CN115120870A - Liquid storage part and wearable electric stimulation massage device - Google Patents

Abstract

The invention belongs to the technical field of electrical stimulation physiotherapy products, and relates to a liquid storage part and a wearable electrical stimulation massage device, wherein the wearable electrical stimulation massage device comprises a flexible wearing body, an electrode assembly, a blocking part and a puncturing structure, the electrode assembly and/or the flexible wearing body is/are provided with a placing groove which is close to or positioned on an electrical stimulation massage surface, and the placing groove is used for installing the liquid storage part in a limiting manner; the blocking piece is fixedly arranged in the placing groove, or the blocking piece forms the bottom groove wall of the placing groove, and a first avoiding through hole is formed in the blocking piece; the puncture structure comprises a puncture part which can be movably arranged in the thickness direction of the flexible wearable body, so that the puncture part penetrates through the first avoidance through hole to puncture the liquid storage part in the placing groove. This wearable electrical stimulation massage device can avoid puncturing structure direct exposure in the standing groove through blockking the piece, is prevented that skin or finger from stretching into to be stabbed by puncture portion when entering the standing groove to ensure the safety of user in the use.

Description

Liquid storage part and wearable electric stimulation massage device

Technical Field

The invention relates to the technical field of electrical stimulation physiotherapy products, in particular to a liquid storage part and a wearable electrical stimulation massage device.

Background

With the growing concern of the public on the health problems, various massage devices are increasingly popular in the market as instruments for improving the sub-health condition of the body. The electric stimulation massager is a massager for massaging by utilizing current stimulation, and generally comprises a wearing main body and electrode plates connected to the wearing main body, wherein the massage principle of the electrode plates is that small electric stimulation is provided for a human body after the electrode plates are electrified so as to achieve the massage effect.

However, when the electric stimulation is applied to the human body due to the difference in skin condition, the current density distribution is not uniform, and thus some parts are not massaged and some parts have a tingling feeling. Although the related art has been proposed to solve the above-mentioned skin problems, in the case of a flexible massage apparatus based on liquid-permeable materials, the puncture structure of the existing liquid-permeable structure has a problem of easily injuring the hand or the skin.

Disclosure of Invention

The embodiment of the invention aims to solve the technical problems that the contact part of an electrode component of the existing flexible wearable massage equipment and a human body is dry, and the puncture structure in the wearable electric stimulation massage device with the liquid seepage function is easy to hurt hands.

In order to solve the above technical problem, an embodiment of the present invention provides a liquid storage device, which adopts the following technical scheme:

this stock solution spare includes:

the liquid storage shell is internally provided with a liquid storage cavity, and conductive liquid is stored in the liquid storage cavity;

the liquid storage shell comprises a liquid storage shell, and is characterized by comprising a first liquid absorbing layer and/or a second liquid absorbing layer, wherein the first liquid absorbing layer is arranged on the outer surface of the liquid storage shell and used for absorbing conductive liquid flowing out of the liquid storage cavity, and the second liquid absorbing layer is arranged in the liquid storage cavity.

Further, in a preferable scheme of some embodiments, a limit connecting structure is formed on the liquid storage shell, and the liquid storage part is limited and mounted on the wearable electrical stimulation massage apparatus through the limit connecting structure; and/or the presence of a gas in the gas,

the first liquid absorption layer is a sponge layer or a liquid absorption cloth layer, and/or the second liquid absorption layer is a sponge layer or a liquid absorption cloth layer; and/or the presence of a gas in the gas,

the liquid storage shell is provided with a top surface used for being pressed and an outer peripheral surface arranged adjacent to the top surface, a drainage groove is formed in the outer peripheral surface of the liquid storage shell and used for draining conductive liquid, and/or the first liquid absorbing layer is at least arranged on the top surface of the liquid storage shell.

Further, in a preferred scheme of some embodiments, the limit connecting structure is a magnetic member disposed on the liquid storage shell; or the limiting connection structure is an adhesive layer arranged on the liquid storage shell; or the limiting connection structure is a buckle or a clamping groove arranged on the liquid storage shell.

In order to solve the technical problem, an embodiment of the present invention further provides a wearable electrical stimulation massage device, which adopts the following technical scheme: the wearable electric stimulation massage device comprises:

a flexible wearing body having a skin proximal surface and a skin back surface;

an electrode assembly, wherein the electrode assembly is provided with an electric stimulation massage surface exposed on the near-skin surface, and the electrode assembly and/or the flexible wearable body are provided with a placement groove close to or positioned on the electric stimulation massage surface, and the placement groove is used for limiting and installing the liquid storage piece according to any one of claims 1-3;

the blocking piece is fixedly installed in the placing groove, or the blocking piece forms a bottom groove wall of the placing groove, and a first avoiding through hole is formed in the blocking piece;

the puncture structure comprises a puncture part, the puncture part is positioned on one side of the blocking part far away from the electric stimulation massage surface, the puncture part is arranged corresponding to the first avoidance through hole, the puncture part is movably arranged in the thickness direction of the flexible wearable body, and the puncture part is used for moving towards the direction close to the electric stimulation massage surface when being acted by external force, so that the puncture part penetrates through the first avoidance through hole to puncture the liquid storage part in the placing groove, and the conductive liquid in the liquid storage part flows to the electric stimulation massage surface.

Further, in a preferable scheme of some embodiments, when the blocking member is fixedly installed in the placing groove, a second avoiding through hole corresponding to the first avoiding through hole is formed in a bottom groove wall of the placing groove, and the puncturing portion is arranged corresponding to the second avoiding through hole; and/or the presence of a gas in the gas,

the puncture structure also comprises a substrate, and the puncture part is arranged on the substrate; the base plate is movably arranged on the groove wall of the placing groove, so that the puncturing part can be movably arranged in the thickness direction of the flexible wearing body; or the base plate is arranged on the groove wall of the placing groove, and at least part of the base plate has deformability, so that the puncture part can be movably arranged in the thickness direction of the flexible wearing body.

Further, in a preferable scheme of some embodiments, the wearable electrical stimulation massage device further includes an auxiliary moving mechanism, the auxiliary moving mechanism includes a driving portion, the driving portion is located on a side of the puncturing portion away from the electrical stimulation massage surface, and the driving portion is configured to drive the puncturing portion to move in a direction close to or away from the electrical stimulation massage surface.

Further, in a preferable scheme of some embodiments, the driving portion is an air bag, the air bag is disposed outside a groove wall of the placing groove, and the air bag is configured to drive the puncturing portion to move towards a direction close to the liquid storage member when the air bag is inflated; and/or the presence of a gas in the gas,

the puncturing structure is mounted to the driving portion.

Further, in a preferable scheme of some embodiments, the driving portion is an air bag, the air bag is disposed on an outer side of a groove wall of the placement groove, and the air bag is configured to drive the puncture portion to move in a direction close to the liquid storage member when expanding;

the electrode assembly comprises an electrode plate with the electric stimulation massage surface, the electrode plate is installed on the near-skin surface, and at least part of the projection of the air bag on the electrode plate is overlapped with the electrode plate, so that the air bag is used for driving the electrode assembly to move towards the direction close to the target position when expanding.

