CN114073636A

CN114073636A - Massage device

Info

Publication number: CN114073636A
Application number: CN202010851003.1A
Authority: CN
Inventors: 刘杰; 刘海防
Original assignee: SKG Health Technologies Co Ltd.
Current assignee: SKG Health Technologies Co Ltd.
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2022-02-22

Abstract

The application discloses massage appearance, massage appearance include host computer, drive assembly, bolster and extend the part, and the host computer is the arc to first face and second face including carrying on the back mutually. The driving assembly is arranged in the main machine and protrudes relative to the first surface of the main machine, and the driving assembly can generate vibration along a first direction. The driving assembly is connected with the host through a buffer piece, and the buffer piece is used for absorbing vibration of the driving assembly in the second direction. The first direction is a radial direction of the main machine, and the second direction is a direction other than the first direction. The expansion part is arranged on the first surface of the main machine and is connected with the buffer part and/or the driving component, and the expansion part is used for transmitting vibration to provide a massage effect. The massage appearance of this application embodiment produces along the radial vibration of host computer through setting up drive assembly to set up the bolster in order absorbing drive assembly vibration in other directions, can make drive assembly's vibration direction orderly, orderly vibration can let the people feel obvious and strike the sense, with the massage effect that improves the massage appearance.

Description

Massage device

Technical Field

The application relates to the technical field of massage, in particular to a massage instrument.

Background

At present, people often can not leave computers and mobile phones in life and work, people can easily feel aching pain of cervical vertebra, lumbar vertebra and other parts after seeing the computers and the mobile phones for a long time, and the aching pain of the cervical vertebra and the lumbar vertebra can be relieved by using a massage instrument. The massage apparatus transmits vibration to the skin of a user through the vibration motor to realize the effect of massaging the user. However, the vibration motor in the massage process is easy to vibrate together with the main body of the massage apparatus, thereby affecting the wearing.

Disclosure of Invention

The embodiment of the application provides a massage instrument.

The massage instrument of this application embodiment includes host computer, drive assembly, bolster and expansion part. The host computer is the arc, the host computer includes first face and the second face of carrying on the back mutually. The driving assembly is arranged in the main machine and protrudes relative to the first surface of the main machine, and the driving assembly can generate vibration along a first direction. The driving assembly is connected with the host through the buffer piece. The buffer piece is used for absorbing the vibration of the driving assembly in the second direction. The first direction is a radial direction of the main machine, and the second direction is a direction other than the first direction. The expanding component is arranged on one side of the main machine and is connected with the buffer piece and/or the driving assembly, and the expanding component is used for transmitting the vibration to provide a massage effect.

The massage instrument of this application embodiment produces along the radial vibration of host computer through setting up drive assembly to set up the bolster in order to absorb drive assembly except along the radial vibration on other directions of host computer, can make drive assembly's vibration direction orderly. On the one hand, can understand, unordered vibration direction can simulate better beating massage gimmick than orderly vibration direction, and the user can let the people feel obvious sense of beating through the orderly vibration of massage appearance, and the massage appearance can have better massage effect. On the other hand, the drive assembly can drive the host computer and vibrate in the direction except the radial direction of host computer in the vibration of the direction except the radial direction of host computer in the edge in step, after long-time vibration, the host computer takes place to shift easily, probably bring the dislocation of each part on the host computer, the massage appearance absorbs the drive assembly in the vibration of the direction except the radial direction of host computer through setting up the bolster, the harmful effects of the vibration that can greatly reduced drive assembly to the host computer, in order to promote the product quality and the stability of massage appearance.

In some embodiments, the buffer includes a connection portion and a first corrugated portion. The connecting part extends out of the host from the inside of the host, and the driving assembly is installed on the connecting part. The first fold portion is connected with the outer side face of the connecting portion and the host, and when the driving assembly vibrates, the first fold portion can allow the connecting portion to stretch and retract relative to the first face of the main body.

Drive assembly installs on connecting portion, and first fold portion is connected with the lateral surface and the host computer of connecting portion, can be so that drive assembly installs on the host computer through first fold portion and connecting portion, and first fold portion can cooperate with connecting portion in order to cushion drive assembly in the host computer except the vibration of other directions radially, consequently can realize double buffering and absorbing effect through first fold portion and connecting portion, and the bolster that is favorable to the massager has higher buffer capacity. In addition, the driving assembly is installed on the main machine through the first folding part and the connecting part, and is not directly and fixedly connected to the main machine, so that the driving assembly can have a certain displacement space along the radial direction of the main machine, and the driving assembly can move and adjust along the radial direction of the main machine to adapt to the shape of a neck of a human body when a user wears and uses the massage apparatus.

In some embodiments, the buffer includes the connecting portion, the connecting portion includes a silica gel sleeve, the silica gel sleeve extends from inside the host to outside the host, and the driving assembly is installed in the silica gel sleeve.

Connecting portion include the silica gel cover, and the material of silica gel cover is softer and can have better deformation effect, consequently can have better buffering and shock attenuation effect to the vibration of drive assembly in other directions of the host computer except that radially.

In some embodiments, the connecting portion defines an installation space. The first end of the connecting part extending out of the main machine is provided with a first through hole, and the first through hole is communicated with the installation space. The driving assembly comprises a vibration motor and a vibration transmission piece. The vibration motor is installed in the installation space for generating vibration. The vibration transmission piece is arranged in the installation space and exposed from the first through hole, and the vibration motor is connected with the vibration transmission piece.

The driving assembly is provided with the vibration transmission piece, so that the vibration loss of the vibration transmission of the vibration motor to the expansion part can be reduced, and the vibration sense reaching the skin of a user is improved.

In some embodiments, one end of the vibration transmitting member is flush with or protrudes from an end surface of the first end of the connecting portion.

One end of the vibration transmission piece is flush with or protrudes out of the end face of the first end of the connecting portion, so that the vibration transmission piece can transmit the vibration of the vibration motor to other components.

In some embodiments, a second end of the connecting portion within the host is provided with a second perforation. The second through hole communicates with the installation space. The vibration motor extends into the mounting space from the second through hole and is in interference fit with the connecting part.

Vibrating motor stretches into in the installation space and with connecting portion interference fit from the second perforation, can make the vibration motor inseparabler with being connected of connecting portion for connecting portion can be closely wrapped up vibrating motor, the noise that produces when can reducing vibrating motor vibration, and improve the reliability of being connected of vibrating motor and connecting portion.

In some embodiments, the size of the opening of the mounting space at the second end of the connecting portion is gradually reduced before the vibration motor is mounted to the mounting space in a direction from the first end of the connecting portion to the second end of the connecting portion.

Before vibrating motor installs to installation space, along the first end of connecting portion to the direction of the second end of connecting portion, the opening size that is located the installation space of the second end of connecting portion reduces gradually, is favorable to making vibrating motor install just to be difficult to drop from the connecting portion behind the installation space for vibrating motor and connecting portion can have better interference fit effect, further improve the reliability of being connected of vibrating motor and connecting portion.

In some embodiments, the cross-section at the first end of the connecting portion gradually increases in a direction from the first end of the connecting portion to the second end of the connecting portion.

Along the direction of the first end of connecting portion to the second end of connecting portion, the cross-section that is located the first end of connecting portion reduces gradually greatly, can reduce connecting portion and expand the area of contact of part for drive assembly can improve connecting portion and expand the local pressure of part contact area when vibrating, can strengthen expanding the sense of vibration that the part transmitted to user's skin.

