CN216908571U - Neck massager - Google Patents

Abstract

The utility model discloses a neck massager, which comprises: the wearing bracket limits a wearing space; the massage head comprises a front shell, a rear shell, a substrate assembly and a vibration unit, wherein the front shell is in a curved surface shape and is provided with a through hole; each vibration unit includes a vibration housing and a vibration member, the vibration housing being connected to the substrate assembly; the substrate assembly comprises a flexible substrate, the flexible substrate is formed into a flat plate shape in a free state, the first massage surfaces of at least one part of the vibration units face different directions, and the first massage surfaces of the plurality of vibration units respectively penetrate out of the plurality of through holes. The utility model provides a neck massager, the front surface of procapsid can with the neck shape adaptation of human body, a plurality of the arrangement that pass the hole that distribute on the procapsid match human neck shape to, can reduce the demolding degree of difficulty of flexible substrate, can guarantee the better laminating of a plurality of vibration units and neck again, simultaneously, also can reduce the molding degree of difficulty of procapsid.

Description

Neck massager

Technical Field

The utility model relates to the technical field of massage instruments, in particular to a neck massage instrument.

Background

In daily work, study or leisure and entertainment activities, people often suffer from cervical vertebra discomfort due to long-term improper posture maintenance, thereby affecting the normal life of people. Various types of neck massage devices are available in the market for relieving cervical discomfort.

In order to improve the use comfort of a user, the massage head of the massage instrument of the related art (for example, publication number CN111481422A) comprises a rear shell, a massage contact and a front shell, the massage contact comprises a conductive shell and a vibration motor, the vibration motor is installed in the conductive shell, a plurality of elastic silica gel sleeves are distributed on the front shell, the silica gel sleeves have a certain depth and can deform under stress, the massage contact is installed on the silica gel sleeves, and the angle and the position of the massage contact can be adjusted in time by utilizing the flexibility of the silica gel sleeves.

Because the front shell is a flexible part, when a human body uses the neck massager, the face shell can deform and the angles of the massage contacts cannot be ensured. Meanwhile, the manufacturing of the flexible surface shell is complicated because the installation angles of the plurality of massage contacts need to be considered.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides the neck massager, the front surface of the front shell of the neck massager can be matched with the shape of the neck of a human body, the demolding difficulty of the flexible substrate can be reduced, the vibration units can be well attached to the neck, and meanwhile, the modeling difficulty of the front shell can be reduced.

The neck massager according to the present invention includes: a wearing bracket defining a wearing space of the neck; a massage head including a front housing, a rear housing, a base plate assembly, and a plurality of vibration units, the massage head being provided on a side of the wearing bracket facing the wearing space, the rear housing being connected to the wearing bracket, the front housing being provided on a side of the rear housing facing away from the wearing bracket, a front surface of the front housing being formed in a curved shape recessed rearward, the front surface of the front housing being provided with a plurality of through holes, each of the through holes penetrating the front housing in a front-rear direction; each vibration unit comprises a vibration shell and a vibration part, the vibration part is arranged in the vibration shell, and a plurality of vibration shells are connected to the substrate assembly; the base plate assembly includes at least one flexible base plate formed in a flat plate shape in a free state, the base plate assembly is mounted between the front case and the rear case and a first surface of the flexible base plate facing the front case is shaped into a curved surface shape recessed rearward so that at least a part of the first massage faces of the vibration cases face different directions, the first massage faces of the plurality of vibration cases respectively passing out of the plurality of through holes.

According to the neck massage instrument, the front surface of the front shell of the massage head is formed into the curved surface shape which is concave backwards, so that the front surface of the front shell can be matched with the shape of the neck of a human body, the arrangement of a plurality of through holes distributed on the front surface of the front shell can be matched with the shape of the neck of the human body, and the first massage surfaces of a plurality of vibration units can be well attached to the neck. And the flexible substrate is in a flat plate shape in a free state, so that the flexible substrate can be subjected to mold stripping in the flat plate shape when being subjected to mold stripping, and the mold stripping difficulty of the flexible substrate can be reduced. Simultaneously, be connected to a plurality of vibrating element on the base plate subassembly to install the base plate subassembly between procapsid and back casing, the procapsid need not set up the structure of being connected with vibrating element, reduces the molding degree of difficulty of procapsid.

In some examples of the utility model, the neck massager further comprises a mounting plate which is a hard material piece, a second surface of the mounting plate facing the front housing is formed into a curved shape which is concave backward, and the base plate assembly is clamped between the front housing and the mounting plate so that the first surface of the flexible base plate is shaped into a curved shape which is concave backward.

In some examples of the present invention, the neck massager further includes a mounting plate which is a hard material, a second surface of the mounting plate facing the front housing is formed in a curved shape which is concave rearward, the substrate assembly is attached to the mounting plate so that the first surface of the flexible substrate is shaped in a curved shape which is concave rearward, and the mounting plate is fixed to the front housing and/or the rear housing.

In some examples of the utility model, the peripheral edge of the flexible substrate is provided with an annular skirt which is adhered to and wrapped on the peripheral edge of the mounting plate.

In some examples of the present invention, the mounting plate is provided with a plurality of wire passing holes, or the number of the mounting plates is multiple, the plurality of mounting plates form the wire passing holes therebetween, and the lead wire connected to each of the vibration parts passes through the wire passing holes to be connected to the electronic control unit of the neck massager.

In some examples of the utility model, a floating space is provided between at least part of the base plate assembly and the mounting plate, the floating space being configured to provide clearance when the vibratory unit is moved rearwardly.

In some examples of the utility model, a side of the base plate assembly facing the mounting plate is provided with a plurality of grooves recessed away from the mounting plate, the plurality of grooves defining the floating space.

In some examples of the present invention, a rear surface of the front case is formed in a curved shape that is concave rearward, and the flexible substrate is bonded to the rear surface of the front case such that the first surface of the flexible substrate is shaped in the curved shape that is concave rearward.

In some examples of the present invention, a pressing protrusion is provided on the rear case, and the pressing protrusion abuts against the flexible substrate to press the flexible substrate.

In some examples of the present invention, the substrate assembly is a flexible substrate, and the plurality of vibration units are connected to the flexible substrate.

In some examples of the present invention, the substrate assembly includes a plurality of the flexible substrates, each of the flexible substrates is in a flat plate shape in the free state, and at least one of the vibration housings is attached to each of the flexible substrates, the plurality of flexible substrates being fixedly attached to each other as a one-piece integrated panel; the panel is installed between the front case and the rear case and a surface of the panel facing the front case is shaped into a curved shape recessed rearward so that the first massage faces of the plurality of the vibration units face different directions and pass out through the plurality of through holes.

In some examples of the present invention, the substrate assembly includes a plurality of the flexible substrates, each of the flexible substrates is in a flat plate shape in the free state, and at least one of the vibration housings is attached to each of the flexible substrates; the plurality of flexible substrates are mounted between the front housing and the rear housing and the first surface of each of the flexible substrates is shaped into a curved shape that is concave rearward so that the first massage faces of the plurality of vibration units face in different directions and pass out of the plurality of through holes.

In some examples of the present invention, a side of the rear case facing the front case is provided with a plurality of mounting grooves in which each of the flexible substrates is mounted.

In some examples of the present invention, an edge of each of the flexible substrates is provided with a flange extending toward the rear case, and the flange is bonded to a wall surface of the mounting groove to form a floating space between the flexible substrate and the rear case.

In some examples of the utility model, the vibration housing and the flexible substrate are separate machined molded pieces.

In some examples of the present invention, the flexible substrate is provided with a plurality of receiving grooves, the plurality of vibration housings are respectively mounted in the plurality of receiving grooves in a one-to-one correspondence manner, and the first massage surface of each vibration housing extends out of the corresponding receiving groove.

In some examples of the present invention, an insertion groove is provided on an inner wall of the receiving groove in a direction away from the receiving groove, and the vibration housing is provided with an insertion portion to be inserted into the insertion groove.

In some examples of the present invention, an escape gap is provided between the outer peripheral wall of the vibration housing and the inner wall of the corresponding through hole.

In some examples of the present invention, a dispensing space is defined between the flexible substrate and the front housing, the dispensing space is communicated with the avoiding gap, and a dispensing hole communicated with the insertion slot is formed in the dispensing space.

