CN106450863B - Electrode slice - Google Patents

Abstract

The present invention provides a kind of electrode slice, which includes: flexible insulating layer and conductive layer；The conductive layer is formed by structure sheaf to be laid on the upper surface of the flexible insulating layer after metal melt, and the interface connecting with instrument is provided on the conductive layer.The electrode slice can guarantee the uniform laying of conductive layer, and after electric current passes through the conductive layer being uniformly laid with, the electric current for flowing to human body is more uniform, to substantially increase the safety and validity for carrying out diagnosis and treatment using electrode slice a possibility that reducing skin burn；Also, by the design of flexible insulating layer, so that when electrode slice is attached to joint part, electrode slice is not easily to fall off, so that it is guaranteed that the abutting human skin of electrode slice, improves the reliability of electrode slice.

Description

Electrode slice

Technical field

The present invention relates to medical machinery technology more particularly to a kind of electrode slices.

Background technique

It is that human body is done accordingly by treatment or the cooperation of detecting instrument and electrode slice with the continuous development of medical technology Inspection or physical therapy, become common physical therapy means at present.

Common electrode slice is rubber electrode piece, and material is conductive silicon rubber, i.e., using silicon rubber as base rubber, is added conductive It is molded after filler, common conductive filler has acetylene carbon black, carbon fiber, superconductive carbon black, graphite etc..Meanwhile on the market There are also a kind of non-woven fabrics self-adherent electrodes piece, structures specifically: first layer is non-woven fabrics, second layer electrically conductive graphite, third layer Conductive viscose, this three layers successively overlapping and injection molding, becomes one structure.Physical therapy or detecting instrument pass through electrode wires and two A electrode slice connection, the two electrode slices touch human skin by conductive viscose, are formed into a loop, so that the electricity of instrument output Flow to the skin of intelligent's body.

But electrode slice used in the prior art, the electric current of instrument output can not uniformly flow to human body, so as to Tingling sensation can be generated in skin surface, even will cause skin burn when serious.Therefore, how to avoid electrode slice to human body institute band The insecurity factor come, becomes a technical problem to be solved urgently.

Summary of the invention

The present invention provides a kind of electrode slice, to solve electrode slice in the prior art to brought by human body it is dangerous because The technical problem of element.

In a first aspect, the present invention provides a kind of electrode slice, comprising: flexible insulating layer and conductive layer；

The conductive layer is formed by structure sheaf, and institute to be laid on the upper surface of the flexible insulating layer after metal melt State the interface for being provided on conductive layer and connecting with instrument.

Further, the conductive layer is conductive silver slurry layer.

Further, the flexible insulating layer includes the first insulating layer and positioned at the of the upper surface of first insulating layer Two insulating layers, the conductive silver slurry layer are laid on the upper surface of the second insulating layer；

First insulating layer is thermoplastic polyurethane elastomer rubber TPU layer, and the second insulating layer is poly- to benzene two Formic acid second diester pet layer.

Optionally, the electrode slice further include: the two sides of dismountable conduction mucigel, the conduction mucigel all has Stickiness；

The one side of the conduction mucigel and the upper surface of the conductive silver slurry layer are detachably connected, the conduction mucigel Another side contacted with human skin.

Further, first insulating layer includes two first insulation flank interconnected, the second insulating layer Including two second insulation flank interconnected；

The conductive silver slurry layer includes two the discrete first conductive flanks and the second conductive flank, and described first leads The interface connecting with instrument is provided on electric flank and the second conductive flank；

The conduction mucigel includes two discrete conductive viscose pieces.

Optionally, the electrode slice further include: the first connector being connect with the instrument；

One groove is set on first connector, is provided in the groove and is adapted to the current output terminal of the instrument The first magnet button and the second magnet button for being adapted to the input terminal of the instrument；

One end of the first magnet button passes through the interface and the first conductive flank on the described first conductive flank One end of connection, the second magnet button is connected by the interface on the described second conductive flank with the described second conductive flank Connect, the other end of the first magnet button is connect with the current output terminal of the instrument, the second magnet button it is another End is connect with the input terminal of the instrument.

Optionally, the electrode slice further include: the second connector, the third magnet button and the 4th being connect with the instrument A groove is arranged on second connector in magnet button, and is offered on the side wall of second connector for the electrode The sliding groove that two electrode wings of piece are rotated around second connector；

One end of the third magnet button is arranged on an electrode wing by the interface on the first conductive flank, described One end of 4th magnet button is arranged on another electrode wing by the interface on the described second conductive flank, the third magnetic The other end of iron button is connect with the current output terminal of the instrument, the other end and the instrument of the 4th magnet button Input terminal connection.

