CN215995290U - Pulse physiotherapy structure and wearable device - Google Patents

Abstract

The utility model discloses a pulse physiotherapy structure, which comprises: the electrode fabric layer is arranged on one side close to the skin of the human body and used for converting the current into an expected micro-electric pulse; the wiring fabric layer is arranged on one side away from the skin of the human body and used for transmitting current as required; and the rivet assembly is used for conducting the electrode fabric layer and the wiring fabric layer. The utility model also discloses a pulse physiotherapy wearable device, which is made of the pulse physiotherapy structure and is used for making clothes such as coats, trousers, socks, hats or gloves. Compared with the prior art, the pulse physiotherapy wearable device has the advantages that the pulse physiotherapy wearable device is attached to a human body, good pulse physiotherapy effect and strong size adaptability can be conveniently obtained, and the pulse physiotherapy wearable device is flexible in shape and system, comfortable to wear and the like.

Description

Pulse physiotherapy structure and wearable device

Technical Field

The utility model belongs to the technical field of wearable equipment manufacturing, and particularly relates to a physiotherapy device.

Background

The electric pulse physical therapy method can simulate the Chinese medical techniques of pressing, rubbing, pushing, holding, rubbing and the like, and stimulate the preset part of the human body by micro electric pulses, thereby realizing the stimulation of human tissues such as skin, muscle, nerve, blood vessel and the like at the appointed position of the human body, and finally achieving the human health auxiliary effects of improving metabolism, relaxing muscle, improving the body fluid environment of the human body, promoting the blood circulation of the human body, dredging the channels and collaterals and the like.

Wearable devices for electrical pulse physiotherapy are mainstream devices applying electrical pulse physiotherapy methods, for example, a wearable device for providing electrical pulses and a control method thereof are disclosed in chinese patent application No. CN202010398612.6, and a wearable low-frequency pulse therapy device and a control method thereof are disclosed in chinese patent application No. CN 201610642969.8.

It should be noted that the wearable electric pulse physiotherapy apparatus proposed in the prior art generally has the problems of high technical solution implementation difficulty, high manufacturing cost, low product suitability, inconvenient use, etc., and the wearable low-frequency pulse therapy apparatus proposed in the above-mentioned patent application document "a wearable low-frequency pulse therapy apparatus and a control method thereof" has the idea that although the control module outputs pulses to a part to be treated through the electrode sheet "is proposed, how to arrange the control module and the electrode sheet can be adapted to different human bodies and how to make the technical solution achieve the" wearable "effect is not described in the above-mentioned patent application document. Therefore, on the basis of the conception of the existing electric pulse physiotherapy method, how to solve the technical problem that the wearable electric pulse physiotherapy device is high in implementation difficulty, the device is more convenient to manufacture, can be adapted to different human body types, obtains better using effect, and is urgently needed to be solved by technical personnel in the field.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a pulse physiotherapy structure, which is arranged in a layered combination manner, so as to solve the problems of high implementation difficulty and difficulty in manufacturing of the pulse physiotherapy structure in the prior art.

Another object of the present invention is to provide a wearable device for pulse physiotherapy, which is implemented as underwear, is convenient to use, and can be widely used in daily life of people to assist in physiotherapy and exercise of the wearer, thereby achieving a good effect.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

an impulse physiotherapy structure, comprising: the electrode fabric layer is arranged on one side close to the skin of the human body and used for converting the current into an expected micro-electric pulse; the wiring fabric layer is arranged on one side away from the skin of the human body and used for transmitting current as required; and the rivet assembly is used for conducting the electrode fabric layer and the wiring fabric layer.

Further, the electrode fabric layer comprises a first fabric and at least one flexible electrode sheet; all flexible electrode pieces all set up on one side surface of first surface fabric, and flexible electrode piece corresponds the setting with human tissue, and each flexible electrode piece all is fixed with first surface fabric and bonds.

Furthermore, the electrode fabric layer also comprises a second fabric; the second fabric covers the flexible electrode sheet.

Furthermore, the wiring fabric layer comprises a third fabric, an electrode interface and at least one connecting wire; the third fabric is arranged on one side, away from the flexible electrode plate, of the first fabric, the electrode interface is arranged on one side, away from the first fabric, of the third fabric, and the electrode interface is fixed with the third fabric; the connecting wires correspond flexible electrode plates and are laid in a gap between the first fabric and the third fabric, one end of each connecting wire is connected with the rivet component or the electrode interface, and the other end of each connecting wire is connected with the electrode interface or the rivet component.

Furthermore, the rivet components are arranged in one-to-one correspondence with the flexible electrode plates, and each rivet component comprises a collision nail, an electrode insulating film and a connecting wire insulating film; the collision nails penetrate through the first fabric, one ends of the collision nails are connected with the corresponding flexible electrode plates and are mutually conducted, and the other ends of the collision nails are connected with the corresponding connecting lines and are mutually conducted; the electrode insulating film covers the flexible electrode sheet, and the electrode insulating film is fixed with the collision nail; the connecting insulating film is arranged on one side of the connecting line, which is far away from the first fabric, covers the connecting part of the corresponding connecting line and the collision nail, and is fixed with the collision nail.

