CN220546407U - Massage assembly and massage device - Google Patents

Abstract

The utility model discloses a massage assembly and a massage device, wherein the massage assembly comprises: a support having a skin proximal side; the massage driving piece is arranged on the skin-proximal side of the supporting piece; a flexible first encapsulating sheet covering the skin proximal side of the support member to encapsulate the massage drive member on the skin proximal side of the support member; the massage head comprises a mounting seat and an extrusion head, and the mounting seat is positioned between the first packaging piece and the massage driving piece so that the mounting seat can be jacked up by the massage driving piece; the extrusion head is positioned on the skin-proximal side of the first packaging sheet and is connected with the mounting seat to clamp the first packaging sheet. The technology of the utility model is beneficial for the massage head to be arranged on the flexible packaging sheet.

Description

Massage assembly and massage device

Technical Field

The utility model relates to the technical field of massage, in particular to a massage assembly 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. Along with the increase of the crowd, people also put forward higher demands for physiotherapy products. The massage waistband is one of the commonly used physiotherapy products, and one side of the massage waistband facing the human body is provided with a massage head, and in order to improve skin effect, a part for installing the massage head is made of flexible materials. However, the massage heads are not easily assembled to the flexible material members, i.e., the existing assembly method is not conducive to the installation of the massage heads.

It should be noted that, the technical solution related to the background technology is only for raising technical problems, and the applicant does not consider the technical solution as the prior art.

Disclosure of Invention

The utility model mainly aims to provide a massage assembly which aims at improving the installation stability of a massage head.

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

a support having a skin proximal side;

the massage driving piece is arranged on the skin-proximal side of the supporting piece;

a flexible first encapsulating sheet covering the skin proximal side of the support member to encapsulate the massage drive member on the skin proximal side of the support member;

the massage head comprises a mounting seat and an extrusion head, and the mounting seat is positioned between the first packaging piece and the massage driving piece so that the mounting seat can be jacked up by the massage driving piece; the extrusion head is positioned on the skin-proximal side of the first packaging sheet and is connected with the mounting seat to clamp the first packaging sheet.

Optionally, the mount is a flexible/resilient mount; and/or the extrusion head is a hard extrusion head; and/or the number of the groups of groups,

The support is a flexible support.

Optionally, the mounting seat is provided with a mounting groove, and the extrusion head comprises a matching part and an extrusion part connected with the matching part;

the extrusion part is used for extrusion massage; the matching part is inserted into the mounting groove, and the outer side wall of the matching part and the groove wall of the mounting groove clamp the first packaging piece.

Optionally, a fixing hole is formed in the extrusion head, a fastening hole is formed in the mounting seat corresponding to the fixing hole, and a through hole is formed in the first packaging piece corresponding to the fixing hole;

the massage assembly further comprises a fastening piece which passes through the fastening hole and the through hole to be in fastening fit with the fixing hole so as to fasten and connect the extrusion head, the first packaging piece and the mounting seat.

Optionally, the extrusion head is the cavity setting, is provided with the assembly post in the extrusion head, the assembly post is followed the direction of height of extrusion head extends, the fixed orifices is seted up on the assembly post, and the fixed orifices is followed the length direction of assembly post extends.

Optionally, a reinforcing rib is further arranged in the extrusion head, one end of the reinforcing rib is connected with the outer side wall of the assembly column, and the other end of the reinforcing rib is connected with the inner side wall of the extrusion head; and/or the number of the groups of groups,

The whole appearance of the extrusion head is umbrella-shaped; and/or the number of the groups of groups,

the outer side wall of the extrusion head is an arc-shaped surface; and/or the number of the groups of groups,

the outer side wall of the extrusion head is provided with massage lines along the periphery Xiang Paibu of the massage head.

Optionally, the support member includes a support body, and a package side integrally formed with the support body; the packaging side edges are positioned at two sides of the supporting body in the width direction and extend along the length direction of the supporting body; the edge of the first packaging piece in the width direction is attached to the skin-proximal side of the packaging side edge.

Optionally, the massage driving member includes a massage member having an inflated and inflated supporting state and a deflated idle state;

in the supporting state, one side of the mounting seat, which is opposite to the extrusion head, is abutted against the skin-proximal side of the massage part.

Optionally, the massage member includes:

the air passage plate is provided with a connecting air passage and an air vent, the connecting air passage is provided with an air inlet port, the air inlet port is communicated with the outside of the air passage plate, and the air vent is communicated with the connecting air passage;

the massage air bag is arranged on the air circuit board corresponding to the vent hole and is communicated with the connecting air circuit through the vent hole;

One side of the massage air bag, which is far away from the air circuit board, is connected with the back skin side of the mounting base, so that the massage head is close to or far away from the supporting piece along with the inflation and deflation of the massage air bag.

The application further proposes a massaging device comprising a wearing part and a massaging assembly, the massaging assembly being connected with the wearing part, the wearing part being configured to be worn by a human body.

Optionally, the massage device is a massage waistband, the support piece of the massage component is arranged in a flat shape, and the massage piece and the first packaging piece of the massage component are arranged in parallel with the support piece;

the wearing part includes a wearing waistband configured to be worn on a waist of a human body.

According to the technical scheme, the massage head comprises the mounting seat and the extrusion head, the mounting seat is arranged between the first packaging sheet and the supporting piece, the extrusion head is arranged on the air inlet side of the first packaging sheet, and the mounting seat is connected with the extrusion head to clamp the first packaging sheet, so that the massage head is mounted on the flexible first packaging sheet, the massage head can be stably and reliably mounted on the first packaging sheet, the mounting stability of the massage head is improved, and the use of a user is facilitated.

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 view of the structure of FIG. 1 from another perspective;

FIG. 3 is a schematic view of an exploded view of an embodiment of a massage device;

FIG. 4 is a schematic view of the structure of FIG. 3 from another perspective;

fig. 5 is an exploded view of another embodiment of the massage device;

FIG. 6 is a schematic view showing an internal structure of an embodiment of the massage apparatus;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

fig. 8 is a schematic view of another embodiment of the massage device of the present utility model;

FIG. 9 is a schematic cross-sectional view of the structure at P-P in FIG. 8;

FIG. 10 is a partial enlarged view at B in FIG. 9;

FIG. 11 is an enlarged view of a portion of FIG. 10 at C;

FIG. 12 is an enlarged view of a portion of FIG. 10 at D;

FIG. 13 is a schematic view of an embodiment of a mounting case;

FIG. 14 is a schematic view of the structure of FIG. 13 from another perspective;

FIG. 15 is an enlarged view of a portion of FIG. 14 at E;

FIG. 16 is a schematic view of an embodiment of a trim cover;

FIG. 17 is an enlarged view of a portion of FIG. 16 at F;

FIG. 18 is a schematic view of the construction of the mounting shell and trim cover assembled to form a final embodiment;

fig. 19 is a partial enlarged view at G in fig. 18;

FIG. 20 is a schematic view of an embodiment of a mounting frame;

FIG. 21 is a schematic view of the structure of FIG. 20 from another perspective;

FIG. 22 is an enlarged view of a portion of FIG. 21 at H;

FIG. 23 is a schematic view of an embodiment of a gas storage bladder;

FIG. 24 is a schematic view of an embodiment of a massage member;

FIG. 25 is a schematic view of an embodiment of a massage balloon;

FIG. 26 is a schematic view of an embodiment of a support;

FIG. 27 is an enlarged view of a portion of FIG. 26 at I;

FIG. 28 is a schematic view of the structure of FIG. 26 from another perspective;

FIG. 29 is an enlarged view of a portion of J of FIG. 28;

FIG. 30 is a schematic view of an embodiment of a support;

FIG. 31 is a schematic view of an exploded view of an embodiment of a massage head;

FIG. 32 is a schematic view of the structure of FIG. 31 from another perspective;

FIG. 33 is a schematic view of the air path of an embodiment of the massage device;

Fig. 34 is a schematic view of the air path of another embodiment of the massage device.

Reference numerals illustrate:

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 mainly provides a massage waistband, which belongs to one kind of massage device and is used for massaging a human body. The massage device mainly refers to a wearing massage device, and can be a massage waistband (waist massage instrument), a neck massage instrument, a head massage instrument, an eye massage instrument and the like. The massage device can comprise a massage component and a wearing piece, and the massage component and the wearing piece can be integrally and non-detachably connected or 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 (wearing belt), or the like, and is not particularly limited herein. The massage assembly may also include a massage unit and a support, which may be a flexible support or a rigid support, and will be described herein primarily with reference to a flexible support. The massage component 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 explanation in the embodiment, the massage assembly includes a massage unit (stimulating human skin and muscles mainly by electricity, heat, kneading, or pressing, etc.), and the phototherapy module includes a phototherapy unit (stimulating human skin and muscles mainly by light, etc.). In the following examples of the present application, a massage device will be described by taking a lumbar massager (massage belt) as an example. It is worth noting that references herein to massage generally refer 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 massage waistband includes a wearing piece (flexible waistband) and a massage assembly. The flexible waistband can be a waistband with a wearing space and only playing a wearing role, can also be a flexible waistband with a built-in circuit, and the circuit can be a power circuit, a signal circuit, a circuit connection massage component and a power supply, or a connection massage component and a control unit and the like. The flexible waistband and the massage component can be detachably connected, and the detachable connection modes of the massage component and the flexible waistband are numerous, such as adsorption through an assembled magnetic piece and adhesion through an assembled magic tape, or a containing part (for containing the massage component), a hanging part (for hanging and installing the massage component) and the like are arranged on the flexible waistband, and of course, the massage component and the massage component can also be used in various combinations in the modes. Of course, in some embodiments, the flexible waistband and the massage assembly may be integrally and non-detachably connected, and it should be noted that, in some embodiments, a portion of the flexible waistband (in the case that the flexible waistband includes a plurality of portions, such as the flexible waistband includes a first belt body and a second belt body) may be integrally formed with a portion of the massage assembly (in the case that the massage assembly includes a plurality of portions, such as the massage assembly includes a flexible base and a flexible support sheet, etc.), for example, the first belt body and the flexible base may be integrally formed.

The massage component comprises a supporting piece and a functional piece arranged on the supporting piece, wherein the functional piece comprises a massage unit, a power supply component, an electric control component and the like. The massage unit may be an optical massage unit (optical physiotherapy unit), an electro-stimulation massage unit, a heating massage unit, a vibration, kneading or pressing massage unit, etc., and of course, in some embodiments, the actual massage unit may combine the functions of the above-mentioned massage units. It should be noted that, in some embodiments, for the sake of distinguishing expressions, the massage assembly may be referred to as a main body portion, which includes a support portion and a massage structure, wherein the support portion corresponds to the support member. When the massage assembly works, the power supply assembly provides electric energy for the electric control assembly and the massage unit, and the massage unit 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 external stimulation, so that the massage device can massage the human body. The support may be in a variety of forms, and may be a hard support or a flexible support, and in some embodiments may even be a support with a combination of soft and hard, where specific physical characteristics may be set according to actual operating conditions, product positioning, and the like. The overall shape of the support member can be quite large, such as a shape of a helmet for hanging a neck, a shape of an eye shield for fitting with a head, a shape of a belt for flexible winding, a sheet shape, etc.

For ease of understanding, in the embodiments of the present application, 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 belt will be mainly described below.

Referring to fig. 1 to 7, in an embodiment of the present utility model, the massage belt includes:

a main body part 50, the main body part 50 including a supporting part 51 and a massage structure 52, the massage structure 52 being mounted to the supporting part 51, the supporting part 51 having a skin proximal side, the massage structure 52 being configured to be protruded and contracted toward the skin proximal side of the supporting part 51 to output a squeeze massage to a human body;

a clamping structure 20, wherein the clamping structure 20 is connected with the end part of the supporting part 51, and the clamping structure 20 is used for being clamped at the hip joint of the human body when the massaging structure 52 presses the back/abdomen of the human body;

a wearing waistband 10, the wearing waistband 10 is connected with the main body part 50 and/or the clamping structure 20, and the wearing waistband 10 is configured to be worn by a human body.

Specifically, in this embodiment, the massage structure 52 can be extended and retracted toward the skin-proximal side of the supporting portion 51 in a plurality of ways, such as by driving with a linear motor, driving with an air cylinder or a hydraulic cylinder, turning with a turning motor and a driving mechanism (e.g., worm gear, gear drive), and so on. In this application, taking the massage belt including the massage member 210 as an example, the massage structure 52 outputs the extrusion to the human body along with the inflation of the massage member 210, and the massage structure 52 retracts to wait for the next extrusion along with the deflation of the massage member 210. The detent structure 20 can take many forms, based on its structure that can be snapped onto the hip joint of a human body. The detent structure 20 may be a hard structure or a soft structure, and in this embodiment, a soft structure is described as an example. The wearing belt 10 may be a flexible belt or a hard belt, and in this embodiment, a flexible belt is taken as an example for explanation.

The wearing waistband 10 and the main body 50 and/or the clamping structure 20 can be connected in various ways, and the first type is that the wearing waistband 10 is divided into two sections, and the two sections of wearing waistband 10 are respectively connected with two ends of the supporting part 51 or connected with the clamping structures 20 at two ends of the supporting part 51; the second is that the wearing belt 10 is a complete belt, and the wearing belt 10 includes not only a portion extending out of the support portion 51 but also a portion penetrating through the support portion 51. Of course, in some embodiments, the wearing waistband 10 may include three sections, one of which is disposed corresponding to the support portion 51, and the other two sections are disposed in substantially the same manner as the first one, except that one end of the two sections of the wearing waistband 10 may be connected to an end of the middle section of the wearing waistband 10 (corresponding to one of the support portions 51).

Specifically, the wearing waistband 10 includes a support section and a wearing section, wherein the support section penetrates the main body 50 along the length direction of the main body 50 and is arranged in parallel with the support 51; the wearing section is connected with a portion of the support section extending out of the main body portion 50. The support section is located on the back skin side of the support portion 51 to provide support for the support portion 51 when the massage structure 52 presses against the back/abdomen of the human body. In this embodiment, the wearing waistband 10 includes a support section and a wearing section, where the support section and the wearing section may be integrally set, or may be separately set, in this embodiment, an integrally set is taken as an example, the middle part is the support section, two ends of the support section are respectively connected with ends of the wearing section, and one end of the wearing section far away from the support section is connected with another wearing section. The support section corresponds to the support portion 51, and when the massage structure 52 works, and when the massage structure 52 outputs the reaction force received by the extrusion force outwards, the reaction force acts on the support portion 51, the support portion 51 transmits the reaction force to the support section of the wearing waistband 10, and the support section transmits the acting force to the wearing section.

In other embodiments, the waistband 10 may be worn in a variety of specific forms, as exemplified below. The wearing waistband 10 includes a first wearing section, and two ends of the first wearing section are respectively connected with two ends of the clamping structures 20, which are far away from the supporting portion 51. Alternatively, the wearing waistband 10 includes a first wearing section and a second wearing section, wherein one end of the first wearing section is connected with one end of one of the two clamping structures 20 away from the supporting portion 51, and one end of the second wearing section is connected with one end of the other of the two clamping structures 20 away from the supporting portion 51; the first wearing section is far away from one end of the clamping structure 20 and is detachably connected with one end of the second wearing section far away from the clamping structure 20. That is, the wear belt 10 may be connected to the support portion 51 or to the detent structure 20, and in some embodiments, the wear belt 10 may also be connected to both the support portion 51 and the detent structure 20. There are a number of more specific ways of connecting the wearing waistband 10 and the latch structure 20, and as will be illustrated below, the massage waistband further includes a mounting bracket 531, and the mounting bracket 531 is mounted in the latch structure 20; the end of the clamping structure 20 far away from the supporting portion 51 is provided with a through hole 338, and one end of the wearing waistband 10 is fixedly connected with the mounting bracket 531 through the through hole 338. There are many ways to connect the wearing belt 10 to the mounting bracket 531, taking the wearing belt 10 wound around the mounting bracket 531, and sewing the portion of the wearing belt 10 adjacent to the mounting bracket 531 as an example.

