CN220656200U - Electric stimulation module and massage waistband - Google Patents

Electric stimulation module and massage waistband Download PDF

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Publication number
CN220656200U
CN220656200U CN202221892916.9U CN202221892916U CN220656200U CN 220656200 U CN220656200 U CN 220656200U CN 202221892916 U CN202221892916 U CN 202221892916U CN 220656200 U CN220656200 U CN 220656200U
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skin
flexible
support
proximal
sheet
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CN202221892916.9U
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Chinese (zh)
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曹俊岭
黄志标
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SKG Health Technologies Co Ltd.
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SKG Health Technologies Co Ltd.
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Priority to CN202221892916.9U priority Critical patent/CN220656200U/en
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Abstract

The utility model discloses an electric stimulation module and a massage waistband, wherein the electric stimulation module comprises: the flexible support piece is integrally arranged in a flat shape and is provided with a skin-approaching surface and a skin-backing surface, a first forming hole is formed in the flexible support piece, the flexible support piece comprises a first bulge part formed by extending the peripheral edge of the skin-approaching side of the first forming hole in a direction away from the skin-backing surface, and an assembly cavity is formed between the inner side of the first bulge part and the first forming hole; the electrode plate is floatably arranged on the first bulge part, so that the electrode plate is floatably arranged on the flexible support; and an electrical component mounted within the assembly cavity, the electrical component being a circuit board or a battery. The technical scheme of the utility model is beneficial to miniaturization of the electric stimulation module.

