CN111939460A - Electrode assembly, massage head and neck massage instrument - Google Patents

Abstract

The invention discloses an electrode assembly, which is arranged on a massager and supported by a main body or a base of the massager, and comprises: a carrier and a plurality of conductive gel sheets. The bearing piece is arranged on one side of the main body or the base facing the skin of the human body and is an insulator; the conductive gel sheets are arranged on one side, facing the skin of a human body, of the bearing piece at intervals so as to be borne by the bearing piece, and the surface of each conductive gel sheet is not lower than that of the bearing piece on the side, facing the skin of the human body, of the bearing piece, wherein the conductive gel sheets and/or the bearing pieces are detachably connected with the main body or the base, and the bearing pieces can bear the conductive gel sheets to be dismounted together; wherein, the bearing part is an insulator to insulate the conductive gel sheet. According to the electrode assembly, when the plurality of conductive gel sheets are replaced, the relative position relation among the plurality of conductive gel sheets does not need to be considered, so that the replacement of the conductive gel sheets can be more convenient and quicker.

Description

Electrode assembly, massage head and neck massage instrument

Technical Field

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

Background

The neck massage apparatus generally has an electrical stimulation type, a mechanical type, and the like, in which the electrical stimulation type neck massage apparatus accelerates blood circulation at neck muscles by applying a pulse current to the neck, and can effectively provide a soothing effect on the neck muscles. The electrode slice of the existing neck massager adopts the conductive gel slice, the gel has better skin-attaching property and skin-friendly property due to soft quality, and can generate water vapor when in use, can be effectively attached to the skin, and further can effectively solve the problem of stabbing pain generated by electrical stimulation, and is suitable for being used as the electrode slice of the neck massager.

However, after the gel is used for a period of time, the moisture content of the gel is reduced, the gel is easy to damage, the physical stability is poor, the electric stimulation stabbing pain resolving capability is weakened, the surface of the gel is stained due to the adhesion of the gel, the use experience of a user is influenced, the electric conduction capability of the gel is weakened due to excessive stains, and the use of a neck massager is influenced.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. To this end, it is an object of the present invention to provide an electrode assembly on which a conductive gel sheet is easily replaced without re-aligning the position thereof, thereby ensuring the normal operation of the electrode assembly.

The invention also provides a massage head.

The invention further provides a neck massager.

An electrode assembly according to an embodiment of the present invention is mounted to a massage apparatus and supported by a main body or a base of the massage apparatus, the electrode assembly including: the bearing piece is arranged on one side, facing the skin of the human body, of the main body or the base, and the bearing piece is an insulator; the conductive gel sheets are arranged on one side, facing the skin of the human body, of the bearing piece at intervals so as to be borne by the bearing piece, and the surface of each conductive gel sheet is not lower than that of the bearing piece on the side, facing the skin of the human body, of the bearing piece, wherein the conductive gel sheets and/or the bearing piece are detachably connected with the main body or the base, and the bearing piece can bear the conductive gel sheets to be dismounted together; wherein the carrier is an insulator to insulate the plurality of conductive gel sheets.

Therefore, according to the electrode assembly provided by the invention, the plurality of conductive gel sheets can be arranged on the bearing member at intervals by arranging the bearing member, so that the relative positions among the plurality of conductive gel sheets are fixed, in addition, the conductive gel sheets and/or the bearing member are detachably connected with the main body or the base of the massager, so that when the conductive gel sheets are replaced, the relative position relation among the plurality of conductive gel sheets does not need to be considered, and when the bearing member is adopted to bear the conductive gel sheets, the bearing member has a reinforcing effect on the structure of the conductive gel sheets and cannot tear the conductive gel sheets, so that the replacement of the conductive gel sheets can be more convenient and faster.

According to the embodiment of the invention, the bearing piece is provided with a plurality of hollowed holes, each conductive gel sheet is provided with the hollowed holes correspondingly, so that at least one part of the surface of one side, facing the hollowed holes, of each conductive gel sheet is a conductive input surface, and the conductive gel sheets are connected with electricity through the conductive input surfaces.

According to the embodiment of the invention, at least one supporting strip is arranged in the hollow hole, two ends of the supporting strip are connected to the opposite sides of the hollow hole, and the supporting strip is supported on one side of the conductive gel sheet, which is far away from the skin of a human body.

According to the embodiment of the invention, the length direction of the supporting strip is the same as that of the bearing piece, one supporting strip is correspondingly arranged in each hollow hole, and the supporting strips are distributed in the middle of the hollow holes in the width direction.

According to an embodiment of the invention, the carrier comprises: the first outer frame and the first inner division bar are arranged in the first outer frame and connected to the opposite sides of the first outer frame, so that the hollow holes are formed in the first outer frame and the first outer frame.

According to the embodiment of the invention, the conductive input surface of the conductive gel sheet is adhered to the main body or the base of the massager, and the bearing piece is clamped between the conductive gel sheet and the main body or the base.

According to an embodiment of the invention, the carrier is a plastic sheet, and the thickness of the carrier is 0.1mm-0.5 mm.

According to an embodiment of the present invention, the carrier is an elastic member or a flexible member, and the carrier and the conductive gel sheet are deformable together to enable the electrode assembly to be stretched in a straight shape.

According to an embodiment of the invention, the carrier comprises a carrier body and a hand-tearing part, a plurality of the conductive gel sheets are arranged on the carrier body at intervals, and the hand-tearing part is at least one and is arranged at the edge of the carrier body.

According to the embodiment of the invention, the number of the hand tearing parts is two, and the two hand tearing parts are distributed at two ends of the length direction of the bearing main body and are positioned at the midpoint of the width direction.

According to an embodiment of the present invention, the electrode assembly further includes: the insulating part is arranged on one surface of the bearing piece, which is provided with the conductive gel sheets, and the insulating part is arranged between every two adjacent conductive gel sheets and is used for blocking the contact of the adjacent conductive gel sheets.

According to an embodiment of the invention, the insulator is connected to and carried by the carrier; or the insulating part is a convex rib integrally formed on the bearing part.

According to the embodiment of the present invention, both ends of the conductive gel sheet facing one side edge of the insulating sheet are rounded; the insulating member includes: the two ends of the main insulator are respectively connected with the end heads, and the surfaces of the end heads facing the conductive gel sheets on the two sides are arranged into arc shapes so as to be matched with the round corners; or the insulating member is constructed in a straight strip structure having the same width between the conductive gel sheets.

According to an embodiment of the present invention, the electrode assembly further includes: the pressure is held, the pressure hold set up in hold the one side of holding the piece orientation human neck and detachably install in the main part or the base, in order to be used for with hold the piece pressure and hold the main part or the base, the pressure is held and is provided with and dodges the hole, it is used for dodging to dodge the hole a plurality of electrically conductive gel pieces, so that a plurality of electrically conductive gel pieces certainly expose in the pressure holds the piece.

According to the embodiment of the invention, the pressing and holding piece is provided with a clamping structure or a magnetic attraction component which is detachably matched with the main body or the base.

According to an embodiment of the present invention, the pressure holding member includes: the second outer frame and the second inner division bar are arranged in the second outer frame and connected to the opposite side of the second outer frame, so that the avoidance hole is formed in the second outer frame and the second outer frame.