In this embodiment, through setting up the massage waistband to including main part 50, screens structure 20 and dress waistband 10 to screens structure 20 and the end connection of supporting part 51, wear waistband 10 and wear in human waist, massage structure 52 during operation, the massage structure 52 pushes up in human waist or belly, the generated reaction force of massage passes through supporting part 51 and transmits screens structure 20, screens structure 20 card is located the hip joint department of waist, and screens structure 20 passes directly to the hip joint with the strength that supporting part 51 transmitted, avoid too much and pass through wearing waistband 10 and transmit to waist (the side opposite to the belly) or belly, thereby avoid wearing waistband 10 to tighten belly or waist (the side opposite to the belly), so be favorable to improving the travelling comfort of user's use massage waistband, improve user experience.

In some embodiments, to further improve wearing comfort of the massage belt, the number of the clamping structures 20 is two, the two clamping structures 20 are respectively mounted at two ends of the supporting portion 51, and the two clamping structures 20 are configured to be respectively clamped on the left hip joint and the right hip joint of the human body. Thus, the two clamping structures 20 are respectively clamped on the left hip joint and the right hip joint, when the waist is massaged, the pulling force generated by the main body part 50 due to extrusion is transmitted to the left hip joint and the right hip joint through the clamping structures 20, and the mutual pulling force is formed between the two clamping structures 20, so that the clamping structures 20 can be better clamped at the hip joints, and the force transmitted to the wearing waistband 10 (the part corresponding to the abdomen) is greatly reduced, so that only a small amount of force is transmitted to the wearing waistband 10 of the abdomen. Also, when massaging the abdomen, the force transmitted to the wearing waistband 10 (the portion corresponding to the waist) can be greatly reduced.

In some embodiments, in order to improve the skin-contacting effect of the massage belt and the human body, the supporting portion 51 is a flexible supporting portion 51; and/or the whole shape of the supporting portion 51 is flat. Specifically, in this embodiment, the supporting portion 51 is a flexible supporting portion 51, and the supporting portion with flexibility can be deformed (can be elastically deformed) in response to the waist shape and the abdomen shape, so that the massaging structure 52 mounted on the supporting portion 51 can better squeeze the waist or the abdomen, which is beneficial to improving the squeezing massaging effect.

Referring to fig. 8-22, in some embodiments, to enhance the detent effect and detent comfort of the detent structure 20, the skin proximal side of the detent structure 20 has an arcuate concave surface 527, the arcuate concave surface 527 being configured for being snapped onto a hip joint of a human body; and/or, the massage waistband comprises a flexible decorative cover 510, wherein the decorative cover 510 is covered on the skin-proximal side of the clamping structure 20. Specifically, in this embodiment, the arc concave surface 527 on the skin proximal side of the clamping structure 20 extends along the length direction of the clamping structure 20, so that the arc concave surface 527 partially surrounds the hip joint, and the arc concave surface 527 can better fit with the skin at the hip joint, so that the clamping structure 20 can be better buckled at the position of the hip joint. The flexible decorative cover 510 may be made of various materials, such as cotton and wool fabric, sponge, foam, etc., when the clamping structure 20 is clamped at the position of the hip joint, the flexible decorative cover 510 is attached to the skin, and buffers the extrusion force of the clamping structure 20, so that the skin of a human body is more comfortable, and the stress is more uniform. Thus, the flexible decorative cover 510 can improve the comfort of the massage waistband, and the massage waistband is more beautiful and elegant. In some embodiments, to further enhance the comfort of the engagement of the detent structure 20 with the hip joint, the detent structure 20 has a snap face with a flexible bumper 560 disposed between the snap face and the cosmetic cover 510. The form of the engagement surface may be varied, such as a flat surface, a curved surface, etc., as exemplified by the curved concave surface 527 mentioned in the above embodiments. The buffer 560 may take many forms, and may be in the form of a block, a sheet, a bar, etc., and is not particularly limited herein, and is exemplified as a sheet-like arrangement. The material of the buffer 560 may be a wide variety of materials, such as cotton, sponge, foam, rubber, silica gel, etc., for example, sponge. The buffer 560 is encapsulated between the skin proximal side of the latch 20 and the cosmetic cover 510 such that the compressive force experienced by the latch 20 is transferred to the cosmetic cover 510 after being buffered by the buffer 560. In this way, the flexible buffer 560 can buffer the pressing force of the clamping structure 20 during operation, reduce the pressing force on the hip joint position, and make the pressing force on the hip joint position more uniform.

There are many specific forms of the detent structure 20, and examples are described below. The clamping structure 20 comprises a hard mounting shell 520 and a mounting frame 530, wherein the mounting shell 520 and the mounting frame 530 are connected to enclose a limiting cavity, and the limiting cavity is provided with an orifice communicated with the outside of the limiting cavity; the end of the supporting portion 51 is provided with a limiting block 330, and the limiting block 330 is installed in the limiting cavity and is connected with the supporting portion 51 outside the limiting cavity through the cavity opening.

Specifically, in this embodiment, the mounting case 520 and the mounting frame 530 may take many forms, and the mounting case 520 includes a fastening portion 522 and a skirt 523 extending from an edge of the fastening portion 522 to one side of the fastening portion 522, as will be described in detail below. The mounting frame 530 includes a supporting substrate 533, and a limit rib 535 disposed on the supporting substrate 533, where the limit rib 535 is disposed corresponding to a free end of the skirt 523; the free end of skirt 523 abuts against support base plate 533, and the inner side wall of skirt 523 adjacent to the bottom thereof is adjacent to the side wall of stopper rib 535. The shape of the limiting cavity formed by the enclosing of the mounting shell 520 and the mounting frame 530 may be many, and may be adjusted according to specific situations and forms, and the limiting block 330 may be mounted as an example. The shape of the stopper 330 may be any of a wide variety of shapes, such as a cuboid-like block, a square-like block, a spherical block, and some other shape, and is not particularly limited herein, and is exemplified as a shape equivalent to that of the stopper cavity. Of course, in some embodiments, the stopper 330 may be elastic or flexible, and the difference between the shapes of the stopper 330 and the stopper cavity may be allowed to be larger, so as to ensure that the stopper 330 is stably and reliably installed in the stopper cavity. The thickness of the stopper 330 may be greater than that of other positions of the supporting portion 51, so that the stopper 330 may be better located in the limiting cavity. The support portion 51 is in a flat waist-like shape and includes a central mounting portion and stop blocks 330 at both ends of the mounting portion (for mounting the massage structure 52), although in some embodiments, there may be a connecting section between the mounting portion and the stop bumps. The limiting block 330 is installed in the limiting cavity, and the connecting section extends out of the limiting cavity from the inside of the limiting cavity and is connected with the assembling part. In this way, the support 51 can be connected to the latching structure 20 very stably and reliably. In some embodiments, the detent mechanism further includes a cosmetic housing 550, the cosmetic housing 550 being mounted to a side of the support frame 530 opposite the mounting housing 520. There are many ways to mate the decorative shell 550 with the mounting frame 530, for example, a snap-fit connection.

In some embodiments, to improve the mounting stability of the decorative cover 510 and the detent structure 20, the massage belt further includes a flexible decorative cover 510, the decorative cover 510 includes a cover body 511 and a wrapping flange 512 disposed at an edge of the cover body 511, the cover body 511 is covered on an outer surface of the mounting shell 520, and the wrapping flange 512 extends to an inner surface of the mounting shell 520, so that the wrapping flange 512 wraps the edge of the mounting shell 520. In this way, the decorative cover 510 can cover the skin-proximal side of the whole mounting shell 520, and the connection area between the decorative cover 510 and the mounting shell 520 can be increased by wrapping the flange 512, so as to improve the connection strength.

The cladding flange 512 has different matching due to different structures corresponding to the edges of the mounting shell 520, and the matching manner of the edges of the mounting shell 520 at different positions and the cladding flange 512 is described below.

The side surface of the wrapping flange 512, which is located at the cavity opening and is opposite to the inner side wall of the mounting shell 520, is attached to the surface of the limiting block 330, so that the mounting shell 520 and the limiting block 330 clamp the wrapping flange 512 at the cavity opening; and/or, an adhesive layer is disposed between the wrapping flange 512 and the outer side wall and/or the outer side wall of the mounting case 520. In this embodiment, the wrapping flange 512 is located inside the mounting shell 520 (in the limiting cavity), and a side surface of the wrapping flange 512 facing away from the inner sidewall of the mounting shell 520 faces the mounting shell 520. The limiting block 330 is located in the limiting cavity, and the wrapping flange 512 is clamped by the mounting shell 520 (the part at the cavity opening is also the inner side wall of the limiting cavity) and the limiting block 330, and due to the flexibility or elasticity of the wrapping flange 512, the mounting shell 520 and the limiting block 330 can be matched with a certain pretightening force, so that the mounting shell 520 and the limiting block 330 can be matched more compactly and reliably. Of course, in some embodiments, in order to further increase the stability of the fit of the mounting shell 520 with the trim cover 510, a glue layer may be provided between the cladding flange 512 and the inner side wall of the mounting shell 520 to glue the cladding flange 512 with the mounting shell 520.

When the mounting case 520 has the skirt 523, the mounting case 520 is connected to the wrapping flange 512, and the mounting case 520 includes the engagement portion 522 and the skirt 523 extending from the edge of the engagement portion 522 to one side of the engagement portion 522, and the inner wall of the skirt 523 is provided with the escape groove 525; the cladding flange 512 coats at least a portion of the free end of the skirt 523, and a portion of the cladding flange 512 extending to the inner side wall of the skirt 523 is disposed in the escape groove 525. In this embodiment, the inner side wall of the skirt 523 is provided with the avoiding groove 525, so that the thickness of the assembled cladding flange 512 can be reduced, and meanwhile, the cladding flange 512 is limited, which is beneficial to improving the connection stability of the cladding flange 512.

In some embodiments, to improve the mounting stability of the stopper 330, the overall shape of the buckling portion 522 is concave arc, and the buckling portion 522 is in arc transition connection with the skirt 523, so as to form a transition connection 526 at the connection between the buckling portion 522 and the skirt 523; a limiting step 331 is formed at a position of the end of the supporting portion 51 adjacent to the limiting block 330, and the transitional connecting portion 526 at the cavity opening is buckled on the limiting step 331. In this embodiment, the transition connecting portion 526 is arc-shaped, the surface of the limiting step 331 is an arc-shaped surface, and the inner side wall of the transition connecting portion 526 is attached to the surface of the limiting step 331, so that the transition connecting portion 526 is partially wrapped on the limiting step 331 (the buckle is arranged on the limiting step 331), and the transition connecting portion 526 can be well buckled on the limiting block 330, so that the installation of the limiting block 330 is very stable.

At other positions of the free end of the skirt 523 (the end far from the buckling part 522), the mounting frame 530 includes a supporting base plate 533 and a limit rib 535 disposed on the supporting base plate 533, the limit rib 535 being disposed corresponding to the free end of the skirt 523; the free end of the skirt 523 abuts against the supporting base plate 533, and the inner side wall of the skirt 523 adjacent to the bottom thereof is close to the side wall of the limit rib 535, so that the part of the cladding flange 512 corresponding to the end and the inner side wall of the skirt 523 is clamped. In this embodiment, the spacing rib 535 is disposed adjacent to the edge of the supporting substrate 533, and a mounting area is reserved between the spacing rib 535 and the edge of the supporting substrate 533, and the mounting area is used for the end face of the skirt 523 away from the buckling portion 522 to abut. After the cladding flange 512 is wrapped around the free end of the skirt 523, the inner side wall of the skirt 523 adjacent to the free end is close to the outer side wall of the limit rib 535 (the inner side wall of the limit rib 535 faces the middle of the supporting substrate 533, and the outer side wall of the limit rib 535 faces the edge of the supporting substrate 533), so that the cladding flange 512 is clamped between the inner side wall and the outer side wall of the limit rib 535, and the stability of the cladding flange 512 is improved. The end face of the free end of the skirt 523 is close to the mounting area, so that the cladding flange 512 is clamped between the end face and the mounting area, and the stability of the cladding flange 512 is improved.

The mounting housing 520 is coupled to the mounting frame 530 in a number of ways, such as by snap-fit coupling, by screw fasteners, by adhesive coupling, etc., as will be described by way of example. The mounting frame 530 includes a supporting base plate 533, on which mounting posts 537 extending in the direction of the mounting case 520 are provided; the mounting case 520 is provided with a connection post 528 corresponding to the mounting post 537, and the mounting post 537 is connected to the connection post 528. In this embodiment, the mounting post 537 and the connecting post 528 may be connected by a fastener, or may be mutually inserted, or the like, and are not particularly limited herein. The mounting post 537 may be separately provided and connected to the mounting case 520, or may be integrally injection molded, and the connection post 528 may be separately provided and connected to the mounting frame 530, or may be integrally injection molded. The mounting housing 520 is connected to the mounting frame 530 by the connection of the mounting posts 537 and the connection posts 528. In this way, a sufficient and stable chamber between the mounting case 520 and the mounting frame 530 for component mounting can be ensured.

Specific connection modes of the mounting post 537 and the connection post 528 are exemplified below, the connection post 528 having a connection hole extending in the rectangular direction thereof; the mounting post 537 has a mounting hole penetrating along the length direction of the mounting post 537, and the supporting substrate 533 is provided with a mounting hole 536 corresponding to the mounting hole, so that the mounting hole 536 is communicated with the mounting hole; the assembly opening 536 penetrates through the plate surface of the support substrate 533 to form an assembly position on the plate surface of the support substrate 533 opposite to the mounting post 537, and the aperture of the assembly opening 536 is larger than the aperture of the assembly hole. By penetrating the assembly opening 536 through the supporting substrate 533, the assembly opening 536 is exposed out of the supporting substrate 533 opposite to the board surface of the mounting case 520, so that a loose operation space is provided for an operator. More specifically, the mounting post 537 and the connecting post 528 are connected by a fastener, which may have internal threads disposed within the fitting opening 536, with one end of the fastener extending through the fitting opening 536 and into the threaded connection within the fitting aperture.

The massage structure 52 may have various forms, and the massage structure 52 includes the massage members 210 for illustration. Specifically, the massage structure 52 includes a massage member 210, the massage member 210 includes an air bag body and a massage air bag 215, the air bag body has a connection air passage 213 and a vent hole 21e, one end of the connection air passage 213 is communicated with the outside of the air passage plate 212, and the other end is communicated with the vent hole 21 e; the massage airbag 215 is mounted on the airbag body corresponding to the vent hole 21e, and is communicated with the connecting air path 213 through the vent hole 21 e. Specifically, in this embodiment, the airbag body may take many forms, for example, the airbag body may be an air bag, and a large amount of air may be stored in the airbag body and swelled along with the inflation process, and contracted along with the exhaust process, and the connecting air path 213 may be an internal space of the air bag through which air can pass. In other embodiments, the airbag body may also be the gas panel 212, where the airbag body is unable to store large amounts of gas and its volume does not change significantly with the inflation and deflation process. The connecting gas path 213 is a gas channel and extends along the plate surface of the gas path plate 212. The massage air bag 215 can be in various forms, and can be an integral air bag or formed by splicing a plurality of films. The massage balloon 215 may be one balloon or may be a laminate of a plurality of balloons. The following examples are illustrative.