In some embodiments, the buffer includes the connection portion, the connection portion extends out of the host from inside the host, and the driving assembly includes a vibration motor and an installation portion. The vibrating motor is installed in the installation department, the installation department with connecting portion connect.

The driving assembly comprises the vibration motor and the mounting part, and the vibration motor can be connected with other parts more stably through the mounting part.

In some embodiments, the vibration motor includes a linear motor or a flat-eccentric-vibrator motor, wherein the flat-eccentric-vibrator motor is vertically disposed with respect to the buffer.

The massage instrument of some embodiments uses a linear motor or a flat eccentric vibrator motor, can better simulate the knocking massage effect, and can effectively transmit vibration from a host to an expansion part. Wherein, the vertical setting of flat eccentric oscillator motor can form the effect of beating similar with linear motor to can simulate out the massage effect of beating better.

In some embodiments, the connecting portion defines an installation space. The installation department includes closing cap, turn-ups and spacing collar. The flange extends from the edge of the first face of the cover and surrounds to form a cavity. The limiting ring extends from the first surface of the sealing cover and is contained in the cavity. The vibration motor is arranged in the limiting ring and penetrates out of the cover to protrude relative to the second surface of the cover. And a space is arranged between the limiting ring and the flanging. The connecting part extends into the gap and is abutted to the sealing cover, and the limiting ring extends into the mounting space.

The installation department includes closing cap, turn-ups and spacing collar, connecting portion stretch into spacing collar and turn-ups interval in and with the closing cap butt, the spacing collar stretch into in the installation space for installation department and connecting portion can have inseparable nested cooperation, thereby vibrating motor can firmly be connected with connecting portion through the installation department.

In some embodiments, the host includes a first casing and a second casing, the first casing is located on a first surface of the host, the second casing is located on a second surface of the host, the first casing and the second casing are combined to form an accommodating cavity, and the driving assembly is disposed on the first casing through the buffer member.

The main machine comprises a first shell and a second shell, the first shell and the second shell are combined to form an accommodating cavity which can accommodate and protect parts of the main machine, and the first shell and the second shell have the functions of supporting, connecting and protecting the main machine and the massage instrument.

In certain embodiments, the first housing comprises a plastic or silicone shell; and/or the second shell comprises a plastic shell or a silica gel shell.

The silica gel shell can play a role in buffering so as to reduce the vibration of the host; the hardness of the plastic shell is higher, so that the condition that the host is damaged due to the fact that a foreign object impacts the host can be avoided.

In some embodiments, the buffer member is an integral structure or a separate structure from the first housing.

When the connecting part and the first shell are of an integral structure, the first shell and the connecting part can be manufactured together, and the manufacturing process is simple and the manufacturing cost is low. When connecting portion and first shell are the components of a whole that can function independently structure, only need change when first shell or connecting portion damage that damage can, cost of maintenance is low.

In some embodiments, the massager further comprises an expanding component, wherein the expanding component is installed on one side of the main machine and connected with the buffer piece and/or the driving component.

The expansion part is arranged on one side of the main machine and is connected with the buffer piece and/or the driving assembly, so that the driving assembly can drive the expansion part to vibrate to massage a user.

In some embodiments, the expansion member at least partially covers the buffer.

The expansion part at least partially covers the buffer part, so that the driving assembly can transmit vibration to the expansion part through the connecting part, and the expansion part can be in direct contact with the skin of a human body, so that the vibration can be transmitted to a user through the expansion part, and the massage instrument can provide a vibration massage effect.

In some embodiments, the massager includes a connector mounted on the host; the expansion part comprises a body, and the body comprises a combining part and two extending parts. The combining part is connected with the connecting piece. The two extending parts are arranged on two sides of the combining part and are spaced from the host, and the extending parts are connected with the buffer parts and/or the driving assembly.

The two extending parts of the expanding component are arranged on two sides of the combining part and are spaced from the host, on one hand, the two extending parts can deform by taking the joint of the extending parts and the combining part as a fulcrum to adapt to the shape of the massage part of the user, and on the other hand, the extending parts are not easy to collide with the host when deforming.

In some embodiments, the joint is detachably connected to the connector; or the combining part is fixedly connected with the connecting piece.

When the combination part is detachably connected with the connecting piece, the expansion part is convenient to disassemble and replace; the joint part is fixedly connected with the connecting piece, so that the expansion part and the host are more stable, and the expansion part is not easy to separate from the host.

In some embodiments, the massager further includes a second corrugated portion, the connecting member is connected to the combining portion through the second corrugated portion, and the second corrugated portion is capable of allowing the expansion assembly to be telescopic relative to the first shell.

Set up second fold portion on the massage appearance, and the connecting piece is connected with second fold portion, and the joint portion can be along radially stretching out and drawing back, and the shape-following deformability of expansion part is stronger, and during the drive assembly vibration, can play the effect of supplementary damping, has reduced the whole vibration that produces of expansion part and has transmitted the possibility that leads to the host computer vibration again.

In some embodiments, in a projection from the expanding member to the host direction, the projection of the expanding member completely covers a projection of the first folded portion and a projection of the second folded portion of the buffer.

The projection of the expansion part completely covers the projection of the first fold part and the projection of the second fold part of the buffer part, so that the possibility that sundries such as dust enter the folds can be reduced, the possibility that the folds can store dirt and dirt is reduced, meanwhile, the adverse effect on the massager caused by the sundries such as dust in production or working environment entering the massager through the folds can be avoided, and the working stability of the massager can be improved.

In some embodiments, a first distance between a junction of the bumper and/or the drive assembly with the extension and a free end of the extension is less than a second distance between the junction and the junction.

The connecting part is close to the free end setting of extension portion to make drive assembly can drive extension portion better and take place to warp, increased the amplitude of extension portion, be favorable to promoting the massage effect of massager.

In some embodiments, the buffer includes a plurality and the driving assembly includes a plurality. Each extending part corresponds to one buffer part and one driving assembly, and each extending part is connected with the corresponding buffer part and/or the corresponding driving assembly; or each extending part corresponds to a plurality of buffer parts and a plurality of driving components, and each extending part is connected with the corresponding buffer parts and/or the driving components.

Each extending part at least corresponds to one buffer part and/or one driving assembly, and each extending part can carry out vibration massage on a user, so that the massage area of the expanding part is increased, and the massage effect of the user is improved.

In some embodiments, a clearance groove is formed in a side, facing the main machine, of the extending portion, and the buffer member and/or the driving assembly extend into the clearance groove and are connected with the extending portion.

One side of the extension part facing the main machine is provided with a clearance groove, so that the distance between the driving assembly and the skin of a user can be reduced, and the vibration feeling felt by the user is improved.

In some embodiments, the expansion member further comprises an electrode sheet assembly. The electrode sheet assembly is arranged on one side of the body far away from the main machine, and the electrode sheet assembly is positioned on the extending part.

One side of the expansion part, which is far away from the host machine, is provided with the electrode sheet assembly, so that the massage instrument can also perform electric stimulation massage on a user, and the massage comfort of the user is improved.

In certain embodiments, the electrode sheet assembly comprises a metal electrode sheet. The metal electrode sheet is mounted on the extension portion.

The metal electrode plate is arranged on the stretching part, so that the electric stimulation massage can be directly carried out on the skin of a user, and the massage effect is improved.

In some embodiments, the electrode sheet assembly further comprises a substrate and a gel sheet. The base plate is provided with a through mounting groove. The gel sheet is arranged in the mounting groove and is attached to the metal electrode sheet.

