CN219049388U

CN219049388U - Massage head assembly and massage instrument

Info

Publication number: CN219049388U
Application number: CN202221350195.9U
Authority: CN
Inventors: 李恒; 卿叶林
Original assignee: SKG Health Technologies Co Ltd.
Current assignee: SKG Health Technologies Co Ltd.
Priority date: 2022-05-31
Filing date: 2022-05-31
Publication date: 2023-05-23
Anticipated expiration: 2032-05-31
Also published as: WO2023231556A1

Abstract

The utility model discloses a massage head assembly and a massage instrument, wherein the massage head assembly comprises a base body, a conductive massage head and a conductive assembly, wherein the base body is provided with a mounting surface facing a massage part; the conductive massage head is movably connected with the base body and at least partially protrudes out of the mounting surface; the conductive component is arranged on the base body and is electrically connected with the pulse generation module of the massager, and the conductive component is electrically connected with the conductive massage head in the moving process of the conductive massage head so as to convey the electric pulse of the pulse generation module to the conductive massage head. According to the technical scheme, the conductive massage head can be kept in an electrically connected state with the pulse generation module at all times in the process of movably pressing the massage part, and the massage effect of the product is improved.

Description

Massage head assembly and massage instrument

Technical Field

The utility model relates to the technical field of massage devices, in particular to a massage head assembly and a massage device.

Background

The massage instrument is a common household appliance in daily life, and is accepted by more and more people because of the advantages of relaxing tendons and activating collaterals, relaxing muscles of human bodies and the like.

In the related art, a massage head integrally formed with a shell is arranged on a shell of a massage instrument, which is in contact with a human body, and when the shell moves on a massage part of the human body, the massage head protruding out of the shell can effectively press acupoints of the human body, meanwhile, a pulse generating device electrically connected with the massage head is also arranged on the massage instrument, and the pulse generating device is used for conveying electric pulses to the massage head, so that the massage head can also perform electric acupuncture and moxibustion on the acupoints of the human body in the process of pressing the acupoints of the human body by the massage head, and thus, the massage effect of the massage instrument on the human body is effectively improved.

However, since the massage head is fixed to the housing, the movement of the massage head on the massage portion is relatively dead, which is not beneficial to improving the user experience, and if the above related technology is improved, the massage head is movably connected to the housing, but it is easy for the electric pulse circuit electrically connected to the massage head to be unable to maintain the contact state with the movable massage head at any time. Accordingly, there is a need for improvements therein by those skilled in the art.

Disclosure of Invention

The utility model mainly aims to provide a massage head assembly, which aims to solve the technical problem that the massage product in the prior art can not maintain the electric connection between the massage head and the pulse generating device under the state that the massage head moves.

In order to achieve the above purpose, the massage head assembly provided by the utility model comprises a base body, a conductive massage head and a conductive assembly, wherein the base body is provided with a mounting surface facing to a massage part; the conductive massage head is movably connected with the base body and at least partially protrudes out of the mounting surface; the conductive component is arranged on the base body and is electrically connected with the pulse generation module of the massager, and the conductive component is electrically connected with the conductive massage head in the moving process of the conductive massage head so as to convey the electric pulse of the pulse generation module to the conductive massage head.

In one possible implementation, the base body is internally provided with a mounting cavity, the conductive massage head is rotatably arranged in the mounting cavity, one side of the mounting cavity facing the massage part is provided with an extending hole communicated with the mounting cavity, part of the structure of the conductive massage head protrudes out of the mounting surface through the extending hole,

the base body is formed with the diapire of installation cavity in the opposite side that the installation cavity deviates from the massage position, electrically conductive subassembly is including stretching into the electrically conductive portion of installation cavity, electrically conductive massage head is located the part in installation cavity with the wall in installation cavity centre gripping jointly electrically conductive portion.

In one possible embodiment, the conductive portion is elastically stretchable, and the conductive portion is disposed between the bottom wall of the mounting cavity and the conductive massage head in an elastically compressed state.

In a possible embodiment, the conductive part is disposed opposite to the protruding hole and is located at the bottom wall of the mounting cavity, and the elastic force provided by the conductive part has a tendency to drive the conductive massage head to move from the protruding hole to the outside.

In a possible embodiment, the bottom wall of the mounting cavity is connected to the conductive portion by a limiting portion for limiting movement of the conductive portion in the bottom wall of the mounting cavity.

In one possible implementation, the limiting part comprises a protruding structure protruding from the bottom wall of the mounting cavity, the conductive part is arranged in a spring shape, and one end of the conductive part, which is close to the bottom wall of the mounting cavity, is annularly sleeved on the outer wall surface of the protruding structure.

In one possible implementation, the base body comprises a shell and a base covered on the shell, the side of the shell, which faces away from the base, is provided with the mounting surface, the shell and the base are matched to form the mounting cavity, and the base forms the bottom wall of the mounting cavity and clamps the conductive part together with the conductive massage head;

The electric pulse device comprises a base, a shell, a mounting cavity, a conductive assembly and an electric pulse circuit, wherein the mounting cavity is formed between the base and the shell, the mounting cavity is communicated with the mounting cavity, the conductive assembly comprises a conductive substrate which is arranged in the mounting cavity in a flake shape, and the conductive substrate is provided with the electric pulse circuit which is electrically connected with the conductive portion.

In one possible embodiment, the housing is configured to be electrically conductive, and the conductive substrate is connected to the housing by a conductive member so that the electrical pulse circuit is electrically connected to the housing; and/or the number of the groups of groups,

the conductive assembly further comprises a conductive piece connected with the conductive substrate, the conductive piece is arranged in the mounting gap, and the conductive part is electrically connected with the conductive substrate through the conductive piece.

In one possible embodiment, the conductive portion includes a first conductive portion and a second conductive portion connected,

the first conductive part is arranged at one end of the conductive part, which is close to the wall surface of the mounting cavity, and clamps the bottom wall of the mounting cavity and the conductive massage head together;

the second conductive part extends from the first conductive part to the mounting gap and is electrically connected with the conductive piece.

In one possible embodiment, the conductive member comprises an elastic support body and a conductive material layer wrapped around the elastic support body; or alternatively, the process may be performed,

The conductive member is an elastic conductive body.

In a possible implementation manner, a mounting cavity is arranged in the base body, the mounting surface is provided with an extending hole communicated with the mounting cavity, the conductive component comprises a conductive part extending into the mounting cavity, the conductive massage head is movably arranged in the mounting cavity, and part of the structure of the conductive massage head protrudes out of the mounting surface through the extending hole;

the massage device comprises a base, a shell, a conductive component, a control circuit module, a heating piece, a control circuit module and a massage device.

In one possible embodiment, the mounting face is arched away from the base to form a fixed massage head, the fixed massage head being spaced from the protruding aperture.

In a possible implementation manner, a concave cavity is formed in the side, facing the base, of the shell in a concave manner, the concave cavity is communicated with the mounting gap, and the heating piece comprises a heating base body arranged in the mounting gap and a heating split body connected with the heating base body and extending into the concave cavity;

The base is provided with an abutting part extending towards the concave cavity, and the abutting part abuts against the heating split body to enable the heating split body to abut against the inner wall surface of the concave cavity.

In one possible implementation manner, the outer wall surface of the fixed massaging head and the inner wall surface of the concave cavity are all arranged in a cambered surface shape, the propping piece is provided with a propping cambered surface facing the inner wall surface of the concave cavity, and the propping cambered surface is matched with the inner wall contour of the concave cavity.

In one possible embodiment, the conductive component comprises a conductive substrate arranged in a sheet shape in the mounting gap, the conductive substrate is provided with a power supply circuit, and the heating element is integrated on the conductive substrate and is electrically connected with the power supply circuit.

In one possible embodiment, a temperature sensor is provided in the mounting slot, which temperature sensor is electrically connected to the power supply circuit.

In one possible embodiment, the temperature sensor is integrated in the conductive substrate and is located on a side of the conductive substrate facing the base.

In a possible embodiment, the side of the conductive substrate facing the base is provided with a layer of buffer material.

In a possible embodiment, a light emitting component is integrated on the conductive substrate, the light emitting component is electrically connected with the power supply circuit, and a light emitting end of the light emitting component is arranged towards the housing.

The utility model also provides a massage instrument which comprises a machine body and a massage head assembly, wherein the massage head assembly comprises a base body, a conductive massage head and a conductive assembly, and the base body is provided with a mounting surface facing to a massage part; the conductive massage head is movably connected with the base body and at least partially protrudes out of the mounting surface; the conductive component is arranged on the base body and is electrically connected with the pulse generation module of the massager, and the conductive component is electrically connected with the conductive massage head in the moving process of the conductive massage head so as to convey the electric pulse of the pulse generation module to the conductive massage head;

the massage head assembly is arranged on one side of the machine body facing the massage part, and the conductive assembly is electrically connected with the pulse generation module.

In a possible implementation mode, a side of the machine body facing the massage part is provided with an assembling port matched with the massage head assembly, and the massage head assembly is installed at the assembling port;

The inside of organism is equipped with drive assembly, drive assembly is including locating the drive shaft of assembly mouth, the drive shaft with massage head subassembly transmission is connected.

In one possible embodiment, the massage device comprises an electric slip ring having a stator and a rotor rotatably connected, the rotor being fixedly mounted on the side of the base body facing away from the mounting surface and electrically connected to the conductive assembly, the rotor being in driving engagement with the drive shaft and being fixedly connected to the massage head assembly, the stator being electrically connected to the pulse generating module.

According to the massage head assembly, the conductive massage head is movably arranged on the base body, so that the flexibility of movement of the conductive massage head on a massage part is improved, the massage effect of a product on the massage part is improved, and the conductive assembly is arranged on the base body, so that the transmission of an electric signal between the conductive massage head and the pulse generation module is maintained under the condition that the conductive massage head moves, and in this way, the conductive massage head can also perform electric acupuncture on the massage part in the process of pressing the massage part by the conductive massage head, and thus, the massage effect of the product on a human body is effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of a massage head assembly of the present utility model;

FIG. 2 is a cross-sectional view of the massage head assembly of FIG. 1 with portions of the structure omitted;

FIG. 3 is a schematic view of a portion of the structure of the light emitting assembly of FIG. 2;

FIG. 4 is an exploded pictorial view of FIG. 3;

FIG. 5 is a schematic illustration of FIG. 2 with portions omitted;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic view of FIG. 6 with a portion of the structure omitted;

FIG. 8 is a schematic view of the massage head assembly of FIG. 1 with portions omitted;

FIG. 9 is a schematic illustration of FIG. 8 with the housing omitted;

FIG. 10 is a schematic view of FIG. 9 with the conductive substrate omitted;

FIG. 11 is a schematic view of a massage apparatus according to an embodiment of the present utility model;

FIG. 12 is a schematic view of the massage apparatus of FIG. 11 with a portion omitted;

Fig. 13 is a cross-sectional view of the massage machine of fig. 12 with a part of the structure omitted.