Further, in a preferable mode of some embodiments, the puncturing structure further includes an elastic member, one end of the elastic member acts on the blocking member, and the other end of the elastic member acts on the puncturing part, so that the puncturing part has a resetting tendency.

Further, in a preferable mode of some embodiments, the puncture part is at a maximum position extending into the first avoiding through hole, and a tip of the puncture part is lower than the electric stimulation massage surface.

Further, in a preferable aspect of some embodiments, the electrode assembly includes an electrode sheet having the electrical stimulation massage surface, the electrode sheet is mounted on the skin proximal surface, the wearable electrical stimulation massage apparatus further includes a placement member mounted on the flexible wearable body, the placement groove is formed in the placement member, and a mounting opening corresponding to the placement groove is formed in the electrical stimulation massage surface, so that the placement groove is exposed on the electrical stimulation massage surface.

Further, in a preferable mode of some embodiments, the electrode sheet includes a bent portion provided on a periphery of the mounting opening, and the bent portion is connected to a side surface of the placement groove, or the bent portion is connected to a peripheral side surface of the placement member.

Further, in a preferable scheme of some embodiments, the wearable electrical stimulation massager further includes a support member, the support member is mounted on the flexible wearable body, the support member has a support groove, the placing member is mounted in the support groove, the support member has a support surface facing the electrode sheet, the electrode sheet is supported on the support surface, and the bending portion is connected between the placing member and the support groove.

Further, in a preferable mode of some embodiments, the placement grooves are formed in the electric stimulation massage surface, and the electric stimulation massage surface protrudes out of the skin near surface.

Further, in a preferable scheme of some embodiments, the flexible wearable body comprises a surface layer, a bottom layer and an elastic filling layer, the surface layer is connected with the periphery of the bottom layer, the skin-proximal surface is arranged on the surface layer, and the back surface is arranged on the bottom layer; the elastic filling layer is at least partially filled between the surface layer and the bottom layer;

the electrode plate is connected to the surface layer and/or the elastic filling layer.

Further, in a preferable scheme of some embodiments, the wearable electrical stimulation massage apparatus further includes a placement member, the placement member is mounted on the elastic filling layer, the placement groove is formed in the placement member, and a mounting opening corresponding to the placement groove is formed in the electrical stimulation massage surface, so that the placement groove is exposed on the electrical stimulation massage surface.

Further, in a preferred scheme of some embodiments, the elastic filling layer includes a supporting layer and an inner filling layer disposed between the surface layer and the bottom layer, the surface layer is provided with a connection port, the supporting layer is disposed on one side of the inner filling layer facing the skin proximal surface, the supporting layer is disposed on the connection port, the supporting layer protrudes from the skin proximal surface, the placing member is mounted on the supporting layer, and the electrode sheet is supported on the supporting layer so that the electric stimulation massage surface protrudes from the skin proximal surface; alternatively, the first and second electrodes may be,

the elastic filling layer is arranged between the surface layer and the bottom layer, the surface layer is provided with a connecting port, the placing piece is connected to the elastic filling layer and protrudes out of the near-skin surface through the connecting port, the placing groove is formed in the side face of the placing piece protruding out of the near-skin surface, and the electrode slice is supported on the placing piece so that the electric stimulation massage surface protrudes out of the near-skin surface.

Further, in a preferable scheme of some embodiments, the wearable electric stimulation massage device further comprises a heating component, and the heating component is positioned outside the placing groove; the heating assembly comprises a local heating part which is arranged corresponding to the placing groove and used for heating the conductive liquid in the liquid storage part in the placing groove.

Compared with the prior art, the liquid storage part and the wearable electrical stimulation massage device provided by the embodiment of the invention have the following main beneficial effects:

the wearable electric stimulation massage device is provided with a blocking piece and a puncture part which can be movably arranged in the thickness direction of the flexible wearable body, wherein the blocking piece is provided with a first avoidance hole, the puncture part is positioned on one side of the blocking piece, which is far away from an electric stimulation massage surface, and the puncture part is arranged corresponding to the first avoidance through hole. Understandably, when the puncture part is under the action of external force, the puncture part moves towards the direction close to the electric stimulation massage surface, so that the puncture part passes through the first avoidance through hole to puncture the liquid storage part in the placing groove, so that the conductive liquid inside the liquid storage part flows towards the electric stimulation massage surface, the rapid conduction between the humidity of the skin and the auxiliary electrode assembly and the human body is ensured, the massage stimulation received by the user is more stable, and the use experience of the user is improved. Simultaneously, can avoid puncturing the portion direct exposure to the standing groove through blockking the piece, prevent that skin or finger from being punctured by puncturing the portion when stretching into the standing groove to ensure user's safety.

Drawings

In order to illustrate the solution of the invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are some embodiments of the invention, and that other drawings may be derived from these drawings by a person skilled in the art without inventive effort. Wherein:

fig. 1 is a schematic perspective view of a wearable electrical stimulation massage device according to an embodiment of the present invention;

fig. 2 is a schematic exploded view of the wearable electrical stimulation massage device of fig. 1;

FIG. 3 is a perspective view of the electrode assembly of FIG. 2;

FIG. 4 is an exploded view of the electrode assembly of FIG. 3;

FIG. 5 is a schematic cross-sectional view of the electrode assembly of FIG. 3;

FIG. 6 is a first schematic view of a barrier according to an embodiment of the present invention;

FIG. 7 is a second schematic structural diagram of a blocking member according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a first exemplary embodiment of a puncture structure in which a substrate is movable;

FIG. 9 is a second schematic structural view of a piercing structure in an embodiment of the invention, wherein the substrate is deformable;

FIG. 10 is a schematic view of an embodiment of the invention in an in-use condition of the bladder, wherein the bladder is in an inflated condition;

FIG. 11 is a second schematic view of an embodiment of the invention in a use configuration of the bladder, wherein the bladder is in a deflated configuration;

FIG. 12 is a first schematic view of a placement slot in accordance with an embodiment of the present invention;

FIG. 13 is a second schematic structural view of a placement slot in accordance with an embodiment of the present invention;

FIG. 14 is a third schematic view of the structure of the placement trough in one embodiment of the present invention;

fig. 15 is a schematic cross-sectional view of a reservoir.

The reference numbers in the drawings are as follows:

100. a wearable electrical stimulation massage device; 200. a liquid storage member;

110. a flexible wearing body; 111. a surface layer; 1111. a connection port; 112. a bottom layer; 113. an elastic filling layer; 1131. a support layer; 1132. an inner filling layer;

120. an electrode assembly; 121. an electrode sheet; 1211. a bending part;

130. a blocking member; 131. a first avoidance through hole;

140. piercing the structure; 141. a piercing section; 142. a substrate;

150. a placement groove; 151. a second avoidance through hole;

160. a drive portion/bladder;

170. an elastic member;

180. placing the piece;

190. a support member;

210. a liquid storage shell;

220. a liquid storage cavity.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, e.g., the terms "length," "width," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc., refer to an orientation or position based on that shown in the drawings, are for convenience of description only and are not to be construed as limiting of the present disclosure.

