CN215741386U - Flexible massage assembly and electric stimulation massage instrument with same - Google Patents

Abstract

The utility model discloses a flexible massage assembly and an electric stimulation massage instrument with the same, wherein the electric stimulation massage instrument comprises a flexible base body, the flexible massage assembly comprises at least one flexible massage unit, the flexible massage unit comprises a flexible electrode sheet and a flexible filling pad, the flexible electrode sheet comprises an end wall surface and a peripheral wall surface, an installation cavity is defined between the end wall surface and the peripheral wall surface, the flexible filling pad is arranged in the installation cavity, the flexible filling pad can conduct heat and/or can elastically change in thickness, the peripheral wall surface is arranged around the periphery of the flexible filling pad, the end wall surface is positioned on one side of the thickness of the flexible filling pad and is suitable for being attached to a human body, the surface of one side of the thickness of the flexible filling pad, which faces the end wall surface, is a positive side surface, and the positive side surface is not connected with the end wall surface. According to the flexible massage assembly provided by the utility model, the problem of wrinkling of the end wall surface of the flexible electrode sheet can be effectively solved, and the end wall surface of the flexible electrode sheet is promoted to be well attached to the skin of a user.

Description

Flexible massage assembly and electric stimulation massage instrument with same

Technical Field

The utility model relates to the technical field of electric stimulation massagers, in particular to a flexible massage component and an electric stimulation massager with the same.

Background

Some electric stimulation massagers in the related art can be flexibly deformed, flexible electrode plates capable of being flexibly deformed are arranged on the electric stimulation massagers, and when the flexible electrode plates are electrically conducted with the skin of a human body and electric pulse current is input, electric stimulation massage can be carried out on the human body. However, after the electrical stimulation massage apparatus is flexibly deformed or kneaded for many times, the surface of the flexible electrode sheet is easily wrinkled, and is difficult to be well attached to the skin of a user, and stabbing pain is easily generated in the electrical stimulation massage mode.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides a flexible massage assembly for an electric stimulation massage instrument, which can effectively solve the problem of wrinkling of the end wall surface of a flexible electrode sheet.

The utility model also provides an electric stimulation massager with the flexible massage component.

According to the first aspect of the utility model, the flexible massage assembly for the electric stimulation massage instrument comprises a flexible base body, and is characterized in that the flexible massage assembly comprises at least one flexible massage unit, the flexible massage unit is arranged on the flexible base body and can flexibly deform correspondingly along with the flexible deformation of the corresponding part of the flexible base body, the flexible massage unit comprises a flexible electrode sheet and a flexible filling pad, the flexible electrode sheet comprises an end wall surface and a peripheral wall surface, an installation cavity is defined between the end wall surface and the peripheral wall surface, the flexible filling pad is arranged in the installation cavity and can conduct heat and/or the thickness of the flexible filling pad can elastically change, the peripheral wall surface is arranged around the peripheral side of the flexible filling pad, and the end wall surface is arranged on the thickness side of the flexible filling pad and is suitable for being attached to a human body, the thickness side surface of the flexible filling pad facing the end wall surface is a front side surface, and the front side surface is not connected with the end wall surface.

According to the flexible massage assembly for the electric stimulation massage instrument, the flexible electrode plate defines the installation cavity capable of accommodating the flexible filling pad, so that the flexible filling pad can play a reliable supporting and/or heat transfer role on the flexible electrode plate, and the front side surface of the flexible filling pad is not connected with the end wall surface of the flexible electrode plate, so that after the electric stimulation massage instrument is flexibly deformed or kneaded for many times, the problem that the end wall surface of the flexible electrode plate is wrinkled can be effectively solved, the end wall surface of the flexible electrode plate is well attached to the skin of a user, the pricking problem in an electric stimulation massage mode is solved, and the massage effect is improved.

In some embodiments, a side of the peripheral wall surface facing away from the end wall surface defines a mounting opening, and the flexible filling pad is adapted to be loaded into the mounting cavity through the mounting opening.

In some embodiments, the flexible electrode sheet includes a rim portion located outside the mounting cavity and extending circumferentially of the mounting opening, the rim portion being adapted to connect the flexible electrode sheet to the flexible substrate.

In some embodiments, the peripheral wall surface and/or the end wall surface of the flexible electrode sheet is clearance-fitted with the flexible filling pad.

In some embodiments, the flexible electrode sheet is connected to the flexible fill pad through a wall surface other than the end wall surface.

In some embodiments, the peripheral wall surface of the flexible electrode sheet is bonded to the flexible filling pad.

In some embodiments, the shape of the mounting cavity matches the shape of the flexible fill pad.

In some embodiments, the flexible massage assembly comprises a back member disposed on a side of the flexible filling mat facing away from the end wall surface, the flexible filling mat being connected to the back member, the back member being connected to the flexible base.

In some embodiments, the flexible massage assembly includes a back side member disposed on a side of the flexible pad facing away from the end wall surface, the back side member including a circuit output, the flexible electrode sheet being electrically connected to the back side member to be electrically connected to an external circuit through the circuit output.

In some embodiments, the flexible massage assembly includes an outer heat-generating component external to the flexible fill pad, the flexible fill pad being thermally conductive for transferring heat from the outer heat-generating component to the flexible electrode sheet.

In some embodiments, the outer heat-generating component includes a back-side component, the back-side component is disposed on a side of the flexible filling pad away from the end wall surface, the back-side component includes a heat-generating portion disposed opposite to the mounting cavity, the flexible filling pad is thermally conductive to transfer heat of the heat-generating portion to the flexible electrode sheet, and an area of the heat-generating portion is smaller than or equal to an area of the flexible filling pad.

In some embodiments, a thickness side surface of the flexible filling pad facing away from the end wall surface is a back side surface, and the back side surface is connected with the heat generating portion through a heat conducting adhesive.

In some embodiments, the back-side member includes a circuit output portion, the flexible electrode sheet is electrically connected to the back-side member, and the heat generating portion and the flexible electrode sheet are both electrically connected to an external circuit through the circuit output portion.

In some embodiments, the flexible massage unit is provided in a plurality and spaced apart, so that the flexible massage assembly includes a plurality of the flexible electrode sheets disposed in spaced apart relation, the back-side member includes a plurality of the heat generating portions, and the plurality of the heat generating portions and the plurality of the flexible electrode sheets are disposed in one-to-one correspondence.

In some embodiments, the back side member includes a heat generating film, the heat generating film including: connecting membrane portion, a plurality of branch membrane portion and extension membrane portion, every branch membrane portion all with connecting membrane portion links to each other, and is a plurality of branch membrane portion and a plurality of flexible electrode piece one-to-one sets up respectively, every all have on the branch membrane portion generate heat the portion, extend the one end of membrane portion with connecting membrane portion links to each other, the other end forms circuit output portion, heating film is last to have be used for with the electric connection portion that flexible electrode piece electricity is connected, electric connection portion is including locating first electric connection portion on the branch membrane portion and/or locate second electric connection portion on the connecting membrane portion, electric connection portion with generate heat the portion all pass through circuit output portion is connected with the external circuit electricity.

In some embodiments, the flexible fill pad comprises: the heat conduction layer at least covers at least part of the end face, facing the end wall face, of the rebound material layer and at least part of the side face, facing the peripheral wall face, of the rebound material layer, and the rebound material layer enables the thickness of the flexible filling pad to be changed elastically.

In some embodiments, the heat conductive layer comprises two face covering parts and side covering parts, the two face covering parts are respectively covered on two sides of the thickness of the rebound material layer, and the side covering parts are connected with the two face covering parts and at least cover on the length side of the rebound material layer.

In some embodiments, the flexible massage assembly further comprises an internal heat-generating component embedded within the flexible padded mattress. The electric stimulation massage apparatus according to the second aspect of the utility model comprises a flexible substrate and the flexible massage component for the electric stimulation massage apparatus according to the first aspect of the utility model, wherein the flexible massage component is arranged on the flexible substrate.

According to the electrical stimulation massager provided by the embodiment of the utility model, by arranging the flexible massage component for the electrical stimulation massager in the first aspect, the flexible electrode sheet defines the installation cavity capable of accommodating the flexible filling pad, so that the flexible filling pad can play a reliable supporting and/or heat transfer role on the flexible electrode sheet, and the front side surface of the flexible filling pad is not connected with the end wall surface of the flexible electrode sheet, so that the problem of wrinkling of the end wall surface of the flexible electrode sheet can be effectively solved after the electrical stimulation massager is flexibly deformed or kneaded for multiple times, the end wall surface of the flexible electrode sheet is well attached to the skin of a user, and the massage effect is improved.

