CN218501139U - Wearable massage device - Google Patents

Abstract

The utility model relates to an electrical stimulation massage device technical field, concretely relates to wearable massage device. Wearable massage device is including the flexible body of dressing, electrode subassembly and broken bag subassembly, electrode subassembly's electrode slice is installed in the nearly skin face of flexible body of dressing, the electrode slice is including the electric stimulation massage face of keeping away from the back skin face of flexible body of dressing, be equipped with the standing groove that the electric stimulation massage face that is close to the electrode slice set up on the nearly skin face of flexible body of dressing, perhaps be provided with the standing groove that is used for installing the liquid reserve tank at the electric stimulation massage face, the liquid reserve tank storage has the liquid reserve tank of conducting liquid, broken bag structure is used for breaking the liquid reserve tank of installing in the standing groove, thereby make the conducting liquid flow out to the electric stimulation massage face on from the liquid reserve tank, skin with the electric stimulation massage face contact like this can not only be moistened by the conducting liquid, can also increase the laminating area with the electric stimulation massage face through the conducting liquid, human electric current of increase flow through from this, make wearable massage device can provide sufficient massage force.

Description

Wearable massage device

Technical Field

The utility model relates to an electrical stimulation massage device field, especially a wearable massage device.

Background

The principle of electro photoluminescence massage device is through electrode slice output electric pulse signal to realize the electric pulse massage, but when user's skin is dry or user's skin and electrode slice laminating degree are relatively poor, the human electric current of flowing through can be very little, thereby leads to the massage dynamics not enough, therefore user experience is relatively poor.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a technical problem who solves provides a wearable massage device to solve the electrical stimulation massage device among the prior art when user's skin is dry or user's skin is relatively poor with electrode slice laminating degree, the problem that the massage dynamics is not enough.

The embodiment of the utility model provides a wearable massage device, it includes: the flexible wearable body is provided with a skin-close surface and a back skin surface, and the skin-close surface is used for facing a human body; the electrode plate comprises an electric stimulation massage surface which is far away from the back skin surface, and a placing groove which is close to the electric stimulation massage surface is arranged on the near skin surface, or the electric stimulation massage surface is provided with a placing groove; the placing groove is used for installing a liquid storage bag storing conductive liquid; the bag breaking structure is connected to the flexible wearable body and used for breaking the liquid storage bag installed in the placing groove so that the conductive liquid flows out of the liquid storage bag to the electric stimulation massage surface.

Further, the capsule breaking structure comprises a first capsule breaking part which is arranged on the bottom surface or the side surface of the placing groove so as to break the liquid storage bag.

Further, the first bag breaking portion is a first puncture needle or a first puncture knife or a first puncture tooth.

Further, the first bag breaking part is arranged on the bottom surface and faces the notch of the placing groove straightly; or the first bag breaking part is arranged on the side face, and the first bag breaking part gradually extends from one side connected with the side face to the direction far away from the bottom face.

Further, the first bag breaking part and the groove wall of the placing groove are integrally formed; or, the capsule breaking structure further comprises a substrate, the substrate is mounted on the bottom surface of the placing groove or the side surface of the placing groove, and the first capsule breaking part is arranged on the substrate.

Further, seted up the mouth of wearing on the cell wall of standing groove, broken bag structure includes: a drive assembly connected to the flexible wearable body; the second bag breaking part is mounted on the driving assembly and driven by the driving assembly to enter and exit the placing groove through the passing opening so as to break the liquid storage bag mounted in the placing groove.

Further, the driving assembly comprises a rotary driving body and a rotating shaft, the rotary driving body is mounted on the flexible wearable body, the rotating shaft is mounted on the rotary driving body, the penetrating port is located in the radial direction of the rotating shaft, and the second bag breaking portion is a blade mounted on the rotating shaft; the rotary driving body is used for driving the rotary shaft to rotate so as to drive the blade to enter and exit the placing groove from the passing opening; or the driving assembly comprises a linear driving body and a telescopic shaft, the linear driving body is mounted on the flexible wearable body, the telescopic shaft is mounted on the linear driving body, the penetrating port is located in the length direction of the telescopic shaft, and the second bag breaking part is a second puncture needle, a second puncture knife or a second puncture tooth mounted on the telescopic shaft; the linear driving body is used for driving the telescopic shaft to stretch and retract so as to drive the second bag breaking part to enter and exit the placing groove from the penetrating port.

Further, the bag breaking structure is a first heating element arranged on the wall of the placing groove.

Furthermore, the wearable massage device further comprises a placing piece, the placing piece is installed on the flexible wearing body, the placing groove is formed in the placing piece, and an installation opening corresponding to the placing groove is formed in the electric stimulation massage surface, so that the placing groove is exposed out of the electric stimulation massage surface.

Further, the electrode plate comprises a bending part arranged on the periphery of the mounting opening, and the bending part is connected to the side surface of the placing groove, or the bending part is connected to the peripheral side surface of the placing piece.

Furthermore, the wearable massage device also comprises a support piece, the support piece is arranged on the flexible wearable body and provided with a support groove, the placing piece is arranged in the support groove, the support groove is provided with a support surface facing the electrode piece, the electrode piece is supported on the support surface, and the bending part is connected between the placing piece and the support groove.

Furthermore, the placing groove is arranged on the electric stimulation massage surface, and the electric stimulation massage surface protrudes out of the skin approaching surface.

Furthermore, the flexible wearable body comprises a surface layer, a bottom layer and an elastic filling layer, wherein the surface layer is connected with the periphery of the bottom layer, the skin-close 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.