In some examples of the present invention, an adhesive is filled in the vibration housing, and the adhesive is filled between the vibration member and the vibration housing to fix the vibration member and prevent the vibration member from colliding with the vibration housing when vibrating.

In some examples of the present invention, the neck massager includes an electric pulse generating device, the vibration shell is a conductive piece, the electric pulse generating device is electrically connected with the vibration shell through a conductive wire to provide a pulse signal to the vibration shell, the conductive wire is electrically connected with the inner wall of the vibration shell in a welding manner and forms a welding point, and an adhesive covers the conductive wire, the vibration shell and the welding point.

In some examples of the utility model, the neck massager includes an electric pulse generating device, the vibration shell is an electrically conductive member, the electric pulse generating device is electrically connected with the vibration shell through an electrically conductive wire or a flat cable to provide a pulse signal to the vibration shell, the vibration shell includes an end cover portion and a side wall portion, a front surface of the end cover portion defines the first massage surface, the side wall portion is connected with the end cover portion, and a side of the side wall portion away from the end cover portion defines a mounting opening for mounting the vibration component; at least one part of the side wall part is bent inwards to form a bent part, the bent part is positioned on one side of the vibration part, which is far away from the end cover part, and the conductive wire or the flat cable is connected with the bent part in a welding mode.

In some examples of the present invention, the neck massager includes an electric pulse generating device, the vibration housing is a conductive member, the electric pulse generating device is electrically connected to the vibration housing through a conductive wire to provide a pulse signal to the vibration housing, one end of the conductive wire extends between the vibration member and the vibration housing, and the vibration member presses the one end of the conductive wire against the vibration housing to electrically connect the conductive wire to the vibration housing.

In some examples of the utility model, the neck massager further comprises an auxiliary massage unit comprising an auxiliary housing connected to the base plate assembly, the auxiliary housing having a second massage face adapted to contact a human body, the second massage face of the auxiliary housing passing out of the through hole; the vibration component is not arranged in the massage shell; the auxiliary massage unit also comprises a heating part, the heating part is arranged in the auxiliary shell, and a control unit of the neck massage instrument is electrically connected with the heating part; and/or the neck massager comprises an electric pulse generating device which is electrically connected with the auxiliary shell through an electric lead.

In some examples of the present invention, the plurality of vibration units includes a first vibration unit group and a second vibration unit group, the first vibration unit group and the second vibration unit group being respectively located at both sides of the front case in a length direction, and the auxiliary massage unit being located between the first vibration unit group and the second vibration unit group.

In some examples of the present invention, the auxiliary massage unit is located between the plurality of vibration units.

In some examples of the utility model, the second massage face has an area greater than an area of the first massage face.

In some examples of the utility model, the second massage face has an area that is more than twice an area of the first massage face.

In some examples of the utility model, the auxiliary massage unit includes the heat generating member and a first filling member, and the first filling member is filled on a side of the heat generating member facing away from the second massage surface so that the heat generating member is attached to an inner wall of the auxiliary housing.

In some examples of the utility model, the auxiliary housing has an inwardly bent soldering portion on a side of the first filler facing away from the heat generating member, and the electric wire connected to the electric pulse generating device is soldered to the soldering portion.

In some examples of the utility model, the front housing and the rear housing are each a piece of hard material, the massage heads having a maximum length of less than 80 mm.

In some examples of the utility model, the front housing and the rear housing are each a piece of resilient material, the front housing and the rear housing being resiliently deformable to change the orientation of at least part of the first massage face.

In some examples of the utility model, the massage head is connected with the wearing bracket and forms a connecting structure, the part of the massage head extending out of at least one side of the connecting structure in the length direction is formed into a hollow suspended part, the suspended part is arranged at a distance from the wearing bracket, and the vibration unit is arranged on the suspended part; the front shell and the rear shell are elastic, and/or the massage head can swing relative to the wearing support so that the suspension part can approach or depart from the wearing support, and/or the massage head can float relative to the wearing support so that the massage head integrally approaches or departs from the wearing support.

In some examples of the present invention, the number of the massage heads is one, the connecting structure is located in the middle of the wearing bracket, and the massage heads extend out from both sides of the connecting structure in the length direction to form two suspended portions.

In some examples of the present invention, the plurality of vibration units are arranged at intervals from one end of the front case to the other end of the front case in a length direction of the wearing bracket.

In some examples of the present invention, the first massage surfaces of the plurality of vibration units enclose a curved shape that is concave.

In some examples of the utility model, the wearing bracket is an elastic bracket, the rear shell of the massage head is at least partially arranged at a distance from the wearing bracket, or the rear shell of the massage head is connected with the wearing bracket through a soft rubber piece.

Additional aspects and advantages of the utility model 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 utility model.

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 a schematic view of a first embodiment of a neck massager in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view of a neck massager with electric pulse generating device according to an embodiment of the present invention;

fig. 3 is an exploded view of a massage head according to an embodiment of the present invention;

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

FIG. 5 is a schematic view of a third embodiment of the neck massager in accordance with the embodiment of the present invention;

FIG. 6 is a schematic view of a fourth embodiment of the neck massager in accordance with the embodiment of the present invention;

fig. 7 is a front view of a massage head of the neck massage apparatus according to the embodiment of the present invention;

FIG. 8 is a cross-sectional view taken at A-A of FIG. 7;

FIG. 9 is an enlarged view at B in FIG. 8;

FIG. 10 is a cross-sectional view taken at C-C of FIG. 7;

fig. 11 is an exploded view of a neck massager according to an embodiment of the present invention;

FIG. 12 is a schematic view of the assembly of the flexible substrate and the mounting plate of the neck massager in accordance with the embodiment of the present invention;

FIG. 13 is a schematic view of a mounting plate of the neck massager in accordance with an embodiment of the present invention;

fig. 14 is a front view of a flexible substrate of the neck massager according to the embodiment of the present invention;

fig. 15 is a rear view of a flexible substrate of the neck massager according to the embodiment of the present invention;

FIG. 16 is a front view of a flexible substrate of another embodiment of a neck massager in accordance with embodiments of the present invention;

FIG. 17 is a rear view of the flexible substrate of FIG. 16;

FIG. 18 is a schematic view of a rear housing of the neck massager in accordance with an embodiment of the present invention;

FIG. 19 is a schematic view of a flexible substrate of a neck massager in accordance with an embodiment of the present invention;

FIG. 20 is a cross-sectional view taken at D-D of FIG. 19;

FIG. 21 is an enlarged view at E of FIG. 20;

fig. 22 is a schematic view of a first embodiment of the vibration unit of the neck massager according to the embodiment of the present invention;

fig. 23 is an exploded view of a vibration unit according to a first embodiment of the present invention;

fig. 24 is a schematic view of a vibration housing of the vibration unit according to the first embodiment of the present invention;

fig. 25 is a sectional view of a vibration unit according to a first embodiment of the present invention;

FIG. 26 is a schematic view of a second embodiment vibration unit according to an embodiment of the present invention, unfilled with an adhesive;

fig. 27 is a schematic view of a vibration unit filling adhesive according to a second embodiment of the present invention;

fig. 28 is a sectional view of a vibration unit according to a second embodiment of the present invention;

FIG. 29 is a schematic view of a vibration unit according to a third embodiment of the present invention, without adhesive filling;

FIG. 30 is a schematic view of a third embodiment vibration unit filled with adhesive in accordance with an embodiment of the present invention;

fig. 31 is a sectional view of a vibration unit according to a third embodiment of the present invention;

fig. 32 is a schematic view of an auxiliary massage unit of the neck massager in accordance with the embodiment of the present invention;

fig. 33 is an exploded view of an auxiliary massage unit of the neck massager in accordance with the embodiment of the present invention.

