CN213553590U - Massage assembly and neck massager - Google Patents

Abstract

The utility model discloses a massage subassembly and neck massage appearance, this massage subassembly include pedestal, electrode slice and vibrating motor. The electrode plate is arranged on the base body, and an accommodating space is formed between the electrode plate and the base body. The vibration motor is arranged in the accommodating space and provided with a vibration end face, the vibration end face faces the electrode plate, and the vibration direction of the vibration motor is parallel to or perpendicular to the vibration end face. When vibration direction and vibration terminal surface were parallel, the electrode slice carried out the kneading formula massage to the neck, and when vibration direction was perpendicular with the vibration terminal surface, the electrode slice carried out the push type massage to the neck, promptly, vibrating motor's vibration direction and massage direction were similar unanimous to be favorable to improving the sense of vibration, reinforcing massage effect.

Description

Massage assembly and neck massager

Technical Field

The utility model relates to a massage instrument technical field especially relates to a massage subassembly and neck massage appearance.

Background

The neck massager can stimulate, vibrate or knead the neck electrically, thereby promoting the blood circulation of the neck and effectively relieving the neck muscles.

In the related art, a neck massage apparatus having a function of kneading or vibrating a neck is mainly implemented by providing a vibration motor in the neck massage apparatus. However, when the vibration motor is provided in the neck massage apparatus, the vibration motor has a problem that the vibration feeling is not strong when the vibration motor vibrates.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses massage assembly and neck massager can effectively improve the massage dynamics.

In order to achieve the above object, the first embodiment of the present invention discloses a massage assembly, which is applied to a neck massage device, the massage assembly comprises

A base body;

the electrode plate is arranged on the seat body, and an accommodating cavity is formed between the electrode plate and the seat body; and

the vibration motor is arranged in the accommodating space and provided with a vibration end face, the vibration end face faces the electrode plate, and the vibration direction of the vibration motor is parallel to or perpendicular to the vibration end face.

As an alternative implementation manner, in an embodiment of the first aspect of the present invention, the vibration motor is a flat vibration motor, and the vibration end surface is an end surface of the flat vibration motor.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the vibrating end surface is tangent to or parallel to a surface of the electrode plate facing the accommodating cavity.

As an alternative implementation, in an embodiment of the first aspect of the present invention, the vibration motor is an eccentric wheel motor or a linear motor;

when the vibration motor is an eccentric wheel motor, the vibration direction of the vibration motor is parallel to the vibration end face;

when the vibration motor is a linear motor, the vibration direction of the vibration motor is perpendicular to the vibration end face.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, when the vibration motor is an eccentric motor, the vibration motor further has an outer peripheral surface connected to the vibration end surface, and a gap is provided between the outer peripheral surface and an inner wall surface of the accommodating space.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the massage assembly is further provided with a shock absorbing member, the shock absorbing member is disposed in the accommodating space, and the shock absorbing member is sandwiched between the wall surface of the accommodating space and the vibration motor.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, when the vibration direction of the vibration motor is perpendicular to the vibration end surface, the shock absorbing member is disposed between a surface of the vibration motor, which is away from the vibration end surface, and a wall surface of the accommodating space;

when the vibration direction of the vibration motor is parallel to the vibration end face, a damping piece is arranged between the vibration end face and the wall face of the accommodating space, and/or a damping piece is arranged between one face of the vibration motor, which is deviated from the vibration end face, and the wall face of the accommodating space.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, a projection of the seat body on a plane perpendicular to a length direction of the massage assembly is an ellipse;

the vibration motor is arranged on the axis of the long axis of the elliptical projection of the seat body or the axis of the short axis of the ellipse of the seat body, and the vibration motor is eccentrically arranged relative to the center of the elliptical projection.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, a boss is disposed on one side of the seat body, the boss is disposed eccentrically with respect to a center of the elliptical projection of the seat body, an inner portion of the boss is formed as a hollow structure, the hollow structure is communicated with the accommodating cavity, and the vibration motor is at least partially disposed in the hollow structure of the boss.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, a connection portion between the boss and the seat body is an arc transition, and an outer edge surface of the boss deviating from one end of the seat body is formed as an arc surface.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the massage assembly further includes a positioning bracket, the positioning bracket is disposed in the accommodating cavity, and the positioning bracket is used for fixing the vibration motor to the accommodating space.