Description

Electric stimulation module and massage waistband
Technical Field
The utility model relates to the field of physiotherapy, in particular to an electric stimulation module and a massage waistband.
Background
The prior massage device realizes the massage of human body by utilizing the functional parts with various massage functions, various electric elements are needed to be used for supporting the work of the functional parts, and the prior massage device needs to be independently provided with installation spaces for installing the electric elements so as to increase the occupied space of the whole machine.
Disclosure of Invention
The utility model mainly aims to provide an electric stimulation module, which aims to solve the technical problem of low space utilization rate caused by unreasonable element arrangement.
In order to achieve the above object, the present utility model provides an electro-stimulation module, comprising:
the flexible support piece is integrally arranged in a flat shape and is provided with a skin-approaching surface and a skin-backing surface, a first forming hole is formed in the flexible support piece, the flexible support piece comprises a first bulge part formed by extending the peripheral edge of the skin-approaching side of the first forming hole in a direction away from the skin-backing surface, and an assembly cavity is formed between the inner side of the first bulge part and the first forming hole;
the electrode plate is floatably arranged on the first bulge part, so that the electrode plate is floatably arranged on the flexible support; and
and the electric element is arranged in the assembly cavity and is a circuit board or a battery.
Optionally, the first bulge comprises a first annular convex part and a first top part, the first annular convex part is connected to the skin proximal side periphery of the first molding hole, the first annular convex part extends in a direction away from the back skin surface, and the periphery of the first top part is connected to the free end of the first annular convex part;
The electrode plate is supported on the first top; or, the first top is provided with a first top hole, and the electrode plate is arranged at the first top hole.
Optionally, the first top part is at least partially protruded towards the direction far away from the back skin surface so as to form a smooth supporting protrusion, the electrode plate is at least partially supported on the smooth supporting protrusion, the part of the electrode plate supported on the smooth supporting protrusion is a smooth protruding part, and the smooth protruding part is gradually protruded from the periphery to the middle part; or,
the electrode slice is including locating smooth bellying in the first apical pore and connect in the installation shirt rim of smooth bellying's periphery, the installation shirt rim border the thickness direction of flexible support extends, the installation shirt rim with first annular convex part is connected, smooth bellying is kept away from the smooth arch of direction of back skin face, smooth bellying is by periphery to middle part protruding the setting gradually.
Optionally, the first top portion includes an annular supporting portion and the smooth supporting protrusion, an outer end edge of the annular supporting portion is connected to a free end of the first annular protrusion, and a peripheral edge of the smooth supporting protrusion is connected to an inner end edge of the annular supporting portion; the electrode plate further comprises an annular connecting part connected to the periphery of the smooth protruding part, and the annular connecting part is connected to the outer side face of the annular supporting part; or,
The mounting skirt extends into the first top hole to be connected with the inner annular surface of the first annular protruding portion.
Optionally, the first annular protrusion extends obliquely toward a middle of the first molding hole.
Optionally, the flexible support member includes a skin-proximal support sheet having the skin-proximal surface and a skin-backing support sheet having the skin-backing surface, the first molding hole includes a skin-proximal hole provided on the skin-proximal support sheet and a skin-backing hole provided on the skin-backing support sheet opposite to the skin-proximal hole, and the first bulge is formed by extending a peripheral edge of the skin-proximal hole in a direction away from the skin-backing surface.
Optionally, the electrical stimulation module further comprises a protective shell, wherein the protective shell is arranged in a flat shape, the protective shell is arranged in the assembly cavity, and the electrical element is arranged in the protective shell;
the electrode plate and the protective shell are provided with avoiding intervals in the thickness direction of the flexible supporting piece, so that the electrode plate is prevented from deforming.
Alternatively, when the smooth convex portion of the electrode sheet is supported on the smooth supporting convex portion of the first bulge portion, the smooth supporting convex portion and the protective case are disposed at an interval in the thickness direction of the flexible support member to form the escape interval; or,
When the smooth protruding portion of the electrode plate is arranged in the first top hole, the smooth protruding portion and the protective shell are arranged at intervals in the thickness direction of the flexible support piece so as to form the avoidance interval.
Optionally, the electrical stimulation module further includes an elastic support body filled in the avoiding space, and the elastic support body is used for elastically deforming in a thickness direction of the flexible support.
Optionally, the flexible support further comprises a second bulge part formed by extending the periphery of the back skin hole in a direction away from the skin proximal surface, and the assembly cavity is formed among the second bulge part, the first bulge part and the first molding hole;
the protective housing includes nearly skin shell and back skin shell, back skin shell install in the medial surface of second bellied portion, nearly skin shell install in first annular convex part of first bellied portion and/or back skin shell.
Optionally, the electrical stimulation module further comprises a support frame, the support frame is mounted on the inner ring surface of the first annular protruding portion, the support frame is arranged outside the skin-approaching shell, a mounting gap is arranged between the support frame and the skin-approaching shell, and the mounting skirt edge of the electrode plate is connected in the mounting gap;
The support frame is detachably connected with the skin-backing shell.
The utility model also provides a massage waistband, which comprises a flexible waistband body and an electric stimulation module, wherein the electric stimulation module is arranged on the flexible waistband body;
wherein, the electrical stimulation module includes:
the flexible support piece is integrally arranged in a flat shape and is provided with a skin-approaching surface and a skin-backing surface, a first forming hole is formed in the flexible support piece, the flexible support piece comprises a first bulge part formed by extending the peripheral edge of the skin-approaching side of the first forming hole in a direction away from the skin-backing surface, and an assembly cavity is formed between the inner side of the first bulge part and the first forming hole;
the electrode plate is floatably arranged on the first bulge part, so that the electrode plate is floatably arranged on the flexible support; and
and the electric element is arranged in the assembly cavity and is a circuit board or a battery.
According to the electric stimulation module, the first forming hole is formed in the flexible supporting piece, the first forming hole protrudes towards the direction away from the back skin surface to form the first bulge part, the first forming hole and the first bulge part are enclosed to form the assembly cavity, and the circuit board or the battery is arranged in the assembly cavity, so that the assembly cavity for installing the battery or the circuit board is formed by combining the first bulge part for installing the electrode plate with the first forming hole, the first bulge part is used as an installation structure for installing the electrode plate, and is used as a containing structure for containing the circuit board or the battery, the structural characteristics of the first bulge part are fully utilized, the structure of the electric stimulation module is very compact, the space utilization rate is greatly improved, and the electric stimulation module is beneficial to miniaturization.
Drawings
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of an embodiment of an electro-stimulation module according to the present utility model;
FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;
FIG. 3 is a schematic diagram of an exploded view of the embodiment of FIG. 1;
FIG. 4 is a schematic view of the structure of FIG. 3 from another perspective;
FIG. 5 is a schematic view of an embodiment of a skin proximal support sheet;
FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;
FIG. 7 is a schematic view of an embodiment of a backing sheet;
FIG. 8 is a schematic view of the structure of FIG. 7 from another perspective;
FIG. 9 is a schematic view of the structure of FIG. 1 from another perspective;
FIG. 10 is a schematic cross-sectional view of the structure M-M in FIG. 9;
FIG. 11 is a schematic view of a partial enlarged structure at A in FIG. 10;
FIG. 12 is a schematic view of a partial enlarged structure of an embodiment of the B in FIG. 10;
FIG. 13 is a schematic view of a partial enlarged structure of another embodiment at B in FIG. 10;
FIG. 14 is a schematic view of a partial enlarged structure of an embodiment of FIG. 10C;
FIG. 15 is a schematic view of an embodiment of a panel;
FIG. 16 is a schematic view of the structure of FIG. 15 from another perspective;
FIG. 17 is a schematic diagram of an embodiment of a circuit board;
FIG. 18 is a schematic diagram of an embodiment of a rigid top shell;
FIG. 19 is a schematic view of an embodiment of a flexible electrode sheet;
FIG. 20 is a schematic view of the structure of FIG. 19 from another perspective;
FIG. 21 is a schematic view of another embodiment of a physiotherapy module according to the present utility model;
FIG. 22 is a schematic diagram of an exploded view of the embodiment of FIG. 21;
FIG. 23 is a schematic view of the structure of FIG. 22 from another perspective;
FIG. 24 is a schematic view of a physiotherapy module according to another embodiment of the present utility model;
FIG. 25 is a schematic view of a partial enlarged structure of an embodiment of the portion D in FIG. 24;
FIG. 26 is a schematic view of the structure of FIG. 21 from another perspective;
FIG. 27 is a schematic view of the cross-sectional structure at N-N in FIG. 26;
FIG. 28 is a schematic view of a partial enlarged structure of an embodiment of E in FIG. 27;
FIG. 29 is a schematic view of a partial enlarged structure of another embodiment at E in FIG. 27;
FIG. 30 is a schematic diagram of an embodiment of a rigid middle frame;
FIG. 31 is a schematic view of an embodiment of a hard electrode sheet;
FIG. 32 is a schematic diagram of an embodiment of an arrangement of phototherapy components and electro-stimulation components;
FIG. 33 is a schematic view of another embodiment of an arrangement of phototherapy components and electrostimulation components;
FIG. 34 is a schematic view of a further embodiment of an arrangement of phototherapy components and electro-stimulation components;
FIG. 35 is a schematic view of a massage waistband according to an embodiment of the present utility model;
fig. 36 is a schematic structural view of another embodiment of the massage waistband of the present utility model.
Reference numerals illustrate:
the achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
It should be noted that, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is only for descriptive purposes, and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.
In addition, the meaning of "and/or" as it appears throughout is meant to include three side-by-side schemes, for example, "A and/or B", including the A scheme, or the B scheme, or the scheme where A and B meet at the same time.
The utility model provides a physiotherapy module and a physiotherapy device. Wherein, the physiotherapy device mainly refers to a wearing physiotherapy device, and can be a massage waistband, a neck massage instrument, a head massage instrument, an eye massage instrument and the like. The physiotherapy device comprises a physiotherapy module and a wearing piece, wherein the physiotherapy module and the wearing piece can be integrally and detachably connected, and also can be detachably connected. The wearing member may be a hard wearing member, or may be a flexible wearing member, or may be a wearing member combining flexibility and hardness. The physiotherapy module may also include physiotherapy units and support members, and the support members may be flexible members or rigid members, and the flexible support member 10 will be mainly described herein as an example. The physiotherapy module mainly performs physiotherapy effects on skin, muscle and the like of the human body part through electric stimulation, light physiotherapy, diaphragm heating and vibration and extrusion. For convenience of description in the embodiment, the physiotherapy module includes a massage module including a massage unit (stimulating human skin and muscle mainly by electricity, heat, squeezing, vibration, etc.), and a phototherapy module including a phototherapy unit (stimulating human skin and muscle mainly by light, etc.). In the latter embodiments of the present application, the physiotherapy device will be described by taking a massage belt as an example. It is worth noting that references herein to physical therapy, collectively refer to physical stimulation of non-drugs, including but not limited to one or more of electrical stimulation, phototherapy, heating of the membrane, and vibration and compression.
The structure and function of the massage belt are described below in its entirety, and each component of the massage belt is described separately, mainly in terms of the shape, structure, physical characteristics (flexibility, elasticity, hardness, etc.) of each massage component, and the positional relationship and the mating relationship between each component. The massage waistband comprises a flexible waistband and a physiotherapy module. The flexible waistband can be a waistband with an installation part and only play a role in wearing, can also be a flexible wearing waistband with a built-in circuit, and the circuit can be a power circuit, a signal circuit, a circuit connection massage module and a power supply, or a connection massage module and a control unit and the like. The flexible waistband and the massage module can be detachably connected. The massage module and the flexible waistband can be detachably connected in many ways, such as by the adsorption of the magnetic component 910, the adhesion of the magic tape 920, or the arrangement of a containing part (for accommodating the massage module) and a hanging part (for hanging and installing the massage module) on the flexible waistband. Of course, in some embodiments, the flexible waistband and the massage module may be integrally and non-detachably connected.
The massage module comprises a supporting piece and functional pieces arranged on the supporting piece, such as a physiotherapy unit, a power supply assembly, an electric control assembly and the like. The physical therapy unit may be a light physical therapy unit, an electrical stimulation physical therapy unit, a heating physical therapy unit, a vibration or extrusion physical therapy unit, or the like, and of course, in some embodiments, an actual physical therapy unit may combine the functions of the plurality of physical therapy units. The support member has a plurality of assembly chambers, and the physiotherapy unit, the power supply assembly and the electronic control assembly may be respectively installed in different assembly chambers, and in some embodiments, may also be installed in the same assembly chamber in a combined manner, for example, the power supply assembly and the physiotherapy unit are respectively installed in the assembly chamber and the cavity opening of the assembly chamber, and the electronic control assembly and the physiotherapy unit are respectively installed in the assembly chamber and the cavity opening of the assembly chamber, which are not limited in particular herein. When the massage module works, the power supply assembly provides electric energy for the electric control assembly and the physiotherapy unit, and the physiotherapy unit outputs electric stimulation, heat energy, light energy, mechanical vibration, mechanical extrusion and the like outwards under the control of the electric control assembly. When the skin, the muscles and the like of the human body receive electric stimulation, heat energy, light energy, mechanical vibration and mechanical extrusion, the blood circulation is accelerated, related substances at the positions of ache and the like are timely conveyed and discharged into the body through the blood circulation, and meanwhile, the muscles are stretched and moved under the action of the electric stimulation, so that the massage of the physiotherapy device on the human body is realized.
Referring to fig. 1 to 8, the specific form of each component of the physiotherapy device will be mainly described.
With respect to the support, it may be a hard support, or may be a flexible support 10, and in some embodiments may even be a soft and hard combined support, and specific physical characteristics may be set according to actual working condition requirements, product positioning, and the like. The overall shape of the support member can be quite large, such as a shape of a helmet for hanging a neck, a shape of an eye shield for fitting with a head, a shape of a belt for flexible winding, a sheet shape, etc. In this application, the support will be described by taking a support sheet in a flexible flat shape as an example.
The flexible support 10 may be integrally formed or may be formed by assembling a plurality of support sheets, which may include the skin proximal support sheet 110 and the skin back support sheet 200. The overall shape of the flexible support member 10 may be any of a wide variety of shapes, such as circular, oval, rectangular-like, etc., and may be adjusted according to the suitability of the physiotherapy site for which the product is mainly intended, and is not particularly limited herein. The number of the assembly cavities formed on the flexible support member 10 may be plural, and the plurality of assembly cavities may be arranged along the length direction of the flexible support member 10 or may be arranged along the width direction, and of course, may be distributed along the circumference of the flexible support member 10 under some working conditions. In this application, the flexible support 10 is exemplified as being arranged in the longitudinal direction. For example, the middle part of the flexible support member 10 is a first assembling cavity 121, and two opposite sides thereof are distributed with a second assembling cavity 122 and a third assembling cavity 123. Of course, in some embodiments, with five fitting chambers, a fourth fitting chamber 125, a second fitting chamber 122, a first fitting chamber 121, a third fitting chamber 123, and a fifth fitting chamber 126 are arranged in order along the length direction of the flexible support 10. The thickness of the flexible supporting member 10 is 3-5 mm, and the thickness thereof is 5-11 mm corresponding to the position of the assembly cavity.
The manner and specific structure of forming the flexible support 10 will be described.
The flexible support 10 is integrally formed:
the skin proximal side of the flexible support 10 has a skin proximal portion and the back skin side has a back skin portion; the skin proximal portion extends away from the back skin portion to form a first mounting portion 110; the back skin part extends away from the skin proximal part to form a second mounting part 210, and an assembly cavity is formed between the first mounting part 110 and the second mounting part 210; alternatively, the skin proximal portion extends away from the back skin portion to form the first mounting portion 110; an assembly cavity is formed between the first mounting portion 110 and the back skin portion; alternatively, the back skin portion extends away from the skin proximal portion to form a second mounting portion 210, with an assembly cavity formed between the second mounting portion 210 and the skin proximal portion. That is, there are various ways of forming the fitting cavity, and it may be formed by protruding one side of the flexible support 10 outwards, or may be formed by protruding both sides of the flexible support outwards.
In other embodiments, the flexible support 10 is provided with a molding hole, the flexible support 10 includes a bulge formed by extending the peripheral edge of the skin proximal side of the molding hole in a direction away from the back skin surface, and an assembling cavity is formed by combining the inner side of the bulge and the molding hole.
When the flexible support 10 is formed by splicing the support pieces:
the flexible supporting member 10 comprises a skin-proximal supporting sheet 110 and a back skin supporting sheet 200, wherein the back skin side surface of the skin-proximal supporting sheet 110 is attached to the skin-proximal side surface of the back skin supporting sheet 200; the edge of the skin-proximal support sheet 110 is connected to the skin-proximal side of the back-skin support sheet 200, or the edge of the back-skin support sheet 200 is connected to the back-skin side of the skin-proximal support sheet 110 to form an edge joint; the skin-proximal side of the skin-proximal support sheet 110 has a first connection portion, the skin-proximal side of the skin-proximal support sheet 200 has a second connection portion corresponding to the first connection portion, and the first connection portion and the second connection portion are connected together to form an inner joint portion, and the inner joint portion is located inside the edge joint portion; the skin-proximal support sheet 110 and the back skin support sheet 200 are enclosed to form an assembly cavity. The mounting cavity is configured to mount a functional component.
Specifically, in this embodiment, the skin-proximal supporting sheet 110 and the skin-backing supporting sheet 200 are flexibly disposed, and in some embodiments, may have a certain elasticity, and the material may be a flexible colloid such as insulating rubber, silica gel, or the like. The skin proximal support sheet 110 has oppositely disposed skin proximal and back sides, and as such, the back support sheet 200 has oppositely disposed skin proximal and back sides. The skin-proximal support sheet 110 is in close proximity to the skin of a person during operation, and the back skin support sheet 200 is located on the back skin side of the skin-proximal support sheet 110. In the process of attaching the skin-proximal support sheet 110 and the skin-backing support sheet, the edge of the skin-proximal support sheet 110 or the portion near the edge may be attached to the skin-backing support sheet 200, or the edge of the skin-backing support sheet 200 or the portion near the edge may be attached to the skin-proximal support sheet 110, or, in some embodiments, the edge of the skin-proximal support sheet 110 may be attached to the edge of the skin-backing support sheet 200.
In order to ensure connection reliability of the skin-proximal support sheet 110 and the back-skin support sheet 200, connection structures are provided at both edges and the middle of the flexible support member 10. Regarding the edge bonding portion, it is formed by connecting the edge portion of the skin-proximal support sheet 110 to the skin-proximal side of the back-skin support sheet 200, or connecting the edge portion of the back-skin support sheet 200 to the back-skin side of the skin-proximal support sheet 110. The edge joints may be provided in a ring around the edges of the entire flexible support 10, although in some embodiments, a ring-shaped edge joint may be formed by combining or splicing multiple connection segments. The skin proximal support sheet 110 has a first connection portion in the middle of the skin proximal side, and the skin proximal support sheet 200 has a second connection portion in the middle of the skin proximal side, and the first connection portion is connected to the second connection portion. The first and second connection portions may take many forms, such as both may be planar; one of the two glue dispensing grooves can be a glue dispensing groove, and the other one is a glue dispensing protrusion which is matched with the glue dispensing groove; other mating structures, such as snaps, etc., are also possible. There may be many ways to attach the skin support sheet 110 and the back skin support sheet 200 (to form edge and interior bonds), such as by gluing, heat staking, and the like. Of course, in some embodiments, the connection may be made by means of fasteners, wire twisting, magnetic attraction, etc. under specific operating conditions. The number of the inner joint portions is plural, and the inner joint portions may be arranged at intervals along the length direction of the flexible support member 10, or may be arranged at intervals along the width direction of the flexible support member 10. In the present embodiment, a single inner joint portion is exemplified as extending in the width direction of the flexible support 10, and a plurality of inner joint portions are arranged at intervals in the length direction of the flexible support 10. It should be noted that when the assembly cavities are spaced apart along the length of the flexible support member 10, the inner joint portion may be located between two adjacent assembly cavities.
In this embodiment, by forming both an edge bonding portion and an inner bonding portion between the skin-proximal support sheet 110 and the back skin support sheet 200, the edge bonding portion can make the edge connection between the skin-proximal support sheet 110 and the back skin support sheet 200 very reliable, and the inner bonding portion can make the middle connection between the skin-proximal support sheet 110 and the back skin support sheet 200 very reliable; so that the skin-proximal support sheet 110 and the back-skin support sheet 200 can be stably connected; it should be noted that, by arranging the flexible supporting element 10 to be formed by attaching the skin-proximal supporting piece 110 and the skin-backing supporting piece 200, the production and molding of the skin-proximal supporting piece 110 and the skin-backing supporting piece 200 are more convenient, specifically, the skin-proximal supporting piece 110 and the skin-backing supporting piece 200 need to be enclosed to form an assembly cavity, and structures such as a bulge part need to be formed on the skin-proximal supporting piece 110 and/or the skin-backing supporting piece 200 by protruding, and the bulge part can be formed separately compared with the case of integrally forming the two pieces, so that the bulge parts on the skin-proximal supporting piece 110 and the skin-backing supporting piece 200 are simpler and are easier to mold and produce; meanwhile, the flexible supporting piece 10 has flexibility, and when the massage module works, functional pieces on the assembly cavity, particularly the physiotherapy unit can be fully attached to the skin, so that the physiotherapy unit can better carry out physiotherapy on the skin, muscles and the like, and the physiotherapy effect is improved.
It should be noted that in some embodiments, the skin-proximal support sheet is composed of a plurality of skin-proximal support sheets that are independent of each other, and adjacent skin-proximal support sheets may have a space therebetween to be independent of each other. Locally, in other embodiments, a connector may also be provided between adjacent skin-proximal support tabs.
Specifically, the massage module includes: the flexible support piece comprises a back skin support piece and a plurality of skin near support pieces, and the skin near support pieces are distributed along the length direction of the back skin support piece; the skin-proximal side surface of the skin-proximal support sheet is attached to the skin-proximal side surface of the skin-proximal support sheet; the edge of the skin-near supporting sheet is connected with the back skin supporting sheet to form an edge combination part; the skin-near supporting piece and the back skin supporting piece are enclosed to form an assembly cavity; and the functional piece is arranged in the assembly cavity. In this embodiment, when the skin-proximal support sheet is connected to the skin-backing support sheet, the edge of the skin-proximal side of the skin-proximal support sheet is attached to and connected to the skin-proximal side of the skin-proximal support sheet to form an edge joint. In the area surrounded by the edge joint parts, the skin-near supporting piece and the back skin supporting piece are surrounded to form an assembly cavity. The skin-approaching support piece is arranged along the length direction of the back skin support piece, and the formed plurality of assembly cavities are also arranged along the length direction of the back skin support piece.
In some embodiments, to further improve the connection reliability of the skin proximal support sheet 110 and the back skin support sheet 200, the edges of the skin proximal support sheet 110 and/or the back skin support sheet 200 are formed with connection wraps having embedded rigid stiffeners.
Specifically, in this embodiment, when the skin-proximal support sheet 110 and the skin-backing support sheet 200 are connected to form the edge-bonding portion, in order to form the edge-bonding portion more conveniently, a connection wrapping edge is formed at the edge of the skin-proximal support sheet 110, or the edge of the skin-backing support sheet 200, or both. The thickness of connecting the bordure is greater than the thickness of the connection piece that is close to connecting the bordure, is favorable to improving the connection reliability when connecting. Simultaneously, can inlay in connecting the bordure and establish stereoplasm reinforcement to improve intensity and the rigidity of borduring, to flexible material, the convenience that the improvement edge that can be by a wide margin combines the formation is established to inlaying of stereoplasm reinforcement. The hard reinforcement can be embedded in a plurality of ways, such as a mounting space is formed in the connecting wrapping edge, and the hard reinforcement is mounted in the mounting space; the hard reinforcement can also be embedded in the connecting and binding in the forming process, so that the hard reinforcement and the connecting and binding are integrally formed. The form of the stiffening member may be any number, such as a stiffening sheet and/or a stiffening strip, wherein the stiffening strip may have a cross-sectional shape that is circular, oval, square, triangular, or concave, and the like, and is not particularly limited and may be configured according to specific operating conditions. The rigid reinforcement may be integral or may comprise multiple segments. The stiffening member extends in a loop around the perimeter of the skin proximal support sheet 110 and/or the back skin support sheet 200 for improved support by the stiffening member. It should be noted that the hard reinforcement may be disposed in a ring shape itself; or may be in the form of a long straight strip in its natural state, and formed into a loop around the skin-proximal support sheet 110 and/or the skin-backing support sheet 200.
In some embodiments, the rigid reinforcement has elasticity in order to improve the deformation restoring force of the assembled flexible support 10. As such, the hard reinforcement may be steel wire, sheet metal, or the like. Under the condition that the hard reinforcing piece is elastic, when the flexible supporting piece 10 is deformed by external force, elastic potential energy is stored, after the external force is withdrawn, the flexible supporting piece 10 can be better restored to the original state, the use experience of a user is improved, and the use of the massage module is facilitated.