The terms "including" and "having," and any variations thereof, in the description and claims of this invention and the description of the above figures are intended to cover non-exclusive inclusions; the terms "first," "second," and the like in the description and in the claims, or in the drawings, are used for distinguishing between different objects and not necessarily for describing a particular sequential order. The meaning of "plurality" is two or more unless specifically limited otherwise.

In the description and claims of the present invention and in the description of the above figures, when an element is referred to as being "fixed" or "mounted" or "disposed" or "connected" to another element, it may be directly or indirectly located on the other element. For example, when an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

Furthermore, reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The embodiment of the invention provides a wearable electrical stimulation massage device 100, which is used for performing electrical stimulation massage on a human body. The wearable electrical stimulation massage apparatus 100 may include, but is not limited to, a neck-hanging type massage apparatus, a shoulder-hanging type massage apparatus, an arm-encircling type massage apparatus, a leg-encircling type massage apparatus, a waist massage apparatus, and the like, and such a wearable electrical stimulation massage apparatus 100 generally includes a wearing body adapted to be worn or worn on a human body and an electrode assembly 120 mounted on the wearing body, wherein when the wearing body is worn on the human body (corresponding portion), the electrode assembly 120 is used for massaging the human body.

Specifically, when the wearable electrical stimulation massage apparatus 100 is a neck hanging type massage apparatus, the wearing body is a wearing support which defines a neck surrounding space for hanging on the neck, so that the electrode assembly 120 is used for electrical stimulation massage on the neck; when the wearable electrical stimulation massage device 100 is a shawl and a massage apparatus, the wearing body is a shawl body for wearing on the shoulder, so that the electrode assembly 120 is used for electrical stimulation massage on the shoulder (such as trapezius muscle); when the wearable electrical stimulation massage device 100 is a circular arm type massage apparatus, the wearing body defines a circular arm space for wearing at the lower arm or the upper arm, so that the electrode assembly 120 is used for performing electrical stimulation massage on the arm; when the wearable electrical stimulation massage apparatus 100 is a leg-encircling massager, the wearing body defines a leg-encircling space for wearing on a leg (a lower leg or an upper leg) so that the electrode assembly 120 is used for electrical stimulation massage on the leg; when the wearable electric stimulation massage apparatus 100 is a waist massager, the wearing body defines a waist wrapping space for wrapping and wearing on the waist, so that the electrode assembly 120 is used for electric stimulation massage or the like on the waist.

For convenience of explanation, the wearable electrical stimulation massage device 100 is mainly used as a lumbar massager as an example, but this is not intended to limit the present application.

As shown in fig. 1 to 4, the wearable electrical stimulation massage device 100 includes a flexible wearing body 110, an electrode assembly 120, a barrier 130, and a puncture structure 140. The flexible wearing body 110 has a skin-close surface and a skin-back surface, the skin-close surface is a surface of the flexible wearing body 110 close to the skin of the human body, and the skin-back surface is a surface of the flexible wearing body 110 far away from the skin of the human body. It should be noted that the flexible wearable body 110 has flexible deformability, and can be worn around the waist of a human body to be suitable for the waist contours and sizes of different users, so as to expand the user range, and meet the requirements of users with different body types.

Wherein, the electrode assembly 120 is mounted on the flexible wearing body 110, and the electrode assembly 120 has an electrical stimulation massage surface (not shown) exposed to the near-skin surface for outputting an electrical pulse signal so as to enable electrical stimulation massage to the human body. It can be understood that after the flexible wearing body 110 is worn around the waist of the human body, the surface of the flexible wearing body 110 generates a tightening force, so that the electrical stimulation massage surface of the electrode assembly 120 is tightly pressed against the massage part, and after the electricity is applied, the electrode assembly 120 can be conducted with the human body at the massage part to form a current loop, thereby achieving the effect of electrical stimulation massage.

In the present embodiment, as shown in fig. 1, the number of the electrode assemblies 120 is two. Of course, in other embodiments, in order to better massage the massage part, more than two electrode assemblies 120 may be provided, so that the wearable electrical stimulation massage device 100 may massage a plurality of parts at a time, or implement a plurality of massage modes, thereby improving the massage effect.

In addition, the electrode assembly 120 and/or the flexible wearing body 110 has a placement groove 150 disposed near the electric stimulation massage surface, and the placement groove 150 is used for position-limited installation of the liquid storage part 200. Specifically, in an alternative embodiment, the electrode module 120 has a placement groove 150 disposed near the electric stimulation massage face; or, in another alternative embodiment, the flexible wearing body 110 has a placement groove 150 disposed near the electric stimulation massage face; alternatively, in still another alternative embodiment, the electrode assembly 120 and the flexible wearing body 110 each have a placement groove 150 disposed near the electrical stimulation massage surface.

In addition, in an alternative embodiment, as shown in fig. 6 and 7, the blocking member 130 is fixedly installed in the placement groove 150. Or, in another alternative embodiment, the blocking member 130 forms a bottom wall of the placement groove 150. The blocking member 130 is provided with a first avoiding through hole 131, the puncturing structure 140 includes a puncturing portion 141, the puncturing portion 141 is located on one side of the blocking member 130 away from the electric stimulation massage surface, the puncturing portion 141 is arranged corresponding to the first avoiding through hole 131, and the puncturing portion 141 is movably arranged in the thickness direction of the flexible wearable body 110.

It can be understood that when the puncturing part 141 is acted by an external force, the puncturing part 141 moves towards a direction close to the electric stimulation massage surface, so that the puncturing part 141 penetrates through the first avoiding through hole 131 to puncture the liquid storage part 200 in the placing groove 150, and the conductive liquid in the liquid storage part 200 flows to the electric stimulation massage surface, thereby ensuring the skin wettability and the rapid conduction between the auxiliary electrode assembly 120 and the human body.

On one hand, when the liquid storage member 200 is not restricted to be mounted in the placement groove 150, the blocking member 130 can prevent fingers or skin of a user from extending into the placement groove 150 and being pricked by the pricking part 141; on the other hand, when the user replaces the reservoir 200, the stopper 130 can prevent the user's fingers or skin from being stuck by the puncture portion 141 by inserting them into the placement groove 150. Therefore, the use safety of the wearable electrical stimulation massage device 100 is improved, and the use experience of the user is improved.

Specifically, the puncturing part 141 may be at least one of a lancet, or a prick. The piercing part 141 is a needle, which is relatively sharp and small, and can pierce the liquid storage component 200 with a small force to make the conductive liquid inside flow out. Or, the puncturing part 141 is a bayonet, and the hole left by the bayonet for puncturing the liquid storage part 200 is large, so that the conductive liquid in the liquid storage part 200 can flow out quickly to moisten the electric stimulation massage surface and the skin of the human body. Preferably, the puncturing part 141 is a prick, the prick is relatively sharp, and the hole left after the liquid storage part 200 is punctured is relatively large, so that the flowing speed of the conductive liquid is high.