Regarding the massage air bag 215, specifically, the massage air bag 215 includes a first massage membrane 216 and a second massage membrane 217, where an edge of the first massage membrane 216 is attached to an edge of the second massage membrane 217, so that the first massage membrane 216 and the second massage membrane 217 enclose to form a first massage cavity, a first air inlet is formed on the first massage membrane 216, and the first air inlet is communicated with the first massage cavity; the back skin side of the first massage membrane 216 is connected to the skin-proximal side of the air board 212, and the first air inlet is disposed corresponding to the air vent 21e, so that the first massage cavity is communicated with the connecting air channel 213 through the first air inlet and the air vent 21 e. In some embodiments, the massage air bag 215 has two massage cavities, the massage air bag 215 further includes a third massage film 218 and a fourth massage film, the edge of the third massage film 218 is attached to the edge of the fourth massage film 219, so that the third massage film 218 and the fourth massage film 219 enclose to form a second massage cavity, a second air inlet is opened in the middle of the third massage film 218, and the second air inlet is communicated with the second massage cavity; a first air outlet is formed in the middle of the two massage diaphragms, and the middle of the second massage diaphragm 217 is connected with the middle of the third diaphragm so that the first air outlet is communicated with the second air inlet; the second diaphragm is arranged in a stacked manner with the third diaphragm such that the second massage chamber and the first massage chamber are arranged in a stacked manner. It should be noted that the shapes of the first massage membrane 216, the second massage membrane 217, the third massage membrane 218 and the fourth massage membrane 219 may be many, such as square, rectangle, triangle, regular polygon, etc., and are not limited thereto, and only the edges of the membranes need to be connected to form a massage cavity, and a circular shape is taken as an example. The first massage membrane 216 and the air bag body are connected in a plurality of ways, and can be integrally formed with the air bag body, and can be adhered by glue or be installed on the air bag body in a hot melting way. Similarly, the connection between the second massage film sheet 217 and the first massage film sheet 216, the connection between the third massage film sheet 218 and the second massage film sheet 217, and the connection between the fourth massage film sheet 219 and the third massage film sheet 218 may be adhesive connection, thermal fusion welding, or the like.

When only the first massage cavity is formed, air is filled into the air bag body, and the air enters the first massage cavity through the connecting air channel 213, so that the first massage cavity surrounded by the first massage membrane 216 and the second massage membrane 217 is inflated and swelled, and the massage air bag 215 extends in a direction away from the air bag body to output extrusion. When the massage air bag 215 has the first massage cavity and the second massage cavity, air is filled into the air bag body, and the air enters the first massage cavity and the second massage cavity through the connecting air passage 213, so that the first massage cavity and the second massage cavity are inflated and swelled, and the massage air bag 215 is stretched in a direction away from the air bag body to output extrusion. The bulge of the massage balloon 215 can directly output the squeeze massage to the human body. In some embodiments, the massage assembly 30 may further include a massage head 130, where the massage head 130 outputs a squeeze massage to the human body, and the massage head 130 may be a flexible massage head 130, a hard massage head 130, an elastic massage head 130, or the like.

The massage device 210 will be described in detail below with reference to fig. 3 to 5 and fig. 23 to 30, taking the massage device 210 including the air channel plate 212 as an example.

A massage 210, comprising:

The air circuit board 212, a plurality of connecting air circuits 213 and vent holes 21e are formed on the air circuit board 212, the plurality of connecting air circuits 213 are independent from each other, the connecting air circuits 213 are provided with air inlet ports 21f, the air inlet ports 21f are configured to be communicated with the outside of the air circuit board 212, and the vent holes 21e are communicated with the connecting air circuits 213;

the massage air bag 215 is mounted on the air passage plate 212 corresponding to the air hole 21e, and the massage air bag 215 is communicated with the connecting air passage 213 through the air hole 21 e.

Specifically, in this embodiment, the gas circuit board 212 may have various forms, and in some embodiments, the gas circuit board 212 may expand by a certain volume when being inflated with gas; in other embodiments, the gas panel 212 does not change significantly in volume when inflated, leaving the volume substantially unchanged; of course, in some embodiments, it is also possible that some portions of the air panel 212 expand significantly after inflation, and other portions remain substantially unchanged. The overall shape of the air plate 212 may be any of rectangle, square, oval, round, waist, etc. to fit the desired shape of the massage device, and is not particularly limited herein.

The air circuit board 212 is a flexible air circuit board 212, and the air circuit board 212 can be an integrally formed flexible plastic board or plastic film, or can be formed by laminating and matching a plurality of flexible plastic films or plastic sheets. The following description will be given by taking an example in which the air circuit board 212 is formed by laminating films.

The air circuit board 212 includes a flexible first membrane and a second membrane, a first side surface of the first membrane has a first connection portion, a second side surface of the second membrane has a second connection portion corresponding to the first connection portion, and the first connection portion and the second connection portion are connected together to form a plurality of connection air circuits 213. The first membrane and the second membrane are flexible plastic membranes and are arranged in a lamination mode. The first membrane and the second membrane may be connected in a number of ways, such as by adhesive connection. The first side of the first membrane is attached to the second side of the second membrane, the first side faces the second membrane, and the second side faces the first membrane. The first connecting portion and the second connecting portion may have a plurality of forms, such as a boss, a groove, or a plane, and only need to be connected to each other by gluing, and the connecting air path 213 may be formed. In this embodiment, the first side and the second side are bonded, and an adhesive layer is disposed between the first side and the second side except for the position where the connection air path 213 and the vent hole 21e are formed. The first side and the second side are attached to each other, so that the entire outer side of the massage member 210 is flexible plate-shaped. Wherein, the vent hole 21e is formed on the first membrane, and the vent hole 21e penetrates through the first membrane to communicate with the connecting air passage 213. In this way, the air flow can flow to the vent hole 21e through the connection air path 213, and then enter the massage airbag 215 through the vent hole 21 e. So that the air outside the massage 210 can enter the massage air bag 215 through the connection air path 213, and the massage air bag 215 is inflated to output the extrusion.

The number of the connecting air channels 213 is plural, and each connecting air channel 213 is independent, so that the massage air bag 215 corresponding to each air channel can be controlled independently. That is, the working states (swelling or shrinking) of the massage air bags 215 on the same connection air path 213 can be consistent, and the working states (swelling or shrinking) of the massage air bags 215 on different connection air paths 213 are not interfered with each other. The connecting air path 213 may extend along the length direction of the air path board 212, may extend along the width direction of the air path board 212, and may also bend and extend on the air path board 212 according to actual requirements. In this embodiment, according to the arrangement of the massage air bags 215, the specific extending direction of the connection air channels 213 is set, so that the connection air channels 213 can provide air inlet/outlet channels for the massage air bags 215.

In this embodiment, by arranging the massage member 210 to include the air circuit board 212 and the plurality of massage air bags 215, the air circuit board 212 has the connection air circuit 213 and the air holes 21e, and the massage air bags 215 are mounted on the air circuit board 212 corresponding to the air holes 21e, so that the massage air bags 215 are communicated with the outside of the air circuit board 212 through the air holes 21e and the connection air circuit 213, and in the working process of the massage member 210, the plurality of massage air bags 215 bulge or shrink independently according to the ventilation condition of the corresponding connection air circuit 213; thus, when the corresponding massage air bags 215 are required to work, the massage piece 210 in this embodiment only needs to control the air flow condition of the corresponding connection air channels 213, and does not need to set a complex connection air pipe, so that the structure of the massage piece 210 is greatly simplified, and the stability of the work of the massage air bags 215 is improved.

In different embodiments, the number of the massage air bags 215 on each connection air passage 213 may be set according to actual requirements, and in this embodiment, in order to achieve both the inflation efficiency and the inflation effect, each connection air passage 213 is at least provided with two air holes 21e arranged at intervals, and two massage air bags 215 are provided corresponding to the two air holes 21e, so that the two massage air bags 215 are connected to the same connection air passage 213. That is, at least two massage air bags 215 are disposed on each connection air path 213, so that at least two massage air bags 215 can be simultaneously controlled by controlling the air supply condition of any connection air path 213.

Regarding the distribution of the massage air cells 215 on the same air passage, there may be many ways, for example, the same end in the length direction of the distribution air passage plate 212; or, distributed on the same side in the width direction of the air path plate 212; or on opposite sides (on the same plate surface) of the air path plate 212 in the width direction. In the following, two massage air bags 215 on the same connection air path 213 are distributed at both ends in the longitudinal direction of the air path plate 212. The air circuit board 212 is divided into a first massage area and a second massage area along the middle part of the length direction; the connecting air path 213 extends along the length direction of the air path plate 212 and extends from the first massage area to the second massage area; the two massage air bags 215 are respectively positioned at the first massage area and the second massage area. In this embodiment, the air circuit board 212 is divided into a first massage area and a second massage area along the length direction, and the specific division modes of the first massage area and the second massage area are various, for example, the middle line in the length direction can be used as a boundary, and the middle area can be used as a boundary. Alternatively, the connecting air channel 213 extends along the length direction of the air channel plate 212, and extends from one end of the air channel plate 212 to the other end of the air channel plate 212 through the middle of the air channel plate 212 in the length direction; the two massage air bags 215 are distributed at two ends of the air circuit board 212. That is, in this embodiment, two massage air bags 215 on the same connection air path 213 are arranged at intervals and distributed on two portions of the air path plate 212 in the length direction. Thus, two massage air bags 215 corresponding to any connecting air passage 213 can simultaneously output extrusion massage to two parts of the air passage plate 212. In some embodiments, the two massage air bags 215 located on the same connection air path 213 in the first massage area and the second massage area are symmetrical with respect to a middle position in the length direction of the air path plate 212. So, can make the massage position of even massage gasbag 215 on the same gas circuit more accurate, when wearing the massage waistband in human waist, the middle part of gas circuit board 212 is corresponding with human backbone, and at this moment, two massage gasbags 215 on the same connection gas circuit 213 are symmetrical about the backbone, so for two massage gasbags 215 on the same connection gas circuit 213 export extrusion massage simultaneously to the position of human waist about the backbone symmetry, make the position of human backbone bilateral symmetry can enjoy extrusion massage simultaneously, thereby be favorable to improving user's use experience.

In some embodiments, in order to provide a more comprehensive massage for the waist of the user, the number of the massage air bags 215 is plural, and the massage air bags 215 are arranged in plural air bag columns, and the plural air bag columns are arranged along the length direction of the air circuit board 212; the air bag columns are arranged in any one of straight lines, oblique lines, fold lines and arcs along the width direction of the air circuit board 212. In this embodiment, the plurality of massage air bags 215 are arranged along the width direction of the air path plate 212 to form an air bag column, and the arrangement form of the air bag column can be selected according to specific situations, and in some embodiments, in order to meet the current working condition or design requirement, various air bag column combinations can be selected. Through arranging a plurality of massage air bags 215 to be a plurality of gasbag rows for massage air bag 215 can be comparatively symmetrical be covered with gas circuit board 212, and during the massage, a plurality of massage air bags 215 can cover human whole waist, can comprehensive (can work simultaneously, also can work in groups) massage the acupuncture point of waist.

In some embodiments, in order to improve the inflation efficiency of the massage airbag 215, the air inlet ports 21f of the plurality of connection air channels 213 are distributed at opposite ends of the air channel plate 212. In this embodiment, one or more air inlet ports 21f connected to the air path 213 are disposed at both ends of the air path plate 212. On the one hand, the ports connected with the air channels 213 are distributed in a dispersed manner, so that the control valve 630 mechanism at the same end is prevented from being too complex, the control valve 630 is favorably arranged separately, and the space at the two ends of the air channel plate 212 is fully and reasonably utilized. On the other hand, the connecting air channel 213 and the massaging air bag 215 are both arranged on the air flow plate, and the area of the massaging air bag 215 is larger than the transverse size of the connecting air channel 213, so that the connecting air channel 213 needs to avoid the bending extension of the massaging air bag 215, and the air inlet ports 21f of the connecting air channel 213 are distributed at the two ends of the air flow plate 212, so that the starting position of the connecting air channel 213 has more choices, which is beneficial to optimizing the connecting air channel 213 and reducing the bending of the connecting air channel 213.

In some embodiments, in order to improve the massage effect, the present application also proposes a massage assembly 30, the massage assembly 30 including a gas storage balloon 220 and a massage member 210; one side of the massage 210 is abutted with the air storage airbag 220 so that the massage 210 can be lifted up as the air storage airbag 220 inflates. Specifically, the air storage bag 220 has a inflated state and a deflated state; one side of the massage member 210 is abutted against the air storage air bag 220, so that the massage member 210 has a massage station and an idle station, the massage member 210 is positioned at the massage station in a raised state of the air storage air bag 220, and the massage member 210 is positioned at the idle station in a contracted state of the air storage air bag 220. Alternatively, in some embodiments, to enhance the massage experience, the massage structure 52 further includes a gas reservoir bladder 220, the gas reservoir bladder 220 having a receiving cavity for receiving a gas; the back skin side of the air bag body abuts against the near skin side of the air storage air bag 220 so that the air bag body has a displacement to move away from the back skin side of the support portion 51 in the process of switching the air storage air bag 220 from the contracted state to the inflated state. It should be noted that, in the process of lifting up the massage member 210 or in the state of having completed lifting up, the massage member 210 is closer to the waist of the human body, so that the massage air bag 215 can press and massage the waist of the human body or press and massage the waist of the human body against the massage head 130 with a smaller stroke. The massage position and the idle position of the massage 210 only indicate whether the massage balloon 215 is lifted by the air storage balloon 220, and do not represent the current actual working state of the massage 210. In some embodiments, in order to increase the inflation speed of the massage airbag 215 and the air compression degree in the inflated massage airbag 215 (the higher the air compression degree, i.e. the more compressed the air is, the more "hard" the massage airbag 215 is, the better the outward output compression is), the massage assembly 30 further includes a control valve 630, the air storage airbag 220 is in communication with the air inlet of the control valve 630 through an air pipe, and the port of the connecting air channel 213 away from the massage airbag 215 is in communication with the air outlet 637 of the control valve 630, so that the air in the air storage airbag 220 can enter the massage airbag 215 through the control valve 630. That is, in the present embodiment, the air in the air storage airbag 220 may enter the massage airbag 215 through the pipe and the control valve 630. Specifically, when the massage air bag 215 needs to be inflated for massage, the air pump 621 inflates the air storage air bag 220, and after the air storage air bag 220 bulges, the control valve 630 is opened, so that the air pumped by the air pump 621 and the air in the air storage air bag 220 can enter the connecting air passage 213 through the air inlet port 21f of the connecting air passage 213 and then enter the massage air bag 215 through the connecting air passage 213. That is, in the process of inflating the massage airbag 215, the air storage airbag 220 and the air pump 621 may co-act and simultaneously inflate the massage airbag 215, so that the massage airbag 215 may be rapidly jacked up.

