CN216986075U - Waist massage device - Google Patents

Abstract

The application discloses waist massage equipment includes: a flexible carrier, a massage assembly and a flexible conductive member; the flexible bearing part is provided with insulation and is provided with a first surface and a second surface which are opposite; the massage component comprises a massage piece and a puncture piece, the massage piece is positioned on one side of the first surface of the flexible bearing piece, one end of the puncture piece is mechanically and electrically connected with the massage piece, and the other end of the puncture piece is provided with a sharp corner; the flexible conductive piece is located on the second surface, the puncture piece penetrates through the flexible bearing piece and the flexible conductive piece and is bent to form a bending part, the flexible conductive piece is clamped between the bending part and the flexible bearing piece, and the flexible conductive piece is electrically connected with the bending part. The application provides a waist massage equipment through set up the puncture piece on massage assembly, can be simply quick fixed with massage assembly. After the fixing is completed, the puncture piece is stably contacted with the flexible conductive piece, and the electric connection stability is stronger.

Description

Waist massage device

Technical Field

The application relates to the technical field of massage, in particular to waist massage equipment.

Background

With the growing concern of the public on the health problems, various massage devices are increasingly popular in the market as instruments for improving the sub-health condition of the body. Generally, a waist massage apparatus is widely popular as an apparatus for alleviating problems such as soreness of the waist. Generally, the waist massage device includes a massage component and a supporting body for supporting the massage component, a circuit structure is generally disposed on the supporting body, the massage component needs to be mounted on the supporting body and connected with the circuit structure, and the supporting body has functions of supporting and supplying power to the massage component.

However, in the current waist massage component, the massage component is generally fixed to the supporting body through the mounting base. Specifically, the massage part is located the outside of supporting body, and the bottom of massage part runs through behind supporting body and the circuit structure, is connected fixedly with the inside mounting base of supporting body to realize the electricity through mounting base and circuit structure contact and be connected.

During the assembly, the massage is located the outside of supporting body, and circuit structure and mounting base are located the inboard of supporting body, and the massage is not visual and be difficult to the accurate positioning with mounting base each other, and the assembly degree of difficulty that leads to the massage is great, and the electric connection of massage realizes the degree of difficulty and increases, simultaneously, has the fixed easy not hard up risk of being connected between massage and the mounting base, leads to the electric connection of massage unreliable very easily.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a waist massage equipment, simplifies the assembly degree of difficulty of massage subassembly, promotes the installation fixed strength of massage subassembly, ensures the electric connection stability of massage subassembly.

The application provides a waist massage device, includes: a flexible carrier having insulative properties, the flexible carrier having opposing first and second surfaces; the massage component comprises a massage piece and a puncture piece, the massage piece is positioned on one side of the first surface of the flexible bearing piece, one end of the puncture piece is mechanically and electrically connected with the massage piece, and the other end of the puncture piece is provided with a sharp corner; the flexible conductive piece is located on the second surface, the puncture piece penetrates through the flexible bearing piece and the flexible conductive piece and is bent to form a bending part, the flexible conductive piece is clamped between the bending part and the flexible bearing piece, and the flexible conductive piece is electrically connected with the bending part.

In some embodiments, a surface of the flexible conductive member facing away from the flexible carrier has a conductive portion, the piercing member penetrates through the conductive portion, and the bent portion is in contact electrical connection with the conductive portion and does not exceed a boundary of the conductive portion.

In some embodiments, the number of the puncturing parts is multiple, the outer shape of the conductive part is larger than the outer shape surrounded by the plurality of the puncturing parts, and the bending part is formed by bending the sharp corner towards the middle of the conductive part.

In some embodiments, the flexible conductive member includes a flexible substrate and a conductive portion disposed on the flexible substrate; the flexible substrate is a plastic film, the conductive part is a conductive coating attached to the plastic film, and the conductive part is positioned on one surface of the flexible substrate, which is far away from the flexible bearing piece; or the flexible substrate is an insulating fabric, and the conductive part is a conductive fabric connected to the flexible substrate; or the flexible substrate is a plastic film, the conductive part is a conductive fabric connected to the flexible substrate, and the conductive part is located on one surface of the flexible substrate, which is far away from the flexible bearing part.

In some embodiments, the massage member has an opening on a side facing the first surface, and a folded edge around the opening; the puncture piece is connected with a connecting ring, and the connecting ring extends into the massage piece from the opening and is clamped with the turned edge; the massage piece, the connecting ring and the puncture piece are all conductors.

In some embodiments, a plurality of said piercing members are fixedly attached to said massaging member; the massage part and the puncture part are both conductors.

In some embodiments, a plurality of said piercing elements are evenly distributed along the circumference of said connecting ring.

In some embodiments, the massage member is arched towards a side facing away from the first surface.

