6 is an exploded schematic view of a massage head disclosed in the second embodiment of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 8 is a schematic view of the cross-sectional structure A-A of FIG. 7;

FIG. 9 is an enlarged schematic view at I of FIG. 8;

FIG. 10 is an enlarged schematic view at II of FIG. 8;

FIG. 11 is an enlarged schematic view at III of FIG. 8;

fig. 12 is a schematic structural view of a shielding member made of hard plastic according to the second embodiment of the present invention;

fig. 13 is a schematic structural view of a silica gel sleeve or a rubber sleeve as a shielding member disclosed in the second embodiment of the present invention;

fig. 14A is a schematic structural view of a neck massager disclosed in the third embodiment of the present invention;

fig. 14B is a schematic structural view of another neck massager disclosed in the third embodiment of the present invention.

Icon: 100-an electrode assembly; 10-a light-transmitting electrode sheet; 11-a light-transmitting conductive film; 111-a conformable region; 112-dislocation area; 12-a first electrically conductive member; 13-a shield; 13 a-a housing chamber; 13 b-a through slot; 13 c-a groove; 13 d-a linker; 131-a ring portion; 132-an inner buckle portion; 14-a light-transmitting heating sheet; 141-a bending section; 142-clearance groove; 151-a second conductive member; 152-a third conductive member; 200-massage head; 20-a base; 20 a-boss; 20 b-a keyway; 21-a light emitting part; 22-a circuit board; 22 a-a first side; 22 b-a second side; 231-a first FPC; 232-a second FPC; 233-a third FPC; 241-a first electrical connection; 242 — a second electrical connection; 243-third electrical connection; 25-homogenizing light; 26-a scaffold; 26 a-positioning boss; 26 b-light-transmitting holes; 261-a carrier; 262-a foot; 300-neck massager; 30-wear the support.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the 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 meaning of these terms in the present invention can be understood by those of ordinary skill 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 meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

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 utility model discloses an electrode subassembly, massage head, neck massage appearance and wearable massage equipment, electrode subassembly's printing opacity electrode slice can give out light comprehensively, uses this electrode subassembly's massage head can extend functions such as phototherapy, decoration, illumination, function expansibility preferred.

Example one

Please refer to fig. 1 and fig. 2 together, which are schematic structural diagrams of an electrode assembly 100 according to an embodiment of the present invention, the electrode assembly 100 includes a transparent electrode sheet 10, a transparent conductive film 11 and a first conductive piece 12, the transparent conductive film 11 is attached to the transparent electrode sheet 10 and electrically connected to the transparent electrode sheet 10, the transparent conductive film 11 has an attachment region 111 attached to the transparent electrode sheet 10 and a misalignment region 112 formed by extending the edge of the attachment region 111 outwards, at least a portion of the attachment region 111 is transparent, the first conductive piece 12 is used for receiving current, and the first conductive piece 12 is electrically connected to the transparent conductive film 11 at the misalignment region 112 to conduct the current to the attachment region 111.

Illustratively, the attachment region 111 is a sheet-shaped region matching the transparent electrode sheet 10, the offset region 112 is an annular region surrounding the attachment region 111 by one circle, and the projection of the transparent electrode sheet 10 on the transparent conductive film 11 completely falls into the attachment region 111.

It can be understood that the transparent electrode sheet 10 is attached and electrically connected to the attachment region 111, the attachment region 111 of the transparent conductive film 11 entirely covers the transparent electrode sheet 10, and the first conductive element 12 is connected to an external first power source at the offset region 112 of the transparent conductive film 11 to supply power to the attachment region 111, and the transparent conductive film 11 is not shielded and can be entirely transparent, so that the transparent electrode sheet 10 can emit light entirely. When the electrode assembly 100 is applied to a massage head, the phototherapy function of the massage head can be expanded due to the overall light emitting characteristic of the light-transmitting electrode sheet 10. Illustratively, the application of the electrode assembly 100 to a massage head may also allow the massage head to have an illumination function or to function as a light-emitting decoration, a cue or an atmosphere light on the massage head, etc., without being particularly limited thereto.

For example, the bonding region 111 can be all transparent, and the offset region 112 can also be all transparent, i.e. the transparent conductive film 11 is all transparent.

In this embodiment, the transparent electrode sheet 11 may be a non-metal transparent electrode sheet, which means that the transparent electrode sheet 11 is made of a non-metal transparent material. Preferably, the light-transmissive electrode sheet 10 is a conductive gel electrode sheet. This is because the transparent electrode sheet 10 needs to have good light transmittance, conductivity, and skin-friendly properties, and the conductive gel electrode sheet has the above characteristics. Therefore, the light-transmitting electrode sheet 10 is preferably a conductive gel electrode sheet, and the production difficulty of the conductive gel electrode sheet is low. It is understood that the light-transmissive electrode sheet 10 may also be a conductive silicone electrode sheet, a conductive rubber electrode sheet, or a conductive glass electrode sheet.

It can be understood that, because the human skin surface is covered with a scaly stratum corneum which is a poor conductor of electricity, and the metal electrode plate is directly attached to the stratum corneum surface, the current is not easy to be conducted with the human skin through the metal electrode plate, and energy concentration is easy to occur locally to cause stabbing pain. Therefore, this embodiment adopts this printing opacity electrode slice 10 to be the design of electrically conductive gel electrode slice, and usable electrically conductive gel electrode slice fills into the clearance of scale stratum corneum to make electrically conductive gel electrode slice can be direct and the corium direct contact under the human stratum corneum, and then make electrically conductive gel electrode slice and human skin surface adhesion part can fully communicate with corium electric conductance, increased the 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 light-transmitting electrode plate 10 made of the conductive gel is used, water vapor is generated, so that the light-transmitting electrode plate 10 is tightly attached to the neck of a user, and the phenomenon that the low-frequency pulse current generates large stimulation to the local part of the neck of the user due to the gap formed between the light-transmitting electrode plate 10 and the neck of the user to cause the discomfort of local stabbing pain of the neck of the user is avoided.