Reference numerals:

a neck massager 100;

wearing the bracket 10; a wearing bracket 11; a handle 12; a wearing space 13; a hard, elastomeric outer shell 14; a flexible inner shell 15;

a massage head 20;

a front housing 21; through the aperture 211;

a rear case 22; the pressing projection 221; a mounting groove 222;

a substrate assembly 23; a flexible substrate 231; a first surface 232; a skirt 233; a recess 234; the accommodation groove 236; an insertion groove 237;

a vibration unit 24; a vibrating case 241; a vibration member 242; a first massage face 243; the insertion portion 244; an avoidance gap 245; an adhesive 246; an end cap portion 247; a sidewall portion 248; a mounting opening 249; a bent portion 2491;

a mounting plate 25; a second surface 251; a wire through hole 252;

a lead 26; a floating space 27;

a dispensing space 28; glue passing holes 281;

an electric pulse generating device 30; a conductive line 31;

an auxiliary massage unit 40; the auxiliary case 41; a second massage face 42; a heat generating member 43; a first vibrating unit group 44; a second vibrating unit group 45; a first filler 46; a welded portion 47; a connecting structure 48; a suspended portion 49.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A neck massager 100 according to an embodiment of the present invention will be described with reference to fig. 1 to 33, in which the neck massager 100 is worn on the neck of a human body to massage the neck.

The neck massager 100 according to an embodiment of the present invention includes: the support 10 and the massage head 20 are worn, and the wearing support 10 defines a wearing space 13 of the neck. In some examples of the present invention, the wearing bracket 10 includes a middle bracket 11 and handles 12 connected to both ends of the middle bracket 11, and the middle bracket 11 and the two handles 12 define a wearing space 13 of the neck. Specifically, when using the neck massager 100, the user can hold the handle 12 to wrap the wearing bracket 10 around the neck of the human body, and the wearing space 13 defined by the middle bracket 11 and the two handles 12 can be used to position the neck in the wearing space 13, thereby preventing the neck massager 100 from falling off.

The massage head 20 comprises a front shell 21, a rear shell 22, a base plate assembly 23 and a plurality of vibration units 24, the massage head 20 is arranged on one side of the wearing support 10 facing the wearing space 13, specifically, the massage head 20 can be arranged on the middle support 11, the massage head 20 can also be arranged on a connecting part extending from the handle 12 to the front side of the middle support 11, and the position of the massage head 20 can be set according to different massage requirements.

The rear case 22 is attached to the wearing stand 10, the front case 21 is provided on the rear case 22, and the front case 21 is provided on a side of the rear case 22 facing away from the wearing stand 10, a front surface of the front case 21 is formed in a curved surface shape recessed toward the rear, and a front surface of the front case 21 is provided with a plurality of through holes 211, each through hole 211 penetrating the front case 21 in the front-rear direction.

Each vibration unit 24 includes a vibration housing 241 and a vibration member 242, the vibration member 242 being provided in the vibration housing 241, and a plurality of vibration housings 241 being attached to the flexible substrate 231.

The substrate assembly 23 includes at least one flexible substrate 231, the flexible substrate 231 is formed in a flat plate shape in a free state, the substrate assembly 23 is mounted between the front case 21 and the rear case 22, and a first surface 232 of the flexible substrate 231 facing the front case 21 is shaped into a curved surface shape recessed toward the rear so that at least a part of the first massage surfaces 243 of the vibration cases 241 face different directions, and the first massage surfaces 243 of the plurality of vibration cases 241 are respectively passed out from the plurality of through holes 211. It should be noted that, in the description of the present invention, "front" refers to a direction toward the neck of a human body; "posterior" refers to a direction away from the neck of the human body.

It is understood that the first massage faces 243 of all the vibration housings 241 may be oriented differently; the first massage surface 243 of one part of the vibration casing 241 may have a different orientation, and the first massage surface 243 of the other part of the vibration casing 241 may have the same orientation. It should be noted that, a plane where the outermost annular outer edge of the first massage surface 243 of each vibration housing 241 is located is a first plane, and the different orientations of the plurality of first massage surfaces 243 mean that the plurality of first planes corresponding to the plurality of first massage surfaces 243 intersect with each other. Of course, when the first massage surface 243 is not planar or the outer edges of the ring shape are not on the same plane, the orientation of the first massage surface 243 of the vibration shell 241 can be expressed by the convex extension direction of the vibration shell on the wearing frame 10.

Specifically, the neck massage instrument 100 can be worn on the neck of a human body, which is substantially columnar (i.e., includes a back muscle and a side muscle), by forming the front surface of the front housing 21 of the massage head 20 into a curved surface shape that is concave rearward, so that the front surface of the front housing 21 can be fitted to the shape of the neck of the human body, and the arrangement of the plurality of through holes 211 distributed on the front surface of the front housing 21 can be made to match the shape of the neck of the human body.

Wherein the flexible substrate 231 is in a flat plate shape in a free state (i.e. not mounted between the front housing 21 and the rear housing 22), so that the flexible substrate 231 can be demolded in a flat plate shape when demolded, the flexible substrate 231 can be demolded in a flat plate shape because the vibration unit 24 needs to be connected to the flexible substrate 231, whether integrally formed or separately connected, the flat plate shape demolded can reduce the demolding difficulty of the flexible substrate 231, the flexible substrate 231 mounted with a plurality of vibration housings 241 is mounted between the front housing 21 and the rear housing 22, then the first surface 232 of the flexible substrate 231 is shaped into a curved surface shape, the flexible substrate 231 with the first surface 232 shaped into a curved surface shape can enable at least a part of the first massage surfaces 243 of the vibration housings 241 to face different directions and penetrate through the corresponding through holes 211, so that the distribution of the plurality of first massage surfaces 243 can match the neck shape of the human body, the vibration of each vibration component 242 can be transmitted to the neck of the human body through the corresponding first massage surface 243 to massage the neck of the human body, so that the modeling requirement on the flexible substrate 231 can be reduced, the demolding difficulty of the flexible substrate 231 can be reduced, and the first massage surfaces 243 of the plurality of vibration units 24 can be well attached to the neck.

It should be noted that, by providing the through hole 211 in the front housing 21, the orientation angle of the vibration unit 24 can be set by designing the shape of the front housing 21 and the position of the through hole 211, and the flexible substrate 231 does not need to be molded into a shape matching the curve of the neck of the human body during injection molding, and the vibration unit 24 can be more easily attached to the curve of the human body by merely installing the flexible substrate 231 between the front housing 21 and the rear housing 22 and exposing the vibration unit 24 through the through hole 211.

Since the neck of the human body is substantially columnar and relatively large in bending degree, in order to make the first massage surfaces 243 of the plurality of vibration units 24 fit with the neck, the bending degree of the front surface of the front shell 21 of the massage head 20 is correspondingly large, and the requirement for shaping as an appearance piece is high, the plurality of vibration units 24 are connected to the base plate assembly 23, and the base plate assembly 23 is installed between the front shell 21 and the rear shell 22, the front shell 21 does not need to be provided with a structure connected with the vibration units 24, and the difficulty in shaping of the front shell 21 is reduced.

According to the neck massage apparatus 100 of the embodiment of the utility model, the orientations of the plurality of first massage surfaces 243 can be effectively ensured to match the shape of the neck of the human body, the massage effect of the neck massage apparatus 100 on the neck of the human body is improved, and the processing process of the massage head 20 is simple. By forming the front surface of the front housing 21 of the massage head 20 into a curved surface shape that is recessed rearward, so that the front surface of the front housing 21 can be fitted to the shape of the neck of the human body, and the arrangement of the plurality of through holes 211 distributed on the front surface of the front housing 21 can be made to match the shape of the neck of the human body, it is possible to ensure a good fit of the first massage surfaces 243 of the plurality of vibration units 24 to the neck. In addition, the flexible substrate 231 is in a flat plate shape in a free state, so that the flexible substrate 231 can be ejected in a flat plate shape when ejected, and the difficulty in ejecting the flexible substrate 231 can be reduced. Meanwhile, a plurality of vibration units 24 are connected to the substrate assembly 23, and the substrate assembly 23 is installed between the front shell 21 and the rear shell 22, so that the front shell 21 does not need to be provided with a structure connected with the vibration units 24, and the modeling difficulty of the front shell 21 is reduced.