The gel sheet is pasted on the metal electrode sheet, and the gel sheet can have a better pasting effect with human skin, so that the generation of electric stimulation pain in electric stimulation massage can be effectively inhibited, and the massage effect can be further improved.

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

Drawings

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

FIG. 1 is a partially exploded perspective view of a massage apparatus according to certain embodiments of the present application;

FIG. 2 is an exploded perspective view of a main body and drive assembly of the massage apparatus according to certain embodiments of the present disclosure;

FIG. 3 is a schematic cross-sectional view of a massage apparatus according to certain embodiments of the present application;

FIG. 4 is a schematic cross-sectional view of a massage apparatus according to certain embodiments of the present application;

FIG. 5 is a perspective assembly view of an expansion feature of the massage apparatus of certain embodiments of the present application;

fig. 6 is a schematic exploded perspective view of an expansion member and an electrode pad assembly of the massage apparatus according to some embodiments of the present application.

Detailed Description

Embodiments of the present application will be further described below with reference to the accompanying drawings. The same or similar reference numbers in the drawings identify the same or similar elements or elements having the same or similar functionality throughout.

In addition, the embodiments of the present application described below in conjunction with the accompanying drawings are exemplary and are only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "above," and "over" a second feature may mean that the first feature is directly above or obliquely above the second feature, or that only the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1 and 2, a massage apparatus 100 according to an embodiment of the present disclosure includes a main body 10, a driving assembly 20, a buffer 30, and an expanding member 40. The main body 10 is arc-shaped, and the main body 10 includes a first surface 101 and a second surface 102 opposite to each other. The driving assembly 20 is disposed in the main body 10 and protrudes relative to the first surface 101 of the main body 10, and the driving assembly 20 can generate vibration along a first direction. The driving assembly 20 is connected to the main body 10 through the buffer member 30. The damper 30 is for absorbing vibration of the driving assembly 20 in the second direction. The first direction is a radial direction of the main unit 10, and the second direction is a direction other than the first direction. The expansion member 40 is installed on the first surface 101 of the main body 10 and connected to the driving assembly 20 and/or the buffer member 30, and the expansion member 40 is used to transmit vibration to provide a massage effect.

The massage machine 100 according to the embodiment of the present application can order the vibration direction of the driving assembly 20 by providing the driving assembly 20 to generate vibration in the radial direction of the main machine 10, and providing the buffer 30 to absorb vibration of the driving assembly 20 in other directions than the radial direction of the main machine 10. On the one hand, since the ordered vibration direction can better simulate the tapping massage manipulation than the unordered vibration direction, the user can feel the obvious tapping feeling through the ordered vibration of the massage apparatus 100, and the massage apparatus 100 can have a better massage effect. On the other hand, the driving assembly 20 vibrates in other directions except the radial direction of the main machine 10, after long-time vibration, the main machine 10 is easy to shift, which may bring dislocation of each component on the main machine 10, the massage apparatus 100 can absorb the vibration of the driving assembly 20 in the directions except the radial direction of the main machine 10 by arranging the buffer member 30, so that the vibration of the driving assembly 20 can be greatly reduced to drive the main machine 10 to vibrate in other directions except the radial direction, thereby avoiding the shift of the main machine 10 or components in the main machine 10, and further improving the product quality and stability of the massage apparatus 100.

The following is further described with reference to the accompanying drawings.

Referring to fig. 1, the massage apparatus 100 may specifically include, but is not limited to, a neck massage apparatus, a chest massage apparatus, an eye massage apparatus, a waist massage apparatus, a leg massage apparatus, and the like. The embodiment of the present application takes the massage apparatus 100 as a neck massage apparatus for example, and it should be understood that the massage apparatus 100 may be other types of massage apparatuses, and is not limited herein. Referring to fig. 2, the massage apparatus 100 includes a main body 10, a driving assembly 20, a buffer member 30, and an expanding member 40. In some embodiments, the expanding member 40 can be omitted, and the massage apparatus 100 can directly output massage stimulation such as knocking to the outside through the driving assembly 20.

Referring to fig. 1 to 3, the host 10 includes a first housing 12 and a second housing 14. The first housing 12 is located on a first side 101 of the host 10, and the second housing 14 is located on a second side 102 of the host 10. The first housing 12 and the second housing 14 are combined to form an accommodating cavity 16, functional devices such as a wire, a power module, a heat dissipation module, a processor and the like can be accommodated in the accommodating cavity 16, and the first housing 12 and the second housing 14 can provide protection such as water resistance, dust resistance and the like for the functional devices installed in the accommodating cavity 16. The first housing 12 is closer to the skin of the user than the second housing 14, and the first housing 12 and the second housing 14 are detachably connected to facilitate the replacement and maintenance of the functional device installed in the receiving cavity 16.

Wherein the first housing 12 comprises a plastic shell or a silicone shell; or the second housing 14 comprises a plastic or silicone shell; or the first housing 12 comprises a plastic or silicone shell and the second housing 14 comprises a plastic or silicone shell. The silica gel shell can play a role in buffering so as to reduce the vibration of the main machine 10; the hardness of the plastic shell is high, so that the condition that the main machine 10 is damaged due to the fact that a foreign object impacts the main machine 10 can be avoided.

Referring to fig. 2-4, in some embodiments, the first housing 12 may include a plastic or silicone shell. When the first shell 12 comprises a silica gel shell, the first shell 12 can play a better role in vibration reduction; when the first housing 12 includes a plastic shell, the shape of the first housing 12 is relatively stable, and the first housing is not easily deformed when subjected to a large pressure, and can also play a part of a vibration damping role.

In certain embodiments, the second housing 14 may comprise a plastic or silicone shell. When the second shell 14 comprises a silica gel shell, the second shell 14 can play a better vibration reduction role; when the second housing 14 includes a plastic shell, the shape of the second housing 14 is not easily changed, so that the shape of the main unit 10 is relatively stable.

In one embodiment, the first housing 12 includes a silicone shell, the second housing 14 includes a silicone shell, and both the first housing 12 and the second housing 14 can perform a buffering and damping function, so that the host 10 is not prone to generate large vibration when the driving assembly 20 vibrates, and the expansion component 40 can be prevented from being separated from the skin of the user due to excessive vibration of the host 10.

In another embodiment, the first housing 12 comprises a plastic shell and the second housing 14 comprises a plastic shell, so that the shape of the main body 10 is not easily changed, and the functional devices installed in the receiving cavity 16 can be better protected.

In another embodiment, the first housing 12 comprises a silicone shell and the second housing 14 comprises a plastic shell, the first housing 12 can perform a buffering and vibration damping function, and the second housing 14 can maintain a better shape structure, so that the massage apparatus 100 is more firm.

In yet another embodiment, the first housing 12 comprises a plastic shell and the second housing 14 comprises a silicone shell, the first housing 12 can better conform to the skin of the user, and the second housing 14 can play a role in buffering and damping vibration.

Referring to fig. 2 and 3, the driving assembly 20 includes an assembly for driving an object to vibrate or rotate, and the driving assembly 20 is capable of generating vibration along a first direction, that is, the driving assembly 20 is capable of generating vibration along a radial direction of the main body 10. Specifically, the driving assembly 20 includes a vibration motor 22, and the vibration motor 22 may include, but is not limited to, a linear motor, a flat eccentric vibrator motor, and the like, so that the vibration motor 22 may simulate a tapping massage effect and may effectively transmit vibration from the vibration motor 22 to the expansion member 40.