Further, the shape adaptation of the groove and the instrument, so that the instrument can be fastened on the groove In.

Electrode slice provided by the invention, including flexible insulating layer and conductive layer, the conductive layer be metal melt after be laid on The upper surface of flexible insulating layer is formed by structure sheaf, and the interface connecting with instrument is provided on the conductive layer；The electrode slice The uniform laying that can guarantee conductive layer, after electric current passes through the conductive layer being uniformly laid with, the electric current for flowing to human body is more equal It is even, to substantially increase the safety and validity for carrying out diagnosis and treatment using electrode slice a possibility that reducing skin burn；And And by the design of flexible insulating layer, so that electrode slice is not easily to fall off when electrode slice is attached to joint part, so that it is guaranteed that The abutting human skin of electrode slice, improves the reliability of electrode slice.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is this hair Bright some embodiments for those of ordinary skill in the art without any creative labor, can be with It obtains other drawings based on these drawings.

Fig. 1 is the configuration diagram of physical therapeutic system provided by the invention；

Fig. 2 is the structural schematic diagram of electrode slice embodiment one provided by the invention；

Fig. 3 is the structural schematic diagram of electrode slice embodiment two provided by the invention；

Fig. 4 is the structural schematic diagram of electrode slice embodiment three provided by the invention；

Fig. 5 is the structural schematic diagram of electrode slice example IV provided by the invention；

Fig. 6 is the structural schematic diagram of the first connector provided by the invention；

Fig. 7 is the structural schematic diagram of electrode slice embodiment five provided by the invention；

Fig. 8 is the electrode wing rotational structure schematic diagram of electrode slice provided by the invention.

Appended drawing reference:

10: flexible insulating layer；11: conductive layer；12: interface；

101: the first insulating layers；102: second insulating layer；13: conductive mucigel；

21: the first insulation flanks；22: the second insulation flanks；23: the first conductive flanks；

24: the second conductive flanks；25: conductive viscose piece；30: the first connectors；

301: groove；302: the first magnet buttons；303: the second magnet buttons；

31: the second connectors；311: third magnet button；312: the four magnet buttons；

313: the electrode wing.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art Every other embodiment obtained without creative efforts, shall fall within the protection scope of the present invention.

Electrode slice provided by the embodiment of the present invention can be adapted for physical therapeutic system shown in FIG. 1.System shown in FIG. 1 Including instrument and the electrode slice being connect with instrument, the instrument can be therapeutic equipments, physiotherapeutic instruments, can with stimulation instrument etc. other Can be suitable for equipment medically, the electric current of instrument output flow to human body by electrode slice, to reach to human body progress The purpose of diagnosis and treatment or physical therapy, lesion detection.In the present embodiment, the electrode slice in above system can be one, can also be two A, when the electrode slice in system is one, which is integral type electrode slice, which may include two Electrode is connect with the current output terminal of instrument and input terminal respectively, to form set circuit with human body；When the electrode slice of system When being two, the current output terminal of an electrode slice and instrument is connected, and the input terminal of another electrode slice and instrument connects, in this way The electric current of instrument output reaches human body by an electrode slice, then flows to another electrode slice via human body, and then by another One electrode slice flows to the input terminal of instrument, to form closed circuit.Specifically refer to the introduction of following embodiments.

Electrode slice in the prior art, material are conductive silicon rubbers, i.e., using silicon rubber as base rubber, after conductive filler is added It is molded, common conductive filler is that carbonizable substances, the carbonizable substances such as acetylene carbon black, carbon fiber, superconductive carbon black, graphite constitute The conductive layer of electrode slice, but since carbon is the substance with certain particle size, in the distribution of conductive layer and uneven, and Due to the resistivity 6.1 × 10 of carbon^-8Ω m, it is relatively high, in the case where carbon particle is unevenly distributed, it often will lead to electrode It is even that on piece is output to current unevenness on human skin, so as to generate tingling sensation in skin surface, can even make when serious At skin burn.Therefore, a kind of electrode slice provided in an embodiment of the present invention, it is intended to avoid electrode slice in the prior art to human body Bring insecurity factor, so that it is guaranteed that the safety of human body.

Technical solution of the present invention is described in detail with specifically embodiment below.These specific implementations below Example can be combined with each other, and the same or similar concept or process may be repeated no more in some embodiments.

Fig. 2 is the structural schematic diagram of electrode slice embodiment one provided by the invention.As shown in Figure 1, the electrode slice includes soft Property insulating layer 10 and conductive layer 11；The conductive layer 11 is upper surface institute that the flexible insulating layer 10 is laid on after metal melt The structure sheaf of formation, and the interface 12 connecting with instrument is provided on the conductive layer 11.