Furthermore, the wearable massage device also comprises a placing piece, wherein the placing piece is installed on the elastic filling layer, the placing groove is formed in the placing piece, and an installation opening corresponding to the placing groove is formed in the electric stimulation massage surface, so that the placing groove is exposed out of the electric stimulation massage surface.

Furthermore, 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-near surface, of the inner filling layer, the supporting layer is arranged on the connecting port and protrudes out of the skin-near surface, the placing piece is arranged on the supporting layer, and the electrode slice is supported on the supporting layer so as to enable the electric stimulation massage surface to protrude out of the skin-near surface; or,

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.

Furthermore, a limiting structure is arranged on the wall of the placing groove to limit and install the liquid storage bag; and/or the wearable electric stimulation massage instrument further comprises a second heating element, the second heating element is positioned outside the placing groove, and the second heating element comprises a local heating part corresponding to the placing groove and used for heating the conductive liquid.

Compared with the prior art, the embodiment of the utility model provides a wearable massage device's beneficial effect lies in: through be equipped with the standing groove that the electric stimulation massage face that is close to the electrode slice set up on the nearly skin surface at flexible wearing body, perhaps be provided with the standing groove at electric stimulation massage face, and be equipped with the broken bag structure of connecting in flexible wearing body, specifically, the standing groove is used for the installation to store up the liquid reserve bag that has the conducting liquid, broken bag structure is used for breaking open the liquid reserve bag of installing in the standing groove, thereby make the conducting liquid flow out to electric stimulation massage face on from the liquid reserve bag, the skin with electric stimulation massage face contact like this can not only be moistened by the conducting liquid, can also increase the laminating area with electric stimulation massage face through the conducting liquid, human electric current of flowing through from this, make wearable massage device can provide sufficient massage dynamics.

Drawings

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings and examples, wherein:

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

fig. 2 is an exploded view of a wearable massage device in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view of a portion of the A position of FIG. 2;

fig. 4 is a schematic structural view of the placement groove disposed on the skin-near surface according to the embodiment of the present invention;

fig. 5 is a schematic structural view of a placing groove formed on an electric stimulation massage surface according to an embodiment of the present invention;

fig. 6 is a schematic structural view of the placement groove of the embodiment of the present invention disposed on the electric stimulation massage surface through the placement member;

FIG. 7 is a schematic view of a portion of FIG. 6 at position B;

fig. 8 is a schematic structural view of the first bag breaking portion provided on the side surface of the placement groove according to the embodiment of the present invention;

fig. 9 is a schematic structural view illustrating that the driving assembly of the embodiment of the present invention drives the second bag breaking portion to move in and out of the placing groove in a rotating manner;

fig. 10 is a schematic structural diagram of the driving assembly driving the second bag breaking portion to enter and exit the placing groove in a telescopic manner according to the embodiment of the present invention;

fig. 11 is a schematic view of an embodiment of the present invention using a first heating element to break open the reservoir;

FIG. 12 is a schematic structural view of a liquid storage bag and the liquid storage bag being installed in a placing groove in a limited manner;

fig. 13 is a schematic perspective view of an electrode sheet according to an embodiment of the present invention;

fig. 14 is an exploded view of another embodiment of the wearable massage device of the present invention;

FIG. 15 is a schematic perspective view of the electrode sheet shown in FIG. 13 at another angle;

FIG. 16 is a schematic view of the placement member of the embodiment of the present invention connected to the elastic filling layer;

fig. 17 is a partially enlarged view of the position C in fig. 16.

The various reference numbers in the figures are:

1000. a wearable massage device;

100. a flexible wearable body; 110. a surface layer; 111. a skin-proximal surface; 112. a connection port; 120. a bottom layer; 121. a back skin side; 130. an elastic filling layer; 131. a support layer; 132. an inner filling layer;

200. an electrode assembly; 210. an electrode sheet; 211. an electric stimulation massage surface; 2111. an installation port; 2112. a bending part; 212. an end wall; 213. a peripheral wall; 214. a mounting cavity; 215. a rim portion;

300. placing the piece; 310. a placement groove; 311. a bottom surface; 312. a side surface; 313. a passing port; 320. a first magnetic member; 330. a bonding layer;

400. a capsule breaking structure; 410. a first bag-breaking portion; 411. a substrate; 412. a drive assembly; 4121. a rotation driving body; 4122. a rotating shaft; 4123. a telescopic driving body; 4124. a telescopic shaft; 413. a second bag-breaking portion; 420. a first heating member;

500. a support member; 510. a support groove; 511. a support surface;

2000. a reservoir;

600. a liquid storage shell; 700. a second magnetic member; 800. a sponge.

Detailed Description

It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict. The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The embodiment of the utility model provides a wearable massage device 1000, as shown in fig. 1-3, wearable massage device 1000 includes flexible wearing body 100, electrode subassembly 200 and broken bag structure 400. The flexible wearing body 100 has a proximal skin surface 111 and a back skin surface 121. The electrode assembly 200 includes an electrode pad 210, the electrode pad 210 being mounted on the proximal surface 111, the electrode pad 210 including an electrical stimulation massage surface 211 disposed away from the back surface 121. Specifically, the near-skin surface 111 is provided with the placement groove 310 disposed near the electric stimulation massage surface 211, or the electric stimulation massage surface 211 is provided with the placement groove 310, the placement groove 310 is used for mounting the liquid storage bag 2000 storing the conductive liquid, and the bag breaking structure 400 connected to the flexible wearable body 100 is used for breaking the liquid storage bag 2000 mounted in the placement groove 310, so that the conductive liquid stored in the liquid storage bag 2000 can flow out of the liquid storage bag 2000 onto the electric stimulation massage surface 211.