Illustratively, the thickness of the light-transmitting conductive film 11 is d, 0.1 mm. ltoreq. d.ltoreq.0.5 mm. It can be understood that if d is less than 0.1mm, the transparent conductive film 11 is thinner and has weaker conductivity, which affects the electric pulse massage effect of the electrode assembly; if d is greater than 0.5mm, the light-transmitting conductive film 11 has better conductivity and a larger thickness may reduce the light-transmitting performance when it is good enough to transmit the low-frequency pulse current to the light-transmitting electrode sheet 10. Therefore, the thickness d of the light-transmitting conductive film 11 is not less than 0.1mm and not more than 0.5mm, so that the electrode assembly has better electric pulse massage effect and overall light emission, and better electric conductivity and light-transmitting performance are achieved. That is, the thickness d of the conductive film 11 may be set to 0.1mm, 0.2mm, 0.3mm, 0.4mm, or 0.5 mm.

In this embodiment, as shown in fig. 3, the electrode assembly 100 further includes a light-transmitting heat generating sheet 14, a second conductive member 151, and a third conductive member 152, wherein the light-transmitting heat generating sheet 14 is disposed on a surface of the light-transmitting conductive film 11 away from the light-transmitting electrode sheet 10, the light-transmitting heat generating sheet 14 and the light-transmitting conductive film 11 are insulated from each other, the light-transmitting heat generating sheet 14 has a first electrical connection end and a second electrical connection end, the second conductive member 151 and the third conductive member 152 are connected to the first electrical connection end and the second electrical connection end, the second conductive member 151 and the third conductive member 152 are respectively used for connecting two poles of a power supply, and projections of the first electrical connection end, the second conductive member 151, the second electrical connection end, and the third conductive member 152 on the light-transmitting conductive film 11 all fall in the misalignment region.

For example, in order to enable the first conductive member 12 to receive current, the second conductive member 151 and the third conductive member 152 are respectively connected to two poles of a power supply, so as to achieve electrical connection and mechanical connection, so as to improve reliability of electrical connection of the first conductive member 12, the second conductive member 151 and the third conductive member 152, where the first conductive member 12, the second conductive member 151 and the third conductive member 152 may be rivets or nuts, which is not limited in this embodiment.

For example, in order to realize the insulating adhesion of the light-transmitting heat-generating sheet 14 to the light-transmitting conductive film 11, one surface of the light-transmitting heat-generating sheet 14 adhered to the light-transmitting conductive film 11 and/or one surface of the light-transmitting conductive film 11 departing from the light-transmitting electrode sheet 10 are insulating surfaces. Preferably, the transparent conductive film 11 may be an ITO film, a surface of the transparent conductive film 11 facing the transparent electrode sheet 10 is a conductive surface, and a surface of the transparent conductive film 11 facing away from the transparent electrode sheet 10 is an insulating surface. It is understood that the means for achieving the insulating adhesion of the transparent heat generating sheet 14 to the transparent conductive film 11 is only an example, and the embodiment is not limited thereto, by coating an insulating layer on a surface of the transparent heat generating sheet 14 adhered to the transparent conductive film 11 and/or a surface of the transparent conductive film 11 away from the transparent electrode sheet 10, or performing a packaging process on the transparent heat generating sheet 14, and exposing only the first electrical connection end and the second electrical connection end.

Alternatively, the transparent heat generating sheet 14 may be a graphene heat generating sheet. This first electricity connection end and this second electricity connection end are two positive and negative electricity connection ends that refer to the inside graphite alkene circuit of this graphite alkene piece that generates heat, insert the two poles of the earth of power respectively through the second piece 151 that becomes and the third piece 152 that becomes makes the inside graphite alkene circuit of graphite alkene piece that generates heat switch on and generate heat to this printing opacity piece 14 that generates heat heaies up. When the electrode assembly 100 is applied to a massage head, the massage head can expand a hot compress function. Meanwhile, when the light-transmitting heating sheet 14 heats the conductive gel electrode sheet, the generation of water vapor of the conductive gel electrode sheet can be increased, and the attaching effect of the conductive gel electrode sheet and the skin of a human body is further improved.

As can be seen from the above, the transparent conductive film 11 is connected to a current through the first conductive device 12, the transparent heat generating sheet 14 is connected to a power supply through the second conductive device 151 and the third conductive device 152, because the transparent conductive film 11 and the transparent electrode sheet 10 are connected to a low-frequency pulse current or an EMS current for performing electrode discharge massage on the human body massage part, and the transparent electrode sheet 10 discharges electricity to the human body massage part, therefore, the transparent electrode sheet 10 is connected to an electrode of one polarity (corresponding to the first conductive device 12) and forms an EMS loop or a low-frequency pulse electrical loop by contacting the two transparent electrode sheets 10 with the human skin, thereby applying electrical stimulation to the human body. The transparent heat-generating sheet 14 needs to be connected to a loop power supply, and a current flows through the transparent heat-generating sheet 14 to generate heat, and needs to be connected to two poles of the loop power supply, so that the transparent heat-generating sheet 14 needs two power connection points (corresponding to the second conductive member 151 and the third conductive member 152). Since the power supply properties and the applications of the light-transmitting conductive film 11, the light-transmitting electrode sheet 10 and the light-transmitting heat generating sheet 14 are greatly different, sufficient insulation measures are required for the two.

Considering that sufficient insulation measures need to be made between the transparent conductive film 11 and the transparent electrode sheet 10 and the transparent heat-generating sheet 14, the projections of the first conductive member 12, the second conductive member 151 and the third conductive member 152 on the transparent conductive film 11 are distributed in a staggered manner, that is, the projection positions of the three on the transparent conductive film 11 are spaced apart, and there is no overlapping portion, so as to avoid the contact between the three, and further effectively ensure the mutual insulation between the transparent conductive film 11 and the transparent heat-generating sheet 14. Alternatively, the projection position of the first conductive element 12 on the transparent conductive film 11 is located at one end of the transparent conductive film 11, and the projection positions of the second conductive element 151 and the third conductive element 152 on the transparent conductive film 11 are located at the other end of the transparent conductive film 11, which may be two ends along the width or length direction of the transparent conductive film 11. That is, the position of the transparent conductive film 11 for receiving current is shifted from the position of the transparent heating sheet 14 for receiving power, so as to avoid the contact and conduction between the two electrical connection positions, and effectively ensure the insulation between the transparent conductive film 11 and the transparent heating sheet 14.