In some embodiments, the massage assembly includes a light emitting member, the number of piercing members being at least two; the flexible conductive member comprises a positive conductive region and a negative conductive region; the bent part of one of the puncture pieces is electrically connected with the positive conductive area, and the bent part of the other puncture piece is electrically connected with the negative conductive area.

In some embodiments, the lumbar massage device includes a plurality of the massage assemblies spaced apart on the flexible carrier.

In some embodiments, the flexible conductive member includes a flexible substrate and a plurality of conductive portions provided on the flexible substrate, the number of conductive portions corresponding to the number of massage assemblies.

In some embodiments, the massage assembly includes a first massage assembly and a second massage assembly, the massage elements of the first massage assembly are conductors and the massage elements of the second massage assembly are glowing elements.

In some embodiments, the lumbar massage device further comprises a flexible wearing body; the flexible wearing body is arranged on the second surface of the flexible bearing part and covers the flexible conductive part.

In this application, the piercing member is fixedly connected to the massage member to form a massage assembly, and the massage member provides a massage to the body, such that the massage member is positioned on the first surface side of the flexible carrier. The puncture member needs to be in contact with the flexible conductive member so that the massage member can be electrified to massage the human body smoothly. The puncture piece directly passes through the flexible bearing part and then is bent to form a bent part, and at the moment, the flexible conductive part is clamped between the bent part and the flexible bearing part, so that the puncture piece and the flexible conductive part can be electrically connected, and the step of fixing the massage assembly is completed. From top to bottom, the waist massage equipment that this application provided through set up the puncture piece on massage assembly, can accomplish massage assembly's fixed, can be simple quick fixed with massage assembly, fixed completion back, puncture piece and the stable contact of flexible electrically conductive piece, electric connection stability is stronger.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings required to be used in the embodiments will be briefly described below.

Fig. 1 is a schematic structural diagram of a waist massaging device according to an embodiment of the present application.

Fig. 2 is a schematic view of a split structure of the waist massaging device.

Fig. 3 is a schematic view showing a state in which the lancet is mounted.

Fig. 4 is a cross-sectional view C-C of fig. 3.

Fig. 5 is a cross-sectional view taken along line D-D of fig. 3.

Fig. 6 is a schematic structural view of the electric stimulation massage assembly shown in fig. 2.

Fig. 7 is a schematic structural view of another view angle of the electrical stimulation massage assembly shown in fig. 2.

Fig. 8 is a sectional view a-a of fig. 7.

Fig. 9 is a partially enlarged view of fig. 8.

Fig. 10 is a schematic view of the laser massage assembly of fig. 2.

Fig. 11 is a schematic view of the laser massage assembly of fig. 2 from another perspective.

Fig. 12 is a sectional view taken along line B-B of fig. 11.

Fig. 13 is a schematic structural diagram of a flexible conductive device according to an embodiment of the present application.

Fig. 14 is a schematic view of a flexible conductive device according to another embodiment of the present application.

Fig. 15 is a schematic view of a flexible conductive device according to yet another embodiment of the present application.

Fig. 16 is a schematic structural diagram of a flexible conductive device according to still another embodiment of the present application.

Fig. 17 is a schematic structural view of a waist massaging device provided in another embodiment of the present application.

Description of reference numerals: 100-flexible conductive piece, 10-flexible substrate, 11-cloth, 12-plastic film, 20-massage component, 21-massage component, 211-opening, 212-flanging, 22-puncture component, 221-bending part, 23-connecting ring, 231-annular connecting part, 232-hooking part, 233-top wall surface, 234-end wall, 235-inner wall surface, 30-conductive part, 31-conductive knitting line, 32-conductive coating, 33-conductive knitting belt, 40-electrical stimulation massage component, 50-laser massage component, 51-light-transmitting area, 60-flexible wearing body and 70-flexible bearing piece.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

As shown in fig. 1 and 2, fig. 1 is a schematic structural diagram of a waist massage device provided in an embodiment of the present application; fig. 2 is a schematic view of a split structure of the waist massaging device shown in fig. 1. The embodiment of the present application provides a lumbar massage device comprising a flexible carrier 70, a massage assembly 20, and a flexible conductive member 100. Wherein flexible carrier 70 is the slice, when wearing at human waist, this flexible carrier 70 can play the effect of the flexible conductive piece 100 of protection, promotes factor of safety. The flexible carrier 70 has a first surface facing the human body and a second surface facing away from the human body.

The massage assembly 20, which is a component to provide a massage to the body, is disposed on the first surface of the flexible carrier 70 to facilitate contact of the massage assembly 20 with or as close to the body as possible to enhance the massage effect. The flexible conductive member 100 is isolated from the human body by the flexible carrier 70, thereby increasing the safety factor.