As an optional implementation manner, in an embodiment of the first aspect of the present invention, the positioning bracket is provided with a positioning groove, and the vibration motor is at least partially fixed to the positioning groove.

As an optional implementation manner, in the embodiment of the first aspect of the present invention, the positioning bracket is provided with at least two ribs, two the ribs enclose and close to form the positioning groove, the ribs are arc-shaped ribs, the vibration motor is cylindrical, and the circle center of the arc-shaped ribs is collinear with the circle center of the vibration motor.

In a second aspect, the utility model also discloses a neck massager, which comprises a wearing bracket, wherein the wearing bracket is used for wearing on the neck of a human body; and

a massage component, the massage component being the massage component of the above first aspect, the seat body of the massage component being connected to a side of the wearing bracket for facing a neck of a human body.

As an optional implementation manner, in an embodiment of the second aspect of the present invention, the seat body of the massage component is provided with a connecting portion, the connecting portion is opposite to the center of the seat body, and the connecting portion is movably connected to one side of the wearing support for facing the neck of the human body.

As an optional implementation manner, in an embodiment of the second aspect of the present invention, the massage assemblies are plural, and the plural massage assemblies are disposed at intervals along the surrounding direction of the neck of the wearing frame.

Compared with the prior art, the embodiment of the utility model has the advantages that:

according to the massage assembly and the neck massage instrument, the vibration end face of the vibration motor faces the electrode plate, when the vibration direction of the vibration motor is parallel to the vibration end face, force along the plane where the electrode plate is located can be provided, the massage assembly is directly driven to move along the plane where the electrode plate is located, and a kneading massage effect is generated; when vibrating motor's vibration direction was perpendicular with the vibration terminal surface, vibrating motor's vibration terminal surface can the direct drive massage subassembly drive electrode piece float in the orientation with the direction that deviates from the human body, promptly, vibrating motor's vibration direction and massage direction are similar unanimous to can effectively improve the massage dynamics.

Drawings

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

Fig. 1 is a schematic structural view of a massage assembly provided in the first embodiment;

fig. 2 is a cross-sectional view of a massage assembly provided in accordance with one embodiment of the present invention;

fig. 3 is an exploded view of the massage assembly according to the first embodiment;

fig. 4 is a schematic structural view of the neck massager provided in the second embodiment.

Icon: 10-a massage component; 11-a seat body; 11 a-an accommodating space; 12-a connecting part; 13-a boss; 14-electrode slice; 15-a vibration motor; 151-vibrating end face; 16-a shock absorbing member; 17-a circuit board; 18-a positioning bracket; 181-positioning groove; 182-a rib; 20-neck massager; 21-wearing a bracket.

Detailed Description

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

Example one

Referring to fig. 1 to 2, an embodiment of the present invention discloses a massage assembly 10, wherein the massage assembly 10 can be applied to a host, and the host can include, but is not limited to, a neck massager, an eye massager, a foot massager, a waist massager, and the like. The present embodiment exemplifies the application of the massage assembly 10 to a neck massage apparatus. Specifically, the massage assembly includes a base 11, an electrode sheet 14, and a vibration motor 15. The electrode plate 14 is disposed on the base 11, and an accommodating space 11a is formed between the electrode plate 14 and the base 11. The vibration motor 15 is disposed in the accommodating space 11a, the vibration motor 15 has a vibration end surface 151, the vibration end surface 151 is disposed toward the electrode sheet 14, and a vibration direction of the vibration motor 15 is parallel to or perpendicular to the vibration end surface 151.

In the related art, when the vibration motor is disposed on the massage assembly, the vibration end face of the vibration motor is disposed toward the side of the base, i.e., the vibration end face of the vibration motor is approximately perpendicular to the electrode sheet, and therefore, when the vibration direction of the vibration motor is parallel to the vibration end face, the electrode sheet moves along the plane where the electrode sheet is located, i.e., the neck is massaged in a pressing manner.

The embodiment of the utility model provides a massage assembly 10, because vibrating motor 15's vibration terminal surface 151 sets up towards electrode slice 14, when vibration direction is parallel with vibrating terminal surface 151, electrode slice 14 massages the neck kneading type, when vibration direction is perpendicular with vibrating terminal surface 151, electrode slice 14 carries out the push type massage to the neck, promptly, vibrating motor 15's vibration direction is unanimous with massage direction is approximate to be favorable to improving the sense of shake, reinforcing massage effect.