In some embodiments, along the thickness direction of the flexible substrate, two sides of the thickness of the flexible substrate are respectively a front side and a back side, the flexible substrate includes an installation layer and a protection layer, at least a portion of the flexible massage component is located on the front side of the installation layer, the flexible massage component is installed on the installation layer, the protection layer is shielded on the installation layer and the back side of the flexible massage component, and the end wall surface of the flexible electrode sheet is located on the front side of the flexible filling pad.

In some embodiments, the flexible substrate includes a surface layer and a bottom layer located on a back side of the surface layer, and a lining layer located between the surface layer and the bottom layer, at least a portion of the flexible massage assembly is located between the surface layer and the lining layer, the lining layer is the mounting layer, the bottom layer is the protective layer, and the lining layer is connected to the surface layer and is not connected to the bottom layer.

In some embodiments, the surface layer has an avoiding hole, and the flexible electrode sheet is disposed corresponding to the avoiding hole so as to be exposed or protrude to the front side of the surface layer through the avoiding hole.

In some embodiments, the flexible substrate includes a surface layer and a bottom layer located on a back side of the surface layer along a thickness direction of the flexible substrate, at least a portion of the flexible massage assembly is located on a front side of the surface layer, the surface layer is the mounting layer, and the bottom layer is the protective layer.

In some embodiments, the flexible base further comprises an augmentation layer disposed opposite the flexible massage assembly and on a back side of the flexible massage assembly, wherein the back side of the protective layer is provided with at least one of the augmentation layers, and/or at least one of the augmentation layers is disposed between the protective layer and the mounting layer.

In some embodiments, the protective layer includes a first protective portion and a second protective portion, the first protective portion is disposed opposite to the flexible massage component, and the second protective portion is disposed in a staggered manner with respect to the flexible massage component, wherein the first protective portion and the second protective portion are made of different materials and are spliced, or the thickness of the first protective portion is greater than that of the second protective portion.

In some embodiments, the electrical stimulation massager is a waist massager, the flexible substrate is a belt body, the belt body is flexible and deformable and comprises an installation part and two extension parts, the two extension parts are located on two sides of the installation part along the length direction of the belt body, the flexible massage component is arranged on the installation part, and the flexible massage unit can be correspondingly flexibly deformed along with the flexible deformation of the corresponding part of the installation part.

In some embodiments, the flexible massage assembly includes two massage groups spaced apart along a length direction of the belt body, the two massage groups are respectively located at left and right sides of a central plane of the mounting portion, and each massage group includes a plurality of the flexible massage units spaced apart along a width direction of the belt body.

In some embodiments, the length directions of the plurality of flexible massage units in the same massage group are all arranged in parallel, the length direction of each flexible massage unit can be rotated by at least a first angle to be parallel to the length direction of the waistband body, the length direction of each flexible massage unit can be rotated by at least a second angle to be parallel to the width direction of the waistband body, and the first angle is smaller than the second angle.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

Fig. 1 is an exploded view of an electro-stimulation massager according to an embodiment of the present invention;

fig. 2 is an assembly view of the electric stimulation massager shown in fig. 1;

fig. 3 is an assembly view of the flexible massage assembly shown in fig. 1;

fig. 4 is an exploded view of the flexible massage assembly shown in fig. 3;

FIG. 5 is an angled perspective view of the flexible electrode sheet shown in FIG. 4;

FIG. 6 is a perspective view of another angle of the flexible electrode sheet shown in FIG. 5;

FIG. 7 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 8 is an enlarged view at C circled in FIG. 7;

fig. 9 is a perspective view of the heat generating film shown in fig. 4;

fig. 10 is a perspective view of a heat generating film according to another embodiment of the present invention;

FIG. 11 is a perspective view of a flexible electrode sheet according to another embodiment of the utility model;

FIG. 12 is a perspective view of another angle of the flexible electrode sheet shown in FIG. 11;

FIG. 13 is an enlarged view at E circled in FIG. 7;

FIG. 14 is a perspective view of the flexible filler mat shown in FIG. 1;

FIG. 15 is an exploded view of the flexible filler mat shown in FIG. 14;

fig. 16 is a front view of the electric stimulation massager shown in fig. 1;

FIG. 17 is a cross-sectional view taken along line F-F of FIG. 16;

FIG. 18 is an enlarged view at G circled in FIG. 17;

FIG. 19 is an enlarged view at H circled in FIG. 18;

fig. 20 is a schematic view of an electric stimulation massager according to another embodiment of the present invention;

fig. 21 is a schematic view of an electric stimulation massager according to still another embodiment of the present invention;

fig. 22 is a schematic view of an electric stimulation massager according to still another embodiment of the present invention;

fig. 23 to 27 are flowcharts showing the assembling steps of the electric stimulation massager shown in fig. 1.

Reference numerals:

an electrical stimulation massager 1000;

flexible massage assembly 100: a flexible massage unit 10; a massage group 20;

a flexible electrode sheet 1; an electrode portion 11; an end wall surface 111; a peripheral wall surface 112;

a first electrical connection section 12; a second electrical connection section 13;

a mounting cavity 14;

a mounting port 15; a rim portion 16;

a flexible filling mat 2; a peripheral surface 211; a front side surface 212; a backside surface 213; a layer of resilient material 22;

a heat conductive layer 23; a face covering portion 231; the side covering portions 232;

an outer film layer 233; an inner membrane layer 234; a thermally conductive powder layer 235;

a back side member 3; a heat generating film 30;

a connecting film portion 31; a second electrical connection portion 311;

a branched film portion 32; a first electrical connection portion 321; a heat generating portion 322;

an extended film portion 33; a circuit output section 331;

a heat-conducting glue 4;

a flexible substrate 200; a mounting portion 201; an extension 202;

a surface layer 5; a relief hole 51; a bottom layer 6; a liner layer 7; a glue layer 8;

a mounting layer 91; a protective layer 92; the first protection portion 921; a second guard 922; a supplemental layer 93;

an electric control device 300; the fine hair side magic tape 400.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

The following disclosure provides many different embodiments, or examples, for implementing different features of the utility model. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

Next, with reference to the accompanying drawings, a flexible massage assembly 100 for an electric stimulation massage apparatus 1000 according to an embodiment of the present invention is described.

As shown in fig. 1 and 2, the electrical stimulation massage apparatus 1000 includes a flexible substrate 200, the flexible massage assembly 100 is disposed on the flexible substrate 200, and with reference to fig. 3 and 4, the flexible massage assembly 100 includes at least one flexible massage unit 10, that is, each flexible massage unit 10 can flexibly deform, the flexible massage unit 10 is disposed on the flexible substrate 200 and can flexibly deform correspondingly with the flexible deformation of the corresponding portion of the flexible substrate 200, so as to better adapt to users of different statures, and can keep good fit with the users when the users move about, thereby reducing the limitation on the use scenes of the users.

With reference to fig. 4 to 6, the flexible massage unit 10 includes a flexible electrode sheet 1 and a flexible filling pad 2, the flexible electrode sheet 1 includes an end wall surface 111 and a peripheral wall surface 112, a mounting cavity 14 is defined between the end wall surface 111 and the peripheral wall surface 112, the flexible filling pad 2 is disposed in the mounting cavity 14, the peripheral wall surface 112 is disposed around the peripheral side of the flexible filling pad 2, and the end wall surface 111 is located on the thickness side of the flexible filling pad 2 and is suitable for being attached to a human body. That is to say, the mounting cavity 14 of recess form is moulded to flexible electrode piece 1, and flexible filling pad 2 imbeds to the mounting cavity 14 to realize the location between flexible filling pad 2 and the flexible electrode piece 1, improve the stability of flexible electrode piece 1 and the relative position of flexible filling pad 2, promote that flexible filling pad 2 can be stable and reliably play the effect to flexible electrode piece 1.

It can be understood that the flexible electrode sheet 1 is adapted to be directly or indirectly contacted with the skin of the user (for example, directly attached to the skin or attached to the skin through the conductive adhesive layer 8), so as to realize electrical conduction, when two of the flexible electrode sheets 1 are selected as positive and negative electrodes, or two conductive parts on one flexible electrode sheet 1 are selected as positive and negative electrodes, and an electrical pulse current is applied, the flexible electrode sheet 1 can be electrically conducted with the user, so as to implement electrical stimulation massage for the user.