Furthermore, a bending portion 141 extending outward and bending toward a direction away from the transparent conductive film 11 is disposed at an edge of the transparent heat-generating sheet 14, a gap is formed between the bending portion 141 and the transparent conductive film 11, the first electrical connection end and the second electrical connection end are disposed at the bending portion 141, when the second conductive member 151 is electrically connected to the first electrical connection end, a gap is formed between the second conductive member 151 and the transparent conductive film 11, and when the third conductive member 152 is electrically connected to the second electrical connection end, a gap is formed between the third conductive member 152 and the transparent conductive film 11. It can be understood that, by having a gap between the bending portion 141 and the transparent conductive film 11 as a clearance between the position of the transparent heat generating sheet 14 connected to the power supply and the transparent conductive film 11, the insulating arrangement between the transparent conductive film 11 and the transparent heat generating sheet 14 is effectively ensured.

That is, the position of the transparent conductive film 11 for receiving current is also designed to be insulated. Specifically, the position of the transparent heat-generating sheet 14 corresponding to the first conductive member 12 on the transparent conductive film 11 is provided with a clearance groove 142, so as to prevent the first conductive member 12 from contacting the transparent heat-generating sheet 14 when the transparent conductive film 11 is connected with current.

In the present embodiment, referring to fig. 1 and 3, the electrode assembly 100 further includes the shielding member 13, the shielding member 13 is an opaque member, and the shielding member 13 covers the offset region 112 from the side of the transparent conductive film 11 to which the transparent electrode sheet 10 is attached. It can be understood that, further covering the offset region 112 of the transparent conductive film 11 by the shielding member 13, the transparent electrode sheet 10 can emit light uniformly over the whole surface.

The shield 13 may be, for example, a light-tight plastic shield, a rubber shield, a silicone shield, or the like, and is not particularly limited herein.

Further, the shielding member 13 is configured to be a ring-shaped sleeve, a receiving cavity 13a is formed on a side of the shielding member 13 facing the transparent conductive film 11, the transparent conductive film 11 and the first conductive member 12 are received in the receiving cavity 13a, a through groove 13b communicating with the receiving cavity 13a is formed on a side of the shielding member 13 away from the transparent conductive film 11, the through groove 13b matches with and corresponds to the shape of the transparent electrode sheet 10, and the transparent electrode sheet 10 protrudes from a side of the shielding member 13 away from the transparent conductive film 11.

It can be understood that the receiving cavity 13a can receive the transparent conductive film 11, the first conductive piece 12, the transparent heat generating sheet 14, the second conductive piece 151 and the third conductive piece 152, so that the shielding piece 13 covers the offset region of the transparent conductive film 11, and the first conductive piece 12, the transparent heat generating sheet 14, the second conductive piece 151 and the third conductive piece 152 can shield the transparent electrode sheet 10 through the through groove 13b, so that the transparent electrode sheet 10 can emit light comprehensively.

Illustratively, as shown in FIG. 4, the distance h of the surface of the transparent electrode sheet 10 protruding from the side of the shielding member 13 away from the transparent conductive film 11 is 0.1mm ≦ h ≦ 0.3 mm. The transparent electrode plate 10 can deform, such as dent or bulge, under the action of the part to be massaged of the user so as to adapt to the part to be massaged of the user and keep close fit with the part to be massaged of the user, thereby improving the massage comfort. Therefore, the distance h should be greater than 0.1mm, so that the transparent electrode sheet 10 has sufficient deformation to prevent the portion of the user to be massaged from contacting the shielding member 13, and the distance h should be less than 0.3mm to prevent the shielding member 13 from being excessively protruded. Thus, the distance h may be 0.1mm, 0.15mm, 0.2mm, 0.25mm or 0.3 mm. Moreover, the thickness of the light-transmitting electrode plate 10 is not required to be too large, and can be 0.7mm-1.2mm, so that the electric conductivity, the light transmittance and the heat dissipation performance of the electrode plate are effectively ensured. Accordingly, the thickness of the light-transmissive electrode sheet 10 may be 0.7mm, 0.8mm, 0.9mm, 1.0mm, 1.1mm, or 1.2 mm.

The embodiment of the utility model provides an electrode component, through the laminating of printing opacity electrode slice and electricity connect in the laminating region of printing opacity conductive film, first electrically conductive piece connects in the regional electricity of dislocation of printing opacity conductive film and connects the regional conduction this electric current of electric current to laminating for this electrode component realizes the electrical stimulation massage, and the printing opacity electrode slice does not receive sheltering from, can be comprehensive printing opacity, thereby can realize giving out light, this electrode component is applied to massage head, neck massage appearance and wearable massage equipment can extend functions such as phototherapy, illumination, suggestion, decoration, atmosphere light.

In addition, through the insulating laminating of printing opacity generate heat piece in the one side that the printing opacity conducting film deviates from the printing opacity electrode slice, the second electrically conductive piece and the third electrically conductive two poles of the earth that are used for inserting the power respectively are connected the end power supply with the first electricity to printing opacity generate heat piece and second electricity for printing opacity generate heat piece circular telegram generates heat, and this electrode subassembly is applied to massage head, neck massage appearance and wearable massage equipment and can expands the hot compress function.

Example two

Referring to fig. 2, 5 and 6, a schematic structural diagram of a massage head 200 according to an embodiment of the present invention is shown, the massage head 200 includes a base 20, a light emitting part 21 (see fig. 8) and an electrode assembly 100, the electrode assembly 100 includes a light-transmissive electrode sheet 10, a light-transmissive conductive film 11 and a first electrically-conductive member 12, the transparent conductive film 11 has a bonding region 111 and a dislocation region 112 extending outward from the edge of the bonding region 111, the bonding region 111 is at least partially transparent, the transparent electrode sheet 10 is bonded and electrically connected to the bonding region 111, the first conductive member 12 is used for receiving current, the first conductive member 12 is electrically connected to the transparent conductive film 11 in the offset region 112 to conduct the current to the bonding region 111, the light emitting member 21 is disposed on the base 20 and between the base 20 and the electrode assembly 100, and light emitted from the light emitting member 21 is transmitted through the light transmissive electrode sheet 10.

