CN214181460U - Massage assembly of massage appearance and have its massage appearance - Google Patents

Abstract

The utility model discloses a massage subassembly of massage appearance and massage appearance that has it, the massage subassembly includes: the electrode mounting seat is suitable for being connected with a main body of the massager and is provided with a first buckle piece; the edge of the conductive carrier is provided with a second buckling part, the first buckling part is matched with the second buckling part to connect the electrode mounting seat with the conductive carrier, the surface of one side of the conductive carrier, which is far away from the electrode mounting seat, is a conductive surface, the first buckling part is matched with the second buckling part, the conductive carrier is electrically connected with the electrode mounting seat through a conductive piece, the surface of one side of the conductive carrier, which is far away from the electrode mounting seat, is a conductive surface, the conductive carrier is provided with a second power connection part, and the second power connection part of the conductive carrier is abutted against the first power connection part of the electrode mounting seat along with the matching of the first buckling part and the second buckling part; and a gel electrode sheet. According to the utility model discloses a massage subassembly of massage appearance, stable in structure, easy dismounting, massage effect is good.

Description

Massage assembly of massage appearance and have its massage appearance

Technical Field

The utility model belongs to the technical field of massage equipment technique and specifically relates to a massage subassembly of massage appearance is related to.

Background

The massage subassembly that the massage appearance among the correlation technique has need to use fasteners such as screw to assemble, and the assembly is comparatively troublesome to the screw is dismantled for a long time and is appeared not hard up situation easily. Moreover, most massage apparatuses have a single massage function of the massage component, and the user experience needs to be improved. In addition, electrode slice adoption is the electrode slice of metal material on the current neck massager, exposes easily to rust in the air for a long time to can't produce deformation along with human action change, make its laminating nature with user's skin relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a massage assembly of massage appearance, this massage assembly of massage appearance have easy dismounting, stable in structure, advantages such as massage effect is good.

In order to achieve the above object, according to the utility model discloses an embodiment provides a massage subassembly of massage appearance, the massage appearance has pulse generator, and it includes: the electrode mounting seat is suitable for being connected with the main body of the massager and is provided with a first buckle piece; a conductive carrier, wherein the edge of the conductive carrier is provided with a second fastener, the first fastener is matched with the second fastener to connect the electrode mounting seat with the conductive carrier, the surface of one side of the conductive carrier, which is far away from the electrode mounting seat, is a conductive surface, the first buckling piece is matched with the second buckling piece, the conductive carrier is electrically connected with the electrode mounting seat through a conductive piece, the surface of one side of the conductive carrier, which is far away from the electrode mounting seat, is a conductive surface, the conductive carrier is provided with a second electric connection part, the second electric connection part of the conductive carrier is abutted against the first electric connection part of the electrode mounting seat along with the matching of the first buckle piece and the second buckle piece, the gel electrode slice, the gel electrode slice is supported and fixed on the conductive surface of the conductive carrier, and the electrode mounting seat, the conductive carrier and the gel electrode slice are sequentially arranged in a stacked mode.

According to the utility model discloses massage assembly of massage appearance passes through the lock mode installation through electrically conductive carrier and electrode mount pad and fixes, need not to set up like this that extra fastener is fixed just can make massage assembly have stable overall structure, and it is more convenient to assemble moreover. In addition, because the conductive carrier has certain rigidity, can provide support for the gel electrode piece, and the gel electrode piece has certain ductility, can adapt to the shape of conducting surface to the gel electrode piece has good sense of touch, has good massage impression, and based on the good electric conductivity of conductive carrier and gel electrode, the electric current can well be transmitted to the gel electrode piece in addition, provides the electro photoluminescence to the user, promotes massage effect.

Furthermore, the first electric connection part is an elastic connecting piece, the elastic connecting piece is arranged on the electrode mounting seat and is suitable for being electrically connected with the pulse generating device, and the elastic connecting piece penetrates through the conductive carrier and abuts against and is electrically connected with the second electric connection part; the second power connection part is a conductive piece, the conductive piece is positioned between the conductive carrier and the gel electrode slice, and the conductive piece is embedded in the conductive carrier and is electrically connected with the gel electrode slice.

Furthermore, the massage assembly of the massage instrument further comprises a circuit board, the circuit board is connected to the electrode mounting base and electrically connected with the pulse generating device, and the elastic connecting piece is arranged on the circuit board.

According to some embodiments of the invention, the electrode mount includes: a base adapted to be connected with the body, the base having one side opened; the middle shell is connected with the base to limit an accessory space, and the first buckle piece is arranged in the accessory space and connected with the base.

Through setting up base and well casing for electrically conductive carrier can be connected with at least one of base and well casing, with the lock stability of guaranteeing between electrically conductive carrier and the electrode mount pad.

According to some embodiments of the invention, the second buckle is provided on a side surface of the conductive carrier facing the electrode mounting seat. Therefore, on one hand, the conductive carrier is convenient to form, and on the other hand, the second buckle piece arranged on the edge of the conductive carrier is convenient to be matched with the first buckle piece on the electrode mounting seat.

Further, the second latch protrudes toward the electrode mount from a surface of a side of the conductive carrier facing the electrode mount, which facilitates connection between the conductive carrier 400 and the electrode mount.

According to the utility model discloses a some embodiments, accessory space has in the electrode mount pad, first buckle spare is established movably structure is detained to elasticity in the accessory space, second buckle spare is for following electrically conductive carrier orientation the reference column that the electrode mount pad extends, have on the reference column structure complex knot hole is detained to elasticity.

According to some embodiments of the utility model, the accessory space has the opening of pressing with outside intercommunication, the separation blade has in the accessory space, the elasticity is detained the structure and is included: the annular frame body is internally provided with a clamping hook which is suitable for being matched with the buckling hole; the pressing part is arranged on one side surface of the frame body and is suitable for movably penetrating through the pressing opening; the elastic piece is stopped against the position between the other side surface of the frame body, far away from the pressing part, and the blocking piece, so that the frame body is driven to move. Through set up elasticity in the assembly space and detain the structure, and elasticity detains the structure and sets up integrative structure, need not extra assembly component, massage assembly's dismouting is more convenient.