In some embodiments, to further increase the strength and stability of the flexible support 10 to increase the resistance to deformation, the skin-proximal side of the skin-proximal support sheet 110 and/or the skin-proximal side of the skin-proximal support sheet 200 is formed with adhesive protrusions 250; the adhesive protrusions 250 are adhered to the skin proximal side of the skin-proximal support sheet 200 and/or the skin-proximal side of the skin-proximal support sheet 110. The adhesive convex portions 250 are integrally formed with the skin-proximal support sheet 110 or integrally formed with the back skin support sheet 200, and of course, the adhesive convex portions 250 may be provided on both the skin-proximal support sheet 110 and the back skin support sheet 200. The bonding protrusion 250 may have various forms, such as a long strip shape, a round cake shape, etc., and the bonding protrusion 250 has any one of a rectangular shape, a trapezoid shape, and a partial circular shape in cross section. Of course, in some embodiments, other desired shapes may be provided, and the configuration may be set according to specific practical situations, which is not limited in particular. Through the setting of bonding convex part 250 for the intensity of back skin backing sheet 200 and near skin backing sheet 110 obtains promoting by a wide margin, has increased flexible support 10 anti-deformation's ability, is difficult for taking place to warp under non-service condition, is favorable to the protection to install in its inside functional part, thereby improves the stability of massage module.
In some embodiments, in order to further improve the connection stability of the first connection part having the adhesive protrusion 250 and the second connection part formed with the adhesive groove 150; and/or the first connection part is formed with an adhesive groove 150, and the second connection part has the adhesive protrusion 250; the adhesive convex portion 250 is inserted into the adhesive groove 150.
Specifically, in the present embodiment, by providing the adhesive groove 150 corresponding to the adhesive convex portion 250 and inserting the adhesive convex portion 250 into the submitting groove, an adhesive layer is provided between the adhesive groove 150 and the adhesive convex portion 250. During the assembly, the adhesive can be dispensed into the adhesive dispensing slot, and when the adhesive convex part 250 is inserted, the adhesive can be connected and fixed with the adhesive dispensing slot in an adhesive manner. In this way, the contact area between the skin-proximal side of the skin-proximal support sheet 110 and the skin-proximal side of the skin-proximal support sheet 200 is greatly increased, so that the adhesion area between the skin-proximal support sheet 110 and the skin-proximal support sheet 200 is greatly increased, and the connection strength between the skin-proximal support sheet 110 and the skin-proximal support sheet 200 is advantageously improved. The shape of the cross section of the bonding groove 150 and the shape of the cross section of the bonding protrusion 250 may be various, and the shape of the bonding groove 150 is adapted to the shape of the bonding protrusion 250 in order to improve the fit between the bonding protrusion 250 and the bonding groove 150.
In some embodiments, in order to improve the overall strength of the flexible support 10, the number of the assembly cavities is plural, and the plurality of assembly cavities are arranged at intervals along the length direction of the flexible support 10; the flexible supporting member 10 between the adjacent two of the fitting chambers is formed with an adhesive groove 150 and an adhesive protrusion 250 extending in the width direction thereof. A plurality of elongated adhesive tabs 250 may be provided along the width of the flexible support 10, and a pie-shaped adhesive tab 250 may be provided between two adjacent adhesive tabs 250; of course, the adhesive groove 150 corresponding to the shape of the adhesive convex portion 250 is provided at a position corresponding to the shape. In this way, the connection strength between the skin proximal support sheet 110 and the skin back support sheet 200 is further increased at the position between the mounting cavities, and the mounting stability of the functional components in the mounting cavities is ensured.
In some embodiments, in order to further improve the connection strength of the edge bonding portion, the edge of the skin-proximal supporting sheet 110 and/or the skin-proximal supporting sheet 200 is formed with an edge connection groove, and the edge of the skin-proximal supporting sheet 200 and/or the skin-proximal supporting sheet 110 is formed with an edge connection protrusion corresponding to the edge connection groove, and the edge connection protrusion is inserted into the edge connection groove. The adhesive is arranged between the edge connecting groove and the edge connecting protrusion, and can be realized by dispensing the adhesive in the edge connecting groove and then inserting the edge connecting protrusion into the edge connecting groove. The edge connection groove is arranged in an annular shape, extends along the circumferential direction of the flexible support member 10, and the edge connection protrusion is arranged in an annular shape, and extends along the circumferential direction of the flexible support member 10. It is worth to say that the annular edge connecting grooves can be arranged in a segmented mode or can be in an integral annular mode; the annular edge connecting protrusions can be arranged in a segmented mode corresponding to the edge connecting grooves, and can also be in an integral annular shape. Through limit connection recess and limit connection arch for the connection area of limit joint portion obtains increasing by a wide margin, is favorable to improving the joint strength of limit joint portion.
In some embodiments, to further improve the connection strength of the edge joint, the massage device further comprises a hard support bar, wherein the hard support bar is provided with a support glue groove, and the groove wall of the support glue groove is embedded in the edge of the skin-proximal support sheet 110 and/or the skin-backing support sheet 200; the edge of the back skin supporting sheet 200 and/or the near skin supporting sheet 110 is provided with a supporting point adhesive protrusion corresponding to the supporting adhesive groove, and the supporting point adhesive protrusion is inserted into the supporting adhesive groove. In this embodiment, the adhesive is disposed between the supporting adhesive groove and the supporting adhesive dispensing protrusion, and may be implemented by dispensing adhesive in the supporting adhesive groove and then inserting the supporting adhesive dispensing protrusion therein. The support glue groove is annular, extends along the circumference of the flexible support member 10, and the support point glue protrusion is annular, and extends along the circumference of the flexible support member 10. It is worth to say that the annular supporting glue groove can be arranged in a segmented way or can be an integral annular way; the annular supporting point glue-pouring bulges can be arranged in a segmented manner corresponding to the supporting glue grooves, and can also be in an integral annular shape. Through supporting the gluey groove and supporting the some glue protruding for the area of connection of limit joint portion obtains increasing by a wide margin, is favorable to improving the joint strength of limit joint portion.
The manner in which the flexible support member 10 is formed and the connection of the flexible support member 10 with the skin proximal support sheet 110 and the skin distal support sheet 200 is described above is mainly described, and the following description will be made of how the flexible support member 10 forms the assembly cavity and how the functional elements are mounted in the respective assemblies.
There are various ways of forming the fitting chamber, and the following will be exemplified. The skin-proximal support sheet 110 extends partially in a direction away from the back skin support sheet 200 to form a first mounting portion 110; the backing sheet 200 extends locally away from the skin proximal sheet 110 to form a second mounting portion 210, and the first mounting portion 110 and the second mounting portion 210 form the assembly cavity therebetween. Alternatively, the skin-proximal support sheet 110 extends partially in a direction away from the back skin support sheet 200 to form a first mounting portion 110; the first mounting portion 110 and the backing support 200 form the assembly cavity therebetween. Alternatively, the backing sheet 200 extends locally away from the skin proximal sheet 110 to form a second mounting portion 210, and the mounting cavity is formed between the skin proximal sheet 110 and the second mounting portion 210. That is, the fitting cavity may be formed by the protruding extension of the skin-proximal support sheet 110 in a direction away from the back-skin support sheet 200, or may be formed by the protruding extension of the back-skin support sheet 200 in a direction away from the skin-proximal support sheet 110, or in some embodiments, the fitting cavity may be formed by the protruding extension of both the skin-proximal support sheet 110 and the back-skin support sheet 200 in opposite directions.
The number of the assembly cavities can be quite large, and the assembly cavities can be three cavities, five cavities and the like. In the following, three cavities are taken as an example, and specifically, the massage module includes: a massage base body including a flexible support member 10 having a flat shape as a whole and a massage unit provided on the flexible support member 10; the flexible support 10 has a skin-proximal side and a back-skin side, the massage unit being disposed exposed to the skin-proximal side; the flexible support 10 has three assembly cavities arranged at intervals; the electric control plate and the two batteries 720 are electrically connected with the massage unit, and the electric control plate and the two batteries 720 are respectively arranged in an assembly cavity. The three assembly cavities are sequentially arranged along the length direction of the flexible support 10, and the circuit board 530 is positioned in the middle assembly cavity, so that the two batteries 720 are respectively positioned at two opposite sides of the electric control board; and/or the fitting cavity extends in the width direction of the flexible support 10. Among the three assembly cavities, a first assembly cavity 121 is arranged in the middle and is used for installing a circuit board 530, and two sides of the first assembly cavity 121 are respectively provided with a second assembly cavity 122 and a third assembly cavity 123, and batteries 720 are respectively installed.
Five chambers are also possible, and five are described below as an example. Five fitting cavities are arranged along the length direction of the flexible support 10, and the fitting cavities extend along the width direction of the flexible support 10. For convenience of description in the following embodiments, the names of five fitting chambers are defined, and the middle portion of the flexible support 10 is a first fitting chamber 121, and fourth fitting chamber 125, second fitting chamber 122, first fitting chamber 121, third fitting chamber 123, and fifth fitting chamber 126 are sequentially formed along the length direction of the flexible support 10. The first assembly cavity 121 is used for installing the electronic control box 500, the light physiotherapy element, the indicator light element and the like, and the panel 300 installed on the electronic control box 500 is exposed through the cavity opening of the first assembly cavity 121. The second and third assembly chambers 122 and 123 are positioned symmetrically with respect to the first assembly chamber 121, the power supply box 700 is assembled in the second and fourth assembly chambers 122 and 125, and the electro-stimulation electrode pads are disposed at the mouth positions of the second and third assembly chambers 122 and 123. The fourth and fifth fitting chambers 125 and 126 are symmetrical with respect to the first fitting chamber 121, the fourth and fifth fitting chambers 125 and 126 are fitted with supporting members, and the electro-stimulation electrode pads are disposed at the mouth positions of the fourth and fifth fitting chambers 125 and 126. The fourth fitting chamber 125 has a fourth chamber orifice 135, and the fifth fitting chamber 126 is specifically a fifth chamber orifice 136.
Either three or five assembly cavities involve the mounting of two batteries 720 and a circuit board 530. Two batteries 720 are electrically connected to the circuit board 530 and the massage unit simultaneously to supply power to the massage unit. By arranging at least three assembly cavities, the circuit board 530 and the two batteries 720 can be respectively arranged in different installation cavities, so that when the massage module has enough electric energy for a user to use, the whole thickness of the massage matrix is thinner, and the massage module can be quite thin; when the user uses the massage module, flat flexible support 10 is favorable to the better subsides in human skin of massage unit, so, through the setting in three assembly chamber for under the condition that the massage module can provide sufficient duration, still keep frivolously, make the frivolous and long duration of massage module combine, be favorable to improving user's use experience. Meanwhile, the two batteries 720 are symmetrically arranged with respect to the position of the electric control plate, so that the weights of the second assembly cavity 122 and the third assembly cavity 123 on two sides of the first assembly cavity 121 are equivalent, the whole massage module is balanced, and the stability of the massage module is improved.
The specific installation form of each installation cavity and the installation mode of each functional piece are respectively described below. The description is in the order of starting from the first fitting chamber 121 in the middle, then the second fitting chamber 122 and the third fitting chamber 123, and finally the fourth fitting chamber 125 and the fifth fitting chamber 126. It should be noted that the first assembly cavity 121 to the fifth assembly cavity 126 may be used independently or in combination, and it is proposed to improve the integrity of the document only, so as to facilitate the reader's reading. That is, in some embodiments, the solution involved in a single assembly chamber may be used independently for other physiotherapy devices, rather than just for the condition where the functional elements in multiple assembly chambers are used simultaneously.
Referring to fig. 10 to 20, taking the first assembly chamber 121 with the physiotherapy light source 560 as an example, a physiotherapy device having the physiotherapy light source 560 is described. The problem that the physiotherapy light source 560 emits invisible light and cannot be perceived by a user is solved.
A physiotherapy device, the physiotherapy device comprising: a device body including a panel 300, the panel 300 having an inner surface 320 and an outer surface 310, the panel 300 having a light blocking region 350 and a light transmitting region; the physiotherapy light source 560 is disposed on the side of the inner surface 320 of the panel 300, and the physiotherapy light source 560 is configured to emit invisible light toward the light-transmitting area, so as to pass through the light-transmitting area; the visible light source 570 is disposed on a side of the inner surface 320 of the panel 300, the visible light source 570 is disposed in a dislocation with the light-transmitting area, and the visible light source 570 is configured to emit visible light toward the light-transmitting area so as to pass through the light-transmitting area.
Specifically, in this embodiment, the device body may be in various forms, such as a massage belt, a neck massage device, a head massage device, an eye massage device, etc., and of course, other devices that require a physiotherapy light source 560 for physiotherapy may also be used. The panel 300 has an inner surface 320 and an outer surface 310 disposed opposite to each other, and the panel 300 has a light-transmitting region for transmitting light and a light-blocking region 350 for blocking the light from transmitting. The arrangement of the light blocking area 350 and the light transmitting area may be many, and is not limited herein, and may be adjusted according to actual needs of the physiotherapy apparatus. The therapeutic light source 560 and the visible light source 570 are both located on the side of the inner surface 320 of the panel 300. The form of the physiotherapy light source 560 may be various, such as far infrared ray, and the physiotherapy light emitted from the physiotherapy light source 560 may be emitted through the panel 300 through the light-transmitting area to perform far infrared physiotherapy on the human body. Likewise, the visible light source 570 emits visible light, such as infrared light, and the visible frame is emitted through the panel 300 through the light-transmitting region to be visible to a person. The visible light source 570 and the light transmission area are arranged in a staggered manner, so that a small number of light rays can directly pass through the light transmission area and need to pass through the light transmission area again through reflection and the like, and therefore, a user can see light, but the light cannot be dazzled, and the comfort level of the physiotherapy device is improved. Wherein, physiotherapy light source 560 can with the light transmission district dislocation set, also can just set up, when physiotherapy light source 560 and light transmission district set up relatively, physiotherapy light can be a large amount of through light transmission district ejection panel 300, is favorable to the better amazing human body of physiotherapy light, is favorable to improving physiotherapy effect.
In this embodiment, through setting up the panel 300 that has light-transmitting zone and light-blocking zone 350 on the device body to set up physiotherapy light source 560 and visible light source 570 at the internal surface 320 of panel 300, make physiotherapy light source 560 and visible light source 570's light all can be penetrated through the light-transmitting zone, so, when the physiotherapy light source 560 during operation, the user can be through the operating condition of light perception physiotherapy light source 560 that visible light source 570 sent, simultaneously, through with visible light source 570 and light-transmitting zone dislocation set, make can the visible light source 570 can not direct the human eye, thereby avoid user's eyes to be stimulated by the highlight, so, not only can not only be through the physiotherapy of visible light perception invisible light, but also can not be stimulated eyes by the visible light, be favorable to improving user's use experience.
In order to facilitate understanding of the following technical solutions, an example will be described below with respect to the device body.
The physiotherapy device is a waist physiotherapy device, the device body comprises a flexible supporting piece 10 and an electric control box 500, the whole body of the device is flat, and the flexible supporting piece 10 is provided with an assembly cavity and an cavity opening which is communicated with the assembly cavity and the outside; the electronic control box 500 is installed in the assembly cavity, and the panel 300 is installed on the electronic control box 500 and exposed through the cavity opening. Corresponding to the above embodiment, the assembly cavity in this embodiment is the first assembly cavity 121, and the corresponding cavity opening is the first cavity opening 131. By installing the panel 300 to the electronic control box 500 and installing the electronic control box 500 to the first assembly cavity 121, the panel 300 can be very well close to the skin of the human body during the physiotherapy process, so that the physiotherapy light can penetrate the cortex of the human body as much as possible, and physiotherapy is performed on the human body. It should be noted that, in other embodiments, the device body further includes a circuit board 530, and a polarizer 550, the physiotherapy light source 560 and the visible light source 570 are disposed on the circuit board 530, and the circuit board 530 is disposed in the electronic control box 500; the electric control box 500 is provided with a light hole 516 corresponding to the physiotherapy light source 560, the electric control box 500 is disposed on one side of the inner surface 320 of the panel 300, and the polarizing plate 550 is disposed between the physiotherapy light source 560 and the panel 300. In this embodiment, a mounting groove 515 is formed at the top of the electronic control box 500 (the side wall of the electronic control box 500 facing the inner surface 320 of the panel 300), and the mounting groove 515 is formed to be recessed from the top of the electronic control box 500 into the electronic control box 500. The mounting groove 515 is disposed corresponding to the light-passing hole 516, so that the light emitted from the light must pass through the mounting groove 515, and the physiotherapy light emitted from the physiotherapy light source 560 is acted on by the polarizer 550. The edge of the electronic control box 500 protrudes upward to form a fitting groove 518, and the panel 300 is mounted in the fitting groove 518. In some embodiments, a key element is disposed on a side of the circuit board 530 opposite to the panel 300; the electric control box 500 is provided with key holes corresponding to the key elements; the device body comprises a flexible supporting piece 10 which is flat integrally, the flexible supporting piece 10 is provided with an assembly cavity, the electric control box 500 is arranged in the assembly cavity, and a pressing part 290 is formed on the flexible supporting piece 10 corresponding to the key hole. That is, the key elements on the circuit board 530 can be controlled through the key holes by the pressing portions 290 on the flexible supporting member 10, so that the number of components is reduced, the structure of the device body is simplified, and the assembly efficiency is improved. The key elements may be disposed on the surface of the circuit board 530 facing the skin-proximal supporting sheet 110, or may be disposed on the surface of the circuit board 530 facing the back skin supporting sheet 200. The key holes on the electronic control box 500 are arranged corresponding to the key elements, and can be arranged on the side wall close to the skin-approaching supporting piece 110 or on the side wall close to the back skin supporting piece 200. Similarly, the pressing portion 290 may be formed on the skin-proximal supporting sheet 110 corresponding to the key hole, or may be formed on the back skin supporting sheet 200 corresponding to the key hole.
The light transmission area penetrated by the light emitted by the physiotherapy light source 560 may be the same as or different from the light transmission area penetrated by the visible light. In some embodiments, when the number of the physical therapy light source 560 and the visible light source 570 is plural, part of the invisible light emitted from the physical therapy light source 560 and part of the visible light emitted from the visible light source 570 pass through different light transmission areas, and part of the light emitted from the physical therapy light source 560 and the visible light source 570 pass through the same light transmission area. Specifically, the light-transmitting area includes a first light-transmitting area 321 and a second light-transmitting area 312, the physiotherapy light source 560 is disposed opposite to the second light-transmitting area 312, and the visible light source 570 is disposed in a dislocation manner with respect to the first light-transmitting area 321 and the second light-transmitting area 312. When there are a plurality of physiotherapy light sources 560, a part of physiotherapy light sources 560 may be disposed opposite to the first light-transmitting area 321. Thus, the light-transmitting area is shared, so that the processing technology can be reduced, and the production efficiency of the panel 300 can be improved.
The light transmitting region and the light blocking region 350 may be formed in various forms, as will be exemplified below.
In some embodiments, the panel 300 includes a light-transmitting substrate and a light-shielding layer coated on one side of the light-transmitting substrate, wherein the light-shielding layer is provided with light holes to form the light-transmitting area on the panel 300. In this embodiment, the panel 300 is formed by coating a light shielding layer on a light-transmitting substrate, and a light-transmitting region through which light can pass is formed by forming a light-transmitting hole in the light shielding layer. In some embodiments, in order to improve the light transmission effect, the light transmission area includes a first light transmission area 321, and the visible light source 570 and the first light transmission area 321 are arranged in a staggered manner; the inner surface 320 of the light-transmitting substrate is formed with a first groove 323, the light shielding layer includes a recess portion disposed on an inner wall surface of the first groove 323, and the first light-transmitting region 321 is formed in the recess portion. The inner wall surface of the first groove 323 may be many, for example, the inner wall surface of the first groove 323 may be an arc surface, a rectangular surface, or the like. The concave part is formed on the inner wall surface of the first groove 323, so that the first light-transmitting area 321 is three-dimensional, light rays penetrate out from the side wall of the first groove 323, and the scattered light rays have three-dimensional effect, thereby being beneficial to improving visual effect. When the inner wall surface of the first groove 323 is an arc surface, the layering effect is more uniform when the light rays are emitted out of the first light-transmitting area 321, so that the vision is more comfortable.
In other embodiments, the panel 300 includes a light shielding substrate having a mounting hole and a light transmitting portion disposed at the mounting hole to form the light transmitting region on the panel 300. In this embodiment, the panel 300 is formed by a light-tight substrate, a mounting hole is formed in the substrate, and a light-permeable portion capable of transmitting light is mounted in the mounting hole to form a light-permeable region. Of course, in some times, the mounting hole can also prevent external water, dust, mosquitoes and the like from entering through the arrangement of the light transmission part by light. The light-transmitting part can be installed in the light-transmitting part by a subsequent process, and can also be integrally formed with the shading substrate. In some embodiments, in order to improve the light transmission effect, the light transmission area includes a first light transmission area 321, and the visible light source 570 and the first light transmission area 321 are arranged in a staggered manner; and the mounting hole comprises a first mounting hole, the light-transmitting part comprises a first light-transmitting part arranged at the first mounting hole, and the inner side surface of the first light-transmitting part is a concave surface. Through setting up the concave surface with the medial surface of first printing opacity portion for first printing opacity district 321 is three-dimensional form, and light will wear out from the lateral wall of concave surface, makes the light that looses have the third dimension, is favorable to improving visual effect.
In some embodiments, to further improve the visual effect, the light shielding layer is partially removed to form the first light-transmitting region 321 with a light-transmitting texture. The light-transmitting patterns can be of various forms, such as CD patterns, grid patterns and the like. Through the setting of printing opacity line for light is according to the route of printing opacity line ejection, can make the light of ejection have better visual effect. Of course, in some embodiments, the inner surface 320 of the transparent substrate is further formed with a second groove 322, and the first groove 323 is disposed at the bottom of the second groove 322. The second groove 322 is larger than the first groove 323, and the first groove 323 is formed at the bottom of the second groove 322, so that the shape of the side wall of the first groove 323 also has the deformation trend of the side wall of the second recess. For example, the first groove 323 is a large arc-shaped groove, and the direction of the notch of the second groove 322 is related to the sidewall variation trend of the first groove 323, and may form a certain included angle with the horizontal plane, so that part of the light is not emitted out of the panel 300 vertically any more, but is emitted out of the panel 300 according to the direction forming a certain included angle with the horizontal plane, which is beneficial to improving the irradiation area of the light, and further weakening the light intensity.
In some embodiments, in order to further improve the visual effect, the first grooves 323 are provided in plurality, and the plurality of first grooves 323 are all provided at the bottom of the second grooves 322; the second groove 322 is correspondingly provided with the visible light source 570; a plurality of the first grooves 323 are disposed around the visible light source 570. In this embodiment, the number of the first grooves 323 may be very large, such as 3, 5, 6, etc., and 4 are illustrated as an example. The surrounding of 4 first recesses 323 is annular, and the visible light source 570 is to the regional setting that the annular encloses, so for a visible light source 570 can correspond 4 first recesses 323 setting, when avoiding light to penetrate out directly, can also form better visual effect.
In some embodiments, in order to further improve the visual effect, the outer surface 310 of the light-transmitting substrate is provided with a convex hull 311, and the convex hull 311 is disposed corresponding to the second groove 322. The shape of the convex hull 311 may be many, such as a square convex hull 311, a round convex hull 311, etc., and in this embodiment, an arc convex hull 311 is taken as an example. That is, the surface of the convex hull 311 is an arc surface, and the distance between the arc surface and the outer surface 310 of the transparent substrate gradually increases from the edge of the convex hull 311 to the middle. The convex hull 311 may cover one first groove 323, and in some embodiments, the convex hull 311 may cover a plurality of first grooves 323. Through the setting of convex hull 311, light still need can be launched after the structure of convex hull 311 behind panel 300 internal surface 320, and light is when convex hull 311, and light obtains scattering and reflection for the light is more gentle and agrees, and the region that gives off obtains increasing simultaneously.
In some embodiments, the physiotherapy light source 560 may also correspond to the first light-transmitting region 321, and the first light-transmitting region 321 is also used as the second light-transmitting region 312. Specifically, the physiotherapy light source 560 includes a first physiotherapy light source 560, the first physiotherapy light source 560 is disposed corresponding to one of the first grooves 323, and the first light-transmitting area 321 in the first groove 323 corresponding to the first physiotherapy light source 560 is also used as the second light-transmitting area 312. In this manner, the number of processing steps may also be reduced while facilitating the placement of the physiotherapy light source 560 and the visible light source 570.
In some embodiments, in order to improve the physiotherapy effect, the physiotherapy device is a waist physiotherapy device, the physiotherapy light source 560 is provided with a plurality of physiotherapy light sources 560, a plurality of physiotherapy light sources 560 form a first physiotherapy area 561 and a second physiotherapy area 562, and the first physiotherapy area 561 and the second physiotherapy area 562 are respectively used for corresponding two sides of the spine to be set.