In some embodiments of the present invention, the height of the vibration unit 24 that passes out of the outer surface of the front housing 21 of the massage head 20 is set to D, satisfying the relationship: 0.5mm < D < 5mm, for example D can be 0.6mm, 0.8mm, 1mm, 3mm, 3.6mm, 4.6mm, etc. The size of the vibration unit 24 protruding the outer surface of the front housing 21 is too small to facilitate the contact between the vibration unit 24 and the skin of the human body, especially, the massage heads 20 with a plurality of vibration units 24 need to protrude a certain height to match the deformation of the flexible substrate 231, so as to easily ensure that most of the massage heads 20 are in contact with the human body. The size of the outer surface of the vibration unit 24 protruding out of the front housing 21 is too large, so that the clip arm, such as the handle 12, wearing the bracket 10 is not easily clipped to the neck of a human body, the surface of the vibration unit 24 and the inner surface of the handle 12 can draw a virtual circle, the neck of a human body can be roughly considered as a circle, and if the size of the outer surface of the vibration unit 24 protruding out of the front housing 21 is too large, the position of the clip arm contacting with the neck wearing the bracket 10 is further back, and even the clip arm cannot be clipped to the neck. And flexible base plate 231 sets up between preceding casing 21 and back casing 22, and the structure that vibration unit 24 exposes can reduce the height that vibration unit 24 protrudes the surface of procapsid 21 under the prerequisite of guaranteeing vibration unit 24 activity degree of freedom, avoids protruding too much to lead to the arm lock to be difficult to press from both sides the neck. Therefore, by setting the height of the vibration unit 24 extending out of the outer surface of the front housing 21 of the massage head 20 to D, the clip arm can be easily clipped to the neck, the neck massage apparatus 100 can be conveniently worn on the neck of the human body, and the massage head 20 can be ensured to be in contact with the neck of the human body.

Illustratively, the length of the handle 12 is greater than 60mm, so as to further ensure that the clip arms can contact with the neck of the human body, thereby further facilitating the neck massager 100 to be worn on the neck of the human body.

In some embodiments of the present invention, as shown in fig. 3 and 13, the neck massager 100 may further include: a mounting plate 25, the mounting plate 25 being a hard material piece, a second surface 251 of the mounting plate 25 facing the front housing 21 being formed in a curved shape concave rearward, and the substrate assembly 23 being sandwiched between the front housing 21 and the mounting plate 25 such that the first surface 232 of the flexible substrate 231 is shaped in a curved shape concave rearward. Wherein, the relative front surface unevenness of back casing 22 and base plate subassembly 23, and the front surface of back casing 22 will set up characteristics such as connection structure 48, it is few to be used for installing flexible substrate 231, through setting up mounting panel 25, can make base plate subassembly 23 installation more firm, and, flexible substrate 231 can be moulded through mounting panel 25, so that a plurality of vibrating unit 24 are towards different directions, simultaneously, under the effect of mounting panel 25, can make flexible substrate 231 keep the curved surface shape, can guarantee a plurality of vibrating unit 24 and a plurality of holes 211 of passing one-to-one counterpoint, thereby can be convenient for a plurality of vibrating unit 24 and a plurality of holes 211 of passing and assemble.

Illustratively, the substrate assembly 23 is affixed to the mounting plate 25 such that the first surface 232 of the flexible substrate 231 is shaped into a curved shape that is concave toward the rear, the mounting plate 25 being secured to the front case 21 and/or the rear case 22. It should be noted that the mounting plate 25 may be mounted on the front case 21, the mounting plate 25 may be mounted on the rear case 22, the mounting plate 25 may be mounted on both the front case 21 and the rear case 22, and preferably, the mounting plate 25 is mounted on the rear case 22. Wherein, the front surface unevenness of back casing 22, the place that can bond is few, is used for bonding base plate subassembly 23 through setting up mounting panel 25, and bonding convenient operation can make base plate subassembly 23 installation more firm to, can guarantee that a plurality of vibrating element 24 and a plurality of hole 211 counterpoints one by one that pass, a plurality of vibrating element 24 of being convenient for more and a plurality of hole 211 assembly that pass, simultaneously, can guarantee that a plurality of vibrating element 24 are towards different directions.

In some embodiments of the present invention, as shown in fig. 3, 12, 14 and 15, the flexible substrate 231 is provided with an annular skirt 233 at the outer periphery, and the skirt 233 is adhered to and wrapped around the outer periphery of the mounting plate 25. The skirt 233 is adhered and fixed to the mounting plate 25, so that the flexible substrate 231 can be fixed and shaped conveniently, the first surface 232 of the flexible substrate 231 can keep a curved surface shape, and the flexible substrate 231 can be prevented from being separated from the mounting plate 25.

In some embodiments of the present invention, as shown in fig. 3, 8, 11 and 13, the mounting plate 25 may be provided with a plurality of wire passing holes 252, or the number of the mounting plates 25 is multiple, the wire passing holes 252 are formed between the plurality of mounting plates 25, the wires 26 connected to each vibration component 242 pass through the wire passing holes 252 to be connected to the electronic control unit of the neck massage apparatus 100, the arrangement of the wires 26 is facilitated by the wire passing holes 252, the wires 26 can be prevented from bypassing the mounting plates 25 to be connected to the electronic control unit, the arrangement length of the wires 26 can be reduced, and the mounting space occupied by the wires 26 can be reduced.

In some embodiments of the utility model, as shown in fig. 8, a floating space 27 is provided between at least part of the base plate assembly 23 and the mounting plate 25, the floating space 27 being used to provide clearance when the vibratory unit 24 is moved backwards. The floating space 27 may be disposed corresponding to the vibration unit 24, and when the vibration unit 24 vibrates toward the interior of the massage head 20, the vibration unit 24 may be prevented from being damaged by the vibration unit 24 hitting the mounting plate 25, so that the vibration unit 24 may be effectively protected, and the service life of the vibration unit 24 may be prolonged.

In some embodiments of the present invention, as shown in fig. 8, 9, 10 and 15, the side of the base plate assembly 23 facing the mounting plate 25 is provided with a plurality of grooves 234 recessed away from the mounting plate 25, the plurality of grooves 234 define the floating space 27, and specifically, the side of the flexible base plate 231 facing the mounting plate 25 is provided with a plurality of grooves 234 recessed away from the mounting plate 25, such that the floating space 27 can be disposed on the flexible base plate 231, which facilitates the disposition of the floating space 27, and also, the weight of the base plate assembly 23 can be reduced, the weight of the neck massager 100 can be reduced, thereby improving the comfort of the user wearing the neck massager 100.

In some embodiments of the present invention, flexible substrate 231 may be bonded directly to front housing 21 or rear housing 22, preferably: the flexible substrate 231 is adhered to the front housing 21, and particularly, the rear surface of the front housing 21 is formed in a curved shape that is concave rearward, and the flexible substrate 231 is adhered to the rear surface of the front housing 21 such that the first surface 232 of the flexible substrate 231 is shaped in the curved shape that is concave rearward, so that the flexible substrate 231 can be reliably mounted on the front housing 21, the flexible substrate 231 can be easily shaped by the front housing 21, and the flexible substrate 231 can be maintained in the curved shape, so that the mounting position of the vibration unit 24 can be secured.

Further, a pressing protrusion 221 may be provided on the rear case 22, and the pressing protrusion 221 abuts against the flexible substrate 231 to press the flexible substrate 231. Wherein, if flexible substrate 231 directly bonds on procapsid 21, back casing 22 need set up extrusion bellying 221 extrusion flexible substrate 231, so set up and can further fix flexible substrate 231, can avoid leading to the first massage face 243 of vibration unit 24 to pass through hole 211 after flexible substrate 231 perks, and neck massager 100 wears behind human neck, can guarantee the better laminating of vibration unit 24 and human body.

In some embodiments of the present invention, the substrate assembly 23 may be a flexible substrate 231, and the plurality of vibration units 24 are all connected to the flexible substrate 231, such that the structure of the substrate assembly 23 can be simplified, the installation process of the flexible substrate 231 can be simplified, and the assembly of the vibration units 24 and the substrate assembly 23 can be facilitated.

In some embodiments of the present invention, the substrate assembly 23 may include: a plurality of flexible substrates 231, each flexible substrate 231 being in a flat plate shape in a free state, and at least one vibration housing 241 being connected to each flexible substrate 231, it can also be understood that at least one vibration unit 24 being connected to each flexible substrate 231, the plurality of flexible substrates 231 being fixedly connected to each other as a one-piece integrated panel, the panel being mounted between the front housing 21 and the rear housing 22, and a surface of the panel facing the front housing 21 being shaped into a curved surface shape recessed rearward so that the first massage surfaces 243 of the plurality of vibration units 24 face in different directions and protrude through the plurality of through holes 211. The front housing 21 and the rear housing 22 can protect the flexible substrate 231, and the flexible substrate 231 can be prevented from being damaged by external objects.