Reference numerals illustrate:

100. a massage head assembly; 1. a base; 11. a housing; 111. a mounting surface; 111a, structural faces; 112. a peripheral surface; 113. a boss; 113a, an extension hole; 114. a mounting groove; 114a, light holes; 114b, support steps; 115. a cavity; 12. a base; 121. a limit groove; 122. a limit part; 123. a bump structure; 13. a mounting cavity; 14. a clamping groove; 15. a mounting gap; 16. a filler; 161. a surrounding portion; 162. a fixing part; 17. a cylinder; 171. a cylindrical portion; 172. an annular portion; 18. a pressing member; 181. a supporting cambered surface; 2. a conductive massage head; 3. fixing the massage head; 4. a light emitting assembly; 41. a light emitting member; 42. a light guide; 421. a first light guide section; 422. a second light guide section; 423. a light-emitting surface; 424. a reflective inclined surface; 425. a clamping part; 426. a clamping groove; 43. a radiation member; 431. a lower mirror surface; 44. a semipermeable member; 441. plating a film surface; 45. a light blocking member; 451. a first light blocking section; 451a, a first inner wall surface; 452. a second light blocking section; 452a, a second inner wall surface; 5. a conductive assembly; 51. a conductive portion; 511. a first conductive portion; 512. a second conductive portion; 52. a conductive substrate; 53. a conductive member; 6. a heat generating member; 200. a body; 7. an assembly port; 300. a drive assembly; 8. a drive shaft; 400. an electrical slip ring; 9. a stator; 10. a rotor.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The present utility model proposes a massage head assembly 100, referring to fig. 1 to 10, the massage head assembly 100 is used for a massage apparatus, specifically, the massage apparatus may be a cervical vertebra massage apparatus, a waist massage apparatus, etc., and the massage head assembly 100 is not limited in this application.

Specifically, referring to fig. 1, the massage head assembly 100 includes a base 1, a conductive massage head 2, a fixed massage head 3, a light emitting assembly 4, a conductive assembly 5, and the like. Wherein, the base body 1 is used as a carrier for bearing and fixing the massage head 3, the conductive massage head 2, the luminous component 4, the conductive component 5 and other components, and is assembled with the body 200 of the massage device. Specifically, the base 1 has a mounting surface 111, and when the body 200 of the massage apparatus is worn by the user, the mounting surface 111 is positioned on the side of the base 1 facing the massage area of the user.

Specifically, referring to fig. 1, the conductive massage head 2 is movably connected with the base 1 and protrudes from the mounting surface 111, the mounting surface 111 is located at one side of the base 1 facing the massage part, and the conductive massage head 2 protrudes from the mounting surface 111, that is, the conductive massage head 2 is movable relative to the massage part, so that when the conductive massage head 2 massages the massage part, the conductive massage head 2 keeps in contact with the massage part, and the conductive massage head 2 is movable relative to the massage part, which effectively reduces friction force when the conductive massage head 2 contacts with the massage part, so that the conductive massage head 2 contacts with the massage part more smoothly, and improves the massage effect of the conductive massage head 2 on the massage part. The movable connection of the conductive massage head 2 and the base 1 has various forms, that is, the movable connection of the conductive massage head 2 relative to the mounting surface 111 has various forms, for example, but not limited to, in the present embodiment, the conductive massage head 2 can rotate relative to the mounting surface 111 to press the massage part, specifically, the part of the conductive massage head 2 protruding from the mounting surface 111 is used for contacting and rotating to press the massage part, the base 1 is movably mounted on the body 200 of the massage apparatus, and during the process of moving the base 1 relative to the massage part, the part of the conductive massage head 2 protruding from the mounting surface 111 is kept contacting with the massage part and rotates relative to the massage part, so that the friction force applied by the conductive massage head 2 when moving along with the base 1 on the massage part can be converted from the sliding friction force to the rolling friction force, thereby being beneficial to reducing the friction force applied by the base 1 when moving along the massage part, and further improving the smoothness of the movement of the base 1 on the massage part.

Specifically, in order to achieve the technical effect of "the conductive massage head 2 can rotate relative to the mounting surface 111", referring to fig. 2, 5 and 6, in some embodiments, a mounting cavity 13 may be provided in the base 1, and an extension hole 113a communicating with the mounting cavity 13 may be provided on the mounting surface 111, the conductive massage head 2 is movably mounted in the mounting cavity 13, a part of the structure on the conductive massage head 2 protrudes from the mounting surface 111 through the extension hole 113a, and a part of the conductive massage head 2 protruding from the mounting surface 111 through the extension hole 113a can rotate relative to the mounting surface 111. It will be appreciated that in the mounting cavity 13 inside the base 1, assembly between the base 1 and the conductive massage head 2 is realized, which is favorable for avoiding that the connection between the conductive massage head 2 and the base 1 is exposed in the external environment, and further avoiding that the assembly between the conductive massage head 2 and the base 1 is affected by the external environment, thereby ensuring connection reliability of the connection.

Based on the above, referring to fig. 2 and 5 specifically, the base 1 includes a housing 11 and a base 12 that are in covering connection, the protruding hole 113a is formed in the housing 11, the base 12 and the housing 11 cooperate together to form the mounting cavity 13, the radial dimension of the inner wall surface of the filling member 16 is smaller than the maximum outer diameter of the conductive massaging head 2, and the side of the conductive massaging head 2 away from the protruding hole 113a is propped against by the base 12. In the present embodiment, the portion of the conductive massage head 2 having the largest outer diameter is located in the mounting cavity 13, and under the abutment of the base 12, the conductive massage head 2 moves in a direction approaching the housing 11 along the axis of the protruding hole 113a or has a tendency to move in that direction, and because the portion of the conductive massage head 2 having the largest outer diameter cannot pass through the protruding hole 113a, the conductive massage head 2 can be securely restrained between the base 12 and the housing 11, while the base 1 does not restrain the conductive massage head 2 in other directions than the axis direction of the protruding hole 113a, and therefore the conductive massage head 2 can perform a rotational movement in the circumferential direction of the protruding hole 113a or the conductive massage head 2 can perform a rotational movement in the mounting cavity 13. That is, the present embodiment achieves the technical effect of movably mounting the conductive massage head 2 on the base 1 without depending on the connection member, and reduces the steps of assembling and disassembling the components between the conductive massage head 2 and the base 1 while saving the material of the connection member, thereby facilitating the rapid production of the product.

Preferably, referring to fig. 5, the conductive massage head 2 is a revolving body structure, a limiting groove 121 for rotatably supporting the conductive massage head 2 is provided on the base 12, and a side of the conductive massage head 2 away from the protruding hole 113a is accommodated in the limiting groove 121. It can be appreciated that the conductive massage head 2 is limited by the groove wall of the limiting groove 121, so that the conductive massage head 2 can be effectively prevented from moving and being deviated on the surface of the base 12. In some implementations of the present embodiment, the surface of the base 12 may be chiseled to form the limiting groove 121, and in other implementations of the present embodiment, a protrusion may be provided on the surface of the base 12 to form the limiting groove 121 based on the protrusion, which is not limited.

Optionally, the conductive massage head 2 has a sphere structure, and the limit groove 121 has a groove body structure adapted to the outer contour shape of the conductive massage head 2. It will be appreciated that the conductive massaging head 2 with a ball structure has no edge and corner of a person in its outer contour, so that the comfort of product massaging can be effectively ensured, and the limiting groove 121 in this embodiment has a groove wall at least partially configured as a concave arc surface adapted to the outer surface of the conductive massaging head 2, so as to effectively improve the contact degree between the conductive massaging head 2 and the groove wall of the limiting groove 121, and further ensure that the conductive massaging head 2 can be stably placed in the limiting groove 121 and stably perform rotary motion.

Specifically, in the process of achieving the technical effect of "the conductive massage head 2 can rotate relative to the mounting surface 111", in other embodiments, the base 1 includes a housing 11 and a base 12 that are connected in a covering manner, the protruding hole 113a is provided in the housing 11, the base 12 and the housing 11 cooperate to form the mounting cavity 13, the base 12 includes a mounting portion provided corresponding to the position of the protruding hole 113a, the conductive massage head 2 is rotatably mounted on the mounting portion (not shown) through a connecting structure (not shown), and the rotation axis of the conductive massage head 2 passes through the center of the protruding hole 113 a. It can be appreciated that in this embodiment, the conductive massage head 2 is assembled on the base 1 through the connection structure, so that the connection reliability between the conductive massage head 2 and the base 1 can be effectively ensured, and the accident that the conductive massage head 2 moves and deviates on the surface of the base 12 can be effectively prevented.

Based on the above, specifically, the conductive massage head 2 includes a main body portion (not shown) and a split portion (not shown), the main body portion and the split portion being respectively provided on opposite sides of the mounting portion, the main body portion being provided on a side of the mounting portion near the protruding hole 113 a; the main part is equipped with first screw hole towards one side of installation department, and the components of a whole that can function independently portion runs through and is equipped with the second screw hole, and the installation department is equipped with the via hole of first screw hole of intercommunication and second screw hole, and connection structure includes connecting screw, and connecting screw passes second screw hole, via hole and first screw hole in proper order to rotate main part and components of a whole that can function independently portion and install in the installation department. Specifically, the part of the structure on the main body portion protrudes from the mounting surface 111 through the protruding hole 113a, and the main body portion is restricted to the connection between itself and the connection screw, and cannot move in the hole axis direction of the protruding hole 113a, but because the connection screw can rotate in the through hole on the mounting portion, both the main body portion and the split body portion can rotate relative to the mounting portion. It will be appreciated that in this embodiment, the conductive massage head 2 is assembled to the mounting portion by using the connection screw as the connection structure, and the connection screw is widely applied in real life, and has the advantages of convenience in specific acquisition, stable and reliable connection, and the like. Of course, the design of the present application is not limited to this, and in other embodiments, the connection structure may be a rotating shaft protruding on the mounting portion, and accordingly, the main body portion may be provided with a rotating hole in which the rotating shaft is rotationally matched.