Specifically, in this embodiment, the first physical therapy area 561 and the second physical therapy area 562 may be arranged in various manners, and the first physical therapy area 561 and the second physical therapy area 562 may be arranged along the width direction of the panel 300 or may be arranged along the length direction of the panel 300. In the case of being arranged in the width direction, the number of the physiotherapy light sources 560 may be very large, such as 2, 3, 4, 8, etc., and 6 are taken as an example. The 6 light sources 560 are arranged in two rows, and the two rows of light sources 560 are arranged along the width direction of the panel 300, and each row of light sources 560 extends along the length direction of the panel 300. The first physiotherapy area 561 is formed in the area corresponding to one row of physiotherapy light sources 560, and the second physiotherapy area 562 is formed in the area corresponding to the other row of physiotherapy light sources 560. The physiotherapy light sources 560 in the first physiotherapy area 561 are arranged in a row, the physiotherapy light sources 560 in the second physiotherapy area 562 are arranged in a row, and the distance between the two rows of physiotherapy light sources 560 is greater than or equal to 20mm and less than or equal to 35mm, for example, 25mm, 28mm and 30 mm. The distance between two adjacent physiotherapy light sources 560 in the same physiotherapy area is smaller than 10mm, so that the phototherapy effect is safer while the phototherapy effect is safer. It should be noted that, between the physiotherapy light sources 560 in the same row, the wavelengths of two adjacent physiotherapy light sources 560 are different, and the wavelengths of the physiotherapy light sources 560 in the same row can be 850nm-940nm-850nm or 940nm-850 nm. When the physiotherapy device performs physiotherapy on the waist, two rows of physiotherapy light sources 560 are respectively arranged on two opposite sides of the spine, and phototherapy is performed on the areas on two sides of the spine. The interval between the two rows of physiotherapy light sources 560 is not too large or too small, and the interval is required to correspond to the area where the soft tissues at two sides of the spine of the human body are located, and the phototherapy effect is affected no matter the interval between the two rows of physiotherapy light sources is smaller than 20mm or larger than 35 mm.
In some embodiments, in order to enhance the visual effect of the user on the physical therapy, the visible light source 570 is provided with a plurality of visible light sources 570, and the plurality of visible light sources 570 form a first display area 571 and a second display area 572, wherein the first display area 571 is disposed close to the first physical therapy area 561, and the second display area 572 is disposed close to the second physical therapy area 562. The first display area 571 includes a plurality of first sub-display areas disposed at intervals along the length direction of the spine, and the physiotherapy light source 560 is disposed between adjacent first sub-display areas. The first sub-display area is formed by a convex hull 311 provided on the outer surface 310 of the panel 300; and/or the first sub-display areas are round, oval or multi-petal, and two adjacent first sub-display areas are arranged close to each other to form a triangle-like area between the two adjacent first sub-display areas, and the physiotherapy light source 560 between the two adjacent first sub-display areas is arranged in the triangle-like area. The first sub-display area includes a plurality of first light transmitting areas 321 disposed around the visible light source 570.
Specifically, in the present embodiment, the number of the visible light sources 570 may be very large, such as 2, 3, 4, 8, 12, etc., taking 6 as an example. The 6 visible light sources 570 are arranged in two columns, and the two columns of the visible light sources 570 are aligned along the width direction of the panel 300, and each column of the visible light sources 570 extends along the length direction of the panel 300. The area corresponding to one row of the visible light sources 570 forms a first display area 571, and the area corresponding to the other row of the visible light sources 570 is a second display area 572. Two rows of visible light sources 570 are located between two rows of physiotherapy light sources 560, that is, four rows of light sources are sequentially arranged along the width direction of the circuit board 530 (panel 300), namely, physiotherapy light sources 560-visible light sources 570-physiotherapy light sources 560. In this way, the space utilization of the circuit board 530 is advantageously substantially improved. Of course, in the first embodiment, the first and second display regions 571 and 572 may also be arranged outside the first and second physical therapy regions 561 and 562. Each of the visible light sources 570 may correspond to one sub-display area, although in some embodiments, one sub-display area may correspond to multiple light sources. In this embodiment, the first display area 571 includes three first sub-display areas arranged along the length direction of the spine, and a physiotherapy light source 560 is disposed between adjacent first sub-display areas. The three first sub-display areas correspond to the two physiotherapy light sources 560, and the physiotherapy light source 560 between the two physiotherapy light sources 560 corresponds to the middle first sub-display area. When the first sub-display areas are round, oval or multi-petal (such as clover, plum blossom, etc.), three corner-like areas (arranged in a triangle, some edges or corners of the first sub-display areas are properly deformed according to actual working conditions, such as arc edges, arc corners, etc.) are formed between two adjacent first sub-display areas. That is, the physical therapy light source 560 is located very close to the first display area 571, which improves the compactness of the structure, and is beneficial to better providing the visual effect to the physical therapy light source 560 by the visible light source 570. The first sub-display area in the present embodiment corresponds to the first light-transmitting area 321 in the above embodiment, and a plurality of the first light-transmitting areas 321 constitute one first sub-display area. In this embodiment, one first sub-display area corresponds to the first light-transmitting areas 321 surrounding the same visible light source 5704. Likewise, a plurality of second sub-display areas may be referred to corresponding to the second display area 572.
In some embodiments, to protect the privacy of the user, visible light is prevented from leaking between the physiotherapy device and the human skin when the user is using the device. The panel 300, the electric control box 500 or the flexible substrate is provided with a light-shielding retaining wall, the light-shielding retaining wall is arranged along the periphery of the outer surface 310 of the panel 300, and the light-shielding retaining wall is used for abutting against the skin of a human body when the physiotherapy device is applied to the skin so as to block visible light from leaking. That is, in this embodiment, the light-shielding wall may extend upward from the panel 300, may extend upward from the edge of the electronic control box 500, and may be formed by extending upward from the flexible support member 10 (the edge of the first cavity opening 131). The shading retaining wall is made of opaque materials, and through the arrangement of the shading retaining wall, when a user uses the physiotherapy device, the shading retaining wall can be better attached to the skin of a human body, the area where the panel 300 is located is enclosed, and leakage of visible light from the area corresponding to the panel 300 is avoided. Therefore, the use condition of the physiotherapy device by the user can be better protected, and the privacy of the user is further protected.
Referring to fig. 32 to 34, the physiotherapy module may be electrically stimulated in addition to phototherapy, and in some embodiments, phototherapy and electrical stimulation may be used in combination, as will be exemplified below.
A physiotherapy module for a waist massage apparatus, the physiotherapy module comprises a flexible supporting piece 10, a first phototherapy component 950, a first electrical stimulation component 960 and a second electrical stimulation component 960 which are arranged on the flexible supporting piece 10, wherein the first electrical stimulation component 960 and the second electrical stimulation component 960 are positioned on the periphery side of the first phototherapy component 950;
the flexible support 10 is used to affix the first 960 and second 960 electrostimulation components to the lumbar when deformed by an external force.
Specifically, in the present embodiment, the physiotherapy module used in the lumbar massager includes at least a first phototherapy module 950, a first electrical stimulation module 960 and a second electrical stimulation module 960. The first electro-stimulation component 960 and the second electro-stimulation component 960 are located at the peripheral side of the first phototherapy component 950, i.e. may be located at both ends of the first phototherapy component 950 in the length direction or may be located at both sides of the first phototherapy component 950 in the width direction. In this embodiment, the first electro-stimulation component 960 and the second electro-stimulation component 960 are illustrated as being located on both sides of the first phototherapy component 950 in the width direction. There may be many ways in which the first light therapy component 950, the first electrical stimulation component 960, and the second electrical stimulation component 960 are mounted to the flexible support 10, such as by adhesive connections, magnetic attraction connections, fastener connections, and the like. In the present embodiment, the flexible support 10 has the second fitting chamber 122 (having the second chamber port 132), the first fitting chamber 121 (having the first chamber port 131), and the third fitting chamber 123 (having the third chamber port 133) in the length direction thereof. The first phototherapy assembly 950 is mounted to the first assembly chamber 121, the first electro-stimulation assembly 960 is mounted to the second assembly chamber 122, and the second electro-stimulation assembly 960 is mounted to the third assembly chamber 123. The first electrical stimulation component 960 and the second electrical stimulation component 960 may take many forms, including electrode pads as examples. The first electro-stimulation component 960 may have one electrode pad or may have a plurality of electrode pads, and when there are a plurality of electrode pads, internal pairing of the electrode pads may be achieved. Likewise, the second electrical stimulation component 960 may have one electrode pad or may have a plurality of electrode pads, and when there are a plurality, internal pairing of the electrode pads may be achieved. In this embodiment, taking an example that the first electrical stimulation component 960 and the second electrical stimulation component 960 each include one electrode sheet, the electrode sheets of the first electrical stimulation component 960 and the second electrical stimulation component 960 are paired. When the human body contacts the two electrode plates simultaneously, the human body is connected into the circuit of the physiotherapy module, and weak current flows through the human body at the moment.
In this embodiment, by disposing the first light therapy component 950, the first electrical stimulation component 960 and the second electrical stimulation component 960 on the flexible support 10, when the waist massage apparatus works, the first electrical stimulation component 960 and the second electrical stimulation component 960 can be well attached to the waist, and meanwhile, the first light therapy component 950 can be well attached to the waist, so that the first light therapy component 950, the first electrical stimulation component 960 and the second electrical stimulation component 960 can well act on the waist; the physiotherapy function of the waist massage apparatus is enriched, and it is worth noting that when the user sets the first phototherapy component 950 corresponding to the spine, the first phototherapy component 950 can carry out phototherapy on soft tissues at two sides of the spine, and meanwhile, the first electrical stimulation component 960 and the second electrical stimulation component 960 can carry out electrical stimulation on skin, muscle, fat and the like of the waist very well, so that the blood circulation is promoted.
In some embodiments, to increase the utilization of the flexible support 10, the electro-stimulation components 960 are arranged in pairs, and the first phototherapy component 950, the first electro-stimulation component 960, and the second electrode stimulation component are arranged at intervals in the length direction of the flexible support 10; the phototherapy unit 950 is provided at the middle part of the flexible support 10 in the length direction. The first electrical stimulation component 960, the first phototherapy component 950 and the second electrical stimulation component 960 are arranged in a strip shape, and all the three extend along the width direction of the meat stuffing support, and meanwhile, the three are sequentially arranged along the length direction of the flexible support 10. In this way, the space of the flexible support 10 is fully utilized.
There are also many ways in which the combination and arrangement of the electrical stimulation component 960 and the phototherapy component 950 can be made, as will be exemplified below.
In some embodiments, the electro-stimulation components 960 are disposed in pairs, and the physiotherapy module further includes a third electro-stimulation component 960 and a fourth electro-stimulation component, where the first electro-stimulation component 960 to the fourth electro-stimulation component 960 are disposed around the phototherapy component 950, and the electro-stimulation component 960 is not disposed on an extension path of the phototherapy component 950 in the width direction of the flexible support 10, that is, the phototherapy component 950 extends in the width direction of the flexible support 10, and the electro-stimulation component is not disposed on an extension path of the phototherapy component 950. In this embodiment, the physiotherapy module includes a first phototherapy component 950, and first electrical stimulation components 960 to fourth electrical stimulation components 960 are described as an example. The four electrical stimulation components 960 from the first electrical stimulation component 960 to the fourth electrical stimulation component 960 are arranged around the first electrical stimulation component 950, wherein the electrical stimulation components 960 are not arranged at the two ends of the first electrical stimulation component 950 in the length direction, so that when the electrical stimulation component 950 is used in a physical therapy module, the first electrical stimulation component 950 can be arranged corresponding to the spine, at the moment, no electrical stimulation component 960 is attached to the spine, so that the first electrical stimulation component 950 can perform phototherapy on the soft components at the two sides of the spine, and no electrical stimulation component 960 can perform electrical stimulation on the soft tissues at the two sides of the spine, thereby avoiding the soft tissues at the two sides of the spine from being damaged, and simultaneously obtaining a proper physiotherapy; meanwhile, by arranging the four electric stimulation components 960, a lot of pairing modes between the electric stimulation components 960 can be provided, more massage methods can be realized, and the adaptability of the physiotherapy module is improved, so that the requirements of people are met better.
In some embodiments, the physiotherapy module further comprises a third electrical stimulation component and a fourth electrical stimulation component, the first phototherapy component, the first electrical stimulation component, the second electrode stimulation component, the third electrical stimulation component and the fourth electrical stimulation component are arranged at intervals in the length direction of the flexible support, and two electrical stimulation components are respectively arranged on two sides of the first phototherapy component. That is, in the length direction of the flexible support, the first phototherapy component is located in the middle of the flexible support, and two electrical stimulation components are located on two sides of the first phototherapy component.
In other embodiments, the first light therapy component 950, the first electrical stimulation component 960 and the second electrical stimulation component 960 are combined to form one physiotherapy unit, and at least two physiotherapy units are arranged on the flexible support 10 along the length direction thereof. Specifically, in this embodiment, the first phototherapy component 950, the first electrical stimulation component 960 and the second electrical stimulation component 960 are combined to form one physiotherapy unit, and the plurality of physiotherapy units are arranged along the length direction of the flexible support 10, so that multiple parts of the waist can be simultaneously subjected to phototherapy and electrical stimulation massage physiotherapy, which is beneficial to greatly improving the use experience of the physiotherapy module.
In still other embodiments, the physiotherapy module further comprises a second phototherapy assembly 950, the first phototherapy assembly 950 and the first electrostimulation assembly 960 being disposed adjacent to each other to form a first physiotherapy assembly in combination; the second phototherapy component 950 and the second electro-stimulation component 960 are disposed adjacent to each other to form a second physiotherapy component in combination; the first and second physiotherapy assemblies are arranged along the length direction of the flexible support 10. In this embodiment, the first phototherapy component 950 and the first electro-stimulation component 960 that are adjacent are combined to form a first physiotherapy component, the second phototherapy component 950 and the second electro-stimulation component 960 that are adjacent are combined to form a second physiotherapy component, and the first electro-stimulation component 960 and the second electro-stimulation component 960 are paired for use, so that more waists can be subjected to phototherapy and electro-stimulation massage physiotherapy at the same time, and the use experience of the physiotherapy module is greatly improved.
The shape of the electrode sheet and its cooperation with the flexible support 10 will be described below.
The flexible support 10 comprises a skin proximal surface and a skin dorsal surface, the flexible support 10 comprises a first bulge 677 extending away from the skin dorsal surface, the first bulge 677 is provided with at least two, the first bulge 677 protrudes from the skin proximal surface, and a first electrical stimulation component 960 and a second electrical stimulation component 960 are respectively arranged on the first bulge 677, so that the first electrical stimulation component 960 and the second electrical stimulation component 960 can be floatably arranged on the flexible support.
Specifically, in the present embodiment, for convenience of description, in the following embodiments, the electrical stimulation component 960 is collectively referred to as the electrical stimulation components 960 such as the first electrical stimulation component 960 and the second electrical stimulation component 960. The skin-proximal surface refers to the side facing the human body during operation, which is closer to the skin of the human body than the other side. The shape of the first bump 677 may be a plurality of, for example, a boss shape, a ring shape, an assembly structure having a cavity, etc., and is not particularly limited herein, and the shape of the first bump 677 is exemplified as being adapted to the overall shape of the electrical stimulation component 960. There may be many forms in which the electro-stimulation component 960 is mounted to the first bump 677, such as by gluing, magnetic attraction, etc., in which the electro-stimulation component 960 is mounted, for example, in which the first bump 677 has a mounting cavity. The first bump 677 has elasticity, and the electrical stimulation component 960 can displace compared with the skin-proximal surface when being pressed by external force. The specific structure of the first bump 677 may also be as follows. The flexible support 10 is provided with a first molding hole, the first bulge 677 includes a first annular convex portion 112 and a first top portion 113, the first annular convex portion 112 is connected to the periphery of the first molding hole, the first annular convex portion 112 extends away from the back skin surface, and the periphery of the first top portion 113 is connected to the free end of the first annular convex portion 112. The first annular protrusion 112 extends obliquely toward the middle of the first molding hole, so that the first annular protrusion 112 can provide a larger deformation space, which is beneficial to improving the deformability of the first annular protrusion 112. The side walls of the first annular protrusion 112 are arc-shaped, so that the inner side wall and the outer side wall thereof are arc surfaces. The electrical stimulation assembly 960 includes a first electrode pad; the first electrode pad is supported on the first top 113. That is, the first top 113 supports the first electrode pad in a number of ways, such as a back skin surface of the first electrode pad.
Referring to fig. 21 to 31, in the present embodiment, the first electrode sheet takes the flexible electrode sheet 610 as an example (in some embodiments, the first electrode sheet may also be a hard electrode sheet 620, and particularly in the second case, the second case is also very suitable for the case of the hard electrode sheet 620), and the flexible electrode sheet 610 may be divided into at least two types: first, the flexible electrode film made of PU conductive film or the like is very thin and may be 1.5mm to 2mm thick. In the case of such a flexible electrode film, a smooth support boss 182 (which may correspond to the elastic support piece 181 in the following embodiment so that this embodiment corresponds to other embodiments of the physiotherapy apparatus) for supporting the film is formed on the flexible support 10; second, the flexible electrode sheet 610 made of conductive silica gel or the like, which itself has a certain elasticity and strength, may have a thickness of 0.5mm to 0.9mm, and at this time, the smooth convex portion 611 may be formed on the first electrode sheet. Of course, it should be noted that the above embodiments are merely two embodiments, and in some examples, other embodiments, such as the mounting modes of the two electrode plates, may be interchanged, and other flexible supporting bodies are used for auxiliary mounting, which is also within the scope of the embodiments of the present application, and is not limited in particular herein. Hereinafter, the mounting of the first electrode sheet will be described and explained, respectively, according to two cases.
A first thinner electrode film, the first top 113 is at least partially and smoothly protruded in a direction away from the back skin surface to form a smooth supporting protrusion, the first electrode sheet (corresponding to the flexible electrode film in other embodiments) is at least partially supported on the smooth supporting protrusion, and a portion of the first electrode sheet supported on the smooth supporting protrusion is a smooth protrusion 611. The smooth convex portion 611 is gradually convex from the periphery to the middle. The first top 113 includes an annular supporting portion, an outer end edge of which is connected to a free end of the first annular protruding portion 112, and the smooth supporting protruding portion, a peripheral edge of which is connected to an inner end edge of the annular supporting portion. The first electrode tab further includes an annular connecting portion connected to the periphery of the smooth protrusion 611, the annular connecting portion being connected to the outer side surface of the annular supporting portion.
The second thicker electrode pad, in some embodiments, the first top 113 is provided with a first top hole (which may correspond to the mouth in other embodiments, so that this embodiment corresponds to other embodiments of the physiotherapy apparatus), where the first electrode pad is located. That is, the first electrode sheet is mounted in the first top hole, and the form of the first electrode sheet mounted in the first top hole may be many, such as by gluing, fastening, pressing, flexible supporting, and the like. The first electrode plate comprises a smooth protruding portion 611 arranged in the first top hole, the smooth protruding portion 611 protrudes smoothly in a direction away from the back skin surface, and the smooth protruding portion 611 protrudes gradually from the periphery to the middle. The first electrode pad further includes a mounting skirt connected to a periphery of the smooth protrusion 611, the mounting skirt extending in a thickness direction of the flexible support 10, the mounting skirt extending into the first top hole to be connected with the flexible support 10. The mounting skirt may be mounted in the first top aperture in a number of ways, such as by gluing, snapping, pressing, flexible support, etc. Of course, in some embodiments, the mounting skirt may also be mounted in cooperation with a box, support shelf 820, or the like mounted within the flexible support 10. Wherein, the smooth convex part 611 is gradually convex from the periphery to the middle part.
Regarding the overall shape of the smooth convex portion 611, the smooth convex portion 611 includes a middle convex portion extending in the length direction of the flexible support 10 and an end convex portion connected to the end of the middle convex portion, the length of the middle convex portion is greater than the length of the end convex portion, the ratio of the length of the middle convex portion to the length of the end convex portion is greater than or equal to 1.5 and less than or equal to 5, and the longitudinal section of the smooth convex portion 611 in the width direction is entirely arched. The arch is gradually raised from two ends to the middle. The longitudinal section of the end convex portion in the longitudinal direction of the smooth convex portion 611 is gradually reduced from the inner end to the outer end. Therefore, no matter the electrode plate is a thin electrode film or a thicker electrode plate, when the electrode plate is subjected to extrusion force in the working process, the first electrode plate can be deformed in a very adaptive manner, so that the working surface of the first electrode plate is fully attached to the skin of a human body, and the electric stimulation is very sufficient, thereby being beneficial to improving the use experience of a user.
On the basis of the above embodiments, embodiments are given in which the electro-stimulation module and the phototherapy module are simultaneously provided on several physiotherapy devices, and in some embodiments, the electro-stimulation modules 960 are provided in pairs, and the first phototherapy module 950 is spaced apart from the first electro-stimulation module 960 and the second electro-stimulation module 960 in the length direction of the flexible support 10. The first electrical stimulation assembly 960 and/or the second electrical stimulation assembly 960 include a first electrode tab that extends along the width direction of the flexible support 10. The first electrode sheet includes a smooth convex portion 611 gradually convex from the periphery toward the middle portion toward the direction away from the back surface of the flexible support 10, and the whole longitudinal section of the smooth convex portion 611 in the width direction of the smooth convex portion 611 is gradually convex from both ends toward the middle portion. Therefore, the physiotherapy device is beneficial to the physiotherapy of the user on the spine to be treated and muscles on two sides, and compared with a single physiotherapy means, the physiotherapy effect and physiotherapy experience of the user are greatly improved.
In some embodiments, the flexible support 10 includes a second ridge 260 extending away from the back skin surface. The flexible support member 10 is provided with a second molding hole, and the second bulge 260 includes a second annular protrusion and a second top. The second annular convex part is connected to the periphery of the second molding hole, and extends in a direction away from the back skin surface. The periphery of the second top portion is connected to the free end of the first annular protrusion 112, and an assembly cavity is formed between the second top portion, the second annular protrusion and the second molding hole (corresponding to the first assembly cavity 121 in other embodiments, it should be noted that the first assembly cavity 121 to the fifth assembly cavity 126 in other embodiments may be formed according to the manner in this embodiment). The first phototherapy assembly 950 is disposed within the assembly cavity. The first phototherapy component 950 includes an electrical control box 500, a circuit board 530, a physiotherapy light source 560 and a visible light source 570, the circuit board 530 is disposed in the electrical control box 500, the physiotherapy light source 560 and the visible light source 570 are disposed on the circuit board 530, and the physiotherapy light source 560 is used for emitting invisible physiotherapy light.
In some embodiments, the electro-stimulation components 960 are arranged in pairs, and the first light therapy component 950 is spaced apart from the first electro-stimulation component 960 and the second electro-stimulation component 960 in the length direction of the flexible support 10. The flexible support 10 comprises a first bulge 677 extending in a direction away from the back skin surface, the first bulge 677 being provided with at least two. The first bump 677 protrudes from the skin proximal surface, and the electrical stimulation component 960 is mounted to the first bump 677 such that the electrical stimulation component 960 protrudes from the skin proximal surface. The flexible support member 10 includes a second bulge 260 extending away from the back skin surface, and a fitting cavity (corresponding to the first fitting cavity 121 in other embodiments) is formed inside the second bulge 260, and the first phototherapy component 950 is disposed in the fitting cavity. The flexible support 10 further comprises a deformable portion connected between the first bump 677 and the second bump 260, wherein the deformable portion is configured to deform when an external force is applied, so that the deformability of the flexible support 10 is greatly increased, and the flexible support 10 is deformed, so that the electrical stimulation component 960 is attached to the waist.
The embodiment also provides a massage waistband, which comprises a flexible waistband body physiotherapy module, wherein the physiotherapy module is arranged on the flexible waistband body. The flexible waistband body can be used for wearing in the waist of human body to make the stable displacement human waist of physiotherapy module.
There may be many mounting forms of the electrode pads, and in some embodiments, in order to make the structure of the physiotherapy module more compact, the space utilization of the flexible support 10 is higher, and the electrode pads may be mounted corresponding to the batteries 720 or the circuit board 530 of the physiotherapy module. The following examples are illustrative.
An electrical stimulation module, comprising:
the flexible support 10 is integrally provided with a skin-proximal surface and a skin-back surface, the flexible support 10 is provided with a first molding hole, the flexible support 10 comprises a first bulge 677 formed by extending the peripheral edge of the skin-proximal side of the first molding hole in a direction away from the skin-back surface, and an assembly cavity is formed between the inner side of the first bulge 677 and the first molding hole;
an electrode sheet floatably mounted to the first bump 677 such that the electrode sheet is floatably mounted to the flexible support 10; and
An electrical component, either a circuit board 530 or a battery 720, is mounted within the assembly cavity.
In particular, in the present embodiment, the assembly cavity is formed by a single piece of flexible support 10, although in some embodiments, the assembly cavity may be formed by two pieces of flexible support. The first molding hole in this embodiment may be a demolding hole required at the time of manufacture. The first molding hole is located on the sidewall of the flexible support 10, and an assembly cavity is formed between the first molding hole and the first protrusion 677, which means that a space formed by the first protrusion 677 and a space formed by the first molding hole are combined to form the assembly cavity. The combination of the first protrusion 677 and the first molding hole in the present embodiment may correspond to the first mounting portion 110 in other embodiments. The electrode sheet may be a flexible electrode sheet 610 or a hard electrode sheet 620. The electrode sheet is floatably mounted on the first bulge 677, that is, the electrode sheet is connected with the first bulge 677, when the electrode sheet is extruded from the outside, the first bulge 677 can be deformed reversely, so that the electrode sheet moves towards the back skin surface, and after the external force is removed, the first bulge 677 can be restored to the original state, so that the electrode sheet is restored to the original position. Of course, if the electrode sheet is a flexible electrode sheet 610 or a flexible electrode sheet 610, the electrode sheet itself may be deformed. If the first bump 677 has elasticity, the first bump 677 can be restored to its original shape by the elastic restoring force. A circuit board 530 or a battery 720 is disposed within the assembly cavity.