In some embodiments of the present invention, the substrate assembly 23 may include a plurality of flexible substrates 231, each flexible substrate 231 is in a flat plate shape in a free state, and at least one vibration housing 241 is connected to each flexible substrate 231, the plurality of flexible substrates 231 are installed between the front housing 21 and the rear housing 22, and the first surface 232 of each flexible substrate 231 is shaped into a curved surface shape recessed rearward so that the first massage surfaces 243 of the plurality of vibration units 24 face different directions and penetrate through the plurality of through holes 211, it should be noted that, in this embodiment, the plurality of flexible substrates 231 are sequentially arranged along the extending direction of the front housing 21 or the rear housing 22, and the neck massage apparatus 100 is worn behind the neck of the human body to ensure that the first massage surfaces 243 contact with the neck of the human body.

In some embodiments of the present invention, a plurality of mounting grooves 222 are formed in a side of the rear case 22 facing the front case 21, each flexible substrate 231 is mounted in the mounting groove 222, and the mounting grooves 222 can position the position of the flexible substrate 231, so that the position of the flexible substrate 231 can be prevented from moving, and the positional stability of the vibration unit 24 can be ensured.

In some embodiments of the present invention, an edge of each flexible substrate 231 may be provided with a flange extending toward the rear case 22, and the flange is adhered to the wall surface of the mounting groove 222, so that the floating space 27 is formed between the flexible substrate 231 and the rear case 22. The floating space 27 may be disposed corresponding to the vibration unit 24, and when the vibration unit 24 vibrates towards the interior of the massage head 20, the vibration unit 24 may be prevented from being damaged by the impact of the vibration unit 24 on the rear housing 22, so that the vibration unit 24 may be effectively protected, and the service life of the vibration unit 24 may be prolonged.

In some embodiments of the present invention, the vibration housing 241 and the flexible substrate 231 are separately formed parts, and it can also be understood that the vibration housing 241 and the flexible substrate 231 are separate parts, so that the manufacturing difficulty of the vibration housing 241 and the flexible substrate 231 can be reduced, the production efficiency of the vibration housing 241 and the flexible substrate 231 can be improved, and when the vibration housing 241 and/or the flexible substrate 231 is damaged, the vibration housing 241 and the flexible substrate 231 can be replaced conveniently, so that the maintenance cost of the neck massager 100 can be reduced.

In some embodiments of the present invention, as shown in fig. 3, 8, 9, 12, 14 and 16, the flexible substrate 231 may be provided with a plurality of receiving grooves 236, a plurality of vibration housings 241 are respectively mounted in the plurality of receiving grooves 236 in a one-to-one correspondence manner, and the first massage surface 243 of each vibration housing 241 protrudes forward of the corresponding receiving groove 236. Further, the vibration housing 241 can be set as a hard housing, the flexible substrate 231 is provided with a flexible mounting seat, the flexible mounting seat protrudes from the flexible substrate 231 toward the front housing 21, the flexible mounting seat is formed with an accommodating groove 236, the vibration unit 24 can frequently vibrate during working, and the flexible mounting seat can better support the vibration unit 24, so that the flexible substrate 231 can be prevented from being greatly deformed, and the vibration housing 241 and the front housing 21 can be prevented from colliding.

In some embodiments of the present invention, as shown in fig. 8 and 9, the inner wall of the receiving groove 236 is provided with an insertion groove 237 facing away from the receiving groove 236, and the vibration housing 241 may be provided with an insertion portion 244 inserted into the insertion groove 237. Wherein, the depth direction of the insertion groove 237 is parallel to the radial direction of the receiving groove 236, the inner side wall of the receiving groove 236 is provided with a limit protrusion protruding the inner side wall of the receiving groove 236, and the insertion groove 237 is defined by the limit protrusion, the inner side wall of the receiving groove 236 and the bottom wall of the receiving groove 236. Further, at least a part of the structure of the vibration housing 241 is turned outward to form the insertion portion 244, and the vibration housing 241 can be fixedly mounted on the flexible substrate 231 by inserting the insertion portion 244 into the insertion groove 237, so that the mounting is simple and convenient.

In some embodiments of the present invention, as shown in fig. 8 and 9, an escape gap 245 may be provided between the outer peripheral wall of the vibration housing 241 and the corresponding inner wall of the through hole 211. Specifically, after the vibration housing 241 passes through the through hole 211, the peripheral wall of the vibration housing 241 and the corresponding inner wall of the through hole 211 are spaced apart to form an avoiding gap 245, the avoiding gap 245 has an avoiding function, and the avoiding gap 245 can provide a moving space for the vibration unit 24 when the vibration unit 24 vibrates.

In some embodiments of the present invention, as shown in fig. 8 and 9, a dispensing space 28 is defined between the flexible substrate 231 and the front housing 21, the dispensing space 28 is communicated with the escape gap 245, and the dispensing space 28 is provided with a glue passing hole 281 communicated with the insertion groove 237. The gap between the limiting protrusion and the vibration housing 241 is formed as the glue passing hole 281, after the insertion portion 244 is inserted into the insertion groove 237, glue can be injected into the glue dispensing space 28 through the escape gap 245, the glue in the glue dispensing space 28 flows into the insertion groove 237 from the glue passing hole 281, and the glue in the insertion groove 237 reliably bonds the insertion portion 244 in the insertion groove 237, so that the mounting firmness of the flexible substrate 231 and the vibration housing 241 can be further improved.

In some embodiments of the present invention, as shown in fig. 25, 27, 28, 30 and 31, the vibration housing 241 may be filled with an adhesive 246, and the adhesive 246 is filled between the vibration member 242 and the vibration housing 241, and the vibration member 242 may be fixed, that is, the vibration member 242 is fixedly installed in the vibration housing 241, and the vibration member 242 is prevented from colliding with the vibration housing 241 when vibrating. The adhesive 246 is disposed between the vibration housing 241 and the vibration member 242, so that the vibration member 242 is fixed in the vibration housing 241, the vibration member 242 does not move relative to the vibration housing 241, and the vibration member 242 is prevented from colliding with the vibration housing 241 during vibration, thereby effectively protecting the vibration member 242 and further prolonging the service life of the vibration member 242.

In some embodiments of the present invention, as shown in fig. 2, the neck massager 100 may include: the electric pulse generator 30, the vibration shell 241 is a conductive member, the electric pulse generator 30 is electrically connected with the vibration shell 241 through a conductive wire 31 to provide a pulse signal to the vibration shell 241, the conductive wire 31 is electrically connected with the inner wall of the vibration shell 241 in a welding manner and forms a welding point, and the adhesive 246 covers the conductive wire 31, the vibration shell 241 and the welding point. When the electric pulse generator 30 is operated, the electric pulse generator 30 can provide a pulse signal to the vibration shell 241, so that the vibration shell 241 massages the neck of the human body. Furthermore, by covering the conductive wire 31, the vibration case 241, and the solder joints with the adhesive 246, the conductive wire 31 can be fixed, and the solder joints can be covered with the adhesive 246, so that the vibration of the vibration member 242 can be prevented from colliding with the conductive wire 31 and the solder joints, and the electrical connection of the conductive wire 31 can be effectively protected.

In some embodiments of the present invention, as shown in fig. 2, the neck massager 100 may comprise: the electric pulse generating device 30, the vibration shell 241 is a conductive member, the electric pulse generating device 30 is electrically connected with the vibration shell 241 through a conductive wire 31 or a flat cable to provide a pulse signal to the vibration shell 241, the vibration shell 241 may include an end cover portion 247 and a side wall portion 248, a front surface of the end cover portion 247 defines a first massage surface 243, the side wall portion 248 is connected with the end cover portion 247, a side of the side wall portion 248 away from the end cover portion 247 defines a mounting opening 249 for mounting the vibration component 242, and the vibration component 242 may be mounted in the vibration shell 241 through the mounting opening 249, which can facilitate mounting the vibration component 242 in the vibration shell 241 and simplify the structure of the vibration shell 241. And, the end of the side wall portion 248 remote from the end cap portion 247 is turned inside out to form the insert portion 244.