To sum up, compare prior art, this wearable electric stimulation massage device 100 has following beneficial effect at least: the wearable electrical stimulation massage device 100 is provided with a blocking part 130 and a puncturing part 141 which can be movably arranged in the thickness direction of the flexible wearable body 110, wherein the blocking part 130 is provided with a first avoiding hole, the puncturing part 141 is positioned on one side of the blocking part 130 far away from the electrical stimulation massage surface, and the puncturing part 141 is arranged corresponding to the first avoiding through hole 131. It can be understood that, when the puncturing portion 141 is under the action of an external force, the puncturing portion 141 moves towards the direction close to the electric stimulation massage surface, so that the puncturing portion 141 penetrates through the first avoiding through hole 131 to puncture the liquid storage part 200 in the placing groove 150, so that the conductive liquid inside the liquid storage part 200 flows to the electric stimulation massage surface, the moisture degree of the skin and the quick conduction between the auxiliary electrode assembly 120 and the human body are ensured, the massage stimulation received by the user is more stable, and the use experience feeling of the user is improved. Meanwhile, the barrier 130 can prevent the puncturing part 141 from being directly exposed to the placement groove 150, and prevent skin or fingers from being punctured by the puncturing part 141 when the skin or fingers are inserted into the placement groove 150, thereby ensuring safety of a user.

In order to make the technical solution of the present invention better understood by those skilled in the art, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 15.

Further, as a specific implementation manner in some embodiments of the present invention, as shown in fig. 6, when the blocking member 130 is fixedly installed in the placement groove 150, the bottom wall of the placement groove 150 is provided with a second avoiding through hole 151 corresponding to the first avoiding through hole 131, and the puncturing portion 141 is provided corresponding to the second avoiding through hole 151, so that the puncturing portion 141 can penetrate through the blocking member 130 to puncture the liquid storage member 200 in the placement groove 150. The puncturing part 141 is provided corresponding to the second escape through hole 151, and is provided on the side of the bottom wall of the placement groove 150 facing the electric stimulation massage surface, and is also provided in the second escape through hole 151.

As can be understood, when the puncturing part 141 is acted by an external force, the puncturing part 141 moves towards a direction close to the electrostimulation massage surface, and the puncturing part 141 sequentially passes through the second avoiding through hole 151 and the first avoiding through hole 131, so as to puncture the liquid storage part 200 in the placement groove 150, so that the conductive liquid in the liquid storage part 200 flows to the electrostimulation massage surface.

Further, as a specific implementation manner in some embodiments of the present invention, as shown in fig. 7 and 8, the puncturing structure 140 further includes a base plate 142, the base plate 142 is movably mounted on a groove wall of the placing groove 150, and the puncturing part 141 is disposed on the base plate 142, so that the puncturing part 141 is movably disposed in a thickness direction of the flexible wearable body 110.

It is understood that when the substrate 142 is subjected to an external force in a direction toward the barrier 130, the substrate 142 can move in a direction close to the barrier 130 to allow the puncturing portion 141 to pass through the first avoiding through hole 131, thereby puncturing the reservoir 200; when the base plate 142 is acted by an external force in a direction away from the barrier 130, the base plate 142 can move in the direction away from the barrier 130 to restore the puncturing part 141 to the initial position, so as to prevent the puncturing part 141 from being exposed in the placing groove 150 and scratching the finger or skin of the user.

Alternatively, in another alternative embodiment, as shown in fig. 9, the base plate 142 is mounted on the groove wall of the placement groove 150, and the base plate 142 is at least partially deformable, so that the puncturing part 141 can be movably disposed in the thickness direction of the flexible wearable body 110. As can be appreciated, when the substrate 142 is subjected to an external force, the substrate 142 is subjected to an elastic deformation, and the elastic portion of the substrate 142 moves toward the blocking member 130 until the puncturing portion 141 passes through the first avoiding through hole 131 to puncture the liquid storage member 200. When the external force of the base plate 142 is removed, the base plate 142 moves in a direction away from the puncturing part 141 due to the reaction force generated by the elastic deformation of the base plate 142, and returns to the initial position, i.e., the puncturing part 141 returns to the initial position, so as to prevent the puncturing part 141 from being exposed in the placing groove 150 and scratching the finger or skin of the user.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, as shown in fig. 10 and 11, the wearable electrical stimulation massage device 100 further includes an auxiliary moving mechanism, the auxiliary moving mechanism includes a driving portion 160, the driving portion 160 is located on a side of the puncturing portion 141 far away from the electrical stimulation massage surface, and the driving portion 160 is configured to drive the puncturing portion 141 to move toward or away from the electrical stimulation massage surface.

In this embodiment, the driving portion 160 is an air bag, the air bag 160 is disposed outside the wall of the placement tank 150, and the air bag 160 is used to drive the puncturing portion 141 to move toward the liquid storage member 200 when the air bag is inflated. As can be appreciated, when the air bag 160 is inflated, the outer surface of the air bag 160 acts on the puncturing part 141, and as the volume of the air bag 160 increases, the puncturing part 141 gradually moves towards the direction close to the liquid storage part 200, so that the puncturing part 141 penetrates through the first avoiding through hole 131 to puncture the liquid storage part 200 in the placement groove 150, and the conductive liquid in the liquid storage part 200 flows to the electrostimulation massage surface;

when the air bag 160 is deflated, the puncturing portion 141 is gradually moved away from the liquid storage member 200 due to the gradual reduction of the volume of the air bag 160, so that the puncturing portion 141 returns to the initial position, thereby preventing the puncturing portion 141 from being exposed in the placement groove 150 and scratching the fingers or skin of the user.

It should be noted that the above-mentioned actions may be direct actions, such as the puncturing part 141 is fixedly connected to the airbag 160; alternatively, the puncture portion 141 may be indirectly engaged, for example, with the balloon 160. As long as the puncturing part 141 can be driven to move in a direction close to or away from the electric stimulation massage surface.

Illustratively, the puncturing structure 140 is mounted to the driving portion 160 such that the driving portion 160 acts directly on the puncturing portion 141. Specifically, the puncturing portion 141 is fixedly connected to the outer surface of the airbag 160, wherein the fixed connection may be adhered by glue, and of course, in other embodiments, other suitable fixed connection manners may also be adopted, which is not limited in the present invention and can be adaptively adjusted by those skilled in the art.

It should be noted that the wearable electrical stimulation massage device 100 may not be provided with an auxiliary moving mechanism, and the puncturing portion 141 is squeezed directly by the tightening force generated when the flexible wearable body 110 is worn on the human body, so that the puncturing portion 141 moves toward the direction close to the liquid storage member 200, and the liquid storage member 200 in the placement groove 150 is punctured, so that the conductive liquid in the liquid storage member 200 flows to the electrical stimulation massage surface.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, the electrode assembly 120 includes an electrode pad 121 having an electrical stimulation massage surface, the electrode pad 121 is mounted on the skin proximal surface, and a projection of the air bag 160 on the electrode pad 121 at least partially overlaps with the electrode pad 121, so that the air bag 160 is used for driving the electrode assembly 120 to move toward the target site when expanding.