With reference to fig. 3 to 8, and in conjunction with fig. 1 and 2, the following describes how the massage assembly 20 provided by the embodiment of the present application is connected to the flexible conductive member 100: wherein the flexible carrier 70 has an insulative property, and the flexible carrier 70 has a first surface and a second surface opposite to each other. The massage assembly 20 comprises a massage member 21 and a puncturing member 22, the massage member 21 is located on one side of the first surface of the flexible bearing member 70, one end of the puncturing member 22 is mechanically and electrically connected with the massage member 21, and the other end of the puncturing member 22 has a sharp corner. The flexible conductive member 100 is located on the second surface, a sharp corner of the puncture element 22 penetrates through the flexible carrier 70 and the flexible conductive member 100 and is bent to form a bent portion 221, the flexible conductive member 100 is sandwiched between the bent portion 221 and the flexible carrier, and the flexible conductive member 100 is electrically connected to the bent portion 221. It will be appreciated that the piercing member 22 needs to have electrical conductivity.

The massage members 21 provide a massage to the body, so that the massage members 21 are located at the side of the first surface of the flexible carrier 70. The piercing member 22 is required to contact the flexible conductive member 100 so that the massaging member 21 can be electrified to massage the human body smoothly. The sharp corner of piercing member 22 passes directly through flexible carrier 70 and is then bent to form bend 221, thereby completing the electrical and mechanical connection with flexible conductive member 100.

As can be seen from the above, the sharp corner of the puncturing element 22 punctures and bends to form the bending portion 221 by providing the puncturing element 22, so as to complete the fixation of the massage assembly 20, and the massage assembly 20 can be fixed simply and rapidly. After the fixation is completed, the piercing member 22 is stably contacted with the flexible conductive member 100, and the electrical connection stability is strong.

It is understood that the waist massage apparatus further comprises a flexible wearing body 60, the flexible wearing body 60 is in a sheet shape and is stacked with the flexible carrier 70, when the waist massage apparatus is worn on the waist of the human body, the flexible wearing body 60 faces away from the human body, and the flexible conductive element 100 is covered by the flexible wearing body 60 and is not exposed. It is understood that the flexible wearing body 60 is provided with a control box (not shown) electrically connected to the flexible conductive member 100. The massage assembly 20 is electrically connected to a control box (not shown) via the flexible conductive member 100 for normal operation, so as to smoothly obtain electricity to provide massage to the human body; the control box (not shown) and the flexible bearing member 70 are respectively located at two sides of the flexible wearing body 60, when wearing, one side of the flexible bearing member 70 faces the human body, and one side of the control box (not shown) faces away from the human body, so that the massage assembly 20 can be smoothly powered, and the control box (not shown) can be prevented from interfering with the massage assembly 20. The flexible wearing body 60 may be made of cloth, and the whole area of the flexible wearing body 60 is larger than that of the flexible bearing member 70, so as to protect the whole flexible bearing member 70.

For example, one surface of the flexible conductive member 100 facing away from the flexible substrate 10 has a conductive portion 30, the piercing member 22 penetrates through the conductive portion 30, the bent portion 221 forms a contact electrical connection with the conductive portion 30, and the bent portion 221 does not exceed the boundary of the conductive portion 30. Thereby, the massage member 21 is electrically connected to the control box (not shown) through the piercing member 22 and the conductive portion 30 of the flexible conductive member 100, so that electricity can be smoothly obtained. The bending part 221 is not beyond the boundary of the conductive part 30, so that the contact area between the puncturing part 22 and the flexible conductive member 100 can be increased, and the stability of the electrical connection can be ensured.

Specifically, the outline surrounded by the plurality of puncturing elements 22 may be circular, square, triangular, or the like, and no matter what shape the outline surrounded by the puncturing elements 22 is, the outline of the conductive portion 30 may be the same as the outline surrounded by the puncturing elements 22, and the outline of the conductive portion 30 is slightly larger than the outline surrounded by the puncturing elements 22, and the bending portion 221 may be formed by bending a sharp angle toward the middle of the conductive portion 30, so that the bending portion 221 is ensured not to exceed the boundary of the conductive portion 30.

The number of the conductive parts 30 is matched with the number of the massage parts 20, and the flexible conductive part 100 is further provided with a connecting circuit for connecting the conductive parts 30, so that the conductive parts 30 are communicated with a power supply or a driving circuit of the waist massage instrument.

It will be appreciated that the puncturers 22 extend along the height of the massage assembly 20, such that when the massage assembly 20 is coupled to the flexible carrier 70, the puncturers 22 can pierce the flexible carrier 70 perpendicular to the first surface of the flexible carrier 70, which angle makes it easier to pierce the flexible carrier 70.

In some embodiments, the puncturers 22 and the massage members 21 can be integrally formed, thereby increasing the structural strength of the massage assembly 20.