Compared with the prior art, the pulse physiotherapy structure that this application provided has following difference technical effect:

easy to manufacture: in the technical scheme that this application provided, electrode precoat and wiring precoat separately set up, and during the manufacturing, the two can independently make: on one hand, the flexible electrode slice is fixed on the first fabric through a hot pressing process or other bonding processes to be manufactured to obtain an electrode fabric layer, on the other hand, the connecting line is laid on the third fabric through knitting sewing or other bonding processes, the two fabric layers are correspondingly overlapped, the rivet component is penetrated through by the riveting machine, so that the flexible electrode slice and the connecting line are conducted through the impact nail, complete manufacturing can be achieved, the whole manufacturing process is very simple, and implementation is easy.

The structure is stable and reliable: the application provides a pulse physiotherapy structure combines flexible electrode piece and the surface fabric that corresponds respectively, uses the rivet technology to connect the two, can establish firm electric current passageway in that the structure is inside, guarantees that whole structure keeps normal work in the course of the work, obtains anticipated pulse excitation effect.

The application also provides a wearable device for pulse physiotherapy, which is made of the pulse physiotherapy structure and is made into clothes such as coats, trousers, socks, hats or gloves.

Compare in prior art, the pulse physiotherapy wearing formula device that this application provided's advantage lies in:

the human body of laminating can conveniently gain good pulse physiotherapy effect: the wearable device is manufactured by adopting the pulse physiotherapy structure provided by the above, when the wearable device is manufactured, the first fabric, the second fabric, the third fabric and the like are made of materials with good elasticity, the flexible electrode plates with corresponding positions and quantity are arranged corresponding to different parts of a human body, the wearable device is tailored to the human body according to the corresponding wiring of the flexible electrode plates and manufactured into clothes such as coats, trousers, socks, hats or gloves, a wearer wears the wearable device close to the skin, the wearable device can obtain close-fitting micro-electrical pulses on the flexible electrode plates by connecting the electrode interfaces with an external control host, and the wearable effect is very good.

Strong body type adaptability and flexible form and system: on the one hand, adopt flexible electrode slice in this application, human skin of can fully laminating, on the other hand, connecting wire and electrode slice layering in this application, independently shop chen in between first surface fabric and third surface fabric, can conveniently change the shop's of connecting wire old mode, with the crooked coiling of the redundant connecting wire of length on the third surface fabric, the space that the clothing was propped is reserved for the wearers of different sizes, the wearers of the different sizes of applicable height fat thin, furthermore, according to the pulse physiotherapy structure that provides above, according to the different demands of wearers, can make the clothing of different shape systems such as jacket, trousers, cap, also can set up different positions according to the specific appeal of wearers on the clothing of difference, the flexible electrode slice of different quantity, it is very nimble to make the shape system.

The wearing is comfortable: the pulse physiotherapy dress device that provides in this application can bring very comfortable body sense for the wearer when specifically using: on one hand, the connecting wire is arranged on the outer layer of the flexible electrode plate, the electrode interface is also arranged on the outer side of the connecting wire, so that the connecting wire with certain hardness and the electrode interface can be prevented from blocking a wearer, and the current of the connecting wire can be prevented from directly contacting a human body to a certain extent when the electric leakage occurs; on the other hand, still additionally set up the second surface material in this application provides, can effectively separate flexible electrode piece and human skin, take for the soft comfortable body sense of wearing person.

Drawings

Figure 1 is a schematic diagram of the overall structure of an impulse therapy structure implemented in an embodiment.

Fig. 2 is a schematic structural view of the pulse physiotherapy jacket implemented in the embodiment.

Fig. 3 is a schematic structural view of a combination of the pulse physiotherapy jacket and the external pulse generation control host implemented in the embodiment.

Fig. 4 is a schematic view of the internal structure of the impulse physiotherapy jacket in a planar unfolded state, which is implemented in the embodiment.

Fig. 5 is a schematic view of the overall structure of the impulse physiotherapy trousers implemented in the embodiment.

Fig. 6 is a schematic view of the inner structure of the front surface of the impulse physiotherapy trousers implemented in the embodiment.

Fig. 7 is a schematic view of the inner structure of the reverse side of impulse physiotherapy pants realized in the embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

referring to fig. 1, in the present embodiment, a pulse therapy structure is provided, which includes: the electrode fabric layer 1 is arranged on one side close to the skin of a human body and used for converting current into expected micro-electric pulses; the wiring fabric layer 2 is arranged on one side away from the skin of the human body and is used for transmitting current according to the requirement; and a rivet component 3 for conducting the electrode fabric layer and the wiring fabric layer.