Because the radial dimension of the through hole of the mounting portion is much larger than that of the connecting screw, the phenomenon that the connecting screw is offset to one side of the through hole easily occurs in the process of rotating the connecting screw in the through hole, which is not beneficial to the stable rotation of the main body portion, in order to ensure that the main body portion can rotate on the mounting portion in a directional manner, in this embodiment, one of the mounting portion and the massage head is concavely provided with a guide ring groove (not shown), the other is provided with a guide convex ring (not shown) matched with the guide ring groove, and the massage head moves in the guide ring groove through the guide convex ring and rotates in a directional manner relative to the mounting portion. Specifically, a guide ring groove or guide boss is disposed around the ring via.

Referring to fig. 1, 2 or 6, in both embodiments for realizing the technical effect that the conductive massage head 2 can rotate relative to the mounting surface 111 due to process errors, a technical problem that a gap exists between the conductive massage head 2 and the hole wall of the protruding hole 113a, which is easy to clamp the hair of the human body, is inevitably caused, and when the hair enters the mounting cavity 13, the running stability of the components inside the base 1 is easily caused, and the user's hair is pinched off and pulled out, which also affects the massage experience of the user. In view of this, the massage head assembly 100 of the present application provides the filler 16 between the conductive massage head 2 and the inner wall surface of the protruding hole 113a to fill the gap between the conductive massage head 2 and the inner wall surface of the protruding hole 113a based on the filler 16, and thus, a series of adverse reactions caused by clamping the gap to human hair can be effectively solved.

Specifically, referring to fig. 6, the filler 16 includes a surrounding portion 161, and the surrounding portion 161 is at least partially disposed around the outline of the conductive massaging head 2. It is understood that the surrounding portion 161 serves to fill the annular gap between the conductive massage head 2 and the inner wall surface of the protruding hole 113a, and thus, the generation of the gap between the conductive massage head 2 and the inner wall surface of the protruding hole 113a is effectively avoided. In some embodiments of the present embodiment, the surrounding portion 161 may rotate together with the conductive massage heads 2 in the protruding holes 113a, and in other embodiments of the present embodiment, the surrounding portion 161 may be fixed on the inner wall surface of the protruding holes 113a, and the conductive massage heads 2 rotate inside the surrounding portion 161.

Preferably, the filler element 16 is a soft material. It will be appreciated that the use of a soft material is advantageous in avoiding the filler piece 16 from wearing the inner peripheral surface of the protruding hole 113a, the outer contour of the conductive massage head 2, and in deforming the filler piece 16 to be better sandwiched between the conductive massage head 2 and the inner peripheral surface of the protruding hole 113a. By way of example and not limitation, the soft material may be a silicone, rubber, or the like, and is not specifically limited herein.

Specifically, the mounting surface 111 is provided with a protruding boss 113, the boss 113 is hollow to form part of the mounting cavity 13, and an end of the boss 113 remote from the mounting surface 111 is formed with a protruding hole 113a. The specific shape of the boss 113 may be set according to the shape of the conductive massage head 2, for example, when the conductive massage head 2 is spherical, the boss 113 may be a cylindrical body formed with an arc-shaped inner wall surface. It will be appreciated that, compared with the way of increasing the structural thickness of the mounting surface 111 and providing the cavity containing the conductive massage head 2 on the mounting surface 111 with a certain thickness, the present application is advantageous for light and thin design of the mounting surface 111 of the base 1 and further for lightweight design of the base 1 by providing the protruding boss 113 on the mounting surface 111 and forming the cavity containing the conductive massage head 2 based on the hollow boss 113. Meanwhile, in order to facilitate the conductive massage head 2 to deeply press the massage part and improve the massage effect of the product, in this embodiment, a developer can adjust the height between one end of the conductive massage head 2 far away from the mounting surface 111 and the mounting surface 111 based on the protruding height of the adjusting boss 113 on the mounting surface 111, which is simple and convenient.

Further, referring to fig. 6, the boss 113 is tapered in an inner diameter in a direction away from the mounting surface 111. So set up, boss 113 forms great opening in the one end that is close to installation face 111 in order to supply conductive massage head 2 to put into boss 113 on the one hand, is favorable to the installer to install conductive massage head 2, and the other direction is favorable to boss 113 to keep away from the inner wall of one end of installation face 111 and carries out spacingly to conductive massage head 2, guarantees conductive massage head 2's assembly steadiness in boss 113, and simultaneously, "boss 113 is the internal diameter convergent setting towards the direction of keeping away from installation face 111" also contains in the hidden: the outer diameter of the boss 113 is tapered in a direction away from the mounting surface 111, which is advantageous in that the space volume of the boss 113 toward the massage site side is reduced, so that the conductive massage head 2 protruding from the protruding hole 113a is brought into better contact with the massage site and pressed.

Referring to fig. 6 or 7, in order to prevent the filling member 16 from falling into the mounting cavity 13, in this embodiment, the base 1 includes a cylinder 17 disposed around an inner wall surface of the boss 113, the cylinder 17 is hollow, a part of the structure of the conductive massaging head 2 is disposed in the cylinder 17, and one end of the cylinder 17 near the protruding hole 113a abuts against the filling member 16. In this way, the stability of the mounting position of the filler piece 16 is effectively ensured. It should be noted that, in other embodiments, the filling member 16 may be fixed between the conductive massaging head 2 and the inner wall surface of the protruding hole 113a by a fixed connection such as bonding or riveting.

Alternatively, referring to fig. 6 and 7, a clamping groove 14 is formed on one end of the cylinder 17 near the protruding hole 113a and matched with the inner wall surface of the boss 113, and part of the structure of the filling member 16 is clamped and installed in the clamping groove 14. It will be appreciated that such an arrangement is advantageous in improving the precision of the connection between the boss 113, the cylinder 17 and the filler 16, and in further ensuring the mounting stability of the filler 16. Specifically, the cylindrical body 17 includes a cylindrical portion 171 and an annular portion 172 that are disposed around an inner wall surface of the boss 113, the annular portion 172 is disposed protruding from one end of the cylindrical portion 171 near the protruding hole 113a, an outer wall surface of the annular portion 172 is disposed at a distance from the inner wall surface of the boss 113, and the inner wall surface of the boss 113, an end surface of the cylindrical portion 171 near the protruding hole 113a, and an outer wall surface of the annular portion 172 cooperate together to form the locking groove 14; the filling member 16 includes a fixing portion 162 and a surrounding portion 161, wherein the fixing portion 162 is disposed around an inner wall surface of the boss 113, a part of the fixing portion 162 is clamped in the clamping groove 14, another part of the fixing portion 162 extends out of a notch of the clamping groove 14 and is connected to the surrounding portion 161, and the surrounding portion 161 is disposed between the massage head and the inner wall surface of the extending hole 113 a.

It will be appreciated that in other embodiments, the hollow cylinder 17 includes a cylindrical portion 171 and an annular portion 172, one end of the cylindrical portion 171 away from the protruding hole 113a abuts against the base 12, the cylindrical portion 171 and the base 12 form a mounting cavity for the conductive massage head 2, the annular portion 172 is formed on a side of the cylindrical portion 171 near the protruding hole 113a, a radial dimension of an inner wall surface of the annular portion 172 is smaller than a maximum outer diameter of the conductive massage head 2, a side of the conductive massage head 2 away from the protruding hole 113a is abutted against by the base 12, a portion of the conductive massage head 2 having the maximum outer diameter is located within the cylindrical portion 171, and the maximum outer diameter of the conductive massage head 2 is abutted against by an inner wall surface of the annular portion 172, under the abutment of the base 12, the conductive massage head 2 moves in a direction toward the housing 11 along an axis of the protruding hole 113a or has a tendency to move in that direction, further, since the portion of the conductive massage head 2 having the largest outer diameter is abutted against the inner wall surface of the annular portion 172, at this time, no matter whether or not the aperture of the inner wall surface of the protruding hole 113a is smaller than the largest outer diameter of the conductive massage head 2, the portion of the conductive massage head 2 having the largest outer diameter cannot pass through the hollow cylindrical body 17 and thus pass through the protruding hole 113a, and therefore, the conductive massage head 2 can be stably restrained between the base 12 and the cylindrical body 17, that is, between the base 12 and the housing 11, and the base 1 does not restrain the conductive massage head 2 in other directions than the axial direction of the protruding hole 113a, and therefore, the conductive massage head 2 can be rotated in the circumferential direction of the protruding hole 113a or the conductive massage head 2 can be rotated in the mounting chamber 13.

Referring to fig. 1, in addition to the massage part being pressed by the conductive massage head 2, the massage head assembly 100 of the present application is provided with a fixed massage head 3 fixedly connected to the base 1 and protruding from the mounting surface 111. Specifically, the portion of the fixed massaging head 3 protruding from the mounting surface 111 is used to contact and press the massaging site. Preferably, in this embodiment, the fixed massage head 3 may be integrally formed with the base 1 to ensure connection reliability between the fixed massage head 3 and the base 1, and the integral forming may be that the fixed massage head 3 is integrally die-cast with the base 1, or that the fixed massage head 3 is formed by punching a shell wall of the base 1; in other embodiments, the fixed massaging head 3 and the base 1 may be molded separately, and then the fixed massaging head 3 may be fixedly connected to the base 1 by welding, bonding, screw connection, or the like, so that the fixed massaging head 3 may be reliably and fixedly connected to the base 1.

To achieve the multi-point pressing effect of the massage head assembly 100, in some embodiments of the present application, the conductive massage heads 2 are provided with at least two, and the number of the fixed massage heads 3 is set to one; in other embodiments of the present application, the fixed massaging heads 3 are provided with at least two, and the number of the conductive massaging heads 2 is set to one; in further embodiments of the present application, the conductive massage head 2 and the fixed massage head 3 may also each be provided in at least two. It should be noted that the above-mentioned embodiments are preferred embodiments of the present application, but the present application is not limited to the above-mentioned embodiments, and in other embodiments, only one fixed massage head 3 and only one conductive massage head 2 may be provided, which is not limited thereto.

It should be noted that, when the design of the "conductive massage head 2 is provided as at least two", it can greatly reduce the sliding friction force between the mounting surface 111 and the massage part, and ensure the smoothness of the movement of the mounting surface 111 on the massage part.