According to an embodiment of the invention, the carrier has a snap structure or a magnetically attractive part for detachable engagement with the main body or the base.

According to the embodiment of the invention, a plurality of the conductive gel sheets are fixedly adhered to the bearing member.

According to the embodiment of the invention, the distance between the adjacent conductive gel sheets is not less than 3 mm.

According to the embodiment of the invention, at least one surface of the conductive gel sheet is provided with a release protective film.

The utility model discloses a massage head, include: a base; the conductive piece is arranged on one side of the base, which faces the neck of the human body; the electrode assembly as set forth in any one of the above, wherein the electrode assembly is disposed on a side of the conductive member facing the neck of the human body, and the plurality of conductive gel sheets are electrically connected to the conductive member.

According to the embodiment of the invention, one side of the conductive piece facing the neck of the human body is provided with a conductive output surface; the number of the base is one, the number of the conductive pieces arranged on the base is one, the conductive pieces are provided with one conductive output surface, and the plurality of conductive gel pieces are attached to the conductive output surface; or the base is one, the conducting piece arranged on the base is one and is provided with a plurality of conducting output faces, and the plurality of conducting gel pieces are respectively attached to the plurality of conducting output faces; or the number of the bases is multiple, the number of the conducting pieces arranged on the bases is one, the conducting pieces are provided with one conducting output surface, and the conducting gel pieces are respectively attached to the conducting output surfaces.

According to the embodiment of the invention, the conductive output surface is a plane or a curved surface, and one side surface of the conductive gel sheet facing the conductive output surface is a plane and is attached to the conductive output surface.

According to the embodiment of the invention, the conductive pieces are conductive pieces which form a plurality of conductive areas, and the conductive areas and the conductive gel pieces are arranged in a one-to-one correspondence manner; or the conductive piece comprises a plurality of metal conductive pieces, and the plurality of metal conductive pieces and the plurality of conductive gel pieces are arranged in a one-to-one correspondence manner.

According to the embodiment of the invention, the conductive piece comprises an insulating base body and a conductive layer arranged on the insulating base body, and the gel sheet is attached to the conductive layer.

According to the embodiment of the invention, the conductive piece further comprises a heating layer, the heating layer and the conductive layer are respectively arranged on two opposite sides of the insulating base body, and the heating layer and the conductive layer are arranged in an insulating manner.

The invention relates to a neck massager, which comprises a main body; the electrode assembly of any preceding claim or the massage head of any preceding claim, the electrode assembly or the massage head being disposed on a side of the body facing a neck of a human being.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is an assembly of a carrier and a conductive gel sheet according to an embodiment of the invention;

FIG. 2 is a schematic view of an assembly body and a holding member according to an embodiment of the present invention, based on FIG. 1;

FIG. 3 is a perspective view of a pressure holding member according to an embodiment of the present invention;

FIG. 4 is an exploded view of a neck massager in accordance with an embodiment of the present invention;

FIG. 5 is an exploded view of a neck massager in accordance with another embodiment of the present invention;

fig. 6 is a perspective view of a neck massager according to another embodiment of the present invention.

Reference numerals:

a neck massager S;

an electrode assembly S1;

a carrier 10; a hollow-out hole 101; a support strip 1011; a carrier body 102; a first outer frame 1021;

first inner spacers 1022; a hand tear portion 103;

a conductive gel sheet 11; a conductive input face 111; an insulating member 12; a main insulator 121; a tip 122;

a pressing member 13; relief holes 130; a magnetic attracting member 131; a clamping structure 132; a second outer frame 133;

a second inner division bar 134; a groove 135;

a massage head S2;

a base 20; a conductive member 21; an electrically conductive output face 210;

body S3.

Detailed Description

Embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being illustrative, and the embodiments of the present invention will be described in detail below.

An electrode assembly S1 according to an embodiment of the present invention is described below with reference to fig. 1 to 6.

As shown in FIG. 1, the electrode assembly S1 is mounted to the massager, and the electrode assembly S1 is mounted to the massager and supported by the main body S3 or the base 20 of the massager. The massage apparatus may be a neck massage apparatus S including a main body S3 with an electrode assembly S1 attached to the main body S3, or a massage apparatus including a main body S3 and a base 20, the base 20 being attached to the main body S3 and the base 20 being raised relative to the main body S3, and the electrode assembly S1 being attached to the base 20. The electrode assembly S1 is fixedly installed by the main body S3 or the base 20, so that the electrode assembly S1 can stably work when contacting with the neck of a human body, and the neck of the human body can be effectively massaged.

As shown in fig. 1, the electrode assembly S1 includes: a carrier 10 and a plurality of conductive gel sheets 11. The carrier 10 is disposed on the side of the main body S3 or the base 20 facing the skin of the human body, and the plurality of conductive gel sheets 11 are disposed on the side of the carrier 10 facing the skin of the human body at intervals to be carried by the carrier 10, and on the side facing the skin of the human body, the surface of the conductive gel sheet 11 is not lower than the surface of the carrier 10, that is, the conductive gel sheet 11 is flush with the surface of the carrier 10, or the conductive gel sheet 11 protrudes from the surface of the carrier 10, so that at least when the massage apparatus is worn and used, the conductive gel sheet 11 can contact with the skin of the neck of the human body.

Further, the carrier 10 is at least partially provided between the conductive gel sheet 11 and the main body S3 or the chassis 20. That is, when the carrier 10 is mounted on the main body S3 or the base 20, the carrier 10 is located between the skin of the person and the main body S3 or the base 20, and a part of the carrier is located between the conductive gel sheet 11 and the main body S3 or the base 20, so that the carrier 10 has the capability of carrying the conductive gel sheet 11, can support the conductive gel sheet 11 to move together, and can reinforce the structure of the conductive gel sheet 11 to prevent the conductive gel sheet 11 from being torn when the conductive gel sheet 11 is directly torn.

In addition, the plurality of conductive gel sheets 11 and/or the carrier 10 are detachably connected to the main body S3 or the base 20, and the carrier 10 can be attached and detached together with the plurality of conductive gel sheets 11. That is, the plurality of conductive gel sheets 11 may be detachably connected with respect to the body S3 or the chassis 20, the carrier 10 may also be detachably connected with respect to the body S3 or the chassis 20, and the plurality of conductive gel sheets 11 and the carrier 10 may be detachably connected with respect to the body S3 or the chassis 20 as a whole.

Wherein the carrier 10 is an insulator to insulate the plurality of conductive gel sheets 11. In this way, the insulated carrier 10 can make the plurality of conductive gel pieces 11 form a plurality of independent separated massage areas, can ensure the massage effect, and can make the adjacent conductive gel pieces 11 insulated from each other, and the carrier 10 can avoid the occurrence of electrical connection between the adjacent conductive gel pieces 11 to cause the massage function failure of the conductive gel pieces 11.

In addition, the insulating bearing member 10 can also allow different conductive gel sheets 11 to access electrodes with different polarities, and when the conductive gel sheets 11 accessing the electrodes with different polarities contact with the skin of a human body, a closed massage current loop can be formed with the human body, on the basis, when the number of the conductive gel sheets 11 is larger than two, the plurality of conductive gel sheets 11 can also form a three-dimensional 3D massage effect, so as to bring good use experience to a user.