It can be understood that, when the air bag 160 expands, along with the increase of the volume of the air bag 160, at least a portion of the outer surface of the air bag 160 acts on the electrode sheet 121 to drive the electrode sheet 121 to gradually move toward the direction close to the massage portion, i.e., drive the electrode assembly 120 to gradually move toward the direction close to the massage portion, thereby avoiding a gap between the electrical stimulation massage surface and the massage portion, and ensuring the close contact between the electrical stimulation massage surface and the massage portion to achieve a better massage effect.

Further, as an embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, as shown in fig. 7, the puncturing structure 140 further includes an elastic member 170, one end of the elastic member 170 acts on the blocking member 130, and the other end of the elastic member 170 acts on the puncturing portion 141, so that the puncturing portion 141 has a tendency to return. It should be noted that the above-mentioned action may be a direct action (e.g., connected to the stopper 130 and connected to the puncturing part 141), or may be an indirect action (e.g., abutting against the stopper 130 and abutting against the puncturing part 141).

It will be appreciated that when an external force is applied to the puncturing portion 141, the puncturing portion 141 is moved in a direction partially or entirely close to the barrier 130, and the elastic member 170 is compressed by the force applied to the puncturing portion 141, until the puncturing portion 141 punctures the liquid storage member 200. When the external force applied to the puncturing part 141 is removed, the puncturing part 141 moves away from the blocking member 130 due to the reaction force of the elastic member 170, and returns to the initial position, thereby preventing the puncturing part 141 from being directly exposed to the accommodating groove 150 and scratching the finger or skin of the user.

In addition, when the external force acting on the puncturing part 141 is removed, the elastic member 170 can ensure that the puncturing part 141 is always kept at the position of the blocking member 130, so as to prevent the puncturing part 141 from being directly exposed to the placing groove 150, and further prevent the puncturing part 141 from scratching the fingers or skin of the user.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, the puncturing part 141 is located at the maximum position extending into the first avoiding through hole 131, and the end of the puncturing part 141 is lower than the electrical stimulation massage surface, so as to prevent the puncturing part 141 from extending into the placing groove 150 too deep and protruding out of the electrical stimulation massage surface to puncture the skin surface of the human body.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, as shown in fig. 5 and 12, the electrode assembly 120 includes an electrode pad 121 having an electrical stimulation massage surface, and the electrode pad 121 is mounted on the skin proximal surface so that the electrical stimulation massage surface of the electrode pad 121 is attached to the skin of the human body. The electrode sheet 121 is a flexible electrode sheet 121, and the flexible electrode sheet 121 can be flexibly deformed along with the flexible wearable body 110. For example, the electrode sheet 121 may be a conductive film (e.g., a PET film), a PU conductive sheet, a conductive rubber, a conductive silicone, a conductive cloth, a conductive sponge, or the like.

Therefore, the flexible electrode sheet 121 has good shape following performance, that is, the flexible electrode sheet 121 can deform along with the deformation of the flexible wearing body 110, can better fit the skin of a human body, and improves the massage comfort. And the problem of stress concentration between the flexible electrode sheet 121 and the flexible wearing body 110 is avoided, so that the connection strength between the flexible electrode sheet 121 and the flexible wearing body 110 is ensured.

In order to shape the liquid storage part 200, the wearable electrical stimulation massage device 100 further includes a placement part 180, the placement part 180 is mounted on the flexible wearable body 110, and the placement groove 150 is formed in the placement part 180. Specifically, the groove shape of the placement groove 150 is irregular or tapered, and the liquid storage member 200 is adapted to the placement groove 150, so that the liquid storage member 200 can be accommodated in the placement groove 150 in a fixed posture.

In addition, the electric stimulation massage surface is provided with an installation opening (not shown) corresponding to the placement groove 150 so that the placement groove 150 is exposed from the electric stimulation massage surface. It can be understood that, after the liquid storage part 200 is limitedly installed in the placement groove 150, the liquid storage part 200 can be exposed to the electrostimulation massage surface through the installation opening. That is, after the flexible wearing body 110 is worn around the waist of the human body, the electrical stimulation massage surface is tightly pressed against the massage part, and the liquid storage part 200 can also be tightly pressed against the massage part, so that after the puncture part 141 punctures the liquid storage part 200, the conductive liquid in the liquid storage part 200 can flow to the space between the electrical stimulation massage surface and the massage part, thereby moistening the skin attached to the electrical stimulation massage surface.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, in order to improve the stability of the mounting of the electrode pad 121, the electrode pad 121 includes a bent portion 1211 disposed on the periphery of the mounting opening, and the bent portion 1211 is connected to the side surface of the placement groove 150. Illustratively, the bent portion is adhered to the side surface of the placement groove 150 by glue to improve the stability of the installation of the electrode tab 121. Of course, in other embodiments, welding, or snap-fit connection may also be adopted, which is not limited in the present invention and can be adaptively adjusted by those skilled in the art.

It can be understood that, after the flexible wearing body 110 is worn around the waist of the human body, the electrode sheet 121 and the flexible wearing body 110 are flexibly deformed together, and at this time, the electrode sheet 121 generates an elastic acting force due to the flexible deformation, so that the electrode sheet 121 tends to move. However, the bending portion 1211 is fixedly connected to the side surface of the placement groove 150, so that the movement of the electrode tab 121 can be prevented, the risk of the electrode tab 121 falling off due to excessive flexible deformation can be reduced, and the stability of mounting the electrode tab 121 can be enhanced.

Alternatively, in another alternative embodiment, the bending portion 1211 is connected to the peripheral side surface of the placing member 180, and the specific arrangement manner thereof can refer to the above embodiment, which is not described herein.

Further, as shown in fig. 12 to 14, as an embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, the wearable electrical stimulation massage device 100 further includes a supporting member 190, the supporting member 190 is mounted on the flexible wearing body 110, the supporting member 190 has a supporting groove (not shown), the placing member 180 is mounted in the supporting groove, the supporting member 190 has a supporting surface (not shown) facing the electrode sheet 121, the electrode sheet 121 is supported on the supporting surface, and the bending portion 1211 is connected between the placing member 180 and the supporting groove.

Thus, the connecting parts of the support member 190, the placing member 180 and the bending part 1211 form the placing groove 150 together, so that the structural stability of the placing groove 150 is improved; the second bending portion 1211 is connected between the supporting groove and the placing member 180, so that the probability that the electrode tab 121 is gradually separated from the supporting member 190 can be reduced, and the mounting stability of the electrode tab 121 can be improved.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, the placement groove 150 is disposed on the electrical stimulation massage surface, so that the liquid storage member 200 can be positioned and mounted in the placement groove 150 and then can be directed to the massage part, and so that after the puncturing part 141 punctures the liquid storage member 200, the conductive liquid in the liquid storage member 200 can flow to the electrical stimulation massage surface, thereby wetting the skin attached to the electrical stimulation massage surface.