Furthermore, at least a part of the structure of the side wall portion 248 is bent inward to form a bent portion 2491, the bent portion 2491 is located on the side of the vibration member 242 away from the end cap portion 247, preferably, at least a part of the structure of the end portion of the side wall portion 248 away from the end cap portion 247 is bent inward in the radial direction of the vibration housing 241 to form a bent portion 2491, and the bent portion 2491 can limit the vibration member 242, so that the vibration member 242 can be prevented from moving out of the vibration housing 241 from the mounting opening 249, and the working reliability of the vibration member 242 can be improved. Further, since the conductive line 31 is electrically connected to the bent portion 2491 or the like, the positional stability of the conductive line 31 can be further improved, and the conductive line 31 can be prevented from colliding with the vibration member 242, thereby further protecting the electrical connection of the conductive line 31. Specifically, when the electric pulse generating device 30 is electrically connected to the vibration housing 241 through the conductive wire 31, the conductive wire 31 is welded to the bent portion 2491. When the electric pulse generating device 30 is electrically connected to the vibration casing 241 through the flat cable, the first terminal is disposed on the bending portion 2491, and the second terminal is disposed on the flat cable, so that the electric connection is realized through the insertion and the mating of the first terminal and the second terminal.

In some embodiments of the present invention, as shown in fig. 2, the neck massager 100 may include an electric pulse generating device 30, the vibration housing 241 is a conductive member, the electric pulse generating device 30 is electrically connected to the vibration housing 241 through a conductive wire 31 to provide a pulse signal to the vibration housing 241, one end of the conductive wire 31 extends between the vibration member 242 and the vibration housing 241, the vibration member 242 presses one end of the conductive wire 31 on the vibration housing 241 to electrically connect the conductive wire 31 to the vibration housing 241, preferably, as shown in fig. 31, a lower end of the conductive wire 31 extends below the vibration member 242, and the vibration member 242 presses a lower end of the conductive wire 31 on the end cap portion 247. The vibration component 242 can press the end of the conductive wire 31 extending into the vibration shell 241, so that the conductive wire 31 can be prevented from being badly connected with the vibration shell 241, the electric connection between the conductive wire 31 and the vibration shell 241 is ensured to be stable and reliable, and the reliability and the stability of the electric stimulation massage function are improved.

In some embodiments of the present invention, as shown in fig. 1, 2, 32 and 33, the neck massager 100 may further include: the auxiliary massage unit 40, the auxiliary massage unit 40 has only heating and/or electrical stimulation functions. The auxiliary massage unit 40 may include an auxiliary housing 41, the auxiliary housing 41 being connected to the base plate assembly 23, the auxiliary housing 41 having a second massage face 42 adapted to contact the human body, the second massage face 42 of the auxiliary housing 41 passing out through the through hole 211, the vibration member 242 not being provided in the auxiliary housing 41. Wherein, when the neck massage apparatus 100 is worn on the neck of the human body, the second massage surface 42 of the auxiliary casing 41 is attached to the neck of the human body, and the auxiliary massage unit 40 can massage the neck of the human body, for example: the auxiliary massage unit 40 heats the human neck and/or electrically stings the human neck.

Further, the auxiliary massage unit 40 may further include: the heating element 43, the heating element 43 is arranged in the auxiliary casing 41, the control unit of the neck massage apparatus 100 is electrically connected with the heating element 43, the arrangement can enable the auxiliary massage unit 40 to have a heating function, and the control unit can control whether the heating element 43 works or not. And/or the neck massage apparatus 100 may include an electric pulse generating device 30, the electric pulse generating device 30 is electrically connected to the auxiliary housing 41 through an electric lead 31, so as to provide the auxiliary massage unit 40 with an electric stimulation function.

In some embodiments of the present invention, as shown in FIG. 1, the plurality of vibration units 24 may include: a first vibration unit group 44 and a second vibration unit group 45, the first vibration unit group 44 and the second vibration unit group 45 being respectively located at both sides of the front case 21 in the length direction, and the auxiliary massage unit 40 being located between the first vibration unit group 44 and the second vibration unit group 45. Wherein, because the auxiliary massage unit 40 has no vibration function, the auxiliary massage unit 40 needs to be attached to the neck of the human body, otherwise, the auxiliary massage unit 40 is difficult to transfer heat to the neck of the human body, or the neck of the human body is pricked due to poor electrical stimulation attachment. If the auxiliary massage units 40 are installed at both sides of the front housing 21 in the longitudinal direction, the auxiliary massage units 40 are easily moved by the vibration unit 24 to be shaken largely, resulting in poor attachment of the auxiliary massage units 40 to the neck of the human body. And through being located auxiliary massage unit 40 between first vibration unit group 44 and second vibration unit group 45, can install auxiliary massage unit 40 in the relative central position of procapsid 21, auxiliary massage unit 40 is difficult to be driven by vibration unit 24 and takes place vibration by a relatively large margin, can guarantee like this that heating and/or electro-stimulation are better with the laminating of human neck to can guarantee auxiliary massage unit 40's massage effect.

In some embodiments of the present invention, as shown in fig. 1, the auxiliary massage unit 40 is located between the plurality of vibration units 24, such arrangement can prevent the auxiliary massage unit 40 from being disposed at two sides of the front housing 21 in the length direction, and can further ensure that the auxiliary massage unit 40 is not easily driven by the vibration units 24 to generate a large amplitude of vibration, so as to make the arrangement position of the auxiliary massage unit 40 suitable.

In some embodiments of the present invention, the area of the second massage surface 42 is larger than the area of the first massage surface 243, wherein the vibration unit 24 may also be provided with a heating and/or electrical stimulation function, but when the vibration unit 24 vibrates, it is difficult to ensure that the first massage surface 243 is well attached to the neck of the human body, so by setting the area of the second massage surface 42 to be larger than the area of the first massage surface 243, a larger area of heating and/or electrical stimulation can be ensured, and a better heating and/or electrical stimulation effect can be achieved.

In some embodiments of the present invention, the area of the second massage surface 42 is more than twice the area of the first massage surface 243, such arrangement can further ensure that the neck massage apparatus 100 has a larger area of heating and/or electrical stimulation, which can achieve a better heating and/or electrical stimulation effect, so as to make the ratio of the area of the second massage surface 42 to the area of the first massage surface 243 suitable.

In some embodiments of the present invention, the auxiliary massage unit 40 may include: generate heat piece 43 and first filler 46, first filler 46 is filled and is being sent away from the inner wall of second massage face 42 so that generate heat piece 43 laminating auxiliary housing 41 at one side that generates heat piece 43, and the setting can make the reliable laminating of generating heat piece 43 at auxiliary housing 41's inner wall like this, can guarantee that the heat of generating heat piece 43 can transmit to auxiliary housing 41 to guarantee auxiliary housing 41's heating function.

In some embodiments of the present invention, as shown in fig. 32, the auxiliary housing 41 has a welding portion 47 bent inward, further, the welding portion 47 is bent toward the radial inner side of the auxiliary housing 41, the welding portion 47 is located on the side of the first filler facing away from the heat generating member 43, and the conductive wire 31 connected to the electric pulse generating device 30 is welded to the welding portion 47. The electric stimulation function can be provided by the electric wire 31 and the electric pulse generator 30, the electric stimulation function of the auxiliary case 41 can be ensured, and the electric wire 31 is welded to the welding portion 47 by the electric wire 31, so that the installation position of the electric wire 31 can be stabilized, and the electric wire 31 can be prevented from being separated from the auxiliary case 41.

In some embodiments of the present invention, both front housing 21 and rear housing 22 may be hard pieces of material, such as: the front housing 21 and the rear housing 22 may each be a piece of metal material, the maximum length of the massage head 20 being less than 80 mm. Wherein, through all setting up procapsid 21 and back casing 22 to hard material spare, can avoid procapsid 21 and back casing 22 to take place to warp, can avoid flexible base plate 231 to resume flat structure, and, through making the maximum length of massage head 20 be less than 80mm, can guarantee to massage vibration unit 24 and the supplementary massage unit 40 on the head 20 and laminate human neck well, can guarantee the massage effect of neck massage appearance 100, thereby can guarantee the working property of neck massage appearance 100, and then can make the length size of massage head 20 fit.