In an embodiment of the utility model, the flexible filling pad 2 is thermally conductive and/or elastically variable in thickness, that is, the flexible filling pad 2 may be only thermally conductive, but not elastically variable in thickness; the flexible filling pad 2 may also be only elastically variable in thickness, but not thermally conductive; the flexible filling mat 2 may also be both elastically variable in thickness and thermally conductive.

When the flexible filling pad 2 can conduct heat, the electric stimulation massage instrument 1000 can simultaneously have a heating member, and the flexible filling pad 2 can conduct the heat of the heating member to the flexible electrode sheet 1, so that the hot compress massage can be implemented to the user through the direct or indirect contact of the flexible electrode sheet 1 and the user. Therefore, the relative positions of the flexible electrode sheet 1 and the flexible filling pad 2 can be limited to a certain extent by the mounting cavity 14, so that the stability and reliability of heat conduction from the flexible filling pad 2 to the flexible electrode sheet 1 can be improved. In addition, the installation cavity 14 can cover the heat of the flexible filling pad 2 inside, so that the heat transfer efficiency of the flexible filling pad 2 to the flexible electrode sheet 1 can be improved, the heat utilization rate is improved, and the heat transfer loss is reduced. It should be noted that the specific location of the heating element is not limited, and may be integrated in the flexible filling pad 2, or may be located on a side of the flexible filling pad 2 away from the end wall surface 111, for example, and so on, which is not described herein again.

When the thickness of the flexible filling pad 2 can be changed elastically, because the end wall surface 111 is located on one side of the thickness of the flexible filling pad 2, and the installation cavity 14 can limit the relative position of the flexible electrode sheet 1 and the flexible filling pad 2 to a certain extent, the support stability of the flexible filling pad 2 to the flexible electrode sheet 1 can be improved, that is, the flexible filling pad 2 can provide a certain attaching pre-pressure to the end wall surface 111 of the corresponding flexible electrode sheet 1 by using the self-elasticity, when a user wears the flexible base 200, the attaching reliability of the end wall surface 111 of the flexible electrode sheet 1 and the part of the human body to be massaged can be improved to a certain extent under the action of the elastic force of the flexible filling pad 2, the reliability of the electrical conduction of the flexible electrode sheet 1 and the human body is promoted, and the pricking pain is prevented. Moreover, by utilizing the elastic supporting function of the flexible filling pad 2, the flexible filling pad 2 can play a certain structural reinforcing role for the flexible electrode sheet 1, and the problems of breakage, fracture and the like of the flexible electrode sheet 1 due to flexible deformation are reduced.

As shown in fig. 7 and 8, the thickness-side surface of the flexible filling mat 2 facing the end wall surface 111 is a front side surface 212, and the front side surface 212 is not connected to the end wall surface 111. It is understood that the "front side" as referred to herein refers to a side of the electric stimulation massager 1000 that faces a user when being used, and the opposite side is a "back side", that is, a side of the electric stimulation massager 1000 that faces away from the user. That is to say, the front side surface 212 of the flexible filling pad 2 is not connected to the end wall surface 111 of the flexible electrode sheet 1 and can move relatively, so that the end wall surface 111 of the flexible electrode sheet 1 and the front side surface 212 of the flexible filling pad 2 have good self-resetting performance, and the flexible massage unit 10 can generate corresponding flexible deformation along with the flexible deformation of the corresponding part of the flexible base 200, and when the deformation is recovered, the end wall surface 111 of the flexible electrode sheet 1 and the front side surface 212 of the flexible filling pad 2 can move relatively to automatically recover to the original position respectively, so as to solve the problem that the end wall surface 111 of the flexible electrode sheet 1 is wrinkled and cannot be well attached to a user, further solve the problem of stabbing pain in the electric stimulation massage process and/or improve the problem of heat loss in the hot compress massage process. For example, if the front side surface 212 of the flexible filling pad 2 is attached to the end wall surface 111 of the flexible electrode sheet 1, after the electric stimulation massage apparatus 1000 is flexibly deformed or kneaded for many times, the front side surface 212 of the flexible filling pad 2 and the end wall surface 111 of the flexible electrode sheet 1 inevitably move in position, which may cause the end wall surface 111 of the flexible electrode sheet 1 to wrinkle, so that the end wall surface 111 of the flexible electrode sheet 1 may not be well attached to the skin of the user.

According to the flexible massage assembly 100 for the electrical stimulation massage instrument 1000, the flexible electrode sheet 1 defines the installation cavity 14 capable of accommodating the flexible filling pad 2, so that the flexible filling pad 2 can reliably support and/or transfer heat to the flexible electrode sheet 1, and the front side surface 212 of the flexible filling pad 2 is not connected with the end wall surface 111 of the flexible electrode sheet 1, so that wrinkling of the end wall surface 111 of the flexible electrode sheet 1 can be effectively improved after the electrical stimulation massage instrument 1000 is flexibly deformed or kneaded for multiple times, the end wall surface 111 of the flexible electrode sheet 1 is well attached to the skin of a user, and the massage effect is improved.

In some embodiments of the present invention, as shown in fig. 6-8, the side of the peripheral wall surface 112 facing away from the end wall surface 111 defines a mounting opening 15, and the flexible filling pad 2 is adapted to be loaded into the mounting cavity 14 through the mounting opening 15. Therefore, on one hand, the structure of the flexible electrode sheet 1 can be simplified, and on the other hand, the assembly difficulty of the flexible electrode sheet 1 and the flexible filling pad 2 can be reduced. Of course, the present invention is not limited thereto, and in other embodiments of the present invention, a bottom end wall may be further disposed on a side of the peripheral wall surface 112 facing away from the end wall surface 111, and an opening may be disposed on the bottom end wall, or on the peripheral wall surface 112, or at a connection point between the bottom end wall and the peripheral wall surface 112, etc., so as to install the flexible filling pad 2 into the installation cavity 14, which will not be described herein.

In some embodiments of the utility model, as shown in fig. 4, the flexible massage assembly 100 may comprise a back part 3, the back part 3 being provided on a side of the flexible pad 2 facing away from the end wall surface 111, in particular, the back part 3 may have the following design.

In some embodiments, and with reference to fig. 6-8, the flexible filler mat 2 is attached to the back side member 3 and the back side member 3 is attached to the flexible substrate 200. Therefore, the back side member 3 can play a role in fixing the flexible filling pad 2, and when the back side member 3 and the flexible electrode sheet 1 are both connected to the flexible base 200, the problem of play of the flexible filling pad 2 relative to the flexible electrode sheet 1 can be improved, and the rubbing resistance of the flexible massage assembly 100 can be improved. When the flexible electrode sheet 1 is connected to the flexible filling pad 2 (for example, the peripheral wall surface 112 of the flexible electrode sheet 1 is adhered to the peripheral surface 211 of the flexible filling pad 2), the flexible filling pad 2 is connected to the back-side member 3, and the back-side member 3 is connected to the flexible base 200, so that the flexible electrode sheet 1 is indirectly connected to the flexible base 200.

In some embodiments, in conjunction with fig. 4, the back side member 3 includes a circuit output portion 331, and the flexible electrode sheet 1 is electrically connected to the back side member 3 to be electrically connected with an external circuit through the circuit output portion 331. Therefore, the flexible electrode plate 1 and the electric control device 300 (shown in fig. 23) of the electric stimulation massager 1000 do not need to be connected by a long lead, so that the connection circuit path of the flexible electrode plate 1 can be shortened, the connection mode is simplified, and the connection reliability is improved. Also, when the back side of the mounting cavity 14 has the mounting opening 15, the flexible electrode sheet 1 may be electrically connected to the back member 3 at the position of the mounting opening 15 (for example, the connection of the first electrical connection portion 321 to the first electrical connection section 12, which will be described later), so that the electrical connection may be protected, and the reliability of the electrical connection may be improved. Of course, the present invention is not limited thereto, and the flexible electrode sheet 1 may also be electrically connected to the back-side member 3 at the peripheral side of the mounting opening 15 (for example, the connection between the second electrical connection portion 311 and the second electrical connection section 13 described later), so as to facilitate the operation, and the description thereof is omitted.