Specifically, the number of the bosses 113, the cylinder 17, the filler 16, and the like is equal to and corresponds to the number of the conductive massaging heads 2.

When barrel 17 is provided with two at least, the inside substrate that is equipped with of base member 1, two at least barrel 17 all fixed mounting are on the substrate to assemble to shell 11 or demolish from shell 11 along with the removal of substrate, so set up, so that the kludge once only carries out the dismouting to two at least barrel 17, is favorable to improving the packaging efficiency of kludge.

When the number of the conductive massage heads 2 is plural, preferably, the plural conductive massage heads 2 are annularly arranged on the mounting surface 111, so that the arrangement regulation of the conductive massage heads 2 can be improved, and the external appearance ornamental value of the product can be improved, and on the other hand, the conductive massage heads 2 on the mounting surface 111 can be uniformly and compactly arranged, thereby being beneficial to fully utilizing the limited space of the mounting surface 111.

When the number of the fixed massage heads 3 is plural, preferably, the plural fixed massage heads 3 are annularly arranged on the mounting surface 111, so that the arrangement regulation of the fixed massage heads 3 can be improved, and the external ornamental value of the product can be improved, and on the other hand, the fixed massage heads 3 on the mounting surface 111 can be uniformly and compactly arranged, thereby being beneficial to fully utilizing the limited space of the mounting surface 111.

When the number of the conductive massage heads 2 and the fixed massage heads 3 is plural, preferably, the conductive massage heads 2 and the fixed massage heads 3 are all arranged in a ring shape, and the technical effect of the arrangement can be referred to the foregoing and will not be repeated herein. Specifically, in some embodiments, the plurality of conductive massage heads 2 and the plurality of fixed massage heads 3 are formed as one ring, in other embodiments, the plurality of conductive massage heads 2 may be formed as a first ring, while the plurality of fixed massage heads 3 are formed as a second ring, and the positions of the first ring and the second ring may be set around the other, or may be arranged separately, or the like, which are not specifically mentioned herein.

Based on the embodiment that the number of the conductive massage heads 2 and the fixed massage heads 3 is plural, the conductive massage heads 2 and the fixed massage heads 3 are preferably arranged alternately on the mounting surface 111; or at least one conductive massage head 2 is arranged between any two adjacent fixed massage heads 3. It will be appreciated that both of the above embodiments can effectively interrupt the continuous arrangement of the fixed massage heads 3, thereby reducing the sliding friction between the region between adjacent fixed massage heads 3 and the massage part.

Because the conductive massage head 2 and the fixed massage head 3 are frequently contacted with the massage part and move on the massage part during the actual use of the product, in order to avoid the occurrence of the scratch accident on the massage part, in the embodiment, the outer surface of the part of the conductive massage head 2 protruding from the mounting surface 111 and the outer surface of the part of the fixed massage head 3 protruding from the mounting surface 111 are both arranged in arc surfaces. It should be noted that, in other embodiments, the design of the present application is not limited to this, but the outer surface of the portion of the conductive massage head 2 protruding from the mounting surface 111 may be provided with an arc surface, and the shape of the outer surface of the portion of the fixed massage head 3 protruding from the mounting surface 111 is not limited, or the outer surface of the portion of the fixed massage head 3 protruding from the mounting surface 111 may be provided with an arc surface, and the shape of the outer surface of the portion of the conductive massage head 2 protruding from the mounting surface 111 is not limited.

In some embodiments, the conductive massage heads 2, and/or the fixed massage heads 3 may be designed in a spherical or spheroid shape so as to each form the above arc-shaped face. Of course, the design of the present application is not limited thereto, and in other embodiments, the conductive massage head 2 and/or the fixed massage head 3 may be designed as an ellipsoid, which is not limited thereto.

Alternatively, referring to fig. 1, the height from the end of the conductive massage head 2 away from the mounting surface 111 to the mounting surface 111 is greater than the height from the end of the fixed massage head 3 away from the mounting surface 111 to the mounting surface 111. It is not difficult to understand that this setting for two types of massage heads can imbed respectively to the different degree of depth departments at massage position and press down the massage position, and this can give the user different and press down experience, and then promotes user's use experience. In addition, because the conductive massage head 2 can effectively reduce the sliding friction between the massage head assembly 100 and the massage site, the conductive massage head 2 of the present embodiment protrudes from the mounting surface 111 to a greater extent than the fixed massage head 3, which is advantageous for fully contacting the massage site and rotating on the massage site.

Referring to fig. 1, in order to improve the ornamental value of the base 1 and to avoid forming sharp corners on the peripheral side of the base 1, in this embodiment, the base 1 is arranged in a disc shape. It should be noted that, the design of the present application is not limited to this, and in other embodiments, the substrate 1 may be in a square shape, a spherical shape, or the like.

Specifically, the base 1 includes a disk surface facing the massage portion and a peripheral surface 112 provided around the peripheral edge of the base 1, the disk surface being formed as a mounting surface 111, the mounting surface 111 including a structural surface 111a extending from a central position thereof to the peripheral surface 112, the structural surface 111a being provided obliquely in a direction approaching the peripheral surface 112. It can be understood that in the daily use process of the product, impurities such as dust, water drops, sweat and the like easily fall onto the mounting surface 111 exposed outside, which affects the use sanitation of the product, so that a structural surface 111a inclined in a direction from the middle of the mounting surface 111 to the direction close to the peripheral surface 112 is formed on the mounting surface 111, which is beneficial to discharging the impurities such as dust, water drops, sweat and the like out of the substrate 1, thereby ensuring the use reliability of the product. Specifically, in the implementation process, the structural surface 111a may be a straight surface, an arc surface, or a combination of both, which is not limited.

Preferably, the conductive massaging head 2 protrudes from the structural surface 111a, and it will be understood that under the influence of the obliquely arranged structural surface 111a, the height of the side, close to the peripheral surface 112 of the base 1, of the conductive massaging head 2 on the structural surface 111a is different from the height of the side, close to the middle of the base 1, of the conductive massaging head 2 on the structural surface 111a, that is, the protruding heights of the two ends of the conductive massaging head 2 in the oblique direction of the structural surface 111a are different, which is beneficial for the conductive massaging head 2 to press the acupoints of each depth of the massaging part, so as to create different massaging effects. Specifically, the fixed massaging head 3 is also provided protruding from the structural surface 111 a. The technical effects of such an arrangement can be referred to above and will not be described in detail herein.

Further, the conductive massage heads 2 and the fixed massage heads 3 are respectively protruded from different structural surfaces 111 a. It will be appreciated that such an arrangement is advantageous to avoid the problem that too many structures (i.e. the conductive massage head 2 and the fixed massage head 3) are arranged on the same structural surface 111a, which results in too compact structures on the same structural surface 111a, and too close a distance between the conductive massage head 2 and the fixed massage head 3 is disadvantageous for pressing the two to penetrate deep into the massage part. It should be noted that, the design of the present application is not limited to this, and in other embodiments, the movable massaging head and the fixed massaging head 3 may be both protruding from the same structural surface 111 a.

Alternatively, the peripheral surface 112 is disposed at least partially obliquely from the peripheral edge of the base 1 toward the middle position of the disk surface. It can be appreciated that such an arrangement is beneficial to avoiding the formation of a corner of a punch at the junction of the peripheral surface 112 and the mounting surface 111, thereby avoiding the occurrence of scratching the massaging portion by the base 1. It should be noted that, in other embodiments, the connection between the peripheral surface 112 and the mounting surface 111 may be formed as a convex arc surface, so as to avoid the formation of corners.

Referring to fig. 2, 3 and 4, considering that the ornamental value of the appearance of the current product is also becoming one of important demands for people to shop, in order to improve the competitiveness of the product, the mounting surface 111 is further concavely provided with an open mounting groove 114, and the mounting groove 114 is internally provided with a light emitting component 4, and the light emitting component 4 is used for emitting visible light. In this way, the gorgeous light emitted by the light emitting component 4 is used to improve the appearance ornamental value of the massage head component 100, further improve the competitiveness of the product in the similar products, the effect of the light is not limited herein, and the effect of improving the appearance ornamental value of the massage head component 100 and even the massage apparatus is only required, further, in order to fully utilize the structural space of the mounting surface 111, the mounting groove 114 is arranged on one side of the plurality of structural surfaces 111a far away from the peripheral surface 112.

Specifically, in the present embodiment, by optimizing the light path structure, the light effect of the multiple light stacks is achieved to improve the visual appearance of the massage head assembly 100. Referring to fig. 2, 3 and 4, the light emitting assembly 4 includes a light emitting member 41, a light guiding member 42, a radiation member 43, a semi-transparent member 44 and a light blocking member 45, wherein the light emitting member 41 is used for generating visible light, and in some implementations of the present embodiment, the light emitting member 41 may be disposed outside a wall of the mounting groove 114, and in this implementation, the wall of the mounting groove 114 may be transparent to facilitate the light emitting member 41 to irradiate light into the mounting groove 114; in other implementations of the present embodiment, the groove wall of the mounting groove 114 is provided with a light hole 114a therethrough, and the light emitting element 41 is disposed in the light hole 114a and emits visible light toward the inside of the mounting groove 114; in still other implementations of the present embodiment, the light emitting member 41 may also be disposed inside the mounting groove 114.

Specifically, the light guide 42 is disposed in the mounting groove 114, and the light guide 42 has a light exit surface 423 disposed around a peripheral wall of the mounting groove 114, and the light guide 42 is configured to guide the visible light to diverge and to emit from the light exit surface 423 into the mounting groove 114. The visible light is emitted from the light emitting surface 423 to a side of the light emitting surface 423 facing away from the peripheral wall of the mounting groove 114. Specifically, the light guide member 42 may be made of a soft material capable of guiding light, for example, but not limited to, the light guide member 42 is a soft light guide formed by gathering glass fibers into a bundle, or is formed by wrapping a special acrylic layer as an inner layer and a fluororesin layer as an outer layer. Of course, the light guide 42 may also be a hard material that can guide light, such as, but not limited to, PMMA (Polymethyl methacrylate ), PC (Polycarbonate), PS (Polystyrene), and the like.