Optionally, the vibrating end surface 151 is tangent to or parallel to a surface of the electrode sheet 14 facing the receiving cavity. It is understood that the vibration end surface 151 of the vibration motor 15 is a plane, and when the electrode sheet 14 is a plane structure, the vibration end surface 151 of the vibration motor 15 is parallel to the electrode sheet 14. When the electrode sheet 14 is an arc-shaped sheet structure, the vibration end surface 151 of the vibration motor 15 is tangent to the electrode sheet 14.

Because the vibration end surface 151 is tangent to or parallel to the surface of the electrode plate 14 facing the receiving cavity, the force generated by the vibration motor 15 is parallel to (when the electrode plate 14 is arc-shaped, the force generated by the vibration motor 15 is tangent to) or perpendicular to the plane of the electrode plate 14, and therefore, the driving force for driving the massage assembly 10 to generate kneading massage or pressing massage is the driving force generated by the vibration motor 15, rather than the decomposed force, which can further increase the massage force and enhance the massage effect.

In some embodiments, the vibration motor 15 may be an eccentric wheel motor or a linear motor. When the vibration motor 15 is an eccentric wheel motor, the vibration direction of the vibration motor 15 is parallel to the vibration end face, so that the vibration motor 15 can drive the electrode sheet 14 to vibrate in the plane direction thereof, thereby achieving the effect of rubbing-type massage on the skin of the human body. In other words, in the present embodiment, since the vibrating end surface 151 is disposed toward the electrode plate 14, when the eccentric motor rotates, the massaging assembly 10 is driven to perform a rotary motion along the plane of the electrode plate 14, so that the kneading massage is not limited to two opposite directions of the plane of the electrode plate 14, and the massage effect can be improved.

In addition, when the vibration motor 15 is an eccentric motor, the vibration motor 15 further has an outer peripheral surface connected to the vibration end surface 151, and a gap is provided between the outer peripheral surface and the inner wall surface of the accommodating space 11 a. When the eccentric motor vibrates, a force parallel to the vibration end surface 151 is generated, that is, the eccentric motor vibrates in the radial direction of the vibration motor 15, and since the outer peripheral surface has a gap to the inner wall surface of the accommodating space 11a, when the vibration motor 15 vibrates in the radial direction thereof, the outer peripheral surface does not collide with the inner wall surface of the accommodating space 11a, thereby preventing noise generated by the collision with the inner wall surface of the accommodating space 11 a.

When the vibration motor 15 is a linear motor, the vibration direction of the vibration motor 15 is perpendicular to the vibration end surface 151, and the vibration motor 15 drives the electrode sheet 14 to vibrate in a direction towards or away from the skin of the human body, thereby achieving the effect of performing the pressing type massage on the skin of the human body. In addition, because the linear motor has a single vibration direction, the vibration frequency is higher, the vibration response speed is higher, the vibration precision is higher, and the massage hand feeling of the electrode plate 14 on the skin of the human body can be effectively improved.

Alternatively, the vibration motor 15 may be a flat vibration motor having a flat cylindrical shape, so that the accommodation space 11a of the massage assembly 10 is saved, which is beneficial to reduce the overall thickness of the massage assembly 10.

Referring to fig. 2 and 3, in some embodiments, the projection of the seat 11 on a plane perpendicular to the extending direction of the massage assembly 10 is an ellipse. The vibration motor 15 may be disposed on the axis of the major axis of the elliptical projection of the base 11 or the axis of the minor axis of the elliptical projection of the base 11, and the vibration motor 15 is disposed eccentrically with respect to the center of the elliptical projection. Since the vibration motor 15 is eccentrically disposed on the massage assembly 10, i.e., the vibration motor 15 is located on one side of the massage assembly 10, the other side of the massage assembly 10 can have enough space to accommodate other components.

In addition, when the massage assembly 10 is movably coupled to the neck massager, the eccentrically disposed vibration motor 15 may provide the massage assembly 10 with a greater vibration amplitude, thereby enhancing the massage effect.