Specifically, the electrode slice in the present embodiment can be circular electrode slice, rectangular electrode slice, it can also be triangle The electrode slice of shape, diamond shape, the present invention is to the shape of electrode slice and without limitation.In Fig. 2 by taking circular electric pole piece as an example, the electrode slice Including flexible insulating layer 10 and conductive layer 11, which can be any flexibility and the material of insulation, such as mould Glue, the purpose of the flexible insulating layer 10, one is to insulate, and is detached from correct stream to the electric current of electrode slice to avoid instrumental transmission To, another is the elasticity by flexible material, and when electrode slice is attached to joint part, electrode slice is not easily to fall off, thus Ensure the abutting human skin of electrode slice.

Above-mentioned conductive layer 11 can be formed by knot to be laid on the upper surface of the flexible insulating layer 10 after metal melt Structure layer, such as can be the slurry of the iron after iron dissolves and be laid on the upper surface of flexible insulating layer 10 and be formed by conductive iron pulp layer, also It can be the slurry of the copper after copper dissolves and be laid on the upper surface of flexible insulating layer 10 and be formed by conductive copper pulp layer, as long as ensuring that this is led Electric layer 11 is that the metal pulp after metal melt is formed at fluid-type laying, can guarantee the uniform paving of conductive layer 11 in this way And if the resistivity of metal is lower, and after electric current passes through conductive layer 11 being uniformly laid with, the electric current for flowing to human body is more equal It is even, to substantially increase the safety for carrying out diagnosis and treatment using electrode slice a possibility that reducing skin burn.

The above-mentioned interface 12 being arranged on conductive layer 11 for connecting with instrument is mainly used for connecting conductive layer 11 and instrument It picks up and, optionally, can be connected by electrode wires, i.e., the current output terminal of one end connection instrument of electrode wires, the other end are logical The interface 12 is crossed to be connected on conductive layer 11；Optionally, can also in other way by conductive layer 11 and instrument into Row connection, as long as guaranteeing the electric current that instrument exports being input to human body by the conductive layer 11 of electrode slice.

Electrode slice provided by the invention, including flexible insulating layer and conductive layer, the conductive layer be metal melt after be laid on The upper surface of flexible insulating layer is formed by structure sheaf, and the interface connecting with instrument is provided on the conductive layer；The electrode slice The uniform laying that can guarantee conductive layer, after electric current passes through the conductive layer being uniformly laid with, the electric current for flowing to human body is more equal It is even, to substantially increase the safety and validity for carrying out diagnosis and treatment using electrode slice a possibility that reducing skin burn；And And by the design of flexible insulating layer, so that electrode slice is not easily to fall off when electrode slice is attached to joint part, so that it is guaranteed that The abutting human skin of electrode slice, improves the reliability of electrode slice.

Preferably, above-mentioned conductive layer 11 is conductive silver slurry layer, due to the opposite resistivity with carbon of the resistivity of silver want it is low ( It is 1.47 × 10 at 0 DEG C^-8Ω m is 1.58 × 10 at 18 DEG C^-8Ω m), and silver paste is uniformly in that fluid-type is laid on above-mentioned flexibility On insulating layer 10, so that the electric current that instrument flows to human body is more uniform, a possibility that creating a further reduction skin burn.

Fig. 3 is the structural schematic diagram of electrode slice embodiment two provided by the invention.On the basis of the above embodiments, into one Step ground, above-mentioned flexible insulating layer 10 include the first insulating layer 101 and positioned at the upper surface of first insulating layer 101 second absolutely Edge layer 102, the conductive silver slurry layer are laid on the upper surface of the second insulating layer 102；First insulating layer 101 is thermoplastic Property elastic polyurethane body rubber TPU layer, the second insulating layer 102 be polyethylene terephthalate pet layer.

Specifically, above-mentioned flexible insulating layer 10 includes the first insulating layer 101 and the upper table positioned at first insulating layer 101 The second insulating layer 102 in face, above-mentioned conductive silver slurry layer are laid on the upper surface of the second insulating layer 102.That is, in the present embodiment Electrode slice is three-decker, first layer be thermoplastic polyurethane elastomer rubber (Thermoplastic polyurethanes, Abbreviation TPU) layer, the second layer is the polyethylene terephthalate (Polyethylene positioned at the upper surface of TPU layer Terepthalate, abbreviation PET) layer is above-mentioned conductive silver slurry layer in the upper surface of the pet layer.

