CN218338695U - Knocking type massage structure and neck and shoulder massage instrument - Google Patents

Abstract

The embodiment of the application discloses a knocking type massage structure and a neck and shoulder massage instrument, wherein the knocking type massage structure comprises a supporting piece, a knocking component, an elastic piece and a driving component, and the knocking component is movably connected with the supporting piece and can do reciprocating motion of retracting and extending relative to the supporting piece; the driving assembly is in transmission connection with the knocking assembly and is disconnected from the knocking assembly after the driving knocking assembly retracts; the elastic piece is connected between the supporting piece and the knocking component, generates elastic deformation when the knocking component retracts, and recovers the elastic deformation to drive the knocking component to extend and move after the driving component is disconnected from the transmission connection with the knocking component, so as to carry out knocking type massage on a user; in this application embodiment, utilize the elastic component by compression or tensile nature stored energy, when the elastic component resumes deformation, strike the subassembly and remove relative support piece under the effect of elastic component to strike the user, the dynamics is bigger when making to strike the subassembly and strike the user.

Description

Knocking type massage structure and neck and shoulder massage instrument

Technical Field

The application relates to the technical field of massage, particularly, relates to a knocking type massage structure and a neck and shoulder massager.

Background

In daily life, people work before sitting in a computer for a long time or work on a table for a long time, muscle ache of the neck and the shoulder is easy to cause, and the neck and shoulder massage instrument can effectively relieve the muscle ache. The massage appearance accessible motor vibrations or electric current stimulation relax muscle, and in the correlation technique, set up mechanical structure in the mechanical type massage appearance, beat the muscle through mechanical structure to reach the effect of relaxing the muscle.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a knocking type massage structure, which comprises a supporting piece, a knocking component, a driving component and an elastic piece, wherein the knocking component is movably connected with the supporting piece and can do reciprocating motion of retraction and extension relative to the supporting piece; the driving component is in transmission connection with the knocking component and is disconnected from the knocking component after the driving knocking component retracts; the elastic part is connected between the supporting part and the knocking component, and elastically deforms when the knocking component retracts, and recovers the elastic deformation to drive the knocking component to extend out after the driving component is disconnected from the driving component and connected with the knocking component, so that a user can be subjected to knocking type massage.

In some embodiments, the knocking component comprises a massage head and a connecting piece, the connecting piece is movably connected to the supporting piece, one end of the connecting piece is in transmission connection with the driving component, and the other end of the connecting piece is connected with the massage head; wherein, the elastic part comprises a first compression spring which is arranged on one side of the connecting part departing from the massage head; or the elastic piece comprises a first extension spring which is arranged at one side of the connecting piece close to the massage head.

In some embodiments, the percussive massage mechanism further comprises a buffer member coupled to the link member and the support member.

In some embodiments, the buffer comprises a second compression spring, and the second compression spring is arranged on one side of the connecting piece close to the massage head; or the buffer piece comprises a second extension spring which is arranged on one side of the connecting piece departing from the massage head.

In some embodiments, the knocking type massage structure further comprises a guide part, the guide part is connected with the support part, the guide part is arranged in the connecting part in a penetrating mode, when the elastic part comprises a compression spring, the guide part is arranged in the compression spring in a penetrating mode, and when the elastic part comprises an extension spring, the guide part is arranged in the extension spring in a penetrating mode.

In some embodiments, the spring element has a spring constant that is greater than a spring constant of the spring element of the damping element.

In some embodiments, the knocking type massage structure further comprises a guide part, the guide part is fixedly connected with the support part, the guide part is arranged through the connecting part, when the buffer part comprises a compression spring, the guide part is arranged through the compression spring, and when the buffer part comprises an extension spring, the guide part is arranged through the extension spring.

In some embodiments, the drive assembly includes a drive member and a fan blade, the drive member being connected to the support member; the flabellum is connected with the output shaft of driving piece, and at the pivoted in-process of driving piece drive flabellum, flabellum and periodic butt of connecting piece.

In some embodiments, at least a partial contour of the fan blade periodically abutted against the connecting piece is an arc segment with a circle center eccentrically arranged relative to the axis of the output shaft of the driving piece.

In some embodiments, the connecting piece comprises a sliding part, a connecting part, a transmission part and a bearing, wherein the sliding part is sleeved on the guide piece; the connecting part is connected with the sliding part and the massage head; the transmission part is connected with the sliding part; the inner ring of the bearing is connected with the transmission part, and the outer ring of the bearing is used for periodically abutting against the fan blade.