In some embodiments, in conjunction with fig. 4, the back-side member 3 may include a heat-generating portion 322 disposed opposite the mounting cavity 14, and the flexible filling pad 2 may conduct heat to transfer heat of the heat-generating portion 322 to the flexible electrode sheet 1. Thus, the flexible filling pad 2 is in direct or indirect contact with the heating part 322 of the back-side member 3, so that the flexible filling pad 2 can transfer the heat of the heating part 322 to the flexible electrode sheet 1, thereby realizing the hot compress massage effect. Of course, the present invention is not limited thereto, and in other embodiments of the present invention, a heating element may be integrated inside the flexible filling pad 2, which is not described herein.

In some embodiments, as shown in fig. 4 and 8, the surface of the flexible filling pad 2 facing away from the end wall 111 on the thickness side is a back surface 213, and the back surface 213 is connected to the heat generating portion 322 through the heat conductive adhesive 4. From this, can realize the reliable connection and the location of dorsal part 3 and flexible pad 2 through heat conduction glue 4, improve the reliability of conducting heat, dorsal part 3 and flexible pad 2 are in the same place through the adhesion of heat conduction glue 4 promptly, under the prerequisite that promotes the heat conduction effect, dorsal part 3 and flexible pad 2 are difficult to take place mutual drunkenness, have better resistant rubbing, the characteristic of resistant washing, and the heat conduction effect can obtain the promotion.

In some embodiments, the area of the heat generating portion 322 may be less than or equal to the area of the flexible filler pad 2. As shown in fig. 4 and 9, when the area of the heat generating portion 322 is smaller than that of the flexible filling pad 2, the back side member 3 can transmit heat to the flexible electrode sheet 1 having a relatively large area by using the heat generating portion 322 having a relatively small heat generating area, thereby promoting heat transmission efficiency. In addition, the smaller the resistance, the higher the power, and when the heating part 322 is formed by winding the resistance wire, the smaller the area, the smaller the resistance, the higher the power, so as to improve the heating power of the heating part 322, which is beneficial to rapidly transferring the heat of the heating part 322 to the flexible electrode sheet 1. Furthermore, it is also possible that a position on the back side member 3 opposite to the flexible filling pad 2 is provided with a first electrical connection portion 321 for electrical connection with the flexible electrode sheet 1 as described below. As shown in fig. 4 and 10, when the area of the heat generating part 322 is equal to the area of the flexible filling pad 2, the design of the back side member 3 can be simplified, and the heat generating part 322 can transfer heat to the flexible electrode sheet 1 in an all-around and relatively uniform manner, so that the uniformity of heating of the flexible electrode sheet 1 can be improved.

In some embodiments of the present invention, as shown in fig. 4 and 9, the back-side member 3 includes a circuit output portion 331, the flexible electrode sheet 1 is electrically connected to the back-side member 3, and the heat generating portion 322 and the flexible electrode sheet 1 are both electrically connected to an external circuit through the circuit output portion 331. Therefore, the circuit output part 331 can be used for enabling the flexible electrode sheet 1 and the heating part 322 to be connected with electricity in a unified mode, circuit connection is simplified, the problem of mutual winding interference among a plurality of leads is solved, the failure rate is reduced, and the electric connection stability is improved.

In some embodiments of the present invention, as shown in fig. 4 and 9, the flexible massage unit 10 is plural and spaced apart, so that the flexible massage assembly 100 includes the plural flexible electrode sheets 1 spaced apart, the back-side member 3 includes the plural heat generating portions 322, and the plural heat generating portions 322 are disposed in one-to-one correspondence with the plural flexible electrode sheets 1. From this, because flexible electrode piece 1 is a plurality of and spaced apart the setting, when flexible deformation takes place for flexible massage subassembly 100 is whole, can be so that a plurality of flexible electrode piece 1 mutually independent warp, improve every flexible electrode piece 1 and user's laminating effect to, can regard as positive negative pole through the flexible electrode piece 1 that makes up the difference, realize different electric stimulation massage modes.

In some embodiments of the present invention, as shown in fig. 4 and 9, the back-side member 3 includes a heat generating film 30, and the heat generating film 30 includes: the electrode plate comprises a connecting film part 31, a plurality of branch film parts 32 and an extension film part 33, wherein each branch film part 32 is connected with the connecting film part 31, the branch film parts 32 and the flexible electrode plates 1 are respectively arranged in a one-to-one correspondence mode, a heating part 322 is arranged on each branch film part 32, one end of each extension film part 33 is connected with the connecting film part 31, the other end of each extension film part forms a circuit output part 331, an electric connection part used for being electrically connected with the flexible electrode plates 1 is arranged on the heating film 30, and the electric connection part and the heating part 322 are electrically connected with an external circuit through the circuit output parts 331. Therefore, the circuit output part 331 can be used for enabling the flexible electrode sheet 1 and the heating part 322 to be connected with electricity in a unified mode, circuit connection is simplified, the problem of mutual winding interference among a plurality of leads is solved, the failure rate is reduced, and the electric connection stability is improved. Moreover, since the heat generating film 30 is a single sheet, when the plurality of flexible electrode sheets 1 are all disposed corresponding to the branch film portion 32, the relative position stabilization of the plurality of flexible electrode sheets 1 can be promoted.

Among them, as shown in fig. 9 and 10, the electrical connection portion may include a first electrical connection portion 321 provided on the branch film portion 32 and/or a second electrical connection portion 311 provided on the connection film portion 31. That is, the electrical connection portion may include at least one of the first electrical connection portion 321 and the second electrical connection portion 311.

For example, as shown in fig. 5 and 9, the branched membrane portion 32 has a first electrical connection portion 321 thereon, in this case, the flexible electrode sheet 1 includes a first electrical connection section 12, and the first electrical connection section 12 extends between the first electrical connection portion 321 and the flexible filling pad 2 and is electrically connected to the first electrical connection portion 321. Therefore, the flexible electrode sheet 1 and the back side member 3 can be connected through the first electric connection portion 321 and the first electric connection section 12, and the connection portion of the first electric connection portion 321 and the first electric connection section 12 is sandwiched between the back side member 3 and the flexible filling pad 2, so that the back side member 3 and the flexible filling pad 2 can be protected, and the reliability of electric connection is improved.

For example, as shown in fig. 10-12, the connection film portion 31 has a second electrical connection portion 311 thereon, in this case, the flexible electrode sheet 1 includes a second electrical connection section 13, and the second electrical connection section 13 and the second electrical connection portion 311 are electrically connected on the peripheral side of the flexible filling pad 2. That is to say, the flexible electrode sheet 1 and the back side member 3 can be connected by the second electrical connection portion 311 and the second electrical connection section 13, and the connection portion between the second electrical connection portion 311 and the second electrical connection section 13 is not sandwiched between the back side member 3 and the flexible filling pad 2, so that the difficulty of electrical connection between the second electrical connection portion 311 and the second electrical connection section 13 can be reduced, and the branch film portion 32 can have a sufficient area and area to design a heat generating layer, which is beneficial to improving the heat generating uniformity of the back side member 3.

In some embodiments of the utility model, the shape of the mounting cavity 14 matches the shape of the flexible filler mat 2. That is to say, the profile of flexible filling pad 2 is roughly the same with the profile shape of installation cavity 14, and the size is proportional, thereby is favorable to flexible electrode slice 1 to the spacing of flexible filling pad 2, moreover, can improve heat transfer area as far as possible, reduces the heat waste, improves heat transfer efficiency. In addition, when the shape of the mounting cavity 14 is matched with the shape of the flexible filling pad 2, and the flexible filling pad 2 is assembled in the mounting cavity 14, and the flexible filling pad 2 is connected with the back-side member 3, for example, bonded, the alignment between the back-side member 3 and the flexible electrode sheet 1 can be automatically realized, so that the alignment electrical connection between the first electrical connection portion 321 and the first electrical connection section 12 and/or the alignment electrical connection between the second electrical connection portion 311 and the second electrical connection section 13 can be realized.