The present application further proposes a massaging device comprising a support 300 and a massaging element 210; the air board 212 of the massage member 210 is mounted on the skin proximal side 312 of the support member 300; so that the reaction force generated when the massage air bag 215 of the massage member 210 massages can be transmitted to the support member 300. Alternatively, the massage device includes a support 300 and a massage assembly 30; the air reservoir 220 of the massage assembly 30 is mounted to the skin proximal side 312 of the support member 300, and the massage member 210 is disposed on the side of the air reservoir 220 facing away from the support member 300. The specific structure of the massaging element 210 and the massaging assembly 30 will not be described herein with reference to other embodiments.

Referring to fig. 3-5, in some embodiments, for a massage experience, the present application also discloses a massage assembly 30 comprising:

a gas storage airbag 220, the gas storage airbag 220 having a receiving chamber for receiving a gas;

a massage member 210, the massage member 210 comprising:

the gas circuit board 212, a connecting gas circuit 213 and a vent hole 21e are formed on the gas circuit board 212, one end of the connecting gas circuit 213 is communicated with the vent hole 21e, and the other end is communicated with the outside of the gas circuit board 212 so that gas can enter the connecting gas circuit 213;

A massage air bag 215, wherein the massage air bag 215 is mounted on the air passage plate 212 corresponding to the air vent 21e, and the massage air bag 215 is communicated with the connecting air passage 213 through the air vent 21 e;

the side of the air channel plate 212 facing away from the massage air bag 215 is abutted against the air storage air bag 220, so that the air channel plate 212 is jacked up along with the inflation of the air storage air bag 220.

Specifically, in this embodiment, the air storage airbag 220 has a plate shape in the overall shape in the contracted state, the air passage plate 212 is disposed in parallel with the air storage airbag 220, and the skin-proximal side of the air storage airbag 220 is attached to the skin-back side (the side facing away from the massage airbag 215) of the air passage plate 212. There may be many cases where the two opposing sides are bonded together, for example, they may be completely bonded together or partially bonded together. In some embodiments, in order to improve the stability of the relative positions of the gas panel 212 and the gas storage airbag 220, the gas panel 212 and the gas storage airbag 220 may be connected together, so that when the gas storage airbag 220 bulges, the relative positions of the gas storage airbag 220 and the gas panel 212 may still be maintained, so that the gas panel 212 has better stability when being jacked up. The air storage bag 220 and the air passage plate 212 are connected in a plurality of ways, such as by magnetic attraction, fastening connection such as snap connection, screw connection, etc., and are not limited in particular herein, in this embodiment, the two are connected by gluing. An adhesive layer is disposed between at least a portion of the skin-proximal side of the air reservoir 220 and the skin-dorsal side of the air panel 212. The area of the adhesive layer may be set according to actual conditions, and is not particularly limited here. The specific structure of the massaging element 210 in this embodiment may refer to other embodiments of the present application, and is not limited herein.

The air storage bag 220 may have various structural forms, for example, the air storage bag 220 is formed by enclosing a whole piece of film, or may be formed by combining two layers of films (lamination, at least edge sealing connection), or may be formed by splicing multiple pieces of film (lamination and/or transverse splicing). The following description will take an example in which the air storage airbag 220 includes two laminated films.

Specifically, the air storage bladder 220 includes a skin-proximal membrane and a skin-back membrane, and the edge of the skin-proximal membrane and the edge of the skin-back membrane are connected to form an edge joint; the skin-proximal membrane is provided with a first connecting part on one side facing the skin-proximal membrane, the skin-proximal membrane is provided with a second connecting part corresponding to the first connecting part on one side facing the skin-proximal membrane, and the first connecting part and the second connecting part are connected together to form an inner connecting part, and the inner connecting part is positioned on the inner side of the edge connecting part. In this embodiment, the edges of the skin-proximal membrane and the skin-dorsal membrane are connected to form an annular edge-engaging portion, and when the air storage bladder 220 is inflated, the air storage bladder 220 may bulge with the edge as a boundary. Simultaneously, the first connecting part on the skin-approaching membrane and the second connecting part on the back skin membrane are connected to form an inner connecting part, and the inner connecting part is positioned in the area surrounded by the outer connecting part. So for near skin diaphragm and the middle part of back skin diaphragm also have the position of connection, so, when making in the gas storage gasbag 220 aerify, can not make the phenomenon that gas storage gasbag 220 wholly buckle because of the uneven etc. reason of the thickness of near skin diaphragm or back skin diaphragm, through setting up limit joint portion and interior joint portion simultaneously, can prevent that gas storage gasbag 220 from taking place deformation in the inflation process, be favorable to improving the holistic roughness of gas storage gasbag 220. It is worth noting that in some embodiments, the skin proximal membrane and the skin back membrane may be integrally formed.

The number of the inner combining parts can be one or a plurality of, when the number of the inner combining parts is one, the positions of the inner combining parts can be the middle parts of the skin-approaching membrane and the skin-backing membrane, and when the number of the inner combining parts is a plurality of, the inner combining parts can be arranged in a plurality of ways. Specifically, the number of the inner bonding parts is plural, and the plurality of inner bonding parts are arranged at intervals along the length direction and/or the width direction of the air storage bag 220. In this way, the plurality of inner joint portions are arranged in the air storage air bag 220, so that the plurality of positions in the middle of the air storage air bag 220 are connected with each other, the situation that the air storage air bag 220 deforms after being inflated is further avoided, and the flatness of the air storage air bag 220 after being inflated is further improved.

In this embodiment, by arranging the massage assembly 30 to include the air storage airbag 220 and the massage member 210, where the air channel plate 212 abuts against the air storage airbag 220, so that the air channel plate 212 is jacked up along with the inflation of the air storage airbag 220, in this process, the massage airbag 215 can be inflated through the connection air channel 213 on the air channel plate 212, at this time, the massage airbag 215 is jacked up along with the air channel plate 212 by the air storage airbag 220, and simultaneously, the massage airbag 215 is inflated along with the inflation of air, so that the actual stroke of the outward movement of the free end of the massage airbag 215 is the sum of the movement displacement of the air channel plate 212 (the jacking movement of the air storage airbag 220) and the displacement generated by the inflation of the massage airbag 215, so that the actual displacement distance of the massage airbag 215 can be greatly increased, which is beneficial to the outward output of extrusion with a longer stroke, and is beneficial to the improvement of the massage effect; meanwhile, the air storage air bag 220 can integrally output displacement to the waist, so that the distance between the air storage air bag 220 and the waist is closer, the waist is wrapped and supported, and the massage experience of a user is improved.

In some embodiments, the air storage airbag 220 needs to be mounted on the support 300 (for supporting the air storage airbag 220) in a number of ways, which may be screw-fastened, snap-fastened, glued, etc. In this embodiment, the air storage airbag 220 is used for illustration by a fastener. The edge joint portion is provided with a fastening hole configured for the installation of a fastener. The edge parts of the skin-approaching membrane and the skin-backing membrane are attached to form an edge joint part which is attached and sealed, and the edge joint part has a certain width. The edge joint portion is provided with a fastening hole penetrating therethrough, and the fastening hole is isolated from the internal cavity of the gas storage airbag 220. The fastener can be a screw, a spiral, a rivet, or the like, which can fasten the edge joint portion through the fastening hole. It should be noted that the fastener may be rigid or may be a part having a certain flexibility or elasticity.

In order to make the air storage airbag 220 bulge on one side of the massage airbag 215 when inflated, the formation of the massage airbag 215 is further improved, thereby further improving the massage effect. The massage assembly 30 further comprises a support 300 and a fastener, wherein the fastener is fixedly connected with the support 300 through the fastening hole, so that the air storage air bag 220 is fixedly installed on the skin-proximal side 312 of the support 300, and the air storage air bag 220 is fixedly arranged between the air circuit board 212 and the support 300. In this embodiment, the air storage airbag 220 is fixedly installed on the side of the support 300 facing the air path plate 212, that is, the air storage airbag 220 is disposed between the support 300 and the air path plate 212. The support 300 may be a hard support 300 or a flexible support 300, and may be flat, and for specific structure, reference may be made to the support 300 in other embodiments. In this way, the air storage airbag 220 faces the side of the support 300 during the inflation, and the force required to squeeze the support 300 to move or deform is large, so that the displacement produced by the expansion of the air storage airbag 220 during the inflation is the side of the massage airbag 215, which is beneficial to the larger displacement of the massage airbag 215.

It should be noted that, in some embodiments, in order to ensure the connection stability of the air storage airbag 220 with the support 300, the number of fastening holes is plural, and the plurality of fastening holes are arranged along the circumferential direction of the air storage airbag 220, so that the air storage airbag 220 can be stably mounted on the support 300. The gas storage air bag 220 is provided with a gas passing port 222, so that gas driven by the gas pump can enter the gas storage air bag 220, and the gas in the gas storage air bag 220 can be discharged through the gas passing port 222.

In some embodiments, to improve the inflation efficiency of the massage airbag 215, the massage assembly 30 further includes a control valve 630, the air storage airbag 220 is communicated with the air inlet of the control valve 630 through an air pipe, and the port of the connection air path 213 away from the massage airbag 215 is communicated with the air outlet 637 of the control valve 630, so that the air in the air storage airbag 220 can enter the massage airbag 215 through the control valve 630 and the connection air path 213. In this embodiment, the air storage air bag 220 is communicated with the air channel plate 212 by using an air pipe, so that the air in the air storage air bag 220 can enter the massage air bag 215, which is beneficial to the inflation of the air in the massage air bag 215. In some embodiments, the air pump 621 of the massage device also supplies air to the massage air bag 215 at the same time, so that the massage air bag 215 receives air supplied by the air pump 621 and the air storage air bag 220 at the same time, so that the massage air bag 215 can be inflated quickly and forcefully.

In some embodiments, to further improve the massage effect, the massage member 210 includes a plurality of massage air bags 215, where the plurality of massage air bags 215 are arranged in a plurality of air bag columns, and the plurality of air bag columns are arranged along the length direction of the air path plate 212; the air bag columns are arranged in any one of straight lines, oblique lines, fold lines and arcs along the width direction of the air circuit board 212. The massage assembly 30 further includes a support piece 310, the support piece 310 extending in the width direction of the support 300 corresponding to the air bag column; so that the reaction force generated when the massage airbag 215 massages can be transmitted to the support plate 310. In this embodiment, the shape of the supporting sheet 310 may be various, such as a long strip, a round shape, a direction, etc., and the shape of the supporting sheet is a long strip, and the specific shape is adapted to the shape of the air bag column, such as a straight line, a diagonal line, a fold line, an arc shape, etc. The support sheet 310 may be made of a hard material (e.g., sheet metal, hard plastic, etc.), or may be made of a soft material (e.g., soft plastic, silicone, etc.). A fitting groove is formed at a side of the support 300 facing away from the air storage bladder 220, and the support piece 310 may be installed in the fitting groove. By arranging the supporting pieces 310, when the massage airbag 215 outputs extrusion outwards through inflation, the generated reaction force is transmitted to the supporting pieces 310 through the supporting pieces 300, the supporting pieces 310 provide support, deformation of the supporting pieces 300 is reduced, and the massage airbag 215 has larger propping force and larger displacement. So that the massage assembly 30 can provide more powerful, in-place compression, which is advantageous for improving the massage effect. It should be noted that, by arranging the massage air bags 215 in a row, the support 300 is beneficial to bending deformation (with smaller resistance during bending deformation) in the length direction, and the massage air bags 215 are beneficial to being better close to the skin of the human body.

In some embodiments, in order to improve the massage effect of the massage assembly 30, the massage assembly 30 further includes a support 300 and a massage unit 150, wherein the support 300 is provided with a mounting hole 311, and the massage unit 150 is mounted in the mounting hole 311; the air storage balloon 220 has a first avoidance space 221, the massage member 210 has a second avoidance space 211, and the massage unit 150 is exposed to the skin proximal side of the massage member 210 through the first avoidance space 221 and the second avoidance space 211. In this embodiment, the massage unit 150 may be an electro-stimulation massage unit 150 or an optical stimulation massage unit 150. The mounting hole 311 may be provided in a very specific location, such as an end portion of the support 300, a side of the support 300, etc., and in this embodiment, the mounting hole 311 is located in the middle of the support 300 in the length direction. The number of the mounting holes 311 may be one or a plurality, and the plurality of mounting holes 311 may be arranged in the width direction of the support 300. The number of the first avoidance spaces 221 and the second avoidance spaces 211 corresponding to the mounting holes 311 may be plural. The first avoidance space 221 and the second avoidance space 211 may be provided in a hole shape, and may be provided in a notch shape in some embodiments. In this embodiment, the first avoiding space 221 near the side of the air storage bag 220 in the width direction is arranged in a notch shape, and the first avoiding space 221 located in the middle of the air storage bag 220 in the width direction is arranged in a hole shape; similarly, the second avoiding space 211 near the side in the width direction of the massage air bag 215 is provided in a notch shape, and the second avoiding space 211 located in the middle in the width direction of the massage air bag 215 is provided in a hole shape. In this embodiment, the massaging unit 150 can be stably mounted on the supporting member 300 through the mounting holes 311, the first letting space and the second avoiding space 211, so that a new massaging mode can be provided for the massaging assembly 30, and the mounting stability of the massaging unit 150 is improved.

In some embodiments, to ensure the jacking effect of the air storage airbag 220 on the massage airbag 215, the air storage airbag 220 covers the surface of the air passage plate 212 facing the air storage airbag 220, so that the surface of the air passage plate 212 can be fully jacked up by the air storage airbag 220. Alternatively, the length of the air storage bag 220 is greater than or equal to the length of the air circuit board 212; and/or, the width of the air storage bag 220 is greater than or equal to the width of the air circuit board 212. In this embodiment, the projection of the gas circuit board 212 projected onto the gas storage airbag 220 is located in the area covered by the gas storage airbag 220, and the area occupied by the gas storage airbag 220 in the transverse plane (the plane where the length and the width are located) is larger than the area of the board surface of the gas circuit board 212. In this way, it can be ensured that the massage airbag 215 can be completely lifted up by the air storage airbag 220.

The massage assembly 30 may be applied to a massage device, the massage device is a massage belt, the support 300 of the massage assembly 30 is arranged in a flat shape, and the air storage bag 220 and the massage member 210 of the massage assembly 30 are arranged in parallel with the support 300; the wearing part includes a wearing waistband 10, the wearing waistband 10 being configured to wear a waist of a human body.

Referring to fig. 3-5, and 23-34, in some embodiments, to improve the inflation efficiency of the massage airbag 215, the present application further proposes a massage assembly 30 comprising:

a massage 210, the massage 210 having a first air inlet port 21g and a first massage air bag 21c communicating with the first air inlet port 21 g;

a first control valve 631, wherein the first control valve 631 has a first air inlet 636 and a first air outlet 637, the first control valve 631 is used for controlling the on-off between the first air inlet 636 and the first air outlet 637, and the first air outlet 637 is communicated with the first air inlet 21 g;

a gas storage airbag 220, wherein the gas storage airbag 220 is provided with a containing cavity and a first gas passing port 223 communicated with the containing cavity;

the first air pump 622, the first air pump 622 has a first air outlet, and the first air outlet, the first air inlet 636, and the first air outlet 223 are mutually communicated.