Wherein, the electric stimulation massage surface protrudes out of the near-skin surface. It can be understood that, when the flexible wearing body 110 is worn around the waist of the human body, the electrical stimulation massage surface is firstly contacted with the massage part, and then the lower concave part of the massage part is compensated by the tightening force generated on the surface of the flexible wearing body 110, so as to avoid the gap between the electrical stimulation massage surface and the massage part and ensure the fit between the electrical stimulation massage surface and the massage part. In addition, the skin can be deformed when the convex electric stimulation massage surface is attached to the skin, so that the skin is attached to the pressure, the electric stimulation massage surface is closely attached to the skin, and a better massage effect is achieved.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, as shown in fig. 12 to 14, the flexible wearing body 110 includes a surface layer 111, a bottom layer 112 and an elastic filling layer 113, wherein the periphery of the bottom layer 112 of the surface layer 111 is connected, the skin-proximal surface is disposed on the surface layer 111, and the skin-back surface is disposed on the bottom layer 112. Wherein, surface course 111 and bottom 112 are the laminar structure that flexible or elastic material made to surface course 111 and bottom 112 can range upon range of setting, and when the user used wearable electric stimulation massage device 100, surface course 111 and bottom 112 can take place flexibility or elastic deformation together like this, thereby make wearable electric stimulation massage device 100 all laminate closely with different users ' waist, can promote wearable electric stimulation massage device 100's suitability, also can improve user's use experience.

Specifically, the periphery of the top layer 111 and the bottom layer 112 are connected by at least one of pressing, sewing and bonding. Illustratively, the edge of the surface layer 111 is provided with an outward-facing outward-turned-over edge (not shown), the edge of the bottom layer 112 is provided with an outward-facing inward-turned-over edge (not shown), and the surface layer 111 and the bottom layer 112 can be fixedly connected by press-fitting the outward-turned-over edge of the surface layer 111 and the inward-turned-over edge of the bottom layer 112, so that the stability and firmness of the connection between the surface layer 111 and the bottom layer 112 can be improved.

The elastic filling layer 113 is at least partially filled between the surface layer 111 and the bottom layer 112. In particular, the elastic filling layer 113 is made of a flexible or elastic material, such as: heat conducting sponge, heat conducting silica gel, etc. From this, under the prerequisite of guaranteeing wearable electrical stimulation massage device 100 compliance, can promote wearable electrical stimulation massage device 100's design nature to a certain extent, so set up, when flexible wearing body 110 is fixed at the waist around establishing, can make flexible wearing body 110 be difficult for taking place to curl and pile up or corrugate, can comparatively smooth spreading, guarantee to wear stability.

Additionally, in an alternative embodiment, the electrode pads 121 are attached to the facing layer 111. Alternatively, in another alternative embodiment, the electrode pads 121 are attached to the elastic filling layer 113; or, in yet another alternative embodiment. The electrode sheet 121 is partially connected to the surface layer 111 and partially connected to the elastic filling layer 113.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, the wearable electrical stimulation massage device 100 further comprises a placement member 180, the placement member 180 is mounted on the elastic filling layer 113, the placement groove 150 is formed on the placement member 180, and a mounting opening corresponding to the placement groove 150 is formed on the electrical stimulation massage surface, so that the placement groove 150 is exposed on the electrical stimulation massage surface.

In an alternative embodiment, the elastic filling layer 113 includes a supporting layer 1131 and an inner filling layer 1132 disposed between the surface layer 111 and the bottom layer 112, the surface layer 111 is provided with a connection port 1111, the supporting layer 1131 is disposed on a side of the inner filling layer 1132 facing the skin proximal surface, the supporting layer 1131 is disposed on the connection port 1111, the supporting layer 1131 protrudes from the skin proximal surface, the placing member 180 is mounted on the supporting layer 1131, and the electrode pad 121 is supported on the supporting layer 1131 so as to protrude the electrical stimulation massage surface from the skin proximal surface.

Or, in another alternative embodiment, the elastic filling layer 113 is arranged between the surface layer 111 and the bottom layer 112, the surface layer 111 is provided with a connecting port 1111, the placing member 180 is connected to the elastic filling layer 113, the placing member 180 protrudes out of the near-skin surface through the connecting port 1111, the placing groove 150 is arranged on the side surface of the placing member 180 protruding out of the near-skin surface, and the electrode sheet 121 is supported on the placing member 180 so that the electrostimulation massage surface protrudes out of the near-skin surface.

Further, as a specific embodiment of the wearable electrical stimulation massage device 100 provided by the present invention, the wearable electrical stimulation massage device 100 further includes a heating component (not shown), the heating component is located outside the placing slot 150, and the heating component includes a local heating portion corresponding to the placing slot 150, so as to heat the conductive liquid of the liquid storage member 200 in the placing slot 150. It can be understood that, when the ambient temperature is low (for example, when the temperature is low in winter), the heating element may heat the groove wall of the placement groove 150 first, and then the groove wall of the placement groove 150 transfers heat to the liquid storage part 200, so that the temperature of the conductive liquid in the liquid storage part 200 rises, thereby preventing the conductive liquid that is too cold from causing stimulation to the user and affecting the massage experience of the user.

Based on the wearable electrical stimulation massage device 100, an embodiment of the present invention further provides a liquid storage device 200, wherein as shown in fig. 3, 12 and 15, the liquid storage device 200 includes a liquid storage casing 210, a liquid storage cavity 220 is formed inside the liquid storage casing 210, and a conductive liquid is stored in the liquid storage cavity 220. Specifically, the conductive liquid may be water, physiological saline, a drug solution, or other conductive liquids that are relatively mild and harmless to the human body.

It should be noted that, after the liquid storage part 200 is pierced, the conductive liquid flows to the electrical stimulation massage surface, so as to wet the skin attached to the electrical stimulation massage surface, so that the resistance distribution between the electrical stimulation massage surface and the skin is relatively uniform, so that the massage current distribution between the electrical stimulation massage surface and the skin is relatively uniform, the moisture of the skin and the rapid conduction between the auxiliary electrode assembly 120 and the human body are favorably ensured, the massage stimulation received by the user is more stable, and the use experience of the user is favorably improved.

The liquid storage member 200 further includes a first liquid absorbing layer (not shown) disposed on an outer surface of the liquid storage casing 210, the first liquid absorbing layer is used for absorbing the conductive liquid flowing out from the liquid storage cavity 220, and/or a second liquid absorbing layer (not shown) disposed in the liquid storage cavity 220.

Specifically, in an alternative embodiment, the wicking layer is disposed on an outer surface of the reservoir 210. In another alternative embodiment, a liquid absorbent layer is disposed within the reservoir chamber 220. In yet another alternative embodiment, a liquid absorbent layer is disposed on both the outer surface of the reservoir housing 210 and the reservoir cavity 220.

It will be appreciated that the wicking layer is disposed on the outer surface of the reservoir housing 210, within the reservoir cavity 220, or both the outer surface of the reservoir housing 210 and the reservoir cavity 220. When the liquid storage part 200 is punctured, the conductive liquid flows out of the liquid storage cavity 220 and flows to the electric stimulation massage surface to moisten the skin. Meanwhile, the liquid absorbing layer can absorb redundant conductive liquid, so that the conductive liquid is prevented from flowing out too much and sliding down along the skin of a human body; and the flowing speed of the conductive liquid can be slowed down, the waste of the conductive liquid is avoided, the service life of the conductive liquid is prolonged, and the cost is saved.