In some alternative embodiments, in conjunction with fig. 8, the end wall face 111 of the flexible electrode sheet 1 conforms to the front side surface 212 of the flexible fill pad 2. Thereby, the heat transfer effect and/or the supporting effect of the flexible filling pad 2 to the flexible electrode sheet 1 can be improved. Of course, the utility model is not limited thereto, for example in other alternative embodiments the end wall face 111 of the flexible electrode sheet 1 is clearance fitted with the front side surface 212 of the flexible fill pad 2. Therefore, the end wall surface 111 of the flexible electrode sheet 1 and the front side surface 212 of the flexible filling pad 2 can better recover deformation respectively, and after the electrical stimulation massager 1000 is flexibly deformed or kneaded for multiple times, wrinkling of the end wall surface 111 of the flexible electrode sheet 1 can be effectively improved, good fit of the end wall surface 111 of the flexible electrode sheet 1 and the skin of a user is promoted, and a massage effect is improved. In addition, the assembly difficulty can be reduced, and the processing precision is reduced.

In some alternative embodiments, in conjunction with fig. 13, the peripheral wall surface 112 of the flexible electrode sheet 1 is clearance fitted with the flexible filling pad 2. That is, there is a fit clearance between the peripheral wall surface 112 of the flexible electrode sheet 1 and the peripheral surface 211 of the flexible filling pad 2, so as to facilitate assembly, facilitate the flexible filling pad 2 to be easily assembled in place, enable the thickness side surface of the flexible filling pad 2 facing the flexible electrode sheet 1 to be close to or press the flexible electrode sheet 1, and especially when the shape of the mounting cavity 14 is matched with the shape of the flexible filling pad 2, make the installation of the flexible filling pad 2 into the mounting cavity 14 easier. And, when having fit clearance between the peripheral wall face 112 of flexible electrode piece 1 and the peripheral surface 211 of flexible filling pad 2, can reduce flexible filling pad 2 to the lateral wall face transmission heat of flexible electrode piece 1, just so can make flexible filling pad 2 concentrate more heat conduction to the end wall face 111 of flexible electrode piece 1, because in the use, flexible electrode piece 1 is through end wall face 111 with by the direct or indirect laminating contact of massage position, thereby can make the heat more fully received by the user, thereby promote heat conduction efficiency, reduce the heat waste.

It should be noted that the material of the flexible electrode sheet 1 is not limited, and the mounting cavity 14 may be processed in different manners according to the material of the flexible electrode sheet 1, for example, in some embodiments of the present invention, the flexible electrode sheet 1 is pressed and stretched to form the mounting cavity 14, and the peripheral wall surface 112 is disposed obliquely to the peripheral surface 211 of the flexible filling pad 2. Thereby, it is possible to simply and effectively promote the fitting clearance between the peripheral wall surface 112 of the flexible electrode sheet 1 and the peripheral surface 211 of the flexible filling pad 2 to facilitate the assembly of the flexible filling pad 2, and the processing of the flexible electrode sheet 1 is simple. It should be noted that the material of the flexible electrode sheet 1 is not limited, for example, the flexible electrode sheet 1 may be conductive PU (Polyurethane), in this case, the flexible electrode sheet 1 may be formed by stamping and stretching to form the mounting cavity 14 for accommodating the flexible filling pad 2, and form the mounting opening 15 on the side of the peripheral wall surface 112 facing away from the end wall surface 111, in this case, the flexible electrode sheet 1 may also be promoted to have better flexibility.

In some embodiments of the utility model, as shown in fig. 5 and 6, the flexible electrode sheet 1 may include a rim 16, the rim 16 being located outside the mounting cavity 14 and extending along the circumferential direction of the mounting opening 15, the rim 16 being adapted to connect the flexible electrode sheet 1 to the flexible base 200. Therefore, the flexible electrode sheet 1 is used for accommodating the flexible filling pad 2 through the mounting cavity 14, so that the flexible filling pad 2 is covered on the flexible filling pad 2, when the edge part 16 of the flexible electrode sheet 1 is connected with the flexible base body 200, the whole flexible massage unit 10 can be firmly connected with the flexible base body 200, and the edge part 16 is exposed out of the mounting cavity 14, so that the connection operation is convenient to implement, and the connection operability and the connection reliability of the flexible massage assembly 100 and the flexible base body 200 can be improved to a certain extent.

Of course, the utility model is not limited to this, for example, in some alternative embodiments, the flexible electrode sheet 1 is connected to the flexible filling pad 2 through the wall surface other than the end wall surface 111. Therefore, the movement of the flexible filling pad 2 relative to the flexible electrode sheet 1 can be reduced, and the supporting and/or heat transfer effect of the flexible filling pad 2 relative to the flexible electrode sheet 1 can be improved. Also, if the flexible filling pad 2 is connected to the flexible base 200, for example, the flexible filling pad 2 is directly adhered to the flexible base 200, or the flexible filling pad 2 is connected to the flexible base 200 through the above back-side member 3, thereby achieving indirect connection of the flexible electrode sheet 1 to the flexible base 200, so that the adhesion of the flexible electrode sheet 1 to the flexible filling pad 2 and the direct or indirect connection of the flexible filling pad 2 to the flexible base 200 can be utilized, thereby omitting the step of connecting the flexible electrode sheet 1 to the flexible base 200, simplifying the operation, and also omitting the above edge portion 16, thereby simplifying the structure of the flexible electrode sheet 1. For example, in some specific examples, the peripheral wall surface 112 of the flexible electrode sheet 1 may be further bonded to the flexible filling pad 2, so that the connection between the flexible electrode sheet 1 and the flexible filling pad 2 may be simplified.

In some embodiments of the present invention, as shown in fig. 5 and 6, the flexible massage assembly 100 includes an external heat-generating component externally disposed to the flexible filling pad 2, and the flexible filling pad 2 may conduct heat for transferring heat of the external heat-generating component to the flexible electrode sheet 1. Thereby, a hot compress massage function can be performed, and since the external heat generating part is externally disposed to the flexible pad 2, that is, the external heat generating part is not internally disposed to the flexible pad 2, the structural complexity of the flexible pad 2 can be simplified. Of course, the present invention is not limited thereto, for example, in other embodiments of the present invention, the flexible massage assembly 100 may further include an internal heat generating component embedded in the flexible pad 2, thereby improving the compactness and realizing a modular design.

It should be noted that the specific configuration and the location of the external heat-generating component are not limited, for example, in some specific examples of the present invention, the external heat-generating component may include the above-mentioned back-side component 3, the back-side component 3 is disposed on the side of the flexible filling pad 2 away from the end wall surface 111, the back-side component 3 includes the heat-generating portion 322 disposed opposite to the mounting cavity 14, and the flexible filling pad 2 can conduct heat to transfer the heat of the heat-generating portion 322 to the flexible electrode sheet 1. Alternatively, in some other embodiments of the present invention, the external heat generating component may further include a side heat generating component and the like disposed between the flexible filling pad 2 and the peripheral wall surface 112 of the flexible electrode sheet 1, which will not be described herein.

In some embodiments of the present invention, as shown in fig. 14 and 15, the flexible filling pad 2 may comprise: a resilient material layer 22 and a heat conductive layer 23, the resilient material layer 22 making the thickness of the flexible pad 2 elastically variable, the heat conductive layer 23 covering at least part of the end face of the resilient material layer 22 facing the end wall face 111 and at least part of the side face of the resilient material layer 22 facing the peripheral wall face 112, the resilient material layer 22 making the thickness of the flexible pad 2 elastically variable. Thereby, the heat conducting layer 23 is simple in structure, and the flexible filling pad 2 is easy to process and obtain. Moreover, since the heat conductive layer 23 covers at least the front and the side of the resilient material layer 22, when the external heat generating component is located on the side of the flexible pad 2, the heat conductive layer 23 can absorb heat and conduct heat to the end wall surface 111 more effectively.

For example, as shown in fig. 14 and 15, the heat conductive layer 23 may include two surface covering portions 231 and side covering portions 232, the two surface covering portions 231 cover both sides of the thickness of the resilient material layer 22, and the side covering portions 232 connect the two surface covering portions 231 and cover the side surfaces of the resilient material layer 22. Therefore, the heat conduction layer 23 is simple in structure and convenient to wrap the rebound material layer 22, and the flexible filling pad 2 is convenient to process and obtain. Since the heat conduction layer 23 covers the front, back and side surfaces of the resilient material layer 22, when the external heat generating component is disposed on the side surface or the back surface of the flexible pad 2, the heat conduction layer 23 can absorb heat more effectively and conduct the heat to the end wall surface 111.