Specifically, in the present embodiment, the first exhaust port of the first air pump 622 is in communication with the first air inlet 636 of the first control valve 631, and the first air outlet 637 of the first control valve 631 is in communication with the first air inlet port 21g of the massage 210, so that the air driven by the first air pump 622 can enter the massage 210 through the first control valve 631 and finally enter the first massage air bag 21 c. That is, the first air pump 622 may inflate the first massage air bladder 21c through the first control valve 631.

The first exhaust port of the first air pump 622 is communicated with the first air passing port 223, so that the air driven by the first air pump 622 can directly enter the air storage bag 220 to inflate the air storage bag 220.

The first gas passing port 223 communicates with the first gas inlet port 636 such that the gas within the gas outlet bladder may enter the massage 210 through the first control valve 631 and ultimately into the massage bladder 215. That is, the gas in the gas storage bladder 220 can be inflated into the first massage bladder 21c through the first control valve 631.

In this way, the first air pump 622 may charge the first massage air bag 21c and the air storage air bag 220 with air, and the air storage air bag 220 may charge the first massage air bag 21c with air. It should be noted that there are many ways of communicating the first exhaust port, the first air inlet 636 and the first air outlet 223, and in this embodiment, the communication is exemplified by the first tee.

During the massage, the first control valve 631 may be first closed so that the air driven by the first air pump 622 enters the air storage airbag 220. After the air storage bag 220 is full of air, the first control valve 631 is opened, and at this time, the air pressure in the first massage air bag 21c is the lowest, and the air driven by the first air pump 622 and the air in the air storage bag 220 enter the first massage air bag 21c through the first control valve 631, so that the first massage air bag 21c bulges rapidly.

In this embodiment, by directly communicating the first air pump 622 with the air storage bag 220 and communicating the first air pump 622 and the air storage bag 220 with the first massage air bag 21c through the first control valve 631, the first air pump 622 can selectively inflate the air storage bag 220 or simultaneously inflate the air storage bag 220 and the first massage air bag 21c, and the air storage bag 220 can also selectively inflate the first massage air bag 21 c; thus, during the operation of the massage assembly 30, the first control valve 631 is closed and the first air pump 622 is opened, so that the air driven by the first air pump 622 enters the air storage bag 220; after the air storage bag 220 is full of air, the first control valve 631 is opened, and at this time, the air pressure in the first massage air bag 21c is the lowest, and the air driven by the first air pump 622 and the air in the air storage bag 220 enter the first massage air bag 21c through the first control valve 631, so that the first massage air bag 21c bulges rapidly; in this way, the first massage air bag 21c can simultaneously receive the inflation of the first air pump 622 and the air storage air bag 220, thereby greatly increasing the inflation speed, and being beneficial to greatly improving the massage experience.

In some embodiments, in order to further improve the massage effect, a massage method may be formed, the massage member 210 has a plurality of first air inlet ports 21g, each of the first air inlet ports 21g is configured with a first massage air bag 21c communicated with the first air inlet port, and air paths corresponding to the first air inlet ports 21g are independent from each other; the first control valve 631 includes a first air intake pipe 635 and a plurality of first control units 633, the first control units 633 having the first air inlets and the first air outlets 637; the air inlet pipe 635 has a first air inlet 636 and communicates with the first air inlets of the plurality of first control units 633 to provide an air source for the plurality of first control units 633; the first air outlets 637 of the plurality of first control units 633 are configured to be respectively in communication with the plurality of first air inlet ports 21 g.

Specifically, in the present embodiment, the massaging member 210 has a plurality of connecting air channels 213, and each connecting air channel 213 is independent from the other. The first air inlet port 21g of each connecting air path 213 is communicated with the first air outlet 637 of one first control unit 633, and the other end of the connecting air path 213 is communicated with the first massage air bag 21c, so that each connecting air path 213 is controlled by one corresponding first control unit 633 to control the air supply condition. The number of the first massage air bags 21c on each connecting air passage 213 may be one or more, and may be appropriately adjusted under different working conditions and requirements, which is not particularly limited herein. The first control valve 631 includes a plurality of first control units and a first air intake pipe 635, and the first air intake pipe 635 communicates with the first air inlets of the plurality of first control units 633, so that the first air intake pipe 635 can simultaneously supply air to the plurality of first control units 633, in this embodiment, the first air intake pipe 635 communicates with the first air inlets of all the first control units 633. The first air inlet pipe 635 also has a first air inlet 636, the first air inlet 636 communicates with the first air inlet through the first air inlet pipe 635, the first air inlet 636 communicates with the first air outlet of the first air pump 622, and the first air inlet 636 also communicates with the first air outlet 223 of the air storage bag 220. In this way, both the first air pump 622 and the air storage airbag 220 can output air into the first massage airbag 21c through the first air inlet 636.

It should be noted that, in some embodiments, the air paths connecting the first air inlet port 21g and the first massage air bag 21c may not be independent, i.e. partially connected, or fully connected, to meet different working conditions or different massage strategies.

In some embodiments, to implement more different massage methods, the first massage air bag 21c needs to be rapidly inflated and rapidly exhausted, and the first control unit 633 further has a first venting port 638, where the first venting port 638 is configured to vent the medium air in the air path where the first control unit 633 is located. That is, in the present embodiment, the first control unit 633 has the first air leakage 638, and the air in the first massage air bag 21c can pass through the air passage and the first air inlet port 21g and be discharged from the first air leakage 638 of the first control valve 631. Thus, when the first massage air bag 21c is required to expand and output extrusion outwards, the first air inlet and the first air outlet 637 are communicated, so that air enters the first massage air bag 21c from the air pump 621 and/or the air storage air bag 220; when the first massage air bag 21c is required to be deflated, the first air leakage port 638 and the first air outlet 637 are conducted, so that the air in the first massage air bag 21c can be discharged out of the massage assembly 30 through the first air inlet port 21g, the first air outlet 637 and the first air leakage port 638 in sequence. In this way, the first massage air bags 21c on the air paths can be inflated and deflated, and different massage techniques can be realized by dislocating (alternately) swelling and shrinking the plurality of first massage air bags 21c on different air paths so as to meet the demands of different users.

The massage member 210 may have various structural forms, for example, the air path connecting the first air inlet port 21g and the first massage air bag 21c may be a pipeline (air pipe) or an air passage (air passage other than air pipe) formed on the component, and in this embodiment, the air path is formed on the air path plate 212. Specifically, the massage member 210 includes: the air circuit board 212, a plurality of first connection air circuits 21a and a plurality of first vent holes 21e are formed on the air circuit board 212, the plurality of first connection air circuits 21a are mutually independent, the first connection air circuits 21a are provided with the first air inlet ports 21g, and the first vent holes 21e are communicated with the first connection air circuits 21 a; the first massage air bag 21c is mounted to the air passage plate 212 corresponding to the first vent hole 21e, and the first massage air bag 21c communicates with the first connection air passage 21a through the first vent hole 21 e. The air circuit board 212 is in a flat arrangement, and has a plurality of mutually independent first connection air circuits 21a, each connection air circuit 213 may be provided with one or more first massage air bags 21c, and the first massage air bags 21c are communicated with the first connection air circuits 21a through the first air holes 21e, and other specific structures of the air circuit board 212 may be referred to other embodiments and will not be described herein. In this embodiment, the air circuit board 212 is configured to make the plurality of mutually independent first connection air circuits 21a stable in structure, and is not susceptible to external environment, thereby being beneficial to improving the working stability of the massage assembly 30.

It should be noted that "first" in the above embodiments, such as "first intake port 21g", "first air pump 622", "first control valve 631", "first massage air bag 21c", "first air passing port 223", etc., is merely used to distinguish "second" in other embodiments, and no limitation is imposed on the components or structures, and in some embodiments, the components or structures may be equivalent to or associated with components or structures not defined by "first" and "second" in other embodiments. The massage assembly 30 of the present application may include a further set of inflation and deflation members in addition to the set of inflation and deflation members mentioned in the embodiments above. Thus, not only the combination of the working states of the massage air bags 215 can be richer, but also the arrangement of each part can be facilitated. For example, the second air inlet 21h and the first air inlet 21g may be distributed at two opposite ends of the massage member 210, so that the components of the two sets of inflation and deflation systems may be distributed at two ends of the massage member 210 and the air storage bag 220, which is beneficial to fully utilizing the space and improving the stability of the structure and the rationality of the layout.

The specific structure and arrangement of another set of inflation and deflation components is illustrated below.

In some embodiments, the massage assembly 30 further comprises a second control valve 632 and a second air pump 623, wherein the massage 210 has a second massage air bladder 21d and a second air inlet port 21h in communication with the second massage air bladder 21 d; the second control valve 632 has a second air inlet 636 and a second air outlet 637, the second air inlet 636 being configured to supply air into the second control valve 632, the second air outlet 637 being configured to communicate with the second air inlet port 21h; the air storage bag 220 has a second air passing port 225 communicated with the accommodating cavity, and the second air passing port 225 is communicated with the second air inlet 636; the second air pump 623 has a second air outlet in communication with the second air inlet 636 and the second air outlet 225; so that the second air pump 623 communicates with the air storage bladder 220, and the air storage bladder 220 and the second air pump 623 communicate with the massage 210 through the second control valve 632.

The second exhaust port of the second air pump 623 is communicated with the second air passing port 225, so that the air driven by the second air pump 623 can directly enter the air storage bag 220 to inflate the air storage bag 220.

The second gas passing port 225 communicates with the second gas inlet port 636 such that the gas within the gas outlet bladder may enter the massage 210 through the second control valve 632 and ultimately into the second massage bladder 21 d. That is, the gas in the gas storage bladder 220 can be inflated into the second massage bladder 21d through the second control valve 632.

In this way, the second air pump 623 may charge air into the second massage air bag 21d and the air storage air bag 220, and the air storage air bag 220 may charge air into the second massage air bag 21 d. It should be noted that there are many ways of communicating the second exhaust port, the second air inlet 636 and the second air outlet 225, and in this embodiment, the communication is exemplified by the second tee.

During the massage, the second control valve 632 may be first closed so that the gas driven by the second air pump 623 enters the air storage airbag 220. After the air storage bag 220 is full of air, the second control valve 632 is opened, and at this time, the air pressure in the second massage air bag 21d is the lowest, and the air driven by the second air pump 623 and the air in the air storage bag 220 enter the second massage air bag 21d through the second control valve 632, so that the second massage air bag 21d bulges rapidly.

In some embodiments, in order to further improve the massage effect, a massage method may be formed, the massage member 210 has a plurality of second air inlet ports 21h, each of the second air inlet ports 21h is configured with a second massage air bag 21d communicated with the second air inlet port, and air paths corresponding to the second air inlet ports 21h are independent from each other; the second control valve 632 includes a second air intake pipe 635 and a plurality of second control units 633, the second control units 633 having the second air inlets and the second air outlets 637; the second air inlet pipe 635 has a second air inlet 636 and communicates with the second air inlets of the plurality of second control units 633 to provide an air source for the plurality of second control units 633; the second air outlets 637 of the plurality of second control units 633 are configured to be respectively in communication with the plurality of second air inlet ports 21 h.

Specifically, in the present embodiment, the massaging member 210 has a plurality of connecting air channels 213, and each connecting air channel 213 is independent from the other. The second air inlet port 21h of each connecting air path 213 is communicated with the second air outlet 637 of one second control unit 633, and the other end of the connecting air path 213 is communicated with the second massage air bag 21d, so that each connecting air path 213 is controlled by one corresponding second control unit 633 to control the air supply condition. The number of the second massaging air bags 21d on each connecting air passage 213 may be one or more, and may be appropriately adjusted under different working conditions and requirements, which is not particularly limited herein. The second control valve 632 includes a plurality of second control units and a second air intake pipe 635, and the second air intake pipe 635 is in communication with the second air inlets of the plurality of second control units 633, so that the second air intake pipe 635 can simultaneously supply air to the plurality of second control units 633, in this embodiment, the second air intake pipe 635 is in communication with the second air inlets of all the second control units 633. The second air inlet pipe 635 further has a second air inlet 636, the second air inlet 636 communicates with the second air inlet through the second air inlet pipe 635, the second air inlet 636 communicates with the second air outlet of the second air pump 623, and the second air inlet 636 also communicates with the second air passing port 225 of the air storage bag 220. In this way, both the second air pump 623 and the air storage airbag 220 can output air into the second massage airbag 21d through the second air inlet 636.

It should be noted that, in some embodiments, the air paths connecting the second air inlet port 21h and the second massage air bag 21d may not be independent, i.e. partially connected, or fully connected, to meet different working conditions or different massage strategies.

In some embodiments, in order to implement more different massage methods, the second massage air bag 21d needs to be rapidly inflated and rapidly exhausted, and the second control unit 633 further has a second venting port 638, where the second venting port 638 is configured to vent the medium air in the air path where the second control unit 633 is located. That is, in the present embodiment, the second control unit 633 has the second gas leakage port 638, and the gas in the second massage airbag 21d can pass through the gas passage and the second gas inlet port 21h and be discharged from the second gas leakage port 638 of the second control valve 632. Thus, when the second massage air bag 21d is required to expand and output the extrusion outwards, the second air inlet and the second air outlet 637 are communicated, so that the air enters the second massage air bag 21d from the air pump 621 and/or the air storage air bag 220; when the second massage air bag 21d is required to be deflated, the second air leakage port 638 and the second air outlet 637 are conducted, so that the air in the second massage air bag 21d can be discharged out of the massage assembly 30 through the second air inlet port 21h, the second air outlet 637 and the second air leakage port 638 in sequence. In this way, the second massage air bags 21d on the air paths can be inflated and deflated, and different massage techniques can be realized by dislocating (alternately) swelling and shrinking the plurality of second massage air bags 21d on different air paths so as to meet the demands of different users.

There are various structural forms of the massage member 210, and the massage member 210 includes: the air circuit board 212, a plurality of second connection air circuits 21b and second ventilation holes 21e are formed on the air circuit board 212, the plurality of second connection air circuits 21b are mutually independent, the second connection air circuits 21b are provided with the second air inlet ports 21h, and the second ventilation holes 21e are communicated with the second connection air circuits 21 b; the second massage air bag 21d is mounted on the air circuit board 212 corresponding to the second ventilation hole 21e, and the second massage air bag 21d is communicated with the second connection air circuit 21b through the second ventilation hole 21 e. The second air inlet 21h and the first air inlet 21g are distributed at opposite ends of the massage member 210.

The air circuit board 212 has a plurality of second connection air circuits 21b that are independent of each other, and one or more second massage air bags 21d may be disposed on each second connection air circuit 21b, and the second massage air bags 21d are communicated with the second connection air circuit 21b through the second ventilation holes 21e, and other specific structures of the air circuit board 212 may be referred to other embodiments and will not be described herein. In this embodiment, the air circuit board 212 is configured to make the plurality of mutually independent second connection air circuits 21b stable in structure, and is not easily affected by external environment, thereby being beneficial to improving the working stability of the massage assembly 30.

As can be seen from the above embodiments, in some embodiments, the air storage bladder 220 is provided with a first air passing port 223 and a second air passing port 225 at both ends thereof, the first air passing port 223 communicates with the first air pump 622, and the second air passing port 225 communicates with the second air pump 623, so that the first air pump 622 and the second air pump 623 can simultaneously inflate the air storage bladder 220. The two ends of the massage member 210 are respectively provided with a first air inlet port 21g and a second air inlet port 21h, so that the first massage air bag 21c and the second massage air bag 21d on the air path plate 212 can work simultaneously, can work alternately at intervals, and can only partially work.