In some embodiments of the present invention, the front housing 21 and the rear housing 22 may each be an elastic material, and the front housing 21 and the rear housing 22 may be capable of being elastically deformed to change the orientation of at least part of the first massage face 243, for example: front housing 21 and rear housing 22 may each be a flexible piece of silicone. Wherein at least a portion of the front case 21 and/or the rear case 22 is integrally molded with at least a portion of the flexible substrate 231. Thereby reducing the complexity of the connections of the structure. Further, procapsid 21 and back casing 22 all set up to flexible silica gel spare, thereby can reduce the connection complexity of structure, can also improve first massage face 243, the travelling comfort when second massage face 42 contacts with the human body, make first massage face 243 simultaneously, second massage face 42 can have better laminating degree with the shape phase-match of human neck, avoid first massage face 243, the appearance of the unable and human neck contact's of second massage face 42 condition, elastic material spare can also play certain absorption vibration's effect simultaneously, can weaken the vibration of wearing support 10. However, the present invention is not limited thereto, and a part of the front case 21 and/or the rear case 22 is configured as an elastic material member, and another part thereof is configured as a hard material member.

In some embodiments of the present invention, as shown in fig. 1 and 2, the massage head 20 is connected to the wearing bracket 10 and forms a connecting structure 48, it can also be understood that the connecting structure 48 is connected between the massage head 20 and the wearing bracket 10, a portion of the massage head 20 extending out of at least one side of the connecting structure 48 in the length direction is formed as a suspended portion 49, the suspended portion 49 is spaced apart from the wearing bracket 10, and the suspended portion 49 is provided with the vibration unit 24. The front case 21 and the rear case 22 have elasticity, so that the suspended portion 49 can have a deformation amount by the elasticity of the front case 21 and the rear case 22; and/or the massage head 20 can swing relative to the wearing bracket 10 so that the suspended portion 49 can approach or depart from the wearing bracket 10, and/or the massage head 20 can float relative to the wearing bracket 10 so that the massage head 20 can approach or depart from the wearing bracket 10 as a whole. Further, the rear case 22 is movably coupled to the wearable support 10, and the front case 21 and the rear case 22 are flexibly deformed together with the flexible substrate 231. Therefore, the massage head 20 can better adapt to the curve of the neck, the vibration unit 24 can be attached to the neck of the human body, the vibration unit 24 is arranged on the suspension part 49, and the shell 22 can be movably and/or floatably connected with the wearing bracket 10 after being matched, so that the vibration unit 24 has larger amplitude, and the neck massage instrument 100 can have better massage effect.

Further, the middle bracket 11 may include a hard elastic outer shell 14 and a flexible inner shell 15, and the rear shell 22 of the massage head 20 is connected to the flexible inner shell 15, so that the massage head 20 can be more flexibly deformed by the flexible inner shell 15 and the flexible base plate 231 together, thereby making the massage head 20 better adapt to the curve of the neck of the human body and making the vibration unit 24 fit to the human body.

In some embodiments of the present invention, the number of the massage heads 20 may be set to one, the connecting structure 48 is located in the middle of the wearing frame 10, and the massage heads 20 extend out from both sides of the connecting structure 48 in the length direction to form two hanging portions 49. Thereby enabling the massage heads 20 to massage the human neck and the left and right sides of the human neck simultaneously, avoiding the massage heads 20 from deflecting towards one side of the neck, and ensuring the massage effect on the neck, so that the working performance of the neck massage apparatus 100 can be ensured, and further, the complaints of the user can be avoided.

In some embodiments of the present invention, the number of the massage heads 20 may be set to one, the connection structure 48 is located in the middle of the middle support 11, and the neck massage apparatus 100 is worn on the back of the neck of the human body, by setting the connection structure 48 in the middle of the middle support 11, the massage heads 20 can massage the neck of the human body and the left and right sides of the neck of the human body at the same time, and the massage head 20 is prevented from being inclined toward one side of the neck, so that the massage effect on the neck can be ensured, the working performance of the neck massage apparatus 100 can be ensured, and further, the complaint of the user can be avoided.

In some embodiments of the present invention, as shown in fig. 1, a plurality of vibration units 24 are spaced from one end of the front housing 21 to the other end of the front housing 21 in the length direction of the wearing frame 10, such that the plurality of vibration units 24 are arranged along the curve of the neck of the human body, and the neck massager 100 is worn on the neck of the human body, such that the plurality of vibration units 24 can be reliably attached to the neck of the human body. In addition, the massage head 20 with high flexibility, particularly in the middle of the middle bracket 11, the connecting structure 48 is positioned in the middle of the middle bracket 11, in the length direction of the wearing bracket 10, two ends of the massage head 20 float, the vibration unit 24 is arranged from one end to the other end, and the vibration unit 24 is arranged at two ends, so that the whole wrapping performance is good, the vibration floating of the end part of the massage head 20 is large, and the vibration effect is good.

In some embodiments of the present invention, as shown in fig. 1, the first massage surfaces 243 of the plurality of vibration units 24 enclose a concave curved surface shape, and since the neck of the human body is of a curved surface structure, the neck massage apparatus 100 is worn on the back of the neck of the human body, and the curved surface shape enclosed by the first massage surfaces 243 of the plurality of vibration units 24 can better fit with the neck of the human body, so as to improve the massage effect of the neck massage apparatus 100.

When the massage head 20 is not large in size, the hard front case 21 is used, the assembly is convenient, the flexible board 231 can be protected well, the shape of the front case 21 and the direction of the through hole 211 can be determined easily, and the direction of the first massage surface 243 can be determined after the flexible board 231 is mounted. Further, when the massage head 20 has a large area and the number of the vibration units 24 is large, the front housing 21 has a good deformation effect, and the plurality of vibration units 24 can be easily attached to the neck.

In some embodiments of the present invention, the wearing support 10 is an elastic support, the rear housing 22 of the massage head 20 is at least partially spaced apart from the wearing support 10, or the rear housing 22 of the massage head 20 is connected to the wearing support 10 by a soft rubber member. It can be understood that, if the vibration unit 24 is directly disposed on the side of the wearing support 10 facing the wearing space, the elastic deformation of the wearing support 10 will drive the first massage surface 243 of the vibration unit 24 to change its orientation, so that the vibration unit 24 is always elastically constrained by the wearing support 10 when being attached to the neck, and the conformability is not good. In the present invention, the vibration unit 24 is disposed on the massage head 20 spaced apart from the wearable support 10, so that the natural orientation of the first massage surface 243 of the vibration unit 24 is less affected by the elastic deformation of the wearable support 10, and the conformability of the first massage surface 243 of the vibration unit 24 to the massage part is improved.

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 utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the utility model 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 utility model, the scope of which is defined by the claims and their equivalents.

Claims (37)

1. A neck massager, comprising:

a wearing bracket defining a wearing space of the neck;

a massage head including a front housing, a rear housing, a base plate assembly, and a plurality of vibration units, the massage head being provided on a side of the wearing bracket facing the wearing space, the rear housing being connected to the wearing bracket, the front housing being provided on a side of the rear housing facing away from the wearing bracket, a front surface of the front housing being formed in a curved shape recessed rearward, the front surface of the front housing being provided with a plurality of through holes, each of the through holes penetrating the front housing in a front-rear direction;

each vibration unit comprises a vibration shell and a vibration part, the vibration part is arranged in the vibration shell, and a plurality of vibration shells are connected to the substrate assembly;

the base plate assembly includes at least one flexible base plate formed in a flat plate shape in a free state, the base plate assembly is mounted between the front case and the rear case and a first surface of the flexible base plate facing the front case is shaped into a curved surface shape recessed rearward so that at least a part of the first massage faces of the vibration cases face different directions, the first massage faces of the plurality of vibration cases passing out through the plurality of through holes, respectively.

2. The neck massager of claim 1 wherein the massage head further comprises a mounting plate, the mounting plate being a hard material, a second surface of the mounting plate facing the front housing being formed in a curved shape that is concave rearward, the base plate assembly being clamped between the front housing and the mounting plate such that the first surface of the flexible base plate is shaped in a curved shape that is concave rearward.

3. The neck massager of claim 1 wherein the massage head further comprises a mounting plate of a hard material, wherein a second surface of the mounting plate facing the front housing is formed with a curved shape that is concave rearward, wherein the base plate assembly is affixed to the mounting plate such that the first surface of the flexible base plate is shaped with a curved shape that is concave rearward, and wherein the mounting plate is secured to the front housing and/or the rear housing.

4. The neck massager of claim 3 wherein the flexible substrate is provided with an annular skirt at the peripheral edge thereof, the skirt being adhered to and wrapped around the peripheral edge of the mounting plate.