In some embodiments, the support comprises a base and two support parts, the driving part is arranged on the base; the two supporting parts are arranged on the same side of the base at intervals; wherein, the quantity of guide is two, and two guide parallel arrangement, and the both ends of guide set up respectively on two supporting parts, and two guides are located to the both ends cover respectively of sliding part, and connecting portion and transmission portion all connect in the middle part position of sliding part, and one of them supporting part is worn to locate by connecting portion.

The embodiment of the application also provides a neck and shoulder massage instrument, which comprises a knocking type massage structure, a soft shell and a hard shell, wherein the soft shell is used for being arranged close to a user; the hard shell is arranged on one side, away from a user, of the soft shell, the accommodating cavity is formed between the hard shell and the soft shell, the accommodating cavity is provided with an opening on the soft shell, the supporting piece is connected with the hard shell, the knocking component can be accommodated in the accommodating cavity, and the knocking component can extend out of the accommodating cavity through the opening to knock and massage the user.

Knocking type massage structure based on this application, strike subassembly and support piece swing joint, strike the subassembly and can remove for support piece, the elastic component is connected with beating subassembly and support piece, drive assembly is connected with the transmission of beating the subassembly, drive assembly drive strikes the subassembly withdrawal, at this in-process, the elastic component is by beating the subassembly compression or tensile, therefore, the elastic component has deformation potential energy because of taking place deformation, utilize the elastic component can be by compression or by tensile nature stored energy, at the in-process that the elastic component resumes elastic deformation, strike the subassembly and remove for support piece under the effect of elastic component and make the subassembly of beating strike the user the time dynamics bigger.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in related arts, the drawings used in the description of the embodiments or related arts will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of a percussive massage mechanism according to an embodiment of the present application;

FIG. 2 is a schematic structural view of a rapping assembly in an embodiment of the present application;

FIG. 3 is a schematic view of the structure of a percussive massage mechanism according to another embodiment of the present application;

FIG. 4 is a schematic structural view of a percussive massage mechanism according to yet another embodiment of the present application;

FIG. 5 is a schematic view of a percussive massage mechanism according to yet another embodiment of the present application;

FIG. 6 is a schematic structural view of a percussive massage mechanism according to another embodiment of the present application;

FIG. 7 is an exploded view of a percussive massage according to an embodiment of the present application;

FIG. 8 is a schematic view of the rigid shell coupled to the percussive massage mechanism according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a neck and shoulder massager in an embodiment of the present application.

Reference numerals: knock-on massage structure-100; a support-10; a knocking component-20; a massage head-21; a connector-22; a sliding part-221; a connecting portion-222; a transmission part-223; a bearing-224; an elastic member-30; a compression spring elastic member-30A; an extension spring elastic member-30B; a drive assembly-40; a drive member-41; fan blades-42; a buffer-50; compression spring cushion-50A; extension spring buffer-50B; a guide-60; a stopper-70; a limiting block-71; a limit screw-72; a fixture-80; neck and shoulder massager-200; a soft shell-201; a hard shell-202; opening-C; the neck-surrounding space-D.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

The mechanical type massage appearance strikes and beats user's muscle through mechanical structure, and the massage head of massage appearance accessible high frequency's reciprocating motion realizes the massage of striking to the user, but in the correlation technique, the strength that the massage head struck to the user is less, and user's massage effect is not good.

Referring to fig. 1, the embodiment of the present application provides a percussive massage mechanism 100, which includes a support 10, a percussive assembly 20, an elastic member 30, and a driving assembly 40, wherein the percussive assembly 20 is movably connected to the support 10 and can perform reciprocating motions of retracting and extending relative to the support 10; the driving component 40 is in transmission connection with the knocking component 20 and is disconnected from the transmission connection with the knocking component 20 after the knocking component 20 is driven to perform retraction movement; and an elastic member 30 connected between the support member 10 and the knocking assembly 20, elastically deformed during the retracting motion of the knocking assembly 20, and restored to be elastically deformed after the driving assembly 40 is disengaged from the driving connection with the knocking assembly 20 to drive the knocking assembly 20 to perform the extending motion, so as to perform a knocking type massage to the user.

The supporting member 10 is used for carrying the knocking assembly 20, the elastic member 30 and the driving assembly 40, and the shape, number, size and material of the supporting member 10 are not particularly limited.