In some embodiments, in order to increase the utilization rate of the first air pump 622 and the second air pump 623, the air balance of the first air pump 622 and the second air pump 623 to the air storage bladder 220 is increased, or the air balance of the massage assembly 30 is increased. The second exhaust port is in communication with the first exhaust port. By communicating the first air outlet and the second air outlet, the first air pump 622 can supply air to the second massage air bag 21d, and can also input air from the second air passing port 225 into the air storage air bag 220; also, the second air pump 623 is allowed to supply air to the first massage air bag 21c, and also to supply air from the first air passing opening 223 into the air storage air bag 220. In this way, the air pressures of the first and second air outlets are made equivalent, so that the air intake speeds of both ends of the air storage airbag 220 are made equivalent, and the air inflation speeds of the first and second massage airbags 21c and 21d are made equivalent.

To further meet the needs of the user, the present application further proposes a control method of the massage assembly 30, including:

obtaining a massage instruction;

the first air pump 622 is opened according to the massage instruction, and the first control valve 631 is closed, so that the first air pump 622 inflates the air storage air bag 220;

the first control valve 631 is opened to allow the first air pump 622 and the air storage airbag 220 to simultaneously inflate the first massage airbag 21 c.

Specifically, in this embodiment, the massage instruction may be many, for example, an instruction sent by a remote controller, an instruction sent by a physical key, an instruction sent by a mobile terminal such as a mobile phone, an iPad, or an intelligent watch, an instruction sent by another terminal in the internet of things connected to the massage component 30, or an instruction generated by the massage component 30 after analysis and judgment according to the acquired information, and of course, a voice instruction, or the like. After the massage instruction is acquired, the first control valve 631 is closed and the first air pump 622 is started, so that all the air driven by the first air pump 622 enters the first air storage bag 220 to inflate the air storage bag 220. After the gas in the gas storage airbag 220 is filled to a certain degree, the first control valve 631 is opened, so that the gas driven by the first gas pump 622 and the gas in the gas storage airbag 220 can enter the first massage airbag 21c, so that the first massage airbag 21c bulges rapidly.

In this embodiment, the first control valve 631 is closed and then the first air pump 622 is opened, so that the first air pump 622 inflates the air storage bag 220, after the air in the air storage bag 220 is filled, the first control valve 631 is opened, so that the first air pump 622 and the air storage bag 220 inflate the first massage air bag 21c at the same time, so that the first massage air bag 21c is inflated by the first air pump 621 and the air storage bag 220 at the same time, the inflation speed is greatly increased, and under the condition of inflating the air, the force for squeezing the user is greatly increased, which is beneficial to improving the massage experience of the user.

In some embodiments, the amount of gas inflated in gas storage bladder 220 is suitable, which may allow gas storage bladder 220 to quickly inflate the first bladder while avoiding damage to gas in gas storage bladder 220 from excessive amounts. There are various ways of achieving sufficient gas filling into the gas storage airbag 220, and a few examples will be described below.

The first way, before the step of starting the first control, further includes: acquiring the current air pressure in the air storage bag 220; determining that the current air pressure is greater than or equal to the preset air pressure; the first control valve 631 is opened. In this embodiment, whether the first control valve 631 is opened is determined by judging the current air pressure in the air storage bladder 220. When the air pressure in the air storage bag 220 is smaller than the preset air pressure, it is indicated that the current air pressure in the air storage bag 220 is not large enough, and the first massage air bag 21c cannot be inflated quickly; when the air pressure in the air storage bag 220 is greater than or equal to the preset air pressure, it is indicated that the current air pressure in the air storage bag 220 is large enough to rapidly inflate the first massage air bag 21 c.

The second mode, before the step of starting the first control, further includes: acquiring the inflation power and the inflation time period of the first air pump 622 for inflating the air storage bag 220; determining that the inflation power is greater than or equal to the preset power, and that the inflation time period is greater than or equal to the preset time period; the first control valve 631 is opened. In this embodiment, whether the gas in the gas storage airbag 220 is sufficient is determined by the power and the operation time of the first gas pump 622. When the first air pump 622 operates for an inflation period (the inflation period is longer than or equal to the preset period) according to the inflation power greater than or equal to the preset power, it is considered that the air storage bag 220 is filled with sufficient air. When the inflation power of the first air pump 622 is less than the preset power or the inflation time period is less than the preset time period, the inflation condition in the air storage bladder 220 in the present case cannot be determined. When the current amount of inflation in the air storage bladder 220 is sufficient, the first massage bladder 21c can be inflated rapidly.

In some embodiments, to further improve the inflation efficiency or to further enrich the massage strategy, the second air pump 623 may be turned on, specifically, the second air pump 623 is turned on according to the massage instruction, and the second control valve 632 is turned off, so that the second air pump 623 inflates the air storage airbag 220; the second control valve 632 is opened to allow the second air pump 623 and the air storage airbag 220 to simultaneously inflate the first massage airbag 21 c. The first air pump 622 and the second air pump 623 are simultaneously or alternately opened, and may be set according to actual needs, and the simultaneous opening will be described as an example. The first air pump 622 and the second air pump 623 may be directly and simultaneously opened, and in some embodiments, the first air pump 622 may be started first, and when the massage strength is determined to be greater than the preset strength, the second air pump 623 is started, so that the second air pump 623 and the first air pump 622 work simultaneously. The following description will take an example in which the first air pump 622 and the second air pump 623 are directly and simultaneously turned on.

After receiving the massage instruction, the first control valve 631 and the second control valve 632 are closed, and the first pump and the second air pump 623 are opened, so that the first air pump 622 and the second air pump 623 simultaneously inflate the air storage airbag 220, and the first air pump 622 and the second air pump 623 simultaneously work, thereby greatly improving the inflation efficiency of the air storage airbag 220. After the air storage bags 220 are inflated sufficiently, the first control valve 631 and the second control valve 632 are opened, and at this time, the first air pump 622 and the air storage bags 220 inflate the first massage air bags 21c simultaneously, so that the first massage air bags 21c are inflated rapidly; the second air pump 623 and the air storage airbag 220 simultaneously inflate the second massage airbag 21d so that the second massage airbag 21d bulges rapidly.

It should be noted that, in some embodiments, the first massage air bag 21c and the second massage air bag 21d are alternately operated, and at this time, the first control valve 631 and the second control valve 632 may be alternately opened. In other embodiments, the first control valve 631 includes a plurality of first control units 633, and each first control unit 633 controls the corresponding first connection air path 21a to be the first massage air bag 21c, and at this time, the different first control units 633 may be alternately opened and closed so that the first massage air bags 21c on the different first connection air paths 21a are alternately inflated. Likewise, the second massage air bags 21d on the different second connection air paths 21b may be alternately inflated.

In some embodiments, to improve compactness of the structure and improve space utilization, the massage belt further comprises a power source 610, a circuit board 650, and a gas driving device 620, wherein the power source 610 and the circuit board 650 are electrically connected with the gas driving device 620; the gas drive device 620 communicates with the massaging structure 52 such that the gas drive device 620 can output power to the massaging structure 52; the latch structure 20 has a receiving space configured to mount any one or more of the power supply 610, the circuit board 650, and the gas driving device 620.

The following describes the mounting manner of the gas driving device 620, the power source 610, and the circuit board 650, respectively.

The air driving device 620 may take many forms, for example, an air pump 621. A massage assembly 30 comprising: a support 300, the support 300 having a skin proximal side; a balloon assembly 60, the balloon assembly 60 being mounted to the skin proximal side 312 of the support 300; the clamping structure 20 is provided with an assembly cavity and a cavity opening, the cavity opening is communicated with the outside of the clamping structure 20 and the assembly cavity, and the end part of the supporting piece 300 is connected with the clamping structure 20 through the cavity opening; an air pump 621, the air pump 621 being mounted in the assembly chamber and communicating with the air bag module 60 via a conduit, the air pump 621 being configured to provide an air source to the air bag module 60.

Specifically, in this embodiment, the assembly cavity may be formed by splicing and enclosing a plurality of portions, or may be formed by opening one block, and in this embodiment, the assembly cavity is formed by enclosing a plurality of portions. Specifically, the detent structure 20 includes a hard mounting shell 520 and a hard mounting frame 530, and the mounting shell 520 and the mounting frame 530 are connected to enclose the assembly cavity. There are various ways in which the mounting housing 520 and the mounting frame 530 enclose to form an assembly cavity, which is specifically illustrated below. The mounting shell 520 is formed with a first groove 521 recessed toward the skin proximal side of the mounting shell 520 at a position corresponding to the mounting cavity, and the wall of the first groove 521 is combined with the skin proximal side of the mounting frame 530 to form the mounting cavity. Alternatively, a second groove 532 recessed toward the back skin side of the mounting frame 530 is formed at a position of the mounting frame 530 corresponding to the mounting cavity, and a groove wall of the second groove 532 is engaged with the back skin side of the mounting case 520 to form the mounting cavity. Alternatively, a first groove 521 recessed toward the skin proximal side of the mounting case 520 is formed at a position of the mounting case 520 corresponding to the mounting cavity, a second groove 532 recessed toward the back skin side of the mounting case 530 is formed at a position of the mounting case 530 corresponding to the mounting cavity, and a groove wall of the first groove 521 and a groove wall of the second groove 532 enclose to form the mounting cavity. The shape of the first groove 521 and/or the second groove 532 is adapted to the overall shape of the air pump 621, so that the air pump 621 may be fittingly limited in the first groove 521 and/or the second groove 532. In this embodiment, the installation stability of the air pump 621 is greatly improved by the arrangement of the first groove 521 and/or the second groove 532.

In this embodiment, the clamping structure 20 is disposed at the end of the support 300, and the assembly cavity is disposed on the clamping structure 20, the air pump 621 is disposed in the clamping structure 20 (so that the air pump 621 can be stably mounted in the clamping structure 20), so that the air pump 621 can be stably located at the end of the support 300, and meanwhile, the air bag assembly 60 to be inflated is mounted at the skin-proximal side 312 of the support 300, so that the relative position relationship between the air pump 621 and the air bag assembly 60 is stable, and the pipeline between the air pump 621 and the air bag assembly 60 is stable, so that the air pump 621 can stably convey air to the air bag assembly 60, thereby greatly improving the working stability of the massage assembly 30.

In some embodiments, the detent structure 20 further has a limiting cavity, one end of the limiting cavity is communicated with the assembling cavity, and the other end is communicated with the cavity opening; the end of the support 300 is provided with a limiting block 330, and the limiting block 330 is installed in the limiting cavity and is connected with the support 300 outside the limiting cavity through the cavity opening. The massage assembly 30 further comprises a control valve 630, the limiting block 330 is provided with a mounting cavity 351, and the control valve 630 is arranged in the mounting cavity 351; the control valve 630 includes a control unit 633, the control unit 633 having an air inlet port and an air outlet port 637, the air outlet port of the air pump 621 being in communication with the air inlet port, the air outlet port 637 being in communication with the air bag module 60; so that the air pump 621 supplies air to the air bag module 60 through the control valve 630.

Specifically, in this embodiment, the stopper 330 has a mounting cavity 351 formed therein, and the shape of the mounting cavity 351 is equivalent to the overall shape of the control valve 630, so as to ensure that the control valve 630 can be stably disposed in the mounting cavity 351. In some embodiments, the support 300 is made of a flexible or elastic material, such as silica gel, where the stopper 330 is a part of the support 300 and is also flexible or elastic, and the volume of the mounting cavity 351 can be smaller than the volume of the control valve 630, so that the control valve 630 can be tightly matched with the mounting cavity 351. The cavity wall at the end of the installation cavity 351 may have an opening, or an opening may be formed in the side wall of the installation cavity 351. By installing the control valve 630 in the installation cavity 351 of the limiting block 330, the control valve 630 is also located in the clamping structure 20, so that the distance between the air pump 621 and the control valve 630 is very close, and meanwhile, the relative position relationship between the air pump 621 and the control valve 630 is very stable, the air pipe between the air pump 621 and the air valve is short in stroke and stable in connection, and the air driven by the air pump 621 is facilitated to stably enter the control valve 630.

In some embodiments, in order to simplify the structure of the control valve 630, so that the control valve 630 may control multiple air paths simultaneously, the number of the control units 633 is multiple, the control valve 630 further includes an air inlet pipe 635, and the air inlet pipe 635 communicates with air inlets of all the control units 633; the air inlet pipe 635 has an air inlet 636, the air inlet 636 being configured to provide air into the air inlet pipe 635; the exhaust port of the air pump 621 is disposed adjacent to the air inlet 636 of the air intake pipe 635. In this embodiment, there are many ways in which the air outlet of the air pump 621 is adjacent to the air inlet 636 of the air inlet pipe 635, for example, the air outlet is opposite to the air inlet 636, or the air outlet and the air inlet 636 face the same side of the latch structure 20, etc. As a specific example, the air pump 621 and the air inlet pipe 635 are disposed along the width direction of the latch structure 20, and the air outlet and the air inlet 636 are located on the same side of the latch structure 20. By arranging the exhaust port adjacent to the air inlet 636, the length of the air pipe connecting the exhaust port and the air inlet 636 is greatly shortened, and the phenomenon that the air pipe between the exhaust port and the air inlet 636 breaks down is greatly reduced. Meanwhile, the air outlet 636 and the air inlet 636 are arranged on the same side of the clamping structure 20, so that the air outlet 636 and the air inlet 636 are exposed out of the limiting block 330, and an air pipe between the two edges is installed.

In some embodiments, the number of the detent structures 20 and the air pumps 621 is two, the two detent structures 20 and the two air pumps 621 are respectively located at two ends of the support 300, and the two air pumps 621 supply air to the air bag module 60. In this embodiment, the number of the clamping structures 20 and the number of the air pumps 621 are two, which is beneficial to improving the air supply efficiency of the air bag assembly 60, and meanwhile, the weight balance of the two ends of the support 300 is beneficial to improving the massage experience of the user. In some embodiments, an electric control board is further installed in one of the two detent structures 20, and a battery is further installed in the other of the two detent structures 20; the circuit board 650 and the battery are electrically connected to the air pump 621 and the control valve 630. By mounting the circuit board 650 and the battery in the two detent structures 20, respectively, the weight carried by the two ends of the support 300 remains balanced after new components are added. By the arrangement of the battery and the circuit board 650, the massage assembly 30 can be used without being connected with the external power source 610, so that the massage device can be used more conveniently.

It should be noted that, the air bag assembly 60 may include the massage member 210 in the above embodiment, the air storage air bag 220, and both the massage member 210 and the air storage air bag 220. In this embodiment, the air bag module 60 includes both the massage member 210 and the air storage air bag 220. The specific structure of the massage 210 and the air storage bladder 220 and other embodiments are not described herein.

The application further proposes a massaging device comprising a wearing part and a massaging assembly 30, the massaging assembly 30 being connected with the wearing part, the wearing part being configured to be worn by a human body. The massage device is a massage waistband, the support 300 of the massage assembly 30 is arranged in a flat shape, and the air bag assembly 60 of the massage assembly 30 is arranged in parallel with the support 300; the wearing part comprises a wearing waistband 10, the wearing waistband 10 is configured to be worn on the waist of a human body, and the clamping structure 20 of the massage assembly 30 is used for being clamped at the hip joint of the human body when the air bag assembly 60 is used for pressing and massaging the back/abdomen of the human body.