In other embodiments, the puncturing element 22 can be formed separately from the massaging element 21, and then the puncturing element 22 can be fixed to the massaging element 21. Therefore, the massage component 21 and the piercing component 22 can be maintained separately, for example, when the massage component 21 is deformed and damaged, the massage component 21 can be detached from the piercing component 22, and then another massage component 21 is replaced, when the massage component 21 is replaced, the contact stability between the piercing component 22 and the flexible conductive member 100 is not changed, and the replaced massage component 20 still has strong electrical connection stability.

Specifically, the massage component 21 has an opening 211 at a side facing the first surface, and a folded edge 212 around the opening 211; the puncture part 22 is connected with a connecting ring 23, and the connecting ring 23 extends into the massage part 21 from the opening 211 and is clamped with the flanging edge 212. That is, in the massage unit 20 formed as a separate body, the connection ring 23 is engaged with the turned-over edge 212, so that the puncturing member 22 and the massage member 21 are fixed. The structure is simple, easy to process and easy to assemble. It will be appreciated that the massaging element 21, the coupling ring 23 and the piercing element 22 are conductors.

In some embodiments, a single piercing member 22 may be provided to complete the attachment and electrical connection of the massage assembly 20, and the massage assembly 20 with a single piercing member 22 may be simple, easy to manufacture, and relatively inexpensive.

In other embodiments, in order to increase the reliability of the fixation of the massage assembly 20 and enhance the stability of the electrical connection, the massage member 21 may be fixedly connected to a plurality of the piercing members 22; a connecting ring 23 is connected with a plurality of the puncture members 22; the plurality of puncturing members 22 are fixed to the massaging member 21 through the connection ring 23. Here, a plurality means more than two. A plurality of piercing elements 22 are provided and each of the plurality of piercing elements 22 is connected to a connection ring 23. Specifically, the plurality of puncture elements 22 and the connecting ring 23 can be integrally formed, so that when the massage assembly 20 is assembled, all the puncture elements 22 and the massage elements 21 can be fixed only by clamping the connecting ring 23 and the flanging edge 212, the assembling steps are simplified, the operation convenience is improved, and the operation time is saved.

Referring to fig. 9 in conjunction with fig. 6-8, fig. 9 is an enlarged view of a portion of fig. 8. The connection ring 23 is annular, the cross section of the connection ring 23 along the height direction of the massage assembly 20 is in the shape of a hook, the connection ring 23 includes an annular connection portion 231 and a hooking and locking portion 232, the puncturing element 22 is connected to one side of the annular connection portion 231, the hooking and locking portion 232 is connected to the other side of the annular connection portion 231, that is, the annular connection portion 231 is located between the puncturing element 22 and the hooking and locking portion 232, and the included angle between the hooking and locking portion 232 and the puncturing element 22 is an acute angle. After the connection ring 23 is connected to the massage member 21, the puncturing member 22 extends along the height direction of the massage unit 20, the hooking portion 232 extends obliquely downward along the annular connection portion 231 in a flanged shape, the top wall surface 233 of the hooking portion 232 abuts against the inner wall surface 235 of the cavity of the massage member 21, and the end wall 234 of the hooking portion 232 away from the annular connection portion 231 abuts against the flanged edge 212, so that the massage member 21 and the puncturing member 22 are reliably connected.

The hooking portions 232 may be provided in plural numbers, and the plurality of hooking portions 232 are uniformly distributed along the circumferential direction of the annular connecting portion 231, so that the abutting positions of the hooking portions 232 and the turned edges 212 are uniformly distributed, thereby increasing the connection stability of the massage member 21 and the puncturing member 22. The hooking portion 232 may also be a ring-shaped hooking portion integrally connected to the ring-shaped connecting portion 231 in the circumferential direction, so as to increase the structural strength of the connection ring 23 and to make the connection stability of the connection ring 23 and the massage member 21 stronger.

Illustratively, the piercing elements 22 are distributed uniformly along the circumference of the connection ring 23. The connecting ring 23 is annular, so that the puncture parts 22 are uniformly distributed along the circumferential direction of the connecting ring 23, the stress of the massage part 21 in all directions can be balanced, and the connection reliability is higher. Even if the positions of the massage assembly 20 and the flexible conductive member 100 are slightly deviated, at least a portion of the piercing member 22 may contact the flexible conductive member 100, thereby ensuring the stability of the electrical connection between the massage member 21 and the flexible conductive member 100.

Specifically, the number of the piercing members 22 may be 12, and the adjacent piercing members 22 are spaced apart by 30 degrees. The number of the puncture elements 22 is 12, which not only can enhance the connection strength of the massage assembly 20, but also can prevent the structure of the massage assembly 20 from being complicated caused by the excessive number of the puncture elements 22.