Further, considering that the massage unit 10 is provided with the vibration motor 15, noise is generated when the vibration motor 15 vibrates, which affects the user experience, the massage unit 10 is further provided with the shock absorbing member 16, the shock absorbing member 16 is disposed in the accommodating space 11a, and the shock absorbing member 16 is interposed between the wall surface of the accommodating space 11a and the vibration motor 15, so that the noise generated by the vibration motor 15 can be effectively absorbed by the shock absorbing member 16.

In an alternative embodiment, when the vibration direction of the vibration motor 15 is perpendicular to the vibration end surface 151, the shock absorbing member 16 is disposed between a surface of the vibration motor 15 facing away from the vibration end surface 151 and a wall surface of the accommodating space 11 a. When the vibration motor 15 vibrates, a force perpendicular to the vibration end surface 151 is generated, the vibration end surface 151 is used for transmitting the vibration force to enable the massage component 10 to generate a pressing type massage effect, and one surface of the vibration motor 15 departing from the vibration end surface 151 is not used for transmitting the vibration force, therefore, the vibration motor 15 can be provided with the shock absorbing piece 16 between the surface of the vibration end surface 151 deviating from the wall surface of the accommodating space 11a, so that the surface of the vibration motor 15 departing from the vibration end surface 151 is prevented from knocking other parts to generate noise due to the force perpendicular to the vibration end surface 151, and the noise generated by the massage component 10 during massage can be effectively reduced.

In another alternative embodiment, when the vibration direction of the vibration motor 15 is parallel to the vibration end surface 151a, the vibration damping member 16 may be disposed between the vibration end surface 151 and the wall surface of the accommodating space 11a, and/or between the surface of the vibration motor 15 facing away from the vibration end surface 151a and the wall surface of the accommodating space 11 a. When the vibration direction of the vibration motor 15 is parallel to the vibration end surface 151, the vibration motor 15 generates a force perpendicular to the vibration end surface 151, and therefore, a damper may be provided between the vibration end surface 151 and the wall surface of the accommodating space 11a, and/or a damper 16 may be provided between the surface of the vibration motor 15 facing away from the vibration end surface 151 and the wall surface of the accommodating space 11 a. That is, the damper 16 is provided on one or more surfaces of the vibration motor 15 not used for driving the vibration module 10 and the wall surface of the accommodating space 11a, thereby effectively absorbing noise generated from the vibration motor 15.

In other words, when the vibration direction of the vibration motor 15 is parallel to the vibration end surface 151a, the vibration absorbing member 16 may be disposed between the vibration end surface 151 and the wall surface of the accommodating space 11a, or the vibration absorbing member 16 may be disposed between the surface of the vibration motor 15 facing away from the vibration end surface 151a and the wall surface of the accommodating space 11a, or the vibration absorbing member 16 may be disposed between the vibration end surface 151 and the wall surface of the accommodating space 11a and between the surface of the vibration motor 15 facing away from the vibration end surface 151a and the wall surface of the accommodating space 11a, so that the vibration absorbing member 16 can effectively absorb the noise generated by the vibration motor 15.

Optionally, the damping member 16 can be made of an elastic material or a soft material, and when the soft material is used, in addition to absorbing the noise generated by the vibration motor 15, the damping member can also effectively fill the gap at the corner between the vibration motor 15 and the seat 11, so that the structure of the massage assembly 10 is more stable and reliable. Illustratively, the shock absorbing member 16 may be made of foam, silicone, or rubber.

Further, in order to achieve the reliability and stability of the connection between the shock absorbing member 16 and the vibration motor 15 and the base body 11, the connection manner of the three may be an adhesive-backed connection. Particularly, the back glue is arranged on two opposite sides of the damping piece, which are used for respectively connecting the vibration motor and the seat body, and then the back glue is bonded to the vibration motor and the seat body.

In some embodiments, the massage assembly 10 further includes a positioning bracket 18, the positioning bracket 18 is disposed in the accommodating space 11a, and the positioning bracket 18 is used for clamping and fixing the vibration motor 15 in the accommodating space 11 a. The positioning bracket 18 fixes the vibration motor 15 in the accommodation space 11a, which can improve the stability of the installation of the vibration motor 15.

Specifically, the vibration motor 15 is fixed to one side of the positioning bracket 18, the outer edge of the side of the positioning bracket 18 connected to the motor is fixedly connected to the seat body 11, so that the vibration motor 15 is clamped and fixed on the seat body 11, and the side of the positioning bracket 18 away from the vibration motor 15 is connected to the electrode plate 14. It is understood that the connection manner of the positioning bracket 18, the vibration motor 15 and the electrode plate 14 may be glue, bolt, snap, etc., and the embodiment is not limited in particular.

