CN220110263U - Massage module and massage device - Google Patents

Abstract

The utility model discloses a massage module and a massage device, wherein the massage module comprises: a massager, the massager comprising: the seat body is provided with a skin-approaching surface; the humidifying piece is arranged on the seat body, and a liquid outlet of the humidifying piece is positioned on the skin-approaching surface; and the vibration guide-in part is arranged on the base body and is provided with a movable guide-in area, and at least part of the movable guide-in area corresponds to the area where the liquid outlet is positioned. The technical scheme of the utility model is beneficial to quickly wetting the skin so as to improve the use experience of a user.

Description

Massage module and massage device

Technical Field

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

Background

With the development of society, the phenomenon that people release fatigue through physiotherapy products is more and more common due to the improvement of living standard of people. The existing massage products cannot timely guide in atomized liquid, are unfavorable for wetting and absorbing skin, and are unfavorable for the use experience of users.

Disclosure of Invention

The utility model mainly aims to provide a massage module which aims to increase the wetting speed of skin of a user and improve the massage experience of the user.

To achieve the above object, the present utility model provides a massage module comprising

A massager, the massager comprising:

the seat body is provided with a skin-approaching surface;

the humidifying piece is arranged on the seat body, and a liquid outlet of the humidifying piece is positioned on the skin-approaching surface;

and the vibration guide-in part is arranged on the base body and is provided with a movable guide-in area, and at least part of the movable guide-in area corresponds to the area where the liquid outlet is positioned.

Optionally, the humidifying element has a mobile humidification area, and the mobile introduction area covers at least part of the mobile humidification area.

Optionally, at least one of the mobile lead-in area and the mobile humidification area is an annular area.

Optionally, the base has a rotation axis, the base is rotatable around the rotation axis, and the humidifying member and the vibration introducing member are disposed around the rotation axis.

Optionally, the seat body includes with the face of dorsad that the face of proxying deviates from, humidification spare movably is located the face of proxying, vibration guide-in spare movably set up in the face of dorsad.

Optionally, the massage module further includes:

The seat body is a hard supporting sheet, and the hard supporting sheet is provided with an avoidance hole or an installation groove;

the humidifying piece comprises an atomizing piece, the liquid outlet is formed in the atomizing piece, the atomizing piece is arranged corresponding to the avoidance hole and is connected with the hard supporting piece, or the atomizing piece is arranged in the mounting groove so that the atomizing piece moves along with the rotation of the hard supporting piece;

the vibration introducing piece is connected with the hard supporting piece so that the vibration introducing piece moves along with the rotation of the hard supporting piece.

Optionally, the vibration introducing member and the humidifying member are disposed at intervals around the rotation shaft; and/or the number of the groups of groups,

the vibration leading-in piece is attached to the back skin surface.

Optionally, the humidifying piece comprises an atomizing piece, the massage module further comprises a flexible connecting piece, the seat body is a hard supporting piece, and the flexible connecting piece is connected with the atomizing piece and the hard supporting piece; and/or the number of the groups of groups,

the hard support piece is provided with an annular skirt edge, the annular skirt edge is connected to the edge of the hard support piece and extends towards the direction away from the side face of the back skin, and the hard support piece and the annular skirt edge enclose to form an installation cavity.

Optionally, the massage module comprises a body, the massage module comprises two massagers, the two massagers are arranged on the same side of the body at intervals, one of the two massagers is configured to rotate along a first direction, and the other is configured to rotate along a second direction, wherein the directions of the first direction and the second direction are opposite.

Optionally, the massage module comprises two massagers, and the two massagers are arranged at intervals;

the massage module further comprises an impedance detection circuit, wherein the impedance detection circuit is electrically connected with the two massagers and is configured to detect the impedance between the two massagers; and/or the number of the groups of groups,

the vibration guide-in piece is a first piezoelectric ceramic piece, and the vibration frequency of the first piezoelectric ceramic piece is 0.8-4 MHz; and/or the number of the groups of groups,

the humidifying piece comprises an atomizing piece, wherein the atomizing piece is a second piezoelectric ceramic piece, and the vibration frequency of the second piezoelectric ceramic piece is 80 KHZ-120 KHZ.

Optionally, the massager further comprises an electrode massage set, and the electrode massage set is arranged on the skin-proximal surface.

Optionally, the electrode massage set is at least partially located in the mobile lead-in area; and/or the number of the groups of groups,

The massage module further comprises an impedance detection circuit, and the impedance detection circuit is electrically connected with the electrode massage set.

The utility model also provides a massage device which comprises a wearing piece and a massage module, wherein the massage module is arranged on the wearing piece;

wherein, the massage module includes: the massage device is provided with a massage device,

the massager includes:

the seat body is provided with a skin-approaching surface;

the humidifying piece is arranged on the seat body, and a liquid outlet of the humidifying piece is positioned on the skin-approaching surface;

and the vibration guide-in part is arranged on the base body and is provided with a movable guide-in area, and at least part of the movable guide-in area corresponds to the area where the liquid outlet is positioned.

According to the technical scheme, the humidifying piece and the vibration introducing piece are arranged on the massager at the same time, and the vibration introducing piece can move in a certain range, so that the vibration introducing piece can form a movable introducing area, at least part of the movable introducing area corresponds to the area where the liquid outlet is positioned, the vibration introducing piece can directly and timely act on the skin with the smearing liquid, the efficiency of the smearing liquid entering the skin of a human body is improved greatly, the wetting speed of the skin of the human body is improved greatly, the body feeling of the human body massage is improved greatly, and the use experience of a user is improved; meanwhile, the vibration leading-in part can move, so that the area of the vibration leading-in part which can act is greatly larger than the area of the vibration leading-in part, namely the area of the moving leading-in area is larger than the area of the vibration leading-in part, thereby greatly increasing the utilization rate of the humidifying part and the vibration leading-in part and being beneficial to greatly increasing the area of the massager which can act.