In one example, the vibration motor 22 comprises a linear motor, and the vibration generated by the linear motor repeatedly vibrates along the radial direction of the main machine 10, so that when a user massages with the massage apparatus 100, the user can experience a massage effect similar to knocking, and the massage apparatus 100 is closer to the effect of real manual massage. Meanwhile, the linear motor may better transmit vibration to the expansion member 40.

In another example, the vibration motor 22 includes a flat eccentric vibrator motor, the flat eccentric vibrator motor is vertically disposed relative to the buffer 30, the eccentric vibrator of the flat eccentric vibrator motor rotates around the axial direction of the flat eccentric vibrator motor, and thus, the flat eccentric vibrator motor has the capability of vibrating in the circumferential direction, and the vertical disposition of the flat eccentric vibrator motor can form a beating effect similar to that of a linear motor, so that a beating massage effect can be better simulated, so that a user can experience a massage effect similar to beating when using the massage apparatus 100 for massage, and the massage apparatus 100 is more close to the effect of real manual massage. Meanwhile, the flat eccentric vibrator motor can better transmit vibration to the expansion part 40.

Referring to fig. 3, in one embodiment, the driving assembly 20 may further include a mounting portion 26. The mounting portion 26 is used for mounting the vibration motor 22, and the mounting portion 26 is connected with the buffer member 30, so that the vibration motor 22 can be more stably connected with the buffer member 30 through the mounting portion 26.

Specifically, referring to fig. 2 and 3, the mounting portion 26 includes a sealing cover 261, a flange 263 and a retaining ring 265. The flange 263 extends from the edge of the first face 2612 of the cover 261 and surrounds the cavity 2610. The retainer 265 extends from a first face 2611 of the cover 261 and is received within the cavity 2610. The vibration motor 22 is installed in the stopper space 2651 of the stopper 265 and passes out of the cover 261 to protrude opposite to the second surface 2614 of the cover 261. Spacing 267 is provided between the retainer 265 and the flange 263.

Further, the cover 261 may be opened with a through hole 2611, and the through hole 2611 may penetrate through the first surface 2612 and the second surface 2614 of the cover 261 and penetrate through the limiting space 2651 of the limiting ring 265 to accommodate the vibration motor 22 together. Preferably, the through hole 2611 may be opened at a central position of the first surface 2612 of the cover 261 and be matched with the shape of the vibration motor 22.

Referring to fig. 4, in another embodiment, the driving assembly 20 may further include a vibration transmitting member 24, and the vibration motor 22 is connected to the vibration transmitting member 24, so that the vibration loss of the vibration motor 22 transmitted to the expansion member 40 is reduced, and the vibration sensation reaching the skin of the user is improved. The vibration transmitting member 24 may be made of a soft material, a hard material, or the like.

Referring to fig. 2 to 4, the buffer 30 is disposed on the host 10. Specifically, the buffer member 30 may be disposed on the first housing 12 and extend out of the main body 10 from the inside of the accommodating cavity 16 toward the neck of the user, so that the driving assembly 20 is connected to the main body 10 through the buffer member 30, and the buffer member 30 is used for absorbing the vibration of the driving assembly 20 in the second direction, that is, the buffer member 30 is used for absorbing the vibration of the driving assembly 20 in other directions except the radial direction of the main body 10. The buffer member 30 may include a plurality of members, and correspondingly, the driving assembly 20 may also include a plurality of members.

It should be noted that the buffer member 30 actually absorbs the vibration of the driving assembly 20 in the first direction, that is, the buffer member 30 actually absorbs the vibration of the driving assembly 20 in the radial direction of the main body 10, but the vibration output by the driving assembly 20 in the first direction has a greater strength, and the vibration in other directions has a smaller strength. Therefore, although the buffer 30 has an absorbing effect on the vibration of the driving assembly 20 in both the first direction and the second direction, the absorption of the buffer 30 on the driving assembly 20 in the first direction is much smaller than the vibration force output by the driving assembly 20 in the first direction, and the absorption of the buffer 30 on the driving assembly 20 in the second direction is substantially the same as the vibration force output by the driving assembly 20 in the second direction, so that the vibration output by the driving assembly 20 can be concentrated in the first direction, that is, the vibration output by the driving assembly 20 can be concentrated in the radial direction of the main machine 10, thereby simulating a tapping massage technique and improving the massage effect of the massage apparatus.

The buffer member 30 is integrated with or separated from the first housing 12. It can be understood that when the buffering member 30 and the first housing 12 are an integral structure, the first housing 12 and the buffering member 30 can be manufactured together, and the manufacturing process is simple and the manufacturing cost is low. When the buffering member 30 and the first casing 12 are in a split structure, when one of the first casing 12 or the buffering member 30 is damaged, only the damaged one needs to be replaced, and the maintenance cost is low.

The buffer member 30 and the first housing 12 can be made of elastic materials, and the buffer member 30 and the first housing 12 are integrated or separated, so that the buffer member 30 and the first housing 12 have buffering capacity, and can weaken the vibration transmitted to the host 10 by the driving assembly 20 in directions other than the radial direction, thereby effectively avoiding the situation that the expansion component 40 is separated from the skin of the human body due to the vibration of the host 10, and enabling the expansion component 40 to continuously adhere to the skin of the user. The buffering member 30 and the first housing 12 may be made of the same elastic material, or may be made of different elastic materials. The elastic material can be rubber, silica gel, soft rubber, polymer synthetic material (such as polyether ester, propenyl, vinyl) and the like.

Referring to fig. 3 or 4, the buffering member 30 may include a connecting portion 32 and a first corrugated portion 34. Wherein, the connecting part 32 extends from the inside of the main body 10 to the outside of the main body 10, and the driving assembly 20 is mounted on the connecting part 32. The first corrugated portion 34 is connected to the outer surface 320 of the connecting portion 32 and the main unit 10. Therefore, the driving assembly 20 can be installed on the main machine 10 through the first corrugated portion 34 and the connecting portion 32, and the first corrugated portion 34 and the connecting portion 32 can cooperate to buffer the vibration of the driving assembly 20 in the direction of the main machine 10 except the radial direction, so that the buffer member 30 of the massage apparatus 100 has strong buffering capacity due to the double buffering and vibration damping effects achieved through the first corrugated portion 34 and the connecting portion 32. In addition, the driving assembly 20 is mounted on the main frame 10 through the first corrugated portion 34 and the connecting portion 32, rather than being directly and fixedly connected to the main frame 10, so that the driving assembly 20 can have a certain displacement space along the radial direction of the main frame 10, which is beneficial for the user to adjust the driving assembly 20 to fit the shape of the neck of the human body by moving along the radial direction of the main frame 10 when wearing the massage apparatus 100. At the same time, the first corrugation 34 may also reduce noise generated when the driving assembly 20 vibrates, making the user quiet when using the massage apparatus 100.

The massage apparatus 100 may include a plurality of buffering members 30, and specifically, the number of the buffering members 30 may be three, four, five, six, or more, and is not limited herein. Correspondingly, the massage apparatus 100 may include a plurality of driving assemblies 20, and specifically, the number of the driving assemblies 20 may be three, four, five, six, or more, and is not limited herein, so that the number of the driving assemblies 20 is the same as the number of the buffering members 30, and the two are optimally in one-to-one correspondence.

With continued reference to fig. 3 and 4, the connecting portion 32 may include a silicone sleeve 32. The silica gel sleeve 32 extends out of the main body 10 from the inside of the main body 10, and the driving assembly 20 is installed in the silica gel sleeve 32. The material of silica gel cover 32 is softer and can have better deformation effect, can have better buffering and shock attenuation effect to drive assembly 20 vibration in the direction of host computer 10 except radial.