Alternatively, the positioning bracket 18 may be a frame-like structure, it being understood that in other embodiments, the positioning bracket may also be a plate-like or block-like structure. The positioning bracket 18 with a frame structure can position the vibration motor, and can also position other components through a plurality of positioning holes on the frame of the positioning bracket 18, or allow other components to pass through, so as to prevent the positioning bracket 18 from occupying too much the accommodating space 11 a.

Furthermore, at least two convex ribs 182 are arranged on the positioning support 18, the two convex ribs 182 surround to form the positioning groove 181, the convex ribs 182 are circular arc-shaped convex ribs 182, the vibration motor 15 is cylindrical, and the circle center of the circular arc-shaped convex ribs 182 is collinear with the circle center of the vibration motor 15. Utilize to set up two circular arc convex ribs on locating support 18 and enclose the mode that closes formation constant head tank 181, when being fixed in vibrating motor 15 in this locating support 18, this locating support 18's constant head tank 181 and two circular arc convex ribs 182 can respectively with vibrating motor 15's bottom surface and cylinder butt to the area that makes this locating support 18 and vibrating motor 15 contact is bigger, has better location effect. It is understood that in other embodiments, three ribs, four ribs, or more ribs may be provided on the positioning bracket 18.

For example, when mounting, a back adhesive is bonded to the positioning groove 181, the bottom surface of the vibration motor 15 is fixed to the positioning groove 181 by the back adhesive, and the cylindrical surface of the vibration motor 15 is abutted against the inner wall of the circular arc-shaped rib 182, so that the vibration motor 15 is firmly fixed to the positioning bracket 18.

In some embodiments, the massage assembly 10 further includes a circuit board 17, the circuit board 17 is disposed in the accommodating space 11a, and the circuit board 17 is electrically connected to the electrode assembly. Illustratively, the circuit board 17 may be a flexible circuit board 17, and the flexible circuit board 17 may be fixed to a portion of the positioning bracket 18 other than the positioning groove 181 by bonding. On one hand, the positioning bracket can be used to support the flexible circuit board, and on the other hand, the flexible circuit board 17 can be attached to the shape of the positioning bracket 18, so as to reduce the volume of the accommodating space 11a occupied by the flexible circuit board, and make the massage component 10 thinner. In order to make the massage assembly 10 have a larger accommodating space 11a, optionally, a boss 13 is provided at one side of the base body 11, the boss 13 is eccentrically disposed with respect to the center of the elliptical projection of the base body 11, the inside of the boss 13 is formed into a hollow structure, the hollow structure is communicated with the accommodating space 11a, and the vibration motor 15 is at least partially disposed in the hollow structure of the boss 13. By providing the boss 13 with a hollow structure on the base body 11, the vibration motor 15 can be disposed in the hollow structure of the boss 13, so as to increase the accommodating space 11a of the massage assembly 10, and make the whole structure of the massage assembly 10 more compact. Furthermore, the wall thickness of the boss 13 and the wall thickness of the seat body 11 may be substantially the same, so that the seat body 11 becomes a housing having the same wall thickness at each position. It will be appreciated that the hollow structure of the boss 13 may accommodate other components, such as a battery and the above-described positioning bracket, in addition to the vibration motor 15. In addition, when massage subassembly 10 swing to certain angle in wearing the support and massage subassembly 10 swing of neck massage appearance as massage subassembly 10 swing, this boss 13 can the butt in wearing the support to restriction massage subassembly 10's swing angle effectively solves the electrode slice 14 that leads to when the too big swing angle of relative massage support of pedestal 11 and interferes and lead to the poor problem of laminating effect with the formation of human neck, improves the laminating degree of electrode slice 14 and human neck, and then promotes the massage effect.

Further, the connection between the boss 13 and the seat body 11 is an arc transition, and the outer edge surface of the boss 13 at the end departing from the seat body 11 is an arc surface. The connection part of the boss 13 and the seat body 11 is in arc transition, so that the cleaning is convenient, and dead angles of storing dirt and holding dirt are avoided. And the outer edge face of one end of the boss 13 departing from the seat body 11 is formed into a cambered surface, so that the situation that the boss 13 may scratch the bracket when the boss 13 abuts against the wearing bracket can be prevented.