Illustratively, the flexible conductive device 100 includes a flexible substrate 10 and a plurality of conductive portions 30 disposed on the flexible substrate 10, wherein the number of the conductive portions 30 corresponds to the number of the massage assemblies 20. Specifically, the number of the conductive portions 30 and the number of the massage members 20 may correspond one to one; alternatively, a plurality of massage assemblies 20 may share a single conductive portion 30, for example, a plurality of massage assemblies 20 to which positive electrodes are connected may share a single conductive portion 30; alternatively, a massage assembly 20 may be connected to a plurality of conductive portions 30, for example, a massage assembly 20 may be connected to a conductive portion 30 connected to the positive pole of a power source and to a conductive portion 30 connected to the negative pole of a power source.

In some embodiments, referring to fig. 6-9, the piercing member 22 is connected to the massaging member 21 at an end having a width greater than a width across the first and second surfaces. With reference to the orientation of the figures, the piercing elements 22 are shaped to be wide at the top and narrow at the bottom, which facilitates the piercing elements 22 to penetrate the flexible substrate 10, thereby improving the efficiency of the mounting of the massage assembly 20.

For example, the cross section of the puncturing element 22 along the height direction of the massaging assembly 20 can be triangular or trapezoidal, etc. to meet the requirement that the puncturing element 22 is wide at the top and narrow at the bottom, and the puncturing element 22 with the triangular or trapezoidal cross section has a simple structure and is easy to process.

In some embodiments, referring to fig. 6 to 9, the number of the massage assemblies 20 may be plural, a plurality of the massage assemblies 20 are distributed on the flexible carrier 70 at intervals, and the plural massage assemblies 20 respectively correspond to different parts of the waist of the human body, so as to better provide massage for the human body. Specifically, the plurality of massage assemblies 20 may include a first massage assembly 20 and/or a second massage assembly 20, wherein the first massage assembly 20 may be a conductor, the second massage assembly 20 may be a light emitting member, wherein the conductor may be an electrical stimulation massage assembly 40, and the light emitting member may be a laser massage assembly 50. That is, the massage assembly 20 may be an electro-stimulation massage assembly 40; or may be a laser massage assembly 50; or may include a portion of the electro-stimulation massage assembly 40 and a portion of the laser massage assembly 50.

Referring to fig. 6 to 9, when the massage assembly 20 is the electrical stimulation massage assembly 40, a part of the electrical stimulation massage assembly 40 is connected to the positive electrode of the power supply, and another part of the electrical stimulation massage assembly 40 is connected to the negative electrode of the power supply, so that when the flexible wearable main body wears the waist of the human body, the electrical stimulation massage assembly 40 contacts with the human body, and with the human body as a conductor, the electrical stimulation massage assembly 40 connected to the positive electrode and the electrical stimulation massage assembly 40 connected to the negative electrode form a loop, thereby providing massage for the human body.

Referring to fig. 6 to 9, a plurality of electric stimulation massage assemblies 40 are correspondingly provided with a plurality of conductive parts 30, and the plurality of conductive parts 30 may be connected in series. Of course, a part of the electric stimulation massage assemblies 40 need to be connected with the positive electrode of the power supply through a part of the conductive part 30, and another part of the electric stimulation massage assemblies 40 need to be connected with the negative electrode of the power supply through another part of the conductive part 30, so that the part of the conductive part 30 needing to be connected with the positive electrode of the power supply can be connected in series, the other part of the conductive part 30 needing to be connected with the negative electrode of the power supply is also connected in series, but the conductive parts 30 connecting the positive electrode of the power supply and the negative electrode of the power supply are separated from each other to avoid mutual interference.

The side of the massage element 21 of the electrostimulation massage assembly 40 facing away from the flexible substrate 10 is a convex arc-shaped surface, and the shape of the whole massage element 21 may be similar to the shape of a go piece, by analogy. The side of the massage element 21 of the electric stimulation massage assembly 40, which faces away from the flexible substrate 10, is in an arc shape with a high middle part and a low periphery. Thereby, the electric stimulation massage assembly 40 can be brought into better contact with the human body.

Referring to fig. 10-12, fig. 10 is a schematic structural view of the laser massage assembly 20 of fig. 2; FIG. 11 is a schematic view of the laser massage assembly 20 of FIG. 2 from another perspective; fig. 12 is a sectional view B-B of fig. 11. When the massage assembly 20 is the laser massage assembly 50, the laser massage assembly 50 emits laser toward the human body to improve the health condition of the waist of the human body during actual massage, so that the laser massage assembly 50 may or may not contact the human body. Because the laser massage assembly 50 is not in contact with the human body, and the human body cannot be used as a conductor to form a power supply loop with other laser massage assemblies 50, the laser massage assembly 50 at least needs two puncture pieces 22, wherein one puncture piece 22 needs to be connected with the positive pole of a power supply, the other puncture piece 22 needs to be connected with the negative pole of the power supply, and the two puncture pieces 22 can form a loop, so that the laser massage assembly 50 can be successfully electrified, and can work normally. Accordingly, the flexible conductive device 100 corresponding to the laser massage assembly 50 needs to be divided into a positive conductive region and a negative conductive region, wherein the positive conductive region and the negative conductive region have a separation part therebetween, so that the positive conductive region and the negative conductive region cannot be electrically conducted, and the separation part may be a part of the flexible substrate 10. The positive conductive region is connected with the positive pole of the power supply, and the negative conductive region is connected with the negative pole of the power supply, so that one of the puncture pieces 22 of the laser massage assembly 50 is bent and then pressed on the positive conductive region, and the other puncture piece 22 is bent and then pressed on the negative conductive region, and thus the electric connection of the laser massage assembly 50 can be realized.