Thus, the electrode assembly S1 of the present invention can arrange the plurality of conductive gel sheets 11 on the carrier 10 at intervals by providing the carrier 10, so that the relative positions of the plurality of conductive gel sheets 11 are fixed, and in addition, the conductive gel sheets 11 and/or the carrier 10 are detachably connected to the main body S3 or the base 20 of the massage apparatus, so that when the conductive gel sheets 11 are replaced, there is no need to consider the relative position relationship between the plurality of conductive gel sheets 11, and when the conductive gel sheets 11 are torn by using the carrier 10 to carry the conductive gel sheets 11, the structure of the carrier 10 on the conductive gel sheets 11 is strengthened, and the conductive gel sheets 11 are not torn, so that the replacement of the conductive gel sheets 11 can be more convenient and faster.

In addition, as shown in fig. 1, the carrier 10 is provided with a plurality of hollow holes 101, at least a part of the surface of one side of the plurality of conductive gel sheets 11 away from the skin of the human body corresponds to the hollow holes 101 and is a conductive input surface 111 of the conductive gel sheet 11, and the conductive gel sheet 11 is electrically connected through the conductive input surface 111.

Specifically, the plurality of conductive gel sheets 11 are disposed at the hollow holes 101 of the carrier 10, and one surface of the conductive gel sheet 11 disposed at the hollow holes 101 is a surface contacting with the skin of the human body, and the other surface is a conductive input surface 111 of the conductive gel sheet 11, and after the conductive input surface 111 is connected with electricity, the other surface transmits electrical stimulation to the skin of the human body, thereby achieving an electrical stimulation type massage effect. It can be understood that, by providing the hollow hole 101, there is no need to add a relay connector for electrically connecting the conductive gel sheet 11, and the conductive input surface 111 of the conductive gel sheet 11 can be directly electrically connected to the corresponding conductive component of the massage apparatus, so that the electrode assembly S1 has a simple structure and is convenient to electrically connect.

In addition, the hollow holes 101 may also facilitate the conductive gel sheet 11 to be matched with the corresponding main body S3 or the base 20, and may further improve the installation convenience of the electrode assembly S1. The conductive gel sheet 11 is exposed through the hollow hole 101 to be fixed with the main body S3 or the chassis 20, and the conductive gel sheet 11 can clamp the carrier 10 on the main body S3 or the chassis 20, thereby achieving the fixation of the electrode assembly S1 on the main body S3 or the chassis 20.

It should be noted that the electrode assembly S1 is a consumable, which only needs to replace the carrier 10 and the conductive gel sheet 20 when replacing, and the carrier 10 can support the conductive gel sheet 11 to be mounted on the main body S3 or the base 20, which enhances the structure of the conductive gel sheet 11 and effectively prevents the conductive gel sheet 11 from being torn by directly tearing the conductive gel sheet 11 when detaching the conductive gel sheet 11. The conductive gel sheet 11 exposed from the through hole 101 of the carrier 10 can be directly adhered to the base 20 or the main body S3, and is adhered to form a connection and an electrical connection.

In addition, the conductive gel sheet 11 is a soft, skin-friendly and soft electric conductor, and can generate moisture during use, effectively adhere to the skin, and further effectively solve the problem of stabbing pain caused by electrical stimulation.

In the embodiment of the present invention, the electrode assembly S1 further includes a release protective film (not shown) coated on at least one surface, for example, two opposite surfaces, of the conductive gel sheet 11. The release type protective film may protect the conductive gel sheet 11, and when the electrode assembly S1 needs to be mounted on a massage apparatus for use, a user may peel the release type protective film from the conductive gel sheet 11, attach the conductive gel sheet 11 to the massage apparatus, and fix the carrier 10 together on the massage apparatus. It is understood that the release protective film may be a plastic sheet, and may not have an adhesive property by itself, and is attached to the conductive gel sheet by the adhesive property of the conductive gel sheet 11 itself to protect it, and the release protective film needs to be peeled off when the electrode assembly S1 is used.

Specifically, in order to ensure positional reliability of the conductive gel sheet 11 on the carrier 10, it is ensured that the conductive gel sheet 11 can move along with the carrier 10. The support structure is disposed in the hollow hole 101, and the support structure can support the conductive gel sheet 11, which can effectively prevent the conductive gel sheet 11 from being separated from the carrier 10 due to being adhered to the main body S3 or the base 20.

As shown in fig. 1, the supporting structure may be a supporting strip 1011, at least one supporting strip 1011 is disposed in the hollow hole 101, two ends of the supporting strip 1011 are connected to the opposite sides of the hollow hole 101, and the supporting strip 1011 is supported on the side of the conductive gel sheet 11 departing from the skin of the human body.

There are various arrangements of the support bars 1011, which will be described in turn below.

Alternatively, as shown in fig. 1, a support strip 1011 is disposed in the hollow hole 101, the support strip 1011 makes the hollow hole 101 form a hollow hole 101 shaped like a Chinese character ri, the support strip 1011 can effectively support the conductive gel sheet 11, and can allow the conductive input surface 111 of the conductive gel sheet 11 to contact with the corresponding conductive component from the periphery of the support strip 1011, so as to further improve the bearing effect of the bearing member 10 on the conductive gel sheet 11, and ensure the electrifying effect of the conductive gel sheet 11.

Specifically, as shown in fig. 1, the length direction of the supporting strip 1011 is the same as the length direction of the bearing member 10, one supporting strip 1011 is correspondingly disposed in the hollow hole 101, and the supporting strip 1011 is distributed in the middle of the hollow hole 101 in the width direction. Since the supporting member 10 is bent in the length direction to adapt to users with different neck sizes, the supporting strip 1011 is disposed in the length direction of the supporting member 10 and located in the middle of the hollow hole 101, so as to facilitate the deformation of the supporting member 10, and also to leave enough space for the conductive gel sheet 11 to make conductive contact.

Alternatively, the hollow hole 101 is correspondingly provided with a plurality of support bars 1011, and the extending directions of the plurality of support bars 1011 are parallel to each other. By providing a plurality of parallel support bars 1011, the carrying capacity of the carrier 10 for the conductive gel sheet 11 can be further improved, and a space for the conductive input surface 111 to pass through can be left between two adjacent support bars 1011.

Still alternatively, the hollow hole 101 is correspondingly provided with a plurality of support bars 1011, the extending directions of the support bars 1011 are different, and the support bars 1011 are arranged in the hollow hole 101 in a crossing manner. By arranging the plurality of support bars 1011, the carrying capacity of the carrying member 10 to the conductive gel sheet 11 can be further improved, and the structural strength of the carrying member 10 can be improved by arranging the plurality of support bars 1011 in a crossed manner. In addition, spaces are left between the support bars 1011 arranged crosswise, so that the conductive input surface 111 of the conductive gel sheet 11 can be conveniently connected with electricity.

Specifically, as shown in fig. 4, the conductive input face 111 of the conductive gel sheet 11 is bonded to the main body S3 or the base 20 of the massager, and the carrier 10 is sandwiched between the conductive gel sheet 11 and the main body S3 or the base 20. That is, the surface of the body S3 or the base 20 for bonding the conductive gel sheet 11 is the conductive output surface 210, and is bonded to the gel sheet 11 to form an electrical connection, the conductive output surface 210 may be the surface of the body S3 or the conductive member 21 of the base 20 facing the neck, or may be another conductive structure provided on the body S3 or the base 20, and the conductive input surface 111 of the conductive gel sheet 11 may be partially bonded to the body S3 or the base 20, and the other portion is bonded to the conductive output surface 210, or may be bonded to the conductive output surface 210 entirely to form an indirect bonding fixation with the body S3 or the base 20.