It can be understood that the first conductive device 12 is connected to the current flow to conduct the current to the attaching region 111 of the transparent conductive film 11, and the attaching region 111 is electrically connected to the transparent electrode sheet 10 to conduct the current to the transparent electrode sheet 10, so that the transparent electrode sheet 10 can act on the portion of the user to be massaged to perform the electrical stimulation massage, that is, the massage head 200 has the electrical stimulation massage function. In addition, the transparent electrode sheet 10 is attached and electrically connected to the attachment region 111, the projection of the transparent electrode sheet 10 on the transparent conductive film 11 completely falls into the attachment region 111, the attachment region 111 of the transparent conductive film 11 completely covers the transparent electrode sheet 10, and the first conductive member 12 is connected to the current in the offset region 112 of the transparent conductive film 11 to conduct the current to the attachment region 111, so that the transparent conductive film 11 is completely free from being blocked and can completely transmit light. Further, light emitted from the light emitting component 21 is transmitted from the transparent electrode sheet 10, specifically, the light is transmitted to the transparent electrode sheet 10 through the attaching region 111 of the transparent conductive film 11, so that the transparent electrode sheet 10 emits light, and the first conductive piece 12 is located in the dislocation region 112, so that the transparent electrode sheet 10 is prevented from being affected by the first conductive piece 12, and the transparent electrode sheet 10 can emit light comprehensively, so that the massage head 200 has a phototherapy function. Illustratively, the full-surface light emission of the light-transmitting electrode sheet 10 can also be used for illumination, decoration, prompting, serving as atmosphere light, and the like, i.e., the massage head 200 can expand various functions.

Illustratively, the light emitting part 21 may include one or more light sources emitting ultraviolet light, visible light, infrared light and laser light, so that the massage head 200 has one or more light therapy methods, such as ultraviolet therapy, visible light therapy, infrared therapy and/or laser therapy, to meet different use requirements of users.

As can be seen from the above, the massage head 200 provides one or more of an electrical stimulation massage function, a hot compress function, a phototherapy function, an illumination function, a prompt function, a decoration function, etc. to the user, so as to satisfy different user requirements of the user.

Preferably, the light-transmissive electrode sheet 10 is a conductive gel electrode sheet. Illustratively, the light-transmissive electrode sheet 10 may be a conductive glass electrode sheet. The conductive glass electrode sheet has light transmittance and conductivity, and is suitable for being used as the light-transmitting electrode sheet 10 of the electrode assembly 100, but the conductive glass electrode sheet has poor skin-friendly property and complex processing technology. Therefore, in consideration of the light-transmissive electrode sheet 10 required to have good light transmittance, electrical conductivity, and skin-friendly properties, the light-transmissive electrode sheet 10 is preferably a conductive gel electrode sheet, and the production difficulty of the conductive gel electrode sheet is low.

It can be understood that, because the human skin surface is covered with a scaly stratum corneum which is a poor conductor of electricity, and the metal electrode plate is directly attached to the stratum corneum surface, the current is not easy to be conducted with the human skin through the metal electrode plate, and energy concentration is easy to occur locally to cause stabbing pain. Therefore, this embodiment adopts this printing opacity electrode slice 10 to be the design of electrically conductive gel electrode slice, and usable electrically conductive gel electrode slice fills into the clearance of scale stratum corneum to make electrically conductive gel electrode slice can be direct and the corium direct contact under the human stratum corneum, and then make electrically conductive gel electrode slice and human skin surface adhesion part can fully communicate with corium electric conductance, increased the 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 light-transmitting electrode plate 10 made of the conductive gel is used, water vapor is generated, so that the light-transmitting electrode plate 10 is tightly attached to the neck of a user, and the phenomenon that the low-frequency pulse current generates large stimulation to the local part of the neck of the user due to the gap formed between the light-transmitting electrode plate 10 and the neck of the user to cause the discomfort of local stabbing pain of the neck of the user is avoided.

Illustratively, the thickness of the light-transmitting conductive film 11 is d, 0.1 mm. ltoreq. d.ltoreq.0.5 mm. It can be understood that if d is less than 0.1mm, the transparent conductive film 11 is thinner and has weaker conductivity, which affects the electric pulse massage effect of the electrode assembly; if d is greater than 0.5mm, the light-transmitting conductive film 11 has better conductivity and a larger thickness may reduce the light-transmitting performance when it is good enough to transmit the low-frequency pulse current to the light-transmitting electrode sheet 10. Therefore, the thickness d of the light-transmitting conductive film 11 is not less than 0.1mm and not more than 0.5mm, so that the electrode assembly has better electric pulse massage effect and overall light emission, and better electric conductivity and light-transmitting performance are achieved. That is, the thickness d of the conductive film 11 may be set to 0.1mm, 0.2mm, 0.3mm, 0.4mm, or 0.5 mm.

In the present embodiment, as shown in fig. 6 and 8, the electrode assembly 100 further includes a light-transmitting heat generating sheet 14, a second conductive member 151 and a third conductive member 152,

the transparent heating sheet 14 is disposed facing a surface of the transparent conductive film 11 away from the transparent electrode sheet 10, the transparent heating sheet 14 and the transparent conductive film 11 are insulated from each other, the transparent heating sheet 14 has a first electrical connection end and a second electrical connection end, the second conductive member 151 and the third conductive member 152 are connected to the first electrical connection end and the second electrical connection end, the second conductive member 151 and the third conductive member 152 are respectively used for connecting two poles of a power supply, and projections of the first electrical connection end, the second conductive member 151, the second electrical connection end and the third conductive member 152 on the transparent conductive film 11 all fall in the dislocation region.