In this embodiment, the first forming hole is formed on the flexible supporting member 10, and the first forming hole protrudes in a direction away from the back skin surface to form the first protruding portion 677, the first forming hole and the first protruding portion 677 enclose to form the assembly cavity, and the circuit board 530 or the battery 720 is disposed in the assembly cavity, so that the assembly cavity for mounting the battery 720 or the circuit board 530 is formed by combining the first protruding portion 677 for mounting the electrode plate with the first forming hole, so that the first protruding portion 677 is used as a mounting structure for mounting the electrode plate and is used as a containing structure for containing the circuit board 530 or the battery 720, the structural characteristic of the first protruding portion 677 is fully utilized, so that the structure of the electrical stimulation module is very compact, the space utilization is greatly improved, and miniaturization of the electrical stimulation module is facilitated.
Referring to the above embodiment (the first thinner electrode film and the second thicker electrode sheet), different mounting manners can be performed for the electrode sheets in different situations, and the mounting manner of the electrode sheets in this embodiment is the same as that in the above embodiment and will not be described herein.
In some embodiments, the flexible support 10 is formed by combining two flexible support sheets (a skin proximal support sheet 110 and a skin back support sheet 200), specifically, the flexible support 10 includes the skin proximal support sheet 110 having the skin proximal surface and the skin back support sheet 200 having the skin back surface, the first molding hole includes a skin proximal hole provided on the skin proximal support sheet 110 and a skin back hole provided on the skin back support sheet 200 opposite to the skin proximal hole, and the first bump 677 is formed by extending a peripheral edge of the skin proximal hole in a direction away from the skin back surface. In this embodiment, the flexible support 10 is formed by combining the skin-proximal support sheet 110 and the skin-backing support sheet 200, so that the structural features on the flexible support 10 can be formed on the two support sheets, so that the difficulty in forming the flexible support 10 is greatly reduced, and the flexible support 10 with a more complex structure is formed by combining. In some embodiments, to protect the battery 720 or the circuit board 530, the electrical stimulation module further includes a protective case, the protective case is disposed in a flat shape, the protective case is disposed in the assembly cavity, and the electrical component is mounted in the protective case; the electrode sheet and the protective case have an avoidance interval in the thickness direction of the flexible support 10 for avoiding the deformation of the electrode sheet. In this manner, it is advantageous to protect the battery 720 or the circuit board 530 from being easily damaged. Through the setting of dodging the clearance, in the use of electric stimulation module, the electrode slice can be the deformation of the great range of counter, ensures that the electrode slice can be better with human skin laminating.
The formation of the avoidance space is various, and will be described by way of example.
In some embodiments, when the smooth convex portion 611 of the electrode tab is supported on the smooth supporting convex portion of the first bump portion 677, the smooth supporting convex portion is spaced apart from the protective case in the thickness direction of the flexible support 10 to form the escape interval. In this embodiment, the electrode sheet is thin and needs to be supported by the smooth supporting convex portion of the first bump 677, and of course, this assembly method may be adopted when the electrode sheet is thick.
In other embodiments, when the smooth protruding portion 611 of the electrode tab is disposed in the first top hole (corresponding to the cavity opening in other embodiments), the smooth protruding portion 611 is disposed at an interval from the protective case in the thickness direction of the flexible support 10 to form the avoidance interval. In this embodiment, the top of the first bump 677 is not provided with a smooth supporting protrusion, and the electrode sheet is directly mounted in the first top hole or is mounted through the first top hole.
In some embodiments, in order to improve the deformation resistance of the electrode sheet, the electrode sheet is prevented from being depressed into the accommodating cavity after being pressed, and the electro-stimulation module further comprises an elastic support body filled in the avoidance space, and the elastic support body is used for being elastically deformed in the thickness direction of the flexible support member 10. The elastic support may be in the form of foam, gel, etc., and in this embodiment, a sponge is used as an example. When the electric stimulation module works, the electrode plate is extruded by skin and the like, the extrusion force is transmitted to the elastic support body, the elastic support body is elastically deformed, and the working surface of the electrode plate is supported to be attached to the skin. After the electric stimulation massage is finished, the electrode plate is restored under the action of the elastic restoring force of the elastic supporting body. Therefore, the electrode plate is prevented from collapsing in the working process, the working surface of the electrode plate can be well attached to the skin of a human body, and the effect of electric stimulation is ensured.
In some embodiments, the flexible support 10 further includes a second bulge 260 formed by extending the peripheral edge of the back skin hole in a direction away from the skin proximal surface, and the second bulge 260, the first bulge 677, and the first molding hole form the fitting cavity therebetween; the protective shell comprises a skin proximal shell 730 and a skin back shell 760, the skin back shell 760 is mounted on the inner side of the second bulge 260, and the skin proximal shell 730 is mounted on the first annular protrusion 112 of the first bulge 677 and/or the skin back shell 760. In this embodiment, the first bump 677 and the skin proximal molding hole 111 are combined to form the first mounting portion 110, and the second bump 260 and the skin proximal molding hole are combined to form the second mounting portion 210. The second raised portion 260, the first raised portion 677, and the first molding hole form the fitting chambers therebetween, which means that the space provided by the second raised portion 260, the space provided by the first raised portion 677, and the space provided by the first molding hole are combined to form the fitting chambers (the fitting chambers may be formed in such a manner as to form the first fitting chamber 121, the second fitting chamber 122, the third fitting chamber 123, the fourth fitting chamber 125, and the fifth fitting chamber 126 in other embodiments). In this embodiment, the protection case may be used for mounting the circuit board 530 and may also be used for mounting the battery 720, for example, the battery 720 is mounted, that is, the protection case is used for example, the power supply box 700. The skin-back case 760 is mounted to the second bulge portion 260 and the skin-back molding hole by dividing the power supply case 700 into the skin-proximal case 730 and the skin-back case 760 and mounting the skin-proximal case 730 to the first annular protrusion 112. In some embodiments, the skin proximal housing 730 and the skin dorsal housing 760 are removably connected, such as by a snap fit connection, a magnetic attraction connection, or a fastener (e.g., screw, bolt) connection, etc.
In some embodiments, to improve the connection stability of the protective case, the overall strength of the flexible support 10 is improved, further improving the protective effect of the protective case. The electrostimulation module further comprises a supporting frame 710, the supporting frame 710 is mounted on the inner ring surface of the first annular protruding portion 112, the supporting frame 710 is arranged outside the skin-proximal shell 730, a mounting gap is arranged between the supporting frame 710 and the skin-proximal shell 730, and the mounting skirt edge of the electrode plate is connected in the mounting gap; the support frame 710 is detachably connected to the back skin case 760. In this embodiment, the supporting frame 710 is inlaid in the inner side wall of the first annular protrusion 112, and an installation gap is formed between the inner side wall of the supporting frame 710 and the outer side wall of the skin proximal shell 730. There are many ways in which the mounting skirt can be mounted in the mounting gap, such as being clamped between the support frame 710 and the skin proximal shell 730. In some embodiments, the support frame 710 may have a press fit that may be snapped onto the mounting skirt. For some other assembly, reference may be made to the assembly of the mounting skirt in other embodiments.
The application also provides a massage waistband, which comprises a flexible waistband body and an electric stimulation module, wherein the electric stimulation module is arranged on the flexible waistband body.
Referring to fig. 21-31, in some embodiments, the electrode sheet may have a variety of thicknesses, such as 0.15mm to 0.25mm, of flexible electrode film, which may be susceptible to wrinkling. In order to avoid wrinkling of the electrode plate during operation of the physiotherapy module, the application further provides a physiotherapy module applied to the physiotherapy device. Specifically:
a physiotherapy module comprising:
the flexible support member 10 is integrally and flatly arranged, the flexible support member 10 is provided with a skin proximal surface and a skin back surface, an elastic support layer 180 is formed by protruding from the skin proximal surface in a direction away from the skin back surface, and the elastic support layer 180 is provided with an outer support surface;
the flexible electrode film is provided with an electrode film inner side and an electrode film outer side which are oppositely arranged, the flexible electrode film is installed on the elastic supporting layer 180 in a covering mode, the electrode film inner side is directly or indirectly supported by the outer supporting surface, and the electrode film outer side is used for being attached to human skin.
Specifically, in this embodiment, the elastic supporting layer 180 protrudes from the skin-proximal surface, and a deformation gap may be formed between the elastic supporting layer 180 and the skin-proximal surface. The convex form may be many, such as a rectangular parallelepiped convex form, a cylindrical convex form, a spherical convex form, etc., in this embodiment, the top of the convex hull 311 is a cambered surface, taking the convex hull 311 Zhang Tuchu as an example. The inner side of the electrode film of the flexible electrode film is attached to the outer supporting surface of the elastic supporting layer 180. The flexible electrode film bonded to the outer support surface may be the inner side of the whole electrode film or may be the inner side of a part of the electrode film. It is only necessary to ensure that the flexible electrode membrane is supported, either directly or indirectly. That is, the elastic support layer 180 may be directly bonded to the inner side of the electrode film, or another film layer may be provided between the elastic support layer 180 and the flexible electrode film, and may be supported by the other film layer. There may be many other forms of film layers, such as a layer of heating film 830. In some embodiments, the flexible electrode membrane is directly or indirectly attached to the flexible support layer 180 such that the two are relatively fixed, and the two can be attached in a number of ways, such as by gluing.
In this embodiment, by forming the elastic supporting layer 180 on the flexible supporting member 10 and covering the flexible electrode film on the elastic supporting layer 180, when the flexible electrode film is directly or indirectly supported by the elastic supporting layer 180 and is extruded by an external force, the flexible electrode film transmits the external force to the elastic supporting layer 180, the elastic supporting layer 180 is elastically deformed, and simultaneously, the flexible electrode film is reacted to avoid wrinkling, and when the external force is removed, the elastic supporting layer 180 is restored to the original state under the action of the elastic restoring force, and the flexible electrode film is continuously supported; thus, the flexible electrode film is supported by the elastic supporting layer 180 before and after deformation, the phenomenon that the flexible electrode film is crumpled is avoided, the massage effect is improved, and the use experience of a user is improved.
In some embodiments, to further enhance the support of the flexible electrode film by the elastic support layer 180, the form in which the flexible electrode film is supported by the elastic support layer 180 may be varied. The elastic supporting layer 180 includes an elastic supporting piece 181, and the distance between the elastic supporting piece 181 and the skin-proximal surface gradually increases from the edge of the elastic supporting piece 181 to the middle, or gradually increases along the length direction of the elastic supporting piece 181, or gradually increases along the width direction of the elastic supporting piece 181. In this embodiment, the whole shape of the elastic supporting piece 181 is exemplified by a waist shape, and the distance between the elastic supporting piece 181 and the skin-proximal surface is gradually increased in the direction from the waist edge to the middle, so that the side wall of the elastic supporting piece 181 is an arc-shaped side wall. The cross section taken along the length and/or width direction of the elastic support piece 181 is arranged in an arch shape with a plane perpendicular to the skin-proximal surface. That is, the cross section taken along the longitudinal direction of the elastic supporting piece 181 or the width direction of the elastic supporting piece 181 is provided in an arch shape. Thus, the flexible electrode film can be uniformly supported, and when the flexible electrode is pressed, the flexible electrode film can be effectively and uniformly supported.
In some embodiments, to further enhance the deformability of the elastic supporting layer 180, the elastic supporting layer 180 further includes a supporting boss 182, where the supporting boss 182 protrudes from the skin proximal surface to the skin distal surface, the supporting boss 182 is disposed in a ring shape, and an edge of the elastic supporting piece 181 is connected to a free end of the supporting boss 182. The thickness of the supporting boss 182 is greater than that of the elastic supporting piece 181. In this embodiment, by providing the supporting boss 182 and connecting the edge of the elastic supporting piece 181 with the free end of the supporting boss 182, the elastic supporting piece 181 can have a larger deformation space, that is, the elastic supporting piece 181 can deform more when receiving an external force. Meanwhile, the thickness of the supporting boss 182 is set to be larger than that of the elastic supporting plate 181, so that the supporting boss 182 has larger elastic restoring force when in elastic deformation compared with the elastic supporting plate 181, namely, the elasticity of the supporting boss 182 is better, the overall elasticity of the elastic supporting layer 180 is improved, and the flexible electrode film is better supported.
In some embodiments, to increase the tightness of the flexible electrode film, a first fixing groove 116 is formed at the top of the supporting boss 182, the edge of the flexible electrode film extends into the first fixing groove 116, and the inner side of the flexible electrode film is attached to the bottom of the first fixing groove 116; the physiotherapy module further comprises a pressing piece 870, wherein the pressing piece 870 is arranged in the first fixing groove 116 and is pressed on the surface of the flexible electrode film; the pressing piece 870 is fixedly connected with the inner side wall of the first fixing groove 116 and the flexible electrode film. In this embodiment, the first fixing groove 116 extends along the circumferential direction of the supporting boss 182 to form a ring shape, and the peripheral edges of the flexible electrode film extend into the corresponding first fixing groove 116. The edges of the flexible electrode film are connected with the groove walls of the first fixing groove 116, for example, by adhesive connection. The pressing piece 870 is in a ring shape, can form a ring by itself, and can also form a ring shape after surrounding deformation. The pressing piece 870 is installed in the first fixing groove 116 and pressed against the edge of the flexible electrode film. The bottom wall of the press piece 870 is fixedly connected to the side wall close to the assembly cavity, and the other side wall is fixedly connected to the groove wall of the first fixing groove 116, and the fixing connection may be in various manners, for example, by gluing. Through the setting of preforming 870 for the connection at the edge of flexible electrode membrane is more reliable and stable, is favorable to improving the installation stability of flexible electrode membrane by a wide margin, is favorable to improving the rate of tension of flexible electrode membrane.
In some embodiments, to further increase the tension of the flexible electrode film, the support boss 182 has a first caulking groove; the physiotherapy module further comprises a hard middle frame 860, and the hard middle frame 860 is embedded in the first caulking groove; the hard middle frame 860 is provided with a limit post 861 facing one side of the elastic support plate 181, a limit hole 117 is formed at a position of the support boss 182 corresponding to the limit post 861, and the limit post 861 is inserted into the limit hole 117. Specifically, in the present embodiment, the hard middle frame 860 is disposed in an annular shape, the hard middle frame 860 is embedded in the first caulking groove, and meanwhile, the limit posts 861 on the hard middle frame 860 are inserted into the limit holes 117 of the support boss 182. In this way, the supporting boss 182 is supported in all directions, and the deformation resistance of the supporting boss 182 is greatly improved. The stability of supporting boss 182 is improved by a wide margin to make the structural stability who installs on it obtain by a wide margin promotion, can ensure that the edge of the flexible electrode membrane of installing on it obtains reliable fixing, be favorable to improving the rate of tension of flexible electrode membrane.
In some embodiments, in order to increase the physiotherapy effect, a second fixing groove 119 is formed on the side of the elastic supporting layer 180 where the outer supporting surface is located; the physiotherapy module further comprises a heating film 830, the heating film 830 is installed in the second fixing groove 119, and the top surface of the heating film 830 is coplanar with the outer supporting surface. Specifically, in the present embodiment, after the heating film 830 is mounted to the second fixing groove 119, the top surface of the heating film 830 is coplanar with the outer support surface, taking a co-arc surface as an example. That is, the thickness of the heating film 830 corresponds to the groove depth of the second fixing groove 119. In this way, when the flexible electrode film is covered on the elastic support layer 180, the tension of the flexible electrode film can be made very good. Thus, the stretching degree of the flexible electrode film can be ensured while the physiotherapy function is increased.
In some embodiments, to further improve the tightness of the flexible electrode film, the physiotherapy module further includes a hard electrode piece 620, at least part of the hard electrode piece 620 is pressed on the outer side of the electrode film, and the hard electrode piece 620 is tightly matched with the elastic supporting layer 180.
Specifically, in this embodiment, the hard electrode sheet 620 may be a metal electrode sheet or an electrically conductive and magnetically conductive electrode sheet. The form of the hard electrode sheet 620 in close fit with the resilient support layer 180 may be varied, such as by gluing, by snaps, screws, etc. In this embodiment, the middle part of the flexible electrode film corresponding to the hard electrode plate 620 is provided with a avoiding hole; the elastic supporting layer 180 is formed with fastening holes 118 corresponding to the avoidance holes; the hard electrode sheet 620 is provided with a mounting post 621 on a surface facing the outside of the electrode film, and the mounting post 621 is inserted into the fastening hole 118. In some embodiments, the aperture of the fastening hole 118 may be smaller than the radial dimension of the mounting post 621 such that the mounting post 621 is an interference fit with the fastening hole 118. In some embodiments, fasteners may also be provided that mate with the mounting posts 621. The thickness of the elastic supporting piece 181 at the position where the fastening hole 118 is formed is greater than the thickness of the rest positions of the elastic supporting piece 181, so that the installation stability of the installation column 621 is effectively improved. Through the installation of stereoplasm electrode for the middle part of flexible electrode membrane is by effectual fixed, has increased fixed position, makes the adjacent two of flexible electrode membrane compress tightly (fixed) the distance between the position and obtains reducing by a wide margin, has improved the rate of tension of flexible electrode membrane by a wide margin.
In some embodiments, in order to improve the mounting reliability of the hard electrode, a third fixing groove 11a is formed on the side of the outer support surface of the elastic support layer 180; the hard electrode sheet 620 is disposed corresponding to the third fixing groove 11a, and the hard electrode sheet 620 presses the flexible electrode film covered by the hard electrode sheet 620 into the third fixing groove 11 a. In this way, the third fixing groove 11a restricts a plurality of degrees of freedom of the hard electrode, so that the movement or rotation of the hard electrode is hindered, and the installation of the hard electrode is made more stable and reliable.
In some embodiments, to better enhance the flexible support film, the flexible support 10 has an assembly cavity corresponding to the position of the elastic support layer 180, and a housing is installed in the assembly cavity; the physiotherapy module further comprises a first elastic supporting body 750, the first elastic supporting body 750 is arranged between the elastic supporting layer 180 and the shell, one side of the first elastic supporting body 750 is attached to the inner surface 320 of the elastic supporting layer 180, and one side of the first elastic supporting body 750, which is opposite to the elastic supporting layer 180, is attached to the shell. A power supply is arranged in the shell. The housing includes a proximal skin shell 730 and a dorsal skin shell 760, the proximal skin shell 730 and the dorsal skin shell 760 being removably connected. The housing in this embodiment may be used for assembling the battery 720, and the housing is the power box 700, and the housing may also be used for mounting the circuit board 530, and the like, and the housing is the electronic control box 500, and the housing is taken as the power box 700 for illustration. The proximal skin shell 730 and the distal skin shell 760 can be assembled in a variety of ways, such as by snap-fit, screw-fit, magnetic-suction, adhesive, etc., although in some embodiments, the proximal skin shell can be coupled by other means, such as a center, etc., without limitation. The elastic support body is filled in the escape space (the gap between the elastic support layer 180 and the case) and is used for elastic deformation in the thickness direction of the flexible support 10. The elastic support may be in the form of foam, gel, etc., and in this embodiment, a sponge is used as an example. The electrode plate is extruded by skin and the like, the extrusion force is transmitted to the elastic support body, the elastic support body is elastically deformed, and the working surface of the electrode plate is supported to be attached to the skin. After the electric stimulation massage is finished, the electrode plate is restored under the action of the elastic restoring force of the elastic supporting body. Therefore, the electrode plate is prevented from collapsing in the working process, the working surface of the electrode plate can be well attached to the skin of a human body, and the effect of electric stimulation is ensured.
In some embodiments, a rigid support shelf 820 may be provided within the assembly cavity to provide support for the resilient support. The flexible support 10 has a mounting cavity (corresponding to the fourth mounting cavity 125 and the fifth mounting cavity 126 in other embodiments) at a position corresponding to the elastic support layer 180, and a rigid support frame 820 is installed in the mounting cavity; the physiotherapy module further comprises a second elastic support 850, the second elastic support 850 is disposed between the elastic support layer 180 and the hard support frame 820, one side of the second elastic support 850 is attached to the inner surface 320 of the elastic support layer 180, and one side of the elastic support opposite to the elastic support layer 180 is attached to the hard support frame. The overall shape of the rigid support frame 820 is adapted to the shape of the assembly cavity, the overall shape of the rigid support frame 820 is in a block shape, and the bottom of the rigid support frame 820 and the way of being installed in the assembly cavity can be in a plurality of ways, such as gluing. The rigid support frame 820 may be mounted to other locations of the mounting cavity by any number of means, such as snap-fit, screw, magnetic attachment, adhesive, etc., although in some embodiments, it may be attached by other means, such as a center, etc., without limitation. The elastic support body is filled in the escape space (a gap between the elastic support layer 180 and the top of the support frame 820) and is used for elastic deformation in the thickness direction of the flexible support 10. The elastic support may be in the form of foam, gel, etc., and in this embodiment, a sponge is used as an example. The electrode plate is extruded by skin and the like, the extrusion force is transmitted to the elastic support body, the elastic support body is elastically deformed, and the working surface of the electrode plate is supported to be attached to the skin. After the electric stimulation massage is finished, the electrode plate is restored under the action of the elastic restoring force of the elastic supporting body. Therefore, the electrode plate is prevented from collapsing in the working process, the working surface of the electrode plate can be well attached to the skin of a human body, and the effect of electric stimulation is ensured.
In some embodiments, to improve the skin-contacting effect of the electrode sheet, particularly when the skin is dry, to avoid the poor skin-contacting effect of the electrode sheet from affecting the physiotherapy effect, the present application further proposes an electrode sheet assembly 600. The following examples illustrate, in particular:
a flexible electrode sheet 610, the flexible electrode sheet 610 having a first skin proximal surface 650;
a stiff electrode pad 620, the stiff electrode pad 620 having a second skin proximal surface 630; the hard electrode pad 620 and the flexible electrode pad 610 are electrically connected, and the first skin proximal surface 650 and the second skin proximal surface 630 together form an electro-stimulation massage surface.
Specifically, in this embodiment, the flexible electrode sheet 610 may be made of a plurality of materials, such as PU electrode film, conductive rubber, conductive silica gel, metal film, and the like, and may be a conductive flexible film (sheet) or an elastic sheet (film). The hard electrode sheet 620 may be a metal electrode sheet, a conductive ceramic electrode sheet, or the like. The first skin proximal surface 650 of the flexible electrode sheet 610 is adapted to conform to the skin of a person to form an electrode of an electrical stimulation circuit. The shape of the first skin proximal surface 650 can be any of a wide variety of regular and irregular shapes, such as rectangular, square, circular, oval, kidney-shaped, etc., and is not particularly limited herein. The second skin proximal surface 630 of the rigid electrode sheet 620 is configured to conform to the skin of a person to form an electrode of an electrical stimulation circuit. Likewise, the shape of the second skin proximal surface 630 may be any of a wide variety of regular and irregular shapes, such as rectangular, square, circular, oval, kidney-shaped, etc., and is not particularly limited herein. There are many ways to electrically connect the hard electrode pad 620 and the flexible electrode pad 610, such as directly electrically via wires, metal coatings, or other conductive materials, or directly in contact with each other. The hard electrode sheet 620 and the flexible electrode sheet 610 are disposed adjacent to, or in direct contact with, each other. The first skin proximal surface 650 and the second skin proximal surface 630 may abut or overlap each other, although in some embodiments, the first skin proximal surface 650 and the second skin proximal surface 630 may be disposed adjacent to each other with a gap therebetween under certain operating conditions. In use, the first skin proximal sheet and the second skin proximal face 630 of the electrode sheet assembly 600 together form an electro-stimulation massage face that together massage the skin.
In this embodiment, by arranging the electrode plate assembly 600 to include the flexible electrode plate 610 and the hard electrode plate 620 that are electrically connected, and making the first skin-proximal surface 650 of the flexible electrode plate 610 and the second skin-proximal surface 630 of the hard electrode plate 620 form an electro-stimulation massage surface together, when the electrode plate assembly 600 works, the hard electrode plate 620 can be well attached to the skin of the human body (in the case of dry skin, the skin attaching property of the hard electrode plate 620 is better than that of the flexible electrode plate 610), after a period of working, the flexible electrode plate 610 can better contact with the skin of the human body (compared with that of drying skin), so that the user can feel the massage effect at the beginning of the massage, and the massage effect is gradually enhanced as the massage process proceeds; meanwhile, the contact and electrical stimulation effects of the hard electrode sheet 620 to the human skin are different from those of the flexible electrode sheet 610, and when the electrode sheet assembly 600 has the flexible first skin-proximal surface 650 and the hard second skin-proximal surface 630 at the same time, different massage experiences can be given to the user.
In some embodiments, in order to improve the massage effect, the volume resistance of the hard electrode sheet 620 is different from the volume resistance of the flexible electrode sheet 610, and among the hard electrode sheet 620 and the flexible electrode sheet 610, an electrode sheet with a smaller volume resistance is used for electrically connecting the working power supply and an electrode sheet with a larger volume resistance.