The first embodiment of the present invention is described in detail below.

As shown in fig. 1 and 2, the carrier 10 may be a plastic sheet, and the thickness of the carrier 10 is 0.1mm to 0.5 mm. When the carrier 10 is a plastic piece, the carrier 10 is sandwiched between the conductive gel sheet 11 and the conductive parts. Because the plastic piece is light in weight and thin in thickness, the gel sheet cannot be pulled by the gravity of the bearing piece 10, namely the adhesion between the conductive gel sheet 11 and the conductive part cannot be influenced. In addition, the plastic piece can be a PET film (high temperature polyester film), the thickness of the plastic piece can be 0.1-0.5mm, the conductive gel sheet 11 is directly attached to the bearing piece 10 corresponding to the hollow hole 101 on the bearing piece 10, and the conductive gel sheet 11 sinks to the thickness of the plastic piece through deformation and is attached to the attachment surface. The PET film has excellent mechanical performance, light weight and good toughness.

As shown in fig. 1 and 2, the carrier 10 includes: the first outer frame 1021 and the first inner spacer 1022 are disposed inside the first outer frame 1021, and the first inner spacer 1022 is connected to an opposite side of the first outer frame 1021, so as to form a hollow hole 101 with the first outer frame inside the first outer frame 1021. Specifically, the first outer frame 1021 is oval, and two ends of the first inner partition bars 1022 are respectively connected with two long arc edges of the oval first outer frame 1021, so that the first inner partition bars 1022 divide the first outer frame 1021 into a plurality of hollow holes 101 for placing the plurality of conductive gel sheets 11. In addition, two ends of the support bar 1011 are connected to opposite sides of the first outer frame 1021, or two ends of the support bar 1011 are respectively connected between the first inner partition bar 1022 and the first outer frame 1021.

As shown in fig. 4 to 6, the number of the conductive gel sheets 11 is at least two, for example, the number of the conductive gel sheets 11 may be 2, 3, 4, 6. The provision of the plurality of conductive gel sheets 11 can improve the massage effect. In addition, when the plurality of conductive gel sheets 11 are all disposed on the carrier 10, the carrier 10 also has the function of ensuring the relative positions of the plurality of conductive gel sheets 11, so that the abnormal conduction of the adjacent conductive gel sheets 11 due to improper adhesion can be effectively prevented, and the reliability of the use of the electrode assembly S1 can be further ensured.

In this embodiment, the carrier 10 is clamped and fixed on the main body S3 or the base 20 by the adhesion between the conductive gel sheet 11 and the conductive member 21.

The second embodiment of the present invention is described in detail below.

When the supporting member 10 is a frame-shaped member, such as a soft rubber frame or a hard rubber frame, the structure thereof may also include: the first outer frame 1021 and the first inner parting strip 1022 are different from the structure of the carrier 10 described in the first embodiment: in this embodiment, a connection structure to be mounted with the base 20 or the main body S3 may be provided on the carrier 10.

With respect to the second embodiment described above, there are various ways in which the carrier 10 is mounted to the main body S3 or the base 20, which will be described in detail below.

Alternatively, the outer edge of the first outer frame 1021 is provided with a clamping structure for clamping with the main body S3 or the base 20. This allows the carrier 10 to be detachably mounted on the main body S3 or the base 20, and the clamping structure further allows the connection between the carrier 10 and the main body S3 or the base 20 to be more reliable, and when the conductive gel sheet 11 needs to be replaced, the carrier 10 with the conductive gel sheet 11 mounted thereon can be easily separated from the main body S3 or the base 20 by the clamping structure, and then the conductive gel sheet 11 can be replaced on the carrier 10, which is easier.

More specifically, the clamping structure is a plurality of clamping structures, and the plurality of clamping structures are distributed on at least opposite sides of the first outer frame 1021 in the length direction. For example, two or more clamping structures may be respectively disposed on opposite sides of the first outer frame 1021 in the length direction, and by providing a plurality of clamping structures, the connection stability of the first outer frame 1021 and the main body S3 or the base 20 of the carrier 10 may be further improved.

Alternatively, the first outer frame 1021 and/or the first inner spacer 1022 are provided with magnetically attractive members. That is to say, magnetic parts may be disposed on both the first outer frame 1021 and the first inner spacer 1022, the magnetic part may be disposed on the first outer frame 1021, the magnetic part may be disposed on the first inner spacer 1022, the mounting stability of the carrier 10 and the main body S3 or the base 20 may be further improved by the magnetic part, in addition, the connection relationship between the carrier 10 and the main body S3 or the base 20 connected by the magnetic part is easy to release, and the magnetic part may be disposed simply and conveniently, for example, a metal part may be disposed on the main body S3 or the base 20, a magnet may be disposed on the carrier 10, and magnets with opposite magnetism may be disposed on the carrier 10 and the main body S3 or the base 20.

Specifically, the number of the first inner spacers 1022 is multiple, in the length direction of the first outer frame 1021, the number of the magnetic attraction components corresponding to the first inner spacer 1022 located in the middle is greater than the number of the magnetic attraction components corresponding to the first inner spacers 1022 located at both sides, for example, two magnetic components are disposed on the first inner spacer 1022 located in the middle, and one magnetic component is disposed on each of the other first inner spacers 1022. It is understood that by disposing some magnetic components in the middle, the magnetic attraction strength between the carrier 10 and the corresponding main body S3 or the base 20 can be enhanced, and the reliability of the carrier 10 can be improved.

Alternatively, each first inner spacer 1022 may have the same number of magnetically attracting components. For example, one or two magnetic members are disposed on each first inner parting strip 1022, so as to ensure that the bearing member 10 is uniformly stressed and is prevented from being separated from the main body S3 or the base 20 due to nonuniform stress.

In detail, the first outer frame 1021 and/or the first inner spacer 1022 are formed with a first embedding groove, and the magnetic attraction part is embedded in the first embedding groove. Through setting up first inlay and establish the groove, can provide installation space for the installation of magnetic part.

The first outer frame 1021, the first inner partition 1022 and the support bar 1011 are integrally formed soft rubber frames or hard rubber frames. Set up first outline 1021, first interior parting bead 1022 and support bar 1011 into integrated into one piece, can be convenient for process, reduce manufacturing procedure, reduction in production cost sets up integrated into one piece moreover into soft gluey frame or ebonite frame, can make and bear thing 10 to have good ground elasticity performance to install with main part S3 or base 20. Further, the hard rubber frame has higher structural strength in the stretching direction, and is not easily deformed by stretching, so that a separating force is not generated between the hard rubber frame and the conductive gel sheet 11.

As shown in fig. 2, the conductive gel sheet 11 covers the corresponding hollow hole 101, and a part of the outer edge of the conductive gel sheet 11 is flush with a part of the outer edge of the first outer frame 1021. Therefore, the contact area between the conductive gel sheet 11 and the neck skin of the human body can be increased, the contact area between the conductive gel sheet 11 and the first outer frame 1021 can be increased, the position reliability of the conductive gel sheet 11 can be ensured, and the conductive gel sheet 11 can not move in the hollow hole 101. Of course, a certain gap may be left between a part of the outer edge of the conductive gel sheet 11 and a part of the outer edge of the first outer frame 1021, and the gap may be between 0-3 mm.