It should be noted that the wearable electrical stimulation massage apparatus 1000 provided by the present invention is not limited to a massage belt, but may be a leg massage belt, a neck massage belt or other massage belts.

Referring to fig. 1 to fig. 3, the flexible wearable body 100 has a skin close surface 111 and a back surface 121, it should be noted that the skin close surface 111 and the back surface 121 are disposed opposite to each other along a thickness direction (X direction in fig. 1) of the flexible wearable body 100, wherein the skin close surface 111 faces a human body when in use, and the back surface 121 faces away from the human body when in use, and since the electrode pad 210 is mounted on the skin close surface 111, the electrode pad 210 further includes an electrical stimulation massage surface 211 disposed away from the back surface 121. Therefore, when the wearable massage apparatus 1000 is used, the electrical stimulation massage surface 211 can be attached to the skin of the user to realize electrical conduction with the user, so that the wearable massage apparatus 1000 can perform electrical stimulation massage on the user through the electrical stimulation massage surface 211.

Referring to fig. 1 to 3, the present embodiment is provided with a bag breaking structure 400 connected to the flexible wearable body 100, the bag breaking structure 400 is used for breaking the liquid storage bag 2000 installed in the placement groove 310, so that the conductive liquid in the liquid storage bag 2000 can flow out of the liquid storage bag 2000 and finally flow onto the electrical stimulation massage surface 211, and thus, the skin of the user contacting the electrical stimulation massage surface 211 can be wetted by the conductive liquid, and the attachment area of the user contacting the electrical stimulation massage surface 211 can be increased by the conductive liquid, thereby increasing the current flowing through the user, and enabling the wearable massage apparatus 1000 to provide sufficient massage force.

The placement groove 310 of the present embodiment has a plurality of configurations, and referring to fig. 4, the placement groove 310 may be disposed on the skin-near surface 111 near the electric stimulation massage surface 211, so that the conductive liquid can flow from the placement groove 310 to the electric stimulation massage surface 211 after the reservoir 2000 is ruptured by the rupture structure 400. In order to better guide the conductive liquid to flow from the placing groove 310 to the electric stimulation massage surface 211, in a specific embodiment, the placing groove 310 may be disposed on the top of the electric stimulation massage surface 211, so that the conductive liquid flowing out of the placing groove 310 can flow to the electric stimulation massage surface 211 located on the bottom of the placing groove 310 under the action of gravity.

Referring to fig. 5, the placement groove 310 may be further provided on the electric stimulation massage surface 211 so that the conductive liquid can flow from the placement groove 310 to the electric stimulation massage surface 211 after the reservoir 2000 is ruptured by the rupture structure 400.

It should be noted that the placement grooves 310 may be formed directly on the skin near surface 111 near the electric stimulation massage surface 211, or the placement grooves 310 may be formed directly on the electric stimulation massage surface 211 as shown in fig. 5, for example, the electric stimulation massage surface 211 is recessed inwards to form the placement grooves 310.

The placement groove 310 may be formed in the placement member 300, and the placement member 300 may be disposed on the skin-near surface 111 near the electric stimulation massage surface 211, or the placement member 300 may be disposed on the electric stimulation massage surface 211, as shown in fig. 3, 6, and 7.

Referring to fig. 3, in some embodiments, the bag breaking structure 400 includes a first bag breaking portion 410, and the first bag breaking portion 410 is disposed on the bottom surface 311 or the side surface 312 of the placing groove 310, so that when the liquid storage bag 2000 is mounted in the placing groove 310, the liquid storage bag 2000 can be broken by the first bag breaking portion 410 disposed on the bottom surface 311 or the side surface 312 of the placing groove 310, so that the electrolyte in the liquid storage bag 2000 flows out to the placing groove 310 and then flows out from the placing groove 310 to the electric stimulation massage surface 211, thereby achieving the technical effect that the wearable massage apparatus 1000 can provide sufficient massage force.

Referring to fig. 3 and 7, in an exemplary embodiment, the first bag breaking portion 410 may be a first lancet or a first knife or a first tooth disposed on the bottom surface 311 or the side surface 312 of the placement groove 310. The first puncture needle is relatively sharp and can easily puncture the liquid storage bag 2000, so that the electrolyte in the liquid storage bag 2000 flows out; the first bayonet knife is relatively sharp, so that the liquid storage bag 2000 can be easily punctured, and meanwhile, the opening formed in the liquid storage bag 2000 is relatively large, thereby facilitating the electrolyte to flow out of the liquid storage bag 2000; the first piercing teeth can also break a relatively large opening in the reservoir 2000 to facilitate the flow of electrolyte out of the reservoir 2000, such as the first piercing teeth shown in fig. 7 as the first bag-breaking portion 410. In addition, the skin of the user may touch the first bag-breaking portion 410, for example, when the user wears the wearable massage device 1000, the user may touch the first bag-breaking portion 410 by squeezing the meat into the placement groove 310, for example, when a child plays with a finger into the placement groove 310, the user may also touch the first bag-breaking portion 410, and the first piercing tooth may not pierce the skin when touching the skin, which is highly safe.