Illustratively, the laser massage assembly 50 is provided with a light-transmitting region 51 on a side facing away from the first surface. That is, the waist massage device is worn behind the waist of the human body, and the light transmission region 51 faces the waist of the human body, so that the laser emitted by the laser massage component 50 can act on the human body, thereby achieving the effect of laser massage.

Illustratively, a plurality of light-transmitting areas 51 can be arranged on the laser massage assembly 50, and the plurality of light-transmitting areas 51 correspond to different parts of the waist of the human body, so that the massage area can be increased, and the massage effect can be improved. The figure shows that the laser massage component 50 is provided with two light-transmitting areas 51, and the two light-transmitting areas 51 can massage two different parts of the waist of a human body, so that the massage effect can be improved.

In the case where the massage assembly 20 includes both the electrostimulation massage assembly 40 and the laser massage assembly 50, the massage member 21 of the electrostimulation massage assembly 40 is arched away from the first surface, and the laser massage assembly 50 is convex away from the first surface; the height h2 of the laser massage assembly 50 is less than or equal to the height h1 of the electro-stimulation massage assembly 40. Because the electrical stimulation massage component 40 needs to be in contact with the human body to form a loop, the electrical stimulation massage component 40 is electrified to provide electrical stimulation, and the laser massage component 50 can be in contact with the human body or not, the electrical stimulation massage component 40 is arranged to be higher than or equal to the height of the laser massage component 50, so that the electrical stimulation massage component 40 can be attached to the human body.

Specifically, the outer contour of the electrical stimulation massage assembly 40 is circular, the diameter a1 of the outer contour is 10 mm to 30 mm, the height h1 of the massage piece 21 of the electrical stimulation massage assembly 40 is 3 mm to 6 mm, and the wall thickness b of the massage piece 21 is 0.1 mm to 1 mm. The electric stimulation massage component 40 with the size can be conveniently processed, and can be in good contact with a human body to better provide massage for the human body.

The outer contour of the laser massage assembly 50 is waist-shaped, the length a2 of the outer contour is between 8 mm and 30 mm, and the height h2 of the massage component 21 of the laser massage assembly 50 can be between 3 mm and 6 mm, but can not exceed the height of the electric stimulation massage assembly 40 at most, so as to prevent the laser massage assembly 50 from influencing the contact of the electric stimulation massage assembly 40 and the human body.

Illustratively, the flexible conductive device 100 includes a flexible substrate 10 and a conductive portion 30 disposed on the flexible substrate 10.

Wherein the flexible substrate 10 may be a plastic film or an insulating fabric. The plastic film may in particular be made of TPU (thermoplastic polyurethane elastomers). The TPU has good flexibility and elasticity, and can adapt to bending and stretching, so that the whole softness of the flexible substrate 10 is better, and the wearing comfort is good. The insulating fabric can be specifically woven by a plurality of insulating knitting lines, and the flexible substrate 10 made of the insulating fabric is high in electric connection structure stability, convenient to needle and breathable and simple to assemble. The insulating threads can be made of cloth 11, for example. The fabric 11 may be a breathable fabric or a skin-friendly fabric. The skin-friendly fabric can be cotton cloth and the like, is good in softness and comfortable when being worn. The breathable fabric can be specifically shaped yarns and the like, the breathable fabric is good in breathability, and skin problems are caused due to the fact that a human body sweats in a large quantity when wearing the waist massage equipment.

It should be understood that the conductive portion 30 has a certain flexibility to match the flexible deformation of the flexible substrate 10, can accommodate bending and bending, does not break due to bending and bending, and can maintain good conductive performance in case of bending or bending. Therefore, the conductive part 30 can be a conductive coating 32 attached to the flexible substrate 10, or a conductive fabric connected to the flexible substrate 10, and the conductive fabric is located on a side of the flexible substrate 10 facing away from the flexible carrier, so that the conductive fabric can be prevented from contacting a human body, and the safety in use is high. The conductive coating 32 may be a silver paste coating, a zinc coating, an aluminum coating, or the like, and the conductive coating is attached to the flexible substrate 10, so that the connectivity is stable. The conductive fabric may be fixed on the flexible substrate 10 by weaving, embroidering or sewing a plurality of conductive threads 31. The conductive weaving line 31 has good flexible deformation capacity, when the waist massage equipment is worn on a human body and the flexible base body 10 bends along with the human body structure, the conductive weaving line 31 can adapt to bending and bending, so that the electric connection stability can be improved, and the conductive weaving line 31 is prevented from being broken.