The vibration motor 22 is wrapped by the silica gel sleeve 32, and the outer surface of the buffer member 30 is sleeved by the silica gel sleeve 32. Thus, the silicone sleeve 32 can reduce the noise generated by the vibration of the vibration motor 22 and the noise generated by the vibration of the buffer 30, so that when the user uses the massage apparatus 100, the noise of the massage apparatus 100 is small and is not easy to disturb the user.

Referring to fig. 4, in one embodiment, the connecting portion 32 is opened with an installation space 321. A first end 323 of the connection portion 32 extending out of the main unit 10 is provided with a first through hole 322, and the first through hole 322 communicates with the installation space 321. A second end 325 of the connection portion 32 within the host 10 may be provided with a second perforation 324. The second penetration hole 324 communicates with the installation space 321. The vibration motor 22 extends into the installation space 321 from the second through hole 324 and is in interference fit with the connection portion 32, so that the connection between the vibration motor 22 and the connection portion 32 is tighter, noise generated when the vibration motor 22 vibrates can be reduced, and the connection reliability between the vibration motor 22 and the connection portion 32 is improved. The vibration motor 22 and the vibration transmitting member 24 are installed in the buffer member 30, and the vibration transmitting member 24 may be exposed from the first through hole 322, and it is understood that at least a portion of the vibration transmitting member 24 is installed in the first through hole 322 to enable the vibration transmitting member 24 to transmit the vibration generated from the vibration motor 22 to the expansion member 40.

In another embodiment, as in the embodiment shown in fig. 3, the first perforation may also be omitted, the first end 323 of the connection portion 32 is closed, and the second end 325 of the connection portion 32 is provided with the second perforation 324. At this time, the connecting portion 32 also has an installation space 321, and the second opening 324 communicates with the installation space 321. The vibration motor 22 extends into the installation space 321 from the second through hole 324 and is in interference fit with the connection portion 32, so that the connection between the vibration motor 22 and the connection portion 32 is tighter, noise generated when the vibration motor 22 vibrates can be reduced, and the connection reliability between the vibration motor 22 and the connection portion 32 is improved. As shown in fig. 3, the driving assembly 20 may not be provided with a vibration transmitting member. In the embodiment shown in fig. 3, the driving assembly 20 may also include a vibration transmission member (not shown in fig. 3), and in this case, the vibration transmission member may be disposed in the installation space 321 without being exposed, for example, the vibration transmission member is disposed between the stop collar 22 and the closed end to facilitate dust prevention of the massage apparatus 100.

Specifically, referring to fig. 2 to 4, the first corrugated portion 34 may be annular and may be a corrugated portion on the first housing 12, and the corrugation may extend and contract in a direction other than the radial direction of the main unit 10 to play a role of buffering when the driving element 20 vibrates. In one embodiment, the first corrugated portion 34 is circumferentially connected to the outer side surface 320 of the connecting portion 32, so that when the driving assembly 20 in the connecting portion 32 vibrates, the first corrugated portion 34 can attenuate the vibration of the driving assembly 20 in a direction other than the radial direction of the main machine 10 without affecting the vibration of the driving assembly 20 in the radial direction of the main machine 10. The corrugated layer of the first corrugated portion 34 may be one, two, three, four, five or more layers.

The first fold portion 34 may not be in a folded shape, but may be in a thin ring shape as shown in fig. 3. The thickness of the first corrugated portion 34 in the radial direction of the main unit 10 shown in fig. 3 is smaller than the thickness of the first housing 12 in the radial direction of the main unit 10, and thus the first corrugated portion 34 can have better elasticity to attenuate the vibration of the driving assembly 20.

Referring to fig. 2 and 3, when the connecting portion 32 is assembled with the mounting portion 26 of the driving assembly 20, the connecting portion 32 extends into the space 267 between the retaining ring 265 and the flange 263 and abuts against the cover 261, and the retaining ring 265 with the vibration motor 22 extends into the mounting space 321 of the connecting portion 32, so that the mounting portion 26 and the connecting portion 32 can have a tight nesting fit, and the vibration motor 22 is stably connected with the connecting portion 32 through the mounting portion 26.

Referring to fig. 4, when the connecting portion 32 is assembled with the driving assembly 20, the transmission member 24 extends into the installation space 321 of the connecting portion 32 and abuts against the first end 323 of the connecting portion 32, the vibration motor 22 extends into the installation space 321 of the connecting portion 32 and is in interference fit with the connecting portion 32, and the vibration motor 22 is connected to the vibration transmission member 24. At this time, one end of the vibration transmitting member 24 is flush with the end surface 326 of the first end 323 of the connecting portion 32 or protrudes from the end surface 326.

Referring to fig. 4, in some embodiments, the size of the opening of the mounting space 321 at the second end 325 of the connecting portion 32 may be gradually reduced before the vibration motor 22 is mounted in the mounting space 321 along the direction from the first end 323 of the connecting portion 32 to the second end 325 of the connecting portion 32, so that the vibration motor 22 can be in interference fit with the connecting portion 32, the vibration motor 22 is difficult to fall off from the connecting portion 32, and the connection reliability between the vibration motor 22 and the connecting portion 32 is further improved.

The size of the opening of the mounting space 321 at the second end 325 of the connecting portion 32 may be linearly decreased, which is not limited herein.

Referring to fig. 4, in some embodiments, the cross section at the first end 323 of the connecting portion 32 is gradually increased along a direction from the first end 323 of the connecting portion 32 to the second end 325 of the connecting portion 32, that is, the cross section at the first end 323 of the connecting portion 32 is gradually decreased along a direction from the second end 325 of the connecting portion 32 to the first end 323 of the connecting portion 32, so that the contact area between the connecting portion 32 and the expansion member 40 can be reduced, so that when the driving assembly 20 vibrates, the local pressure at the contact area between the connecting portion 32 and the expansion member 40 is increased, the vibration transmitted from the expansion member 40 to the skin of the user can be enhanced, and the user feels more comfortable.

Referring to fig. 1 and 5, the massage apparatus 100 may further include an expanding member 40, and the expanding member 40 includes a combining portion 42 and two extending portions 44.

Referring to fig. 3 and 4, the expanding member 40 is installed on a side of the main body 10 close to the skin of the user and is connected to at least one of the buffer member 30 and the driving unit 20. For example, the expanding member 40 is connected to a portion of the buffer member 30 extending out of the main body 10, so that the driving unit 20 installed in the buffer member 30 can transmit vibration to the expanding member 40 or the driving unit 20 can directly drive the expanding member 40 to vibrate, so that the expanding member 40 can massage the skin of the human body. It should be noted that, the connection of the expanding member 40 with the buffer 30 and/or the driving assembly 20 means: the expansion member 40 is fixedly connected directly, indirectly, or merely abutted without connection with the bumper 30 and/or the driving assembly 20. Meanwhile, as the driving assembly 20 is installed in the main machine 10, the thickness of the expansion part 40 is relatively thin, so that the expansion part 40 can be relatively flexible as a whole, and can have relatively good flexible deformation capability, and the expansion part 40 can achieve a relatively good skin-friendly effect.

Referring to fig. 1 and 5, the expanding member 40 includes a connecting portion 42 and two extending portions 44. A connector 18 may be provided on the host 10. The coupling portion 42 is connected to the connecting member 18. Two extensions 44 are disposed on both sides of the coupling portion 42 and spaced apart from the main body 10, and the extensions 44 are connected to at least one of the buffer 30 and the driving assembly 20. As described above, the two extending portions 44 are deformed so as to conform to the shape of the user's massage area with the joint between the extending portion 44 and the joint portion 42 as a fulcrum, and the extending portion 44 is not likely to collide with the main body 10 when deformed.