Drawings

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

Fig. 1 is a schematic view of a massage device according to an embodiment of the present utility model;

fig. 2 is a schematic structural view of an embodiment of the massage module of the present utility model;

fig. 3 is a schematic diagram of the working principle of an embodiment of the massage module of the present utility model;

fig. 4 is a schematic diagram of the working principle of another embodiment of the massage module of the present utility model;

FIG. 5 is a schematic diagram of the combined working principle of FIGS. 3 and 4;

fig. 6 is a schematic structural view of another embodiment of the massage module of the present utility model;

fig. 7 is a schematic structural view of a massage module according to another embodiment of the utility model;

fig. 8 is a schematic structural view of a massage module according to another embodiment of the utility model.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Humidification piece	200	Vibration leading-in piece
300	Hard supporting sheet	310	Avoidance hole
				320	Annular skirt edge	330	Mounting groove
500	Flexible support	600	Wearing waistband
				700	Flexible connecting piece	110	Atomizing sheet
120	Moving a humidification zone	210	Moving the lead-in area
				30	Seat body	31	Near skin surface
130	Liquid outlet

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

Detailed Description

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

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

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, "and/or" throughout this document includes three schemes, taking a and/or B as an example, including a technical scheme, a technical scheme B, and a technical scheme that both a and B satisfy; in addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The utility model provides a massage module and a massage device. The massage device mainly refers to a massage device which is worn and semi-worn (the use process needs auxiliary fixation of a user, such as a handheld massage device), and can be a massage waistband, a neck massage device, a head massage device, an eye massage device and the like. The massage device comprises a massage module and a wearing piece, wherein the massage module and the wearing piece can be integrally and detachably connected. The wearing member may be a hard wearing member, or may be a flexible wearing member, or may be a wearing member combining flexibility and hardness. The wearing member may be in the form of a holder, a flexible belt, etc., and is not particularly limited herein. The massage module may also include a massage device and a support member, which may be a flexible member or a rigid member, and the flexible support member 500 will be mainly described as an example in the present utility model. The massage module is mainly used for performing physiotherapy on skin, muscle and the like of the human body part through electric stimulation, light physiotherapy, diaphragm heating, vibration and kneading and pressing. For convenience of description in the embodiment, the massage module includes a massager (stimulating human skin and muscle mainly by electricity, heat, kneading or pressing, etc.), and the phototherapy module includes a phototherapy unit (stimulating human skin and muscle mainly by light, etc.). In the latter embodiment of the present utility model, the massage device will be described by taking a lumbar massage machine as an example. It is noted that the massage referred to in the present utility model refers collectively to physical stimulation of non-drugs including, but not limited to, one or more of electrical stimulation, phototherapy, heating of the membrane, and vibration and compression.

The structure and function of the lumbar massager will be described below in its entirety, and each component of the lumbar massager will be described separately, mainly with respect to the shape, structure, physical characteristics (flexibility, elasticity, hardness, etc.) of each massage component, and the positional relationship and the mating relationship between the components. The waist massager comprises a wearing waistband 600 and a massage module. The wearing waistband 600 may be a bracket with a wearing space, which only plays a role in wearing, or may be a wearing waistband 600 with a circuit inside, where the circuit may be a power circuit, or may be a signal circuit, and the circuit is connected with the massage module and the power supply, or is connected with the massage module and the control unit. The wearing waistband 600 and the massage module may be detachably connected, and the detachable connection modes of the massage module and the wearing waistband 600 are numerous, such as adsorption by assembling magnetic pieces and adhesion by assembling magic tapes, or a containing part (for containing the massage module), a hanging part (for hanging and installing the massage module) and the like are arranged on the wearing waistband 600, which can be a plurality of combinations of the above modes. Of course, in some embodiments, the wearing waistband 600 and the massage module may be integrally and non-detachably connected, and it should be noted that, in some embodiments, the portion of the wearing waistband 600 (where the wearing waistband 600 includes multiple portions, such as a hard waistband and a flexible waistband) and the portion of the massage module (where the massage module includes multiple portions, such as a flexible base and a flexible supporting sheet) may be integrally formed (such as integrally formed by the flexible waistband and the flexible base).

The massage module comprises a supporting piece and a functional piece arranged on the supporting piece, wherein the functional piece is a massager, a power supply component, an electric control component and the like. The massage device may be an optical massage device (optical physiotherapy unit), an electro-stimulation massage device, a heating massage device, a vibration device, a kneading device, a pressing massage device, or the like, and of course, in some embodiments, an actual massage device may combine the functions of the plurality of massage devices. The support member has a plurality of fitting spaces, and different massagers may be respectively installed in the different fitting spaces, etc., without being particularly limited herein. When the massage module works, the power supply assembly provides electric energy for the electric control assembly and the massager, and the massager outputs any one or more of electric stimulation, heat energy, light energy, mechanical vibration, mechanical extrusion and the like outwards under the control of the electric control assembly. When the skin, the muscles and the like of the human body receive any one or more of electric stimulation, heat energy, light energy, mechanical vibration and mechanical extrusion, the blood circulation is accelerated, related substances at the positions of ache and the like are timely conveyed and discharged out of the body through the blood circulation, and meanwhile, the muscles are stretched and moved under the action of the electric stimulation, so that the massage device can massage the human body.

For ease of understanding, in the embodiments of the present utility model, the "skin-proximal side" refers to a side of a part, component, or element facing the human body after the massage device is worn on the human body, and the "skin-back side" refers to a side of the part, component, or element facing away from the human body after the massage device is worn on the human body.

The specific structure of the massage module will be mainly described below.