Specifically, the reflecting member is disposed at the bottom of the mounting groove 114, and has a lower mirror 431, and the lower mirror 431 is used for reflecting the visible light incident into the mounting groove 114 toward the opening. Wherein, the bottom of the mounting groove 114 means: the reflecting member may be provided on the bottom wall of the mounting groove 114 or may be provided at a position close to the bottom wall of the mounting groove 114. Specifically, referring to fig. 3, a direction from the bottom wall of the mounting groove 114 to the opening of the mounting groove 114 is defined as a preset light emitting direction, and the lower mirror 431 is located behind the light emitting surface 423 in the preset light emitting direction.

Specifically, in some embodiments, the reflecting member is a bottom plate detachably engaged with the bottom wall of the mounting groove 114, and the bottom plate is plated with a lower material layer toward the open plate surface, and the lower material layer is formed as a lower mirror 431 for reflecting the visible light incident into the mounting groove 114 toward the open. It will be appreciated that the removable attachment of the radiating element 43 to the bottom wall of the mounting channel 114 facilitates later maintenance and replacement of the reflecting element, as well as facilitating plating of the lower material layer of the reflecting element outside of the mounting channel 114. It should be noted that, in other embodiments, the reflecting member may be a boss structure (not shown) integrally formed with the bottom wall of the mounting groove 114, and a lower material layer is plated on a side of the boss structure (not shown) facing the opening, and the lower material layer is formed into a lower mirror 431 for reflecting the visible light incident into the mounting groove 114 toward the opening. In this embodiment, the reflecting member is integrally formed with the bottom wall of the mounting groove 114, so that the inconvenience of mounting the reflecting member in the mounting groove 114 is avoided, the assembly process of the product is reduced, and the production speed of the product is improved.

Specifically, the semipermeable member 44 is disposed to cover the opening, and the semipermeable member 44 has a coating surface 441 for reflecting a part of the visible light irradiated to the opening into the mounting groove 114 and transmitting another part of the visible light to the outside. Specifically, referring to fig. 3, a direction from the bottom wall of the mounting groove 114 to the opening of the mounting groove 114 is defined as a preset light emitting direction, and the light emitting surface 423 is located behind the plating surface 441 in the preset light emitting direction.

Specifically, the semipermeable member 44 is a light-transmitting plate detachably engaged with the opening, and the surface of the light-transmitting plate facing the bottom wall of the mounting groove 114 is coated with an upper material layer, and the upper material layer is formed as a coated surface 441. It will be appreciated that the removable connection of the semipermeable member 44 to the open mouth facilitates later maintenance and replacement of the semipermeable member 44, while also facilitating plating of the semipermeable member 44 with the upper material layer outside of the mounting groove 114.

Specifically, referring to fig. 4, the light blocking member 45 includes a first light blocking portion 451 provided around the peripheral wall of the mounting groove 114, the first light blocking portion 451 being provided between the translucent member 44 and the light guiding member 42; and/or the light blocking member 45 includes a second light blocking portion 452 provided around the peripheral wall of the mounting groove 114, the second light blocking portion 452 being provided between the light guide member 42 and the reflecting member. The first light blocking portion 451 has a light blocking effect, and is used for preventing visible light from being directly scattered onto the coated surface 441 from the portion of the light guide member 42 except for the light emitting surface 423, and correspondingly, the second light blocking portion 452 also has a light blocking effect, and is used for preventing visible light from being directly scattered onto the lower mirror 431 from the portion of the light guide member 42 except for the light emitting surface 423. Specifically, in some implementations of the present embodiment, the light blocking member 45 includes only the first light blocking portion 451; in other implementations of the present embodiment, the light blocking member 45 includes only the second light blocking portion 452; in still other implementations of the present embodiment, the light blocking member 45 includes both the first light blocking portion 451 and the second light blocking portion 452.

Preferably, the colors of the first light blocking part 451 and the second light blocking part 452 are different from the colors of the lights emitted when the light emitting member 41 is energized. For example, and not by way of limitation, when the color of the lamp light is red, the color of the first light blocking portion 451 (the second light blocking portion 452) may be black, green, yellow, purple, or the like, which is different from red. The arrangement is so as to create layered lighting effect. To facilitate an understanding of the aspects of the present application, the following is illustrated: assuming that the light blocking member 45 includes the first light blocking portion 451 and the second light blocking portion 452, the color of the light emitted from the light emitting member 41 is red, and the color of both the first light blocking portion 451 and the second light blocking portion 452 is black, at this time, if the light emitting member 41 is energized, the light effect presented by the first light blocking portion 451, the light emitting surface 423, and the second light blocking portion 452 is "black-red-black", after the light effect presented by the real object in the mounting groove 114 (i.e., "black-red-black") is reflected by the coated surface 441, the light effect presented by the coated surface 441 is also "black-red-black", after that the light effect presented by the real object in the coated surface 441 and the mounting groove 114 is reflected by the lower mirror 431, the user can see the light effect of "black-red-black-red-black" in the lower mirror 431, based on which, when the user views the product from the opening of the installation groove 114 to the bottom wall of the installation groove 114, he can view the light effect commonly created by the coated surface 441, the first light-blocking portion 451, the light-emitting surface 423, the second light-blocking portion 452 and the lower mirror 431, that is, "black-red-black" to ensure miniaturization of the product, after the assembly of the components is completed, the first light-blocking portion 451 is disposed adjacent to the plating surface 441, and the second light-blocking portion 452 is disposed adjacent to the lower mirror 431, so that, when a user views the two layers of "black" on the plating surface 441 and "black" of the first light-blocking portion 451, the light effect actually seen by the user is "black-red-black-red-black", which is a light effect that can be seen by the user on the premise that the film plating surface 441 and the lower mirror surface 431 reflect visible light only once, and the light effect actually seen by the user is richer than the light effect of "black-red-black-red-black" after the film plating surface 441 and the lower mirror surface 431 reflect visible light only once, which is not exemplified herein.

On the other hand, assuming that the light blocking member 45 includes only the first light blocking portion 451, the color of the light emitted from the light emitting member 41 is red, and the color of the first light blocking portion 451 is black, at this time, if the light emitting member 41 is energized, the light effects of both the first light blocking portion 451 and the light emitting surface 423 are "black-red", after the light effects (i.e., "black-red") exhibited by the real object in the mounting groove 114 are reflected by the coating surface 441, the light effects of the "red-black" exhibited by the coating surface 441 are reflected by the lower mirror 431, after that, the light effects of the "red-black-red" are seen by the user in the lower mirror 431, based on the above, when the user views the product from the opening of the mounting groove 114 to the bottom wall of the mounting groove 114, the light effect commonly created by the film plating surface 441, the first light blocking portion 451, the light emitting surface 423 and the lower mirror 431, that is, "red-black-red-black-red", can be seen, and in order to ensure the miniaturization design of the product, after the components are assembled, the first light blocking portion 451 is disposed close to the film plating surface 441, and the light emitting portion is disposed close to the lower mirror 431, so that when a user views two layers of black of "black" on the film plating surface 441 and "black" of the first light blocking portion 451, only one layer of "black" can be actually seen, the two layers of red of "red" on the light emitting surface 423 and "red" on the lower mirror 431 are overlapped into one layer of "red" in the actual viewing process, therefore, the light effect actually seen by the user is "red-black-red", and of course, the light effect is only seen on the premise that the film plating surface 441 and the lower mirror 431 reflect the visible light only once, and after the film plating surface 441 and the lower mirror 431 reflect the visible light multiple times, the light effect actually seen by the user is more abundant than the light effect of "red-black-red", which is not illustrated herein.

When the light blocking member 45 includes only the second light blocking portion 452, the specific light emitting effect of the product is not much different from the light emitting effect when the light blocking member 45 includes only the first light blocking portion 451, and only the light color arrangement order is somewhat different, which will not be described here.

It should be understood that the above light effects are merely exemplified for the convenience of the reader, and the light effects of the actual products may be different due to the influence of the light intensity, the reflection effect of the light, whether the first light blocking portion 451 and the second light blocking portion 452 are provided, whether the colors of the first light blocking portion 451 and the second light blocking portion 452 are the same, the viewing angle of the user, and the like.

Specifically, in some embodiments, the color of the first light-blocking portion 451 may be the color of the material itself, and in some embodiments, the first light-blocking portion 451 may be an entirely black (here, black is used only as an example, and the first light-blocking portion 451 may be another color in actual use), or in other embodiments, the first light-blocking portion 451 may be a part coated with a black material on the surface; the second light blocking portion 452 is not described here. In other embodiments, the color of the first light blocking portion 451 may be a color that is displayed after the material itself absorbs light, for example, the surface of the first light blocking portion 451 is coated with a light absorbing material, and the light absorbing material is black under the irradiation of light (the black is used herein for example only, and the first light blocking portion 451 may be other colors in practical use). The second light blocking portion 452 is not described here.

In order to prevent the first light blocking portion 451 from blocking the visible light emitted from the light emitting surface 423 from being transmitted to the plating surface 441, it is preferable that the first light blocking portion 451 has a first inner wall surface 451a surrounding the peripheral wall of the mounting groove 114, the first inner wall surface 451a being disposed flush with the light emitting surface 423; similarly, in order to prevent the second light blocking portion 452 from blocking the visible light emitted from the light emitting surface 423 from being transmitted to the lower mirror 431, it is preferable that the second light blocking portion 452 has a second inner wall surface 452a surrounding the peripheral wall of the mounting groove 114, and the second inner wall surface 452a is disposed flush with the light emitting surface 423.

It will be appreciated that, in the display assembly of the present utility model, by arranging the light emitting surface 423 annularly arranged between the film plating surface 441 and the lower mirror surface 431, and arranging the first light blocking portion 451 between the light emitting surface 423 and the film plating surface 441 and/or arranging the second light blocking portion 452 between the light emitting surface 423 and the lower mirror surface 431, when the light emitting member 41 is electrified to emit light, visible light is emitted from the light emitting surface 423 and forms a visual effect of a light ring, and then the light ring is repeatedly reflected back and forth through the film plating surface 441 and the lower mirror surface 431 to form a gorgeous and multiple light emitting effect.

Preferably, referring to fig. 8, the bottom wall of the mounting groove 114 is provided with a light hole 114a, the light emitting element 41 is disposed at the light hole 114a, and the light guiding element 42 extends to the light hole 114a to be in butt joint with the light emitting element 41. It can be understood that, because the light emitting element 41 occupies a certain structural space, in the arrangement manner of arranging the light emitting element 41 in the mounting groove 114, the light emitting element 41 is arranged in the light transmitting hole 114a of the bottom wall, which is beneficial for the light emitting element 41 to avoid the space for mounting the light emitting element 41, the light blocking element 45 and other components; compared with the arrangement mode of arranging the light emitting element 41 on the outer side of the mounting groove 114, the light transmitting hole 114a is communicated with the inner cavity of the mounting groove 114, so that the light emitting element 41 can directly irradiate visible light into the mounting groove 114, and the phenomenon that the visible light is weakened in the transmission process of the groove wall of the mounting groove 114 is avoided.