Further, the electrode mount includes a base and a middle housing, the base and the middle housing defining the fitting space; the elastic member further includes: the connecting column is arranged on the other side surface of the frame body, which is far away from the pressing part; the spring, the spring housing is established on the spliced pole, and end to be in the framework with between the separation blade, the separation blade is established the internal surface of base and orientation well casing extends the setting.

Furthermore, the middle shell is provided with a first protruding portion, a sliding groove is defined in the first protruding portion, and the connecting column and the spring are located in the sliding groove. The sliding groove can play a role in guiding the connecting column and the spring, so that the connecting column and the spring are not separated from the sliding groove all the time in the moving process.

Further, the first protrusion is configured in a wedge shape in which a protrusion height gradually increases in a direction toward the pressing opening. Like this, can make the shape of casing in the first bellying adaptation to guaranteed that first bellying is the same with spliced pole and spring extending direction with the surface of elasticity knot structure contact, and then can be better carry on spacingly to spring and spliced pole.

According to some embodiments of the utility model, be equipped with the second bellying on the base, the second bellying is suitable for the support the spliced pole with the spring, the second bellying is followed bellied height is less than on the base the height of separation blade. The second lug boss and the first lug boss are pressed on two sides of the spring and the connecting column, and the spring and the connecting column are guaranteed to be always located in a space limited by the first lug boss and the second lug boss.

According to some embodiments of the present invention, the blocking piece comprises: the first baffle part comprises two parallel first baffles and a top plate connected to the end parts of the two first baffles so as to define a first movable space suitable for the movement of the elastic piece; the second baffle part comprises two parallel second baffles, the two second baffles are connected with the two first baffles through connecting plates respectively, the distance between the two second baffles is greater than two, the distance between the first baffles is limited by the second baffle part, and the second baffle part is suitable for the second activity space of the frame body movement. Through setting up the separation blade, on the one hand can cooperate together with supporting platform, supporting shoe in order steadily to place the circuit board, on the other hand can also detain the structure cooperation so that to the dismantlement and the assembly of electrically conductive carrier and electrode mount pad with the elasticity.

According to some embodiments of the present invention, the base is formed in an elongated shape, and the pressing opening is formed on an end surface of the base in the length direction. This facilitates the assembly and disassembly of the conductive carrier with the middle housing and the base.

Further, the pressing openings are two and located at two ends of the base along the length direction. The pressing openings are arranged at the two ends of the base in the length direction, and the corresponding elastic buckles are arranged at the corresponding positions, so that the conductive carrier, the middle shell and the base are easier to disassemble, the stress of the independent elastic buckle structure is reduced, and the risk of damage of the elastic buckle structure is reduced.

According to some embodiments of the invention, the pressing opening is provided on a side surface of the base that is away from the middle case.

According to some embodiments of the utility model, the base is microscler, the base with be equipped with on one of them of well casing block tongue and another be equipped with block tongue complex draw-in groove, the block tongue is established with the draw-in groove the length direction's of base both ends just are located the both sides of elasticity knot structure.

According to some embodiments of the invention, the hook and the fastening hole have opposite first and second chamfered portions, respectively.

According to the utility model discloses a further embodiment, first buckle spare is the knot hole, second buckle spare is for following electrically conductive carrier orientation the trip that the electrode mount pad extends, the trip with the cooperation of detaining the hole.

According to some embodiments of the invention, the conductive carrier is provided with a relief pattern at its periphery.

According to the utility model discloses massage appearance of second aspect embodiment, including the main part and according to above-mentioned first aspect embodiment massage appearance's massage subassembly, pulse generator establishes in the main part, the electrode mount pad with the main part is connected.

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

Drawings

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

figure 1 is an exploded view of a massage assembly of a massage apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an elastic buckle structure of a massage component of the massage apparatus according to the embodiment of the present invention;

figure 3 is a bottom view of the base of the massage assembly of the massage apparatus according to an embodiment of the present invention;

figure 4 is a cross-sectional view of a massage assembly of the massage apparatus according to an embodiment of the present invention;

figure 5 is an exploded view from another angle of a massage assembly of the massage apparatus according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a middle shell and a conductive carrier of a massage assembly of the massage apparatus according to the embodiment of the present invention;

fig. 7 is a schematic structural diagram of a circuit board of a massage assembly of the massage apparatus according to the embodiment of the present invention;

figure 8 is a schematic structural view of a base of a massage assembly of the massage apparatus according to an embodiment of the present invention;

figure 9 is another exploded view of the massage assembly of the massage apparatus according to an embodiment of the present invention.

Reference numerals:

a massage component 1, a base 100,

The supporting platform 110, the connecting hole 111, the pressing opening 121, the first blocking portion 131, the first movable space 132, the second blocking portion 133, the second movable space 134, the first blocking plate 135, the second blocking plate 136, the first blocking plate,

Fitting space 120, support block 130, second boss 140, catch 150, limit protrusion profile 151,

A top plate 152, a connecting plate 153,

An annular groove 160, a latch 170,

A middle shell 200, a convex rib 210, an annular convex rib 211, a limit column 220,

A first convex part 230,

A runner 231, a flange 240, a notch 250, a graphene layer 260,

A position-avoiding hole 261, a line-passing hole 270, a first light-transmitting hole 280,

A circuit board 300, a limiting hole 310, an electric connector 320, a limiting notch 330, a wiring terminal 340,

A flexible circuit board 350, a U-shaped groove 351, a thermistor 352, a second light hole 360, a light emitting member 370,

The conductive carrier 400, the conductive surface 410, the positioning post 420, the elastic buckle structure 430, the buckle hole 421, the hook 431, the elastic buckle structure,

Frame 432, pressing part 433, elastic part 434, connection column 435, spring 436, concave-convex pattern 440,

A first chamfer part 4311, a second chamfer part 4312, a conductive part 800, a first electric connection part 810, a second electric connection part 820, a gel electrode sheet 500,

A light diffusion layer 600, and an electrode mount 700.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

In the description of the present invention, it is to be understood that the terms "center", "length", "up", "down", "inner", "outer", "circumferential", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and 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 thus, should not be construed as limiting the present invention.

In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features. In the description of the present invention, "a plurality" means two or more.