Several more specific embodiments of flexible conductive member 100 are detailed below.

Referring to fig. 13, fig. 13 is a schematic structural diagram of a flexible conductive device according to an embodiment of the present application. In this embodiment, the conductive part 30 formed by the plurality of conductive knitting lines 31 may be matched with the flexible substrate 10 of the fabric 11 type, so that the conductive part 30 and the flexible substrate 10 are integrated, the connection stability is strong, and since the conductive knitting lines 31 and the fabric 11 are both fabrics, the flexibility and the integrity are good, the electric connection stability is ensured, and the wearing comfort is improved.

In other embodiments, referring to fig. 14, fig. 14 is a schematic structural diagram of a flexible conductive member according to another embodiment of the present application. In this embodiment, the conductive part 30 includes a plurality of conductive threads 31, the flexible substrate 10 may be a plastic film 12, and the plurality of conductive threads 31 may be pre-woven into a conductive woven tape 33, and then the woven conductive woven tape 33 is fixed to the plastic film 12 by a hot pressing method.

In the above embodiment, the conductive threads 31 may be formed in the following ways:

the first method comprises the following steps: the fiber matrix is soaked in the conductive metal liquid to form a conductive fiber matrix, and then the conductive fiber matrix is made into a conductive weaving line 31, wherein the conductive metal liquid can be silver paste and other liquids. And the second method comprises the following steps: the spinning solution and the conductive metal liquid are mixed into a raw material, and then the mixed raw material is processed into the conductive knitting yarn 31. And the third is that: the conductive threads 31 are coated with a conductive coating 32. And fourthly: and soaking the manufactured weaving lines in conductive metal liquid to form conductive weaving lines 31, wherein the conductive metal liquid can be silver paste, zinc liquid or aluminum liquid and the like.

In still other embodiments, the conductive fabric comprises a conductive braid 33. The conductive braid 33 may be formed in several ways: the first method comprises the following steps: soaking the fiber matrix in conductive metal liquid to form a conductive fiber matrix, and manufacturing the conductive fiber matrix into a conductive braided belt 33; and the second method comprises the following steps: and soaking the manufactured braided belt in conductive metal liquid to form the conductive braided belt 33.

Referring to fig. 15, fig. 15 is a schematic structural diagram of a flexible conductive device according to still another embodiment of the present application. In this embodiment, the conductive braided strap 33 may be fixed to the flexible substrate 10 of the cloth 11 type by heat pressing, bonding, or sewing, etc., without limitation. The bonding or hot pressing mode is adopted, the process is simple, and the processing is more convenient; and the fixing reliability is higher by adopting a sewing mode.

The conductive braid 33 may also be fixed to the flexible substrate 10 in the form of a plastic film 12 by means of adhesive or heat pressing or the like. And a bonding or hot pressing mode is adopted, so that the process is simple and the processing is convenient.

It will be appreciated by those skilled in the art that the conductive portions 30, when embroidered, will be distributed predominantly on one side of the flexible substrate 10, with only a small portion likely to penetrate to the other side. When the conductive part 30 is adhesively fixed, the conductive part 30 is entirely located on one surface of the flexible substrate 10 and does not penetrate to the other surface. Thus, the side of the flexible substrate 10 facing away from the conductive portion 30 means: a surface deviating from the main fabric surface of the conductive portion 30 when the conductive portion 30 is embroidered; when the conductive portion 30 is fixed by bonding, the surface is away from the surface on which the conductive portion 30 is located.

Referring to fig. 16, fig. 16 is a schematic structural diagram of a flexible substrate 10 according to still another embodiment of the present application. In yet another embodiment, the conductive portion 30 may be a conductive coating 32 formed on the flexible substrate 10. The conductive coating 32 is directly coated on the flexible substrate 10, the conductive coating 32 has good stability and is not easy to translocate or fall off, and moreover, the conductive part 30 is formed by the conductive coating 32, so that the conductive part has strong electric connection stability and is not easy to break or fall off during bending.

The conductive coating 32 may be fixed to the TPU-type flexible substrate 10, and specifically the conductive coating 32 may be coated on the TPU. It can be understood that the conductive portions 30 to be connected in series can be integrally formed by using the same material as the conductive portions 30, thereby improving the manufacturing efficiency.