In the first and second embodiments, the carrier 10 may be an elastic member or a flexible member, and the carrier 10 and the conductive gel sheet 11 can be deformed together to enable the electrode assembly S1 to be stretched into a straight shape. Wherein, be straight form before electrically conductive gel piece 11 is attached, can be convenient for accomodate, transportation and save, can also enlarge electrically conductive gel piece 11 and user neck skin area of contact on the electrode subassembly S1, thereby can improve massage effect, in addition, when carrying thing 10 for elastic component or flexible piece, the elastic component has the ability of flexible deformation, when massager S wears the different user necks of neck size, it can take place deformation to carry thing 10 according to the pressure that the user neck held thing 10 to carry thing 10 to make and carry thing 10 and user neck directly keep certain elastic force, and can not drop from the user neck.

In the first embodiment of the present invention, as shown in fig. 1, the carrier 10 includes a carrier body 102 and a hand-tearing portion 103, the carrier body 102 is formed with a hollow hole 101, the conductive gel sheet 11 is disposed on the carrier body 102, and the hand-tearing portion 103 is at least one and disposed at an edge of the carrier body 102. When the electrode assembly S1 is mounted on the chassis 20, the hand tear portion 103 protrudes relative to the edge of the chassis 20, thereby providing a point of application for the user who tears off the carrier 10 together with the conductive gel sheet 11 from the hand tear portion 103. Furthermore, the conductive gel sheet 11 and the carrier 10 are discarded and replaced together, so that the replacement cost of the conductive gel sheet 11 can be reduced as much as possible, and the electrode assembly S1 can be used in combination with the existing neck massage apparatus S having electrodes without changing the use state of the neck massage apparatus S, so that the other electrodes of the neck massage apparatus S can be used directly after the carrier 10 is torn off. Wherein the carrier body 102 may include the first outer frame 1021 and at least one first inner spacer 1022 described above.

In more detail, as shown in fig. 5, there are two tear portions 103, and the two tear portions 103 are distributed at two ends of the length direction of the carrier body 102 and at the midpoint of the width direction. This ensures that the user has the optimum point of action of the force when acting on the hand tear portion 103, so that the carrier 10 and the conductive gel sheet 11 can be torn off together from the massage head S2 with a small amount of force. Moreover, two hand tear portions 103 that so set up can correspond in the length direction who bears the weight of 10 with support bar 1011, can improve the structural strength who bears the weight of 10 at hand tear portion 103 and bear the weight of the main part 102 junction like this, can avoid appearing the cracked problem of hand tear portion 103, and the user can tear off bearing the weight of 10 through one hand tear portion 103.

In an embodiment of the present invention, as shown in fig. 6, the electrode assembly S1 further includes: and the insulating piece 12 is arranged on one surface of the carrier 10 provided with the conductive gel sheets 11, the insulating piece 12 is arranged between two adjacent conductive gel sheets 11, and the insulating piece 12 is used for preventing the adjacent conductive gel sheets 11 from contacting. The thickness of the conductive gel sheets 11 can be 0.7-2mm, the gap between adjacent conductive gel sheets 11 is 3-10mm, for example, 5mm, and the arrangement of the gap can effectively prevent the adjacent conductive gel sheets 11 from contacting to form electrical connection due to extrusion deformation of the conductive gel sheets 11, so that the function of EMS (muscle electrical stimulation technology) fails.

The insulating member 12 is attached to the carrier 10, and the insulating member 12 is located at one side of the neck of the user, one or more insulating members 12 are disposed between two adjacent conductive gel sheets 11, and the insulating member 12 separates and insulates the two conductive gel sheets 11 to prevent the adjacent conductive gel sheets 11 from making contact, so that the conductive gel sheets 11 cannot discharge electricity, and thus the failure rate of the electrode assembly S1 can be reduced. The length of the insulating member 12 in the length direction of the carrier 10 is less than or equal to 5mm, for example, the length of the insulating member 12 in the length direction may be 5 mm.

Alternatively, the insulator 12 is connected to the carrier 10 and carried by the carrier 10. For example, the insulator 12 may be a soft insulating gel, which has an insulating effect without affecting the flexibility of the electrode assembly S1, and thus may be deformed as a whole with the electrode assembly S1. And when the insulating soft glue is contacted with the neck skin of the user, the foreign body feeling felt by the user is lower, and the use experience of the user can be further improved.

Alternatively, the insulating member 12 is a rib integrally formed on the bearing main body 102, that is, the insulating member 12 may also be a rib integrally formed on the bearing member 10, which protrudes from the surface of the bearing member 10, and the rib effectively spaces the conductive gel sheets 11 to prevent the adjacent conductive gel sheets 11 from conducting abnormally. The integral molding can simplify the structure of the bearing main body 102, facilitate the processing, and reduce the production cost. Moreover, due to the arrangement of the convex ribs, the assembling process can be omitted, and the separation effect can be ensured. Wherein, a groove 135 for accommodating at least a portion of the conductive gel sheet 11 can be formed between adjacent first outer frames 1021, so as to further improve the reliability of the conductive gel sheet 11 attached to the carrier 10.

In the embodiment of the present invention, as shown in fig. 6, the surface of the insulating member 12 facing the skin of the human body does not exceed the surface of the conductive gel sheet 11 facing the skin of the human body in the direction facing the skin of the human body. Therefore, when the conductive gel sheet 11 is in contact with the skin of a human body, no foreign body feeling is generated, and good use experience is brought to a user.

Specifically, as shown in fig. 6, since both ends of the conductive gel sheet 11 facing one side edge of the insulating member 12 are rounded, since the conductive gel sheet 11 is pressed by the insulating member 12 during use, the degree of deformation of the conductive gel sheet 11 due to the pressing can be reduced by rounding both ends of the conductive gel sheet 11 facing one side edge of the insulating member 12.

In addition, because the outer periphery of the conductive gel sheet 11 is arc-shaped, two adjacent conductive gel sheets 11 can not be contacted, and the sheet damage caused by extrusion of the insulating member 12 to the conductive gel sheet 11 can be avoided.

In detail, as shown in fig. 6, the insulating member 12 includes: the main insulator 121 and the end 122, the both ends of the main insulator 121 are connected with the end 122 respectively, the surface of the end 122 towards the conductive gel pieces 11 on both sides sets up to the arc shape to with the fillet cooperation, two adjacent conductive gel pieces 11 that can make like this can not take place the contact, can also avoid the insulating part 12 to lead conductive gel piece 11 to cause the piece damage because of the extrusion.

Further, the insulating member 12 may also be constructed in a straight stripe structure having the same width between the conductive gel sheets 11. That is, the distance between two adjacent conductive gel sheets 11 is equal to the length of the insulating member 12 in the length direction of the carrier 10, which can better limit the contact between the two conductive gel sheets 11.