Referring to fig. 1 to 5 and 8, in the embodiment of the present utility model, the massage module

A massager 10, the massager 10 comprising:

a housing 30, the housing 30 having a skin proximal surface 31;

a humidifying member 100, wherein the humidifying member 100 is disposed on the base 30, a liquid outlet 130 of the humidifying member 100 is disposed on the skin-proximal surface 31, and the humidifying member 100 is configured to provide an application liquid;

a vibration introducing member 200, wherein the vibration introducing member 200 can vibrate according to a preset frequency after being electrified, and the vibration introducing member 200 is configured to directly or indirectly abut against human skin so as to introduce the coating liquid into the human skin; the vibration introducing member 200 is provided in the housing 30, and the vibration introducing member 200 has a movement introducing region 120, and at least a part of the movement introducing region 120 corresponds to a region where the liquid outlet 130 is located. In some embodiments, the humidifying member 100 is movable, and a moving humidifying area 120 is formed along a moving track thereof; the vibration introducing member 200 is movable, and a movement introducing region 210 is formed along a movement locus thereof, the movement introducing region 210 being at least partially overlapped with the movement humidifying region 120.

Specifically, in this embodiment, the humidifying member 100 is configured to provide an application liquid (may be an application liquid after atomization or an application liquid before atomization), and the application liquid may be water or other application liquid required to be applied to the skin, such as essential oil, channel benefit, massage oil, etc., which is not limited in particular herein. The humidifying member 100 may have various forms, such as a sponge that adsorbs an applying liquid (the applying liquid adsorbed in the sponge may be applied to the skin of a human body when the sponge contacts the skin of the human body and is squeezed), a container that holds the applying liquid (the container has an opening and is provided with a liquid outlet structure at the opening, the liquid outlet structure outputs the applying liquid in the container when the sponge contacts the skin of the human body), a liquid supply pipe that communicates with the liquid storage device, and the like, and the structure of the applying liquid may be provided for the massager 10 without any particular limitation. In this embodiment, taking the humidifying member 100 including the atomizing sheet 110 as an example, the atomizing sheet 110 uses electronic high-frequency oscillation to break up the liquid water molecular structure to generate natural and elegant mist through the high-frequency resonance of the atomizing sheet 110, and no heating or any chemical reagent is required in the process. The atomizing sheet 110 has a front face and a back face which face away from each other, and atomized mist flows out from the front face of the atomizing sheet 110, and one side from which the mist flows out is a mist outlet side. After the atomizing sheet 110 is electrified, the atomizing sheet 110 atomizes the liquid to be smeared into mist. The overall shape of the atomizing sheet 110 may be any of a wide variety of shapes, such as circular, square, oval, triangular, etc., and is not particularly limited herein. The atomizing plate 110 is made of a material capable of vibrating at high frequency after being electrified, such as a piezoelectric ceramic plate, and the atomizing plate 110 is taken as a second piezoelectric ceramic plate, and the vibration frequency of the second piezoelectric ceramic plate is 80 KHZ-120 KHZ.

The vibration introducing member 200 is made of a material capable of generating high-frequency vibration after being electrified, such as a piezoelectric ceramic plate, and the vibration introducing member 200 is exemplified by a first piezoelectric ceramic plate, and the vibration frequency of the first piezoelectric ceramic plate is 0.8 mhz-4 mhz. The shape of the vibration introducing member 200 may be any of a wide variety of shapes, such as circular, square, oval, triangular, etc., and is not particularly limited herein, and is exemplified by a sheet-like configuration. When the massage device 10 is in operation, the vibration introducing member 200 can be directly contacted with the skin of the human body, and the vibration generated by the vibration introducing member 200 can be directly transmitted to the skin of the human body. In some embodiments, the vibration introducing member 200 may be connected to a hard component, and the generated vibration may be transmitted to the hard component, and then transmitted to the skin of the human body by the hard component. After the skin of the human body acts on the vibration introducing part 200, the skin of the region acted on by the vibration introducing part 200 can be loosened, so that the skin of the acting region is not compact, has better flexibility and is stretched, and meanwhile, the temperature of the corresponding region is increased and pores are opened. When the smearing liquid enters the area acted by the vibration introduction, on one hand, the temperature of the smearing liquid is raised more actively due to the open pores and the raised temperature, so that the smearing liquid can enter the skin of a human body from the pores more easily; on the other hand, due to the high-frequency vibration of the vibration introducing member 200, the skin-proximal side of the vibration introducing member 200 introduces the droplets of the coating liquid to the surface of the human skin, so that the droplets are pressed into the human skin by the pressing force of the vibration introducing member 200.

The massage machine 10 has a massage area, which is an area on which the massage machine 10 acts when in operation, or which is an area of human skin that the massage machine 10 can contact when in operation, and the extent of the massage area is relatively determined when the massage machine 10 is determined. The humidifying member 100 may be moved within the massage region, and during the movement, a moving humidifying region 120 in which the humidifying member 100 may provide the coating liquid is formed according to the shape of the humidifying member 100 and the range in which the liquid may be supplied. The shape of the movement track may be various, such as a straight line, a circle, a triangle, a square, a ring, etc., which are reciprocally moved, and is not particularly limited herein, and it is only necessary that the humidifying member 100 can supply the coating liquid in the course of passing through the movement track thereof, so that the passing position thereof has the coating liquid. The movement path refers to a path (humidification trace) left by the movement of the humidification member 100. Of course, in some embodiments, the humidifying member 100 may not move relative to the human skin during operation, and the applied liquid provided thereby may be applied to a wider area by the vibration introducing member 200. The vibration introducing member 200 is movable within the massage area, and during the movement, a movement introducing area 210 is formed in which the vibration introducing member 200 can provide vibration according to the shape of the vibration introducing member 200 and the range in which the vibration can be generated. The shape of the movement track may be various, such as a straight line, a circle, a triangle, a square, a ring, etc., which are reciprocally moved, and the vibration introducing member 200 is not particularly limited herein, and only needs to provide high-frequency vibration in the process of passing through the movement track, so that the passing position can introduce the applying liquid into the skin of the human body.