It should be noted that, when the reflecting member is a boss structure integrally formed with the bottom wall of the mounting groove 114, in addition to the manner of forming the light holes 114a in the boss structure, a manner of spacing the boss structure from the peripheral wall of the mounting groove 114 may be adopted to form a groove for mounting the light emitting member 41 between the boss structure and the peripheral wall of the mounting groove 114.

Specifically, referring to fig. 4, based on the design manner that the light emitting element 41 is disposed on the bottom wall of the mounting groove 114, in the present application, the light guiding element 42 includes a first light guiding section 421 extending to the bottom wall of the mounting groove 114 along the groove depth direction of the mounting groove 114, and a second light guiding section 422 connected to one end of the first light guiding section 421 far away from the bottom wall of the mounting groove 114 and extending along the groove width direction of the mounting groove 114, where one end of the first light guiding section 421 near the bottom of the mounting groove 114 is disposed toward the light transmitting hole 114a, and one end of the second light guiding section 422 far away from the first light guiding section 421 is formed with a light emitting surface 423. Specifically, the developer can control the height of the second light guiding section 422 in the depth direction of the mounting groove 114 based on adjusting the structural length of the first light guiding section 421, that is, control the light emitting height of the light emitting surface 423 in the depth direction of the mounting groove 114; the developer can also control the radial dimension of the light emitting surface 423 based on adjusting the structural length of the second light guiding section 422, that is, the position of the light emitting surface 423 in the radial direction of the light emitting member 41, so as to adjust the light emitting position of the light emitting member 41. Therefore, the adjustability of the product in actual use is improved.

Optionally, referring to fig. 4, a light reflecting inclined plane 424 is disposed at a connection portion between the first light guiding section 421 and the second light guiding section, and the light reflecting inclined plane 424 is used for reflecting light from the first light guiding section 421 to the second light guiding section. It will be appreciated that, based on the reflection of the reflective inclined surface 424, more visible light is advantageously guided to diverge from the first light guiding section 421 into the second light guiding section 422, so as to ensure the light emitting effect of the light emitting surface 423. Specifically, in an embodiment, the light reflecting slope 424 may be a layer of light reflecting material plated on the light guide 42.

Specifically, referring to fig. 4, in the process of massaging the massaging portion with the massaging head assembly 100, the base 1 inevitably undergoes phenomena such as shaking, in order to ensure the installation stability of the second light blocking portion 452 and the lower mirror 431, in this application, a clamping portion 425 is protruding on a side of a peripheral wall of the first light guiding section 421 opposite to the installation groove 114, and the clamping portion 425, the first light guiding section 421 and the second light guiding section 422 are cooperatively formed with a clamping groove 426, and both the periphery of the reflecting member and the periphery of the second light blocking portion 452 are clamped with the clamping groove 426. Of course, the design of the present application is not limited thereto, and in other embodiments, the reflective member and the second light blocking portion 452 may be fixed by other fixing methods, for example, but not limited to, the peripheral edge of the reflective member and the peripheral edge of the second light blocking portion 452 are adhered to the light guiding member 42 by an adhesive method.

Specifically, referring to fig. 8, a supporting step 114b is provided on a peripheral wall of the mounting groove 114, and the first light blocking portion 451 is mounted on the supporting step 114 b. The support of the periphery of the first light blocking portion 451 based on the support step 114b is advantageous in ensuring the mounting stability of the first light blocking portion 451.

Preferably, referring to fig. 8, the light emitting element 41 includes a plurality of light beads, the bottom wall of the mounting groove 114 is provided with a plurality of light holes 114a, one light bead is disposed corresponding to one light hole 114a, and the plurality of light beads are annularly arranged on the bottom wall of the mounting groove 114. By the arrangement, the light guide member 42 is ensured to have sufficient light source, and meanwhile, the uniformity of light emitted from the annular light emitting surface 423 is also ensured.

After the ornamental value of the appearance of the product is improved, more consideration is needed to be given to the massage practicability of the product so as to further improve the competitiveness of the product. The current massage products on the market mostly already realize the electrical connection between the pulse generating module and the fixed massage body, and a feasible scheme for the electrical connection between the pulse generating module and the movable massage body may not be proposed yet, for this purpose, the massage head assembly 100 of the present utility model has the conductive component 5 disposed on the base 1, the conductive component 5 is electrically connected with the pulse generating module of the massage apparatus, and the conductive component 5 is electrically connected with the conductive massage head 2 during the movement of the conductive massage head 2, so as to transmit the electrical pulse of the pulse generating module to the conductive massage head 2.

It will be appreciated that the massage head assembly 100 of the present utility model can be used to implement the transfer of the electrical signal from the pulse generating module to the movable conductive massage head 2 by adding the conductive assembly 5 which can be electrically connected to the conductive massage head 2 all the time during the movement of the conductive massage head 2 on the base 1, thereby achieving the dual massage effect that the conductive massage head 2 can also perform electrotherapy for the massage part during the movement of the conductive massage head 2 to press the massage part.

In connection with the embodiment of how the conductive massage head 2 is movably mounted to the base body 1 described in detail above, and referring specifically to fig. 9 and 10, the conductive assembly 5 includes a conductive portion 51 extending into the mounting cavity 13, and the portion of the conductive massage head 2 located in the mounting cavity 13 and the wall surface of the mounting cavity 13 cooperate to clamp the conductive portion 51. It is easy to understand that the connection between the conductive part 51 and the conductive massage head 2 is realized by clamping, and the electric conduction massage head has the advantages of simple disassembly and assembly, stable connection, reliable conductivity and the like. Of course, the design of the present application is not limited to this, and in other embodiments, the conductive portion 51 may be sleeved on the outer peripheral wall of the conductive massaging head 2, which is not limited to this.

Preferably, the base 1 is formed with a bottom wall of the mounting cavity 13 at the other side of the mounting cavity 13 facing away from the massage part, the conductive part 51 is elastically stretchable, and the conductive part 51 is arranged between the bottom wall of the mounting cavity 13 and the conductive massage head 2 in an elastically compressed state. It will be appreciated that since the conductive portion 51 has a movement tendency to return to its original shape after being compressed, in this process, the conductive portion 51 is forcefully pressed against the conductive massage head 2, which is advantageous in ensuring tightness of contact between the conductive portion 51 and the conductive massage head 2, and thus ensuring reliability of electrical connection therebetween. In some implementations of the present embodiment, the conductive portion 51 may be provided in a spring-like manner, and in other implementations of the present embodiment, the conductive portion 51 may include an elastic support portion (such as, but not limited to, a sponge, a rubber, etc.) and a conductive material layer wrapped around the elastic support portion.

Specifically, the conductive portion 51 is disposed opposite to the protruding hole 113a and is located at the bottom wall of the mounting cavity 13, and the elastic force provided by the conductive portion 51 has a tendency to drive the conductive massage head 2 to move from the protruding hole 113a toward the outside. It will be appreciated that the conductive portion 51 is disposed on the bottom wall of the mounting cavity 13, and under the dual actions of the abutment of the bottom wall of the mounting cavity 13 and the elastic abutment of the conductive portion 51, the maximum outer diameter portion of the conductive massage head 2 can be more effectively limited in the mounting cavity 13 and abuts against the hole wall extending out of the hole 113a or the annular portion 172 of the cylinder 17, so that the conductive massage head 2 is advantageously prevented from moving on the surface of the base 12, and the mounting reliability of the conductive massage head 2 is ensured.

It will be understood that the use of the product is inevitably accompanied by shaking, vibration, etc., in order to avoid the conductive portion 51 from coming out from between the bottom wall of the mounting cavity 13 and the conductive massaging head 2, in this embodiment, the bottom wall of the mounting cavity 13 is connected to the conductive portion 51 by the limiting portion 122, and the limiting portion 122 is used for limiting the movement of the conductive portion 51 in the bottom wall of the mounting cavity 13.

Preferably, referring to fig. 9 and 10, the limiting portion 122 includes a protruding structure 123 protruding from the bottom wall of the mounting cavity 13, the conductive portion 51 is disposed in a spring shape, and one end of the conductive portion 51 near the bottom wall of the mounting cavity 13 is sleeved on an outer wall surface of the protruding structure 123 in an annular shape. It will be appreciated that the manner of sleeving the spring-shaped conductive part 51 on the protruding structure 123 to fix itself on the bottom wall of the mounting cavity 13 has the advantages of simple implementation, convenient assembly and disassembly, reliable connection, etc. It should be noted that, in other embodiments, the limiting portion 122 may be an adhesive material for adhering the conductive portion 51 to the bottom wall of the mounting cavity 13; or, the limiting portion 122 may be a groove body disposed at the bottom wall of the mounting cavity 13, and the effect of limiting the conductive portion 51 may be achieved by embedding the conductive portion 51 into the groove body; in addition, the limiting portion 122 may be a clamping post protruding from the bottom wall of the mounting groove 114, and the conductive portion 51 may be limited by clamping and fixing the conductive portion 51 based on the clamping post.

Optionally, in some embodiments, the base 1 includes a housing 11 and a base 12 covered on the housing 11, a mounting surface 111 is formed on a side of the housing 11 facing away from the base 12, a mounting cavity 13 is formed by cooperation of the housing 11 and the base 12, and a bottom wall of the mounting cavity 13 and the conductive massaging head 2 are formed by the base 12 to jointly clamp the conductive part 51; a mounting gap 15 communicated with the mounting cavity 13 is formed between the base 12 and the shell 11, the conductive assembly 5 comprises a conductive substrate 52 which is arranged in a sheet shape in the mounting gap 15, an electric pulse circuit which is electrically connected with the conductive part 51 is arranged on the conductive substrate 52, a connecting contact is arranged on the electric pulse circuit corresponding to the conductive part 51, and the electric pulse circuit is electrically connected with the conductive part 51 through the connecting contact so as to realize the transfer of an electric signal from the electric pulse circuit to the conductive massage head. It will be appreciated that in order to avoid the problem of excessive thickness of the base 1, the housing 11 and the base 12 need to be disposed as close to each other as possible, so that the circuit of the power supply pulse circuit cannot be disposed between the housing 11 and the base 12 without excessive space, and in consideration of this, the present embodiment employs integrating the power supply pulse circuit on the conductive substrate 52, which solves the technical problem of difficult wiring between the housing 11 and the base 12 on the one hand, and on the other hand, the sheet-like design based on the conductive substrate 52 is also advantageous for "the housing 11 and the base 12 are disposed as close to each other as possible", which is advantageous for the miniaturization design of the base 1. Specifically, the electric pulse circuit is integrated on the conductive substrate 52 by printing, and meanwhile, the connection contact is integrated on the conductive substrate 52, one side of the connection contact is connected with the electric pulse circuit printed on the conductive substrate 52, and the other side of the connection contact faces the conductive part 51 and is exposed on the conductive substrate 52 so as to realize the electric connection with the conductive part 51.