A massage assembly 1 of a massage apparatus having a pulse generating device (not shown) according to an embodiment of the present invention will be described with reference to fig. 1 to 9.

The massage component 1 of the massage apparatus according to the embodiment of the present invention comprises an electrode mounting seat 700, a conductive carrier 400, and a gel electrode sheet 500.

The electrode mounting base 700 is suitable for being connected with a main body of the massage apparatus, a first buckle piece is arranged on the electrode mounting base 700, and the electrode mounting base 700 comprises a first power connection part electrically connected with the pulse generation device. The edge of the conductive carrier 400 is provided with a second fastener, the first fastener and the second fastener are matched to connect the electrode mounting seat 700 with the conductive carrier 400, and the surface of one side of the conductive carrier 400 far away from the electrode mounting seat 700 is a conductive surface 410, so that the second fastener cannot damage the integrity of the conductive surface 410. The conductive carrier 400 has a second electrical connection part 820, and the second electrical connection part 820 of the conductive carrier 400 is abutted on the first electrical connection part of the electrode mounting base 700 along with the first and second fasteners in a matching manner, as shown in fig. 9.

The gel electrode sheet 500 is supported and fixed on the conductive surface 410 of the conductive carrier 400. As shown in fig. 1, the conductive gel electrode sheet 500 may conform to the shape and contour of the conductive surface 410 and fit on the conductive surface 410. The gel electrode sheet 500 is located at a side near the human body and contacts with the human body. It can be understood that the gel material texture is soft, can closely laminate with human skin, and the gel material is electrically conductive simultaneously, so, compare in current metal material's electrode slice, adopts gel electrode slice 500's massage subassembly 1 to improve the travelling comfort that the user wore, and good reliability. Alternatively, the electrode mount 700, the conductive carrier 400, and the gel electrode sheet 500 are sequentially stacked.

According to the utility model discloses massage assembly 1 of massage appearance, through being connected between the first buckle spare on the electrode mount pad 700 and the second buckle spare on the electrically conductive carrier 400, it is inseparabler to connect electric connection portion 810 and second between electrode mount pad 700 that the messenger is connected with the pulse generator electricity and the electrically conductive carrier 400 through first electricity portion of connecing 820 electricity, the electricity connection effect is better, thereby make electrically conductive carrier 400 obtain the electrically conductive effect of better electric pulse, thereby make the gel electrode slice 500 of adaptation laminating on electrically conductive surface of electrically conductive carrier 400 can be more stable to the skin transport, better electro photoluminescence. In addition, the conductive carrier 400 and the electrode mounting base 700 are fixedly mounted in a buckling manner, so that the massage assembly 1 has a stable integral structure without additional fasteners, and the assembly is more convenient. In addition, because the conductive carrier 400 has certain rigidity, can provide support for the gel electrode piece 500, and the gel electrode piece 500 has certain ductility, can adapt to the shape of conducting surface 410 to the gel electrode piece 500 has good sense of touch, has good massage impression, and further, based on the good electric conductivity of conductive carrier 400 and gel electrode piece 500, the electric current can well be transmitted to gel electrode piece 500, provides the electro photoluminescence to the user, promotes the massage effect.

In some embodiments of the present invention, the first electric connecting portion 810 is an elastic connecting member, the elastic connecting member is disposed on the electrode mounting base 700 and is adapted to be electrically connected to the pulse generator, and the elastic connecting member passes through the conductive carrier 400 and abuts against and is electrically connected to the conductive member 800. The second power connection part 820 is a conductive member 800, the conductive member 800 is located between the conductive carrier 400 and the gel electrode sheet 500, and the conductive member 800 is embedded in the conductive carrier 400 and electrically connected to the gel electrode sheet 500.

The conductive piece 800 may be made of a conductive metal, and one surface of the conductive piece 800 facing the gel electrode sheet 500 and one surface of the conductive carrier 400 facing the gel electrode sheet 500 are located on the same arc surface, so that the gel electrode sheet 500 and the conductive carrier 400 have a high adhesion degree, and the gap between the gel electrode sheet 500 and the conductive carrier 400 is prevented from increasing. Through the arrangement of the conductive member 800, the pulse current of the pulse generator can be transmitted to the gel electrode sheet 500, and the pulse current massage of the massage component 1 is realized.

Further, the massage assembly 1 further comprises a circuit board 300, the circuit board 300 is connected to the electrode mounting base 700 and electrically connected to the pulse generator, and the elastic connector is disposed on the circuit board 300. The circuit board 300 may be disposed on a side of the conductive carrier 400 facing away from the gel electrode sheet 500, and the elastic connector is mounted on a surface of the circuit board 300 facing the conductive carrier 400 and protrudes from a surface of the circuit board 300 facing the conductive carrier 400. The elastic connecting piece can be a POGOPIN elastic thimble. Specifically, one end of the elastic connection member is electrically connected to the circuit board 300, and the other end of the elastic connection member is electrically connected to the conductive member 800. Therefore, wireless electric connection can be realized inside the massage component 1, and the internal structure of the massage component 1 can be more regular, so that the assembly efficiency is improved.

In some embodiments of the present invention, the electrode mount 700 includes the electrode mount 700 and the middle housing 200. The base 100 is adapted to be coupled with the main body, and one side of the base 100 is open. As shown in fig. 1, the bottom surface of the base 100 may have an arc shape, and the edge of the base 100 extends toward the gel electrode sheet 500 to form a shell-shaped structure with one side open. The middle housing 200 is snapped into the base 100 to define the fitting space 120. For example, the middle housing 200 may also be in the shape of an arc piece, the middle housing 200 protrudes from the arc surface of the base 100 in the same direction, the arc of the middle housing 200 is smaller than that of the base 100, and the middle housing 200 covers the open side of the base 100 to define the accessory space 120. Alternatively, the conductive carrier 400 may be buckled with one of the base 100 and the middle housing 200, and the middle housing 200 is buckled with the base 100, so that the conductive carrier 400 is fixedly connected with the middle housing 200 and the base 100. Of course, it can also be fastened with an elastic fastening structure provided between the base 100 and the middle housing 200 to ensure the stability of fastening, which will be described in detail below. The circuit board 300 may be disposed in the fitting space 120, so that the circuit board 300 can be stably assembled, and the stability of the circuit board 300 in conduction is ensured. Of course, in other embodiments, the circuit board 300 may not be provided, and the function of the circuit board 300 is not affected.