For example, in order to realize the insulating adhesion of the light-transmitting heat-generating sheet 14 to the light-transmitting conductive film 11, one surface of the light-transmitting heat-generating sheet 14 adhered to the light-transmitting conductive film 11 and/or one surface of the light-transmitting conductive film 11 departing from the light-transmitting electrode sheet 10 are insulating surfaces. Preferably, the transparent conductive film 11 may be an ITO film, a surface of the transparent conductive film 11 facing the transparent electrode sheet 10 is a conductive surface, and a surface of the transparent conductive film 11 facing away from the transparent electrode sheet 10 is an insulating surface. It is understood that the means for achieving the insulating attachment of the transparent heat generating sheet 14 to the transparent conductive film 11 is only an example, and the embodiment is not limited thereto, by coating an insulating layer on a surface of the transparent heat generating sheet 14 attached to the transparent conductive film 11 and/or a surface of the transparent conductive film 11 away from the transparent electrode sheet 10, or performing a packaging process on the transparent heat generating sheet 14, and only exposing the first electrical connection end and the second electrical connection end.

Alternatively, the transparent heat generating sheet 14 may be a graphene heat generating sheet. This first electricity connection end and this second electricity connection end are two positive and negative electricity connection ends that refer to the inside graphite alkene circuit of this graphite alkene heating sheet, and the two poles of the earth that insert the power respectively through the second is electrically conductive 151 and the third is electrically conductive 152 makes the inside graphite alkene circuit of graphite alkene heating sheet switch on and generate heat to this printing opacity heating sheet 14 generates heat and heaies up promptly, and this massage head 200 has the hot compress function. Meanwhile, when the light-transmitting heating sheet 14 heats the conductive gel electrode sheet, the generation of water vapor of the conductive gel electrode sheet can be increased, and the attaching effect of the conductive gel electrode sheet and the skin of a human body is further improved. The transparent heating sheet 14 is transparent, so that the light emitted from the light emitting component 21 is not blocked, and the light emitted from the light emitting component 21 can pass through the transparent heating sheet 14 to the transparent conductive film 11.

As can be seen from the above, the transparent conductive film 11 is connected to the current through the first conductive device 12, and the transparent heating sheet 14 is connected to the second external power source through the second conductive device 151 and the third conductive device 152, because the transparent conductive film 11 and the transparent electrode sheet 10 are connected to the low-frequency pulse current or EMS current for performing the electrode discharge massage on the human body massage part, and the transparent electrode sheet 10 discharges to the human body massage part, so that no power circuit is required, and only one power connection point (corresponding to the first conductive device 12) is required. The transparent heat-generating sheet 14 needs to be connected to a loop power supply, and a current flows through the transparent heat-generating sheet 14 to generate heat, and needs to be connected to two poles of the loop power supply, so that the transparent heat-generating sheet 14 needs two power connection points (corresponding to the second conductive member 151 and the third conductive member 152). Since the power supply properties and the applications of the light-transmitting conductive film 11, the light-transmitting electrode sheet 10 and the light-transmitting heat generating sheet 14 are greatly different, sufficient insulation measures are required for the two.

Considering that sufficient insulation measures need to be made between the transparent conductive film 11 and the transparent electrode sheet 10 and the transparent heat-generating sheet 14, the projections of the first conductive member 12, the second conductive member 151 and the third conductive member 152 on the transparent conductive film 11 are distributed in a staggered manner, that is, the projection positions of the three on the transparent conductive film 11 are spaced apart, and there is no overlapping portion, so as to avoid the contact between the three, and further effectively ensure the mutual insulation between the transparent conductive film 11 and the transparent heat-generating sheet 14. Alternatively, the projection position of the first conductive element 12 on the transparent conductive film 11 is located at one end of the transparent conductive film 11, and the projection positions of the second conductive element 151 and the third conductive element 152 on the transparent conductive film 11 are located at the other end of the transparent conductive film 11, which may be two ends along the width or length direction of the transparent conductive film 11. That is, the position of the transparent conductive film 11 connected to the external first power source is staggered from the position of the transparent heating sheet 14 connected to the second external power source, so as to avoid the electrical connection between the two to be conducted, and to effectively ensure the insulation between the transparent conductive film 11 and the transparent heating sheet 14.

Further, as shown in fig. 8 to 10, a bending portion 141 extending outward and bending toward a direction away from the transparent conductive film 11 is disposed at an edge of the transparent heat-generating sheet 14, a gap is disposed between the bending portion 141 and the transparent conductive film 11, the first electrical connection end and the second electrical connection end are disposed at the bending portion 141, when the second conductive member 151 is electrically connected to the first electrical connection end, a gap is disposed between the second conductive member 151 and the transparent conductive film 11, and when the third conductive member 152 is electrically connected to the second electrical connection end, a gap is disposed between the third conductive member 152 and the transparent conductive film 11. It can be understood that, by having a gap between the bending portion 141 and the transparent conductive film 11 as a clearance between the position of the transparent heat generating sheet 14 connected to the external second power source and the transparent conductive film 11, the insulating arrangement between the transparent conductive film 11 and the transparent heat generating sheet 14 is effectively ensured.

That is, the position of the transparent conductive film 11 for receiving current is also designed to be insulated. Specifically, the position of the transparent heat-generating sheet 14 corresponding to the first conductive member 12 on the transparent conductive film 11 is provided with a clearance groove 142, so as to prevent the first conductive member 12 from contacting the transparent heat-generating sheet 14 when the transparent conductive film 11 is connected with current.

In this embodiment, the massage head 200 further includes a shielding member 13, which is a light-tight member, the shielding member 13 covers the offset region 112 from the side of the transparent conductive film 11 attached with the transparent electrode sheet 10, and the shielding member 13 is connected to the base 20, so as to mount the electrode assembly 100 between the shielding member 13 and the base 20.

Further, a detachable snap connection is formed between the shielding member 13 and the base 20, a first electrical connector 241 is disposed on the base 20, and the transparent conductive film 11 is electrically connected to the first electrical connector 241 through the first conductive member 13 in a separable manner.

In the present embodiment, referring to fig. 6 and 8 again, the massage head 200 further includes a circuit board 22 disposed on the base 20, the light emitting component 21 is disposed on the circuit board 22 and electrically connected to the circuit board 22, and the first electrical connector 241 is electrically connected to the circuit board 22.