Specifically, in an embodiment, the volume resistance of the hard electrode sheet 620 is greater than the volume resistance of the flexible electrode sheet 610, or the volume resistance of the flexible electrode sheet 610 is greater than the resistance of the hard electrode sheet 620. When the volume resistance of the hard electrode sheet 620 is greater than the volume resistance of the flexible electrode sheet 610, the hard electrode sheet 620 is directly or indirectly connected to a power source, connected to a circuit, and the flexible electrode sheet 610 is electrically connected to the circuit by being connected to the hard electrode sheet 620. That is, the current flows to the hard electrode sheet 620 first, and then flows from the hard electrode sheet 620 to the flexible electrode sheet 610. When the volume resistance of the flexible electrode sheet 610 is greater than the volume resistance of the hard electrode sheet 620, the flexible electrode sheet 610 is directly or indirectly connected to a power source, connected to a circuit, and the hard electrode sheet 620 is electrically connected to the circuit by being connected to the flexible electrode sheet 610. That is, the current flows to the flexible electrode sheet 610 first and then flows from the flexible electrode sheet 610 to the hard electrode sheet 620. In this embodiment, by setting the volume resistor of the hard electrode sheet 620 to the volume resistor of the flexible electrode sheet 610, the current flows from the electrode sheet with high volume resistor to the electrode sheet with low volume resistor, and at the beginning, the humidity of the skin of the human body is not high, and the hard electrode sheet 620 is better attached to the skin of the human body than the flexible electrode sheet 610, because the attaching degrees are different, the electric stimulus intensity provided by the flexible electrode sheet 610 and the hard electrode sheet 620 is different, and the attaching degree of the hard electrode sheet 620 is high, so that the skin of the human body is early felt to be electrically stimulated. The massage is performed at any time, the humidity of the skin surface of the human body is gradually increased, so that the flexible electrode plate 610 can be better attached to the skin, in the process, the volume resistance of the flexible electrode plate 610 is larger than that of the hard electrode plate 620, the effect on the skin is gradually increased, and finally the whole electrode plate assembly 600 can be used for massaging the human body very well. In some embodiments, the flexible electrode sheet is provided with an electrical connection configured to electrically connect with a power supply element. The electrical connection part can be in various forms, and can be a part of the flexible electrode slice or a conductive element which is additionally arranged. There may be many ways of electrically connecting to the power supply element, such as connecting to a circuit board, directly to a power supply, or electrically connecting to another electrode pad, etc., and specifically, may be set and adjusted according to actual conditions.
In this embodiment, taking the example that the volume resistance of the flexible electrode sheet 610 is greater than the volume resistance of the hard electrode sheet 620, the hard electrode sheet 620 is connected with the flexible electrode sheet 610, the flexible electrode sheet 610 is configured to be electrically connected with a working power supply, and the hard electrode sheet 620 is connected with the working power supply through the flexible electrode sheet 610. In this embodiment, by setting the volume resistance of the hard electrode sheet 620 smaller than the volume resistance of the flexible electrode sheet 610, current flows from the flexible electrode sheet to the hard electrode sheet 620. The form of the operating power supply may be numerous, for example, a battery 720. The flexible electrode sheet 610 may be connected to the working power source directly or indirectly, that is, other resistive elements, such as the heating film 830, may be disposed between the flexible electrode sheet 610 and the working power source.
There are a number of ways in which the flexible electrode sheet 610 and the rigid electrode sheet 620 may be arranged and connected, as will be illustrated below.
In some embodiments, the flexible electrode sheet 610 includes a flexible surround surrounding the stiff electrode sheet 620, the stiff electrode sheet 620 being located within an area enclosed by the flexible surround. In this way, the hard electrode sheet 620 is located in the middle of the electrode sheet assembly 600, so as to ensure that the hard electrode sheet can contact with the skin of the human body preferentially, and ensure the massage effect at the beginning under the condition that the skin pasting performance is better.
In some embodiments, the stiff electrode pad 620 includes a stiff surround surrounding the flexible electrode pad 610, the flexible electrode pad 610 being located within an area surrounded by the sound quality surround. So for flexible electrode sheet 610 is located the middle part of electrode sheet subassembly 600, ensures that it can be prioritized with human skin contact, and under the slightly poor circumstances of the laminating nature of flexible electrode sheet 610, with its setting in the middle part, can improve the laminating degree of flexible electrode sheet 610 and human skin, be favorable to improving the overall effect of massage. In some embodiments, in order to improve the connection stability of the flexible electrode sheet 610 and the hard electrode sheet 620 and improve the integrity of the electro-stimulation massage face, the flexible electrode sheet 610 includes a flexible lap portion connected to the inside of the flexible surrounding portion, and the edge portion of the hard electrode sheet 620 is lap-jointed on the flexible lap portion. In this way, the edge of the hard electrode plate 620 is attached to the flexible overlap portion by the arrangement of the flexible overlap portion, which is beneficial to increasing the contact area and the conductive reliability of the hard electrode plate 620 and the flexible electrode plate 610.
In some embodiments, the flexible electrode sheet 610 is parallel to the stiff electrode sheet 620. By arranging the flexible electrode sheet 610 and the hard electrode sheet 620 in parallel, when the electrode sheet assembly 600 is in operation, a part of the flexible electrode sheet 610 and a part of the hard electrode sheet 620 are in preferential contact with the skin, so that the massage effect at the beginning can be improved, and the whole massage effect can be achieved. In some other embodiments, in order to improve the connection stability of the flexible electrode sheet 610 and the hard electrode sheet 620 and improve the integrity of the electro-stimulation massage face, the hard electrode sheet 620 includes a hard lap portion connected to the inner side of the hard surrounding portion, and the edge portion of the flexible electrode sheet 610 is lap-jointed to the hard lap portion. In this way, the edge of the flexible electrode sheet 610 is attached to the hard overlap portion by the arrangement of the hard overlap portion, which is beneficial to increasing the contact area and the conductive reliability of the hard electrode sheet 620 and the flexible electrode sheet 610.
In some embodiments, the flexible electrode sheet 610 is provided with a hard electrode sheet 620, and the hard electrode sheet 620 is located in the middle of the flexible electrode sheet 610; alternatively, the flexible electrode sheet 610 is provided with a plurality of sub-electrode sheets (the hard electrode sheet includes a plurality of sub-electrode sheets) of the hard electrode sheet 620, and the plurality of sub-electrode sheets are arranged along the circumferential direction of the flexible electrode sheet 610, or the plurality of sub-electrode sheets 620 are arranged in an array on the flexible electrode sheet 610; and/or the first skin proximal surface 650 of the flexible electrode sheet 610 is larger in area than the second skin proximal surface 630 of the rigid electrode sheet 620.
In this embodiment, the hard electrode sheet 620 and the flexible electrode sheet 610 may be mounted in a plurality of ways, such as by gluing (conductive glue may be selected), plugging, fastening (e.g. screws, bolts, etc.), snap-fit connection, etc. One hard electrode sheet 620 may be provided on the flexible electrode sheet 610, or a plurality of hard electrode sheets 620 may be provided. When the flexible electrode sheet 610 is provided with a plurality of hard electrode sheets 620, the plurality of hard electrode sheets 620 may be arranged in a plurality of ways, for example, in a specific shape, such as an O-shape, an S-shape, etc., according to the working condition requirement; or may be arranged in a matrix or may be arranged in a ring shape along the circumferential direction of the flexible electrode sheet 610. The first skin proximal surface 650 is the working surface of the flexible electrode and the second skin proximal surface 630 is the working surface of the rigid electrode, the area of the first skin proximal surface 650 being greater than the area of the second skin proximal surface 630. The area ratio of the second skin proximal surface 630 to the first skin proximal surface 650 is less than 1 and greater than or equal to 1/5. By setting the area of the first skin proximal surface 650 to be larger than the area of the second skin proximal surface 630, the user will not feel "cool" significantly when he/she just begins to use (at the beginning of use, the skin-sticking effect of the hard electrode sheet 620 is good, if the area of the hard electrode sheet 620 is too large, he/she will feel cool easily); by setting the area ratio of the second skin proximal surface 630 to the first skin proximal surface 650 to be greater than or equal to 1/5, an electrical stimulation experience may be ensured at the beginning of use.
In some embodiments, to further enhance the massage effect of the electrode sheet assembly 600, the assembled flexible electrode sheet 610 and the rigid electrode sheet 620 are assembled electrode sheets having smooth protrusions 611, the smooth protrusions 611 being gradually protruded from the periphery toward the middle. The smooth convex portion 611 is provided with an arch shape along the entire cross section in the longitudinal direction and/or the width direction. Through setting the middle part of electrode plate subassembly 600 to more middle part protrusion for the middle part of electrode plate subassembly 600 is preferential to contact with human skin, and the electric stimulation massage face on every side is again laminated with human skin gradually, so, makes electrode plate subassembly 600 have a gradual change process when contacting human skin, can ensure that finally whole electric stimulation massage face all is better with human skin contact.
In some embodiments, electrode sheet assembly 600 further includes a heater film 830, where heater film 830 is mated to flexible electrode sheet 610 and rigid electrode sheet 620 in a variety of ways, as exemplified below.
In some embodiments, heating film 830 is layered with flexible electrode sheet 610 and/or rigid electrode sheet 620, the flexible electrode sheet 610 having a first skin-facing surface disposed opposite the first skin-proximal surface 650, the rigid electrode sheet 620 having a second skin-facing surface opposite the second skin-proximal surface 630; the electrode sheet assembly 600 further includes a heat generating membrane disposed on the first and/or second back skin surface. In this embodiment, the heating film 830 has a third skin proximal surface, which can be attached to the first back skin, and the thermal energy is transferred outward through the first skin proximal surface 650. The third skin proximal surface may also be adapted to conform to the second skin back, and thermal energy may be transferred outwardly through the second skin proximal surface 630. Of course, the third skin proximal surface may be simultaneously in contact with the first and second back skin surfaces, at which time thermal energy may be simultaneously transferred outwardly through the first and second skin proximal surfaces 650, 630.
In some embodiments, the heating film 830 is spliced with the flexible electrode sheet 610 and/or the hard electrode sheet 620, and the electrode sheet assembly 600 further includes a heating film electrically connected with the flexible electrode sheet 610 and/or the hard electrode sheet 620; the heat patch has a third skin proximal surface, and the first skin proximal surface 650, the second skin proximal surface 630, and the third skin proximal surface collectively form a physical therapy surface. In this embodiment, the third skin proximal surface is exposed to directly transfer heat to the human skin. The third skin proximal surface may be positioned in a variety of relative relationships to the first and second skin proximal surfaces 630, such as "wrapped around", enclosed, spliced, partially laminated, and the like. There is no particular limitation herein. The physiotherapy surface formed by combining the third skin-proximal surface with the first skin-proximal surface 630 and the second skin-proximal surface not only can perform electric stimulation massage, but also can perform heating physiotherapy, enriches the functions of the electrode slice assembly 600, and improves the adaptability of the electrode slice assembly 600.
When the electrode sheet assembly 600 in the above-described facts is applied to a physiotherapy device, the physiotherapy device may include a support member, which may be a flexible support member 10 or a rigid support member, and the physiotherapy device will be described below by taking the example in which the flexible support member 10 is included. The flexible support 10 has a skin proximal side and a back skin side, and the electrode pad assembly 600 is mounted on the skin proximal side of the flexible support 10, so that the electro-stimulation massage or physiotherapy surface of the electrode pad assembly 600 can be very well adhered to the skin of a human body when the flexible support 10 is elastically deformed during the process.
One manner of mounting electrode tab assembly 600 is as follows: the skin-approaching part is provided with a supporting surface, the flexible electrode plate 610 is covered on the supporting surface, and the hard electrode plate 620 is covered on the middle part of the flexible electrode plate 610; or, the flexible electrode sheet 610 covers the supporting surface, the middle part of the flexible electrode sheet 610 is provided with an avoidance hole, the hard electrode sheet 620 covers the supporting surface, and the edge of the hard electrode sheet 620 is overlapped with the flexible electrode sheet 610 at the periphery of the avoidance hole. Specifically, in this embodiment, the supporting surface protrudes from the skin-proximal surface, and provides support for the flexible electrode sheet 610. There are many ways to form the supporting surface, such as the elastic supporting layer 180 is provided as an example, and the related scheme is the same as that in other embodiments, and will not be described herein.
Another mounting method of the electrode tab assembly 600: the skin proximal side of the flexible electrode sheet 610 is formed with a socket 617, the hard electrode sheet 620 has a skirt, and the skirt of the hard electrode sheet 620 is inserted into the socket 617. Specifically, in this embodiment, the thickness of the flexible electrode sheet 610 is 0.65mm-0.95mm, and the flexible electrode sheet 610 is a rubber electrode sheet or a silica gel electrode sheet. In order to better support the hard electrode sheet 620, the skin side of the hard electrode sheet 620 is attached to the skin-proximal side of the flexible electrode. In order to improve the connection stability between the hard electrode sheet 620 and the flexible electrode sheet 610, the insertion groove 617 is annular, and the skirt edge of the hard electrode sheet 620 is inserted into the annular insertion groove 617. The flexible electrode sheet 610 in the surrounding area of the inserting groove 617 protrudes to form a supporting table 619, and the thickness of the supporting boss 182 is larger than that of the flexible electrode sheet 610 attached to the supporting boss. An annular glue groove 616 is formed on the supporting table 619, glue is coated in the annular glue groove 616, and when the hard electrode is inserted in the inserting groove 617, the second back surface of the hard electrode is attached to the top surface of the supporting table 619, and the glue in the annular glue groove 616 further fixes the hard electrode sheet 620 and the flexible electrode sheet 610.
There are many ways to connect the flexible electrode to the flexible support 10, as will be illustrated below.
In some embodiments, the flexible support 10 is generally flat, with the skin proximal side having a skin proximal portion extending away from the back skin side to form a first mounting portion 110; the edge of the flexible electrode sheet 610 has a mounting skirt, the flexible electrode sheet 610 is covered on the first mounting portion 110, and the inner side wall of the mounting skirt is attached to the outer side wall of the first mounting portion 110. Specifically, in this embodiment, the mounting skirt is sleeved on the outer portion of the first mounting portion 110, so that the inner side wall of the mounting skirt is attached to the outer side wall of the first mounting portion. The attachment of the mounting skirt to the first mounting portion 110 may be accomplished in a number of ways, such as by adhesive attachment, snap attachment, screw attachment, or the like. The first mounting portion 110 protrudes from the flexible support 10, so that the mounting skirt has a deformable space after being mounted on the first mounting portion 110, which is beneficial for better adhesion of the flexible electrode sheet 610 and the hard electrode sheet 620.
In other embodiments, the flexible support 10 is generally flat, with the skin proximal side having a skin proximal portion and the back side having a back portion; the skin proximal portion extends away from the back skin side to form a first mounting portion 110, the first mounting portion 110 and the back skin portion enclosing to form a fitting cavity (which may correspond to the second fitting cavity 122 in other embodiments); the fitting cavity has an orifice (which may correspond to the second orifice 132 in other embodiments) in communication with the skin proximal side of the flexible support 10; the physiotherapy device further comprises a support frame 710, the support frame 710 is mounted in the assembly cavity, the flexible electrode slice 610 is fixedly arranged in the assembly cavity through the support frame 710, and is exposed to the skin-proximal side of the flexible support member 10 through the cavity opening. In this embodiment, the supporting frame 710 may be mounted in the assembly cavity in a plurality of ways, such as being embedded in the inner sidewall of the assembly cavity, or may be connected by adhesive connection, fastening, clamping slot, etc. The flexible electrode sheet 610 may be fixedly connected to the support frame 710, for example, supported by the support frame 710 and fixedly connected to the support frame 710, or the support frame 710 may press a portion of the flexible electrode sheet 610. For example, the edge of the flexible electrode sheet 610 has a mounting cluster edge 618, and the free end of the mounting cluster edge 618 is located in the assembly cavity; the supporting frame 710 is fixedly connected with the inner side wall of the assembly cavity, and the supporting frame 710 is provided with a pressing part 290, and the pressing part 290 is pressed on part of the mounting skirt. In this embodiment, the mounting skirt comprises an annular extension 612 and a mounting flange 613 at the free end of the annular extension 612, and a portion of the support frame 710 is pressed against the mounting flange 613 to secure it in the mounting cavity.
In some embodiments, in order to simplify the circuit as much as possible and make the circuit of the physiotherapy device simple and reliable, the physiotherapy device further includes an electrical connector 660 and a first flexible connection circuit, the electrical connector 660 is mounted on the flexible electrode piece 610, and a wiring port is formed on the flexible electrode piece 610 corresponding to the electrical connector 660; the first flexible connection circuit has a first connection end connected to the electrical connector 660 and a second connection end configured to connect directly or indirectly to the battery 720.
Specifically, in the present embodiment, the electrical connector 660 may take many forms, such as a sheet, a block, a strip, etc., and a metal sheet is taken as an example. The electrical connector 660 may be embedded in (or placed in) the flexible electrode during molding of the flexible electrode, or an installation space may be provided on the flexible electrode, and then the electrical connector 660 may be installed in the installation space. The first flexible connection circuit may be composed of flexible wires and may also include a flexible circuit board 530. The first connection end and the electrical connector 660 may be connected in a variety of manners, such as by a snap connection, a screw connection, an adhesive connection, etc., as exemplified by welding the first connection end and the electrical connector 660. In some embodiments, the electrical connector 660 is mounted within the support stand 619 of the flex electrode sheet 610 in order to improve the stability of the mounting of the electrical connector 660. Meanwhile, the supporting table 619 is located at the middle of the flexible electrode sheet 610, so that electric energy can be rapidly transmitted to various positions of the flexible electrode sheet 610. Because the hard electrode sheet 620 is mounted on the support table 619, power may also be rapidly delivered to the hard electrode sheet 620. The physiotherapy device further comprises a heating film 830, and the second connection end is connected with the heating film 830; the physiotherapy device further includes a second flexible connection circuit, and the heating film 830 is electrically connected with the battery 720 through the second flexible connection circuit. In this embodiment, the second flexible connection circuit may include flexible wires, and may also include a flexible circuit board 530. The second flexible connection circuit may be connected to the battery 720 or may be electrically connected to the circuit board 530. In this embodiment, the battery 720 and the heating film 830 are connected by the second flexible connection circuit, and the heating film 830 and the flexible electrode sheet 610 are connected by the first flexible connection circuit of the box during the passing, and the flexible electrode sheet 610 is electrically connected with the hard electrode sheet 620, so that the connection circuit of the electrode sheet assembly 600, the heating film 830 and the battery 720 is very concise, the internal circuit is simplified, and the stability of the physiotherapy device is improved.
Referring to fig. 11 to 19, how the electronic control box 500 is mounted to the first mounting chamber 121, the power box 700 and the flexible electrode sheet 610 are mounted to the second and third mounting chambers 122 and 123, and how the flexible electrode sheet 610 is mounted to the fourth and fifth mounting chambers 125 and 126 are described in a number of ways, and examples will be described in the following embodiments.
In some embodiments, when the flexible support 10 is formed by splicing support sheets, the flexible support 10 includes a skin proximal support sheet 110 and a skin back support sheet 200 that are disposed in a mutually fitting manner, and the skin proximal support sheet 110 extends locally in a direction away from the skin back support sheet 200 to form the first mounting portion 110; the backing sheet 200 extends partially away from the skin proximal sheet 110 to form a second mounting portion 210, and a mounting cavity is formed between the first mounting portion 110 and the second mounting portion 210.
In some embodiments, the flexible support 10 includes a skin proximal support sheet 110 and a back skin support sheet 200 that are disposed in close proximity to each other, the skin proximal support sheet 110 extending partially away from the back skin support sheet 200 to form a first mounting portion 110; the first mounting portion 110 and the backing sheet 200 form an assembly cavity therebetween.
In some embodiments, the flexible support 10 includes a skin proximal support sheet 110 and a skin back support sheet 200 that are disposed in contact with each other, and the skin back support sheet 200 extends partially away from the skin proximal support sheet 110 to form a second mounting portion 210, and an assembly cavity is formed between the skin proximal support sheet 110 and the second mounting portion 210.
The first mounting portion 110 in this embodiment may include a first raised portion 677 and a skin proximal shaping aperture 111, and the second mounting portion 210 may include a second raised portion 260 and a skin proximal shaping aperture. According to the description in the above embodiment, each of the first to fifth fitting chambers 121 to 126 has the first mounting portion 110 and/or the second mounting portion 210; alternatively, each has a first protuberance 677 and a skin proximal shaping aperture 111 and/or a second protuberance 260 and a back skin shaping aperture.
The massage module or the physiotherapy module comprises a mounting frame, and a part of the mounting frame is embedded in the first mounting part 110 or the second mounting part 210. Of course, in some embodiments, the mounting frame may be entirely embedded in the first mounting portion 110 or the second mounting portion 210 according to actual needs. For example, the mounting frame may be made of hard material, and may be provided in a ring shape, and the mounting frame is partially or entirely embedded in the first mounting portion 110 or the second mounting portion 210, mainly for improving the strength of the first mounting portion 110 or the second mounting portion 210. The mounting frame may provide a mounting basis for the mounting of the power box 700, the electronic control box 500, the support frame 820, etc., the fixing of the flexible electrode sheet 610, etc. Through the setting of installing frame, the intensity that improves flexible support piece 10 by a wide margin, the convenience of improvement installation function spare by a wide margin. It should be noted that, the mounting frame in this application is a frame that is generally used to facilitate the mounting of functional components, and for clarity of description, for convenience of distinction, in different embodiments, there may be different names, such as the support frame 710, the hard middle frame 860, and the ring frame 810.
In the first assembly chamber 121, regarding the installation of the electronic control box 500, the electronic control box 500 is installed in the first assembly chamber 121; the circuit board 530 is installed in the electronic control box 500. The electronic control box 500 includes a hard top case 510 and a hard bottom case 520 mated with the hard top case 510. The hard top case 510 includes a support plate 511 and a support skirt 512 extending to one side of the support plate 511. The hard top case 510 is mounted on the first mounting portion 110, and the outer sidewall of the support skirt 512 is bonded to the inner sidewall of the first mounting portion 110. The hard bottom case 520 is mounted on the second mounting portion 210, and an outer circumferential surface of the hard bottom case 520 is bonded to an inner sidewall of the second mounting portion 210.
Specifically, in this embodiment, the hard top shell 510 may take many forms, including a support plate 511 and a support skirt 512, and the support skirt 512 extends along the edge of the support edge to a plate surface. The hard bottom case 520 has a concave space, and the space surrounded by the concave space of the hard top case 510 and the support skirt 512 is a mounting cavity of the electronic control box 500. The bottom of the skirt of the hard top shell 510 abuts against the open edge of the hard bottom shell 520, which may be in a face-to-face engagement. In some embodiments, the edges of the support skirt 512 and the rigid bottom shell 520 may be connected by fasteners such as screws. Wherein the hard top shell 510 is installed in the first installation portion 110, and an outer side wall of the supporting skirt 512 is provided with an arc surface, and the outer side wall extends obliquely from the edge of the first assembly cavity 121 to the middle, so that the first annular protrusion 112 belonging to the first bulge 677 extends along the outer side wall of the supporting skirt 512. In some embodiments, portions of the rigid top shell 510 are embedded on the sidewalls of the first bump 677. Specifically, a dispensing flange 517 is formed at the top edge of the support plate 511, a first connection glue groove 115 is formed at the end of the first mounting portion 110 away from the back skin support sheet 200, and the dispensing flange 517 is inserted into the first connection glue groove 115. The first connection glue groove 115 may be formed therein with the top of the first annular protrusion 112, however, in some embodiments, the first bump 677 may further include a first top 113, where the first top 113 is connected with the free end of the first annular protrusion 112, and in this case, the first connection glue groove 115 may be formed on the first top 113, or on a connection between the first annular protrusion 112 and the first top 113. The glue dispensing flange 517 is adhesively attached to the first attachment glue slot 115, and in some embodiments, the first mounting portion 110 and the rigid top shell 510 are integrally formed by the placement of the first attachment glue slot 115 and the glue dispensing flange 517. The dispensing flange 517 and the first connecting glue groove 115 cooperate to form an assembly groove 518, i.e., the dispensing flange 517 encloses to form the assembly groove 518. The massage module further comprises a panel 300, wherein the panel 300 is installed in the assembly groove 518, and the edge of the panel 300 is adhered to the outer side wall of the connection glue groove facing the assembly groove 518. The edge of the panel 300 is abutted with the outer side wall of the first connecting glue groove 115, so that the side wall strength of the first connecting glue groove 115 is higher, and the connection stability of the first connecting glue groove 115 and the dispensing flange 517 is greatly improved while the panel 300 is fixedly installed. In some embodiments, a wire passing notch 513 is formed at the bottom of the supporting skirt 512, so that a power wire and/or a signal wire connected to the circuit board 530 can pass through the first assembly cavity 121.
In some embodiments, in order to improve the connection reliability between the hard bottom shell 520 and the second mounting portion 210, a second connection glue groove is formed on a plate surface of the hard bottom shell 520 opposite to the hard top shell 510, and a bonding rib is formed on an inner side wall of the second mounting portion 210 corresponding to the second connection glue groove, and the bonding rib is inserted into the second connection glue groove. Through the setting of bonding protruding muscle and second connection glue groove, increased the bonding area of stereoplasm drain pan 520 and second connecting portion, be favorable to improving joint strength.
In some embodiments, in order to improve the mounting stability of the circuit board 530, a limiting groove is formed on the surface of the hard bottom shell 520 facing the hard top shell 510, and the circuit board 530 is mounted in the limiting groove. By the limiting arrangement, the freedom of movement and rotation of the circuit board 530 is limited, and the mounting stability of the circuit board 530 is improved. In some embodiments, the portion of the bottom of the support skirt 512 facing the mounting cavity presses against the surface of the circuit board 530. The depth of the limiting groove is equal to the thickness of the circuit board 530, so that the supporting skirt 512 limits the circuit board 530 to the limiting groove.
In some embodiments, in order to facilitate the assembly of the physiotherapy module or the massage module, the second mounting portion 210 is provided with an avoidance opening 231, and an assembly magnetic member 910 is disposed on a surface of the hard bottom shell 520 facing away from the hard top shell 510, and the assembly magnetic member 910 is exposed through the avoidance opening 231. Through the setting of assembly magnetism piece 910, be favorable to physiotherapy module and wearing portion or other accessory location and connection, be favorable to improving physiotherapy device's convenience of using.