In some embodiments of the present invention, the second fastener is disposed on the edge of a side surface of the conductive carrier 400 facing the electrode mounting seat 700, so as to facilitate the structural formation of the conductive carrier 400 itself on the one hand, and the second fastener disposed on the edge of the conductive carrier facilitates the engagement with the first fastener on the electrode mounting seat 700 on the other hand. Further, the second snap is protruded toward the electrode mount 700, which further facilitates the connection between the conductive carrier 400 and the electrode mount 700.

In some embodiments of the present invention, the first locking member is an elastic locking structure 430 movably disposed in the fitting space 120, and the second locking member is a positioning column extending from the conductive carrier 400 toward the electrode mounting base 700, and the positioning column has a locking hole 421 for engaging with the elastic locking structure 430.

In the embodiment shown in fig. 6, the conductive carrier 400 is provided with a positioning post 420 extending toward the middle housing 200, and the positioning post 420 is provided with a fastening hole 421. Correspondingly, the massage assembly 1 further includes an elastic buckle structure 430, the elastic buckle structure 430 is movably disposed in the accessory space 120 and is clamped and limited by the middle housing 200 and the base 100 in the height direction of the accessory space 120, and the elastic buckle structure 430 includes a hook 431 engaged with the buckle hole 421. When the elastic buckle structure 430 is installed, only the elastic buckle structure 430 needs to be clamped between the middle housing 200 and the base 100, and no additional fixing member needs to be provided, so that the assembly is convenient. In addition, the hook 431 of the elastic buckle structure 430 extends into the buckle hole 421 for buckling, so that the hook 431 and the buckle hole 421 limit the middle case 200 and the conductive carrier 400 to a certain limit, and generally, the middle case 200 is not separated from the conductive carrier 400. Optionally, the hook 431 and the fastening hole 421 have a first chamfered portion 4311 and a second chamfered portion 4312 opposite to each other, respectively, so that fastening is facilitated.

As shown in fig. 5, in a further embodiment, the fitting space 120 has a pressing opening 121 communicating with the outside. Optionally, the base elastic buckle structure 430 may further include an annular frame 432, a pressing portion 433, and an elastic member 434. The hook 431 is disposed in the frame 432, that is, after the hook 431 is engaged with the fastening hole 421, the annular frame 432 can fit the positioning pillar 420 therein, so as to ensure that the elastic fastening structure 430 does not depart from the conductive carrier 400. Alternatively, the hook 431 may extend perpendicularly from the inner surface of the frame 432.

The pressing portion 433 is disposed on one side surface of the frame 432 and adapted to movably pass through the pressing opening 121. The elastic member 434 is stopped between the other side surface of the frame 432 away from the pressing portion 433 and the blocking piece 150 so that the frame 432 is driven to move. The elastic button structure 430 can move within a certain range by providing the elastic member 434. As shown in fig. 1, when the conductive carrier 400, the middle housing 200 and the base 100 need to be detached, when a user presses the pressing portion 433, the elastic member 434 deforms, and the frame 432 and the pressing portion 433 move toward the direction of the stop piece 150, so that the hook 431 is separated from the fastening hole 421 on the positioning column 420, and the conductive carrier 400 can be separated from the middle housing 200. When the conductive carrier 400, the middle housing 200 and the base 100 need to be assembled, and a user presses the pressing portion 433, the elastic member 434 deforms accordingly, the frame 432 and the pressing portion 433 move toward the blocking piece 150, the hook 431 extends into a corresponding position of the fastening hole 421 on the positioning column 420, the user releases the pressing portion 433, and the hook is fastened with the positioning column, so that the conductive carrier 400 can be fixed with the middle housing 200. Through set up elasticity in the assembly space and detain structure 430, and elasticity detains structure 430 and sets up an organic whole structure, need not extra assembly component, massage assembly 1's dismouting is more convenient.

As shown in fig. 2, in some embodiments of the present invention, the elastic member 434 includes a connection column 435 and a spring 436. The connecting column 435 is provided on the other side surface of the frame 432 away from the pressing portion 433. The spring 436 is disposed on the connecting column 435 and is stopped between the frame 432 and the blocking piece 150, and the blocking piece 150 is disposed on the inner surface of the base 100 and extends toward the middle housing 200. The spring 436 is longer than the connecting post 435 in the normal state, and the flap 150 stops against the spring 436. When the conductive carrier 400, the middle housing 200 and the base 100 need to be detached, a user presses the pressing portion 433, and the spring 436 is compressed between the blocking piece 150 and the connecting column 435, so that the elastic buckle structure 430 can move toward the blocking piece 150, and the matching relationship between the hook 431 and the buckle hole 421 is released. The connecting column 435 is sleeved with the spring 436, so that the massage component 1 can be disassembled and assembled.

Further, the middle housing 200 has a first protrusion 230 thereon, the first protrusion 230 defines a sliding slot 231 therein, and the connection column 435 and the spring 436 are located in the sliding slot 231. In the embodiment shown in fig. 7, there may be two first protrusions 230, and a sliding slot 231 is formed between the two first protrusions 230, the distance of the sliding slot 231 is close to the diameter of the connecting column 435 or the spring 436, and the connecting column 435 and the spring 436 are wholly or partially located in the sliding slot 231. The sliding groove 231 can guide the connecting column 435 and the spring 436, so that the connecting column 435 and the spring 436 do not separate from the sliding groove 231 all the time in the moving process. Alternatively, the first protrusion 230 is configured in a wedge shape in which the protrusion height gradually increases in a direction toward the pressing opening 121. Thus, the first protruding part 230 can be adapted to the shape of the middle shell 200, and the surface of the first protruding part 230 contacting the elastic buckle structure 430 is ensured to be the same as the extending direction of the connecting column 435 and the spring 436, so that the spring 436 and the connecting column 435 can be better limited.