In summary, compared with the prior art, the liquid storage part 200 has at least the following beneficial effects: on one hand, after the liquid storage part 200 is punctured, the conductive liquid flows to the electric stimulation massage surface, so that the skin attached to the electric stimulation massage surface can be moistened, the resistance between the electric stimulation massage surface and the skin is uniformly distributed, the massage current between the electric stimulation massage surface and the skin is uniformly distributed, the moisture degree of the skin and the quick conduction between the auxiliary electrode assembly 120 and a human body are ensured, the massage stimulation on a user is more stable, and the use experience of the user is improved;

on the other hand, this stock solution spare 200 can absorb unnecessary conducting solution through setting up imbibition layer one, avoids the conducting solution to flow too much along human skin landing, and two can also slow down the speed that the conducting solution flows, avoids the waste of conducting solution, and it is long when increasing the use of conducting solution to practice thrift the cost.

Further, as a specific implementation manner in some embodiments of the present invention, the first liquid absorbing layer is disposed on at least the top surface of the liquid storage case 210 to ensure that the liquid storage member 200 can absorb the conductive liquid flowing out from the liquid storage cavity 220.

Specifically, the first liquid absorption layer is a sponge layer or a liquid absorption cloth layer, and/or the second liquid absorption layer is a sponge layer or a liquid absorption cloth layer. Preferably, the first liquid absorbing layer and the second liquid absorbing layer are sponge layers. It should be noted that the sponge layer has a strong liquid absorbing capacity, and can well absorb the conductive liquid flowing out of the liquid storage shell 210; the sponge layer is soft in material, occupied space is small after compression, space can be saved, absorbed conductive liquid can be extruded out quickly after the sponge layer is extruded, and quick liquid supplement of an electric stimulation massage face is achieved.

Of course, in other embodiments, the liquid absorbing layer may be made of other materials having liquid absorbing properties, and the present invention is not limited thereto, and those skilled in the art can adjust the liquid absorbing layer adaptively.

Further, as a specific implementation manner in some embodiments of the present invention, in order to make the flowing of the conductive liquid smoother and avoid the conductive liquid from being accumulated in the placing groove 150 and damaging the electronic component, the liquid storage shell 210 has a top surface for being pressed and an outer peripheral surface adjacent to the top surface, and a drainage groove (not shown) is formed on the outer peripheral surface of the liquid storage shell 210 for draining the conductive liquid. As can be appreciated, when the reservoir 200 is punctured, the conductive fluid in the reservoir 220 begins to flow out, and the conductive fluid can flow along the drainage grooves to the electro-stimulation massage surface to moisten the skin of the human body.

Further, as a specific implementation manner in some embodiments of the present invention, a limit connection structure (not shown) is formed on the liquid storage casing 210, and the liquid storage part 200 is limited and mounted on the wearable electrical stimulation massage apparatus by the limit connection structure.

Specifically, the limiting connection structure is at least one of a magnetic component, an adhesive layer and a buckle component, and is used for limiting the liquid storage component 200 to be mounted in the placing groove 150 under the action of magnetic force of the magnetic component and/or through the adhesive layer and the clamping.

In an alternative embodiment, the spacing connection structure is a magnetic member disposed on the liquid storage shell 210. Specifically, the limiting connection structure includes a first magnetic attraction piece (not shown) and a second magnetic attraction piece (not shown), the first magnetic attraction piece is installed on the liquid storage shell 210, the second magnetic attraction piece is installed on the inner wall surface or the outer wall surface of the placement groove 150 and corresponds to the first magnetic attraction piece in position, and the first magnetic attraction piece and the second magnetic attraction piece attract each other, so that the liquid storage piece 200 is installed in the placement groove 150 in a limiting manner.

Wherein, it can be understood that at least one of the first magnetic part and the second magnetic part is a permanent magnet or an electromagnet; when one of the first magnetic member and the second magnetic member is a permanent magnet or an electromagnet, the other one can be a magnetizable member such as iron.

Alternatively, in another alternative embodiment, the spacing connection structure is an adhesive layer (not shown) disposed on the reservoir shell 210. Specifically, the liquid storage case 210 is bonded to the inner wall surface of the placement groove 150 by an adhesive layer, thereby realizing the limit mounting of the liquid storage member 200. It should be noted that the inner wall surface of the placement groove 150 may be provided with an adhesive layer, but the present invention is not limited thereto, and those skilled in the art can adjust this adaptively. Illustratively, the adhesive layer may be double-sided tape, glue, or the like.

Alternatively, in yet another alternative embodiment, the position limiting connection structure is a snap (not shown) or a slot (not shown) provided on the liquid storage shell 210. Specifically, the liquid storage shell 210 is provided with a buckle, the inner wall surface of the placement groove 150 is provided with a clamping groove, and the buckle is connected with the clamping groove so that the liquid storage part 200 is installed in the placement groove 150 in a limiting manner; or, a clamping groove is formed in the liquid storage shell 210, and a buckle is arranged on the inner wall surface of the placing groove 150 and connected with the clamping groove, so that the liquid storage part 200 is installed in the placing groove 150 in a limiting manner.

It should be noted that, after the technical scheme is adopted, not only can the liquid storage part 200 be stably and limitedly installed in the placing groove 150, but also the subsequent replacement of the liquid storage part 200 is facilitated. That is to say, the connection of the limiting connection part is directly released, so that the liquid storage part 200 can be detached from the placing groove 150 without damaging other parts.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (18)

1. The utility model provides a stock solution spare, stock solution spare is used for wearable electro photoluminescence massage appearance, its characterized in that, stock solution spare includes:

the liquid storage shell is internally provided with a liquid storage cavity, and conductive liquid is stored in the liquid storage cavity;

the liquid storage shell comprises a liquid storage shell, and is characterized by comprising a first liquid absorbing layer and/or a second liquid absorbing layer, wherein the first liquid absorbing layer is arranged on the outer surface of the liquid storage shell and used for absorbing conductive liquid flowing out of the liquid storage cavity, and the second liquid absorbing layer is arranged in the liquid storage cavity.

2. The liquid storage component as claimed in claim 1, wherein a limiting connection structure is formed on the liquid storage shell, and the liquid storage component is limited and mounted on a wearable electrical stimulation massage apparatus through the limiting connection structure; and/or the presence of a gas in the atmosphere,

the first liquid absorption layer is a sponge layer or a liquid absorption cloth layer, and/or the second liquid absorption layer is a sponge layer or a liquid absorption cloth layer; and/or the presence of a gas in the atmosphere,

the liquid storage shell is provided with a top surface used for being pressed and an outer peripheral surface arranged adjacent to the top surface, a drainage groove is formed in the outer peripheral surface of the liquid storage shell and used for draining conductive liquid, and/or the first liquid absorbing layer is at least arranged on the top surface of the liquid storage shell.