More specifically, as shown in fig. 2 and 3, the electrode assembly S1 further includes a pressing member 13, the pressing member 13 is disposed on a side of the carrier 10 facing the neck of the human body and detachably mounted to the main body S3 or the base 20 for pressing the carrier 10 against the main body S3 or the base 20, the pressing member 13 is provided with an escape hole 130, and the escape hole 130 is used for escaping the plurality of conductive gel sheets 11 to expose the plurality of conductive gel sheets 11 from the pressing member 13. The pressure holding member 13 has a part that presses and holds the state of the pressed piece. By providing the pressure holding member 13, the conductive gel sheet 11 can be more firmly fixed on the carrying main body 102, and the user can be prevented from separating the carrying member 10 from the main body S3 or the base 20 during use. It can be understood that when the conductive gel sheet 11 is in contact with the skin of the neck of the user, the adhesive conductive gel sheet 11 can be better adhered to the skin of the neck of the user, which is not favorable for the separation of the conductive gel sheet and the skin of the neck of the user to some extent, but the pressure holding member 13 can effectively avoid the separation.

In detail, as shown in fig. 3, the pressure holding member 13 includes: a second outer frame 133 and a second inner division bar 134, the second inner division bar 134 is disposed in the second outer frame and connected to opposite sides of the second outer frame 133 to form the avoiding hole 130 with the second outer frame 133 in the second outer frame 133. Specifically, the second outer frame 133 is oval, and two ends of the second inner spacers 134 are connected to two long arc edges of the oval first outer frame, so that the second outer frame is divided into the plurality of avoiding holes 130 by the two inner spacers, so that the plurality of conductive gel sheets 11 can be exposed from the inside of the avoiding holes 130 to one side of the skin of the human body, and the purpose of contacting with the skin of the human body is achieved.

In more detail, as shown in fig. 3, the outer edge of the second outer frame 133 extends outwards beyond the outer edge of the carrier 10 and is provided with a snap structure 132. This allows the holder 13 to completely cover the carrier 10, and the latch 132 is detachably mounted to the main body S3 or the base 20, so as to further enhance the connection between the electrode assembly S1 and the main body S3 or the base 20.

Specifically, as shown in fig. 4, the clamping structure 132 is multiple, and the multiple clamping structures 132 are distributed at least on opposite sides of the second outer frame 133 in the length direction. For example, two or more clamping structures 132 may be respectively disposed on opposite sides of the second outer frame 133 in the length direction, and by disposing a plurality of clamping structures 132, the connection stability between the second outer frame 133 of the pressing member 13 and the main body S3 or the base 20 may be further improved.

In addition, as shown in fig. 4, the second outer frame 133 and/or the second inner division bar 134 are provided with a magnetic attraction member 131. That is to say, the magnetic attraction component 131 may be disposed on both the second outer frame 133 and the second inner division bar 134, the magnetic attraction component 131 may be disposed on the second outer frame 133, the magnetic attraction component 131 may be disposed on the second inner division bar 134, the mounting stability of the pressing member 13 and the main body S3 or the base 20 may be further improved by disposing the magnetic attraction component 131, in addition, the connection relationship between the bearing member 10 and the main body S3 or the base 20 connected by the magnetic component is easy to release, and the magnetic component may be disposed simply and conveniently, for example, a metal member may be disposed on the main body S3 or the base 20, a magnet may be disposed on the pressing member 13, and a magnet with opposite magnetism may be disposed on the pressing member 13, the main body S3 or the base 20.

As shown in fig. 4, the number of the second inner division bars 134 is multiple, and in the length direction of the second outer frame 133, the number of the magnetic parts 131 corresponding to the second inner division bar 134 in the middle is greater than the number of the magnetic parts 131 corresponding to the second inner division bars 134 at both sides, or the number of the magnetic parts 131 provided in each second inner division bar 134 is the same. For example, two magnetic members may be disposed on the second inner division bar 134 located in the middle, one magnetic member may be disposed on each of the other second inner division bars 134, and one or two magnetic members may be disposed on each of the second inner division bars 134. This ensures that the pressure holding member 13 is uniformly stressed, and prevents the pressure holding member 13 from being separated from the main body S3 or the base 20 due to non-uniform stress.

In detail, the second outer frame 133 and/or the second inner division bar 134 are formed with a second insertion groove, and the magnetic member 131 is inserted into the second insertion groove. Through setting up the second and inlaying the groove, can provide installation space for magnetic part's installation, can guarantee moreover that magnetism inhale one side of part 131 towards human skin and do not exceed the height of electrically conductive gel piece 11 towards human skin one side.

The holddown 13 may have a variety of removable engagement means. For example, the pressing member 13 can be connected to the base 20 through the engaging structure 132, and for example, the pressing member 13 can be connected to the base 20 through the magnetic member 131, and for example, the pressing member 13 can also be connected to the base 20 through the magnetic member 131 and the engaging structure 132. The clamping structure 132 can be a buckle, for example, two ends of the pressing member 13 are provided with buckles, the magnetic attraction component 131 can be a magnet, or an iron sheet or an iron block, for example, a plurality of magnetic attraction components 131 are provided between adjacent conductive gel sheets 11. The fixing reliability of the pressing and holding piece 13 on the main body S3 or the base 20 can be improved and the detachment thereof can be facilitated by the arrangement of the clamping structure 132 and/or the magnetic attraction part 131.

As shown in fig. 4, at both ends of the holder 13, there are further provided grooves 135, the grooves 135 being adapted to be engaged with the base 20 or the body S3, and the base 20 may be correspondingly provided with protrusions, so that the snap-engagement of the holder 13 with the base 20 or S3 can be facilitated, and the reliability of the electrode assembly S1 can be improved.

In addition, the holding member 13 is a hard rubber frame having elastic deformability. This allows, on the one hand, the pressure holding member 13 to be deformed together with the carrier member 10, so that the electrode assembly S1 can be well fitted to the neck of the user. And the elastic hard rubber frame has better contact feeling with the neck skin of the user.

As shown in fig. 1 and 2, a plurality of conductive gel sheets 11 are adhesively fixed to the carrier 10. The conductive gel sheets 11 are connected with the carrier 10 by adhesion, and have relatively fixed positions on the carrier 10, and the positions of the plurality of conductive gel sheets 11 are relatively kept unchanged. The connection of the conductive gel sheet 11 to the carrier 10 may be adhered to the carrier 10 by means of adhesive force to the conductive gel sheet 11 itself. The adhesion between the conductive gel sheet 11 and the carrier 10 is greater than the adhesion between the conductive gel sheet 11 and the human body, so that the conductive gel sheet 11 can be prevented from being detached from the carrier 10 due to the excessive adhesion between the conductive gel sheet 11 and the neck of the user. In addition, the adhesion force between the conductive gel sheet 11 and the carrier 10 is greater than the adhesion force between the conductive gel sheet 11 and the conductive output surface 210, so that the conductive gel sheet 11 can be easily separated from the conductive sheet when the electrode assembly S1 is replaced, thereby improving the user experience.