The striking assembly 20 is used for striking a user to achieve a striking massage, and a striking force can be applied to the user every time the striking assembly 20 contacts the user, and the striking frequency of the striking assembly 20 may be fixed or may not be fixed. The shape, number, size, and material of the knocking assembly 20 may not be particularly limited.

The elastic member 30 is used to enhance the striking force of the striking assembly 20 on the user, the elastic member 30 may be disposed on a side of the striking assembly 20 away from the user or the elastic member 30 may be disposed on a side of the striking assembly 20 close to the user, because the elastic member 30 is easily elastically deformed and can be rapidly restored to an initial state, when the striking assembly 20 performs a striking massage on the user, the elastic member 30 may store energy and rapidly release energy, that is, the elastic member 30 may be compressed or stretched under an external force, which is an energy storage process of the elastic member 30, when the elastic member 30 is released, the energy stored in the elastic member 30 may be released, and when the elastic member 30 is restored to the elastic deformation, the elastic member 30 may drive the striking assembly 20 to move toward the massage portion of the user relatively quickly, thereby performing a striking massage on the user, and because the elastic member 30 has a relatively short time for restoring the elastic deformation, the elastic force of the elastic member 30 may increase the striking force of the striking assembly 20 on the user. It can be understood that the deformation amount of the elastic element 30 is in positive correlation with the knocking force of the knocking assembly 20 on the user, and the larger the deformation amount of the elastic element 30 is, the larger the knocking force of the knocking assembly 20 on the user is.

The driving assembly 40 is used for driving the elastic element 30 to deform, specifically, the driving assembly 40 is in transmission connection with the knocking assembly 20, the driving assembly 40 drives the knocking assembly 20 to retract, the knocking assembly 20 applies force to the elastic element 30, the force applied by the knocking assembly 20 to the elastic element 30 is converted into energy stored in the elastic element 30, so that the elastic element 30 is compressed or stretched, and the driving assembly 40 can drive the knocking assembly 20 to periodically compress or stretch the elastic element 30, so as to achieve the effect of knocking the user for multiple times. During the process of restoring elastic deformation of the compressed or stretched elastic member 30 for a plurality of times, the elastic member 30 exerts an elastic force on the knock member 20 to increase the knocking force of the knock member 20 on the user.

According to the knocking type massage structure 100, the knocking component 20 is movably connected with the supporting member 10, the knocking component 20 can move relative to the supporting member 10, the elastic piece 30 is connected with the knocking component 20 and the supporting member 10, the driving component 40 is in transmission connection with the knocking component 20, the driving component 40 can drive the elastic piece 30 to be compressed or stretched, energy is stored by utilizing the property that the elastic piece 30 can be compressed or stretched, and in the process that the elastic piece 30 recovers elastic deformation, the knocking component 20 moves relative to the supporting member 10 under the action of the elastic piece 30, so that the force is stronger when the knocking component 20 strikes a user.

Referring to fig. 3-4, in some embodiments, the knocking assembly 20 includes a massage head 21 and a connecting member 22, the connecting member 22 is movably connected to the supporting member 10, one end of the connecting member 22 is in transmission connection with the driving assembly 40, and the other end of the connecting member 22 is connected to the massage head 21; wherein, the elastic element 30 comprises a first compression spring 30A, the first compression spring 30A is arranged on one side of the connecting element 22 departing from the massage head 21; or the elastic member 30 includes a first extension spring 30B, and the first extension spring 30B is disposed on a side of the connecting member 22 close to the massage head 21.

The massage head 21 beats and beats the user under the action of the elastic part 30, in the embodiment, the massage head 21 can be set to be a hemisphere shape, the surface of the massage head 21 contacting with the user is set to be a circular arc surface, and the outer surface of the massage head 21 can be coated with a flexible material, so that when the massage head 21 beats the user, the comfort level of the user can be improved.

The connecting element 22 is movably connected to the supporting element 10, the connecting element 22 has two opposite ends, one end of the connecting element 22 is connected to the massage head 21, the other end of the connecting element 22 is connected to the driving component 40 in a transmission manner, and the driving component 40 can drive the connecting element 22 to move on the supporting element 10 along the knocking direction so as to drive the massage head 21 to realize knocking type massage on the user. The connection between the connecting element 22 and the massage head 21 may be a snap connection or a screw connection, so as to replace the massage head 21, and in other embodiments, the connection between the connecting element 22 and the massage head 21 may be other connection.