Furthermore, the base 100 is provided with a second protrusion 140, the second protrusion 140 is adapted to support the connection column 435 and the spring 436, and the height of the second protrusion 140 protruding from the base 100 is smaller than the height of the blocking piece 150, so that it is ensured that the second protrusion 140 can contact the spring 436 and the connection column 435, and the blocking piece 150 can stop at two sides of the limit groove of the circuit board 300. The second protrusion 140 is located on the other side of the spring 436 and the connecting column 435 opposite to the first protrusion 230, and can support the spring 436 and the connecting column 435. The second convex part 140 and the first convex part 230 are pressed on two sides of the spring 436 and the connecting column 435, so that the spring 436 and the connecting column 435 are always positioned in a space defined by the first convex part 230 and the second convex part 140. Of course, the first protrusion 230 or the second protrusion 140 may be separately provided.

The above embodiment describes in detail that the elastic member 434 includes the connection column 435 integrally formed on the frame body and the spring 436 sleeved on the connection column 435, however, it can be understood by those skilled in the art that the elastic member 434 is not limited thereto. In other embodiments, the elastic element 434 may also be an elastic element 434 that is disposed on the base 100, the middle housing 200, or the blocking plate 150 and can elastically abut against the frame, as long as the effect that the elastic buckle structure can automatically reset after the user presses the pressing portion to move the elastic buckle structure toward the blocking plate 150 can be achieved.

As shown in fig. 8, in some embodiments of the present invention, the baffle 150 may include a first baffle portion 131 and a second baffle portion 133. The first barrier portion 131 includes two parallel first barriers 135 and a top plate 152 connected to ends of the two first barriers 135 to define a first movement space 132 suitable for the movement of the elastic member 434, and an outer contour of the first barrier portion 131 forms a limiting protrusion 151 matched with the limiting notch 330 so as to limit the circuit board 300. The second blocking portion 133 includes two parallel second blocking plates 136, the two second blocking plates 136 are respectively connected with the two first blocking plates 135 through connecting plates 153, the distance between the two second blocking plates 136 is greater than the distance between the two first blocking plates 135, and the second blocking portion 133 defines a second movement space 134 suitable for the movement of the frame 432. In the example shown in fig. 8, the connection plate 153 may be perpendicular to the first baffle 135 and the second baffle 136, but it will be understood by those skilled in the art that the connection plate 153 may also be disposed obliquely as long as it does not interfere with the movement of the frame 432 and the elastic member 434.

By providing the blocking piece 150, on one hand, the blocking piece can be matched with the supporting platform 110 and the supporting block 130 together to stably place the circuit board 300, and on the other hand, the blocking piece can be matched with the elastic buckle structure 430 to facilitate the detachment and assembly of the conductive carrier 400 and the middle housing 200 and the base 100.

In some embodiments of the present invention, the base 100 may be formed in a long shape to be adapted to contact with the skin of the human body, and the pressing opening 121 is formed on an end surface of the base 100 in the length direction, which facilitates the detachment and installation between the conductive carrier 400 and the middle case 200 and the base 100. Alternatively, the pressing openings 121 are two and located at both ends of the base 100 in the lengthwise direction. By providing the pressing openings 121 at both ends of the base 100 in the length direction and providing the corresponding elastic buckles at the corresponding positions, the conductive carrier 400 can be easily assembled and disassembled with the middle housing 200 and the base 100, and the stress of the separate elastic buckle structure 430 is reduced, thereby reducing the risk of damage to the elastic buckle structure 430.

Of course, the present invention is not limited thereto, and in other embodiments of the present invention, the pressing opening 121 may be provided on a side surface of the base 100 away from the middle case 200, that is, on a side of the base 100 facing the main body. The wholeness effect is also better like this, and can prevent to miss and touch.

In the above embodiment, the first latch is described as the elastic latch 430 in the electrode mounting seat, and the second latch is described as the latch hole 421 provided on the conductive carrier 400. However, the present invention is not limited thereto. Those skilled in the art will appreciate that in other embodiments, the first locking member may also be a fastening hole 421, and the second locking member is a hook 431 extending from the conductive carrier 400 toward the electrode mounting seat, and the hook 431 is engaged with the fastening hole 421. This also ensures a stable assembly of the massage assembly 1. And will not be described in detail in the present application. In the above and following descriptions of the present invention, the first fastener is taken as the elastic fastening structure 430, and the second fastener is taken as the fastening hole 421 on the conductive carrier 400 for example.

The connection of the base 100, the middle housing 200 and the circuit board 300 according to the embodiment of the present invention will be further described with reference to fig. 1 to 8.

In some embodiments of the present invention, the base 100 has a support platform 110 thereon adapted to support the circuit board 300. As shown in fig. 5, the supporting platform 110 is configured as a boss extending toward the middle case 200, which facilitates supporting the circuit board 300 and stably placing the circuit board 300. Alternatively, the support platform 110 may be located in a central region of the base 100. Further alternatively, the free end of the boss may be rounded as shown in fig. 1, i.e. the boss is formed in the shape of a cylinder. Of course, the present invention is not limited thereto, and in other examples of the present invention, the free end surface of the boss may be formed into a square plane or other shapes. In addition, a rib 210 extending toward the base 100 may be further provided on the middle case 200, and the rib 210 is pressed against the edge of the circuit board 300. Thus, when the circuit board 300 is assembled, the rib 210 of the middle housing 200 abuts against the edge portion of the other surface of the circuit board 300 after the one surface is supported on the supporting platform 110. Whereby both side surfaces of the circuit board 300 are pressed, thereby ensuring stability of the circuit board 300.

In a further embodiment of the present invention, as shown in fig. 1, the rib 210 on the middle housing 200 may be configured into at least a partial annular shape consistent with the shape of the circuit board 300, so that the rib 210 can compress the circuit board 300 in the whole circumferential direction, thereby making the installation of the circuit board 300 more stable.