The movement introducing area 210 and the movement humidifying area 120 are at least partially overlapped, which means that the vibration introducing piece 200 and the humidifying piece 100 pass through the same position at different times, so that the vibration introducing piece 200 can directly act on the position (massage area) where the humidifying piece 100 is provided with the coating liquid, thereby greatly improving the speed of introducing the coating liquid into the human skin, and further greatly improving the humidifying efficiency of humidifying the human skin. Because the humidifying member 100 and the vibration introducing member 200 can move, the area of the positions where the humidifying member 100 and the vibration introducing member 200 can act is far larger than the area of the position itself, that is, the area of the moving humidifying area 120 is larger than the area of the humidifying member 100, and the area of the moving introducing area 210 is larger than the area of the vibration introducing member 200, so that the utilization rate of the humidifying member 100 and the vibration introducing member 200 is greatly increased, and the area where the massager 10 can act is greatly increased.

In this embodiment, the humidifying member 100 and the vibration introducing member 200 are simultaneously disposed on the massager 10, and the vibration introducing member 200 can move within a certain range, so that the vibration introducing member 200 can form a moving introducing area 210, and at least part of the moving introducing area 210 corresponds to the area where the liquid outlet is located, so that the vibration introducing member 200 can directly and timely act on the skin with the smearing liquid, thereby being beneficial to greatly improving the efficiency of the smearing liquid entering the skin of a human body, greatly improving the wetting speed of the skin of the human body, greatly improving the body feeling of the human body massage, and being beneficial to improving the use experience of a user; meanwhile, since the vibration introducing member 200 is movable, the area of the vibration introducing member 200 that can be applied is substantially larger than the area of the vibration introducing member itself, that is, the area of the movement introducing region 210 is larger than the area of the vibration introducing member 200, so that the utilization rate of the humidifying member 100 and the vibration introducing member 200 is greatly increased, which is advantageous for greatly increasing the area of the massager 10 that can be applied.

It should be noted that, in some embodiments, the humidifying member 100 may be moved within a certain range, and the moving humidifying area 120 may be formed by the movement of the humidifying member 100, and the humidifying area 120 at least partially coincides with the vibration introducing area 210. Because the humidifying member 100 can move, the area of the humidifying member 100 can act is greatly larger than the area of the humidifying member, that is, the area of the moving humidifying area 120 is larger than the area of the humidifying member 100, so that the utilization rate of the humidifying member 100 is greatly increased, and the area of the massager 10 can act is greatly increased.

In some embodiments, if the massage module pair has an electrode massage set, skin is wetted in time, and the phenomenon of pricking the human body in the massage process (skin is wetted in time, so that the electrode massage set is high in fit with the human skin) can be avoided.

Referring to fig. 3 to 5, in some embodiments, in order to consider the ranges of the moving humidification region 120 and the moving introduction region 210 and the structure of driving the movement of the humidification member 100 and the vibration introduction member 200, the moving humidification region 120 is disposed in a ring shape and/or the moving introduction region 210 is disposed in a ring shape. By arranging the moving humidification area 120 and the moving introduction area 210 in a ring shape so that the humidification member 100 and the vibration introduction member 200 can always move in the same direction along the respective trajectories, the backward movement is not required, the structure of the driving device can be simplified, and when the shapes of the moving trajectories of the two are the same, the same driving device can be used to simultaneously drive the humidification member 100 and the vibration introduction member 200. In addition, the annular moving track can prevent the same area from being repeatedly humidified in the same period, so that the humidifying efficiency and uniformity are greatly improved.

Referring to fig. 3 to 5, in some embodiments, in order to further simplify the driving structure, the moving humidification region 120 is disposed in a circular ring shape, the moving introduction region 210 is disposed in a circular ring shape, and the moving humidification region 120 and the moving introduction region 210 share a common center. In this embodiment, the movable humidification module 100 and the vibration introducing module 200 are rotated around the same axis by setting the movable humidification module 120 and the movable introduction module 210 to have a circular shape with a common center, and at this time, the humidification module 100 and the vibration introducing module 200 may be disposed on the same support structure and then the support structure may be driven to rotate. Therefore, the humidifying piece 100 and the vibration introducing piece 200 can be driven simultaneously by one driving device, and meanwhile, the movement track with high requirements can be realized by simple rotation, so that the driving structure is greatly simplified, and the working stability of the massage module is improved.

Referring to fig. 3-5, in some embodiments, to further increase the overlap of the mobile lead-in area 210 and the mobile humidification area 120. The area of the moving introduction region 210 is greater than or equal to the area of the moving humidification region 120, and the moving introduction region 210 covers the moving humidification region 120. In this embodiment, the area of the movement introducing area 210 is much larger than the area of the movement humidifying area 120, for example, by setting the area of the vibration introducing member 200 to be larger than the area of the humidifying member 100, or by increasing the number of vibration introducing members 200, or by setting the length of the movement locus of the vibration introducing member 200 to be longer than the length of the movement locus of the humidifying member 100. In this embodiment, the vibration introducing member 200 is larger than the humidifying member 100, and the movement introducing region 210 covers the movement humidifying region 120 when the movement locus of the vibration introducing member 200 and the humidifying member 100 are the same.

Taking the case that the movement tracks of the vibration introducing member 200 and the humidifying member 100 are substantially circular, the movement radii (the distance between the centers of the vibration introducing member 200 and the humidifying member 100 and the center of rotation) of the vibration introducing member 200 and the humidifying member 100 may be set to be the same, and the width of the movement track of the vibration introducing member 200 is larger than the width of the movement track of the humidifying member 100 because the area of the vibration introducing member 200 is larger than the area of the humidifying member 100. In this embodiment, the area of the mobile introducing area 210 is set to be greater than or equal to the area of the mobile humidifying area 120, and the mobile introducing area 210 completely covers the mobile humidifying area 120, so that all the positions with the coating liquid can be directly pressed by the vibration introducing member 200, which is beneficial to greatly improving the humidifying efficiency.