As shown in fig. 3, when the elastic element 30 is a first compression spring 30A, the first compression spring 30A is disposed on one side of the connecting element 22 away from the massage head 21, and when the driving assembly 40 drives the connecting element 22 to move in a direction away from the massage part of the user, the first compression spring 30A is gradually compressed, which is a process of storing energy in the first compression spring 30A, a process of gradually restoring the elastic deformation of the first compression spring 30A is a process of releasing energy from the first compression spring 30A, at this time, the connecting element 22 drives the massage head 21 to knock the user under the action of the first compression spring 30A, that is, under the action of the first compression spring 30A, the massage head 21 is in an ejection type to knock the user, and the force of the massage head 21 to knock the user is greater.

As shown in fig. 4-5, when the elastic element 30 is a first extension spring 30B, the first extension spring 30B is disposed on one side of the connecting element 22 close to the massage head 21, one end of the first extension spring 30B is connected to the connecting element 22, the other end of the first extension spring 30B is connected to the supporting element 10, when the driving element 40 drives the connecting element 22 to move in a direction away from the massage portion of the user, the first extension spring 30B is gradually extended, the process is a process of storing energy in the first extension spring 30B, the process of gradually restoring elastic deformation of the first extension spring 30B is a process of releasing energy from the first extension spring 30B, the first extension spring 30B of the connecting element 22 drives the massage head 21 to knock the user, under the action of the first extension spring 30B, the massage head 21 is ejected to knock the user, and the force of the massage head 21 to knock the user is greater.

Referring to fig. 1-2, in some embodiments, in order to prevent the connecting member 22 from driving the massage head 21 to strike the user with too much force and prevent the connecting member 22 from striking the driving assembly 40 when the elastic member 30 releases energy, the striking massage mechanism 100 further includes a buffer member 50, and the buffer member 50 is connected with the connecting member 22 and the supporting member 10.

In some embodiments, referring to fig. 3-4, the buffer 50 includes a second compression spring 50A, and the second compression spring 50A is disposed on a side of the connecting element 22 close to the massage head 21.

Specifically, as shown in fig. 3, when the buffer 50 is the second compression spring 50A and the elastic element 30 is the first compression spring 30A, the buffer 50 is disposed on a side of the connecting element 22 close to the massage head 21, the elastic element 30 is disposed on a side of the connecting element 22 away from the massage head 21, when the driving element 40 drives the connecting element 22 to move in a direction away from the user massage part, the elastic element 30 is in a compressed state, when the energy of the elastic element 30 is released, the massage head 21 strikes the muscle of the user, in the process that the elastic element 30 gradually recovers elastic deformation from the compressed state, the buffer 50 is converted into the compressed state, the force applied by the second compression spring 50A to the driving element 40 is away from the user massage part, and the force applied by the buffer 50 to the connecting element 22 is opposite to the force applied by the elastic element 30 to the connecting element 22, so that the buffer 50 can function to reduce the force applied by the elastic element 30 to the connecting element 22 to reduce the striking force of the massage head 21 to the user and the striking force applied by the driving element 40 to the connecting element 22.

Specifically, as shown in fig. 4, when the buffer 50 is a second compression spring 50A and the elastic element 30 is a first extension spring 30B, the buffer 50 is disposed on a side of the connecting element 22 close to the massage head 21, the elastic element 30 is disposed on a side of the connecting element 22 close to the massage head 21, when the driving element 40 drives the connecting element 22 to move away from the user's massage part, the elastic element 30 is in a stretched state, when the energy of the elastic element 30 is released, the massage head 21 strikes the user's muscle, in the process that the elastic element 30 gradually recovers elastic deformation from the stretched state, the buffer 50 is converted into a compressed state, the elastic element 30 applies a force close to the user's massage part to the connecting element 22, and the buffer 50 applies a force away from the user's massage part to the connecting element 22, so that the buffer 50 can function to reduce the force of the elastic element 30 to the connecting element 22, so as to reduce the striking force of the massage head 21 to the user and the striking force of the driving element 40 to the connecting element 22.

In other embodiments, referring to fig. 5-6, the buffer 50 includes a second extension spring 50B, and the second extension spring 50B is disposed on a side of the connecting element 22 facing away from the massage head 21.