Therefore, when the conductive parts 30 are coated, the connection parts of the serial conductive parts 30 can be coated at the same time. It will be appreciated that the conductive portion 30 needs to be in contact with the piercing member 22 and therefore the portion of the conductive coating 32 needs to be exposed outside the TPU, while the connection to the series conductive coating 32 may be hidden inside the TPU. Taking the conductive coating 32 as a silver paste coating as an example, because the melting point of the TPU is far lower than that of silver, the conductive coating can be manufactured by a layered casting method, firstly, a layer of TPU is coated with silver paste, and after the silver paste is cooled and formed, a layer of TPU with an opening and a gentle edge is poured, so that the silver paste coating is partially exposed and partially hidden. Therefore, the normal connection of the massage component 20 can be ensured, the conductive coating 32 can be prevented from being exposed and worn, the conductive coating 32 can be prevented from being oxidized and losing conductivity, and the service life is prolonged.

Referring to fig. 17, fig. 17 is a schematic structural view of a waist massaging device according to another embodiment of the present application. In yet another embodiment, the lumbar massage device is not provided with the flexible carrier 70 and the flexible substrate 10 may be made of cloth, thereby saving material and reducing costs.

The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and embodiments of the present application, and the description of the embodiments may be used to help understand the methods and their core ideas of the present application.

Claims (13)

1. A waist massaging device, comprising:

a flexible carrier having insulative properties, the flexible carrier having opposing first and second surfaces;

the massage component comprises a massage piece and a puncture piece, the massage piece is positioned on one side of the first surface of the flexible bearing piece, one end of the puncture piece is mechanically and electrically connected with the massage piece, and the other end of the puncture piece is provided with a sharp corner;

the flexible conductive piece is located on the second surface, the sharp corner of the puncture piece penetrates through the flexible bearing piece and the flexible conductive piece and is bent to form a bending part, the flexible conductive piece is clamped between the bending part and the flexible bearing piece, and the flexible conductive piece is electrically connected with the bending part.

2. The waist massaging device according to claim 1, wherein a face of the flexible conductive member facing away from the flexible carrier has a conductive portion through which the piercing member passes, and the bent portion is in contact electrical connection with the conductive portion and does not exceed a boundary of the conductive portion.

3. The waist massaging device according to claim 2, wherein said plurality of piercing members are provided, an outer shape of said conductive portion is larger than an outer shape defined by said plurality of piercing members, and said bent portion is formed by bending said sharp corner toward a middle portion of said conductive portion.

4. The waist massaging device according to claim 1, wherein the flexible electrically conductive member comprises a flexible base and an electrically conductive portion provided on the flexible base;

the flexible substrate is a plastic film, the conductive part is a conductive coating attached to the plastic film, and the conductive part is positioned on one surface of the flexible substrate, which is deviated from the flexible bearing piece;

or the flexible substrate is an insulating fabric, and the conductive part is a conductive fabric connected to the flexible substrate;

or the flexible substrate is a plastic film, the conductive part is a conductive fabric connected to the flexible substrate, and the conductive part is located on one surface of the flexible substrate, which is far away from the flexible bearing part.

5. The waist massaging device according to claim 1, wherein the massaging member has an opening on a side facing the first surface, and a folded edge around the opening; the puncture piece is connected with a connecting ring, and the connecting ring extends into the massage piece from the opening and is clamped with the turned edge;

the massage piece, the connecting ring and the puncture piece are conductors.

6. The waist massaging device according to claim 1, wherein a plurality of said piercing members are fixedly connected to said massaging member;

the massage part and the puncture part are both conductors.

7. The waist massaging device of claim 6, wherein the plurality of piercing elements are evenly distributed along the circumference of the attachment ring.

8. The lumbar massage apparatus of claim 1 wherein said massage member is arched toward a side facing away from said first surface.

9. The waist massaging device of claim 1, wherein the massaging assembly comprises a light emitting member, the number of piercing members being at least two;

the flexible conductive member comprises a positive conductive region and a negative conductive region; the bent part of one of the puncture pieces is electrically connected with the positive conductive area, and the bent part of the other puncture piece is electrically connected with the negative conductive area.

10. The lumbar massage device of claim 1 including a plurality of said massage assemblies spaced apart on said flexible carrier.

11. The waist massaging device of claim 10, wherein the flexible conductive member comprises a flexible substrate and a plurality of conductive portions provided on the flexible substrate, the number of conductive portions corresponding to the number of massaging assemblies.

12. The lumbar massaging device of claim 1, wherein the massaging assembly comprises a first massaging assembly and a second massaging assembly, the massaging elements of the first massaging assembly being conductors and the massaging elements of the second massaging assembly being glowing elements.

13. The waist massaging device according to any one of claims 1 to 12, characterized in that the waist massaging device further comprises a flexible wearing body; the flexible wearing body is arranged on the second surface of the flexible bearing part and covers the flexible conductive part.

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