Specifically, the connecting member 18 is mounted on the first housing 12, and the combining portion 42 and the connecting member 18 can be connected together by at least one of welding, snap-fit connection, screw connection, and the like. The coupling portion 42 is coupled to the coupling member 18 so that the expansion member 40 can be coupled to the first housing 12.

In some examples, the connection portion 42 and the connection member 18 may be detachably connected by at least one of a snap-fit connection, a screw connection, and the like, so that the extension member 40 may be replaced when the extension member 40 is aged or damaged. Meanwhile, since the driving assembly 20 is installed in the main body 10, when the extension part 40 is aged or damaged, only the extension part 40 is replaced instead of the driving assembly 20, thereby reducing the number of discarded parts and reducing the use cost of the massage apparatus 100.

In other examples, the combining portion 42 is fixedly and non-detachably connected to the connecting member 18, for example, the combining portion 42 is fixedly connected to the connecting member 18 by at least one of welding, bonding, and the like, so that the expansion component 40 is not easily separated from the host 10, and the stability of the expansion component 40 is improved.

Referring to fig. 1 and 5, the two extending portions 44 are respectively connected to two sides of the connecting portion 42, and a space exists between each extending portion 44 and the first housing 12, so that when the vibration of the driving assembly 20 is transmitted to the extending portion 44 and vibrates, the extending portion 44 is not easily collided with the first housing 12, the deformable range of the extending portion 44 is larger, the shape of the skin can be better adapted, and meanwhile, the extending portion 44 is not easily collided with the first housing 12 when vibrating, and noise can be reduced. The stretching portion 44 may be made of elastic material such as silicone, soft rubber, etc.

In one embodiment, referring to fig. 4, when the driving assembly 20 includes the vibration transmission member 24, and the vibration transmission member 24 is made of a hard material, the vibration transmission member 24 can better transmit the vibration of the vibration motor 22 to the expansion member 40, and reduce the vibration loss transmitted from the vibration motor 22 to the expansion member 40. Further, one end of the vibration transmission member 24 is flush with the end face 326 of the first end 323 of the connecting portion 32 or protrudes from the end face 326, and the vibration transmission member 24 can be directly connected to the expansion member 40, so that the vibration of the vibration motor 22 can be better transmitted to the expansion member 40, and the vibration loss transmitted from the vibration motor 22 to the expansion member 40 is further reduced.

Referring to fig. 3 and 4, in one embodiment, the connecting member 18 can be installed at the middle of the first housing 12, and the extending portions 44 installed at the two sides of the combining portion 42 are symmetrically distributed with respect to the combining portion 42, so that the massage points of the massage apparatus 100 are uniformly and symmetrically distributed, and the massage effect is more comfortable.

The expanding member 40 at least partially covers the buffer 30. Specifically, the expanding member 40 may completely cover the buffer member 30, and the expanding member 40 may also cover a portion of the buffer member 30, so that the driving assembly 20 in the buffer member 30 can transmit power or vibration to the expanding member 40, and since the expanding member 40 may be in direct contact with the skin of the human body, the vibration may be transmitted to the user through the expanding member 40, so that the massage apparatus 100 can provide a vibration massage effect. The expanding member 40 may at least partially cover the buffer 30 in the thickness direction, the expanding member 40 may at least partially cover the buffer 30 in the length direction, and the expanding member 40 may at least partially cover the buffer 30 in both the length direction and the thickness direction.

Referring to fig. 4, the first housing 12 may be provided with a second corrugated portion 121, and the connecting member 18 may be connected to the connecting portion 42 through the second corrugated portion 121. The connecting piece 18 is connected with the second folded portion 121, and the second folded portion 121 can play a role in buffering the vibration of the expansion component 40, so that the expansion component 40 can stretch out and draw back in the radial direction of the host 10 at the position of the joint portion 42, the driving assembly 20 can play a role in assisting vibration reduction when vibrating, and the possibility that the vibration generated by the expansion component 40 is transmitted back to the host 10 to enable the host 10 to vibrate is reduced.

Specifically, the second corrugated portion 121 is disposed at a position on the first housing 12 connected to the connecting member 18, and the second corrugated portion 121 may be corrugated, for example, a stepped annular ring, so that when a pressure is applied, the second corrugated portion 121 can stretch and contract in a radial direction of the host 10, so that the expansion member 40 can compress the second corrugated portion 121 when vibrating, the first housing 12 cannot vibrate along with the expansion member 40, and meanwhile, the expansion member 40 can have better deformation capability along with the shape. The number of the corrugated layers of the second corrugated portion 121 may be one, two, three, four, five or more.

Referring to fig. 1 and 2, in some embodiments, in a projection from the expanding member 40 to the host 10, the projection of the expanding member 40 completely covers a projection of the first folded portion 34 and a projection of the second folded portion 121 on the first housing 12, so that the expanding member 40 can protect the first folded portion 34 and the second folded portion 121 on the first housing 12, reduce dust and other garbage from entering the first folded portion 34 and the second folded portion 121, reduce the possibility of the first folded portion 34 and the second folded portion 121 storing dirt, and keep the first folded portion 34 and the second folded portion 121 clean and tidy.

Further, in the projection from the expanding member 40 to the host 10, the projection of the expanding member 40 in the length direction and the width direction can block the projection of the first folded portion 34 and the projection of the second folded portion 121, that is, the length and the width of the expanding member 40 are both greater than the length and the width of the first folded portion 34, and the length and the width of the expanding member 40 are both greater than the length and the width of the second folded portion 121, it can be understood that the expanding member 40 completely blocks the first folded portion 34 and the second folded portion 121, and dust cannot enter the first folded portion 34 and the second folded portion 121 through the expanding member 40, so that the expanding member 40 can play a better role in protecting the first folded portion 34 and the second folded portion 121 from dust, water and the like.

Referring to fig. 4, in one embodiment, each extending portion 44 may correspond to one buffer 30 and one driving element 20, and each extending portion 44 is connected to the corresponding buffer 30 and/or the corresponding driving element 20. Referring to fig. 2 and 3, in another embodiment, each extending portion 44 may correspond to a plurality of buffering members 30 and a plurality of driving elements 20, and each extending portion 44 is connected to a corresponding plurality of buffering members 30 and/or a plurality of driving elements 20. Each extending portion 44 corresponds to at least one buffer 30 and/or at least one driving assembly 20, which can increase the massage area of the expanding component 40 and enhance the vibration sensation, thereby enhancing the massage effect of the massage apparatus 100.

In one embodiment, the number of the buffers 30 may be an even number, i.e., the number of the buffers 30 is four, six, eight, etc. more, and each of the extensions 44 meets half of the number of the buffers 30. For example, when the number of the cushion members 30 is four, each of the extending portions 44 is in contact with two cushion members 30; for another example, when the number of the cushion members 30 is six, each of the extending portions 44 is connected to three cushion members 30; therefore, the vibration massage effect of the extending portions 44 on both sides of the connecting portion 42 is similar, and the massage vibration effect can be realized by both the extending portions 44, thereby increasing the massage area of the massage apparatus 100.