Specifically, as shown in fig. 5, when the buffer 50 is the second extension spring 50B and the elastic element 30 is the first extension spring 30B, the buffer 50 is disposed on the side of the connecting element 22 away from the massage head 21, the elastic element 30 is disposed on the side of the connecting element 22 close to the massage head 21, when the driving element 40 drives the connecting element 22 to move in the direction away from the massage part of the user, the elastic element 30 is in a stretched state, when the energy of the elastic element 30 is released, the massage head 21 hits against the muscle of the user, in the process of the elastic element 30 gradually recovering the elastic deformation from being stretched, the buffer 50 is converted into the stretched state, the force applied by the buffer 50 to the connecting element 22 is opposite to the force applied by the elastic element 30 to the connecting element 22, so that the buffer 50 can reduce the force applied by the elastic element 30 to the connecting element 22 to reduce the hitting force of the massage head 21 to the user and the hitting force applied by the driving element 40 to the connecting element 22.

Specifically, as shown in fig. 6, when the buffer 50 is the second extension spring 50B and the elastic element 30 is the first compression spring 30A, the buffer 50 is disposed on the side of the connecting element 22 away from the massage head 21, the elastic element 30 is disposed on the side of the connecting element 22 away from the massage head 21, when the driving unit 40 drives the connecting element 22 to move away from the massage part of the user, the elastic element 30 is in a compressed state, when the energy of the elastic element 30 is released, the massage head 21 strikes the muscle of the user, and in the process that the elastic element 30 gradually recovers the elastic deformation from being compressed, the buffer 50 is converted into a stretched state. The elastic element 30 applies a force to the connecting element 22 close to the massage part of the user, and the buffer element 50 applies a force to the connecting element 22 far away from the massage part of the user, so that when the massage head 21 strikes the user, the striking force is not too large, and when the elastic element 30 releases energy, the instant elasticity of the elastic element 30 can not cause the connecting element 22 to strike the driving assembly 40.

Referring to fig. 5-7, in some embodiments, the knocking massage structure 100 further includes a guiding element 60, the guiding element 60 is connected to the supporting element 10, the guiding element 60 is disposed through the connecting element 22, when the elastic element 30 includes a first compression spring 30A, the guiding element 60 is disposed through the first compression spring 30A, when the elastic element 30 includes a first extension spring 30B, the guiding element 60 is disposed through the first extension spring 30B.

In the striking direction, the connecting member 22 is slidably connected to the guide member 60, the driving assembly 40 and the elastic member 30 together enable the connecting member 22 to reciprocate on the guide member 60, the guide member 60 is connected to the supporting member 10, the guide member 60 and the supporting member 10 can be detachably connected to each other so as to facilitate replacement of the guide member 60 and installation of the elastic member 30, and in a specific embodiment, the guide member 60 can be a guide rod. When the elastic member 30 is the first compression spring 30A, the first compression spring 30A is sleeved on the periphery of the guide member 60, the axis of the first compression spring 30A is parallel to or coincided with the axis of the guide rod, so that the first compression spring 30A can limit the force application direction of the first compression spring 30A to the connecting member 22 in the process of recovering the elastic deformation, and after the first compression spring 30A is used for multiple times, the axis of the first compression spring 30A cannot deviate, and the service life of the first compression spring 30A can be prolonged by the arrangement.

When the elastic element 30 is the first extension spring 30B, the guide element 60 penetrates through the first extension spring 30B, one end of the first extension spring 30B is connected with the connecting element 22, the other end of the first extension spring 30B is connected with the supporting element 10, the first extension spring 30B can be sleeved on the periphery of the guide element 60, the effect that the first extension spring 30B can achieve by being sleeved on the periphery of the guide element 60 is that the effect is sleeved on the periphery of the guide element 60 by referring to the first compression spring 30A, and similarly, as shown in fig. 4-5, after the buffer element 50 is arranged, the buffer element 50 can be the second compression spring 50A or the second extension spring 50B, the spring elastic coefficient used by the buffer element 50 is smaller than that of the spring used by the elastic element 30, so that the elastic element 30 can drive the knocking assembly 20 to extend out for knocking massage, and the impact force of elastic deformation of the elastic element 30 can be relieved through the buffer element 50, and the too large impact force caused by too large knocking force can be avoided. The connection mode of the punch 50 and the guide 60 can refer to the connection mode between the elastic element 30 and the guide 60, and this arrangement can limit the force application direction of the buffer 50 to the connecting element 22 and can increase the service life of the buffer 50.

Referring to fig. 7, in some embodiments, the driving assembly 40 includes a driving member 41 and a fan 42, the driving member 41 is connected to the supporting member 10; the fan blades 42 are connected with the output shaft of the driving part 41, and the fan blades 42 are periodically abutted against the connecting part 22 in the process that the driving part 41 drives the fan blades 42 to rotate, so that the driving component and the knocking component can be periodically in transmission connection and disconnection.