Optionally, referring to fig. 9, the conductive assembly 5 further includes a conductive member 53 connected to the conductive substrate 52, where the conductive member 53 is disposed in the mounting slot 15, and the conductive portion 51 is electrically connected to the conductive substrate 52 through the conductive member 53. It will be appreciated that during actual use of the product, the connection contacts on the conductive part 51 and the conductive substrate 52 are easily separated from each other due to the shaking of the base 1, and if the means of soldering the conductive part 51 to the contacts on the conductive substrate 52 is adopted, maintenance and replacement of the conductive part 51 and the conductive substrate 52 during subsequent use are not facilitated, and in this embodiment, the transfer structure, i.e. the conductive member 53, is provided between the conductive part 51 and the conductive substrate 52, because the plasticity of the structural shape of the conductive member 53 is higher compared with the conductive substrate 52 and the conductive substrate 51, so that the transfer between the conductive part 51 and the conductive substrate 52 by adopting the conductive member 53 is beneficial to ensure the electrical connection stability between the conductive part 51 and the conductive substrate 52.

Specifically, the electric pulse circuit is a connection branch integrated on the conductive substrate 52, the connection branch is integrated on the conductive substrate 52 in a printing manner, the connection branch extends from the conductive substrate 52 into the mounting gap 15 and is close to the conductive massage head 2, and the connection contact is arranged at one end of the connection branch far away from the conductive substrate 52, so that an electric connection path from the electric pulse circuit to the conductive massage head 2 of the conductive part 51 can be shortened, and the reliability of electric connection between the electric pulse circuit and the conductive massage head 2 is increased.

More specifically, the conductive part 51 includes a first conductive part 511 and a second conductive part 512 connected to each other, where the first conductive part 511 is disposed at one end of the conductive part 51 near the wall surface of the mounting cavity 13, and clamps the bottom wall of the mounting cavity 13 together with the conductive massage head 2; the second conductive portion 512 extends from the first conductive portion 511 to the mounting slit 15 and is electrically connected to the conductive member 53. Specifically, the second conductive portion 512 is provided in a spring shape, and after the first conductive portion 511 is connected to the second conductive portion 512, a part of the second conductive portion extends in a linear shape from the mounting cavity 13 into the mounting slit 15, and the other part is connected to the conductive member 53 in the mounting slit 15 in a spring shape.

Alternatively, the housing 11 can be arranged to be electrically conductive, and the conductive substrate 52 is connected to the housing 11 by means of the conductive member 53, so that the electrical pulse circuit is electrically connected to the housing 11. It will be understood that in the process of massaging the massaging portion by the product, many positions on the housing 11 are in direct contact with the massaging portion, and based on this, the electrical signal from the electrical pulse circuit to the housing 11 is transferred through the conductive member 53, which is beneficial to improving the electrotherapy range of the product, and further improving the massaging effect and massaging efficiency of the product.

Specifically, the conductive member 53 includes an elastic support body and a conductive material layer wrapped around the elastic support body; alternatively, the conductive member 53 is an elastic conductive body. The elastic support body can be made of sponge, rubber and other materials. It will be appreciated that the conductive member 53 of both embodiments has a certain deformability, and this arrangement is beneficial to avoiding wear and even damage to the conductive member 53 under the compression of the housing 11 and the base 12, and to extending the service life of the conductive member 53.

In some embodiments, the base 1 is provided with a mounting cavity 13, the mounting surface 111 is provided with an extending hole 113a communicated with the mounting cavity 13, the conductive component 5 comprises a conductive part 51 extending into the mounting cavity 13, the conductive massage head 2 is movably arranged in the mounting cavity 13, and part of the structure of the conductive massage head 2 protrudes out of the mounting surface 111 through the extending hole 113 a; a mounting gap 15 communicated with the mounting cavity 13 is formed between the base 12 and the shell 11, a heating element 6 is arranged in the mounting gap 15, the heating element 6 is electrically connected with the conductive component 5, the conductive component 5 is electrically connected with a control circuit module of the massager, and the heating element 6 is electrified to heat and transmit to the shell 11. It will be appreciated that heat generated by the heating element 6 after being energized is transferred to the housing 11, so that the housing 11 can perform hot compress massage on the massage part, thereby enriching the functions of the massage head assembly 100. It should be noted that, because of the small mounting gap 15, the heat generating element 6 is disposed in the mounting gap 15, which facilitates rapid heat transfer to the housing 11.

Specifically, the fixed massaging head 3 is recessed on a side of the housing 11 facing the base 12 to form a cavity 115, the cavity 115 is communicated with the mounting slit 15, and the heating element 6 comprises a heating base body arranged in the mounting slit 15 and a heating split body connected with the heating base body and extending into the cavity 115. It will be appreciated that the formation of the cavity 115 is advantageous for reducing the wall thickness of the housing 11 at a position corresponding to the fixed massage head 3, thereby ensuring that the heat of the heat generating member 6 can be timely transferred to the fixed massage head 3, and that the formation of the cavity 115 is also advantageous for reducing the structural weight of the housing 11, so that the massage head assembly 100 can be designed in a lightweight manner. In addition, in order to improve the adhesion effect between the heat generating component and the cavity wall of the cavity 115 and improve the heat transfer efficiency between the heat generating component and the cavity wall of the cavity 115, in this embodiment, the base 12 is provided with a propping member 18 extending toward the cavity 115, and the propping member 18 is propped against the heat generating component to make the heat generating component prop against the inner wall surface of the cavity 115. In other embodiments, the propping element 18 may be disposed on the substrate, and the propping element 18 is disposed against the heat generating component, so that the heat generating component is propped against the inner wall surface of the cavity 115.

Specifically, the propping member 18 may be made of rubber, silica gel, sponge, etc. to obtain good elastic deformation capability.

Preferably, the outer wall surface of the fixed massaging head 3 and the inner wall surface of the concave cavity 115 are both arranged in a cambered surface shape, the propping piece 18 is provided with a propping cambered surface 181 facing the inner wall surface of the concave cavity 115, and the propping cambered surface 181 is matched with the inner wall contour of the concave cavity 115. It should be noted that "arc surface" should be interpreted broadly herein, and includes not only a regulated arc surface but also a curved surface approximating an arc surface. It will be appreciated that the outer wall surface of the fixed massaging head 3 is in a cambered surface shape, which is favorable for smooth contact between the fixed massaging head 3 and the massaging part, so as to promote massaging comfort of the product, while in order to ensure consistency of wall thickness at each position of the fixed massaging head 3, the inner wall surface of the concave cavity 115 in this embodiment is also in a cambered surface shape, and finally, the abutting cambered surface 181 which is matched with the inner wall surface contour of the concave cavity 115 is adopted, so as to improve the bonding degree between the heating split and the inner wall surface of the concave cavity 115, and further ensure rapid heat transfer.

Specifically, referring to fig. 10, the supporting cambered surface 181 is provided with a groove body, and ribs are arranged in the groove body at intervals, and the ribs can strengthen the strength of the supporting cambered surface 181, so that the heating split body is reliably pressed between the supporting cambered surface 181 and the concave cavity 115; the groove can be used to hold the mucus when the holding arc 181 is adhered to the heat generating component or to hold a portion of the heat generating component when the heat generating component is deformed by compression, when the heat generating component is adhered to the cavity 115 by the mucus.

In some embodiments, the conductive assembly 5 includes a conductive substrate 52 arranged in a sheet shape in the mounting slot 15, the conductive substrate 52 is provided with a power supply circuit, and the heat generating element 6 is integrated on the conductive substrate 52 and electrically connected to the power supply circuit. It will be appreciated that the integrated design of the heating element 6 and the conductive substrate 52 is beneficial to avoiding the increase of the thickness of the product caused by the assembly gap between the heating element 6 and the conductive substrate 52, which is beneficial to the miniaturization design of the product, and on the other hand, the arrangement of the heating element 6 on the conductive substrate 52 is beneficial to reducing the length of the line required by the wiring between the heating element 6 and the power supply circuit, thereby reducing the difficulty of the wiring between the heating element 6 and the power supply circuit. Preferably, the heating element 6 is a heating wire printed on the conductive substrate 52, and the heating wire on the conductive substrate 52 may be arranged in a meandering manner, such as but not limited to an arc wire, an irregular spiral wire, or the like, so as to ensure the heating value of the heating element 6. Of course, the design of the present application is not limited to this, and in other embodiments, the heat generating element 6 may be a metal sheet that generates heat.

Optionally, a temperature sensor (not shown) is disposed in the mounting slot 15, and the temperature sensor is electrically connected to the power supply circuit. The temperature of the heating element 6 is detected and fed back based on the temperature sensor, so that the hot compress function of the product can be realized safely, reliably and effectively. Further, the temperature sensor is integrated on the conductive substrate 52 and is located on a side of the conductive substrate 52 facing the base 12. It will be appreciated that the integration of the temperature sensor on the conductive substrate 52 is beneficial to reducing the wiring difficulty between the conductive substrate 52 and the temperature sensor, and in addition, the arrangement of the temperature sensor on the side of the conductive substrate 52 away from the housing 11 is beneficial to avoiding the interference of the electric pulse signal on the housing 11 on the operation of the temperature sensor and the abrasion or even damage of the housing 11 with larger vibration amplitude on the temperature sensor.

In order to solve the foregoing problem of difficult wiring between the light emitting component 4 and the power supply circuit on the conductive substrate 52, it is preferable that the light emitting component 4 is integrated on the conductive substrate 52, the light emitting component 4 is electrically connected to the power supply circuit, and the light emitting end of the light emitting component 4 is disposed towards the housing 11.