As shown in fig. 4 and 5, the massage head S2 further includes: a base 20 and conductive members 21, the conductive members 21 being disposed at a side of the base 20 facing the neck of the human body, an electrode assembly S1 being disposed at a side of the base 20 facing the neck of the human body, a carrier 10 and/or a conductive gel sheet 11 being detachably mounted to the base 20, and the conductive gel sheet 11 being electrically connected to the conductive members 21. That is, the carrier 10 may be detachably mounted to the base 20, the conductive gel sheet 11 may be detachably mounted to the base 20, and the carrier 10 and the conductive gel sheet 11 may be integrated and the integrated body may be detachably mounted to the base 20. Wherein, the conductive device 21 can be an EMS (electro-muscle stimulation technology) output device, when the electrode assembly S1 is connected to the base 20 or the body S3, each conductive gel piece 11 is partially adhered to the conductive device 21 from the hollow hole 101, and the conductive gel piece 11 is electrically connected to the conductive device 21, and the supporting member 10 is clamped and fixed to the base 20 or the body S3 by the adhesion between the conductive gel piece 11 and the conductive device 21, so that the current on the conductive device 21 can flow to the conductive gel piece 11, and the conductive gel piece 11 is in contact with the neck of the user, so that the pulse current can stimulate the neck of the user, thereby achieving the massage effect.

Specifically, the conductive member 21 is a conductive sheet that forms a plurality of conductive regions, which are disposed in one-to-one correspondence with the plurality of conductive gel sheets 11, or the conductive member 21 includes a plurality of metal conductive sheets, which are disposed in one-to-one correspondence with the plurality of conductive gel sheets 11. By providing the conductive members 21 as a plurality of conductive regions corresponding to the plurality of conductive gel pieces 11, the area of the conductive regions provided on the conductive members 11 can be reduced, so that the production cost of providing the conductive regions can be reduced. In addition, the conductive metal has good conductivity, and the conductive element 21 is composed of a plurality of conductive metal sheets, so that the loss of electric energy in the process of transmitting on the conductive element 21 can be reduced.

More specifically, as shown in fig. 1, the conductive member 21 has a conductive output surface 210 on a side facing the neck of the human body. The conductive output surface 210 is disposed on the side facing the neck of the human body, so that the conductive gel sheet 11 and the electrode member can be electrified by direct contact.

Electrode assembly S1 includes a plurality of conductive gel sheets 11, base 20 in relation to conductive output face 210:

in an alternative embodiment, the base 20 is one, the conductive member 21 disposed on the base 20 is one and has a conductive output surface 210, and the plurality of conductive gel sheets 11 are attached to the conductive output surface 210. The base 20 and the conductive member 21 are provided in one, and the electrode assembly S1 thus provided is structurally stable. A plurality of conductive gel sheets 11 corresponding to one conductive output surface 210 can increase the effective contact area of the conductive gel sheets 11 with the conductive output surface 210.

In another alternative embodiment, there is one base 20, one conductive member 21 disposed on the base 20 has a plurality of conductive output surfaces 210, and the plurality of conductive gel sheets 11 are respectively attached to the plurality of conductive output surfaces 210. The base 20 and the conductive member 21 are provided in one, and the electrode assembly S1 thus provided is structurally stable. The plurality of conductive gel sheets 11 corresponding to the plurality of conductive output faces 210 can make the contact of the conductive gel sheets 11 with the electrode members more stable.

In another alternative embodiment, there is one base 20, one conductive member 21 disposed on the base 20 and having a conductive output surface 210, and the plurality of conductive gel sheets 11 are respectively attached to the plurality of conductive output surfaces 210. Providing a plurality of bases 20, a conductive member 21 and a conductive output face 210 reduces the weight of the bases 20, making the electrode assembly S1 lighter.

Specifically, the conductive output surface 210 is a plane or a curved surface, and a surface of the conductive gel sheet 11 facing the conductive output surface 210 is a plane and is attached to the conductive output surface 210. That is, the conductive output surface 210 of the conductive member 21 may be a plane or a curved surface, and the surface of the conductive adhesive member attached to the conductive output surface 210 may be a plane, for example, when the conductive output surface 210 of the conductive member 21 is a plane, the surface of the conductive adhesive member attached to the conductive output surface 210 may be a plane, so that the two planes contact more stably, and the contact area is the largest. For example, when the conductive output surface 210 of the conductive member 21 is a curved surface, the surface of the conductive adhesive member that is attached to the conductive output surface 210 can be a flat surface, so that the contact is more stable and the contact area is the largest.

In the embodiment of the present invention, the conductive member 21 is a metal conductive sheet or a conductive film. The conductive member 21 may be formed of a plurality of conductive metal sheets, and the user may directly detach the electrode assembly S1 from the base 20 through the hand-tearing portion 103 to directly attach the conductive member 21 to the neck of the user. Thereby increasing the use interest of the user. In addition, the conductive film is low in production cost and low in price.

Specifically, the conductive member 21 includes an insulating base and a conductive layer provided on the insulating base, and the conductive gel sheet 11 is attached to the conductive layer. It is understood that an insulating substrate is provided on the conductive member 21 for cooperating with the base 20 or the main body S3 so that the conductive member 21 can be stably fixed on the main body S3 or the base 20, i.e., a conductive layer opposite to the insulating substrate, which can transfer the current on the conductive member 21 to the conductive gel sheet 11 attached thereto, so that the current on the conductive member 21 can be transferred to the outside through the conductive layer.

More specifically, the conductive member 21 further includes a heat generating layer, the heat generating layer and the conductive layer are respectively disposed on two opposite sides of the insulating base, and the heat generating layer and the conductive layer are arranged in an insulating manner. That is to say, the layer setting that generates heat can heat conductive gel piece 11 through the layer that generates heat that sets up between insulating base member and conducting layer, can promote conductive gel piece 11 like this and produce the aqueous vapor when using to can make conductive gel piece 11 can form laminating more effectively with skin, the conductive gel piece 11 of being heated simultaneously, with user's skin contact, can bring better use for the user and experience.

In one embodiment of the present invention, as shown in fig. 4, the neck massager S includes a main body S3, a base 20, a conductive member 21, and an electrode assembly S1. Wherein the electrode assembly S1 has the carrier 10 of the first embodiment described above, and comprises four conductive gel sheets 11. In this embodiment, the user can detach the carrier 10 together with the conductive gel sheet 11 by the hand-tearing portion 103 to replace the electrode assembly S1, which is simple and easy to operate.

In another embodiment of the present invention, as shown in fig. 5, the base 20 of the neck massager S may be integrally formed with the main body S3, and the conductive member 21 may be mounted on the base 20, wherein the electrode assembly S1 has the carrier 10 of the first embodiment described above, and includes four conductive gel sheets 11. The carrier 10 is provided with two hollow holes 101, the conductive gel sheets 11 are two sheets, and can be respectively installed in the two hollow holes 101 on the carrier 10, and the carrier 10 thus provided comprises a plurality of conductive gel sheets 11, so that the electrode assembly S1 can be more sufficiently contacted with the neck skin of the user, and the massage effect is better.

In another embodiment of the present invention, as shown in fig. 6, in the neck massager S of the present embodiment, a space for placing two conductive gel sheets 11 may be provided on the carrier 10, and an insulating member 12 may be provided between two adjacent conductive gel sheets 11, so as to avoid contact between the two conductive gel sheets 11 and failure of the function of the conductive gel sheets 11, thereby ensuring the normal operation of the neck massager S.