A driving member 41 is provided on the support member 10, the driving member 41 being for driving the connecting member 22 to move on the guide member 60 in a striking direction, and the driving member 41 may be provided as a motor.

The fan blade 42 has an arc surface, the fan blade 42 is connected to the output shaft of the driving member 41, when the output shaft of the driving member 41 rotates, the outer surface of the fan blade 42 contacts with the connecting member 22, in a specific embodiment, the fan blade 42 has a first surface and a second surface which are opposite, and the first surface and the second surface are both arc surfaces, the first surface is concave toward the second surface, and the second surface is convex toward a direction away from the first surface, when the driving member 41 drives the connecting member 22 to move on the guide member 60, the connecting member 22 is periodically abutted against the first surface and the second surface of the fan blade 42, and under the combined action of the driving member 41, the fan blade 42 and the elastic member 30, the connecting member 22 can reciprocate on the guide member 60; in another embodiment, the fan blades 42 are eccentric wheels, and when the driving member 41 drives the connecting member 22 to move on the guide member 60, the connecting member 22 periodically abuts against the outer surface of the eccentric wheels to realize the reciprocating movement of the connecting member 22 on the guide member 60. The arc-shaped surface of the fan blade 42 can make the connecting piece 22 move periodically on the supporting piece 10 when the fan blade 42 abuts against the connecting piece 22, that is, under the combined action of the driving piece 41, the fan blade 42 and the elastic piece 30, the connecting piece 22 can realize reciprocating motion on the guiding piece 60, so that the massage head 21 connected with the connecting piece 22 can realize multiple times of knocking on the user.

Referring to fig. 7, in some embodiments, the connecting member 22 includes a sliding portion 221, a connecting portion 222, a transmission portion 223 and a bearing 224, wherein the sliding portion 221 is sleeved on the guiding member 60; the connecting portion 222 is connected to the sliding portion 221 and the massage head 21; the transmission part 223 is connected with the sliding part 221; the inner ring of the bearing 224 is connected to the power transmission section 223, and the outer ring of the bearing 224 is used to periodically abut against the fan blade 42.

The sliding part 221 moves on the guide part 60, in a specific embodiment, the guide part 60 may be configured as a guide rod, a sliding hole is opened on the sliding part 221, the guide rod is inserted into the sliding hole, so that the sliding part 221 slides on the guide rod, the sliding part 221 drives the massage head 21 to move relative to the support part 10, so as to massage the user, the sliding part 221 is slidably disposed on the guide part 60, friction between the sliding part 221 and the guide part 60 can be reduced, and when the massage head 21 strikes the user, the force is greater and more concentrated.

The connecting portion 222 connects the sliding portion 221 and the massage head 21, and when the massage head 21 strikes a user, the connecting portion 222 slides on the guide 60 through the sliding portion 221 to achieve striking of the user by the massage head 21.

The transmission part 223 is used for periodically contacting with the fan blades 42 when the driving part 41 rotates, so as to transmit the driving force of the driving part 41 to the elastic part 30 and the massage head 21 through the transmission part 223 and the fan blades 42, and the transmission part 223 is arranged at one end of the sliding part 221 close to the support 10 and periodically abuts against the fan blades 42.

The bearing 224 has an inner ring and an outer ring, the bearing 224 is sleeved on the transmission part 223, the inner ring of the bearing 224 is connected with the transmission part 223, when the driving force is output by the driving member 41, the outer ring of the bearing 224 is periodically abutted against the surface of the fan blade 42, if the transmission part 223 is not provided with the bearing 224, the fan blade 42 is directly abutted against the transmission part 223, sliding friction exists between the fan blade 42 and the transmission part 223, the bearing 224 is arranged on the transmission part 223, the fan blade 42 and the transmission part 223 are both rotationally connected with the bearing 224, friction modes between the fan blade 42 and the outer ring of the bearing 224 and between the transmission part 223 and the inner ring of the bearing 224 are both rolling friction, the bearing 224 is arranged at the transmission connection part 223 and the fan blade 42, the sliding friction can be converted into rolling friction, so as to reduce the friction force for transmission between the transmission part 223 and the movable piece, the service lives of the transmission parts 223 and 42 are prolonged, the outer surface of the fan blade 42 is periodically abutted against the bearing 224, and the transmission part 223 can be avoided from being abraded after long-term friction, and the mechanical efficiency between the fan blade 42 and the transmission part 223 is reduced.