It should be noted that, the moving modes of the humidifying member 100 and the vibration introducing piece 200 may be various, and both may rotate together with the base 30 or may rotate relative to the base 30. Specifically, in comparison with the case where the seat 30 rotates, the seat 30 includes a back surface facing away from the skin proximal surface 31, the humidifying member 100 is movably disposed on the skin proximal surface 31, and the vibration introducing member 200 is movably disposed on the back surface.

Referring to fig. 6 and 7, in the case where the humidifying member 100 and the vibration introducing sheet 200 are rotated with the housing 30, the housing 30 has a rotation axis about which the housing 30 is rotatable, and the humidifying member 100 and the vibration introducing sheet 200 are disposed about the rotation axis. That is, the humidifying member 100 and the vibration introducing piece 200 are provided on the housing 30 around the rotation shaft, and rotate with the rotation of the housing 30. In some embodiments, to improve the reliability of the massage module, the massage module further comprises a support,

the base 30 may be a hard support sheet 300, where the hard support sheet 300 is rotatably mounted on the support, the hard support sheet 300 has a skin proximal side and a skin dorsal side that are oppositely disposed, and the hard support sheet has a avoidance hole 310 or a mounting slot 330;

the humidifying member 100 includes an atomizing sheet 110, the liquid outlet is disposed on the atomizing sheet 110, the atomizing sheet 110 is disposed corresponding to the avoiding hole 310 and is connected to the hard support sheet 300, or the humidifying member 100 is mounted in the mounting groove 330, so that the humidifying member 100 moves along with the rotation of the hard support sheet 300, and the smearing liquid provided by the humidifying member 100 can flow to the skin-proximal side;

The vibration introducing member 200 is connected to the hard supporting sheet 300 such that the vibration introducing member 200 moves with the rotation of the hard supporting sheet 300.

Specifically, in the present embodiment, the support member is used for mounting the massager 10, and the support member may be a hard support member or may be a flexible support member 500, for example, the flexible support member 500. The flexible support 500 may be made of a flexible gel-like material such as rubber or silicone, and has sufficient flexibility and strength to support. By the arrangement of the flexible supporting pieces 500, the massagers 10 can be changed in position as required, and the massages of the massagers 10 are independent and do not interfere with each other. The overall shape of the support member may be varied, for example in the form of a flat sheet, to facilitate mounting of the massager 10 and flexible deformation.

The rigid support sheet 300 serves to support the vibration introducing member 200 and provide an installation position for the humidifying member 100. The support sheet may be an insulating support sheet or a conductive support sheet, and in different embodiments, may be configured according to different needs. In this embodiment, the hard supporting sheet 300 is exemplified by a conductive supporting sheet, and the material thereof may be metal, conductive ceramic, or the like, and exemplified by stainless steel. By providing the hard support sheet 300 as a conductive support sheet, the conductive support sheet can be used as an electrode sheet (or an electrode massage sheet) for electro-stimulation massage. In some embodiments, the base 30 may be provided as an electrode massage sheet more directly, and at this time, the base 30 serves not only to support the humidifying member 100 and the vibration introducing sheet 200, but also to transmit an electric stimulation pulse to the skin of the human body, or the like.

In some embodiments, the massager further comprises an electrode massage set (not shown) disposed on the skin proximal surface 31. The electrode massage set may include an electrode massage sheet, etc., and the electrode massage set is made of a conductive material, and may be metal, conductive ceramic, conductive silica gel, etc., and in this embodiment, stainless steel is taken as an example. An electrode massage set (not shown) is disposed at a distance from the humidifying member 100, and the electrode massage set may include at least one set of massage electrodes electrically connected to the pulse circuit, and the massage electrodes may be disposed in an area between the humidifying member 100 and the vibration introducing sheet 200, so that an atomized liquid (for example, the humidifying member 100 includes the atomizing sheet 110) may be directly atomized onto the massage electrodes, thereby reducing the impedance between the massage electrodes and the human body. The massage electrode may be provided on the hard support sheet 300. The atomized smearing liquid rapidly enters human skin, so that the wetting speed of the human skin is greatly improved, the body feeling of human body massage can be greatly improved, the phenomenon of stinging is avoided, and the use experience of a user is improved.

In some embodiments, in order to simplify the structure of the massage module and improve the effect of electrode massage, the electrode massage set is at least partially located in the moving-in area 210, so that the portion of the electrode massage set located in the moving-in area 210 can be fully contacted with the skin of the human body during the vibration process of the vibration-in sheet 200, so that the electrical stimulation pulse output by the electrode massage set can be effectively transmitted to the skin of the human body, which is beneficial to improving the effect of electrical stimulation. In some embodiments, the massage module further includes an impedance detection circuit (not shown), and the impedance detection circuit is electrically connected to the electrode massage set. The impedance detection circuit is used for detecting the impedance of a human body, and the impedance detection circuit is electrically connected with the electrode massage set, so that the electrode massage set can be used as a detection electrode of the impedance detection circuit, and the additional arrangement of the detection electrode is avoided, so that the structure of the massage module can be simplified.

The vibration introducing member 200 is attached to the rigid support sheet 300 to form an annular movement introducing region 210 with the rotation of the rigid support sheet 300. The humidifying member 100 forms an annular moving humidifying area 120 with the rotation of the rigid support sheet 300. In some embodiments, in order to improve the efficiency of the massage head wetting the skin, the vibration introducing member 200 is provided on the hard support sheet 300 at a side remote from the escape hole 310, with an isolation space between the vibration introducing member 200 and the humidifying member 100. Through the setting in isolation space for have certain time interval between the process of smearing liquid on to the skin and vibration leading-in, in this period of time, the surface extrusion and the friction of rigid support piece 300 have the skin of smearing liquid, make the smearing liquid more even, the scope that smearing liquid covered is bigger, on this basis, when carrying out vibration leading-in again, be favorable to improving vibration leading-in's effect, the absorption of the skin to the smearing liquid is improved to the container, be favorable to improving skin moist efficiency.