Further, when the outer heat generating member includes the above-described side heat generating member, the rear surface covering portion 231 may be omitted. In addition, in some concrete examples, rebound material layer 22 can be the inlayer that the softness has the design effect such as sponge main part or air cushion, and heat-conducting layer 23 cladding is outside rebound material layer 22, can be connected through modes such as bonding between heat-conducting layer 23 and the sponge main part, and the bonding can be hot melt connection, and bonding reliability is good, and the surface is difficult to the bubble moreover, of course, also can be the double faced adhesive tape bonding, and this kind belongs to cold junction, is difficult to the bubble.

In some embodiments of the utility model, as shown in fig. 14 and 15, the resilient material layer 22 includes two length sides oppositely disposed in the width direction F2 of the flexible filling mat 2, and the side covering portion 232 covers at least one of the two length sides of the resilient material layer 22. Thus, the flexible filling pad 2 may have a strip-shaped structure, and the side covering portions 232 of the heat conductive layer 23 may extend along the strip direction of the flexible filling pad 2, thereby improving the heat conduction efficiency between the two surface covering portions 231, and in addition, when the side covering portions 232 are covered on both length sides, the uniformity of the heat conduction temperature of the front surface covering portions 231 may be facilitated while the heat conduction efficiency may be improved.

Next, an electric stimulation massage apparatus 1000 according to an embodiment of the present invention is described with reference to the drawings.

As shown in fig. 16 and 17, the electrical stimulation massager 1000 may include: a flexible substrate 200 and a flexible massage assembly 100 for an electro-stimulation massage apparatus 1000 according to any of the embodiments of the present invention, the flexible massage assembly 100 being provided to the flexible substrate 200. Therefore, according to the electrical stimulation massager 1000 of the embodiment of the utility model, the flexible electrode sheet 1 defines the installation cavity 14 capable of accommodating the flexible filling pad 2, so that the flexible filling pad 2 can play a reliable supporting and/or heat transfer role for the flexible electrode sheet 1, and the front side surface 212 of the flexible filling pad 2 is not connected with the end wall surface 111 of the flexible electrode sheet 1, so that after the electrical stimulation massager 1000 is flexibly deformed or kneaded for many times, wrinkling of the end wall surface 111 of the flexible electrode sheet 1 can be effectively improved, good fit of the end wall surface 111 of the flexible electrode sheet 1 with the skin of a user is promoted, and the massage effect is improved.

In some embodiments of the present invention, as shown in fig. 18 and 19, in a thickness direction F3 of the flexible substrate 200, two sides of the thickness of the flexible substrate 200 are a front side and a back side, respectively, the flexible substrate 200 includes a mounting layer 91 and a protective layer 92 located on the back side of the mounting layer 91, at least a portion of the flexible massage assembly 100 is located on the front side of the mounting layer 91, the flexible massage assembly 100 is mounted on the mounting layer 91, the end wall surface 111 of the flexible electrode sheet 1 is located on the front side of the flexible filling pad 2, and the protective layer 92 covers the mounting layer 91 and the back side of the flexible massage assembly 100. Therefore, the protective layer 92 is arranged on the back side of the mounting layer 91, so that the problems that the protective layer 92 is uneven or wrinkled due to the connection of the flexible massage assembly 100 and the protective layer 92 can be solved, and when the protective layer 92 is used as the appearance surface of the flexible base body 200, the problems that the concave position of the protective layer 92 is easy to accumulate dust and difficult to clean can be solved. In addition, the back side of the flexible massage assembly 100 is protected from the outside by at least the protective layer 92, so that the risk of the flexible massage assembly 100 being damaged by external impact can be reduced, thereby improving the operational stability and operational reliability of the flexible massage assembly 100.

For example, in the first embodiment of the present invention, as shown in fig. 1 and 2, in the thickness direction F3 of the flexible substrate 200, the flexible substrate 200 includes a surface layer 5 and a bottom layer 6 located on the back side of the surface layer 5, and a lining layer 7 located between the surface layer 5 and the bottom layer 6, at least a portion of the flexible massage assembly 100 is located between the surface layer 5 and the lining layer 7, the lining layer 7 is a mounting layer 91, the bottom layer 6 is a protective layer 92, and the lining layer 7 is connected to the surface layer 5 and is not connected to the bottom layer 6. Thereby, the direct or indirect connection of the flexible massage assembly 100 with the bottom layer 6 can be avoided, and when the flexible massage assembly 100 is directly or indirectly connected with the bottom layer 6, if the user pulls the surface layer 5 and the bottom layer 6 in different directions, respectively, the surface layer 5 may apply an acting force separated from the bottom layer 6 to the flexible massage assembly 100 due to the relative play between the bottom layer 6 and the surface layer 5, which affects the reliability of the connection of the flexible massage assembly 100 with the bottom layer 6. Also, in some cases, the cover 5 may serve to shield the flexible massage assembly 100 from connection traces with the cushion layer 7, thereby improving connection reliability.

In this some embodiments, surface course 5 has dodge hole 51, flexible electrode sheet 1 corresponds dodge hole 51 and sets up in order to reveal or bulge to the positive side of surface course 5 by dodging hole 51, and surface course 5 has the dodge hole 51 that corresponds flexible electrode sheet 1 and set up promptly, thereby make at least part of flexible electrode sheet 1 can reveal by dodging hole 51, or by dodging one side that deviates from bottom 6 of hole 51 bulge to surface course 5, with the skin direct or indirect contact with the user, thereby realize the electric conductance. Of course, the present invention is not limited to this, the avoiding hole 51 may not be provided on the surface layer 5, and the surface layer 5 may be electrically connected to the flexible electrode sheet 1 on the back side thereof by providing a conductive portion or a conductive member.

For example, in the second embodiment of the present invention, as shown in fig. 20, the flexible substrate 200 includes a surface layer 5 and a bottom layer 6 located on the back side of the surface layer 5 along the thickness direction F3 of the flexible substrate 200, at least a portion of the flexible massage assembly 100 is located on the front side of the surface layer 5, the surface layer 5 is the mounting layer 91, and the bottom layer 6 is the protective layer 92. That is, the flexible massage member 100 is attached to the front surface of the face layer 5, but the flexible massage member 100 may be entirely located on the front side of the face layer 5, or a portion thereof may extend into the back side of the face layer 5, and the bottom layer 6 may be located on the back side of the face layer 5. Therefore, the installation is easier and more convenient, and the thickness of the flexible substrate 200 is thinner and lighter.

In some embodiments of the present invention, as shown in fig. 21, the flexible substrate 200 further comprises an augmentation layer 93, the augmentation layer 93 being disposed opposite the flexible massage assembly 100 and on the back side of the flexible massage assembly 100, wherein the back side of the protective layer 92 is provided with at least one augmentation layer 93, and/or at least one augmentation layer 93 is disposed between the protective layer 92 and the mounting layer 91. I.e. at least one supplementary layer 93 is provided between the protective layer 92 and the mounting layer 91 and/or at least one supplementary layer 93 is provided on the backside of the protective layer 92. Thereby, the back side of the flexible massage assembly 100 is more protected, thereby better reducing the risk of the flexible massage assembly 100 being damaged by external impacts, and further improving the operational stability and operational reliability of the flexible massage assembly 100. When at least one supplemental layer 93 is disposed between the protective layer 92 and the mounting layer 91, the problem that the flexible massage assembly 100 extrudes the protective layer 92 to cause the protective layer 92 to protrude and deform toward the back side can be improved, and the protective layer 92 can be kept relatively flat and stable. When the back side of the protective layer 92 is provided with at least one supplementary layer 93, the structure can be simplified and the processing can be facilitated.

In some embodiments of the present invention, as shown in fig. 22, the protection layer 92 may include a first protection portion 921 and a second protection portion 922, the first protection portion 921 is disposed opposite to the flexible massage assembly 100, and the second protection portion 922 is disposed in a staggered manner with respect to the flexible massage assembly 100, wherein the first protection portion 921 and the second protection portion 922 are made of different materials and are spliced, or a thickness of the first protection portion 921 is greater than a thickness of the second protection portion 922. Thus, by designing the protective layer 92 in sections, the protective effect of the protective layer 92 in the region opposite the flexible massage assembly 100 can be improved. And, the cost can be reduced to some extent. For example, the protective layer 92 may be made of a material having a buffering effect, such as an elastic deformation material, so as to have a better protection effect. In addition, when the flexible substrate 200 includes the supplemental layer 93, the protection layer 92 may include both the first protection portion 921 and the second protection portion 922 to implement the partition design.