As shown in fig. 7, in a specific embodiment, the knocking type massage structure 100 further includes a limiting member 70, the limiting member 70 is used for limiting the position of the bearing 224 and preventing the bearing 224 from falling off from the transmission portion 223, the limiting member 70 includes a limiting block 71 and a limiting screw 72, a threaded hole is opened at an end of the transmission portion 223 close to the support 10, the limiting screw 72 fixes the limiting block 71 at an end of the transmission portion 223 close to the support 10, and the size of the limiting block 71 is larger than that of an inner ring of the bearing 224.

Referring to fig. 7, in some embodiments, the supporting member 10 includes a base 11 and two supporting portions 12, and the driving member 41 is disposed on the base 11; the two supporting parts 12 are arranged on the same side of the base 11 at intervals; wherein, the number of guide 60 is two, and two guide 60 parallel arrangement, and the both ends of guide 60 set up respectively on two supporting parts 12, and two guide 60 are located to the both ends cover respectively of sliding part 221, and connecting portion 222 and transmission portion 223 all connect in the middle part position of sliding part 221, and connecting portion 222 wears to locate one of them supporting part 12.

The base 11 is used for bearing the driving element 41 and the fan blades 42, the two supporting portions 12 are arranged on the same side of the base 11 at intervals, the two supporting portions 12 and the base 11 jointly surround to form a Chinese character 'ao', the number of the guide pieces 60 is two, the two guide pieces 60 are arranged in parallel, two sliding holes are formed in the sliding portion 221, the two guide pieces 60 are respectively arranged in the two sliding holes in a penetrating manner, the sliding portion 221 moves on the two guide pieces 60, and the connecting portion 222 and the transmission portion 223 are both located in the middle of the sliding portion 221 and located between the two guide pieces 60. The sliding part 221 is arranged on the two guiding members 60 in a sliding manner, and the transmission part 223 and the connecting part 222 are arranged between the two guiding members 60, so that the connecting part 22 can move more stably in the knocking direction, and the force is uniform when the massaging head 21 knocks the user. The two guides 60 are arranged in parallel so that the striking force of the massage head 21 to the user can be concentrated.

Referring to fig. 7, in a specific embodiment, the knocking type massage structure 100 further includes two fixing members 80, the two fixing members 80 are respectively disposed on the two supporting portions 12, the fixing members 80 and the supporting portions 12 can be connected by a screw, and in other embodiments, the fixing members 80 and the supporting portions 12 can be connected by a snap. The two ends of the guiding element 60 are respectively fixed on the two supporting portions 12, when the connecting portion 222 is partially inserted into one of the supporting portions 12, the fixing element 80 can also fix the connecting portion 222 on the supporting portion 12, and the fixing element 80 is disposed on the supporting portion 12 and fixed with the same by using a screw connection method, so as to facilitate the detachment of the guiding element 60, the fixing element 80 and the connecting element 22.

Referring to fig. 8-9, an embodiment of the present application further provides a neck and shoulder massage apparatus 200, where the neck and shoulder massage apparatus 200 includes a knocking massage structure 100, a soft shell 201, and a hard shell 202, the soft shell 201 is configured to be disposed close to a user; stereoplasm casing 202 sets up in the one side that is used for keeping away from the user of soft casing 201, has the holding chamber between stereoplasm casing 202 and the soft casing 201, and the holding chamber has opening C on soft casing 201, and support piece 10 is connected with stereoplasm casing 202, strikes subassembly 20 and can accomodate in the holding intracavity, and can stretch out the holding chamber through opening C and strike the massage to the user.

Soft casing 201 sets up towards user's neck shoulder for contact neck shoulder, soft casing 201 can set up to the bubble cotton, and the cotton material of bubble has elasticity, and light in weight, can kick-back fast after being extruded, and soft casing 201 sets up to the bubble cotton, can increase the comfort level of wearing the massage appearance.

Hard shell 202 is used for bearing percussive massage structure 100, support piece 10 and the hard shell 202 of percussive massage structure 100 are connected, soft shell 201 is connected the back with hard shell 202, form the holding chamber between soft shell 201 and the hard shell 202, opening C has on the soft shell 201, opening C and holding chamber intercommunication, soft shell 201 constructs out around neck space D with hard shell 202 jointly, when the user wears neck shoulder massager 200, opening C on the soft shell 201 is towards the user, be used for the neck shoulder in around neck space D, open neck shoulder massager 200 after, strike subassembly 20 and repeatedly stretch out opening C and the action of retrieving the holding chamber, strike the user in order to reach the high frequency.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar elements; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms may be understood by those skilled in the art according to specific situations.