There are many ways in which the hard support sheet 300 is rotatably mounted on the support member (for example, the flexible support member 500 is taken as an example, of course, in some embodiments, the hard support sheet 300 may be a hard support member), and the hard support sheet 300 may be directly rotatably connected to the support member, or may be rotatably connected through a fixing member that is further provided (the fixing member is mounted on the support member, the hard support sheet 300 is rotatably connected to the fixing member, and the fixing member may have an assembly hole, an assembly groove, etc. for the hard support sheet 300 to rotate). The hard support sheet 300 may be driven to rotate in a plurality of ways, for example, the hard support sheet 300 may be directly driven to rotate by a motor, or a transmission member may be disposed between the driving motor and the hard support sheet 300, and the driving of the driving motor is transmitted to the hard support sheet 300 through the transmission member, so as to finally drive the hard support sheet 300 to rotate. The transmission part can be in gear transmission, worm and gear transmission, crank and connecting rod transmission, or gear and rack transmission and the like.

As shown in fig. 6, when the rigid support sheet 300 has the mounting groove 330, the mounting groove 330 is located at the skin proximal side of the rigid support sheet 300, the mounting groove 330 is used for mounting the humidifying member 100, and the humidifying member 100 may be partially or entirely mounted in the mounting groove 330. The mounting groove 330 may be a sink groove, the depth of which is exemplified as being greater than the thickness of the humidifying member 100. The mounting groove 330 is formed by recessing the skin proximal side of the rigid support sheet 300 toward the back skin side such that the groove edge of the mounting groove 330 is located within the skin proximal side of the rigid support sheet 300, and thus, there is no abrupt (suddenly high or suddenly low) sensation when the skin proximal side of the rigid support sheet 300 presses against human skin. Of course, in some embodiments, the mounting groove 330 may be further provided with an applying liquid, and the applying liquid may be directly contained in the mounting groove 330, or may be absorbed on an absorbing member, and then the absorbing member is mounted in the mounting groove 330, where the absorbing member may be a sponge pad, a foam pad, or other cotton wool fabrics that can absorb liquid, etc.

As shown in fig. 7, when the rigid support sheet 300 has the escape holes 310, the escape holes 310 penetrate the skin proximal side and the back skin side of the rigid support sheet 300. The humidifying member 100 is disposed in correspondence with the escape holes 310 such that mist generated by the humidifying member 100 can flow to the skin-proximal side of the rigid support sheet 300 through the escape holes 310. The humidifying member 100 may be mounted within the relief holes 310, or partially mounted within the relief holes 310, and in some embodiments may be positioned on the back skin side of the rigid support sheet 300 and then connected to the rigid support sheet 300 by a connector.

The vibration introducing member 200 may be provided on the skin-proximal side of the rigid support sheet 300 or on the back-skin side of the rigid support sheet 300, for example, on the back-skin side. By providing the vibration introducing member 200 on the back skin side of the rigid support sheet 300, the vibration introducing member 200 can be protected from external environmental factors, which is advantageous in improving the working stability of the vibration introducing member 200. The one surface of the vibration introducing member 200 is bonded to the one surface of the rigid support sheet 300, so that the vibration generated by the vibration introducing member 200 can be transmitted to the rigid support sheet 300 in a large area. There are many ways in which the vibration introducing member 200 is connected to the rigid support sheet 300, such as by gluing, fusion welding, plating, etc., and in some embodiments, the vibration introducing member 200 may be embedded in the rigid support sheet 300. The vibration introducing member 200 is provided in a circular shape as an example.

In some embodiments, the rigid support sheet 300 may be omitted, and the vibration introducing member 200 may be disposed around the outer periphery of the atomizing sheet 110 and connected between the annular skirt 320 and the atomizing sheet 110. Or may be connected to the outer circumference of the atomizing sheet 110 by a flexible connection 700.

In some embodiments, as shown in fig. 6 and 7, in order to avoid the occurrence of the frequency crosstalk between the atomizing plate 110 and the vibration introducing member 200, the massage device 10 further includes a flexible connection member 700, and the flexible connection member 700 connects the atomizing plate 110 and the rigid support plate 300. The flexible connection unit 700 may be made of flexible materials such as rubber, silica gel, and cotton wool, or may be made of elastic materials such as metal wires, metal sheets, and elastic plastics. Vibration of the atomizing sheet 110 can be buffered and consumed by the flexible connection member 700, and the vibration is prevented from being transmitted to the hard support sheet 300, so that the vibration frequency of the hard support sheet 300 is not affected. Similarly, vibrations of the rigid support sheet 300 generated by the vibration introducing member 200 are also buffered and consumed by the flexible connection member 700, and are not transmitted to the atomizing sheet 110 to affect the operation of the atomizing sheet 110. In this way, through the arrangement of the flexible connecting piece 700, the atomizing sheet 110 can be installed on the hard supporting sheet 300, and the phenomenon of frequency crosstalk between the hard supporting sheet 300 and the atomizing sheet 110 can be avoided.

In some embodiments, to further enhance the connection function of the flexible connection member 700, the flexible connection member 700 is disposed in a ring shape, an outer side portion of the flexible connection member 700 is connected to the rigid support plate 300 surrounding the avoidance hole 310, and an inner side portion of the flexible connection member 700 is connected to the side portion of the atomizing plate 110. The annular flexible connector 700 has an outer side portion including an outer edge and an inner side portion including an inner edge. The outer side of the flexible connection member 700 is connected with the wall of the avoidance hole 310, or the hard support sheet 300 adjacent to the wall of the avoidance hole 310, and the inner side of the flexible connection member 700 is connected with the outer side of the atomizing sheet 110 (including the circumferential edge of the atomizing sheet 110), so that the atomizing sheet 110 is suspended in the region corresponding to the avoidance hole 310. In this way, the peripheral edges of the atomizing sheet 110 are connected by the flexible connecting member 700, and the installation stability and the working stability of the atomizing sheet 110 are greatly improved.