3. The liquid storage component of claim 2, wherein the limiting connection structure is a magnetic component disposed on the liquid storage shell; or the limiting connection structure is an adhesive layer arranged on the liquid storage shell; or the limiting connection structure is a buckle or a clamping groove arranged on the liquid storage shell.

4. A wearable electrical stimulation massage device, characterized in that, the wearable electrical stimulation massage device includes:

a flexible wearing body having a skin proximal surface and a skin back surface;

an electrode assembly, wherein the electrode assembly is provided with an electric stimulation massage surface exposed on the near-skin surface, and the electrode assembly and/or the flexible wearable body are provided with a placement groove close to or positioned on the electric stimulation massage surface, and the placement groove is used for limiting and installing the liquid storage piece according to any one of claims 1-3;

the blocking piece is fixedly installed in the placing groove, or the blocking piece forms a bottom groove wall of the placing groove, and a first avoiding through hole is formed in the blocking piece;

the puncture structure comprises a puncture part, the puncture part is positioned on one side of the blocking part far away from the electric stimulation massage surface, the puncture part is arranged corresponding to the first avoidance through hole, the puncture part is movably arranged in the thickness direction of the flexible wearable body, and the puncture part is used for moving towards the direction close to the electric stimulation massage surface when being acted by external force, so that the puncture part penetrates through the first avoidance through hole to puncture the liquid storage part in the placing groove, and the conductive liquid in the liquid storage part flows to the electric stimulation massage surface.

5. The wearable electric stimulation massage device according to claim 4, wherein when the blocking member is fixedly installed in the placement groove, a second avoidance through hole corresponding to the first avoidance through hole is formed in a bottom groove wall of the placement groove, and the puncturing part is arranged corresponding to the second avoidance through hole; and/or the presence of a gas in the gas,

the puncture structure also comprises a substrate, and the puncture part is arranged on the substrate; the base plate is movably arranged on the groove wall of the placing groove, so that the puncturing part can be movably arranged in the thickness direction of the flexible wearing body; or the base plate is arranged on the groove wall of the placing groove, and at least part of the base plate has deformability, so that the puncture part can be movably arranged in the thickness direction of the flexible wearing body.

6. The wearable electric stimulation massage device as claimed in claim 4, further comprising an auxiliary moving mechanism, wherein the auxiliary moving mechanism comprises a driving part, the driving part is located on one side of the puncturing part far away from the electric stimulation massage surface, and the driving part is used for driving the puncturing part to move towards or away from the electric stimulation massage surface.

7. The wearable electric stimulation massage device as claimed in claim 6, wherein the driving part is an air bag, the air bag is disposed outside a groove wall of the placement groove, and the air bag is configured to drive the puncturing part to move in a direction approaching the liquid storage part when the air bag is inflated; and/or the presence of a gas in the gas,

the puncturing structure is mounted to the driving portion.

8. The wearable electrical stimulation massage device as claimed in claim 6, wherein the driving part is an air bag, the air bag is disposed outside a wall of the placement groove, and the air bag is configured to drive the puncture part to move in a direction approaching the liquid storage part when expanding;

the electrode assembly comprises an electrode plate with the electric stimulation massage surface, the electrode plate is installed on the near-skin surface, and at least part of the projection of the air bag on the electrode plate is overlapped with the electrode plate, so that the air bag is used for driving the electrode assembly to move towards the direction close to the target position when expanding.

9. The wearable electrical stimulation massage device as claimed in claim 4, wherein the puncturing structure further comprises an elastic member, one end of the elastic member acts on the blocking member, and the other end of the elastic member acts on the puncturing part, so that the puncturing part has a resetting tendency.

10. The wearable electrical stimulation massage device according to any one of claims 4 to 9, wherein the puncture portion has a tip lower than the electrical stimulation massage surface at a maximum position extending into the first escape through hole.

11. The wearable electrical stimulation massage apparatus according to claim 4, wherein the electrode assembly comprises an electrode sheet having the electrical stimulation massage surface, the electrode sheet is mounted on the skin proximal surface, the wearable electrical stimulation massage apparatus further comprises a placement member mounted on the flexible wearing body, the placement groove is formed in the placement member, and a mounting opening corresponding to the placement groove is formed in the electrical stimulation massage surface so that the placement groove is exposed on the electrical stimulation massage surface.

12. The wearable electrical stimulation massage apparatus of claim 11, wherein the electrode pad comprises a bent portion provided at a periphery of the mounting opening, and the bent portion is connected to a side surface of the placement groove, or the bent portion is connected to a peripheral side surface of the placement member.

13. The wearable electrical stimulation massage apparatus of claim 12, further comprising a support member, wherein the support member is mounted on the flexible wearing body, the support member has a support groove, the placing member is mounted in the support groove, the support member has a support surface facing the electrode sheet, the electrode sheet is supported on the support surface, and the bending portion is connected between the placing member and the support groove.

14. The wearable electrical stimulation massage device of any one of claims 4 to 9 and 11 to 13, wherein the placement groove is provided on the electrical stimulation massage surface, and the electrical stimulation massage surface protrudes from the skin proximal surface.

15. The wearable electrical stimulation massage device of any one of claims 4-9 and 11-13, wherein the flexible wearing body comprises a surface layer, a bottom layer and an elastic filling layer, the surface layer is connected with the periphery of the bottom layer, the skin-proximal surface is arranged on the surface layer, and the back surface is arranged on the bottom layer; the elastic filling layer is at least partially filled between the surface layer and the bottom layer;

the electrode plate is connected to the surface layer and/or the elastic filling layer.

16. The wearable electric stimulation massage apparatus according to claim 15, further comprising a placement member, wherein the placement member is mounted on the elastic filling layer, the placement groove is formed in the placement member, and a mounting opening corresponding to the placement groove is formed in the electric stimulation massage surface so that the placement groove is exposed to the electric stimulation massage surface.

17. The wearable electrical stimulation massage device according to claim 16, wherein the elastic filling layer comprises a supporting layer and an inner filling layer arranged between the surface layer and the bottom layer, the surface layer is provided with a connecting port, the supporting layer is arranged on one side, facing the skin proximal surface, of the inner filling layer, the supporting layer is arranged on the connecting port, the supporting layer protrudes out of the skin proximal surface, the placing piece is arranged on the supporting layer, and the electrode sheet is supported on the supporting layer so that the electrical stimulation massage surface protrudes out of the skin proximal surface; alternatively, the first and second electrodes may be,

the elastic filling layer is arranged between the surface layer and the bottom layer, the surface layer is provided with a connecting port, the placing piece is connected to the elastic filling layer and protrudes out of the near-skin surface through the connecting port, the placing groove is formed in the side face of the placing piece protruding out of the near-skin surface, and the electrode slice is supported on the placing piece so that the electric stimulation massage surface protrudes out of the near-skin surface.

18. The wearable electrostimulation massage apparatus according to claim 4, characterised in that it further comprises a heating assembly, which is located outside the placement tank; the heating assembly comprises a local heating part which is arranged corresponding to the placing groove and used for heating the conductive liquid in the liquid storage part in the placing groove.

Images