The present application is intended to cover various modifications, equivalent arrangements, and adaptations of the present application without departing from the spirit and scope of the present application.

Claims (12)

1. The utility model provides a percussive massage structure which characterized in that, percussive massage structure includes:

a support member;

the knocking component is movably connected with the supporting piece and can perform reciprocating motion of retracting and extending relative to the supporting piece;

the driving assembly is in transmission connection with the knocking assembly and is disconnected from the knocking assembly after the knocking assembly is driven to retract;

the elastic part is connected with the supporting part and between the knocking components, the knocking components are elastically deformed during retraction movement, and the driving components are disconnected with the transmission of the knocking components and then recover the elastic deformation to drive the knocking components to extend out so as to perform knocking type massage on a user.

2. The tapping massage structure of claim 1, wherein said tapping assembly comprises:

a massage head;

the connecting piece is movably connected to the supporting piece, one end of the connecting piece is connected with the massage head, and the other end of the connecting piece is in transmission connection with the driving assembly;

the elastic piece comprises a first compression spring, and the first compression spring is arranged on one side, away from the massage head, of the connecting piece; or the elastic piece comprises a first extension spring which is arranged on one side of the connecting piece close to the massage head.

3. The percussive massage structure as set forth in claim 2, further comprising:

a buffer member connected with the connecting member and the supporting member.

4. The percussive massage structure as set forth in claim 3, wherein said buffer includes a second compression spring disposed on a side of said link adjacent said massage head; or the buffer piece comprises a second extension spring, and the second extension spring is arranged on one side of the connecting piece, which is far away from the massage head.

5. The percussive massage mechanism as set forth in claim 4, wherein said resilient member has a spring rate greater than a spring rate of said cushioning member.

6. The tapping massage structure as recited in claim 2, further comprising:

the guide piece is fixedly connected with the support piece and penetrates through the connecting piece;

when the elastic part comprises the compression spring, the guide part is also arranged in the compression spring in a penetrating way, and when the elastic part comprises the extension spring, the guide part is also arranged in the extension spring in a penetrating way.

7. The percussive massage structure as recited in claim 4, further comprising:

the guide piece is fixedly connected with the support piece and penetrates through the connecting piece,

the bolster includes during compression spring, the guide still wears to locate compression spring, the bolster includes during extension spring, the guide still wears to locate extension spring.

8. The percussive massage structure as set forth in claim 6, wherein said drive assembly includes:

a driving member connected with the supporting member;

the fan blade, with the output shaft of driving piece, and the driving piece drive the fan blade pivoted in-process, the fan blade at least partial profile with connecting piece periodic butt.

9. The percussive massage mechanism as set forth in claim 8, wherein at least a portion of the profile of said blades periodically abutting said connector is an arc-shaped segment of blades eccentrically disposed relative to the axis of said output shaft of said driver member.

10. The percussive massage structure as set forth in claim 8, wherein said attachment includes:

a sliding part sleeved on the guide piece;

a connecting portion connected to the sliding portion and the massage head;

a transmission part connected with the sliding part;

the inner ring of the bearing is connected with the transmission part, and the outer ring of the bearing is used for periodically abutting against the fan blades.

11. The tapping massage structure of claim 10, wherein said support member comprises:

the driving piece is arranged on the base;

the two supporting parts are arranged on the same side of the base at intervals;

the number of the guide pieces is two, and two the guide pieces are arranged in parallel, two ends of the guide pieces are respectively arranged on two of the supporting parts, two ends of the sliding part are respectively sleeved on two of the guide pieces, the connecting part and the transmission part are both connected to the middle position of the sliding part, and the connecting part penetrates through one of the supporting parts.

12. A neck and shoulder massager is characterized by comprising:

the percussive massage structure as set forth in any one of claims 1-11;

a soft shell for placement proximate to a user; and

the stereoplasm casing set up in one side that is used for keeping away from the user of soft casing, the stereoplasm casing with the holding chamber has between the soft casing, the holding chamber is in the opening has on the soft casing, support piece with the stereoplasm casing is connected, strike the subassembly can hold in the holding intracavity, and can pass through the opening stretches out the holding chamber is strikeed the massage to the user.

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