Referring to fig. 7, in an embodiment in which the first pouch-rupturing portion 410 is disposed on the bottom surface 311 of the placement slot 310, in order to make it easier for the first pouch-rupturing portion 410 to rupture the reservoir 2000, the first pouch-rupturing portion 410 is directed straight toward the notch of the placement slot 310.

Referring to fig. 8, in an embodiment where the first pouch-breaking portion 410 is disposed on the side 312 of the placement slot 310, in order to make it easier for the first pouch-breaking portion 410 to pierce the reservoir 2000, the first pouch-breaking portion 410 gradually extends from the side connected to the side 312 in a direction away from the ground.

In some embodiments, the first pouch rupturing portion 410 is integrally formed on the bottom surface 311 or the side surface 312 of the placement groove 310, for example, the placement groove 310 is directly formed on the placement member 300, the first pouch rupturing portion 410 is integrally formed with the placement member 300, for example, the placement groove 310 is directly formed on the electrical stimulation massage surface 211, and the first pouch rupturing portion 410 is integrally formed with the electrode sheet 210. The integral molding has the advantages that the number of the opened molds can be reduced, so that the production cost is reduced, and the assembly cost can be reduced because the integral molding does not need to be assembled.

Referring to fig. 7, in another embodiment, the first bag breaking portion 410 and the placing groove 310 are formed separately and then assembled, and since the first bag breaking portion 410 and the placing groove 310 have different functions, the preferred materials may also be different, and from the viewpoint of performance of the first bag breaking portion 410 and the placing groove 310, the first bag breaking portion 410 and the placing groove 310 may be made of the respective preferred materials, and then the first bag breaking portion 410 and the placing groove 310 are assembled. There are many ways of assembling, such as assembling with glue, assembling with magnetic adsorption, etc., as long as the first bag-breaking portion 410 can be assembled on the bottom surface 311 or the side surface 312 of the placing groove 310, and the embodiment is not limited herein. In a specific embodiment, in order to facilitate the first bag breaking portion 410 to be assembled on the bottom surface 311 or the side surface 312 of the placing groove 310, the bag breaking structure 400 may further include a base 411, and the first bag breaking portion 410 is firstly disposed on the base 411, and then the base 411 is disposed on the bottom surface 311 or the side surface 312 of the placing groove 310.

Referring to fig. 9-10, in some embodiments, the groove wall of the placement groove 310 is provided with a through opening 313, the capsular breaking structure 400 includes a driving component 412 and a second capsular breaking portion 413, the driving component 412 is connected to the flexible wearable body 100, and the second capsular breaking portion 413 is mounted on the driving component 412. Specifically, the second pouch-rupturing portion 413 can be driven by the driving assembly 412 so as to enter the placement groove 310 through the penetration hole 313 and rupture the reservoir 2000 mounted in the placement groove 310, and exit the placement groove 310 through the penetration hole 313 after rupturing the reservoir 2000. The second bag-breaking portion 413 of the present embodiment can move under the action of the driving component 412, so compared to the static bag-breaking structure 400, the moving second bag-breaking portion 413 can greatly increase the success rate of breaking the liquid storage bag 2000. Specifically, because the second bag breaking portion 413 which moves can apply a larger force to the liquid storage bag 2000 when contacting the liquid storage bag 2000, the liquid storage bag 2000 is broken naturally and more easily, user experience is better, unlike the static bag breaking structure 400, the bag breaking failure rate is high, and the liquid storage bag 2000 always needs to be pressed manually when failing, so that the pressure of the contact position of the liquid storage bag 2000 and the bag breaking structure 400 is increased, and the bag breaking structure 400 is promoted to break the liquid storage bag 2000. This embodiment still is favorable to electrolyte to flow out from the reservoir 2000, because after the reservoir 2000 is broken to static broken bag structure 400, can block up in the reservoir 2000 by the mouth department of breaking open, play certain blocking effect to the outflow of electrolyte, and the broken bag portion 413 of second of this embodiment can follow the mouth of walking 313 and withdraw from the standing groove 310 after breaking the reservoir 2000, can not block up the mouth department that is broken at the reservoir 2000, so can not play blocking effect to the outflow of electrolyte, be favorable to electrolyte to flow out from the reservoir 2000.

In addition, the present embodiment can also improve the safety of the wearable massage device 1000, because the second bag-breaking portion 413 can also withdraw from the placement groove 310 from the passing opening 313 after the liquid storage bag 2000 is broken, and when the second bag-breaking portion 413 withdraws from the placement groove 310 from the passing opening 313, the user cannot touch the broken bag structure 400 from the placement groove 310, thereby effectively avoiding the user from being hurt or even injured by the broken bag structure 400.

Referring to fig. 9, the driving assembly 412 may drive the second rupture portion 413 in a rotating manner. In this embodiment, drive assembly 412 includes a rotary drive body 4121 and a rotary shaft 4122, rotary drive body 4121 being mounted on flexible wearable body 100 and rotary shaft 4122 being mounted on rotary drive body 4121. Specifically, the rotation driving body 4121 is configured to drive the rotation shaft 4122 to rotate, and as long as the through hole 313 is disposed in a radial direction of the rotation shaft 4122, after the blade is mounted on the rotation shaft 4122, the rotation shaft 4122 can drive the blade to rotate around the rotation shaft 4122, so that the blade can enter the placement groove 310 through the through hole 313 and break the reservoir 2000 mounted in the placement groove 310, and after the reservoir 2000 is broken, the rotation shaft 4122 drives the blade to rotate continuously, so that the blade can exit the placement groove 310 through the through hole 313.

