CN213851929U - Massage mechanism and neck massager - Google Patents

Abstract

The application relates to a massage mechanism and neck massage appearance, massage mechanism include base, panel, vibration subassembly and first elastic component, wherein: the base is provided with an installation cavity and is used for connecting the installation support; the panel cover is arranged on the base and covers the installation cavity, and the panel is used for contacting with the skin; the vibration component is arranged in the mounting cavity; first elastic component sets up in the installation cavity, and first elastic component connects respectively in base and vibration subassembly. Among the foretell massage mechanism, through set up first elastic component between vibration subassembly and base, vibration subassembly is alleviated to first elastic component and is influenced the vibration of base to alleviate the base and to the vibration influence of installing support, improve the stability when installing support wears then, prevent that the installing support from receiving the vibration and shifting.

Description

Massage mechanism and neck massager

Technical Field

The application relates to the technical field of massage instruments, in particular to a massage mechanism and a neck massage instrument.

Background

In life, the neck is uncomfortable due to improper sitting posture or lack of movement for a long time, and even serious people can generate cervical spondylosis, thereby affecting the normal life of people. In order to alleviate neck discomfort, various neck massage devices are introduced on the market.

Some conventional neck massagers include a vibrating member mounted to a frame. When the neck massager is used, the support of the neck massager is hung on the neck, and the vibrating piece massages the neck in a vibrating mode. Because the vibration of vibrating member directly influences the stability that the support was worn, even lead to the support to remove and can not keep laminating with the neck to can't reach the effect of massage.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a massage mechanism and a neck massage apparatus for solving the problem of unstable wearing of the bracket caused by vibration in the conventional neck massage apparatus.

A massage mechanism comprises a base, a panel, a vibration component and a first elastic piece, wherein:

the base is provided with an installation cavity;

the panel covers the base and covers the installation cavity, and the panel is used for contacting with skin;

the vibration assembly is arranged in the mounting cavity and is used for vibrating the panel;

the first elastic piece is arranged in the mounting cavity and is respectively connected with the base and the vibration assembly.

Among the foretell massage mechanism, through set up first elastic component between vibration subassembly and base, vibration subassembly is alleviated to first elastic component and is influenced the vibration of base to alleviate the base and to the vibration influence of installing support, improve the stability when installing support wears then, prevent that the installing support from receiving the vibration and shifting.

In one embodiment, the massage mechanism further comprises a second elastic member disposed in the mounting cavity, and the second elastic member is connected to the panel and the vibration assembly respectively. Through set up the second elastic component between panel and vibration subassembly, through addding the second elastic component, further alleviate vibration subassembly's amplitude, reduce the influence to the installing support, improve the stability when the installing support is worn.

In one embodiment, the vibration assembly comprises a fixed seat and a vibration piece, and the fixed seat is arranged in the installation cavity; the holding chamber has been seted up to the fixing base, the vibrating part set up in the holding chamber, first elastic component connect in the fixing base be close to one side of base, the second elastic component connect in the fixing base be close to one side of panel. Through setting up the fixing base for install vibrating piece.

In one embodiment, at least two positioning columns are convexly arranged on one side of the fixed seat close to the base, and the at least two positioning columns are arranged at intervals; the number of the first elastic pieces is matched with that of the positioning columns, and each first elastic piece is sleeved on the positioning columns. The first elastic piece is convenient to position and mount by arranging the positioning column; meanwhile, the position of the fixed seat in the installation cavity is determined by arranging the positioning columns, and the vibration assembly is prevented from being inclined.

In one embodiment, the axial length of the positioning column is smaller than that of the first elastic member, so that the first elastic member elastically abuts against the base.

In one embodiment, at least two bumps are convexly arranged on one side of the panel facing the skin, the at least two bumps are arranged at intervals, a limiting groove is formed in one side of each bump facing away from the skin, and the limiting grooves are communicated with the installation cavity; the number of the vibration assemblies corresponds to the number of the lugs; each vibration component is arranged in the corresponding limiting groove. Through setting up spaced lug, set up the vibration subassembly in the spacing groove of each lug to avoid influencing each other between a plurality of vibration subassemblies, improve the effect of vibration.

In one embodiment, the massage mechanism further comprises a connecting member, and the connecting member connects the panel and the base, respectively. Through setting up the connecting piece to be fixed in the base with the panel.