In some embodiments, a key unit is disposed on a side of the circuit board 530 facing the hard bottom case 520, a via hole is formed in the hard bottom case 520 corresponding to the key unit, and a pressing portion 290 is formed in the second mounting portion 210 corresponding to the via hole. In this embodiment, the pressing portion 290 is directly formed on the skin-backing supporting sheet 200, so that the structure of the control key of the physiotherapy device is simplified, the assembling process of the control key is reduced, and the structural stability of the control key and the production efficiency of the physiotherapy module are improved.
In the second assembly cavity 122 and the third assembly cavity 123, regarding the installation of the power supply box 700 and the flexible electrode sheet 610, the assembly cavities include the second assembly cavity 122, the massage module includes the power supply box 700, and the power supply box 700 is installed in the second assembly cavity 122; the battery 720 is mounted within the power box 700. The power supply box 700 includes a skin-proximal housing 730 and a back housing 760 cooperating with the skin-proximal housing 730, the massage module further includes a rigid support frame 710, the support frame 710 is mounted on the first mounting portion 110, and the skin-proximal housing 730 is mounted on the first mounting portion 110 through the support frame 710. The skin-backing case 760 is mounted on the second mounting portion 210, and an outer peripheral surface of the skin-backing case 760 is attached to the inner surface 320 of the second mounting portion 210.
Specifically, in the present embodiment, the supporting frame 710 is disposed in a ring shape, and there are many connection manners with the first mounting portion 110. A portion of the support frame 710 is embedded on a sidewall of the first bump 677. Specifically, the first mounting portion 110 has a caulking groove, and a portion of the support frame 710 is embedded in the caulking groove. The caulking groove is formed at an end of the first mounting portion 110 remote from the back skin support sheet 200. The caulking groove may be formed therein with the top of the first annular protrusion 112, however, in some embodiments, the first bump 677 may further include a first top 113, and the first top 113 is connected with the free end of the first annular protrusion 112, in which case the caulking groove may be formed at the first top 113, or at the connection between the first annular protrusion 112 and the first top 113. In some embodiments, an integral formation of the first mounting portion 110 and the skin proximal housing 730 may be achieved by the placement of the bezel and the support frame 710.
In some embodiments, to improve the mounting stability of the skin proximal housing 730, the support frame 710 includes a first pressing boss 712, and an end of the skin proximal housing 730 facing the back skin housing 760 is provided with a fitting skirt 731 extending away from the inside of the power supply box 700, and the first pressing boss 712 presses on the fitting skirt 731. In this embodiment, the skin proximal housing 730 is configured in a cylindrical shape with an opening at one end, and has a fitting skirt 731 extending away from the inside of the power supply box 700 at the opening end. The edge of the back skin 760 is pressed and arranged by the assembly skirt 731, so that the contact area between the skin-approaching shell 730 and the back skin 760 is greatly increased, and the connection stability of the skin-approaching shell 730 and the back skin 760 is improved. The bottom of the support frame 710 abuts against the edge of the back skin case 760, and the first pressing boss 712 is disposed adjacent to the bottom of the support frame 710 and presses against the edge of the fitting skirt 731. In this way, the skin proximal housing 730 is made to fit stably with the back skin housing 760.
In some embodiments, in order to improve the mounting stability of the back skin-proximal housing 730, a third connection glue groove is formed on the back surface of the back skin housing 760 opposite to the surface of the skin-proximal housing 730, and a connection rib is formed on the inner surface 320 of the second mounting portion 210 corresponding to the third connection glue groove, and the connection rib is inserted into the third connection glue groove. The connecting convex rib is connected with the third connecting glue groove through glue. Through the setting of connecting protruding muscle and third connection glue groove, increased the bonding area of stereoplasm drain pan 520 and second connecting portion, be favorable to improving joint strength.
In some embodiments, in order to improve the connection convenience of the massage module, the second mounting portion 210 has an avoidance opening 232, and the back skin case 760 is provided with an assembly magnetic member 910 and/or an assembly magic tape 920 facing the plate surface of the second mounting portion 210, and the assembly magnetic member 910 and the assembly magic tape 920 are exposed through the avoidance opening 232. Through the setting of assembly magnetism piece 910 and assembly magic subsides 920, be favorable to physiotherapy module and wearing portion or other accessory location and connection, be favorable to improving physiotherapy device's convenience of using.
In some embodiments, in order to improve the mounting stability of the flexible electrode sheet 610, the massage module further includes a flexible electrode sheet 610, where the flexible electrode sheet 610 is covered on the skin proximal shell 730, a free end of the flexible electrode sheet 610 has a mounting flange 613, and the mounting flange 613 abuts against the mounting skirt 731; the support frame 710 includes a second pressing boss 711, the second pressing boss 711 is located inside the first pressing boss 712, and the second pressing boss 711 is pressed on top of the mounting flange 613. In order to improve the mounting stability of the flexible electrode sheet 610, a first fitting groove 713 is formed at the bottom of the second pressing boss 711, a second fitting groove 61a is formed at the top of the mounting flange 613, and the first fitting groove 713 and the second fitting groove 61a are fitted to each other. The outer side wall of the flexible electrode sheet 610 is attached to the outer side wall of the caulking groove facing the assembly cavity.
Specifically, in the present embodiment, the flexible electrode sheet 610 includes a smooth convex portion 611 and a mounting skirt integrally provided with the smooth convex portion 611, the mounting skirt including an annular extension 612 and a mounting flange 613. Wherein the edge of the sub-smooth bulge 611 of the annular extension 612 extends towards the back skin side, a mounting flange 613 is formed at the free end of the annular extension 612, and the mounting flange 613 extends from the free end of the annular extension 612 in a direction away from the smooth bulge 611. The bottom of the mounting flange 613 abuts the top of the mounting skirt 731. The second pressing boss 711 presses on top of the mounting flange 613, and the annular extension 612 is located between the outer sidewall of the skin proximal housing 730 and the inner sidewall of the support frame 710. The outer side wall of the partial annular extension 612 is attached to the outer side wall of the caulking groove facing the second assembling cavity 122, and the outer side wall of the partial annular extension 612 is abutted to the inner side wall of the supporting frame 710. In some embodiments, the skin proximal housing 730, the skin back housing 760 and the support frame 710 may be fastened by fasteners, or the support frame 710 may be fixedly connected to the skin proximal housing 730 and the skin back housing 760 by a fastening connection. In this way, the flexible electrode sheet 610, the power supply box 700, the support frame 710, and the like are stably and reliably mounted. In some embodiments, the first and second fitting grooves 713 and 61a are provided with adhesive therein, and are connected by the adhesive when fitted to each other. It should be noted that, in some embodiments, an elastic support body is provided between the power supply box 700 and the flexible electrode sheet 610, and strength of the support is ensured while ensuring that the flexible electrode sheet 610 can be deformed.
In the fourth assembly chamber 125 and the fifth assembly chamber 126, regarding the installation of the support frame 820 and the flexible electrode sheet 610, the assembly chamber includes the fourth assembly chamber 125, the functional piece includes the flexible electrode sheet 610, the first installation part 110 has the caulking groove, the massage module includes: the support frame 820, the support frame 820 is installed in the assembly cavity, the bottom of the support frame 820 has support flange 822; a rigid ring frame 810, one end of the ring frame 810 is embedded in the embedded groove, and the other end is provided with a first pressing flange 811; the flexible electrode slice 610 is covered on the supporting frame 820, the free end of the flexible electrode slice 610 is provided with a mounting flange 613, the mounting flange 613 is abutted on the supporting flange 822, and the first pressing flange 811 presses the top of the mounting flange 613. In some embodiments, to improve the mounting stability of the support frame 820, the ring frame 810 has a second pressing flange 812, the first pressing flange 811 is located inside the second pressing flange 812, and the second pressing flange 812 abuts against the support flange 822.
Specifically, in this embodiment, the support frame 820 may have a plurality of forms, for example, a block-shaped form, and the bottom of the support frame 820 is attached to the inner surface 320 of the backing sheet 200. The bottom of the support bracket 820 projects away from the fourth mating cavity 125 to extend the support flange 822. The flexible electrode sheet 610 includes a smooth convex portion 611 and a mounting skirt integrally provided with the smooth convex portion 611, the mounting skirt including an annular extension 612 and a mounting flange 613. Wherein the edge of the sub-smooth bulge 611 of the annular extension 612 extends towards the back skin side, a mounting flange 613 is formed at the free end of the annular extension 612, and the mounting flange 613 extends from the free end of the annular extension 612 in a direction away from the smooth bulge 611. The bottom of the mounting flange 613 abuts the top of the support flange 822. The first pressing flange 811 presses on top of the mounting flange 613, the annular extension 612 being located between the outer side wall of the skin proximal housing 730 and the inner side wall of the annular frame 810. The outer side wall of the partial annular extension 612 is in abutment with the outer side wall of the caulking groove facing the second fitting cavity 122, and the outer side wall of the partial annular extension 612 is in abutment with the inner side wall of the annular frame 810. In some embodiments, the support frame 820 and the ring frame 810 may be fastened by using fasteners, and of course, the ring frame 810 may be fixedly connected to the support frame 820 by a fastening manner. In this way, the flexible electrode sheet 610 and the ring frame 810 and the like are stably and reliably mounted. In some embodiments, in order to further improve the mounting stability of the flexible electrode sheet 610, a seventh connection glue groove is formed at the bottom of the first pressing flange 811, and an eighth connection glue groove is formed at the top of the mounting flange 613, the seventh connection glue groove and the eighth connection glue groove being nested with each other. And the seventh connecting glue groove and the eighth connecting glue groove are internally provided with glue, and are connected through glue when mutually embedded. It should be noted that, in some embodiments, an elastic support body is provided between the top of the support frame 820 and the flexible electrode sheet 610, and strength of the support is ensured while ensuring that the flexible electrode sheet 610 can be deformed.
In some embodiments, a fourth connection glue groove 821 is formed at the bottom of the support frame 820, and a mounting rib 270 is formed on the inner side wall of the second mounting portion 210, and the mounting rib 270 is inserted into the fourth connection glue groove 821. An adhesive is disposed in the fourth connection adhesive groove 821, and the mounting rib 270 is connected with the fourth connection adhesive groove 821 through the adhesive. In this way, the connection stability between the support frame 820 and the second mounting portion 210 is improved.
In some embodiments, to increase the connection stability of flexible support 10, ring frame 810 has fifth attachment glue groove 813 near the end of flexible support 10; the end of the skin-proximal support sheet 110 is connected with the end of the back skin support sheet 200 to form a sixth connection glue slot 170, and the fifth connection glue slot 813 and the sixth connection glue slot 170 are nested. Glue is provided in fifth attachment glue groove 813 and/or sixth attachment glue groove 170 to bond fifth attachment glue groove 813 and sixth attachment glue groove 170 together. In this way, the connection reliability of the ring frame 810 and the flexible support 10 is greatly improved, and the connection stability of the flexible support 10 (the skin-proximal support sheet 110 and the skin-back support sheet 200) is also greatly improved.
In some embodiments, in order to improve the installation convenience of the physiotherapy module, the second installation portion 210 has an avoidance opening 233, and the surface of the back skin shell 760 facing the second installation portion 210 is provided with an assembly magnetic member 910 and/or an assembly magic tape 920, and the assembly magnetic member 910 and/or the assembly magic tape 920 are exposed through the avoidance opening 233. Through the setting of assembly magnetism piece 910 and assembly magic subsides 920, be favorable to physiotherapy module and wearing portion or other accessory location and connection, be favorable to improving physiotherapy device's convenience of using.
In some embodiments, to protect the massage module from cleaning, the massage module further comprises a flexible protective sleeve, which is sleeved outside the flexible support 10; the flexible protective sleeve is provided with an avoidance opening, and the avoidance opening corresponds to the assembly cavity, so that a functional part arranged at the open end of the assembly cavity is exposed. The flexible protective sleeve can be made of various materials, such as cotton and wool fabrics, insulating rubber, a silica gel sleeve and the like. Through the setting of flexible protective sheath, can install massage module or physiotherapy module wherein for massage module or physiotherapy module keep clean, avoid making dirty the washing. Is beneficial to prolonging the service life of the massage module or the physiotherapy module.
It should be noted that, the massage unit in the massage module includes an electrode plate, the electrode plate is floatably mounted on the first mounting portion 110, and the electrode plate and the electric control box 500 or the battery 720 box have an avoidance interval in the thickness direction of the flexible support member 10. The floating connection manner of the electrode plate and the first mounting portion 110 is many, for example, the electrode plate and the first mounting portion are connected by using a fastener such as an adhesive connection, a snap connection, a screw, or a slot fit, etc., and the schemes in other embodiments may be referred to, and will not be described herein.
The utility model also provides a physiotherapy device, which comprises a wearing part and a physiotherapy module or a massage module, wherein the specific structures of the physiotherapy module and the massage module refer to the above embodiments. Wherein, physiotherapy module or massage module detachable installs on wearing portion, perhaps, physiotherapy module or massage module detachable installs on wearing portion.
Regarding wearing of the physiotherapy module, a massage belt is taken as an example for illustration.
A massage belt, the massage belt comprising:
the flexible waistband body 970, the first positioning member 913 and the first connecting member 911, wherein the first positioning member 913 and the first connecting member 911 are distributed on the skin proximal side of the flexible waistband body 970;
the massage device comprises a massage module, a second positioning piece 915 and a second connecting piece 912, wherein the second positioning piece 915 and the second connecting piece 912 are arranged on the back skin side of the massage module; the first positioning member 913 is detachably connected to the second positioning member 915, and the first connecting member 911 and the second connecting member 912 are detachably connected.
In particular, in the present embodiment, the shape of the flexible waistband body 970 may be many, for example, a strip shape. The flexible waistband body 970 may be made of a cotton wool fabric or a fiber, a flexible plastic, a rubber, a silica gel, etc., and the body of the flexible waistband body 970 is mainly used for installing a massage module and being worn on a human body, and the material thereof is not particularly limited here, taking a cloth as an example. The flexible waistband body 970 has a skin proximal side and a back skin side, the skin proximal side of the flexible waistband body 970 facing the human body when in use. The massage module may be in various forms, for example, flat as a whole. The massage module may have a flexible support, for example, a functional element mounted on the flexible support.
The skin-proximal side of the flexible waistband body 970 is provided with a first positioning member 913 and a first connecting member 911, the back skin of the massage module is provided with a second connecting member 912 and a second positioning member 915, the second positioning member 915 is detachably connected with the first positioning member 913, positioning of the massage module and the flexible waistband body 970 is realized, the second connecting member 912 is detachably connected with the first connecting member 911, and stable connection of the massage module and the flexible waistband body 970 is realized. The first positioning member 913 and the second positioning member 915 may have a plurality of forms, such as magnetic members having different magnetic properties, wherein one of the magnetic members is a magnetic metal that can be magnetically attracted, such as iron, steel, etc. The mutual attraction between the magnetic parts, or the mutual attraction between the magnetic parts and the magnetic metal, is very convenient to connect and detach, and in the process of installing the massage module, the first positioning part 913 and the second positioning part 915 are positioned and matched first. The first connection 911 and the second connection 912 may take many forms, such as by a snap-fit connection, a fastener-fit connection, or the like. In this embodiment, a velcro adhesive is taken as an example. The massage module further includes a plurality of functional elements mounted on the flexible support, and the second positioning member 915 and the second connecting member 912 are mounted on the flexible support or the functional elements, respectively. That is, the second positioning member 915 and the second connecting member 912 may be mounted to the flexible support or the functional element, respectively, or may be simultaneously provided on the functional element or the flexible support. The functional elements may be an electric control box, a power supply box, a support frame for a massage element (the massage element is exemplified by a flexible electrode sheet), and the like.
In this embodiment, by simultaneously arranging the first positioning member 913 and the first connecting member 911 on the skin proximal side of the flexible waistband body 970 and simultaneously arranging the second positioning member 915 and the second connecting member 912 on the skin back side of the massage module, when the massage module is assembled to the flexible waistband body 970, the first positioning member 913 and the second positioning member 915 are matched to determine the relative position of the massage module and the flexible waistband body 970, and then the first connecting member 912 is connected to reliably connect the positioned massage module and the flexible waistband body 970; therefore, the massage module can be conveniently, accurately and efficiently assembled on the skin-proximal side of the flexible waistband body 970, which is beneficial to the use of users; meanwhile, the flexible waistband body 970 and the massage module are detachably connected, so that the flexible waistband body 970 can be cleaned independently, the flexible waistband body 970 can be kept clean, and the health use of a user is facilitated.
In some embodiments, for better wearing of the waistband by the user, the wearing zone 931 is located at both ends of the skin proximal side, and the fitting zone 932 is located in the middle of the skin proximal side; the first positioning member 913 and the first connecting member 911 are located at the fitting area 932. The fitting areas 932 at the two ends of the flexible waistband body 970 are detachably connected. In this embodiment, the wearing area 931 is disposed at two ends of the flexible waistband body 970, the assembly area 932 is disposed in the middle of the flexible waistband body 970, so that two ends of the flexible waistband can be detachably connected, and the massage module is mounted in the middle of the flexible waistband.
Regarding the arrangement of the first positioning member 913 and the first connecting member 911 in the fitting area 932, there may be various arrangements, for example, the first connecting member 911 is located at both ends of the fitting area 932, and the first positioning member 913 is located at the middle of the fitting area 932; alternatively, the first positioning members 913 are located at both ends of the assembly region 932, and the first connecting member 911 is located at the middle of the assembly region 932; alternatively, the first positioning members 913 and the first connecting members 911 are arranged at intervals in the longitudinal direction of the fitting region 932, etc., as will be described below.
First case: the first connecting members 911 are positioned at both ends of the fitting area 932, and the first positioning members 913 are positioned at the middle of the fitting area 932.
In some embodiments, in order to improve the connection stability between the massage module and the flexible waistband body 970, the first connecting member 911 includes at least two first connecting units, the two first connecting units are distributed at two ends of the assembling area 932, and the first positioning member 913 is located in the middle of the assembling area 932; the second connecting piece 912 includes at least two second connecting units, and the two second connecting units are respectively installed at two ends of the flexible supporting piece; or, the plurality of functional elements are arranged along the length direction of the flexible supporting piece, and the two second connecting units are respectively connected with the functional elements positioned at the two ends of the flexible supporting piece; the second positioning element 915 is located in the middle of the flexible support element; the first connecting unit is detachably connected with the second connecting unit.
Specifically, in the present embodiment, the first connection member 911 is provided to include at least two first connection units, and the two first connection units are provided at both ends of the fitting region 932. Meanwhile, the second connection member 912 is provided to include at least two second connection units, and the two second connection units are provided at both ends of the flexible support member or on the functional elements at both ends of the flexible support member. Thus, the two ends of the assembling area 932 are fixedly connected with the two ends of the flexible supporting piece, so that the massage module can be stably and reliably fixedly connected with the flexible waistband body 970. Wherein the first connection unit extends in the width direction of the flexible waistband body 970, and the second connection unit extends in the width direction of the flexible support. In this way, the connection of the first connection unit and the second connection unit is advantageous in that the massage module and the flexible waistband body 970 can be reliably connected in the width direction.
In some embodiments, in order to improve the positioning accuracy, the first positioning member 913 includes a plurality of first positioning units, and the plurality of first positioning units are distributed at intervals in the middle of the assembly area 932; the second positioning member 915 includes a plurality of second positioning units, which are mounted on the flexible support member or the functional element, and the second positioning units are detachably connected with the first positioning units. Through setting up the location cooperation of a plurality of first positioning unit and second positioning unit, the massage module is more accurate with the location of flexible waistband body 970.
In some embodiments, in order to better achieve positioning between the massage module and the flexible waistband body 970, a plurality of the first positioning units are arranged into at least two first positioning groups 933, the first positioning units in the first positioning groups 933 are arranged along the width direction of the assembly area 932, and the two first positioning groups 933 are arranged along the length direction of the assembly area 932; the number of the second positioning units is at least two second positioning groups 935, the two second positioning groups 935 are arranged along the length direction of the flexible support, and the second positioning units in the second positioning groups 935 are arranged along the width direction of the flexible support. The first positioning group 933 and the second positioning group 935 extend along the width direction of the massage belt, so that the first positioning group 933 and the second positioning group 935 are matched, the positioning accuracy of the massage belt in the length direction is improved, and the positioning accuracy of the massage belt in the width direction is improved by arranging a plurality of groups of the first positioning group 933 and the second positioning group 935.
In some embodiments, to facilitate the control of the control buttons of the massage module by the user, the middle portion of the flexible waistband body 970 has a button via 936, at least one of the first positioning units is disposed adjacent to the button via 936, and the first positioning units and the button via 936 are arranged along the width direction of the assembly region 932; the functional element comprises an electric control box, the electric control box extends along the width direction of the flexible supporting piece, a pressing part is formed on the flexible supporting piece corresponding to the key unit of the electric control box, and the pressing part is arranged corresponding to the key through hole 936; and at least one second positioning unit is arranged on the electric control box adjacent to the pressing part, and the second positioning unit and the pressing part are arranged along the length direction of the electric control box. In this embodiment, the first positioning unit is disposed at a position adjacent to the key through hole 936, and the second positioning unit is disposed at a position adjacent to the pressing portion, so that the pressing portion can accurately penetrate out of the key through hole 936 through the cooperation of the first positioning unit and the second positioning unit, which is beneficial for the user to press the control key of the massage module
Second case: the first positioning members 913 are located at both ends of the fitting area 932, and the first connecting member 911 is located at the middle of the fitting area 932.
In some embodiments, the first positioning member 913 includes at least two first positioning units, the two first positioning units are distributed at two ends of the assembly area 932, and the first connecting member 911 is located in the middle of the assembly area 932; the second positioning member 915 includes at least two second positioning units, and the two second positioning units are respectively installed at two ends of the flexible supporting member; or, the plurality of functional elements are arranged along the length direction of the flexible supporting piece, and the two second positioning units are respectively connected with the functional elements positioned at the two ends of the flexible supporting piece; the second connecting unit is positioned in the middle of the flexible supporting piece; the first positioning unit is detachably connected with the second positioning unit. In this embodiment, the first positioning unit and the second positioning unit are positioned at two ends of the assembly area 932, and the middle part is connected, so that during assembly, the middle part of the massage module can be held first, so that two ends of the massage module are positioned first, and then the middle part is connected with the flexible waistband body 970.
The two first connection units are arranged in the middle of the assembly region 932 along the length direction of the assembly region 932, and the first connection units extend along the width direction of the assembly region 932; the second connection member 912 includes at least two second connection units, the two second connection units are arranged in the middle of the flexible support member along the length direction of the flexible support member, and the second connection units extend along the width direction of the flexible support member; the first connecting unit and the second connecting unit are detachably connected.
Third scenario: the first positioning members 913 and the first connecting members 911 are spaced apart along the length of the fitting region 932
The first positioning member 913 includes at least two first positioning units, the first connecting member 911 includes at least two first positioning units, and the first positioning units and the first connecting units are arranged at intervals in the assembly area 932.
In some embodiments, the first connector 911 is a mounting velcro 971 and the second connector 912 is a mounting velcro 920; and/or, the first positioning member 913 is a mounting magnetic member 975, the second positioning member 915 is a mounting magnetic member 910, and the mounting magnetic member 975 is magnetically attracted to the mounting magnetic member 910. The magnetic member is a separate element or component that can be magnetically attracted or attracted.
To further enhance the ease of assembly, the magnetic dissimilarity between adjacent first positioning groups 933 of the first positioning members 913 and the magnetic dissimilarity between adjacent second positioning groups 935 of the second positioning members 915. So that the direction of the reverse massage module can be avoided. The number of the magnetic members 975 may be large, and may correspond to the first positioning unit in the above embodiment. The number of installation stickers 971 may be plural, corresponding to the first connection unit in the above embodiment. The number of the fitting magnetic members 910 may be plural, corresponding to the second positioning unit in the above embodiment; the number of the fitting velcro 920 may be plural, corresponding to the second connection unit in the above embodiment.
Regarding the cooperation of wearing district 931 at the both ends of flexible waistband body 970, wearing district 931 of one end is provided with first regulating part, and wearing district 931 of the other end is provided with two at least second regulating parts, and first regulating part can alternatively dismantle with the second regulating part and be connected. The number of the second adjusting members may be plural, the plurality of second adjusting members may extend along the length direction of the waist wearing region 931, and the first adjusting member may be any one of the second adjusting members to be connected, so as to determine the size of the region surrounded by the flexible waistband body 970, so as to adapt to the waistline of the current user. Thus, the adaptability of the massage waistband is improved. Wherein, first regulating member includes first regulation magic subsides 972, and second regulating member includes second regulation magic subsides 973.
The foregoing description is only of the optional embodiments of the present utility model, and is not intended to limit the scope of the utility model, and all the equivalent structural changes made by the description of the present utility model and the accompanying drawings or the direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (12)