Further, the Circuit board 22 includes a first side 22a and a second side 22b in a length direction, the first side 22a is provided with an output end of a first power source, the output end of the first power source is connected to the first conductive member 12 through a first FPC (Flexible Printed Circuit) 231 to supply the current to the first conductive member 12, the second side 22b is provided with an output end of the second power source, and two poles of the output end of the second power source are respectively connected to the second conductive member 151 and the third conductive member 152 through a second FPC232 and a third FPC 233. And, the first FPC231 is connected to the first conductive member through the first electrical connector 241.

Exemplarily, in order to make the second FPC232 and the third FPC233 electrically and reliably connected to the second conductive member 151 and the third conductive member 152, respectively, the second FPC232 and the third FPC233 may be electrically and mechanically connected through a second electrical connector 242 and a third electrical connector 243, respectively.

Alternatively, the first electrical connector 241, the second electrical connector 242, and the third electrical connector 243 may be rivets or screws, and the first conductive member 12, the second conductive member 151, and the third conductive member 152 may be rivets or nuts, so that the electrical connection is realized, and simultaneously, the mechanical connection is also realized, thereby ensuring the reliability of the connection.

Illustratively, as shown in fig. 8 and 11, in order to avoid forming spots on the surface of the light-transmitting electrode sheet 10, the massage head 200 further includes a light-homogenizing sheet 25, wherein the light-homogenizing sheet 25 is disposed between the light-emitting component 21 and the light-transmitting conductive film 11, and is used for uniformly diffusing the light emitted from the light-emitting component 21 to the light-transmitting conductive film 11. Further, the light irradiated on the transparent electrode sheet 10 through the transparent conductive film 11 is uniformly distributed on the transparent electrode sheet 10, so that the transparent electrode sheet 10 emits light uniformly on the whole surface, and no light spot occurs.

In this embodiment, the massage head 200 further includes a bracket 26, the bracket 26 is connected to the base 20, the circuit board 22 and the heat-generating sheet 14 are respectively disposed on two opposite sides of the bracket 26, the circuit board 22 is disposed in a cavity defined by the bracket 26 and the base, and the bracket 26 has a light-transmitting structure for allowing light emitted from the light-emitting component 21 to be transmitted to the electrode assembly 100.

Specifically, the bracket 26 includes a supporting member 261 and a leg 262, the supporting member 261 is disposed between the circuit board 22 and the transparent heat conductive sheet 14, the leg 262 extends from a direction of a surface of the supporting member 261 abutting against the circuit board 22 and facing the base 20, and the leg 262 penetrates through the circuit board 22 and is connected to the base 20 in a snap-fit manner. Specifically, the supporting member 261 is provided with a positioning protrusion 26a protruding toward the base 20, the base 20 is provided with a positioning hole corresponding to the positioning protrusion 26a, and the positioning protrusion 26a is disposed in the positioning hole, so as to realize accurate positioning of the bracket 26 and the base 20, and improve the connection strength.

Further, in order to make the light emitted from the light emitting component 21 irradiate the transparent conductive film 11, the transparent structure may be a transparent hole 26b disposed on the carrier 261 corresponding to the light emitting component 21, the transparent hole 26b penetrates through two opposite surfaces of the carrier 261, and the light emitting component 21 emits light toward the transparent hole 26 b. Alternatively, the light-transmitting structure may be a light-transmitting portion on the carrier 261, and the light-transmitting portion may be a light-transmitting insulating film or a light-transmitting plastic sheet, so that the carrier 261 does not shield the light-emitting component 21, and the light-emitting component 21 can emit light from the light-transmitting hole 26b, sequentially penetrate through the light-equalizing sheet 25, the light-transmitting heat-generating sheet 14 and the light-transmitting conductive film 11, and irradiate the light-transmitting electrode sheet 10, and then the light-transmitting electrode sheet 10 can emit light comprehensively.

In the present embodiment, referring to fig. 6 and 8 again, the shielding member 13 is configured to be a ring-shaped sleeve, the shielding member 13 includes a ring portion 131 and an inner fastening portion 132, the ring portion 131 is connected with the inner fastening portion 132 to form a receiving cavity 13a, the light emitting component 21, the bracket 26, the light homogenizing sheet 25, the transparent heat generating sheet 14, the transparent conductive film 11, the first conductive member 12, the circuit board 22, the second conductive member 151 and the third conductive member 152 are received in the receiving cavity 13a, the inner fastening portion 132 is provided with a through slot 13b communicated with the receiving cavity 13a, the through slot 13b is matched with and corresponding to the shape of the transparent electrode sheet 10, the transparent electrode sheet 10 protrudes from a surface of the inner fastening portion 132 facing away from the transparent conductive film 11, the inner fastening portion 132 is attached to the offset region 112 of the transparent conductive film 11 facing the surface of the transparent conductive film 11, the ring portion 131 extends from the outer periphery of the inner fastening portion 132 in the direction of the base 20, the ring portion 131 is detachably connected to the base 20.

It can be understood that the receiving cavity 13a can receive the light emitting component 21, the bracket 26, the light homogenizing sheet 25, the transparent heat generating sheet 14, the transparent conductive film 11, the first conductive member 12, the circuit board 22, the second conductive member 151 and the third conductive member 152, and the shielding member 13 covers the offset region of the transparent conductive film 11, so that the transparent electrode sheet 10 is not shielded by the through groove 13b, and the transparent electrode sheet 10 can emit light comprehensively.

Illustratively, as shown in FIG. 10, the distance h of the surface of the transparent electrode sheet 10 protruding from the side of the shielding member 13 away from the transparent conductive film 11 is 0.1mm ≦ h ≦ 0.3 mm. The transparent electrode plate 10 can deform, such as dent or bulge, under the action of the part to be massaged of the user so as to adapt to the part to be massaged of the user and keep close fit with the part to be massaged of the user, thereby improving the massage comfort. Therefore, the distance h should be greater than 0.1mm, so that the transparent electrode sheet 10 has sufficient deformation to prevent the portion of the user to be massaged from contacting the shielding member 13, and the distance h should be less than 0.3mm to prevent the shielding member 13 from being excessively protruded. Thus, the distance h may be 0.1mm, 0.15mm, 0.2mm, 0.25mm or 0.3 mm. Moreover, the thickness can be 0.7mm-1.2mm, thus effectively ensuring the electrical conductivity, the light transmission and the heat dissipation. Accordingly, the thickness of the light-transmissive electrode sheet 10 may be 0.7mm, 0.8mm, 0.9mm, 1.0mm, 1.1mm, or 1.2 mm.