As shown in fig. 1 and 7, in some embodiments of the present invention, the circuit board 300 has a light emitting member 370 thereon, and optionally, the light emitting member 370 may be an LED lamp bead. Further, the light emitting members 370 on the circuit board 300 may be provided in plurality at intervals in the circumferential direction of the circuit board 300. The middle case 200 and the conductive carrier 400 are respectively provided with a first light hole 280 and a second light hole 360 adapted to avoid the light emitting member 370. Like this, the light that light-emitting member 370 sent loops through first light trap 280, second light trap 360 and shines to gel electrode slice 500 on, can play the phototherapy effect. In an alternative embodiment as shown in fig. 7, the light emitting members 370 on the circuit board 300 may be disposed four and at four corners of the circuit board 300, respectively. The number and position of the first light-transmitting holes 280 should be the same as those of the light-emitting members 370. The number of the second light holes 360 is greater than that of the first light holes 280, and the aperture of the second light holes 360 is smaller than that of the first light holes 280. Thus, after the light passes through the first light hole 280, the light can penetrate through the gel electrode plate through the second light holes 360 in a larger number and then irradiate more uniformly.

In some embodiments of the present invention, the middle housing 200 has a plurality of limiting posts 220, and the circuit board 300 has a plurality of limiting holes 310 corresponding to the plurality of limiting posts 220. For example, as shown in fig. 7, the middle shell assembly has three position-limiting posts 220, which are respectively located at positions close to the three first light-transmitting holes 280, and the number of the position-limiting posts 220 and the position-limiting holes 310 are the same and the positions thereof are corresponding. The circuit board 300 and the middle housing 200 are positioned with each other by the engagement of the position-restricting posts 220 and the position-restricting holes 310. Through the cooperation of three spacing posts 220 and three spacing holes 310, the fixed knot that spacing post 220 and spacing hole 310 formed constructs for triangle-shaped stable structure, and is more firm fixed each other.

As shown in fig. 1, in some embodiments of the present invention, the supporting platform 110 of the base 100 is formed with a connecting hole 111 penetrating therethrough, the circuit board 300 is provided with an electrical connector 320 protruding from the circuit board 300, and the electrical connector 320 is located in the connecting hole 111 or passes through the connecting hole 111 to be suitable for being electrically connected with the main body of the massage apparatus. Through setting up electric connector 320, can realize the quick connection of main part and electric connector 320 of massage subassembly 1, avoided the trouble of the welding line of connecting through the wire among the prior art, it is convenient to connect. In addition, the electrical connector 320 is integrally formed on the circuit board 300, and the electrical connector 320 can be always kept in the connection hole 111 or pass through the connection hole 111 through the press fit of the second protruding portion 140 and the supporting platform 110 on the circuit board 300, so that the installation is stable, and the electrical connection is also stable.

In some embodiments of the present invention, as shown in fig. 8, a plurality of supporting blocks 130 may be further disposed on the base 100, the supporting blocks 130 and the surface of the supporting platform 110 where the free end is located are located on the same plane, and the supporting blocks 130 are adapted to support the edge of the circuit board 300. Thus, the circuit board 300 may also support its edge portion via the supporting block 130 on the basis that its middle portion is supported by the supporting platform 110. Further, as shown in fig. 1, the circuit board 300 has a long shape, where the long shape refers to a size that is longer than a size in a width direction. Limiting notches 330 are formed at both ends of the circuit board 300, a blocking piece 150 is arranged in the fitting space 120, and the blocking piece 150 is provided with a limiting convex profile 151 matched with the limiting notches 330. Therefore, the limiting convex contour 151 of the baffle plate 150 is connected with the limiting notch 330, so that two ends of the circuit board 300 in the length direction are stopped by the baffle plate 150, the limiting effect on the circuit board 300 is achieved, and the circuit board 300 is prevented from being out of position.

As shown in fig. 8, in some embodiments of the present invention, an annular groove 160 is formed on a side surface of the base 100 facing the middle housing 200, the annular groove 160 is disposed adjacent to an edge of the base 100, an annular rib 211 extending toward the base 100 is formed on the middle housing 200, and the annular rib 211 cooperates with the annular groove 160 to define a relative position of the base 100 and the middle housing 200. Alternatively, the annular groove 160 may be a circumferentially continuous ring of grooves or may be formed by a plurality of circumferentially spaced groove segments. The annular groove 160 is intermittently or uninterruptedly arranged along the circumference of the housing, and the annular rib 211 arranged on the middle housing 200 is combined with the annular groove 160, so that the housings 200 cannot move relative to each other in the base 100, and the middle housing 200 and the base 100 are firmly connected.

In some embodiments of the present invention, the base 100 is long, one of the base 100 and the middle housing 200 is provided with a latch 170, and the other is provided with a slot 250 engaged with the latch 170, the latch 170 and the slot 250 are disposed at two ends of the base 100 in the length direction and are located at two sides of the elastic buckle structure 430. For example, as shown in fig. 6, the latch 170 is provided on the middle housing 200, and the latch 250 is provided on the base 100. The structure of the joint of the locking groove 250 and the locking tongue 170 is arranged at the opposite positions of the two sides of the elastic buckle structure 430, so that the base 100 is ensured to be clamped with the middle shell 200, and the fixing function of reinforcing the supporting disc and the elastic buckle structure 430 is further achieved.

Further, the latch 170 or the latch groove 250 may be provided on the annular rib 211 of the middle housing 200. In this way, the connection part between the middle housing 200 and the base 100 and the positioning column 420 is reinforced by the annular rib 211, and the structural strength of the middle housing 200 can be improved.

In some embodiments as shown in fig. 6, a graphene layer 260 may be disposed on a surface of the middle case 200 away from the base 100, the middle case 200 has a wire hole 270, and the circuit board 300 is provided with a terminal electrically connected to the graphene layer 260 through a flexible circuit board 350.

The wire through hole 270 may be, for example, rectangular, as shown in fig. 1, the graphene layer 260 is located between the conductive carrier 400 and the flexible circuit board 350, the graphene layer 260 is riveted to the flexible circuit board 350, and a portion of the flexible circuit board 350 can pass through the wire through hole 270, be plugged into a terminal to achieve electrical connection, and receive an electrical signal transmitted by the terminal. Wherein the graphene layer 260 also has openings with the same shape as the via holes 270. The flexible circuit board 350 can realize the quick connection between the graphene layer 260 and the connection terminal, so that the current is finally transmitted to the gel electrode sheet 500 from the graphene layer 260, and a better massage effect is generated on the human body through electrical stimulation.