Referring to fig. 2, 3 and 4, further, an even number of buffer members 30 may be symmetrically disposed about the combining portion 42, as shown in fig. 3, the main body 10 includes two buffer members 30, each buffer member 30 is connected to a corresponding extending portion 44, and the two buffer members 30 are symmetrically disposed relative to the combining portion 42, so that the two extending portions 44 at two sides of the combining portion 42 can provide a vibration massage effect, the massage area is large, the stress at two sides of the expanding member 40 can be more uniform, the vibration amplitudes of the two extending portions 44 can be kept consistent, and a symmetric vibration massage effect can be achieved.

In one embodiment, the plurality of buffers 30 corresponding to the extending portion 44 can be uniformly distributed relative to the extending portion 44, for example, the first distance between two adjacent buffers 30, the second distance from the buffer 30 close to the combining portion 42, and the third distance from the buffer 30 close to the free end 440 of the extending portion 44 to the free end 440 are equal to each other in the buffer 30 on the side of the combining portion 42 in fig. 3, so that the vibration effect on the extending portion 44 is relatively uniform, different portions of the skin of the user can be massaged, the massage intervals on the skin are kept consistent, and the massage experience of the user is more comfortable.

Referring to fig. 4, in another embodiment, a first distance between the joint of the buffer 30 and the extending portion 44 and the free end 440 of the extending portion 44 is smaller than a second distance between the joint of the buffer 30 and the extending portion 44 and the combining portion 42, so that the driving assembly 20 can drive the extending portion 44 to vibrate better, the driving assembly 20 can drive the extending portion 44 to achieve a larger amplitude, the vibration massage effect of the massage apparatus 100 is improved, and the massage experience of the user is more comfortable.

The free end 440 of the extending portion 44 is the end of the extending portion 44 not connected to the combining portion 42, and the deformation of the portion of the extending portion 44 closer to the free end 440 is larger. The first distance between the joint of the extending portion 44 and the buffer member 30 and the free end 440 of the extending portion 44 is smaller than the second distance between the extending portion 44 and the combining portion 42, that is, the buffer member 30 is closer to the free end 440 of the extending portion 44 than the combining portion 42, so that the driving element 20 in the buffer member 30 can drive the extending portion 44 to deform greatly, and the vibration transmitted to the skin of the user is enhanced.

It should be noted that, the distance here is regarded as an equivalent point, the distance between elements is an arc length between two equivalent points, and the radian is consistent with the radian of the first surface 101 of the host computer 10.

Referring to fig. 3 to 5, an avoiding groove 441 is disposed on a side of the extending portion 44 facing the host 10, and the buffer 30 is connected to the extending portion 44 after extending into the avoiding groove 441. The distance between the driving assembly 20 installed in the buffer member 30 and the skin of the user is reduced by the arrangement of the avoiding groove 441, so that the vibration sense is further improved, and the massage experience of the user is more comfortable.

Specifically, the depth of the avoiding groove 441 may be determined according to the thickness of the extending portion 44 in the radial direction of the main unit 10 and the contact area between the extending portion 44 and the buffer 30, and the width of the avoiding groove 441 may be determined according to the width of the buffer 30 or the contact area between the buffer 30 and the extending portion 44. By determining the depth and width of the avoiding groove 441, the buffer 30 can extend into the avoiding groove 441 and can be connected with the extending portion 44, so that the buffer 30 can transmit the vibration of the driving assembly 20 to the extending portion 44.

Referring to fig. 3, 4 and 6, the expanding member 40 may further include an electrode sheet assembly 46. The electrode sheet assembly 46 is disposed on a side of the expanding member 40 away from the main body 10, and the electrode sheet assembly 46 is located on the extending portion 44. The electrode pad assembly 46 may provide electrical stimulation massage to the user such that the massage apparatus 100 may combine both electrical stimulation massage and vibratory massage for selection by the user to provide a more comfortable massage experience to the user.

In one embodiment, a placement slot 443 (shown in fig. 5) is opened on a side of the extension portion 44 away from the main body 10, and the electrode wafer assembly 46 is installed in the placement slot 443 on the extension portion 44. The electrode pad assembly 46 may be used to provide an electrical stimulation massage to the skin of the user under the influence of an electrical current. In another embodiment, the electrode pad assembly 46 is attached to the surface of the extension 44 remote from the host computer 10. It should be noted that the electrode tab assembly 46 in this embodiment can be deformed together with the extending portion 44, and is not easily detached from the extending portion 44.

In a specific embodiment, one of the extensions 44 may have the electrode pad assembly 46 disposed thereon, and the other extension 44 may have no electrode pad assembly 46; the electrode sheet assemblies 46 may be disposed on both of the extending portions 44, which is not limited herein.

Further, referring to fig. 6, the electrode sheet assembly 46 may include a metal electrode sheet 461, the metal electrode sheet 461 is mounted on the extending portion 44, and the metal electrode sheet 461 may electrically stimulate and massage the skin of the user under the action of the current, so that the skin of the user may generate a crisp feeling, and the massage experience of the user is enhanced. The metal electrode sheet 461 may be attached to the surface of the extending portion 44 away from the host computer 10, or may be mounted in the placement groove 443 of the extending portion 44, which is not limited in this application.

In one embodiment, a plurality of metal electrode pads 461 are mounted on one extending portion 44 at intervals, and each of the plurality of metal electrode pads 461 can electrically stimulate and massage the skin of the user to electrically stimulate and massage the skin of the user at different positions.

In another embodiment, one metal electrode plate 461 corresponds to one extending portion 44, and the area of the metal electrode plate 461 is larger, so that the electrical stimulation massage can be performed on the skin of the user in a wider range.

With continued reference to fig. 6, the electrode tab assembly 46 may also include a substrate 463 and a gel tab 465. A mounting groove 4631 is provided in the substrate 463, the gel sheet 465 is mounted in the mounting groove 4631, and the gel sheet 465 is bonded to the metal electrode sheet 461. By arranging the gel sheet 465, the gel sheet 465 is attached to the metal electrode plate 461, so that the gel sheet 465 can also perform electric stimulation massage on the skin of the user, the gel sheet 465 can be better attached to the skin of the user, and the user feels more comfortable during massage.

Specifically, the base plate 463 may be detachably connected or fixedly connected with the expanding member 40, a mounting groove 4631 is opened on the base plate 463, the bottom of the mounting groove 4631 penetrates through the base plate 463, the gel sheet 465 is installed in the mounting groove 4631, and meanwhile, the base plate 463 is provided with a protrusion in the circumferential direction of the mounting groove 4631, and the protrusion may limit the gel sheet 465 installed in the groove of the mounting groove 4631, so that the gel sheet 465 is not easily detached from the mounting groove 4631. Meanwhile, the gel sheet 465 and the metal electrode sheet 461 are attached to be electrically connected, so that the metal electrode sheet 461 can transmit current to the gel sheet 465, and the gel sheet 465 can electrically stimulate and massage the skin of the user.

The gel sheet 465 can deform along with the metal electrode sheet 461 and the extension part 44, so that the gel sheet 465 can transmit vibration to realize vibration massage, and meanwhile, the gel sheet 465 is not uncomfortable to the skin of a user due to the fact that the gel sheet 465 is too hard, and the gel sheet 465 can deform adaptively according to the shape of the part needing massage to fit the skin of the user.

In one embodiment, a plurality of metal electrode pads 461 are mounted on the extending portion 44, and the gel sheet 465 and the plurality of metal electrode pads 461 are attached together, so that the gel sheet 465 can be electrically connected with the plurality of metal electrode pads 461, and better perform an electrical stimulation massage on the skin of the user.