Considering that the transparent electrode plate 10 adopts a conductive gel electrode, the moisture content of the transparent electrode plate is low along with the generation of water vapor during use, or the transparent electrode plate 10 needs to be replaced in time when being damaged or polluted. Therefore, the shielding member 13 is detachably connected to the base 20, so that the transparent electrode plate 10 can be replaced conveniently, and the electrode performance of the massage head 200 can be ensured effectively.

Because the transparent electrode sheet 10 adopts the conductive gel electrode sheet, the adhesive property is achieved, and when the transparent conductive film 11 and the shielding piece 13 are connected in a gum manner, the transparent electrode sheet 10, the transparent conductive film 11, the first conductive piece 12, the second conductive piece 151, the third conductive piece 152 and the shielding piece 13 are integrally replaced together, when the transparent conductive film 11 and the shielding piece 13 are not connected in a gum manner, the transparent electrode sheet 10 can be peeled off from the shielding piece 13, so that the transparent electrode sheet 10, the transparent conductive film 11, the first conductive piece 12, the second conductive piece 151 and the third conductive piece 152 can be replaced, and the shielding piece 13 does not need to be replaced. The electrode assembly replacing method has the advantages that the whole massage head needs to be completely disassembled for replacement when the electrode assembly in the prior art is replaced, the disassembly and the replacement are more convenient and quicker, and the replacement cost of the parts can be saved by repeatedly utilizing the shielding piece 13, the light-transmitting heating sheet 14, the light-transmitting conductive film 11 and the like. It is to be understood that the shielding member 13 may be replaced together with the electrode assembly 100 at the time of replacement, and is not particularly limited thereto.

As an alternative embodiment, as shown in fig. 12, the shield 13 may be a rigid plastic sheath (e.g. POM plastic, PBT plastic, LCP plastic, etc.). When the shielding member 13 is a hard plastic sleeve, the ring portion 131 has a groove 13c, the base 20 has a boss 20a corresponding to the groove 13c, and the groove 13c is detachably fastened to the boss 20 a. Because the shielding piece made of the plastic material has a certain deformation amount, the shielding piece can deform under the action of external force, so that the groove 13c is separated from or opened on the boss 20a, a user can conveniently detach the shielding piece 13, the transparent electrode plate 10 is replaced, and the difficulty in replacing the transparent electrode plate 10 is reduced.

As another alternative, as shown in fig. 13, the shielding member 13 may be a rubber sleeve or a silicone sleeve, the end of the ring portion 131 away from the inner fastening portion 132 is bent to form a fastening-shaped connecting portion 13d, the base 20 is provided with a fastening groove 20b matching with the connecting portion 13d, and the connecting portion 13d is detachably fastened to the fastening groove 20 b. Because the shielding piece 13 made of rubber or silica gel can deform under the action of external force, the connecting part 13d is separated from or buckled with the buckling groove 20b, so that a user can conveniently detach the shielding piece 13, the transparent electrode plate 10 is replaced, and the difficulty in replacing the transparent electrode plate 10 is reduced.

The embodiment of the utility model provides a massage head, which is jointed and electrically connected with the jointing area of a light-transmitting conductive film through a light-transmitting electrode slice, a first conductive piece is electrically connected with the light-transmitting conductive film in the dislocation area of the light-transmitting conductive film and is connected with a first power supply of a circuit board to conduct current to the jointing area, the current is conducted to the light-transmitting electrode slice through the light-transmitting conductive film, so that the transparent electrode plate can carry out electric stimulation massage on the part to be massaged of a user, the joint area of the transparent conductive film completely covers the transparent electrode plate, the transparent electrode plate is not shielded, can transmit light comprehensively, and the shielding piece covers the dislocation area from one side of the light-transmitting conductive film attached with the light-transmitting electrode slice, so that the light of the light-emitting component can not be transmitted from other positions, therefore, the light emitted by the light-emitting component can be completely transmitted out through the light-transmitting electrode slice, so that the light-transmitting electrode slice can comprehensively emit light and acts on the skin of a human body to realize phototherapy.

In addition, the massage head is also provided with a transparent heating sheet, the transparent heating sheet is connected with the power supply of the circuit board through the second conductive piece and the third conductive piece, so that a heating loop is formed, and after the transparent heating sheet is electrified and heated, heat is conducted to the transparent electrode sheet, so that the heat can be applied to the part to be massaged of a user to realize hot compress.

EXAMPLE III

Referring to fig. 14A, for the schematic structural diagram of the neck massager 300 provided in the embodiment of the present invention, the neck massager 300 includes a wearing bracket 30 and the massage head 200 of the second embodiment, the massage head 200 is disposed on the wearing bracket 30, and the wearing bracket 30 is used for being worn on the neck of a human body.

Optionally, the wearing support 30 is approximately C-shaped and is generally made of a material with elastic properties, for example, a material such as silica gel or rubber can be selected, so that the wearing support is not only convenient to wear on the neck of a human body, but also has certain skin-friendly property. When the user uses the neck massage apparatus 300, the wearing bracket 30 can be straddled on the neck, so that the massage head 200 can be aligned with the position of the neck to be massaged and attached to the skin of the neck, thereby realizing massage.

It is understood that the electrode assembly 100 of the first embodiment may be directly mounted on the wearing shoe 30, as shown in fig. 14B.

The embodiment of the utility model provides a neck massage appearance, this neck massage appearance have electric pulse massage function, hot compress function, phototherapy function etc. and the function is more various, can satisfy user's different user demands.

Example four

The embodiment of the utility model provides a pair of wearable massage equipment, this wearable massage equipment is including wearing the part and the above-mentioned massage head of implementing two, should wear the part on should wearing the part by the massage head, should wear the part and be used for supplying the human body to dress.