Specifically, a plurality of electrical connection points are disposed on a side of the conductive substrate 52 facing the base 12 and are used for electrically connecting with an electrical pulse generating module and a control circuit module of the massager, and the electrical connection points are arranged at intervals on a side of the conductive substrate 52 facing the base 12 and are electrically connected with an electrical pulse circuit, a temperature sensor, a heating element 6 and a light emitting component 4 integrated on the conductive substrate 52 respectively, so as to realize the transfer of electrical signals from the electrical pulse generating module and the control circuit module to the electrical pulse circuit, the temperature sensor, the heating element 6 and the light emitting component 4.

It will be appreciated that the number of the electrical connection points is at least 5, for example, but not limited to, the number of the electrical connection points is 5, wherein 4 electrical connection points are respectively electrically connected with the electrical pulse circuit, the temperature sensor, the heating element 6 and the light emitting component 4 to realize the switching of different electrical signals from the electrical pulse generating module and the control circuit module, and the remaining 1 electrical connection points are the common ground terminal of the electrical pulse circuit, the temperature sensor, the heating element 6 and the light emitting component 4 to form a corresponding stable electrical connection loop.

The electrical connection points are disposed on the main body of the conductive substrate 52, and the main body of the conductive substrate 52 is disposed towards the bottom wall side of the base 12 corresponding to the mounting groove 114, specifically, the electrical connection points are abutted to the bottom wall surface of the mounting groove 114 towards the base 12 through the main body of the conductive substrate 52, so that the electrical connection points can be supported by the bottom wall side of the mounting groove 114 towards the base 12, so that the electrical connection points can be stably and electrically connected with the electrical pulse generating module and the control circuit module of the massager.

Optionally, a buffer material layer is further disposed on a side of the conductive substrate 52 facing the base 12, where the buffer material layer is disposed away from the electrical connection point. Wherein, the material of the buffer material layer can be sponge, rubber and other materials. The buffer material layer is used for buffering the force acted on the conductive substrate 52 from the outside, which is beneficial to reducing the oscillation degree of the conductive substrate 52 and protecting the stable operation of the electrical components on the conductive substrate 52.

The present utility model also proposes a massage apparatus, please refer to fig. 11 to 13, the massage apparatus includes a machine body 200 and a massage head assembly 100, the specific structure of the massage head assembly 100 refers to the above embodiment, and since the massage head assembly 100 adopts all the technical solutions of all the embodiments, it has at least all the beneficial effects brought by the technical solutions of the embodiments, and will not be described in detail herein. The massage head assembly 100 is disposed on one side of the machine body 200 facing the massage part, and the conductive assembly 5 is electrically connected with the pulse generation module. In some implementations of the present embodiment, the massage head assembly 100 may be fixedly connected, integrally formed, or detachably connected to the body 200, which is not limited thereto.

Preferably, in order to improve the intelligence degree of the product and the massage effect of the product, in the embodiment, a fitting opening 7 adapted to the massage head assembly 100 is provided on a side of the body 200 facing the massage part, and the massage head assembly 100 is mounted on the fitting opening 7; the inside of the machine body 200 is provided with a driving assembly 300, the driving assembly 300 comprises a driving shaft 8 arranged at the assembly opening 7, and the driving shaft 8 is in transmission connection with the massage head assembly 100. In this way, the massage head assembly 100 is driven based on the driving shaft 8 so as to move relative to the massage part, thereby effectively massaging the massage part and improving the massage effect of the product.

Alternatively, the outer wall surface of the base body 1 is disposed flush with the outer wall surface of the fitting opening 7. Thus, the smooth transition of the joint between the base body 1 and the machine body 200 is ensured, and the appearance ornamental value of the product is ensured.

Specifically, the drive shaft 8 drives the massage head assembly 100 to rotate to press the massage site. Based on this, in order to avoid the phenomenon that the connection line between the body 200 and the base 1 is wound during the rotation of the massage head assembly 100, in this embodiment, the massage apparatus includes an electrical slip ring 400, the electrical slip ring 400 has a stator 9 and a rotor 10 which are rotatably connected and electrically connected, one end of the rotor 10 is in driving engagement with the driving shaft 8 and is relatively fixedly connected with the massage head assembly 100 so as to keep relatively static between the rotor 10 and the massage assembly 100, the other end of the rotor 10 is fixedly mounted on the side of the base 1 facing away from the mounting surface 111, an elastic conductor is provided on the other end of the rotor 10, the elastic conductor includes but is not limited to an elastic PIN needle, the elastic conductor is kept in contact with the contact point and is electrically connected with the conductive substrate 52 through the contact point, thereby realizing the electrical connection between the rotor 10 and the conductive assembly 5, the stator 9 is fixedly connected with the body 200 and is electrically connected with the control circuit module and/or the pulse generating module in the body 200, thereby realizing the movable electrical connection between the control circuit module and/or the pulse generating module in the body 200 and the conductive assembly 5 on the massage assembly 100.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims

1. A massage head assembly, comprising:

the base body is provided with a mounting surface facing the massage part, a mounting cavity is arranged in the base body, and an extending hole communicated with the mounting cavity is formed in one side of the mounting cavity facing the massage part;

the conductive massage head is rotatably arranged in the mounting cavity, and part of the structure of the conductive massage head protrudes out of the mounting surface through the protruding hole; and

the conductive component is arranged on the base body and is electrically connected with the pulse generation module of the massager, and the conductive component is electrically connected with the conductive massage head in the moving process of the conductive massage head so as to convey the electric pulse of the pulse generation module to the conductive massage head.

2. The massage head assembly of claim 1, wherein the base body defines a bottom wall of the mounting cavity on the other side of the mounting cavity facing away from the massage portion, the conductive assembly including a conductive portion extending into the mounting cavity, the conductive portion being held by a portion of the conductive massage head located within the mounting cavity in combination with a wall of the mounting cavity.

3. The massage head assembly of claim 2, wherein the conductive portion is elastically stretchable and contractible, and wherein the conductive portion is disposed between the bottom wall of the mounting cavity and the conductive massage head in an elastically compressed state.

4. A massage head assembly as recited in claim 3, wherein the conductive portion is disposed opposite the protruding aperture and at a bottom wall of the mounting cavity, the conductive portion providing a spring force having a tendency to drive the conductive massage head outwardly from the protruding aperture.

5. A massage head assembly as recited in claim 3, wherein the bottom wall of the mounting cavity is connected to the conductive portion by a limiting portion for limiting movement of the conductive portion in the bottom wall of the mounting cavity.

6. The massage head assembly of claim 5, wherein the limiting portion comprises a protruding structure protruding from a bottom wall of the mounting cavity, the conductive portion is arranged in a spring shape, and one end of the conductive portion, which is close to the bottom wall of the mounting cavity, is annularly sleeved on an outer wall surface of the protruding structure.

7. The massage head assembly of claim 2, wherein the base comprises a housing and a base that covers the housing, the housing having the mounting surface formed on a side facing away from the base, the housing and the base cooperatively forming the mounting cavity, the base forming a bottom wall of the mounting cavity that cooperates with the conductive massage head to retain the conductive portion;

8. The massage head assembly of claim 7, wherein the housing is configured to be electrically conductive, the conductive substrate being coupled to the housing by a conductive member to electrically couple the electrical pulse circuit to the housing; and/or the number of the groups of groups,

9. The massage head assembly of claim 8, wherein the conductive portion comprises a first conductive portion and a second conductive portion connected,

10. The massage head assembly of claim 8, wherein the conductive member comprises an elastic support and a conductive material layer wrapped around the elastic support; or alternatively, the process may be performed,

The conductive member is an elastic conductive body.

11. The massage head assembly of claim 1, wherein the conductive assembly comprises a conductive portion extending into the mounting cavity, the base comprises a housing and a base that covers the housing, the housing has the mounting surface formed on a side facing away from the base, and the housing and the base cooperate to form the mounting cavity;

12. The massage head assembly of claim 11, wherein the mounting surface is arched away from the base to form a fixed massage head, the fixed massage head being spaced from the protruding aperture.

13. The massage head assembly of claim 12, wherein the fixed massage head is recessed on a side of the housing facing the base to form a cavity, the cavity being in communication with the mounting slot, the heat-generating member comprising a heat-generating base disposed in the mounting slot and a heat-generating sub-body coupled to the heat-generating base and extending into the cavity;

14. The massage head assembly of claim 13, wherein the outer wall surface of the fixed massage head and the inner wall surface of the concave cavity are both arranged in a cambered surface shape, the abutting piece is provided with an abutting cambered surface facing the inner wall surface of the concave cavity, and the abutting cambered surface is matched with the contour of the inner wall of the concave cavity.

15. The massage head assembly of claim 11, wherein the conductive assembly comprises a conductive substrate disposed in the mounting slot in a sheet-like configuration, the conductive substrate having a power supply circuit, the heat generating member being integrated on the conductive substrate and electrically connected to the power supply circuit.

16. The massage head assembly of claim 15, wherein a temperature sensor is disposed within the mounting slot, the temperature sensor being electrically connected to the power circuit.

17. The massage head assembly of claim 16, wherein the temperature sensor is integrated with the conductive substrate and is located on a side of the conductive substrate facing the base.

18. The massage head assembly of claim 15, wherein a side of the conductive substrate facing the base is provided with a layer of cushioning material.

19. The massage head assembly of claim 15, wherein the conductive substrate has a light emitting assembly integrated thereon, the light emitting assembly being electrically connected to the power circuit, a light emitting end of the light emitting assembly disposed toward the housing.

20. A massage apparatus, comprising:

the device comprises a machine body, wherein a pulse generation module is arranged in the machine body; and

the massage head assembly as recited in any one of claims 1 to 19, wherein the massage head assembly is disposed on a side of the body facing the massage location, and wherein the conductive assembly is electrically connected to the pulse generating module.

21. The massage apparatus of claim 20, wherein a side of the body facing the massage location is provided with an assembly port adapted to the massage head assembly, the massage head assembly being mounted to the assembly port;

22. The massage apparatus of claim 21, wherein the massage apparatus comprises an electrical slip ring having a stator and a rotor rotatably coupled, the rotor fixedly mounted to a side of the base opposite the mounting surface and electrically coupled to the conductive assembly, the rotor drivingly engaged with the drive shaft and fixedly coupled to the massage head assembly, the stator electrically coupled to the pulse generating module.