Alternatively, the arc transition may be formed by providing a round chamfer at the junction of the boss 13 and the seat body 11, and the round chamfer may be an inward concave fillet or an outward convex fillet. Similarly, the outer edge surface of the end of the boss 13 away from the seat body 11 may form the arc surface by setting a fillet, which may be an inward or outward fillet.

The massage assembly 10 of the first embodiment of the present invention is provided with the vibration end face 151 of the vibration motor 15 toward the electrode plate 14, i.e., the vibration direction of the vibration motor 15 is approximately consistent with the massage direction, thereby being beneficial to improving the vibration sense and enhancing the massage effect. Further, the vibration end surface 151 is tangent to or parallel to the electrode sheet 14, so that the driving force generated by the vibration motor 15 is directly applied to the electrode sheet 14 rather than a component force thereof being applied to the electrode sheet 14, thereby further enhancing the massage force. In addition, the vibration absorbing member 16 can effectively absorb the noise generated by the vibration motor 15, and the problem that the massage assembly 10 generates large noise when vibrating is solved.

Example two

Referring to fig. 4, a second embodiment of the present invention discloses a neck massager 20, which includes: the wearing frame 21 and the massage component 10 are provided, the wearing frame 21 is used for wearing on the neck of the human body, the massage component 10 is the massage component 10 as described in the first embodiment, and the seat 11 of the massage component 10 is movably connected to a side of the wearing frame 21, which is used for facing the neck of the human body.

Wherein, the movable connection of the seat body 11 of the massage component 10 on the wearing bracket 21 means: the seat body 11 can swing relative to the wearing bracket 21 in the circumferential direction of the seat body 11, or the seat body 11 can swing relative to the wearing bracket 21 in the circumferential direction of the seat body 11, and can float relative to the wearing bracket 21 in the axial direction of the seat body 11.

In some embodiments, the base 11 of the massage assembly 10 is provided with a connecting portion 12, the connecting portion 12 is eccentrically disposed with respect to the center of the base 11, and the connecting portion 12 is movably connected to the wearing frame 21. Because the connecting portion 12 is eccentrically connected to the base 11 of the massage assembly 10, the massage assembly 10 has better swing characteristics when being installed on the neck massager 20, and therefore, when the vibration motor 15 vibrates, the massage assembly 10 can be driven to generate a larger swing amplitude, thereby increasing the massage force and enhancing the massage effect.

For example, the connecting portion 12 may be a connecting shaft protruding from the seat 11. It is understood that, in other embodiments, the connecting portion 12 can also be a connecting hole disposed on the seat body 11.

It can be understood that, when the seat body 11 is provided with the boss 13, the connecting portion 12 and the boss 13 are disposed at an interval, and when the connecting portion 12 drives the seat body 11 to movably connect with the wearing bracket 21, the seat body 11 can have a certain swing space and a floating space, so as not to limit the swing or floating of the seat body 11 relative to the wearing bracket 21 due to the disposition of the boss 13.

In this embodiment, when the massage effect is required to be enhanced, the number of the massage assemblies 10 may be plural, and the plural massage assemblies 10 are disposed at intervals along the surrounding direction of the neck of the wearing frame 21. Illustratively, the number of the massage assemblies 10 is two, the two massage assemblies 10 are spaced apart from each other, the connecting portions 12 of the two massage assemblies 10 are disposed on the two bases 11 facing each other, and the bosses 13 of the two massage assemblies 10 are disposed on the two bases 11 away from each other.

Through setting up a plurality of massage subassembly 10, can strengthen the massage effect, in addition, because the boss 13 that is equipped with each other and keeps away from of these two massage subassemblies 10, when the swing, can restrict two massage subassemblies 10 close one end and wear the support 21 nearest position for the massage head distance all the time, avoid two massage subassemblies 10 close one end to lift up, form with the neck joint and interfere and influence the laminating effect of electrode slice 14 and neck.

The embodiment of the utility model provides a second neck massager 20, its massage subassembly 10 have with the tangent or parallel vibrating motor 15 of electrode slice 14, can directly transmit vibrating motor 15's drive power to electrode slice 14, and non-drive power's component acts on electrode slice 14 or strikes other parts through driving motor and will drive power transmission to electrode slice 14 to reinforcing massage effect, noise abatement.