Further, the middle housing 200 has a flange 240 on a side surface thereof remote from the base 100 to define a mating recess adapted to fit the graphene layer 260. Like this graphite alkene can have more stable with well casing 200 laminating, and guaranteed well casing 200 surfacing.

As shown in fig. 5, the flexible circuit board 350 may also be formed in a U shape, and a side surface of the middle housing 200 facing the base 100 has a U-shaped groove 351 adapted to receive the flexible circuit board 350, further ensuring that the flexible circuit board 350 is difficult to be detached from the middle housing 200. Further, the flexible circuit board 350 may also have a thermistor 352 thereon, and the graphene layer 260 has a hole for avoiding potential so as to be suitable for the thermistor 352 to directly contact the conductive carrier 400 through the graphene layer 260. The thermistor 352 has a temperature measuring function, can directly detect the temperature of the massage component 1 of the massage apparatus, can prompt temperature information in time, and improves the safety of the massage component 1 of the massage apparatus.

In some embodiments of the present invention, the massage assembly 1 may further include a light diffusion layer 600, and the light diffusion layer 600 is disposed on a side of the graphene layer 260 facing the conductive carrier 400. Optionally, the light diffusion layer 600 may be attached to the graphene layer 260, and light passing through the first light hole 280 passes through the graphene layer 260 and the light diffusion layer 600 in sequence, so as to diffuse the light signal, increase the light diffusion area, and make the light emission more uniform. Or alternatively, the light diffusion layer 600 may be further disposed on a side of the middle case 200 adjacent to the conductive carrier 400. When the massage component 1 is replaced, the light diffusion layer 600 does not need to be replaced, the massage component can be repeatedly used, and the use cost is reduced.

In addition, in order to increase the friction force with the base 100, the conductive carrier 400 is provided with a concave-convex pattern 440 at the periphery thereof. In this way, the disassembly is assisted after the resilient buckle structure 430 is unlocked, further improving the disassembly performance of the massage assembly 1.

The detailed structure of the massage assembly 1 according to one embodiment of the present invention will be described in detail with reference to fig. 1 to 8.

As shown in fig. 1, the massage assembly 1 has an elongated shape with a length dimension greater than a width dimension. The massage assembly 1 includes a base 100, a circuit board 300, a middle housing 200, a graphene layer 260, a light diffusion layer 600, a conductive carrier 400, and a gel electrode sheet 500, which are sequentially stacked.

The base 100 is provided with a supporting platform 110, supporting blocks 130 and a blocking piece 150, the middle part of the circuit board 300 is supported by the supporting platform 110, and two ends of the circuit board 300 are respectively supported by the two supporting blocks 130, and the limiting notches 330 at the two ends of the circuit board 300 are limited by the limiting convex contour 151 of the blocking piece 150 between the two supporting blocks 130 in a matching manner so as to limit the circuit board 300 in the length direction. In addition, the four corners of the circuit board 300 are respectively provided with LED lamp beads, and light emitted by the lamp beads passes through the first light-transmitting hole 280 and the second light-transmitting hole 360 on the middle shell 200 and then is transmitted out of the gel electrode plate 500.

The base 100 and the middle housing 200 are snap-fit connected to define an accessory space 120, and the circuit board 300 is disposed in the accessory space 120. Specifically, the base 100 has annular grooves 160 formed along its edge at a distance and two locking grooves 250 formed at both ends of the base 100 in the longitudinal direction, and the middle housing 200 has annular ribs 211 engaged with the annular grooves 160 and locking tongues 170 engaged with the locking grooves 250.

The conductive carrier 400 has a positioning post 420 extending toward the middle housing 200, and the positioning post 420 has a fastening hole 421. The middle housing 200 and the base 100 hold a resilient buckle structure 430, and the resilient buckle structure 430 includes a hook 431 engaged with the buckle hole 421. Two pressing openings 121 are formed at both ends of the base 100 in the length direction, and two elastic buttons 430 are respectively formed at both ends of the base 100 in the length direction.

Specifically, as shown in fig. 2, the elastic buckle structure 430 further includes a ring-shaped frame 432, a pressing portion 433, a connection column 435, and a spring 436. The hook 431 extends perpendicularly from the inner surface of the housing 432. The pressing portion 433 and the connecting column 435 are respectively disposed on two opposite sides of the frame 432, the pressing portion movably passes through the pressing opening 121, and the spring 436 is sleeved on the connecting column 435 and is stopped between the frame 432 and the blocking piece 150. When the conductive carrier 400, the middle housing 200 and the base 100 need to be disassembled, a user presses the pressing portion 433, the spring 436 is compressed between the blocking piece 150 and the connecting column 435, so that the elastic buckle structure 430 can move toward the blocking piece 150, and the hook 431 is separated from the buckle hole 421 on the positioning column 420, so that the conductive carrier 400 can be separated from the middle housing 200.

In addition, a first protrusion 230 is provided on the middle housing 200, and a sliding groove 231 is defined in the first protrusion 230 to limit the spring 436 and the connection column 435. Wherein the first protrusion 230 is configured in a wedge shape having a gradually increasing protrusion height in a direction toward the pressing opening 121. Further, the base 100 is provided with a second protrusion 140 for supporting the connection column 435 and the spring 436. The second convex portion 140 and the first convex portion 230 are pressed on both sides of the spring 436 and the connection column 435 to limit the spring 436 and the connection column 435 in a space defined by the first convex portion 230 and the second convex portion 140.

The flap 150 includes a first flap portion 131 and a second flap portion 133, the first flap portion 131 defining a first movement space 132 adapted for movement of the elastic member 434, and the second flap portion defining a second movement space 134 adapted for movement of the frame 432 to ensure that the elastic buckle structure 430 does not deviate during movement.

In addition, the graphene layer 260 and the electrical terminals on the circuit board 300 are connected by a flexible circuit board 350, a U-shaped groove 351 is formed on one side surface of the middle housing 200 facing the base 100, and a portion of the flexible circuit board 350 passing through the middle housing 200 facing the one side surface of the base 100 is formed in a U-shape adapted to be received in the U-shaped groove 351.