In one embodiment, the connecting member is provided with at least two through holes, the at least two through holes are arranged at intervals, and each bump penetrates through the corresponding through hole to be in contact with the skin. Through seting up the perforation at the connecting piece, set up a plurality of lug intervals, avoid the vibration subassembly in each lug to influence each other when vibrating to concentrate the vibration effect of vibration subassembly.

In one embodiment, the outer periphery of the connecting piece and the inner periphery of the base, which is close to the connecting piece, are provided with clamping grooves and clamping blocks which are mutually connected in a clamping manner. The connecting piece is connected with the base in a buckle connection mode, so that the assembly of parts is reduced, the structure is simplified, and the assembly efficiency is improved.

In one embodiment, the massage mechanism further includes an electrode member, each of the protrusions has a limiting hole, the limiting hole is communicated with the limiting groove, and the electrode member is disposed in the limiting groove and exposed out of the limiting hole. Through setting up the electrode piece, add the amazing massage function of weak current, richen massage mechanism's function.

In one embodiment, the second elastic member has a modulus of elasticity greater than the modulus of elasticity of the first elastic member. Elastic modulus through with the second elastic component sets up to be greater than the elastic modulus of first elastic component to ensure that the vibration subassembly will shake and feel the transmission to panel, reach the effect of vibration massage, avoid the sense of shaking not enough.

A neck massager comprises a mounting bracket and a massage mechanism in any one of the embodiments, wherein the massage mechanism is arranged on one side of the mounting bracket, which faces the skin, and a base is connected to the mounting bracket.

Drawings

Fig. 1 is a schematic structural view of a neck massager according to an embodiment.

Fig. 2 is a schematic structural view of the massage mechanism shown in fig. 1.

Fig. 3 is a partially exploded schematic view of the massage mechanism shown in fig. 2.

Fig. 4 is an exploded schematic view of the massage mechanism shown in fig. 2.

Fig. 5 is a schematic structural view of another perspective of the massage mechanism shown in fig. 2.

Fig. 6 is a schematic cross-sectional view taken along line a-a of the massage mechanism shown in fig. 5.

Fig. 7 is an assembled cross-sectional view of the vibration assembly shown in fig. 2 and the first and second elastic members.

Fig. 8 is an exploded view of the vibration assembly and the first and second elastic members shown in fig. 7.

Detailed Description

In order to facilitate an understanding of the present application, the present invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 3, in an embodiment, a massage mechanism 10 includes a base 100, a panel 200, a vibration component 300, and a first elastic component 400, wherein: the base 100 is provided with a mounting cavity 110; the panel 200 is arranged on the base 100 and covers the installation cavity 110, and the panel 200 is used for contacting with the skin; the vibration assembly 300 is arranged in the mounting cavity 110, and the vibration assembly 300 is used for vibrating the panel 200; the first elastic member 400 is disposed in the mounting cavity 110, and the first elastic member 400 is connected to the base 100 and the vibration assembly 300, respectively.

In the massage mechanism 10, the first elastic member 400 is disposed between the vibration component 300 and the base 100, and the first elastic member 400 relieves the vibration effect of the vibration component 300 on the base 100, so as to relieve the vibration effect of the base 100 on the mounting bracket 20, improve the wearing stability of the mounting bracket 20, and prevent the mounting bracket 20 from being displaced due to vibration.

In one embodiment, a massage mechanism includes a part of or the entire structure of the following embodiments; that is, the massage mechanism includes some or all of the following technical features.

As shown in fig. 1 to 3, in one embodiment, the massage mechanism 10 includes a base 100, a panel 200, a vibration component 300 and a first elastic component 400. The base 100 is used in conjunction with the mounting bracket 20 to attach the entire massage mechanism 10 to the mounting bracket 20. The base 100 defines a mounting cavity 110, and the panel 200 covers the base 100 to seal the mounting cavity 110 of the base 100. The panel 200 is used to directly contact the skin during massage to deliver a massage effect. The vibration component 300 is disposed in the mounting cavity 110, and the vibration component 300 passes through the vibration panel 200 to transmit vibration to the skin. The first elastic member 400 has elasticity, and the first elastic member 400 is disposed between the base 100 and the vibration assembly 300, thereby alleviating the influence of vibration on the base 100, and in turn, alleviating the influence of vibration on the mounting bracket 20. It is understood that in one embodiment, one end of the first elastic member 400 is connected to the base 100, and the other end of the first elastic member 400 is connected to the vibration assembly 300.