Wherein, above-mentioned TPU layer characteristic be it is wear-resisting, oil resistant, elasticity is good, can meet environmental requirements, the hardness model of the TPU layer It encloses extensively, the TPU that the present invention uses is controlled in 60 Shore A to 90 Shore A (Shore A refers to Shore hardness), it is ensured that electricity Pole piece has good elasticity, can be close to human skin in use.In addition, in response to various appearance requirements, the table of TPU layer Face can add various individualized pattern by spraying method.In addition, above-mentioned pet layer smooth surface is glossy, in wider temperature There is good physical mechanical property (i.e. the pet layer also just has good elasticity) in range, insulating properties is preferable, in high-temperature high-frequency Under, electrical property is still preferable, which can guarantee that being laid with conductive silver paste on its surface provides good condition, further for The electric conductivity of conductive silver slurry layer provides guarantee.

Optionally, with continued reference to shown in above-mentioned Fig. 3, above-mentioned electrode slice can also include: dismountable conductive mucigel 13, The two sides of the conduction mucigel 13 all has stickiness；The one side of the conduction mucigel 13 and the upper surface of conductive silver slurry layer are removable Connection is unloaded, the another side of the conduction mucigel 13 is contacted with human skin.The conductive silver slurry layer further ensures electrode slice With being close to for human skin, avoids electrode slice and arbitrarily move；In addition, the service life of the conduction mucigel 13 depend on its with Whether human contact's performance is good, at the end of the service life of conductive mucigel 13, since the conduction mucigel 13 can be with Conductive silver slurry layer is detachably connected, therefore only needs to throw off the conduction mucigel 13, replaces one layer of conductive viscose again, Without replacing entire electrode slice, diagnosis and treatment cost is greatly saved.

Electrode slice provided by the invention, by setting TPU material for the material of the first insulating layer, by second insulating layer Material is set as PET material, both ensure that electric current without departing from correct path, but also being attached to joint part in electrode slice When, more ensure that electrode slice can be close to human skin, improves the reliability of electrode slice；Meanwhile by dismountable conductive The design of mucigel, at the end of the service life of conductive mucigel, it is only necessary to the conduction mucigel be thrown off, replace one again Diagnosis and treatment cost is greatly saved without replacing entire electrode slice in the conductive viscose of layer.

Fig. 4 is the structural schematic diagram of electrode slice embodiment three provided by the invention.Electrode slice in the present embodiment is integrated Formula design, i.e., the electrode slice had both included the part connecting with the current output terminal of instrument, also included connecting with the input terminal of instrument The part connect, so that the complicated processes of user when in use are avoided, when also avoiding in the prior art using two electrode slices, because of two Output short-circuit caused by a electrode slice electrode distance is too close, thus the case where damaging instrument generation.On the basis of above-described embodiment On, further, above-mentioned first insulating layer 101 includes two first insulation flank 21 interconnected, the second insulating layer 102 include two first insulation flank 22 interconnected；The conductive silver slurry layer includes two discrete first conductions It is provided on flank 23 and the second conductive flank 24, the described first conductive flank 23 and the second conductive flank 24 and instrument The interface 12 of connection；The conduction mucigel 13 includes two discrete conductive viscose pieces 25.

Optionally, the shape of two first insulation flanks 21 of the first insulating layer 101 may be the same or different；It can Choosing, in above-mentioned second insulating layer 102 it is interconnected two first insulation flanks 22 shape can be identical, can also not Together；Optionally, two the discrete first conductive flanks 23 and the second conductive flank 24 included by above-mentioned conductive silver slurry layer Shape may be the same or different；Optionally, two discrete conductions included by above-mentioned conductive mucigel 13 are glutinous The shape of film 25 may be the same or different, as long as ensuring the first insulation flank 21, the first insulation sides positioned at the same side The conductive flank 23 (set the second conductive flank 24 and be located at the other side) of the wing 22, first, the shape of conductive viscose piece 25 are identical, figure 4 shape is only a kind of example, and the present embodiment is to this and without limitation.Meanwhile the connection for two first flanks 21 that insulate Mode, the connection type of two first insulation flanks 22, the present embodiment is also without limitation.