The massage assembly and the neck massager disclosed by the embodiment of the utility model are introduced in detail, the specific examples are applied to explain the principle and the implementation mode of the utility model, and the explanation of the above embodiments is only used for helping to understand the massage assembly and the neck massager of the utility model 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, and in summary, the content of the present specification should not be understood as the limitation of the present invention.

Claims (16)

1. A massage assembly, characterized in that the massage assembly comprises

A base body;

the electrode plate is arranged on the seat body, and an accommodating space is formed between the electrode plate and the seat body; and

the vibration motor is arranged in the accommodating space and provided with a vibration end face, the vibration end face faces the electrode plate, and the vibration direction of the vibration motor is parallel to or perpendicular to the vibration end face.

2. The massage assembly of claim 1, wherein the vibration motor is a flat vibration motor and the vibration end surface is an end surface of the flat vibration motor.

3. The massage assembly of claim 1, wherein the vibrating end surface is tangential or parallel to a surface of the electrode sheet facing the receiving cavity.

4. The massage assembly of claim 1, wherein the vibratory motor is an eccentric motor or a linear motor;

when the vibration motor is an eccentric wheel motor, the vibration direction of the vibration motor is parallel to the vibration end face;

when the vibration motor is a linear motor, the vibration direction of the vibration motor is perpendicular to the vibration end face.

5. The massage assembly of claim 4, wherein when the vibration motor is an eccentric motor, the vibration motor further has an outer peripheral surface connected to the vibration end surface, and a gap is provided between the outer peripheral surface and an inner wall surface of the accommodating space.

6. The massage assembly of claim 1, further comprising a damping member disposed in the accommodating space and interposed between a wall of the accommodating space and the vibration motor.

7. The massage assembly as recited in claim 6, wherein when the vibration direction of the vibration motor is perpendicular to the vibration end surface, the shock absorbing member is disposed between a surface of the vibration motor facing away from the vibration end surface and a wall surface of the accommodating space;

when the vibration direction of the vibration motor is parallel to the vibration end face, a damping piece is arranged between the vibration end face and the wall face of the accommodating space, and/or a damping piece is arranged between one face of the vibration motor, which is deviated from the vibration end face, and the wall face of the accommodating space.

8. The massage assembly of claim 1, wherein the projection of the seat on a plane perpendicular to the length direction of the massage assembly is elliptical;

the vibration motor is arranged on the axis of the long axis of the elliptical projection of the seat body or the axis of the short axis of the ellipse of the seat body, and the vibration motor is eccentrically arranged relative to the center of the elliptical projection.

9. The massage assembly as recited in claim 8, wherein a boss is provided on one side of the base, the boss is eccentrically disposed with respect to a center of the elliptical projection of the base, an inner portion of the boss is formed as a hollow structure, the hollow structure is communicated with the receiving space, and the vibration motor is at least partially disposed in the hollow structure of the boss.

10. The massage assembly of claim 9, wherein the connection between the boss and the base is an arc transition, and an outer edge of the boss facing away from the base is formed as an arc surface.

11. The massage assembly of any one of claims 1-10, further comprising a positioning bracket disposed in the receiving space, the positioning bracket configured to clamp and secure the vibration motor in the receiving space.

12. The massage assembly of claim 11, wherein the positioning bracket defines a positioning slot, and wherein the vibration motor is at least partially secured to the positioning slot.

13. The massage assembly of claim 12, wherein the positioning bracket has at least two ribs, the two ribs surround the positioning groove, the ribs are circular-arc-shaped ribs, the vibration motor is cylindrical, and the center of the circular-arc-shaped ribs is collinear with the center of the vibration motor.

14. A neck massager is characterized by comprising

The wearing bracket is used for wearing on the neck of a human body; and

a massage assembly as claimed in any one of claims 1 to 13, wherein the seat of the massage assembly is connected to a side of the wearing support for facing the neck of the person.

15. The neck massager of claim 14 wherein the base of the massage assembly is provided with a connecting portion, the connecting portion is eccentrically disposed with respect to a center of the base, and the connecting portion is movably connected to a side of the wearing support for facing a neck of a human body.

16. The neck massager of any one of claims 14 to 15 wherein the plurality of massage assemblies are spaced apart along the circumferential direction of the neck on which the brace is worn.

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