Referring to fig. 3, and 9-22, in some embodiments, to improve compactness of the structure, the present application also proposes a massage assembly 30 comprising:

A support 300, the end of the support 300 having a mounting cavity 351, the support 300 having a proximal skin side;

a balloon assembly 60, the balloon assembly 60 being mounted to the skin proximal side 312 of the support 300;

a control valve 630, the control valve 630 being mounted to the mounting chamber 351;

a first air pipe communicating the control valve 630 and the air bag module 60 so that the control valve 630 can control inflation and deflation of the air bag module 60.

Specifically, in the present embodiment, the support 300 is exemplified as the flexible support 300, and the air bag module 60 may include the massage member 210, the air storage air bag 220, or both the massage member 210 and the air storage air bag 220 in the above embodiment. In this embodiment, the air bag module 60 includes a massage member 210. The shape of the mounting cavity 351 corresponds to the overall shape of the control valve 630 to ensure that the control valve 630 can be stably disposed within the mounting cavity 351. In some embodiments, the support 300 is made of a flexible or elastic material, such as silicone, and the volume of the mounting cavity 351 may be smaller than the volume of the control valve 630, so that the control valve 630 may be tightly fitted with the mounting cavity 351. The first air tube may be in a plurality of forms, for example, may be a hard tube, and in this embodiment, the first air tube is taken as a soft tube as an example, so that the first air tube can be installed more conveniently.

In the present embodiment, by forming the mounting cavity 351 at the end of the supporter 300 and mounting the control valve 630 in the mounting cavity 351, the relative positional relationship of the control valve 630 and the supporter 300 is very stable; the air bag assembly 60 is mounted on the skin-proximal side 312 of the support 300, so that the relative positional relationship between the air bag assembly 60 and the support 300 is stable; in this way, the control valve 630 and the air bag assembly 60 are both installed on the support 300, so that the relative position relationship between the control valve 630 and the air bag assembly 60 is stable, and thus, the first connecting pipe communicating the control valve 630 and the air bag assembly 60 does not need to be moved, or the range of movement is very small, so that the installation of the first connecting pipe is also very stable, which is beneficial to improving the working stability of the massage assembly 30 and the massage device comprising the massage assembly 30.

In some embodiments, to increase the mounting stability of the balloon assembly 60 and reduce the overall thickness of the massage assembly 30, the skin proximal side 312 of the support member 300 has a mounting recess 350, at least a portion of the balloon assembly 60 being mounted within the mounting recess 350. The overall shape of the mounting recess 350 is similar to that of the airbag module 60, and the area of the mounting recess 350 corresponds to the surface area of one side of the airbag module 60 to ensure that the airbag module 60 can be mounted into the mounting recess 350. The bottom of the installation recess 350 is lower than the side of the support 300 facing the airbag module 60, and when the airbag module 60 is installed to the installation recess 350, the installation recess 350 restricts the degree of freedom of the horizontal movement and the overturning of the airbag module 60, which is advantageous for improving the installation stability of the airbag module 60. Meanwhile, the space occupied by the air bladder assembly 60 in the thickness direction is partially overlapped with the installation recess 350, reducing the overall thickness of the massage assembly 30.

In some embodiments, to improve the compactness of the structure and shorten the length of the first air pipe, a pipe passing hole 339 is formed on a cavity wall of the installation cavity 351 adjacent to the installation sink 350, and the pipe passing hole 339 extends to the installation sink 350, so that the pipe passing hole 339 communicates with the installation cavity 351 and the installation sink 350; one end of the first air pipe is communicated with the control valve 630 through the pipe passing hole 339, and the other end is communicated with the air bag assembly 60. In this embodiment, through the arrangement of the pipe hole 339, the first air pipe can directly enter the side where the installation sinking groove 350 is located from the installation cavity 351 through the cavity wall to be connected with the air bag assembly 60, so that the first air pipe is prevented from being bent, the length of the first air pipe is greatly shortened, and meanwhile, the bending of the first air pipe is avoided, and the installation stability and the working stability of the first air pipe are improved.

In some embodiments, to further improve compactness of the structure, the control valve 630 includes a plurality of control units 633 and air inlet pipes 635; the control unit 633 has an air inlet, an air outlet 637, and an air release 638; the air inlet pipe 635 communicates with the air inlets of the plurality of control units 633 to provide an air source for the plurality of control units 633; the air outlet 637 is configured to communicate with one end of the first air tube; the bleed air port 638 is configured to bleed air from the air path in which the control unit 633 is located. The plurality of control units 633 are arranged in the width direction of the support 300; and/or, the side wall of the mounting cavity 351 is provided with a through hole 338, the air inlet pipe 635 is provided with an air inlet 636, the air inlet 636 is exposed through the through hole 338, and the air inlet 636 is configured to be communicated with the gas driving device 620. In this embodiment, in order to realize that one control valve 630 can control multiple connection air paths 213 of the air bag assembly 60, the control valve 630 is set to include multiple control units 633 and air inlet pipes 635, the air inlet pipes 635 are communicated with all air inlets, the air inlet 636 of the air inlet pipe 635 is exposed to the mounting cavity 351 through the through holes 338, so that the air inlet 636 can be communicated with the air driving device 620 through the air pipe, the used air pipe does not need to be bent to other positions, and can be directly connected with the air inlet 636 through the through holes 338, thereby being beneficial to improving the working stability of the used air pipe, and simultaneously shortening the length of the air pipe.

In order to improve the air supply efficiency to the air bag module 60 and to improve the balance of both ends of the massage assembly 30, both ends of the support 300 are provided with mounting cavities 351, and control valves 630 are disposed in both the mounting cavities 351, and the two control valves 630 are respectively communicated with the air bag module 60. The gas inlets 636 of the two control valves 630 are configured to communicate with the two gas drive devices 620, respectively; the two gas driving devices 620 are configured to communicate through a second gas pipe; the support 300 also has a dorsal side disposed opposite the near-skin side, the mounting cavity 351 communicating with the dorsal side; the second air tube is located on the back skin side 313 of the support 300 and both ends of the second air tube are respectively in communication with two gas driving means 620. In the present embodiment, the gas driving device 620 takes the gas pump 621 as an example, and equalizes the weight of both ends of the support 300 by providing two control valves 630 and distributing the two control valves 630 at both ends of the support 300. By the arrangement of the second air pipe, the exhaust ports of the two gas driving devices 620 are communicated, so that the two gas driving devices 620 can simultaneously deliver the gas to the two control valves 630. How the two gas driving devices 620 (the gas pump 621) are specifically connected to the two control valves 630 can refer to other embodiments, and will not be described herein. By arranging the second air tube on the back skin side 313 of the support 300, the second air tube and the air bag module 60 are respectively located on two opposite sides of the support 300, which are not interfered with each other, thereby being beneficial to improving the working stability of the two and fully utilizing the space.

In some embodiments, to further improve the compactness and stability of the structure, the back skin of the support 300 has a tube slot 333 extending along the length direction of the support 300, and the second air tube is at least partially installed in the tube slot 333. The second air pipe can be all installed in the pipe groove 333 to avoid the influence of external environment to the second air pipe, be favorable to improving the job stabilization nature of the second air pipe. In some embodiments, the mounting cavity 351 has a cavity wall adjacent to the pipe slot 333, and a pipe cavity 335 is formed on the cavity wall, and one end of the pipe cavity 335 is communicated with the mounting cavity 351, and the other end is communicated with the pipe slot 333. Thus, two ends of the second air pipe can pass through the pipe cavity 335 to be communicated with the air driving device 620 outside the support piece 300, so that the second air pipe is prevented from bypassing the outside of the support piece 300, the bending of the second air pipe is reduced, the space is fully and reasonably utilized, the compactness of the structure is improved, and the working stability of the massage assembly 30 is improved. In some embodiments, the lumen 335 may also be threaded with wires and signal wires.

In some embodiments, in order to improve the installation stability of the second air pipe, the slot edge of the pipe slot 333 is provided with a stop rib 337, and the stop rib 337 extends inward from the slot edge of the pipe slot 333, so that the width dimension of the slot opening of the pipe slot 333 is smaller than the slot width of the pipe slot 333. The stop rib 337 may be a hard stop rib 337 or a flexible stop rib 337, when the stop rib 337 is a hard stop rib 337, the second air pipe elastically deforms to enter the pipe groove 333 and then returns to the original state, and when the stop rib 337 is a flexible stop rib 337, the second air pipe can enter the pipe groove 333 without deformation or with little deformation. By the arrangement of the stop rib 337, the second air pipe is installed more stably and reliably.

In some embodiments, to simplify the structure and improve compactness and regularity of the structure, the back skin of the support 300 has a wiring groove 332 extending along the length of the support 300, the wiring groove 332 being configured to mount power and/or signal lines. In this embodiment, the circuit board 650, the power supply 610 of the massage assembly 30 need to transmit electric power and electric signals to the air pump 621, the control valve 630, etc., and power lines and/or signal lines corresponding to the circuit board 650 and the power supply 610 may be installed in the wiring groove 332. In this way, the power lines and/or signal lines are prevented from being influenced by external environmental factors, the stability of their operation is improved, and at the same time, by arranging the power lines and/or signal lines on the back skin side 313 of the support member 300, the mutual interference with the air bag module 60 is avoided, the space is fully utilized, and the compactness of the structure is improved.

In some embodiments, in order to improve the mounting stability of the support 300 and to provide a sufficiently large mounting cavity 351, the support 300 includes a support body 320 and a stopper 330 integrally formed with the support body 320, the stopper 330 has a thickness greater than that of the flexible support body 320, the mounting cavity 351 is formed in the stopper 330, and the stopper 330 is configured to fix the support 300. In this embodiment, the limiting blocks 330 are disposed at two ends of the supporting member 300, and the limiting thickness is set to be greater than the thickness of the supporting body 320, so that the limiting blocks 330 can be provided with the installation cavity 351 with a larger space, which can ensure smooth installation of the control valve 630, reduce the thickness of other positions of the supporting member 300, facilitate deformation of the supporting member 300 during use, enable the massage assembly 30 to be more skin-friendly, and facilitate improvement of the massage effect.

In some embodiments, to further improve the compactness of the structure, the overall shape of the support 300 is flat, and the width dimension of the support 300 is gradually reduced in the direction from the middle to both ends of the support 300. The middle part of the support 300 in the length direction is provided with a mounting hole 311, and the massage assembly 30 further comprises a massage unit 150, wherein the massage unit 150 is mounted in the mounting hole 311. The massage unit 150 may be an electro-stimulation massage unit 150, or may be an optical stimulation massage unit 150, and the specific cooperation of the electro-stimulation massage unit 150 and the support 300 may be referred to in other embodiments, which are not described herein. The massage assembly 30 further includes a support plate 310, the support plate 310 being disposed on the skin proximal side 312 of the support member 300, the support plate 310 having a hardness greater than the hardness of the support member 300. In this embodiment, the supporting piece 310 is disposed between the air bag module 60 and the skin proximal side 312 of the supporting piece 300, and since the hardness of the supporting piece 310 is greater than that of the supporting piece 300, when the air bag module 60 deforms, the supporting piece 310 can provide enough support, and the supporting piece 310 and the supporting piece 300 deform as little as possible, so that the displacement of the air bag module 60 caused by the bulge occurs in the direction away from the supporting piece 300 as much as possible, and the stroke of the air bag module 60 in the direction away from the supporting piece 300 is increased, which is beneficial to improving the massage experience of the user.

In some embodiments, to improve the assembly stability of the massage assembly 30, the massage assembly 30 further includes a flexible first encapsulating sheet 110, the first encapsulating sheet 110 covering the skin proximal side 312 of the support 300 to encapsulate the balloon assembly 60 and the first trachea on the skin proximal side 312 of the support 300. And/or, the massage assembly 30 further comprises a flexible second packaging sheet 120, wherein the second packaging sheet 120 covers the back skin side 313 of the support 300 to package components mounted on the back skin side of the support 300.

Specifically, in the present embodiment, the overall shapes of the first package piece 110 and the second package piece 120 may be equivalent, and each corresponds to the overall shape of the support 300. The first package piece 110 and the second package piece 120 may be hard support package pieces, and in this embodiment, flexible package pieces are taken as an example. The materials of the first package piece 110 and the second package piece 120 may be many, such as cotton fabric, leather, thin film silica gel, etc., in this embodiment, the first package piece 110 is made of cotton fabric, and the second package piece 120 is made of leather. The first encapsulating sheet 110 may cover the skin-proximal side 312 of the support 300 alone or may encapsulate the skin-proximal side 312 of the support 300 in cooperation with a second encapsulation; likewise, the second encapsulant sheet 120 may cover the back skin side 313 of the support 300 alone, or may cooperate with the first encapsulant sheet 110 to collectively encapsulate the back skin side 313 of the support 300. There may be many connection relationships among the first package 110, the supporting member 300, and the second package 120, and it may be that the first package 110 is connected to the supporting member 300, and the second package 120 is connected to the supporting member 300; the first package sheet 110 and the second package sheet 120 may be connected; it is also possible to connect the first package piece 110, the supporting member 300 and the second package piece 120. Specifically, the support 300 includes a support body 320, and a stopper 330 and a package side 336 integrally formed with the support body 320, wherein the stopper 330 is connected with an end of the support body 320; the package side edges 336 are located at two sides of the supporting body 320 in the width direction and extend along the length direction of the supporting body 320; a lateral edge of the first encapsulation sheet 110 is attached to the skin proximal side of the encapsulation side 336; the widthwise edges of the second encapsulation sheet 120 are attached to the skin side of the encapsulation side 336. The number of package sides 336 may be two, and are respectively located on opposite sides of the support body 320, so as to support the opposite sides of the support body 320. The package sides 336 have two ends extending to the stoppers 330 at two ends, so that the first and second package pieces 110 and 120 can fully package the supporting body 320. The thickness of the package side 336 is less than the thickness of the support body 320, and the thickness difference between the package side 336 and the support body 320 can be achieved in a variety of ways. For example, a step is formed on the near-skin side where the encapsulation side 336 is connected to the support body 320, or a step is formed on the back-skin side where the encapsulation side 336 is connected to the support body 320, or a step is formed on both the near-skin side and the back-skin side where the encapsulation side 336 is connected to the support body 320. As a specific example, the skin-facing surface of the encapsulation side 336 is flush with the skin-facing surface of the support body 320, with a step between the skin-facing surface of the encapsulation side 336 and the skin-facing surface of the support body 320.

There are many ways how the first and second package pieces 110 and 120 can be connected and mated with the support 300, and examples are described below. In some embodiments, the edge of the first package piece 110 is folded over the edge of the package side 336 and overlaps the edge of the second package piece 120. And/or, the edge of the second package piece 120 is folded to cover the edge of the package side 336, and is overlapped with the edge of the first package piece 110. And/or, the massage assembly 30 includes a flexible packing tape extending along a length direction of the packing side 336 and wrapping around edges of the packing side 336, and both sides of the packing tape in a width direction overlap with the sides of the first packing sheet 110 and the sides of the first packing sheet 110, respectively. And/or an adhesive layer is provided between the edge portion of the first encapsulation sheet 110 and the skin proximal side of the encapsulation side 336. And/or an adhesive layer is provided between the edge portion of the second encapsulation sheet 120 and the back skin side of the encapsulation side 336.