Referring to fig. 10, the driving assembly 412 may drive the second rupture portion 413 in a telescopic manner. In this embodiment, drive assembly 412 includes a linear drive body mounted to flexible wearable body 100 and a telescoping shaft 4124 mounted on the linear drive body. Specifically, the retractable driving body 4123 is configured to drive the retractable shaft 4124 to extend or retract, so long as the through hole 313 is disposed in the length direction of the retractable shaft 4124, so that after the second lancet or the second bayonet is mounted on the retractable shaft 4124, the retractable shaft 4124 can drive the second lancet or the second bayonet to enter the placing groove 310 through the through hole 313 and break the liquid storage bag 2000 mounted in the placing groove 310 when extending, and after the liquid storage bag 2000 is broken, the retractable driving body 4124 retracts to allow the second lancet or the second bayonet to exit the placing groove 310 through the through hole 313.

Referring to fig. 11, in addition to the puncturing and tearing method for breaking the reservoir 2000 as described in the above embodiment, other methods for breaking the reservoir can be used, for example, the bag breaking structure 400 can be provided as the first heating member 420, and the hot-melt material can be used to manufacture the reservoir casing 600 of the reservoir 2000, so that the reservoir casing 600 can be melted by the heat generated by the first heating member 420, thereby breaking the reservoir 2000 and allowing the electrolyte to flow out of the reservoir 2000. The first heating member 420 has advantages in that it does not scratch and stab a user, and it also heats the electrolyte while melting the liquid storage case 600, so that the temperature of the electrolyte is relatively high when contacting the skin of the user, and the electrolyte is not too cold to cause irritation to the user.

Specifically, the first heating member 420 may be disposed on a groove wall of the placement tank 310 or a circumferential side surface of the placement member 300. When the first heating member 420 is disposed on the peripheral side of the placing member 300, the first heating member 420 is hidden and cannot be seen from the outside, the first heating member 420 of this embodiment heats the wall of the placing slot 310, and then the liquid storage bag 2000 is heated by the wall of the placing slot 310, so as to finally achieve the effect of breaking the liquid storage bag 2000. When the first heating member 420 is disposed on the wall of the placing slot 310, the first heating member 420 is exposed on the placing slot 310, and the first heating member 420 of this embodiment directly heats the liquid storage bag 2000, so the melting speed of the liquid storage bag 2000 is fast, the waiting time of the user is short, and the experience is good.

Referring to fig. 6, 7 and 13, in some embodiments, the wearable massage apparatus 1000 includes a placing member 300, the placing member 300 is connected to the flexible wearing body 100, and the electrical stimulation massage surface 211 is provided with a mounting opening 2111 corresponding to the placing groove 310, so that the placing groove 310 can be exposed to the electrical stimulation massage surface 211 through the mounting opening 2111. The placement member 300 may be directly abutted to the side of the mounting opening 2111 close to the back surface 121 by means of adhesion, magnetic attraction, or the like, or may be mounted on another member fixed relative to the mounting opening 2111, as long as the placement groove 310 is exposed to the electric stimulation massage surface 211 through the mounting opening 2111.

Referring to fig. 6, 7 and 13, in a specific embodiment, the electrode tabs 210 include bent portions 2112 provided at the periphery of the mounting openings 2111, and the placement grooves 310 are connected to the bent portions 2112 of the electrode tabs 210 so that the placement can correspond to the mounting openings 2111. Specifically, the bending portion 2112 can be connected to the side 312 of the placement groove 310, or can be connected to the peripheral side of the placement member 300 as shown in fig. 7.

Referring to fig. 3, 6 and 7, in an embodiment, the wearable massage apparatus 1000 further includes a support 500, the support 500 is mounted on the flexible wearing body 100, the support 500 has a support groove 510, the placing member 300 is mounted in the support groove 510, the support 500 has a support surface 511 facing the electrode sheet 210, the electrode sheet 210 is supported on the support surface 511, and the bending portion 2112 is connected between the placing member 300 and the support groove 510. Because the electrode plate 210 is generally lighter and thinner, if the bending portion 2112 of the electrode plate 210 is used for limiting and fixing the placing member 300, the structural strength is insufficient, if a large force is applied to the bending portion 2112, the bending portion 2112 is easily deformed, the bending portion 2112 is deformed and then becomes loose with the limiting member, and the bending portion 2112 is also separated from the fixing member in a serious condition. In order to avoid the above situation, the wearable massage device 1000 of the present embodiment is provided with the supporting member 500, the supporting member 500 is provided with the supporting groove 510, and the bending portion 2112 is connected between the placing member 300 and the supporting groove 510, so that the bending portion 2112 and the placing member 300 can be constrained by the supporting groove 510, and the effect of fixing the limiting member is achieved. In addition, since the supporter 500 of the present embodiment further has a supporting surface 511 facing the electrode sheet 210, and the electrode sheet 210 is supported on the supporting surface 511, the supporter 500 of the present embodiment can also support the electrode sheet 210.

Referring to fig. 1, in some embodiments, the electrostimulation massage face 211 protrudes from the proximal surface 111, which allows the electrostimulation massage face 211 to better conform to the skin. Particularly, the skin of the user and the flexible wearing body 100 are not completely flat, so that when the flexible wearing body is worn on the user, the contact areas and the contact pressures of the areas of the skin-near surface 111 and the skin are inconsistent, and therefore the electrical stimulation massage surface 211 cannot be well attached to the skin. After the electrical stimulation massage surface 211 protrudes out of the skin near surface 111, when the user wears the flexible wearing body 100, the electrical stimulation massage surface 211 can contact the skin of the user in preference to the skin near surface 111 near the electrical stimulation massage surface 211, so that the attachment degree of the electrical stimulation massage surface 211 and the skin is good, and the wearable massage device 1000 can naturally provide more sufficient massage force for the user.