According to the utility model discloses massage subassembly 1, through adopting above-mentioned structure, mounting structure is stable, easy dismounting, and massage effect is good.

According to the utility model discloses massage appearance, through utilizing the utility model discloses the massage subassembly 1 of above-mentioned embodiment has easy dismounting, stable in structure, advantages such as massage effect is good. The massager here may be a neck massager.

Other constructions and operations of the massage assembly 1 of the massage apparatus according to the embodiment of the present invention and the massage apparatus having the same are known to those skilled in the art and will not be described in detail herein.

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 present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

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

Claims (21)

1. A massage assembly of a massage apparatus having a pulse generating device, comprising:

the electrode mounting seat is suitable for being connected with the main body of the massager, a first buckling piece is arranged on the electrode mounting seat, and the electrode mounting seat comprises a first power connection part electrically connected with the pulse generating device;

the edge of the conductive carrier is provided with a second buckling piece, the first buckling piece is matched with the second buckling piece to detachably connect the electrode mounting seat with the conductive carrier, one side surface of the conductive carrier, which is far away from the electrode mounting seat, is a conductive surface, the conductive carrier is provided with a second power connection part, and the second power connection part of the conductive carrier is abutted to the electrode mounting seat along with the matching of the first buckling piece and the second buckling piece;

the electrode mounting seat, the conductive carrier and the gel electrode slice are sequentially arranged in a stacked mode.

2. The massage assembly of the massage apparatus as claimed in claim 1, wherein the first connecting portion is an elastic connecting member, the elastic connecting member is disposed on the electrode mounting base and adapted to be electrically connected to the pulse generating device, and the elastic connecting member passes through the conductive carrier and abuts against and is electrically connected to the second connecting portion;

the second power connection part is a conductive piece, the conductive piece is positioned between the conductive carrier and the gel electrode slice, and the conductive piece is embedded in the conductive carrier and is electrically connected with the gel electrode slice.

3. The massage assembly of the massage apparatus as recited in claim 2, further comprising a circuit board connected to the electrode mount and electrically connected to the pulse generating device, wherein the resilient connecting member is disposed on the circuit board.

4. The massage assembly of the massage apparatus of claim 1, wherein the electrode mount comprises:

a base adapted to be connected with the body, the base having one side opened;

the middle shell is connected with the base to limit an accessory space, and the first buckle piece is arranged in the accessory space and connected with the base.

5. The massage assembly of claim 1, wherein the second snap is provided on a side surface of the conductive carrier facing the electrode mount.

6. The massage assembly of the massage apparatus of claim 5, wherein the second catch projects toward the electrode mount from a side surface of the conductive carrier facing the electrode mount.

7. The massage assembly of claim 1, wherein the electrode mount has an accessory space therein, the first latch member is a resilient latch structure movably disposed in the accessory space, the second latch member is a positioning post extending from the conductive carrier toward the electrode mount, and the positioning post has a latching hole thereon for engaging the resilient latch structure.

8. The massage assembly of the massage apparatus of claim 7, wherein the accessory space has a pressing opening communicating with the outside, the accessory space having a stopper therein, the elastic buckle structure comprising:

the annular frame body is internally provided with a clamping hook which is suitable for being matched with the buckling hole;

the pressing part is arranged on one side surface of the frame body and is suitable for movably penetrating through the pressing opening;

the elastic piece is stopped against the position between the other side surface of the frame body, far away from the pressing part, and the blocking piece, so that the frame body is driven to move.

9. The massage assembly of the massage apparatus of claim 8, wherein the electrode mount includes a base and a middle housing, the base and middle housing defining the accessory space;

the elastic member further includes:

the connecting column is arranged on the other side surface of the frame body, which is far away from the pressing part;

the spring, the spring housing is established on the spliced pole, and end to be in the framework with between the separation blade, the separation blade is established the internal surface of base and orientation well casing extends the setting.

10. The massage assembly of the massage apparatus of claim 9, wherein the center housing has a first raised portion thereon, the first raised portion defining a channel therein, the attachment post and the spring being positioned within the channel.

11. The massage assembly of the massage apparatus of claim 10, wherein the first raised portion is configured in a wedge shape with a gradually increasing raised height in a direction toward the compression opening.

12. The massage assembly of the massage apparatus as recited in any one of claims 9 to 11, wherein the base has a second raised portion thereon, the second raised portion being adapted to support the attachment post and the spring, the height of the second raised portion from the base being less than the height of the flap.

13. The massage assembly of the massage apparatus of claim 8, wherein the baffle comprises:

the first baffle part comprises two parallel first baffles and a top plate connected to the end parts of the two first baffles so as to define a first movable space suitable for the movement of the elastic piece;

the second baffle part comprises two parallel second baffles, the two second baffles are connected with the two first baffles through connecting plates respectively, the distance between the two second baffles is greater than two, the distance between the first baffles is limited by the second baffle part, and the second baffle part is suitable for the second activity space of the frame body movement.

14. The massage assembly of the massage apparatus as claimed in claim 9, wherein the base is formed in an elongated shape, and the pressing opening is formed on an end surface of the base in a length direction.

15. The massage assembly of the massage apparatus of claim 14, wherein the pressing openings are two and located at both ends of the base in the length direction.

16. The massage assembly of the massage apparatus of claim 9, wherein the pressing opening is provided on a side surface of the base remote from the center housing.

17. The massage assembly of the massage apparatus as claimed in claim 9, wherein the base is elongated, one of the base and the middle housing is provided with a latch and the other is provided with a slot, the latch and the slot are provided at two ends of the base in the length direction and located at two sides of the elastic buckle structure.

18. The massage assembly of claim 8, wherein the hook and the button hole have first and second opposing chamfered portions, respectively.

19. The massage assembly of claim 1, wherein the first snap feature is a snap hole and the second snap feature is a hook extending from the conductive carrier toward the electrode mount, the hook engaging the snap hole.

20. The massage assembly of claim 1, wherein the conductive carrier has a raised pattern on a periphery thereof.

21. A massage apparatus, comprising:

a main body;

a pulse generating device disposed within the body;

the massage assembly of the massage apparatus of any one of claims 1-20, said electrode mount being coupled to said body.

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