As shown in fig. 2 and 3, in one embodiment, the panel 200 is a soft gel structure. The soft gel structure is set to make the panel 200 have elasticity, so that on one hand, the vibration sense of the vibration component 300 can be buffered, and on the other hand, the skin sense of the panel 200 when contacting with the skin can be improved. In one embodiment, the faceplate 200 is silicone or rubber. To fix the first elastic member 400, in one embodiment, one end of the first elastic member 400 is abutted, adhered, clamped or welded to the base plate 100. In one embodiment, the other end of the first elastic member 400 abuts, is bonded, clamped or welded to the vibration assembly 300. The first elastic member 400 is fixed by means of connection methods such as abutting, bonding, clamping or welding, and the first elastic member 400 is prevented from moving or being inclined. In one embodiment, the first elastic member 400 is a spring.

As shown in fig. 3 and 4, in one embodiment, the massage mechanism 10 further includes a second elastic member 500, the second elastic member 500 is disposed in the mounting cavity 110, and the second elastic member 500 is respectively connected to the panel 200 and the vibration assembly 300. Through set up second elastic component 500 between panel 200 and vibration subassembly 300, through addding second elastic component 500, further alleviate vibration subassembly 300's amplitude, reduce the influence to installing support 20, improve the stability when installing support 20 wears. It is understood that the first elastic member 400 and the second elastic member 500 are respectively disposed at opposite sides of the vibration assembly 300. That is, the first elastic member 400 is coupled to one side of the vibration assembly 300, the second elastic member 500 is coupled to the opposite side of the vibration assembly 300, and the axial directions of the first and second elastic members 400 and 500 are parallel to each other. In one embodiment, the first elastic member 400 and the second elastic member 500 are both perpendicular to the skin in the axial direction. This design ensures that the first and second elastic members 400 and 500 maintain a uniform amplitude when the vibration assembly 300 vibrates, ensuring concentration of the vibration effect. In one embodiment, one end of the second elastic element 500 abuts, is adhered, clipped or welded to the side of the panel 200 facing away from the skin. In one embodiment, the other end of the second elastic member 500 abuts, is bonded, clamped or welded to the vibration assembly 300. The second elastic member 500 is fixed by means of connection methods such as butt joint, bonding, clamping or welding, and the second elastic member 500 is prevented from moving or being inclined. In one embodiment, the second elastic member 500 is a spring.

In order to improve the vibration effect of the vibration component 300, as shown in fig. 3, 5 and 6, in one embodiment, at least two protrusions 210 are convexly disposed on one side of the panel 200 facing the skin, the at least two protrusions 210 are disposed at intervals, a limiting groove 211 is disposed on one side of each protrusion 210 facing away from the skin, and the limiting groove 211 is communicated with the mounting cavity 110; the number of the vibration assemblies 300 corresponds to the number of the bumps 210; each vibration component 300 is disposed in the corresponding limiting groove 211. On the one hand, by increasing the number of the vibration assemblies 300, the vibration strength is enhanced, and the vibration sense is improved. On the other hand, by arranging the spaced bumps 210 and arranging the vibration elements 300 in the limiting grooves 211 of each bump 210, the vibration elements 300 are isolated, so that the mutual influence among the vibration elements 300 is avoided, the vibration elements 300 are prevented from offsetting the amplitude, and the vibration effect is improved. Moreover, a plurality of spaced lugs 210 are arranged on the panel, so that each lug 210 can independently deform, the fluctuation of the skin can be better adapted, the skin can be kept attached to the skin, and the massage effect is achieved.