The metal electrode sheet 461 is fixedly connected with the extending part 44, and the substrate 463 is detachably connected with the extending part 44, that is, the gel sheet 465 is detachably connected with the metal electrode sheet 461, so that a user can select the metal electrode sheet 461 to perform the electrical stimulation massage or select the gel sheet 465 to perform the electrical stimulation massage according to actual requirements.

In summary, the massage machine 100 of the present embodiment can make the vibration direction of the driving assembly 20 orderly by arranging the driving assembly 20 to generate vibration along the radial direction of the main machine 10 and arranging the buffer 30 to absorb vibration of the driving assembly 20 in other directions than the radial direction of the main machine 10. On the one hand, ordered vibration directions can better simulate tapping massage manipulations than unordered vibration directions, a user can feel obvious tapping feeling through ordered vibration of the massage instrument 100, and the massage instrument 100 can have a better massage effect. On the other hand, the vibration of the driving assembly 20 in the other directions of the main machine 10 except the radial direction can drive the main machine 10 to synchronously vibrate in the other directions of the main machine 10 except the radial direction, after a long time of vibration, the main machine 10 is easy to shift, which may cause the dislocation of each component on the main machine 10, the vibration of the driving assembly 20 in the directions except the radial direction of the main machine 10 is absorbed by the buffering member 30 of the massage apparatus 100, which can greatly reduce the adverse effect of the vibration of the driving assembly 20 on the main machine 10, so as to improve the product quality and stability of the massage apparatus 100.

In the description herein, reference to the description of the terms "certain embodiments," "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples" means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present application, "a plurality" means at least two, e.g., two, three, unless specifically limited otherwise.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations of the above embodiments may be made by those of ordinary skill in the art within the scope of the present application, which is defined by the claims and their equivalents.

Claims

1. A massage apparatus, comprising:

the host is arc-shaped and comprises a first surface and a second surface which are back to back;

the driving assembly is arranged in the main machine and protrudes relative to the first surface of the main machine, and can generate vibration along a first direction;

the driving assembly is connected with the host through the buffer piece, the buffer piece is used for absorbing vibration of the driving assembly in a second direction, the first direction is the radial direction of the host, and the second direction is a direction except the first direction; and

the expanding component is arranged on the first surface of the main machine and is connected with the buffer piece and/or the driving assembly, and the expanding component is used for transmitting the vibration to provide a massage effect.

2. The massager of claim 1, wherein said buffer comprises:

the connecting part extends out of the host from the inside of the host, and the driving assembly is installed on the connecting part; and

the first fold portion is connected with the outer side face of the connecting portion and the host, and when the driving assembly vibrates, the first fold portion can allow the connecting portion to stretch relative to the first face of the main body.

3. The massager of claim 2, wherein the connecting portion comprises a silicone sleeve extending from inside the main body to outside the main body, and the driving assembly is mounted in the silicone sleeve.

4. The massager of claim 1, wherein the buffer member comprises a connecting portion, the connecting portion defines an installation space, a first end of the connecting portion extending out of the main body is provided with a first through hole, and the first through hole is communicated with the installation space; the drive assembly includes:

a vibration motor installed in the installation space for generating vibration; and

the vibration transmission piece is arranged in the installation space and exposed from the first through hole, and the vibration motor is connected with the vibration transmission piece.

5. The massager of claim 4, wherein one end of the vibration transmission member is flush with or protrudes from an end surface of the first end of the connecting portion.

6. The massager of claim 4, wherein the second end of the connecting part inside the main body is provided with a second through hole, and the second through hole is communicated with the mounting space; the vibration motor extends into the mounting space from the second through hole and is in interference fit with the connecting part.

7. The massager of claim 4, wherein in a direction from the first end of the connecting portion to the second end of the connecting portion,

the size of the opening of the mounting space at the second end of the connection part is gradually reduced before the vibration motor is mounted to the mounting space; and/or

The cross-section at the first end of the connection gradually increases.

8. The massager of claim 1, wherein said buffer includes a connecting portion extending from within said main body to outside said main body, said drive assembly comprising:

a vibration motor; and

the installation department, vibrating motor installs in the installation department, the installation department with connecting portion connect.

9. The massager of claim 4 or 8, wherein said vibration motor comprises a linear motor or a flat-eccentric-vibrator motor, wherein said flat-eccentric-vibrator motor is vertically disposed with respect to said buffer.

10. The massager of claim 8, wherein the connecting portion is provided with an installation space; the mounting portion includes:

sealing the cover;

the flange extends from the edge of the first surface of the sealing cover and surrounds to form a cavity; and

the vibration motor is arranged in the limiting ring and penetrates out of the sealing cover to protrude relative to the second surface of the sealing cover, a gap is formed between the limiting ring and the flanging, the connecting part extends into the gap and is abutted against the sealing cover, and the limiting ring extends into the mounting space.

11. The massager of any one of claims 1-10, wherein the main body comprises a first housing and a second housing, the first housing is located on a first side of the main body, the second housing is located on a second side of the main body, the first housing and the second housing are combined to form an accommodating cavity, and the driving assembly is disposed on the first housing through the buffer member.

12. The massager of claim 11, wherein the first housing comprises a plastic or silicone shell; and/or

The second shell comprises a plastic shell or a silica gel shell.

13. The massager of claim 11, wherein the buffer member is integrated with the first housing or separated from the first housing.

14. The massager of claim 1, wherein said expanding member at least partially covers said cushioning member.

15. The massager of claim 1, wherein the massager comprises a connector mounted on the main body; the expansion part comprises a body, and the body comprises:

a coupling portion coupled to the connection member; and

the two extending parts are arranged on two sides of the combining part and are spaced from the host, and the extending parts are connected with the buffer parts and/or the driving assembly.

16. The massage apparatus according to claim 15,

the combining part is detachably connected with the connecting piece; or

The combining part is fixedly connected with the connecting piece.

17. The massager of claim 15, further comprising a second corrugated portion, wherein the connecting member is connected to the connecting portion through the second corrugated portion, and wherein the second corrugated portion is capable of allowing the expansion assembly to telescope relative to the first housing.

18. The massage apparatus according to claim 17, wherein in a projection from the extension member to the main body direction, the projection of the extension member completely covers a projection of the first wrinkle portion and a projection of the second wrinkle portion of the buffer member.

19. The massager of claim 15, wherein a first distance between a junction of said buffer and/or said drive assembly with said extension and a free end of said extension is less than a second distance between said junction and said engagement.

20. The massager of claim 15, wherein said buffer comprises a plurality, and said drive assembly comprises a plurality;

each extending part corresponds to one buffer part and one driving assembly, and each extending part is connected with the corresponding buffer part and/or the corresponding driving assembly; or

Each extending part corresponds to a plurality of buffering parts and a plurality of driving assemblies, and each extending part is connected with the corresponding buffering parts and/or the driving assemblies.

21. The massager of claim 15, wherein the extension portion is provided with a space avoiding groove at a side thereof facing the main body, and the buffer member and/or the driving assembly extends into the space avoiding groove and is connected to the extension portion.

22. The massage apparatus of claim 15, wherein the expansion member further comprises:

the electrode sheet assembly is arranged on one side of the body far away from the main machine and is positioned on the extending part.

23. The massager of claim 22, wherein said electrode pad assembly comprises:

a metal electrode piece mounted on the extension.

24. The massager of claim 23, wherein said electrode pad assembly further comprises:

the base plate is provided with a through mounting groove; and

the gel sheet is installed in the installation groove and is attached to the metal electrode sheet.