1. An electro-stimulation module, comprising:
the flexible support piece is integrally arranged in a flat shape and is provided with a skin-approaching surface and a skin-backing surface, a first forming hole is formed in the flexible support piece, the flexible support piece comprises a first bulge part formed by extending the peripheral edge of the skin-approaching side of the first forming hole in a direction away from the skin-backing surface, and an assembly cavity is formed between the inner side of the first bulge part and the first forming hole;
the electrode plate is floatably arranged on the first bulge part, so that the electrode plate is floatably arranged on the flexible support; and
and the electric element is arranged in the assembly cavity and is a circuit board or a battery.
2. The electro-stimulation module of claim 1, wherein the first ridge includes a first annular protrusion and a first top, the first annular protrusion being connected at a skin proximal periphery of the first shaped aperture, the first annular protrusion extending away from the dorsal surface, the periphery of the first top being connected to a free end of the first annular protrusion;
The electrode plate is supported on the first top; or the first top is provided with a first top hole, and the electrode plate is arranged at the first top hole; and/or the number of the groups of groups,
the flexible supporting piece is a silica gel piece or a rubber piece.
3. The electro-stimulation module of claim 2, wherein the first top portion is at least partially smoothly convex in a direction away from the back skin surface to form a smooth supporting convex portion, the electrode sheet is at least partially supported on the smooth supporting convex portion, a portion of the electrode sheet supported on the smooth supporting convex portion is a smooth convex portion, and the smooth convex portion is gradually convex from the periphery to the middle; or,
the electrode slice is including locating smooth bellying in the first apical pore and connect in the installation shirt rim of smooth bellying's periphery, the installation shirt rim border the thickness direction of flexible support extends, the installation shirt rim with first annular convex part is connected, smooth bellying is kept away from the smooth arch of direction of back skin face, smooth bellying is by periphery to middle part protruding the setting gradually.
4. The electro-stimulation module of claim 3, wherein the first top portion comprises an annular support portion and the smooth support protrusion, an outer end edge of the annular support portion being connected to a free end of the first annular protrusion, a peripheral edge of the smooth support protrusion being connected to an inner end edge of the annular support portion; the electrode plate further comprises an annular connecting part connected to the periphery of the smooth protruding part, and the annular connecting part is connected to the outer side face of the annular supporting part; or,
The mounting skirt extends into the first top hole to be connected with the inner annular surface of the first annular protruding portion.
5. An electro-stimulation module as claimed in claim 3, wherein the first annular protrusion extends obliquely towards the middle of the first profiled aperture.
6. The electro-stimulation module of any one of claims 1 to 5, wherein the flexible support comprises a skin-proximal support sheet having the skin-proximal surface and a skin-dorsal support sheet having the skin-dorsal surface, the first shaped aperture comprises a skin-proximal aperture provided in the skin-proximal support sheet and a skin-dorsal aperture provided in the skin-dorsal support sheet opposite the skin-proximal aperture, the first bulge being formed by a peripheral edge of the skin-proximal aperture extending away from the skin-dorsal surface.
7. The electro-stimulation module of claim 6, further comprising a protective housing, the protective housing being disposed in a flattened configuration, the protective housing being disposed within the assembly cavity, the electrical component being mounted within the protective housing;
the electrode plate and the protective shell are provided with avoiding intervals in the thickness direction of the flexible supporting piece, so that the electrode plate is prevented from deforming.
8. The electro-stimulation module of claim 7, wherein when the smooth convex portion of the electrode pad is supported on the smooth supporting convex portion of the first bump, the smooth supporting convex portion and the protective case are disposed at an interval in a thickness direction of the flexible support member to form the escape interval; or,
when the smooth protruding portion of the electrode plate is arranged in the first top hole of the first protruding portion, the smooth protruding portion and the protective shell are arranged at intervals in the thickness direction of the flexible support piece so as to form the avoidance interval.
9. The electro-stimulation module of claim 7, further comprising an elastic support body filled in the relief space, the elastic support body for elastically deforming in a thickness direction of the flexible support.
10. The electro-stimulation module of claim 7, wherein the flexible support further comprises a second ridge formed by the perimeter of the back skin aperture extending away from the skin proximal surface, the second ridge, first molding aperture forming the assembly cavity therebetween;
The protective housing includes nearly skin shell and back skin shell, back skin shell install in the medial surface of second bellied portion, nearly skin shell install in first annular convex part of first bellied portion and/or back skin shell.
11. The electro-stimulation module of claim 10, further comprising a support frame mounted to an inner annulus of the first annular protrusion, the support frame being disposed outside the skin proximal housing, a mounting gap being provided between the support frame and the skin proximal housing, a mounting skirt of the electrode pad being connected within the mounting gap;
the support frame is detachably connected with the skin-backing shell.
12. A massage belt comprising a flexible belt body and an electro-stimulation module according to any of claims 1-11, the electro-stimulation module being mounted on the flexible belt body.
CN202221892916.9U 2022-07-20 2022-07-20 Electric stimulation module and massage waistband Active CN220656200U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221892916.9U CN220656200U (en) 2022-07-20 2022-07-20 Electric stimulation module and massage waistband

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221892916.9U CN220656200U (en) 2022-07-20 2022-07-20 Electric stimulation module and massage waistband

Publications (1)

Publication Number Publication Date
CN220656200U true CN220656200U (en) 2024-03-26

Family

ID=90326955

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221892916.9U Active CN220656200U (en) 2022-07-20 2022-07-20 Electric stimulation module and massage waistband

Country Status (1)

Country Link
CN (1) CN220656200U (en)

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