In one embodiment, the panel 200 is a unitary flexible glue structure. It can be understood that the bumps 210 are part of the panel 200, so each bump 210 is also a soft plastic structure, and each bump 210 has elasticity, thereby alleviating the amplitude of the vibration component 300 in each bump 210 and preventing the adjacent bumps 210 from interfering with each other. In one embodiment, the skin-facing surface of each bump 210 is in the same plane or the same arc, and the bumps 210 are used for directly contacting with the skin. In one embodiment, the number of the bumps 210 is two, and the number of the vibration elements 300 is also two. In one embodiment, the number of the bumps 210 is four, and the number of the vibration elements 300 is also four. The number of vibration assemblies 300 and the number of bumps 210. In such ratios, no further description is provided. In one embodiment, as shown in fig. 6 to 8, the vibration assembly 300 includes a fixing base 310 and a vibrating member 320, the fixing base 310 is disposed in the mounting cavity 110; the fixing base 310 has a receiving cavity 311, the vibrating element 320 is disposed in the receiving cavity 311, the first elastic element 400 is connected to a side of the fixing base 310 close to the base 100, and the second elastic element 500 is connected to a side of the fixing base 310 close to the panel 200. The fixing base 310 is provided to mount the vibrating member 320. In one embodiment, the first elastic element 400 is abutted, adhered, clipped or welded on one side of the fixing base 310 close to the base 100, so that the first elastic element 400 is stably connected with the fixing base 310. In one embodiment, the second elastic member 500 abuts, is adhered, clamped or welded to one side of the fixing base 310 close to the panel 200, so that the second elastic member 500 is stably connected to the fixing base 310. In one embodiment, the inner diameter of the receiving cavity 311 is adapted to the outer diameter of the vibrating member 320, so as to prevent the vibrating member 320 from shaking in the receiving cavity 311. In one embodiment, the vibrating member 320 is a vibrating motor.

In order to fix the fixing base 310 and the first elastic member 400 in the base 100, as shown in fig. 6 to 8, in one embodiment, at least two positioning pillars 312 are protruded from one side of the fixing base 310 close to the base 100, and the at least two positioning pillars 312 are disposed at intervals; the number of the first elastic members 400 is corresponding to the number of the positioning pillars 312, and each of the first elastic members 400 is sleeved on the positioning pillars 312. By arranging the positioning column 312, the first elastic piece 400 is convenient to mount and the deformation direction of the first elastic piece 400 is limited, so that the first elastic piece 400 extends and retracts along the positioning column 312, and the first elastic piece 400 is prevented from being inclined; meanwhile, the positions of the fixing seats 310 in the installation cavity 110 are determined by arranging the positioning columns 312, so that the vibration assembly 300 is prevented from being inclined. In one embodiment, the axial length of the positioning pillar 312 is smaller than the axial length of the first elastic member 400, so that the first elastic member 400 elastically abuts against the base 100. Specifically, the axial length of the positioning pillar 312 is smaller than the axial length of the first elastic member 400, that is, there is a gap between the end surface of the positioning pillar 312 and the inner sidewall of the base 100, so as to ensure that the first elastic member 400 is elastically connected to the base 100. In one embodiment, the number of the positioning pillars 312 is two, two positioning pillars 312 are disposed at intervals, the number of the first elastic members 400 is two, and each first elastic member 400 is sleeved on the positioning pillar 312. By providing the two positioning posts 312, the two first elastic members 400 are respectively and orderly connected to the base 100, so as to prevent the fixing base 310 from being inclined. In one embodiment, the number of the positioning pillars 312 is three, three positioning pillars 312 are arranged at intervals in a triangular manner, the number of the first elastic members 400 is three, and each first elastic member 400 is sleeved on one positioning pillar 312. Due to the design, the fixing base 310 is more firmly connected to the base 100 through the first elastic member 400, and the fixing base 310 is prevented from being inclined.

In order to facilitate the placement of the vibrating member 320 in the fixing base 310, as shown in fig. 6 to 8, in one embodiment, one side of the fixing base 310 is open. It can be understood that the receiving cavity 311 in the fixing base 310 is in an open and exposed state, and the design is such that the vibrating element 320 is directly placed in the receiving cavity 311. In order to bring the vibrating member 320 closer to the skin and avoid vibration reduction, in one embodiment, the side of the fixing base 310 facing the skin is open. Thereby avoiding the fixed seat 310 isolating the vibrator 320 from the skin, i.e. the vibrator 320 is isolated from the skin only by the faceplate 200. To facilitate the arrangement of the second elastic member 500, in one embodiment, the vibration assembly 300 further includes a fixing plate 330, the fixing plate 330 is connected to the open side of the fixing base 310, and the second elastic member 500 is respectively connected to a side of the fixing plate 330 facing the panel 200 and an inner side of the panel 200. That is, the second elastic member 500 is located between the fixing plate 330 and the face plate 200. By setting the fixing plate 330, the vibration assembly 300 is coupled to the second elastic member 500 while preventing the vibration member 320 from being separated from the fixing base 310. During assembly, the vibrating element 320 is placed in the accommodating cavity 311, and then the fixing plate 330 is connected to the fixing base 310. In one embodiment, the cross-sectional area of the fixing plate 330 is smaller than that of the opened side of the fixing base 310, so that the fixing plate 330 is prevented from completely closing the opened side of the fixing base 310, and the vibration member 320 transmits vibration. In one embodiment, the second elastic member 500 is abutted, adhered, clamped or welded to the side of the fixing plate 330 facing the panel 200. It is understood that in one embodiment, the first elastic member 400 is connected to the side of the vibration assembly 300 adjacent to the panel 200, and the second elastic member 500 is connected to the side of the vibration assembly 300 adjacent to the base 100. With this structure, the vibration assembly is positioned between the first elastic member 400 and the second elastic member 500, so that the vibration assembly 300 elastically connects the panel 200 and the base 100, respectively, thereby alleviating the vibration of the vibration assembly 300 to the base 100, and consequently, the vibration of the mounting bracket 20.