5. The neck massager of any one of claims 2 to 4 wherein the mounting plates are provided with wire passing holes, or a plurality of mounting plates are provided, the wire passing holes are formed among the mounting plates, and a lead wire connected to each of the vibrating members is connected to an electric control unit of the neck massager through the wire passing holes.

6. The neck massager of any one of claims 2-4 wherein a floating space is provided between at least a portion of the base plate assembly and the mounting plate, the floating space being configured to provide clearance when the vibratory unit is moved rearwardly.

7. The neck massager of claim 6 wherein the side of the base plate assembly facing the mounting plate is provided with a plurality of recesses recessed away from the mounting plate, the plurality of recesses defining the float space.

8. The neck massager of claim 1 wherein the rear surface of the front housing is formed in a curved shape that is concave rearward, the flexible substrate being bonded to the rear surface of the front housing such that the first surface of the flexible substrate is shaped in the curved shape that is concave rearward.

9. The neck massager of claim 8 wherein the rear housing has a pressing protrusion thereon, the pressing protrusion abutting against the flexible substrate to press the flexible substrate.

10. The neck massager of claim 1 wherein the base assembly is a flexible base and the plurality of vibratory units are each coupled to the flexible base.

11. The neck massager of claim 1 wherein the base plate assembly comprises a plurality of flexible base plates, each flexible base plate being in the form of a flat plate in the free state and having at least one of the vibrating housings attached thereto, the plurality of flexible base plates being fixedly attached to one another as a unitary panel; the panel is installed between the front case and the rear case and a surface of the panel facing the front case is shaped into a curved shape recessed rearward so that the first massage faces of the plurality of the vibration units face different directions and pass out through the plurality of through holes.

12. The neck massager of claim 1 wherein the base plate assembly comprises a plurality of the flexible base plates, each of the flexible base plates being in a flat plate shape in the free state and at least one of the vibration housings being attached to each of the flexible base plates; the plurality of flexible substrates are mounted between the front housing and the rear housing and the first surface of each of the flexible substrates is shaped into a curved shape that is concave rearward so that the first massage faces of the plurality of vibration units face in different directions and pass out of the plurality of through holes.

13. The neck massager of claim 12 wherein the rear housing is provided with a plurality of mounting slots on a side thereof facing the front housing, each of the flexible substrates being mounted in the mounting slots.

14. The neck massager of claim 13 wherein each of the flexible substrates has a flange extending toward the rear housing, the flange being bonded to the wall of the mounting groove to form a floating space between the flexible substrate and the rear housing.

15. The neck massager of claim 1 wherein the vibrating housing and the flexible substrate are separate formed pieces.

16. The neck massager of claim 15 wherein the flexible substrate defines a plurality of receiving slots, the plurality of vibrating housings are mounted in the plurality of receiving slots in a one-to-one correspondence, and the first massage surface of each vibrating housing extends through the corresponding receiving slot.

17. The neck massager of claim 16 wherein the inner wall of the receiving groove is provided with an insertion groove facing away from the receiving groove, and the vibration housing is provided with an insertion portion to be inserted into the insertion groove.

18. The neck massager of claim 17 wherein an escape gap is provided between the outer peripheral wall of the vibration housing and the corresponding inner wall of the through hole.

19. The neck massager of claim 18 wherein a dispensing space is defined between the flexible substrate and the front housing, the dispensing space is in communication with the clearance, and the dispensing space is provided with a dispensing hole in communication with the insertion slot.

20. The neck massager of claim 1 wherein the vibration housing is filled with an adhesive, and the adhesive is filled between the vibration member and the vibration housing to fix the vibration member and prevent the vibration member from colliding with the vibration housing when vibrating.

21. The neck massager of claim 1, wherein the neck massager comprises an electric pulse generator, wherein the vibration housing is an electrically conductive member, the electric pulse generator is electrically connected with the vibration housing through a conductive wire to provide a pulse signal to the vibration housing, the conductive wire is electrically connected with the inner wall of the vibration housing in a welding manner and forms a welding spot, and an adhesive covers the conductive wire, the vibration housing and the welding spot.

22. The neck massager of claim 1, wherein the neck massager comprises an electric pulse generating device, the vibration housing is an electrically conductive member, the electric pulse generating device is electrically connected with the vibration housing through an electrically conductive wire or a flat cable to provide a pulse signal to the vibration housing, the vibration housing comprises an end cover part and a side wall part, the front surface of the end cover part defines the first massage surface, the side wall part is connected with the end cover part, and one side of the side wall part, which is far away from the end cover part, defines a mounting opening for mounting the vibration component;

at least one part of the side wall part is bent inwards to form a bent part, the bent part is positioned on one side of the vibration part, which is far away from the end cover part, and the conductive wire or the flat cable is electrically connected with the bent part.

23. The neck massager of claim 1, wherein the neck massager comprises an electrical pulse generator, wherein the vibration housing is a conductive member, the electrical pulse generator is electrically connected to the vibration housing through a conductive wire to provide a pulse signal to the vibration housing, one end of the conductive wire extends between the vibration member and the vibration housing, and the vibration member presses the one end of the conductive wire against the vibration housing to electrically connect the conductive wire to the vibration housing.

24. The neck massager of claim 1 further comprising an auxiliary massage unit including an auxiliary housing connected to the base plate assembly, the auxiliary housing having a second massage face adapted to contact the human body, the second massage face of the auxiliary housing passing out of the pass-through aperture; the auxiliary shell is not internally provided with the vibration component;

the auxiliary massage unit also comprises a heating element, the heating element is arranged in the auxiliary shell, and the control unit of the neck massager is electrically connected with the heating element; and/or

The neck massager comprises an electric pulse generating device, and the electric pulse generating device is electrically connected with the auxiliary shell through a conducting wire.

25. The neck massager of claim 24, wherein the plurality of vibratory units comprises a first vibratory unit set and a second vibratory unit set, the first vibratory unit set and the second vibratory unit set are respectively located on two sides of the front housing in the longitudinal direction, and the auxiliary massage unit is located between the first vibratory unit set and the second vibratory unit set.

26. The neck massager of claim 24 wherein the auxiliary massage unit is located between the plurality of vibratory units.

27. The neck massager of claim 24 wherein the second massage surface has an area greater than an area of the first massage surface.

28. The neck massager of claim 27 wherein the second massage surface has an area that is more than twice as large as the area of the first massage surface.

29. The neck massager of claim 24, wherein the auxiliary massage unit comprises the heat generating member and a first filling member, and the first filling member is filled on a side of the heat generating member facing away from the second massage surface so that the heat generating member is attached to the inner wall of the auxiliary housing.

30. The neck massager of claim 29 wherein the auxiliary housing has an inwardly bent welding portion on a side of the first filler facing away from the heat generating member, and wherein the conductive wire connected to the electric pulse generating device is welded to the welding portion.

31. The neck massager of claim 1 wherein the front housing and the rear housing are each a hard material piece, the massage head having a maximum length of less than 80 mm.

32. The neck massager of claim 1 wherein each of the front housing and the rear housing is an elastomeric member, the front housing and the rear housing being elastically deformable to change the orientation of at least a portion of the first massage face.

33. The neck massager of claim 1 wherein the massage head is connected to the wearing bracket to form a connection structure, a portion of the massage head extending out of at least one side of the connection structure in a length direction is formed as a suspended hanging portion, the hanging portion is spaced from the wearing bracket, and the vibrating unit is disposed on the hanging portion;

the front shell and the rear shell are elastic, and/or the massage head can swing relative to the wearing support so that the suspension part can approach or depart from the wearing support, and/or the massage head can float relative to the wearing support so that the massage head integrally approaches or departs from the wearing support.

34. The neck massager of claim 33 wherein the number of the massage heads is one, the connecting structure is located in the middle of the wearing frame, and the massage heads extend out from both sides of the connecting structure in the length direction to form two of the hanging portions.

35. The neck massager of claim 1 wherein the plurality of vibrating units are spaced apart from one end of the front housing to the other end of the front housing in a longitudinal direction of the wearing bracket.

36. The neck massager of claim 1 wherein the first massage surfaces of the plurality of vibrating units are contoured to a concave curved shape.

37. The neck massager of claim 1 wherein the wearing bracket is an elastic bracket, and at least a portion of the rear shell of the massage head is spaced from the wearing bracket, or the rear shell of the massage head is connected to the wearing bracket through a soft rubber member.

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