In some embodiments, the electrode sheet 210 is a flexible electrode sheet 210, the flexible electrode sheet 210 can be flexibly deformed along with the flexible wearing body 100, and the electrical stimulation massage surface 211 can be flexibly deformed along with the flexible wearing body 100, so that the electrical stimulation massage surface 211 can be flexibly deformed along with the electrical stimulation massage surface 211, and the electrode sheet 210 can be customized for the user alone, so that the wearable massage device has high wearing comfort, and the electrical stimulation massage surface 211 and the skin can have good fitting degree under the tight condition that the flexible wearing body 100 is not worn, so that the wearable massage device 1000 can provide more sufficient massage force for the user.

Referring to fig. 14, in some embodiments, the flexible wearable body 100 includes a surface layer 110, a bottom layer 120 and an elastic filling layer 130, the surface layer 110 is connected to the periphery of the bottom layer 120, the skin-proximal surface 111 is disposed on the surface layer 110, and the skin-back surface 121 is disposed on the bottom layer 120; the elastic filling layer 130 is at least partially filled between the surface layer 110 and the bottom layer 120, and the electrode sheet 210 is connected to the surface layer 110 and/or the elastic filling layer 130. The elastic filling layer 130 may be sponge, EVA, etc. In a first aspect, the elastic filling layer 130 can protect the internal structure of the wearable massage device 1000, and prevent the internal structure of the wearable massage device 1000 from being damaged when being stressed. In a second aspect, the elastic filling layer 130 can support the flexible wearable body 100 to make it more three-dimensional and more shape-friendly. In a third aspect, the flexible wearable body 100 has a routing requirement inside, and only the thin surface layer 110 and the bottom layer 120 are provided, and the circuit structure is exposed on the surface of the flexible wearable body 100, so that the appearance is very unattractive, and the elastic filling layer 130 is provided to prop open the surface layer 110 and the bottom layer 120, thereby achieving the technical effect of shielding the circuit structure.

In particular embodiments, the resilient fill layer 130 is attached to the face layer 110 and not attached to the base layer 120, and because the electrode tabs 210 are attached to the face layer 110 and/or the resilient fill layer 130, direct or indirect attachment of the electrode tabs 210 to the base layer 120 may be avoided. When the electrode pad 210 is directly or indirectly connected to the bottom layer 120, if a user pulls the surface layer 110 and the bottom layer 120 in different directions, respectively, the surface layer 110 may apply a force to the electrode pad 210 to separate from the bottom layer 120 due to the relative play between the bottom layer 120 and the surface layer 110, which affects the connection reliability of the electrode pad 210 and the bottom layer 120.

In some embodiments, the placing member 300 is mounted on the elastic filling layer 130, the placing slot 310 is formed on the placing member 300, and the electric stimulation massage surface 211 is provided with a mounting opening 2111 corresponding to the placing slot 310, so that the placing slot 310 is exposed to the electric stimulation massage surface 211. It should be noted that the placing member 300 can be directly mounted on the elastic filling layer 130, or can be mounted on the elastic filling layer 130 through the supporting member 500 in the above embodiments, so that the placing member 300 can be limited and supported by the elastic filling layer 130, so that the placing groove 310 of the placing member 300 can always correspond to the mounting opening 2111 on the electric stimulation massage surface 211.

Referring to fig. 14, in a specific embodiment, the face layer 110 is provided with an connection port 112, and the electrode sheet 210 is disposed corresponding to the connection port 112 such that at least a portion of the electrode sheet 210 can be exposed from the connection port 112 to contact the skin of the user, thereby achieving electrical communication between the electrode sheet 210 and the user. The elastic filling layer 130 comprises a supporting layer 131 and an inner filling layer 132 arranged between the surface layer 110 and the bottom layer 120, the supporting layer 131 is arranged on one side, facing the skin-close surface 111, of the inner filling layer 132, the supporting layer 131 is arranged at the connecting port 112, the supporting layer 131 protrudes out of the skin-close surface 111, the placing piece 300 is arranged on the supporting layer 131, and the electrode piece 210 is supported on the supporting layer 131, so that the electric stimulation massage surface 211 protrudes out of the skin-close surface 111, when a user wears the flexible wearing body 100, the electric stimulation massage surface 211 can be in contact with the skin of the user in preference to the skin-close surface 111 near the connecting port 112, the attaching degree of the electric stimulation massage surface 211 and the skin is good, and the wearable massage device 1000 can provide sufficient massage force for the user. In addition, the support layer 131 can provide protection for the electrode pad 210, because the support layer 131 can share certain ground force when the electrode pad 210 is stressed, thereby reducing the possibility of damage to the electrode pad 210 when the electrode pad 210 is stressed.