To avoid detracting from the vibratory sensation of the vibratory assembly 300 on the skin, in one embodiment, as shown in fig. 6, the modulus of elasticity of the second elastic member 500 is greater than the modulus of elasticity of the first elastic member 400. The elastic modulus can be regarded as an index for measuring the difficulty of the material in elastic deformation, and the larger the value of the elastic modulus, the larger the stress for causing the material to generate certain elastic deformation, that is, the higher the rigidity of the material, that is, the smaller the elastic deformation generated under the action of certain stress. Through setting up the elastic modulus of second elastic component 500 to be greater than the elastic modulus of first elastic component 400, the rigidity of second elastic component 500 is greater than the rigidity of first elastic component 400 promptly, and elastic deformation is taken place more to first elastic component 400 to ensure that vibration subassembly 300 transmits the sense of vibration to panel 200, reach the effect of vibration massage, avoid the sense of vibration not enough. Optionally, the elastic modulus of the first elastic member 400 is greater than or equal to the elastic modulus of the second elastic member 500, so that the vibration of the vibration assembly 300 to the chassis 100 can be relieved.

In order to fix the connection panel 200 and the base 100 and prevent the connection panel from being separated from the base 100 due to the vibration of the vibration assembly 300, as shown in fig. 2 and 3, in one embodiment, the massage mechanism 10 further includes a connection member 600, and the connection member 600 connects the panel 200 and the base 100, respectively. The panel 200 is fixed to the base 100 by providing the connection member 600. Since the panel 200 is of a soft adhesive structure, in order to improve the connection strength and prevent the panel 200 from shifting, in one embodiment, the connection member 600 is of a hard adhesive structure. That is, the hardness of the connection member 600 is greater than that of the panel 200, so that the connection member 600 has a certain supporting strength to support the connection panel 200, and the connection member 600 is prevented from being easily deformed. In one embodiment, the connecting member 600 is made of plastic, the panel 200 is made of silicon, and the connecting member 600 and the panel 200 are integrally formed by injection molding or bonding, so as to ensure that the connecting member 600 and the panel 200 are stably connected.

In order to keep the panel 200 and the connecting member 600 firmly connected, as shown in fig. 4 to 6, in one embodiment, the connecting member 600 is provided with at least two through holes 610, the at least two through holes 610 are spaced apart from each other, and each protrusion 210 is provided with a corresponding through hole 610 to contact with the skin. In one embodiment, the number, shape and position of the through holes 610 formed in the connecting member 600 are correspondingly set according to the number, shape and position of the protrusions 210 of the panel 200. For example, the number of the bumps 210 is four, each bump 210 is square, and the four bumps 210 are arranged at intervals in a square. Correspondingly, the connecting member 600 is provided with four through holes 610, each through hole 610 is a square hole, and the four square holes are arranged at intervals in a square shape. It is understood that the connection member 600 has a net structure. Due to the design, the through holes 610 are formed in the connecting piece 600, the plurality of bumps 210 are arranged at intervals, the vibration assemblies 300 in each bump 210 are prevented from being influenced with each other during vibration, and the vibration effect of the vibration assemblies 300 is concentrated.