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 utility model provides a wearable massage equipment, this wearable massage equipment have electric pulse massage function, hot compress function, phototherapy function etc. and the function is more various, can satisfy user's different user demands. Moreover, the wearable part is worn on the human body, so that the stable contact between the massage head and the massage part (eyes, head, shoulders, waist and the like) of the human body is effectively ensured, and the situation that the massage head is dislocated due to external force applied to the wearable massage equipment is avoided.

The electrode assembly, the massage head, the neck massage instrument and the wearable massage device disclosed by the embodiment of the utility model are introduced in detail, the principle and the implementation mode of the utility model are explained by applying an example, and the explanation of the above embodiment is only used for helping to understand the electrode assembly, the massage head, the neck massage instrument and the wearable massage device and the core idea thereof; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (16)

1. An electrode assembly, comprising

A light-transmitting electrode sheet;

the light-transmitting conductive film is attached to the light-transmitting electrode plate and electrically connected with the light-transmitting electrode plate, the light-transmitting conductive film is provided with an attachment area attached to the light-transmitting electrode plate and a dislocation area formed by extending outwards from the edge of the attachment area, and at least part of the attachment area is light-transmitting;

and the first conductive piece is used for accessing current, and is electrically connected to the light-transmitting conductive film in the dislocation region so as to conduct the current to the bonding region.

2. The electrode assembly of claim 1, wherein the light-transmissive electrode sheet is a conductive gel electrode sheet.

3. The electrode assembly of claim 1, further comprising:

the light-transmitting heating sheet is arranged on one surface of the light-transmitting conductive film, which is far away from the light-transmitting electrode plate, the light-transmitting heating sheet and the light-transmitting conductive film are arranged in an insulated manner, and the light-transmitting heating sheet is provided with a first electric connection end and a second electric connection end;

the second conductive piece is electrically connected to the first electric connection end, the third conductive piece is electrically connected to the second electric connection end, and the second conductive piece and the third conductive piece are respectively used for being connected to two poles of a power supply;

projections of the first electrical connection end, the second conductive piece, the second electrical connection end and the third conductive piece on the light-transmitting conductive film fall in the dislocation region.

4. The electrode assembly of claim 3, wherein the projections of the first, second, and third conductive members on the light-transmitting conductive film are offset.

5. The electrode assembly of claim 3, wherein the edge of the transparent heat-generating sheet has a bending portion extending outward and bending toward a direction away from the transparent conductive film, a gap is formed between the bending portion and the transparent conductive film, and the first and second electrical connection terminals are disposed on the bending portion;

when the second conductive piece is electrically connected with the first electric connection end, a gap is formed between the second conductive piece and the light-transmitting conductive film, and when the third conductive piece is electrically connected with the second electric connection end, a gap is formed between the third conductive piece and the light-transmitting conductive film.

6. The electrode assembly according to claim 1, wherein a projection of the light-transmitting electrode sheet on the light-transmitting conductive film falls entirely into the fitting region.

7. The electrode assembly according to any one of claims 1 to 6, further comprising a shielding member, wherein the shielding member is an opaque member, and the shielding member covers the offset region from a side of the light-transmitting conductive film to which the light-transmitting electrode sheet is attached.

8. A massage head comprising a base, a light-emitting member, and an electrode assembly according to any one of claims 1 to 6, wherein the electrode assembly is mounted to the base, the light-emitting member is provided on the base between the base and the electrode assembly, and light emitted from the light-emitting member is transmitted from the light-transmissive electrode sheet.

9. The massage head as claimed in claim 8, further comprising a shielding member, wherein the shielding member is a light-tight member, the shielding member covers the offset region from a side of the light-transmissive conductive film to which the light-transmissive electrode sheet is attached, and the shielding member is connected to the base so as to mount the electrode assembly between the shielding member and the base.

10. The massage head as claimed in claim 9, wherein the shielding member is detachably connected to the base by a snap fit, the base is provided with a first electrical connector, and the transparent conductive film is detachably connected to the first electrical connector by the first conductive member.

11. The massage head of claim 10 further comprising a circuit board disposed in the base, the light emitting member being disposed on and in electrical communication with the circuit board, the first electrical connector being electrically connected to the circuit board.

12. The massage head as claimed in claim 11, further comprising a support, wherein the support is connected to the base, the circuit board and the light-transmitting heat-generating sheet of the electrode assembly are respectively disposed on two opposite sides of the support, and the circuit board is disposed in a cavity defined by the support and the base, and the support has a light-transmitting structure for allowing light emitted from the light-emitting part to pass through to the electrode assembly.

13. The massage head as claimed in claim 9, wherein the shielding member is configured to be a ring-shaped sleeve, the shielding member includes a ring portion and an inner fastening portion, the ring portion is connected to the inner fastening portion to form an accommodating cavity, the light-emitting portion, the transparent conductive film and the first conductive member are accommodated in the accommodating cavity, the inner fastening portion is provided with a through groove communicating with the accommodating cavity, the through groove matches and corresponds to the shape of the transparent electrode sheet, the transparent electrode sheet protrudes from a surface of the inner fastening portion facing away from the transparent conductive film, the inner fastening portion is attached to the offset region of the transparent conductive film facing the surface of the transparent conductive film, the ring portion extends from the periphery of the inner fastening portion in a direction toward the base, and the ring portion is detachably connected to the base.

14. The massage head as claimed in claim 8, further comprising a light-equalizing sheet provided between the light-emitting part and the light-transmitting conductive film.

15. A neck massager, characterized by comprising a wearing bracket and the massage head as claimed in any one of claims 8 to 14, wherein the massage head is arranged on the wearing bracket, and the wearing bracket is used for being worn on the neck of a human body;

alternatively, the neck massager comprises a wearing support and an electrode assembly according to any one of claims 1 to 7, wherein the electrode assembly is arranged on the wearing support, and the wearing support is worn on the neck of a human body.

16. A wearable massage apparatus, comprising a wearing part and the massage head according to any one of claims 8 to 14, the massage head being provided on the wearing part, the wearing part being adapted to be worn by a human body;

alternatively, the wearable massage apparatus comprises a wearable part and an electrode assembly according to any one of claims 1 to 7, wherein the electrode assembly is arranged on the wearable part, and the wearable part is worn by a human body.

Images