In some embodiments, in order to improve the working stability of the atomizing sheet 110 and the vibration introducing member 200, the edge of the rigid support sheet 300 is extended with an annular skirt 500 in a direction away from the skin proximal surface, the rigid support sheet 300 and the annular skirt 500 enclose a mounting cavity, and the vibration introducing member 200 and the atomizing sheet 110 are positioned in the mounting cavity. Specifically, in this embodiment, the annular skirt 500 has a cylindrical shape, and the end of the annular skirt 500 is connected to the edge of the rigid support sheet 300 and is arc-shaped and transitionally connected. Of course, in some embodiments, the rigid support sheet 300 and the annular skirt 500 may be integrally formed, and the annular skirt 500 is formed by bending the edge of the rigid support sheet 300 to one side, or by punching. The atomizing sheet 110 and the vibration introducing member 200 are positioned in the installation cavity formed by the enclosing of the rigid support sheet 300 and the annular skirt 500, so that the influence of mosquitoes, dust, collision and the like in the external environment can be avoided, and the working stability of the massager 10 is greatly improved. In addition, the installation cavity can be used as a solution cavity, and the atomizing sheet 110 can directly atomize the solution in the installation cavity.

In some embodiments, in order to provide a better massage feel to the user, the massage module comprises a body, and the massage module comprises two massagers 10, and the two massagers 10 are arranged on the same side of the body at intervals; one of the two massagers 10 is configured to rotate in a first direction and the other is configured to rotate in a second direction, wherein the directions of the first and second directions are opposite. In this embodiment, the body may include the support member (exemplified by the flexible support member 500) of the above embodiment, and one of the two massagers 10 rotates clockwise and the other rotates counterclockwise, so that the two massagers 10 rotate toward each other or back to back, so that the massagers 10 may give different massage experiences to the user. The rotational speeds of the two massagers 10 may be the same, although in some embodiments the rotational speeds of the two massagers 10 may be different and the particular fit may be configured as desired.

In some embodiments, for better massaging of the human body (including electro-stimulation massage, physical compression massage, etc.), it is necessary to obtain the impedance of the human body in order to perform an appropriate massage strategy according to the impedance. Specifically, the massage module comprises two massagers 10, and the two massagers 10 are arranged at intervals; the massage module further comprises an impedance detection circuit, wherein the two massagers 10 are electrically connected with the impedance detection circuit, and the impedance detection circuit is configured to detect the impedance between the two massagers 10. In this embodiment, the impedance circuit includes a detection electrode, and when in operation, the detection electrode contacts with the skin of the human body to obtain two detection points of the skin of the human body. The impedance detection circuit is used for detecting the impedance of the human body, and the massager 10 adjusts the massage intensity according to the magnitude of the impedance. For example, when a large body impedance is detected, a large voltage is required to provide stronger electrical stimulation, or a large vibration amplitude or compression amplitude is provided to provide stronger vibration and pressing body feeling; and when less body impedance is detected, a smaller voltage may be used to provide weaker electrical stimulation, or to provide a smaller vibration amplitude or compression amplitude.

In some embodiments, in order to simplify the structure of the massage module, the hard supporting plates 300 are conductive hard supporting plates 300, the impedance detecting circuit is electrically connected to two hard supporting plates 300, and the hard supporting plates 300 are configured as detecting electrode plates of the impedance detecting circuit. In this embodiment, the hard supporting plate 300 is a conductive supporting plate, and can conduct electricity, so that the hard supporting plate 300 can be used as a detecting electrode plate of the impedance detecting circuit. When contacting the skin of the human body, the human body is connected to the impedance detection circuit through the hard support sheet 300, and the impedance detection circuit performs impedance detection on the human body. Therefore, the massage head (the hard supporting sheet 300) can be skillfully utilized as the detection electrode, the additional electrode is not needed, the number of parts is reduced, and the structure of the massage head is simplified.

In some embodiments, the massage module comprises a main control circuit electrically connected to the impedance detection circuit and the massager 10; the main control circuit is configured to adjust an operation state of at least one of the vibration introducing member 200 and the humidifying member 100 according to a detection value of the impedance detecting circuit.

Specifically, in this embodiment, the impedance detection circuit is configured to detect the impedance of the human body, and the main control circuit controls the working state of the massager 10 according to the detected impedance in various manners. The working state includes adjusting the working time (the working time is positively related to the impedance), opening and closing (when the blocking is particularly large, the bone is judged to be detected, and the bone needs to be closed), and the vibration rate during working. Specifically, the main control electric control can adjust the opening and closing of the vibration introducing member 200 and the humidifying member 100 according to the magnitude of the impedance, adjust the vibration frequencies of the vibration introducing member 200 and the humidifying member 100, adjust the operation time of the vibration introducing member 200 and the humidifying member 100, and the like. By taking the adjustment of the working frequency as an example for explanation, the impedance resistance of the human body can be divided into several layers, such as low impedance, medium impedance and high impedance, and different voltages or currents are input according to different impedances. The following describes a specific example, where the main control circuit includes a comparison circuit, and the comparison circuit is configured to compare a preset impedance value with a current impedance value detected by the impedance detection circuit, where the current impedance value is greater than the preset impedance value, and the comparison result outputs a first current or a first voltage, and the first current or the first voltage triggers the vibration lead-in member 200 to vibrate according to a first preset frequency; the present impedance value is smaller than the preset impedance value, and the comparison result outputs a second current or a second voltage, which triggers the vibration introducing member 200 to vibrate according to a second preset frequency, wherein the first preset frequency is larger than the second preset frequency. In this embodiment, the comparison circuit is used to compare the strengths (the preset impedance value and the current impedance value) of two different electrical signals, and the corresponding power-on circuit is turned on (triggered) according to the comparison result, so as to provide the current or voltage corresponding to the impedance value for the massage head. Therefore, different human bodies can obtain the corresponding massage strength, and the user can not feel no strength and insufficient body feeling, and can not feel too strong and cause stinging due to too strong electric stimulation. Is beneficial to improving the massage body feeling and comfort level of the user.