In order to keep the connecting member 600 firmly connected to the base 100, as shown in fig. 4 and 6, in one embodiment, the outer periphery of the connecting member 600 and the inner periphery of the base 100 near the connecting member 600 are provided with a locking groove and a locking block which are mutually locked and connected. The connecting piece 600 and the base 100 are connected in a buckling connection mode, so that the assembly of parts is reduced, the structure is simplified, and the assembly efficiency is improved. In one embodiment, a flange 620 is protruded from a side of the connector 600 facing the base 100, the flange 620 surrounds along the outer circumference of the connector 600, and a locking groove 621 is opened on the outer circumference of the flange 620. The inner periphery of the base 100 close to the connecting member 600 is attached to the outer periphery of the flange 620, the inner periphery of the base 100 close to the connecting member 600 is provided with a fixture block 120 in a protruding manner, and each fixture block 120 is correspondingly clamped in the clamping groove 621, so that the connecting member 600 is connected with the base 100 in a buckling manner. Such design makes things convenient for the dismouting, improves assembly efficiency, and ensures that the two connect firmly.

In order to enrich the massage function of the massage mechanism 10, as shown in fig. 4 and 6, in one embodiment, the massage mechanism 10 further includes an electrode 700, each of the protrusions 210 is provided with a position-limiting hole 212, the position-limiting hole 212 is communicated with the position-limiting groove 211, and the electrode 700 is disposed in the position-limiting groove 211 and exposed out of the position-limiting hole 212. By arranging the electrode member 700, the massage function of weak current stimulation is added, and the function of the massage mechanism 10 is enriched.

In order to fix the electrode member 700 to the faceplate 200, as shown in fig. 4 and 6, in one embodiment, the outer diameter of the electrode member 700 is larger than the inner diameter of the limiting hole 212, and the second elastic member 500 abuts against the side of the electrode member 700 facing away from the skin. I.e., the second elastic member 500 is connected to the electrode member 700 and the vibration assembly 300, respectively. The second elastic member 500 elastically abuts against the electrode member 700, thereby preventing the electrode member 700 from falling off from the limiting hole 212 into the limiting groove 211. In order to further fix the electrode member 700 to the panel 200, in one embodiment, the electrode member 700 includes a contact panel 711 and a connecting wall 712, the contact panel 711 is used for directly contacting with the skin, and the connecting wall 712 surrounds the periphery of the contact panel 711 and protrudes toward the limiting groove 211; the supporting wall 213 is protruded inward toward the limiting groove 211 along the hole circumference of the limiting hole 212 of each bump 210, and the connecting wall 712 abuts against the supporting wall 213. By adding the supporting wall 213, the contact area between the electrode member 700 and the panel 200 is increased, and the connection stability between the electrode member and the panel is improved. In one embodiment, the outer diameter of the contact panel 711 is adapted to the position-limiting hole 212, so that the contact panel 711 is exposed from the position-limiting hole 212. The outer diameter of the end of the connecting wall 712 remote from the contact panel 711 is larger than the limiting hole 212 so as to prevent the electrode member 700 from passing through the limiting hole 212 and being separated from the panel 200. In one embodiment, a boss 713 is convexly arranged around the end of the connecting wall 712 far away from the contact panel 711, the outer diameter of the boss 713 is larger than that of the limiting hole 212, and the boss 713 abuts against one end of the supporting wall 213 far away from the skin, so that the electrode element 700 and the panel 200 abut against each other, and the electrode element 700 is prevented from being pushed out of the limiting hole 212 by the second elastic element 500. In one embodiment, the contact panel 711 and the surface of the protrusion 210 close to the skin are located on the same plane or the same arc, so that the panel 200 and the side of the electrode member 700 close to the skin are located on the same plane or the same arc, and close contact with the skin is ensured. In one embodiment, the electrode member 700 is a metal conductive member or a non-metal conductive member. In one embodiment, the second elastic member 500 is fixedly coupled to the electrode member 700. Such as by means of bonding, welding, or clamping, the stability of the connection of the second elastic element 500 to the electrode element 700 is improved.

In one embodiment, as shown in fig. 1 and 4, the present application further provides a neck massager, which includes a mounting bracket 20 and the massage mechanism 10 of any of the above embodiments, the massage mechanism 10 is disposed on a skin-facing side of the mounting bracket 20, and the base 100 is connected to the mounting bracket 20. Specifically, the base 100 of the massage mechanism 10 is connected to the skin-facing side of the mounting bracket 20, the mounting bracket 20 is used to correspond to the back side of the neck, and the panel 200 is in close contact with the skin of the neck. The first elastic member 400 and/or the second elastic member 500 are/is arranged in the massage mechanism 10, so that the vibration of the vibration component 300 to the base 100 is reduced, the vibration to the mounting bracket 20 is reduced, and the mounting bracket 20 is stably hung on the neck.