In some embodiments of the present invention, as shown in fig. 1-2, the electrical stimulation massage apparatus 1000 may be a waist massage apparatus, the flexible base 200 may be a belt body, the belt body may be flexibly deformable and includes a mounting portion 201 and two extending portions 202, along a length direction F1 of the belt body, the two extending portions 202 are located at two sides of the mounting portion 201, the flexible massage assembly 100 is disposed on the mounting portion 201, and the flexible massage unit 10 may be flexibly deformed correspondingly with the flexible deformation of the corresponding portion of the mounting portion 201. For example, when wearing, can correspond the waist middle and back portion with installation department 201 and set up, extend two extension 202 around the waist forward, at waist front side lock, for example can realize the lock through fixed hasp, fine hair face magic subsides 400 (as shown in fig. 27) etc. to realize wearing of waistband body, thereby flexible massage unit 10 takes place the flexible deformation along with the deformation of installation department 201 and laminates with the waist respectively, realizes effectively massage effect.

In some embodiments of the present invention, as shown in fig. 1-2, the flexible massage assembly 100 includes two massage groups 20 spaced apart along the length direction F1 of the belt body, the two massage groups 20 being respectively located at the left and right sides of the central plane of the mounting portion 201, each massage group 20 including a plurality of flexible massage units 10 spaced apart along the width direction F2 of the belt body. Therefore, the plurality of flexible massage units 10 included in the flexible massage assembly 100 can be respectively distributed in the length direction F1 of the waistband body and the width direction F2 of the waistband body, so that the problem of interference influence between two adjacent flexible massage units 10 can be reduced, the shape following pertinence of independent deformation of each flexible massage unit 10 is improved, and the attaching effect of each flexible massage unit 10 is further improved. And when the flexible electrode sheets 1 of two different flexible massage units 10 are combined to be used as the positive and negative electrodes, different electric stimulation massage modes can be combined, and the massage range is larger.

In some embodiments of the present invention, as shown in fig. 3, the length directions F4 of the plurality of flexible massage units 10 in the same massage group 20 are all arranged in parallel, the space utilization rate of the flexible group in the width direction F2 of the waistband body is high, the gap between two adjacent flexible massage units 10 is not too large, the massage group 20 can accommodate a larger number of flexible massage units 10 in the region in the width direction F2 of the same waistband body, the coverage area that the massage group 20 can massage in the region in the width direction F2 of the same waistband body is larger, and the flexible deformation between two adjacent flexible massage units 10 in the massage group 20 is not easily interfered with each other.

In some embodiments of the present invention, as shown in fig. 3, the length direction F4 of each flexible massage unit 10 may be rotated at least a first angle a to be parallel with the length direction F1 of the waistband body, and the length direction F4 of each flexible massage unit 10 may be rotated at least a second angle a to be parallel with the width direction F2 of the waistband body, the first angle a being less than the second angle a. It can be seen that the longitudinal direction F4 of each flexible massage unit 10 is closer to the longitudinal direction F1 of the waistband body than to the width direction F2 of the waistband body, so that the massage range of each flexible massage unit 10 in the longitudinal direction F1 of the waistband body is larger, the number of massage groups 20 arranged along the longitudinal direction F1 of the waistband body can be reduced, and the coverage area of the flexible massage unit 10 in the region of the longitudinal direction F1 of the same waistband body can be larger.

Next, referring to fig. 23 to 27, an assembling process of the waist massage apparatus according to an embodiment of the present invention will be described.

Step one, as shown in fig. 23, the heat generating film 30 is adhesively mounted on the front side of the underlayer 7 through the adhesive layer 8 (see fig. 21), so as to obtain a first assembly.

Step two, as shown in fig. 24, the plurality of flexible filling pads 2 are respectively and correspondingly embedded into the mounting cavities 14 of the plurality of flexible electrode sheets 1, so as to obtain a plurality of second assemblies, and the sequence of the step two and the sequence of the step one can be interchanged.

And step three, as shown in fig. 25, enabling the plurality of second components to be close to the first components, attaching the flexible filling pads 2 to the corresponding branch film portions 32 of the heating film 30, and attaching the edge portions 16 of the flexible electrode sheets 1 to the lining 7, so as to obtain a third component, namely the third component comprises the flexible massage component 100 and the lining 7.

Step four, as shown in fig. 26, the third component is disposed on the back side of the surface layer 5, the lining layer 7 is pressed on the surface layer 5, and if hot-pressing connection is performed by using hot melt adhesive, the electrode portion 11 (which may be composed of the end wall surface 111 and the peripheral wall surface 112) of the flexible electrode sheet 1 is correspondingly exposed from the avoiding hole 51 of the surface layer 5, so as to obtain the fourth component.

Step five, as shown in fig. 27, the fourth component is arranged on the front side of the bottom layer 6, the surface layer 5 and the bottom layer 6 are pressed, and the lining layer 7 and the bottom layer 6 are not pressed and can be separated, or can be adhered by cold glue, so that the pressing print on the surface is avoided.

Other configurations, such as the electric control device 300, and the like, and operations of the electric stimulation massager 1000 according to the embodiment of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description of the present invention, it is to be understood that the terms "first", "second" and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be directly connected or indirectly connected through intervening media, and can be internal to or interactive with respect to two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (28)

1. A flexible massage assembly (100) for an electrical stimulation massage apparatus (1000), the electrical stimulation massage apparatus (1000) comprising a flexible substrate (200), wherein the flexible massage assembly (100) comprises at least one flexible massage unit (10), the flexible massage unit (10) is disposed on the flexible substrate (200) and can be flexibly deformed correspondingly with the flexible deformation of the corresponding part of the flexible substrate (200), and the flexible massage unit (10) comprises:

the flexible electrode sheet (1) comprises an end wall surface (111) and a peripheral wall surface (112), and a mounting cavity (14) is defined between the end wall surface (111) and the peripheral wall surface (112);

flexible pad (2) of filling, flexible pad (2) of filling is located installation cavity (14) just but flexible pad (2) of filling is heat conduction and/or the elastic change of thickness, week wall (112) centers on the week side setting of flexible pad (2) of filling, end wall (111) are located the thickness one side of flexible pad (2) of filling just is suitable for with the human laminating, the orientation of flexible pad (2) the thickness side surface of end wall (111) is positive side surface (212), positive side surface (212) with end wall (111) do not have the connection.

2. The flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) of claim 1, wherein a side of the peripheral wall surface (112) facing away from the end wall surface (111) defines a mounting opening (15), the flexible filling pad (2) being adapted to be loaded into the mounting cavity (14) through the mounting opening (15).

3. The flexible massage assembly (100) for an electro-stimulation massager (1000) according to claim 2, wherein the flexible electrode sheet (1) comprises a rim portion (16), the rim portion (16) being located outside the mounting cavity (14) and extending along a circumferential direction of the mounting opening (15), the rim portion (16) being adapted to connect the flexible electrode sheet (1) to the flexible base body (200).

4. The flexible massage assembly (100) for an electro-stimulation massage machine (1000) according to claim 1, wherein the peripheral wall surface (112) and/or the end wall surface (111) of the flexible electrode sheet (1) is clearance-fitted with the flexible filling pad (2).

5. The flexible massage assembly (100) for an electro-stimulation massage machine (1000) according to claim 1, characterized in that the flexible electrode sheet (1) is connected to the flexible filling pad (2) through a wall surface other than the end wall surface (111).

6. The flexible massage assembly (100) for the electro-stimulation massage machine (1000) according to claim 5, wherein the peripheral wall surface (112) of the flexible electrode sheet (1) is bonded to the flexible filling pad (2).

7. The flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) according to claim 1, wherein the shape of the mounting cavity (14) matches the shape of the flexible filling pad (2).

8. Flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) according to any of claims 1-7, characterized in that the flexible massage assembly (100) comprises a back piece (3), the back piece (3) being provided at a side of the flexible filling mat (2) facing away from the end wall surface (111), the flexible filling mat (2) being connected to the back piece (3), the back piece (3) being connected to the flexible base body (200).

9. The flexible massage assembly (100) for an electro-stimulation massager (1000) according to any one of claims 1-7, wherein the flexible massage assembly (100) comprises a back piece (3), wherein the back piece (3) is provided at a side of the flexible filling pad (2) facing away from the end wall surface (111), wherein the back piece (3) comprises a circuit output (331), and wherein the flexible electrode sheet (1) is electrically connected to the back piece (3) for electrically connecting with an external circuit through the circuit output (331).