Referring to fig. 13 and 15, the electrode sheet 210 includes an end wall 212 and a peripheral wall 213, a mounting cavity 214 is defined between the end wall 212 and the peripheral wall 213, an opening is formed on a side of the peripheral wall 213 opposite to the end wall 212, the electrostimulation massage surface 211 is formed on a side of the end wall 212 away from the peripheral wall 213, the support layer 131 is disposed in the mounting cavity 214, the peripheral wall 213 is disposed around a peripheral side of the support layer 131, and the end wall 212 is located on a thickness side of the support layer 131 and is suitable for being attached to a human body. That is to say, the electrode tab 210 forms a recessed mounting cavity 214, and the support layer 131 is inserted into the mounting cavity 214 through the mounting opening 2111, so that the support layer 131 and the electrode tab 210 are positioned, and the stability of the relative positions of the electrode tab 210 and the support layer 131 is improved, so that the electrode tab 210 can be stably and reliably supported by the support layer 131. Specifically, the electrode pad 210 may include a rim 215, the rim 215 is located outside the mounting cavity 214, and the rim 215 extends along the circumferential direction of the opening, and the rim 215 is adapted to connect the electrode pad 210 to the flexible wearable body 100, so that the connection ease and the connection reliability of the electrode pad 210 to the flexible wearable body 100 may be improved to some extent.

The wearable massage device 1000 further comprises a heat generating component, the heat generating component is disposed on one side of the supporting layer 131 far away from the electrode sheet 210, the supporting layer 131 is a heat conducting supporting layer 131, the supporting layer 131 has good heat conducting capability and can conduct heat of the heat generating component to the electric stimulation massage surface 211, so that when the heat generating component generates heat, the heat can be transferred to the electric stimulation massage surface 211 through the supporting layer 131, and thus, the user can be subjected to hot compress massage through the direct contact between the electric stimulation massage surface 211 and the user.

Referring to fig. 16-17, in another embodiment, the face layer 110 is provided with an attachment port 112, and the electrode sheet 210 is disposed corresponding to the attachment port 112 such that at least a portion of the electrode sheet 210 can be exposed by the attachment port 112 for contact with the skin of the user, thereby electrically connecting the electrode sheet 210 to the user. The placing piece 300 is connected with the elastic filling layer 130, the placing piece 300 protrudes out of the near-skin surface 111 through the connecting port 112, the placing groove 310 is formed in the side face 312, protruding out of the near-skin surface 111, of the placing piece 300, the electrode plates 210 are supported on the placing piece 300, so that the electric stimulation massage surface 211 protrudes out of the near-skin surface 111, when a user wears the flexible wearable body 100, the electric stimulation massage surface 211 can be in contact with the skin of the user in preference to the near-skin surface 111 near the connecting port 112, and therefore the attaching degree of the electric stimulation massage surface 211 and the skin is good, and the wearable massage device 1000 can provide more sufficient massage strength for the user. In addition, the support layer 131 can provide a protective effect for the electrode pad 210, and the support layer 131 can share the stress when the electrode pad 210 is stressed, so that the possibility of damage to the electrode pad 210 when the electrode pad is stressed is reduced.

Referring to fig. 12, a limit structure is provided on a wall of the placement groove 310, thereby realizing a limit installation of the reservoir 2000. There are many specific embodiments of the limiting structure, as long as the liquid storage bag 2000 can be limitedly installed in the placing groove 310, and this embodiment is not limited herein, and a person skilled in the art can perform adaptive adjustment on this. Two examples are listed below for reference.

Referring to fig. 12, in an embodiment, the limiting structure is a magnetic limiting mechanism, and both the groove wall of the placing groove 310 is provided with the first magnetic member 320, and in match therewith, the reservoir 2000 needs to be provided with the second magnetic member 700, and the second magnetic member needs to be matched with the first magnetic member 320, so that the reservoir 2000 can be limited in the placing groove 310 by the adsorption force generated by the matching of the first magnetic member 320 and the second magnetic member 700 when the reservoir 2000 is installed, and when the reservoir 2000 needs to be replaced, the reservoir 2000 only needs to be taken out of the placing groove 310 with a little force. It should be noted that, both the first magnetic element 320 and the second magnetic element 700 may be magnets, or one of them may be a magnet, and the other one may be attracted by the magnet.

Specifically, the first magnetic member 320 may be disposed at the circumferential side of the placement member 300 or in the placement groove 310. When the first magnetic member 320 is disposed on the peripheral surface of the placement member 300, the first magnetic member 320 is hidden, which is advantageous in that the first magnetic member 320 can be protected to some extent, and the conductive liquid will not directly contact the first magnetic member 320 even when leaking out. When the first magnetic member 320 is disposed in the placement groove 310, the first magnetic member 320 is exposed on the placement groove 310, and when the first magnetic member 320 and the second magnetic member 700 of the embodiment are adsorbed, the distance between the first magnetic member 320 and the second magnetic member 700 is shorter, so that a larger adsorption force can be generated, and the situation that the liquid storage bag 2000 slides out of the installation groove due to insufficient adsorption force can be avoided.

Referring to fig. 12, in another embodiment, the limiting structure is an adhesive layer 330, and when the liquid storage bag 2000 is mounted on the placement groove 310, the adhesive layer 330 contacts with the liquid storage case 600 of the liquid storage bag 2000, thereby adhering the liquid storage case 600 and effectively preventing the liquid storage bag 2000 from sliding out of the mounting groove.

In an embodiment, the wearable electrical stimulation massage apparatus further includes a second heating element, the second heating element is located outside the placing slot 310, and the second heating element includes a local heating portion corresponding to the placing slot 310, so as to heat the conductive liquid. Because the temperature of the electrolyte is lower than the skin temperature of the user, the electrolyte can stimulate the skin of the user when contacting the skin of the user, particularly in winter with severe cold weather, the ice-cold stimulation can even cause the user to resist the installation and use of the liquid storage bag 2000, and in order to avoid the user to resist the use of the liquid storage bag 2000, the electrolyte can be heated after the liquid storage bag 2000 is installed in the placing groove 310 through the embodiment, and after the electrolyte is heated to the proper temperature, the electrolyte can not stimulate the user, so that the user is more willing to install and use the liquid storage bag 2000.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations should fall within the scope of the appended claims.