In summary, according to the technical scheme of the present utility model, the humidifying element 100 and the vibration introducing element 200 are simultaneously disposed on the massager 10, and the vibration introducing element 200 can move within a certain range, so that the vibration introducing element 200 can form a moving introducing area 210, and at least part of the moving introducing area 210 corresponds to the area where the liquid outlet is located, so that the vibration introducing element 200 can directly and timely act on the skin with the smearing liquid, thereby being beneficial to greatly improving the efficiency of the smearing liquid entering the skin of the human body, greatly improving the wetting speed of the skin of the human body, greatly improving the body feeling of the human body massage, and being beneficial to improving the use experience of the user; meanwhile, since the vibration introducing member 200 is movable, the area of the vibration introducing member 200 that can be applied is substantially larger than the area of the vibration introducing member itself, that is, the area of the movement introducing region 210 is larger than the area of the vibration introducing member 200, so that the utilization rate of the humidifying member 100 and the vibration introducing member 200 is greatly increased, which is advantageous for greatly increasing the area of the massager 10 that can be applied.

The utility model also provides a massage device, which comprises a wearing part and a massage module, wherein the specific structure of the massage module refers to the embodiment, and as the massage device adopts all the technical schemes of all the embodiments, the massage device at least has all the beneficial effects brought by the technical schemes of the embodiments, and the detailed description is omitted. Wherein, the massage module is installed in wearing piece, wearing piece is configured as the human body and wears. The massage module and the wearing piece can be detachably connected, so that the edge is maintained and replaced. Wherein, the massage device is a massage belt, the wearing piece can be a belt body, the wearing piece comprises a flat wearing belt 600, and the massage module is mounted on the wearing belt 600. The wearing material may be a neck brace or the like. It should be noted that the massage module may also be a handheld structure.

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

Claims (13)

1. A massage module, comprising:

a massager, the massager comprising:

the seat body is provided with a skin-approaching surface;

the humidifying piece is arranged on the seat body, and a liquid outlet of the humidifying piece is positioned on the skin-approaching surface;

and the vibration guide-in part is arranged on the base body and is provided with a movable guide-in area, and at least part of the movable guide-in area corresponds to the area where the liquid outlet is positioned.

2. The massage module of claim 1, wherein the humidification member has a moving humidification region, the moving introduction region covering at least a portion of the moving humidification region.

3. The massage module of claim 2, wherein at least one of the mobile lead-in area and the mobile humidification area is an annular area.

4. A massage module as recited in claim 2 or 3, wherein the housing has a rotational axis about which the housing is rotatable, the humidification member and the vibration introduction member being disposed about the rotational axis.

5. A massage module according to claim 2 or 3, wherein the housing comprises a back surface facing away from the skin-proximal surface, the humidification member is movably disposed on the skin-proximal surface, and the vibration introduction member is movably disposed on the back surface.

6. The massage module of claim 1, wherein the massage module comprises a plurality of massage modules,

the seat body is a hard supporting sheet, and the hard supporting sheet is provided with an avoidance hole or an installation groove;

the humidifying piece comprises an atomizing piece, the liquid outlet is formed in the atomizing piece, the atomizing piece is arranged corresponding to the avoidance hole and is connected with the hard supporting piece, or the atomizing piece is arranged in the mounting groove so that the atomizing piece moves along with the rotation of the hard supporting piece;

the vibration introducing piece is connected with the hard supporting piece so that the vibration introducing piece moves along with the rotation of the hard supporting piece.

7. The massage module of claim 1, wherein the housing has a rotational axis about which the housing is rotatable, the vibration introducing member and the humidifying member being spaced apart about the rotational axis; and/or the number of the groups of groups,

The base body comprises a back skin surface deviating from the skin-approaching surface, and the vibration leading-in piece is attached to the back skin surface.

8. The massage module of claim 1, wherein the humidification member comprises an atomization sheet, the massage module further comprising a flexible connection member, the seat body being a rigid support sheet, the flexible connection member connecting the atomization sheet and the rigid support sheet; and/or the number of the groups of groups,

the seat body comprises a back skin surface deviating from the skin-approaching surface, the seat body is a hard supporting sheet, the hard supporting sheet is provided with an annular skirt edge, the annular skirt edge is connected with the edge of the hard supporting sheet and extends towards the direction far away from the back skin surface, and the hard supporting sheet and the annular skirt edge enclose and form an installation cavity.

9. The massage module of claim 1, comprising a body, the massage module comprising two of the massagers spaced apart on a same side of the body, one of the two massagers configured to rotate in a first direction and the other configured to rotate in a second direction, wherein the directions of the first and second directions are opposite.

10. The massage module of claim 1, wherein the massage module comprises two of the massagers, the two of the massagers being spaced apart;

the massage module further comprises an impedance detection circuit, wherein the impedance detection circuit is electrically connected with the two massagers and is configured to detect the impedance between the two massagers; and/or the number of the groups of groups,

the vibration guide-in piece is a first piezoelectric ceramic piece, and the vibration frequency of the first piezoelectric ceramic piece is 0.8-4 MHz; and/or the number of the groups of groups,

the humidifying piece comprises an atomizing piece, wherein the atomizing piece is a second piezoelectric ceramic piece, and the vibration frequency of the second piezoelectric ceramic piece is 80 KHZ-120 KHZ.

11. The massage module of claim 1, wherein the massager further comprises an electrode massage set, the electrode massage set being disposed on the skin proximal surface; or,

the seat body is an electrode massage sheet.

12. The massage module of claim 11, wherein the electrode massage assembly is at least partially positioned in the mobile lead-in area; and/or the number of the groups of groups,

the massage module further comprises an impedance detection circuit, and the impedance detection circuit is electrically connected with the electrode massage set.

13. A massaging apparatus comprising a wearing part and a massaging module according to any one of claims 1 to 12, the massaging module being mounted to the wearing part.