In order to further improve the packaging effect, the massage assembly 30 further includes a clamping structure 20, the clamping structure 20 has a limiting cavity, and a mounting bracket 531 is disposed in the limiting cavity; the supporting member 300 includes a supporting body 320 and a limiting block 330 integrally formed with the supporting body 320, the limiting block 330 is installed in the limiting cavity, and an end portion of the second packaging sheet 120 extends into the limiting cavity and is fixedly connected with the mounting bracket 531. In this embodiment, the mounting bracket 531 is disposed in the positioning structure 20, and the end portion of the second seal assembly extends into the limiting cavity, so that the second package sheet 120 can cover the limiting block 330 while being stably and reliably connected, so that the structure in the limiting cavity is more compact, and the inside compactness and connection stability of the positioning structure 20 are improved.

It should be noted that, in the embodiment of the present application, by the arrangement of the first packaging sheet 110, the air bag assembly 60 (the air storage air bag 220 and/or the massage member 210) and the supporting sheet 310 may be packaged on the skin proximal side 312 of the supporting member 300; by the arrangement of the second encapsulation sheet 120, the second air tube, the power line, the signal line, etc. may be encapsulated at the back skin side 313 of the support 300. The connection of the first and second package pieces 110 and 120 and the support 300 allows the components mounted on the support 300 to form a single price and assembly unit. Thus, the part can be independently assembled, which is beneficial to improving the production efficiency. After this portion is assembled, it is then connected to the structure within the detent structure 20.

Referring to fig. 3-5, and 31-32, in some embodiments, in order to conveniently and reliably mount the massage head 130 on the skin-proximal side of the wearable waistband 10 to improve massage stability, the present application further proposes a massage assembly 30 comprising:

a support 300, the support 300 having a skin proximal side;

a massage drive mounted to the skin proximal side 312 of the support 300;

a flexible first encapsulation sheet 110, the first encapsulation sheet 110 encapsulating the skin proximal side 312 of the support 300 to encapsulate the massage drive on the skin proximal side 312 of the support 300;

The massage head 130, the massage head 130 includes a mounting seat and an extrusion head 132, the mounting seat is located between the first packaging sheet 110 and the massage driving member, the extrusion head 132 is located on the skin proximal side of the first packaging sheet 110, and the extrusion head 132 is connected with the mounting seat to clamp and install on the first packaging sheet 110.

In particular, in this embodiment, the massage driving member may be in various forms, such as motor driving, hydraulic cylinder driving, air cylinder driving, etc., and of course, in some embodiments, the massage driving member may be the air storage bladder 220 and/or the massage member 210 as mentioned in the above embodiments. When the massage drive comprises the massage member 210, the massage member 210 having an inflated and inflated supporting state and a deflated idle state; in the supported state, the side of the mounting base facing away from the pressing head 132 abuts the skin-proximal side of the massaging element 210. The massage member 210 includes: the air passage plate 212, the air passage plate 212 is formed with a connecting air passage 213 and an air vent 21e, the connecting air passage 213 is provided with an air inlet port 21f, the air inlet port 21f is communicated with the outside of the air passage plate 212, and the air vent 21e is communicated with the connecting air passage 213; the massage air bag 215 is arranged on the air channel plate 212 corresponding to the air vent 21e, and is communicated with the connecting air channel 213 through the air vent 21 e; the side of the massage air bladder 215 remote from the air panel 212 is connected to the back skin side of the mounting base 131 so that the massage head 130 approaches or is remote from the support 300 as the massage air bladder 215 is inflated and deflated. The massage air bag 215 and the mounting base 131 can be connected in a plurality of ways, such as fastened by other components, or can be directly matched with each other, for example, by gluing. Of course, in some embodiments, there may be no connection between the massage bladder 215 and the mounting base 131. The supporting member in this embodiment may be a hard supporting member 300, or may be a flexible supporting member 300, for example, a flexible supporting member 300.

The material of the first package piece 110 may be a wide variety of materials, such as cotton and wool fabric, leather, and a thin film silica gel layer, and in this embodiment, the material is made of cotton and wool fabric. The overall shape of the first encapsulation sheet 110 is similar to that of the support 300, based on the fact that one side of the support 300 can be covered. The first encapsulating sheet 110 functions to encapsulate the massage drive on the skin proximal side 312 of the support 300. The first package piece 110 may be connected to the support 300 in a plurality of ways, for example, the edge of the first package piece 110 may be connected to the edge of the support 300, or the edge of the first package piece 110 may be connected to the back skin side 313 of the support 300 around the edge of the support 300, although in other embodiments, the second package piece 120 may be disposed on the back skin side 313 of the support 300, and the edge of the first package piece 110 may be connected to the edge of the second package piece 120, so that the support is enclosed between the first package piece 110 and the second package piece 120. Alternatively, the first package 110, the supporting member 300, and the second package 120 are connected.

The massage head 130 includes a mounting seat and a massage head 130, wherein, the mounting seat can be a hard mounting seat, also can be a flexible or elastic mounting seat, when the mounting seat has flexibility or elasticity, after being extruded by a massage driving piece, the massage head 132 can not be directly and rapidly driven to impact the skin of a human body, but a buffering and gradual change process is provided, so that the force born by the extrusion head 132 gradually increases, which is beneficial to improving the massage experience of a user. Of course, it can be well matched with the air storage bladder 220 or the massage 210. Taking the massage 210 as an example, when the massage balloon 215 presses the base 131, the two flexible parts press against each other, so that the buffering and gradual change process is more obvious. The extrusion head 132 may be a hard extrusion head 132 or a flexible extrusion head 132, and in this embodiment, the hard extrusion head 132 is taken as an example. The rigid squeeze head 132 may subject the squeezed portion to sufficient force to facilitate the massage experience. The shape of the extrusion head 132 may be varied, such as truncated cone, column, etc., and the overall shape of the extrusion head 132 is illustrated as umbrella-shaped in this embodiment. The surface of the extrusion head 132 may be provided with an arc surface, so as to avoid the corner from scratching the user, specifically, the outer side wall of the extrusion head 132 is an arc surface, which is beneficial to improving the use experience of the user. Of course, in some embodiments, in order to further enhance the massage experience, the outer sidewall of the pressing head 132 has massage threads 133, and the massage threads 133 are arranged along the circumferential direction of the massage head 130. The massage threads 133 may be formed in various ways, for example, extending from the edge of the pressing head 132 to the middle along the surface of the pressing head 132, and the massage threads 133 are radially arranged on the top of the massage head 130. The connection manner between the mounting base and the extrusion head 132 is many, and the mounting base and the extrusion head 132 may be screwed, snapped, fastened, glued, etc., which are not limited herein, and the mounting base and the extrusion head 132 are used to connect and clamp the first package 110.

In this embodiment, the massage head 130 is arranged to include the mounting seat and the extrusion head 132, and the mounting seat is arranged between the first packaging sheet 110 and the supporting member 300, the extrusion head 132 is arranged on the air inlet side of the first packaging sheet 110, and the first packaging sheet 110 is clamped by connecting the mounting seat and the extrusion head 132, so that the massage head 130 is mounted on the flexible first packaging sheet 110, and the massage head 130 can be stably and reliably mounted on the first packaging sheet 110, thereby being beneficial to improving the mounting stability of the massage head 130 and facilitating the use of a user.

In some embodiments, in order to improve the connection stability of the mount, the pressing head 132, and the first package sheet 110, the mount has a mounting groove 137, and the pressing head 132 includes a fitting portion and a pressing portion connected to the fitting portion; the extrusion part is used for extrusion massage; the mating portion is inserted into the mounting groove 137, and the outer sidewall of the mating portion and the groove wall of the mounting groove 137 clamp the first package piece 110. Specifically, in this embodiment, the mounting groove 137 is provided, and the matching portion of the extrusion head 132 is inserted into the mounting groove 137, so that the first package sheet 110 is clamped between the matching portion and the groove wall of the mounting groove 137, so that the matching area of the massage head 130 and the first package sheet 110 can be greatly increased, which is beneficial to improving the connection stability.

In some embodiments, in order to further improve the connection stability between the massage head 130 and the first packaging sheet 110, the pressing head 132 is provided with a fixing hole 138, the mounting seat is formed with a fastening hole corresponding to the fixing hole 138, and the first packaging sheet 110 is formed with a through hole corresponding to the fixing hole 138; the massage assembly 30 further includes a fastener that is fastened to the fixing hole 138 through a fastening hole and a through hole to fasten the pressing head 132, the first packing sheet 110, and the mounting base. In this embodiment, the fastener passes through the through hole and the fastening hole to be connected with the fixing hole 138, so as to lock the extrusion head 132, the base 131 and the first encapsulation piece 110 together, and the fastener may be in various forms, such as a screw, a bolt, a nail, and the like.

In some embodiments, in order to reduce the weight of the massage head 130 and ensure that the extrusion head 132 can be reliably connected to the fastener, the extrusion head 132 is hollow, an assembly post 136 is disposed in the extrusion head 132, the assembly post 136 extends along the height direction of the extrusion head 132, the fixing hole 138 is opened on the assembly post 136, and the fixing hole 138 extends along the length direction of the assembly post 136. In this embodiment, by arranging the extrusion head 132 in a hollow structure, the material consumption of the massage head 130 can be greatly reduced, and the weight of the extrusion head 132 can be greatly reduced. Meanwhile, through the arrangement of the assembling posts 136, the matching length of the fastener and the assembling posts 136 is enough, so that the connection strength of the fastener and the assembling posts 136 is ensured, and the connection stability of the fastener and the extrusion head 132 is also ensured. The fixing hole 138 may be a threaded hole, and an external thread may be formed on an outer sidewall of the fastener, and the fastener is screwed with the fixing hole 138.

In some embodiments, in order to increase the strength of the extrusion head 132, a reinforcing rib 135 is further disposed in the extrusion head 132, and one end of the reinforcing rib 135 is connected to the outer sidewall of the assembly post 136, and the other end is connected to the inner sidewall of the extrusion head 132. In this embodiment, the reinforcing ribs 135 extend from the edge of the extrusion head 132 to the middle along the inner sidewall of the extrusion head 132 to connect the assembly posts 136 and the inner sidewall of the extrusion head 132, which is not only beneficial to improving the bearing capacity of the assembly posts 136, but also beneficial to improving the bearing capacity of the extrusion head 132. The number of ribs 135 may be numerous, for example three or four, arranged circumferentially around the mounting post 136.

In some embodiments, to improve the connection convenience and connection stability of the first package plate 110 and the support 300, the support 300 includes a support body 320, and package sides 336 integrally formed with the support body 320; the package side edges 336 are located at two sides of the supporting body 320 in the width direction and extend along the length direction of the supporting body 320; the widthwise edges of the first encapsulation sheet 110 are attached to the skin proximal side of the encapsulation side 336.

In some embodiments, the massage assembly 30 of the massage belt and the wear belt 10 may be detachably connected. Specifically, a massage waistband comprises: a massage assembly 30, the massage assembly 30 comprising a support portion 51 and a massage structure 52, the massage structure 52 being mounted to the support portion 51, the support portion 51 having a skin proximal side, the massage structure 52 being configured to be protrusive and contractible toward the skin proximal side of the support portion 51 to output a squeeze massage to a human body; a wear belt 10, the wear belt 10 comprising: a mounting portion configured for mounting the massage assembly 30; a wear belt configured for wearing on a human body; the clamping structure 20, one end of the clamping structure 20 is connected with the installation part, the other end is connected with the wearing waistband, and the clamping structure 20 is configured to be clamped at the hip joint of a human body. The massage assembly 30 may be matched with the mounting portion in various manners, such as adsorption by assembling a magnetic member, adhesion by assembling a magic tape, or setting a holding portion (for holding the massage assembly 30) and a hanging portion (for hanging and mounting the massage assembly 30) on the flexible waistband.

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 (11)

1. A massage assembly, comprising:

a support having a skin proximal side;

the massage driving piece is arranged on the skin-proximal side of the supporting piece;

a flexible first encapsulating sheet covering the skin proximal side of the support member to encapsulate the massage drive member on the skin proximal side of the support member;

the massage head comprises a mounting seat and an extrusion head, and the mounting seat is positioned between the first packaging piece and the massage driving piece so that the mounting seat can be jacked up by the massage driving piece; the extrusion head is positioned on the skin-proximal side of the first packaging sheet and is connected with the mounting seat to clamp the first packaging sheet.

2. The massage assembly of claim 1, wherein the mount is a flexible/resilient mount; and/or the extrusion head is a hard extrusion head; and/or the number of the groups of groups,

The support is a flexible support.

3. The massage assembly of claim 1, wherein the mount has a mounting slot, the compression head including a mating portion and a compression portion coupled to the mating portion;

the extrusion part is used for extrusion massage; the matching part is inserted into the mounting groove, and the outer side wall of the matching part and the groove wall of the mounting groove clamp the first packaging piece.

4. The massage assembly of claim 1, wherein the pressing head is provided with a fixing hole, the mounting seat is provided with a fastening hole corresponding to the fixing hole, and the first packaging piece is provided with a through hole corresponding to the fixing hole;

the massage assembly further comprises a fastening piece which passes through the fastening hole and the through hole to be in fastening fit with the fixing hole so as to fasten and connect the extrusion head, the first packaging piece and the mounting seat.

5. The massage assembly of claim 4, wherein the extrusion head is hollow, an assembly post is disposed within the extrusion head, the assembly post extends along a height direction of the extrusion head, the securing hole is formed in the assembly post, and the securing hole extends along a length direction of the assembly post.

6. The massage assembly of claim 5, wherein the extrusion head is further provided with a reinforcing rib, one end of the reinforcing rib is connected with the outer side wall of the assembly column, and the other end of the reinforcing rib is connected with the inner side wall of the extrusion head; and/or the number of the groups of groups,

the whole appearance of the extrusion head is umbrella-shaped; and/or the number of the groups of groups,

the outer side wall of the extrusion head is an arc-shaped surface; and/or the number of the groups of groups,

the outer side wall of the extrusion head is provided with massage lines along the periphery Xiang Paibu of the massage head.

7. The massage assembly of any one of claims 1-6, wherein the support member comprises a support body and a package side integrally formed with the support body; the packaging side edges are positioned at two sides of the supporting body in the width direction and extend along the length direction of the supporting body; the edge of the first packaging piece in the width direction is attached to the skin-proximal side of the packaging side edge.

8. The massage assembly of any one of claims 1-6, wherein the massage drive comprises a massage member having an inflated, supporting state and a deflated, resting state;

in the supporting state, one side of the mounting seat, which is opposite to the extrusion head, is abutted against the skin-proximal side of the massage part.

9. The massage assembly of claim 8, wherein the massage member comprises:

the air passage plate is provided with a connecting air passage and an air vent, the connecting air passage is provided with an air inlet port, the air inlet port is communicated with the outside of the air passage plate, and the air vent is communicated with the connecting air passage;

the massage air bag is arranged on the air circuit board corresponding to the vent hole and is communicated with the connecting air circuit through the vent hole;

one side of the massage air bag, which is far away from the air circuit board, is connected with the back skin side of the mounting seat, so that the massage head is close to or far away from the supporting piece along with the inflation and deflation of the massage air bag.

10. A massaging apparatus comprising a wearing part and a massaging assembly as claimed in any one of claims 1 to 9, the massaging assembly being connected to the wearing part, the wearing part being configured to be worn by a human body.

11. The massage apparatus of claim 10, wherein the massage apparatus is a massage belt, the support member of the massage assembly is disposed in a flat configuration, and the massage member and the first encapsulating sheet of the massage assembly are disposed in parallel with the support member;

The wearing part includes a wearing waistband configured to be worn on a waist of a human body.