Claims (16)

1. A wearable massage apparatus, comprising:

the flexible wearable body is provided with a skin-close surface and a back skin surface, and the skin-close surface is used for facing a human body;

the electrode plate comprises an electric stimulation massage surface which is far away from the back skin surface, and a placing groove which is close to the electric stimulation massage surface is arranged on the near skin surface, or the electric stimulation massage surface is provided with a placing groove; the placing groove is used for installing a liquid storage bag stored with conductive liquid;

the bag breaking structure is connected to the flexible wearable body and used for breaking the liquid storage bag installed in the placing groove so that the conductive liquid flows out of the liquid storage bag to the electric stimulation massage surface.

2. The wearable massage apparatus of claim 1, wherein the bladder breaking structure comprises a first bladder breaking portion disposed on a bottom surface or a side surface of the placement groove to break open the reservoir.

3. The wearable massage apparatus of claim 2, wherein the first bladder breaking portion is a first lancet or a first piercing tooth.

4. The wearable massage apparatus of claim 3, wherein the first bag breaking portion is provided on the bottom surface, and the first bag breaking portion is straight toward the notch of the placement groove; or,

the first bag breaking part is arranged on the side face, and the first bag breaking part gradually extends in the direction away from the bottom face from the side connected with the side face.

5. The wearable massage apparatus of claim 3, wherein the first bag-breaking portion is integrally formed with a groove wall of the placement groove; or,

the bag breaking structure further comprises a base plate, the base plate is mounted on the bottom surface of the placing groove or the side surface of the placing groove, and the first bag breaking portion is arranged on the base plate.

6. The wearable massage apparatus of claim 1, wherein a through opening is opened on a wall of the placement groove, and the capsule breaking structure comprises:

a drive assembly connected to the flexible wearable body;

the second bag breaking part is mounted on the driving assembly and driven by the driving assembly to enter and exit the placing groove through the passing hole so as to break the liquid storage bag mounted in the placing groove.

7. The wearable massage apparatus of claim 6, wherein the driving assembly comprises a rotary driving body mounted to the flexible wearable body and a rotary shaft mounted to the rotary driving body, wherein the penetration opening is located in a radial direction of the rotary shaft, and wherein the second bag breaking portion is a blade mounted to the rotary shaft; the rotary driving body is used for driving the rotary shaft to rotate so as to drive the blade to enter and exit the placing groove from the through hole; or,

the driving assembly comprises a linear driving body and a telescopic shaft, the linear driving body is mounted on the flexible wearable body, the telescopic shaft is mounted on the linear driving body, the penetrating port is located in the length direction of the telescopic shaft, and the second bag breaking part is a second puncture needle, a second puncture knife or a second puncture tooth mounted on the telescopic shaft; the linear driving body is used for driving the telescopic shaft to stretch and retract so as to drive the second bag breaking portion to enter and exit the placing groove from the penetrating port.

8. Wearable massage apparatus according to claim 1, characterized in that the bag breaking structure is a first heating element arranged on a wall of the standing groove.

9. The wearable massage apparatus according to any one of claims 1 to 8, further comprising a placement member mounted to the flexible wearing body, wherein the placement member is formed in the placement member, and a mounting opening corresponding to the placement groove is formed in the electrostimulation massage surface so that the placement groove is exposed to the electrostimulation massage surface.

10. The wearable massage apparatus of claim 9, wherein the electrode pad comprises a bent portion disposed at a periphery of the mounting opening, the bent portion being connected to a side surface of the placement groove, or the bent portion being connected to a peripheral side surface of the placement member.

11. The wearable massage apparatus according to claim 10, further comprising a support member mounted to the flexible wearable body, wherein the support member has a support groove, the placement member is mounted in the support groove, the support groove has a support surface facing the electrode sheet, the electrode sheet is supported by the support surface, and the bending portion is connected between the placement member and the support groove.

12. The wearable massage apparatus of any of claims 1-8, wherein the placement slot is provided in the electro-stimulation massage surface, the electro-stimulation massage surface protruding beyond the skin-proximal surface.

13. The wearable massage apparatus of any one of claims 1-8, wherein the flexible body comprises a surface layer, a bottom layer, and an elastic filler layer, wherein the surface layer is connected to a periphery of the bottom layer, the skin-proximal surface is disposed on the surface layer, and the skin-dorsal surface is disposed 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.

14. The wearable massage apparatus of claim 13, further comprising a placement member, wherein the placement member is mounted to 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 to the electrical stimulation massage surface.

15. The wearable massage device of claim 14, 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 of the inner filling layer facing the skin proximal surface and is arranged at the connecting port, the supporting layer protrudes out of the skin proximal surface, the placing member is arranged on the supporting layer, and the electrode sheet is supported on the supporting layer so that the electric stimulation massage surface protrudes out of the skin proximal surface; or,

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.

16. The wearable massage apparatus according to any one of claims 1 to 7, wherein a limiting structure is provided on a wall of the placement groove for limiting installation of the reservoir; and/or the presence of a gas in the gas,

the wearable electric stimulation massage instrument further comprises a second heating element, the second heating element is located outside the placing groove, and the second heating element comprises a local heating part corresponding to the placing groove and used for heating the conductive liquid.

Images