The neck massage apparatus S of the present invention includes the above-mentioned electrode assembly S1 or massage head S2. The electrode assembly S1 or the massage head S2 is arranged on the main body S3, and the neck massage instrument S with the electrode assembly S1 or the massage head has better massage effect, lighter weight and more compact structure.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features. In the description of the present invention, "a plurality" means two or more. In the description of the present invention, the first feature being "on" or "under" the second feature may include the first and second features being in direct contact, and may also include the first and second features being in contact with each other not directly but through another feature therebetween. In the description of the invention, "above", "over" and "above" a first feature in a second feature includes the first feature being directly above and obliquely above the second feature, or simply means that the first feature is higher in level than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (27)

1. An electrode assembly for mounting to a massage apparatus and carried by a body or base of the massage apparatus, the electrode assembly comprising:

the bearing piece is arranged on one side, facing the skin of the human body, of the main body or the base;

the conductive gel sheets are arranged on one side, facing the skin of the human body, of the bearing piece at intervals so as to be borne by the bearing piece, and the surface of each conductive gel sheet is not lower than that of the bearing piece on the side, facing the skin of the human body, of the bearing piece, wherein the conductive gel sheets and/or the bearing piece are detachably connected with the main body or the base, and the bearing piece can bear the conductive gel sheets to be dismounted together;

wherein the carrier is an insulator to insulate the plurality of conductive gel sheets.

2. The electrode assembly of claim 1, wherein the carrier has a plurality of holes, each of the conductive gel sheets has a corresponding hole, such that at least a portion of a surface of the conductive gel sheet facing the hole is a conductive input surface, and the conductive gel sheet is electrically connected to the conductive input surface.

3. The electrode assembly of claim 2, wherein at least one support bar is disposed in the hollow hole, and both ends of the support bar are connected to opposite sides of the hollow hole, and the support bar is supported on a side of the conductive gel sheet facing away from the skin of the human body.

4. The electrode assembly of claim 3, wherein the length direction of the supporting bars is the same as the length direction of the bearing member, one supporting bar is correspondingly arranged in each hollow hole, and the supporting bars are distributed in the middle of the width direction of the hollow holes.

5. The electrode assembly of claim 2, wherein the carrier comprises: the first outer frame and the first inner division bar are arranged in the first outer frame and connected to the opposite sides of the first outer frame, so that the hollow holes are formed in the first outer frame and the first outer frame.

6. The electrode assembly of claim 2, wherein the conductive input face of the sheet of conductive gel is bonded to the body or base of the massager and the carrier is sandwiched between the sheet of conductive gel and the body or base.

7. The electrode assembly of claim 1, wherein the carrier is a plastic sheet and the carrier has a thickness of 0.1mm to 0.5 mm.

8. The electrode assembly of claim 1, wherein the carrier is an elastic member or a flexible member, and the carrier is deformable together with the conductive gel sheet to enable the electrode assembly to be stretched in a straight shape.

9. The electrode assembly of claim 1, wherein the carrier comprises a carrier body on which the plurality of conductive gel sheets are disposed at intervals, and a hand-tear portion that is at least one and is disposed at an edge of the carrier body.

10. The electrode assembly of claim 9, wherein the number of the hand tears is two, and the two hand tears are distributed at two ends of the length direction of the carrier body and at the midpoint of the width direction.

11. The electrode assembly of claim 1, further comprising: the insulating part is arranged on one surface of the bearing piece, which is provided with the conductive gel sheets, and the insulating part is arranged between every two adjacent conductive gel sheets and is used for blocking the contact of the adjacent conductive gel sheets.

12. The electrode assembly of claim 11, wherein the insulator is connected to and carried by the carrier; or

The insulating part is a convex rib which is integrally formed on the bearing part.

13. The electrode assembly of claim 11, wherein both ends of the conductive gel sheet toward one side edge of the insulating sheet are rounded;

the insulating member includes: the two ends of the main insulator are respectively connected with the end heads, and the surfaces of the end heads facing the conductive gel sheets on the two sides are arranged into arc shapes so as to be matched with the round corners; or

The insulating member is constructed in a straight strip structure having the same width between the conductive gel sheets.

14. The electrode assembly of claim 1, further comprising: the pressure is held, the pressure hold set up in hold the one side of holding the piece orientation human neck and detachably install in the main part or the base, in order to be used for with hold the piece pressure and hold the main part or the base, the pressure is held and is provided with and dodges the hole, it is used for dodging to dodge the hole a plurality of electrically conductive gel pieces, so that a plurality of electrically conductive gel pieces certainly expose in the pressure holds the piece.

15. The electrode assembly of claim 14, wherein the pressure holding member has a snap structure or a magnetically attractive member for detachable engagement with the main body or base.

16. The electrode assembly of claim 14, wherein the pressure holder comprises: the second outer frame and the second inner division bar are arranged in the second outer frame and connected to the opposite side of the second outer frame, so that the avoidance hole is formed in the second outer frame and the second outer frame.

17. The electrode assembly of claim 1, wherein the carrier has a snap-fit structure or magnetically attractive feature for removably mating with the body or base.

18. The electrode assembly of claim 1, wherein a plurality of said conductive gel sheets are adhesively secured to said carrier.

19. The electrode assembly of claim 1, wherein the spacing between adjacent sheets of conductive gel is no less than 3 mm.

20. The electrode assembly of claim 1, wherein at least one surface of the conductive gel sheet is provided with a release protective film.

21. A massage head, comprising:

a base;

the conductive piece is arranged on one side of the base, which faces the neck of the human body;

the electrode assembly of any one of claims 1 to 20, which is disposed at a side of the conductive members facing the neck of the human body, the plurality of conductive gel sheets being electrically connected to the conductive members.

22. The massage head as recited in claim 21, wherein the conductive member has a conductive output surface on a side thereof facing the neck of the human body;

the number of the base is one, the number of the conductive pieces arranged on the base is one, the conductive pieces are provided with one conductive output surface, and the plurality of conductive gel pieces are attached to the conductive output surface; or

The number of the base is one, the number of the conductive pieces arranged on the base is one, the conductive pieces are provided with a plurality of conductive output faces, and the plurality of conductive gel pieces are respectively attached to the plurality of conductive output faces; or

The number of the bases is multiple, the number of the conducting pieces arranged on the bases is one, the conducting pieces are provided with one conducting output surface, and the conducting gel pieces are respectively attached to the conducting output surfaces.

23. The massage head as claimed in claim 22, wherein the conductive output surface is a plane or a curved surface, and a surface of the conductive gel sheet facing the conductive output surface is a plane and attached to the conductive output surface.

24. The massage head as recited in claim 21, wherein the conductive member is a conductive sheet forming a plurality of conductive regions, the plurality of conductive regions being disposed in one-to-one correspondence with the plurality of conductive gel sheets; or

The conductive pieces comprise a plurality of metal conductive sheets, and the plurality of metal conductive sheets and the plurality of conductive gel sheets are arranged in a one-to-one correspondence manner.

25. The massage head as claimed in claim 21, wherein the conductive member comprises an insulating base and a conductive layer provided on the insulating base, the gel sheet being attached to the conductive layer.

26. The massage head as claimed in claim 25, wherein the conductive member further comprises a heat generating layer, the heat generating layer and the conductive layer are respectively disposed on two opposite sides of the insulating base, and the heat generating layer and the conductive layer are insulated from each other.

27. A neck massager, comprising:

a main body;

the electrode assembly of any one of claims 1 to 20 or the massage head of any one of claims 21 to 26, disposed on a side of the body facing a neck of a human being.

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