As shown in fig. 1, in one embodiment, the neck massager further includes two clamping arms 30, and each clamping arm 30 is correspondingly connected to one end of the mounting bracket 20. The clip arms 30 are provided to correspond to the sides of the neck, i.e., the left and right sides of the neck. Two arm lock 30 and installing support 20 assembly back form the arc structure, and the whole outline of the neck massage appearance of this application is the arc structure promptly, and the neck massage appearance of this application encircles the setting along the neck when using, and two arm lock 30 stabilize the centre gripping in the both sides of neck, make installing support 2010 laminate with the neck better.

As shown in fig. 1 and 4, in one embodiment, the number of the massage mechanisms 10 of the neck massager is more than one, so as to increase the massage range of the neck massager. Each massage mechanism 10 includes a plurality of vibratory assemblies 300 to enhance the vibratory massage effect.

As shown in fig. 2 and 4, in one embodiment, when the massage mechanism 10 further comprises the electrode member 700, the surface of the faceplate 200 and the surface of the electrode member 700 are located on the same plane or arc, and the faceplate 200 and the electrode member 700 are simultaneously in contact with the skin. In order to avoid interference between the vibration assembly 300 and the pole element 700, in one embodiment, the vibration assembly 300 and the pole element 700 are operated at different time periods. I.e., the electrode member 700 is operated, the vibration assembly 300 is not operated, and vice versa.

In one embodiment, the massage mechanism of the present application is not limited to be used in a neck massager, but can be used in other body parts.

It should be noted that other embodiments of the present application further include a bracket assembly structure formed by combining technical features of the above embodiments with each other.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (12)

1. The utility model provides a massage mechanism which characterized in that, includes base, panel, vibration subassembly and first elastic component, wherein:

the base is provided with an installation cavity;

the panel covers the base and covers the installation cavity, and the panel is used for contacting with skin;

the vibration assembly is arranged in the mounting cavity and is used for vibrating the panel;

the first elastic piece is arranged in the mounting cavity and is respectively connected with the base and the vibration assembly.

2. The massage mechanism of claim 1, further comprising a second resilient member disposed within the mounting cavity, the second resilient member being coupled to the faceplate and the vibratory assembly, respectively.

3. The massage mechanism as recited in claim 2, wherein the vibration assembly comprises a fixed seat and a vibrating member, the fixed seat being disposed in the mounting cavity; the holding chamber has been seted up to the fixing base, the vibrating part set up in the holding chamber, first elastic component connect in the fixing base be close to one side of base, the second elastic component connect in the fixing base be close to one side of panel.

4. The massage mechanism as recited in claim 3, wherein at least two positioning posts are convexly disposed on a side of the fixing base close to the base, and the at least two positioning posts are spaced apart from each other; the number of the first elastic pieces is matched with that of the positioning columns, and each first elastic piece is sleeved on the positioning columns.

5. The massage mechanism as recited in claim 4, wherein an axial length of the positioning post is less than an axial length of the first resilient member, such that the first resilient member resiliently abuts the base.

6. The massage mechanism as recited in claim 1, wherein at least two projections are protruded from a side of the panel facing the skin, the at least two projections are spaced apart from each other, and a side of each projection facing away from the skin is provided with a limiting groove, the limiting groove is communicated with the mounting cavity; the number of the vibration assemblies corresponds to the number of the lugs; each vibration component is arranged in the corresponding limiting groove.

7. The massage mechanism of claim 6, further comprising connectors that connect the face plate and the base, respectively.

8. The massaging mechanism of claim 7 wherein the connecting member defines at least two apertures, the at least two apertures being spaced apart, each of the protrusions defining a corresponding aperture for contacting the skin.

9. The massage mechanism as recited in claim 7, wherein the outer periphery of the connecting member and the inner periphery of the base adjacent to the connecting member are provided with a locking groove and a locking block which are mutually locked and connected.

10. The massage mechanism as recited in claim 6, further comprising an electrode member, wherein each of the protrusions defines a limiting hole, the limiting hole is connected to the limiting groove, and the electrode member is disposed in the limiting groove and exposed out of the limiting hole.

11. The massage mechanism as recited in any one of claims 2 to 5, wherein the second elastic member has a modulus of elasticity greater than a modulus of elasticity of the first elastic member.

12. A neck massager comprising a mounting bracket and a massage mechanism as claimed in any one of claims 1 to 11, the massage mechanism being disposed on a side of the mounting bracket facing the neck, the base being attached to the mounting bracket.

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