Further, in the present embodiment, the electrode fabric layer 1 includes a first fabric 11 and at least one flexible electrode sheet 12; all flexible electrode pieces 12 all set up on one side surface of first surface fabric 11, and flexible electrode pieces 12 corresponds the setting with human tissue, and each flexible electrode piece 12 all is fixed the bonding with first surface fabric 11.

Further, in this embodiment, the electrode fabric layer 1 further includes a second fabric 13; the second facing material 13 is disposed on the flexible electrode sheet 12.

In this embodiment, further, the wiring fabric layer 2 includes a third fabric 21, an electrode interface 22, and at least one connection line 23; the third fabric 21 is arranged on one side of the first fabric 11 departing from the flexible electrode sheet 12, the electrode interface 22 is arranged on one side of the third fabric 21 departing from the first fabric 11, and the electrode interface 22 is fixed with the third fabric 21; the connecting wires 23 are laid in the gap between the first fabric 11 and the third fabric 21 corresponding to the flexible electrode sheet 12, one end of each connecting wire 23 is connected with the rivet component 3 or the electrode interface 22, and the other end of each connecting wire is connected with the electrode interface 22 or the rivet component 3.

Further, in the present embodiment, the rivet assemblies 3 are disposed in one-to-one correspondence with the flexible electrode sheets 12, and each rivet assembly 3 includes a nail 31, an electrode insulating film 32, and a connection insulating film 33; the collision nail 31 penetrates through the first fabric 11, one end of the collision nail 31 is connected with the corresponding flexible electrode sheet 12 and is mutually conducted, and the other end of the collision nail 31 is connected with the corresponding connecting line 23 and is mutually conducted; the electrode insulation film 32 covers the flexible electrode sheet 12, and the electrode insulation film 32 is fixed with the impact nail 31; the connecting insulating film 33 is disposed on a side of the connecting wire 23 away from the first fabric 11, the connecting insulating film 33 covers a connecting portion of the corresponding connecting wire 23 and the stud 31, and the connecting insulating film 33 is fixed to the stud 31.

Referring to fig. 2 to 4, in the present embodiment, there is provided a wearable device for pulse physiotherapy, the wearable device is a jacket manufactured by using the above-mentioned pulse physiotherapy structure, in the jacket, X is a jacket body, Y is an electrode sheet, Z is a connection line, U is an electrode interface, V is an external pulse generation control host, and W is a host connected to a fixing base.

Referring to fig. 5-7, in the present embodiment, there is provided a wearable pulse physiotherapy apparatus, which is a pair of sports pants manufactured by using the pulse physiotherapy structure, wherein a is pants itself, B is an electrode connector, C is a flexible electrode sheet, and D is a connecting wire.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A pulse physiotherapy structure is characterized in that the structure comprises:

the electrode fabric layer is arranged on one side close to the skin of the human body and used for converting the current into an expected micro-electric pulse;

the wiring fabric layer is arranged on one side away from the skin of the human body and used for transmitting current as required;

and the rivet assembly is used for conducting the electrode fabric layer and the wiring fabric layer.

2. The pulse therapy structure according to claim 1, wherein the electrode fabric layer comprises a first fabric and at least one flexible electrode sheet; all the flexible electrode plates are arranged on the surface of one side of the first fabric, the flexible electrode plates are arranged corresponding to human tissues, and each flexible electrode plate is fixedly adhered to the first fabric.

3. The pulse therapy structure according to claim 2, wherein said electrode fabric layer further comprises a second fabric; the second fabric covers the flexible electrode sheet.

4. The pulse physiotherapy structure of claim 2, wherein the wiring fabric layer comprises a third fabric, an electrode interface and at least one connecting wire; the third fabric is arranged on one side, away from the flexible electrode plate, of the first fabric, the electrode interface is arranged on one side, away from the first fabric, of the third fabric, and the electrode interface is fixed with the third fabric; the connecting wires are laid in a gap between the first fabric and the third fabric corresponding to the flexible electrode sheet, one end of each connecting wire is connected with the rivet component or the electrode interface, and the other end of each connecting wire is connected with the electrode interface or the rivet component.

5. The pulse therapy structure according to claim 4, wherein said rivet assemblies are disposed in one-to-one correspondence with said flexible electrode sheets, each of said rivet assemblies including a striker, an electrode insulating film, and a wiring insulating film; the collision nails penetrate through the first fabric, one ends of the collision nails are connected with the corresponding flexible electrode plates and are mutually communicated, and the other ends of the collision nails are connected with the corresponding connecting lines and are mutually communicated; the electrode insulating film covers the flexible electrode sheet, and the electrode insulating film is fixed with the collision nail; the connecting wire insulating film is arranged on one side of the connecting wire, which is far away from the first fabric, covers the connecting part of the connecting wire and the collision nail, which corresponds to the connecting wire insulating film, and is fixed with the collision nail.

6. A wearable device for impulse therapy, characterized in that the device is a coat, pants, socks, hat or glove made of an impulse therapy construction according to any of claims 1-5.

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