10. A flexible massage assembly (100) for an electro-stimulation massager (1000) according to any of claims 1-7, wherein the flexible massage assembly (100) comprises an external heat generating component external to the flexible filling pad (2), the flexible filling pad (2) being thermally conductive for transferring heat of the external heat generating component to the flexible electrode sheet (1).

11. The flexible massage assembly (100) for an electrical stimulation massager (1000) according to claim 10, wherein the outer heat generating component comprises a back side component (3), the back side component (3) is disposed on a side of the flexible filling pad (2) facing away from the end wall surface (111), the back side component (3) comprises a heat generating portion (322) disposed opposite to the mounting cavity (14), the flexible filling pad (2) is thermally conductive to transfer heat of the heat generating portion (322) to the flexible electrode sheet (1), and an area of the heat generating portion (322) is smaller than or equal to an area of the flexible filling pad (2).

12. The flexible massage assembly (100) for an electro-stimulation massage machine (1000) according to claim 11, characterized in that the surface of the thickness of the flexible pad (2) facing away from the end wall surface (111) is a back surface (213), the back surface (213) being connected to the heat generating portion (322) by a thermally conductive glue (4).

13. The flexible massage assembly (100) for an electro-stimulation massage machine (1000) according to claim 11, wherein the back side member (3) comprises a circuit output portion (331), the flexible electrode sheet (1) is electrically connected to the back side member (3), and the heat generating portion (322) and the flexible electrode sheet (1) are both electrically connected to an external circuit through the circuit output portion (331).

14. The flexible massage assembly (100) for the electric stimulation massage apparatus (1000) according to claim 11, wherein the flexible massage unit (10) is provided in plurality and spaced apart, such that the flexible massage assembly (100) comprises a plurality of the flexible electrode sheets (1) spaced apart, the back side member (3) comprises a plurality of the heat generating portions (322), and the plurality of the heat generating portions (322) and the plurality of the flexible electrode sheets (1) are provided in one-to-one correspondence.

15. The flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) according to claim 14, wherein the back side member (3) comprises a heat generating film (30), the heat generating film (30) comprising: a connecting film part (31), a plurality of branch film parts (32) and an extension film part (33), wherein each branch film part (32) is connected with the connecting film part (31), the branch film parts (32) and the flexible electrode plates (1) are respectively arranged in a one-to-one correspondence manner, each branch film part (32) is provided with a heating part (322), one end of the extension film part (33) is connected with the connection film part (31), and the other end is formed into a circuit output part (331), the heating film (30) is provided with an electric connection part which is used for being electrically connected with the flexible electrode sheet (1), the electrical connection comprises a first electrical connection (321) provided on the branching membrane portion (32) and/or a second electrical connection (311) provided on the connecting membrane portion (31), the electric connection part and the heating part (322) are both electrically connected with an external circuit through the circuit output part (331).

16. The flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) according to claim 10, wherein the flexible filling pad (2) comprises: a resilient material layer (22) and a heat conductive layer (23), the heat conductive layer (23) covering at least a portion of an end surface of the resilient material layer (22) facing the end wall surface (111) and at least a portion of a side surface of the resilient material layer (22) facing the peripheral wall surface (112), the resilient material layer (22) making the thickness of the flexible filling mat (2) elastically variable.

17. The flexible massage assembly (100) for an electro-stimulation massage machine (1000) according to claim 16, wherein the heat conductive layer (23) comprises two face covers (231) and a side cover (232), the two face covers (231) respectively cover both sides of the thickness of the resilient material layer (22), the side cover (232) connects the two face covers (231) and covers at least the length side of the resilient material layer (22).

18. A flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) according to any of claims 1-7, wherein the flexible massage assembly (100) further comprises an internal heat generating component built into the flexible filling mat (2).

19. An electrical stimulation massager (1000), comprising: a flexible substrate (200) and a flexible massage assembly (100) for an electro-stimulation massage apparatus (1000) according to any one of claims 1-18, the flexible massage assembly (100) being provided to the flexible substrate (200).

20. The electrical stimulation massager (1000) as claimed in claim 19, wherein, in the thickness direction (F3) of the flexible substrate (200), the two sides of the thickness of the flexible substrate (200) are respectively a front side and a back side, the flexible substrate (200) comprises a mounting layer (91) and a protective layer (92), at least part of the flexible massage assembly (100) is located on the front side of the mounting layer (91), the flexible massage assembly (100) is mounted on the mounting layer (91), the protective layer (92) is shielded on the mounting layer (91) and the back side of the flexible massage assembly (100), and the end wall surface (111) of the flexible electrode sheet (1) is located on the front side of the flexible filling pad (2).

21. An electro-stimulation massager (1000) as claimed in claim 20, wherein, in the thickness direction (F3) of the flexible substrate (200), the flexible substrate (200) comprises a face layer (5) and a bottom layer (6) located on the back side of the face layer (5), and a lining layer (7) arranged between the face layer (5) and the bottom layer (6), at least part of the flexible massage assembly (100) is located between the face layer (5) and the lining layer (7), the lining layer (7) is the mounting layer (91), the bottom layer (6) is the protective layer (92), and the lining layer (7) is connected to the face layer (5) and is not connected to the bottom layer (6).

22. The electrical stimulation massager (1000) according to claim 21, wherein the surface layer (5) has an avoiding hole (51), and the flexible electrode sheet (1) is disposed corresponding to the avoiding hole (51) so as to be exposed from the avoiding hole (51) or protrude to a front side of the surface layer (5).

23. An electro-stimulation massager (1000) as claimed in claim 20, wherein, in the thickness direction (F3) of the flexible substrate (200), the flexible substrate (200) comprises a face layer (5) and a bottom layer (6) located on the back side of the face layer (5), at least a part of the flexible massage assembly (100) is located on the front side of the face layer (5), the face layer (5) is the mounting layer (91), and the bottom layer (6) is the protective layer (92).

24. Electrical stimulation massager (1000) according to any one of claims 20 to 23, wherein the flexible base (200) further comprises an augmentation layer (93), the augmentation layer (93) being arranged opposite to the flexible massage assembly (100) and on the back side of the flexible massage assembly (100), wherein the back side of the protective layer (92) is provided with at least one layer of the augmentation layer (93) and/or wherein at least one layer of the augmentation layer (93) is arranged between the protective layer (92) and the mounting layer (91).

25. The electrical stimulation massager (1000) according to any one of claims 20 to 23, wherein the protective layer (92) comprises a first protective portion (921) and a second protective portion (922), the first protective portion (921) is arranged opposite to the flexible massage assembly (100), the second protective portion (922) is arranged in a staggered manner with respect to the flexible massage assembly (100), wherein the first protective portion (921) and the second protective portion (922) are made of different materials and are spliced, or wherein the thickness of the first protective portion (921) is greater than that of the second protective portion (922).

26. An electro-stimulation massage device (1000) as claimed in any one of claims 19 to 23, wherein the electro-stimulation massage device (1000) is a waist massage device, the flexible base (200) is a belt body, the belt body is flexibly deformable and comprises a mounting portion (201) and two extending portions (202), the two extending portions (202) are located on two sides of the mounting portion (201) along the length direction (F1) of the belt body, the flexible massage assembly (100) is arranged on the mounting portion (201), and the flexible massage unit (10) can be flexibly deformed correspondingly with the flexible deformation of the corresponding portion of the mounting portion (201).

27. An electro-stimulation massage apparatus (1000) according to claim 26, wherein the flexible massage assembly (100) comprises two massage groups (20) spaced apart along the length direction (F1) of the belt body, the two massage groups (20) being respectively located at the left and right sides of the central plane of the mounting portion (201), each massage group (20) comprising a plurality of the flexible massage units (10) spaced apart along the width direction (F2) of the belt body.

28. An electro-stimulation massage apparatus (1000) as claimed in claim 27, characterized in that the length directions (F4) of the plurality of flexible massage units (10) within the same massage group (20) are all arranged in parallel, the length direction (F4) of each flexible massage unit (10) is rotatable at least a first angle in parallel with the length direction (F1) of the waist belt body, and the length direction (F4) of each flexible massage unit (10) is rotatable at least a second angle in parallel with the width direction (F2) of the waist belt body, the first angle being smaller than the second angle.

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