Specifically, shown in Figure 4, the first insulation flank 21, first insulation flank 22, the first conductive side positioned at side The wing 23 and conductive viscose piece 25 constitute the part of the current output terminal connection of electrode slice and instrument, and first positioned at the other side is exhausted The conductive flank 24 of the insulation of edge flank 21, first flank 22, second and conductive viscose piece 25 constitute the input of electrode slice and instrument The part for holding connection, due to being provided with the interface 12 connecting with instrument on the first conductive flank 23 and the second conductive flank 24, It therefore, optionally, can be conductive with the first conductive flank 23 and second respectively by the interface 12 by one end of two electrode wires Flank 24 connects, and one end of two electrode wires is connect with the current output terminal of instrument and input terminal respectively, thus by electrode slice It is connected with instrument, and after electrode slice and human contact, electric current is passed to human body by the first conductive flank 23, and passes through human body Electric conductivity electric current is sent to the second conductive flank 24, to flow to the input terminal of instrument, shape via the second conductive flank 24 At closed circuit；Certainly, optionally, the electrode slice by interface 12 on the first conductive flank 23 and the second conductive flank 24 with Instrument, which is attached, can also other connection types, as long as ensuring the portion of the current output terminal connection of electrode slice and instrument Divide and the part of the input terminal connection of electrode slice and instrument is in 180 °, thus avoid this two parts distance too close and short-circuit, Cause the damage of instrument.

Electrode slice provided by the invention, the first insulating layer include two first insulation flank interconnected, and second absolutely Edge layer includes two second insulation flank interconnected, conductive silver slurry layer include two the discrete first conductive flanks and Second conductive flank, and the interface connecting with instrument is provided on the first conductive flank and the second conductive flank；Meanwhile it should The conductive mucigel of electrode slice includes that two discrete conductive viscose pieces not only avoid can be used by the unitary design Hand takes the complicated processes of two electrode slices when in use at family, while also avoiding the prior art when using two electrode slices, because Output short-circuit caused by two electrode slice electrode distances are too close, so that the case where damaging instrument generation, substantially increases instrument Safety in utilization.

Fig. 5 is the structural schematic diagram of electrode slice example IV provided by the invention, and Fig. 6 is the first connection provided by the invention The structural schematic diagram of part.On the basis of the above embodiments, referring to figs. 5 and 6, above-mentioned electrode slice further includes connecting with instrument First connector 30；One groove 301 is set on first connector 30, the electricity with the instrument is provided in the groove 301 First magnet button 302 of stream output end adaptation and the second magnet button 303 being adapted to the input terminal of the instrument；It should One end of first magnet button 302 is connect by the interface 12 on the first conductive flank 23 with the first conductive flank 23, this second One end of magnet button 303 is connect by the interface 12 on the second conductive flank 24 with the second conductive flank 24, the first magnet knob The other end of button 302 and the current output terminal of instrument connect, and the other end of the second magnet button 303 is defeated with the instrument Enter end connection.

Specifically, the groove 301 of connector 30 can be used for loading small-sized physical therapy or detection instrument, the instrument in Fig. 6 Device can be the instrument small in size of palm shape, and optionally, which can be a square groove 301 or circular groove 301 or other shapes groove 301, can be with reference to being designed with the shape of instrument.Optionally, the groove 301 Size can be adapted to instrument, so that instrument can be fastened in the groove 301.Due to be provided in the groove 301 with First magnet button 302 of the current output terminal adaptation of instrument and the second magnet button being adapted to the input terminal of instrument 303, when instrument can be fastened in the groove 301, the current output terminal and input terminal of instrument towards groove 301, thus Allow the first magnet button 302 to connect (i.e. magnetic force attracts connection) with the current output terminal magnetism of instrument, and makes second Magnet button 303 can be connect with the input terminal magnetism of instrument, so that instrument can pass through the first magnet button 302 and Two magnet buttons 303 are connected with electrode slice.In this way, when the conductive mucigel 13 of electrode slice is attached on human skin, instrument The electric current of device output reaches the first conductive flank 23 via the first magnet button 302, and then flows to people by conductive mucigel 13 Body, and then the second conductive flank 24 is flowed to by human body, the input terminal of instrument is most flowed to through the second conductive flank 24 afterwards.Above-mentioned The design of a connection piece 30 avoids instrument and is connect by electrode wires with electrode slice, but also instrument can be set with electrode slice card Integrally, the wearable property for substantially increasing instrument, facilitates the movement of user.

Electrode slice provided by the invention, included by the first connector, by the design of groove, magnet button so that In the groove for the connector that instrument connect with electrode slice by magnet button, and instrument is allowed to be fastened on electrode slice, avoid Instrument is connect by electrode wires with electrode slice, but also instrument can be set as one with electrode slice card, substantially increases instrument Wearable property, facilitate the movement of user.

Fig. 7 is the structural schematic diagram of electrode slice embodiment five provided by the invention, and Fig. 8 is electrode slice provided by the invention Electrode wing rotational structure schematic diagram.On the basis of the above embodiments, referring to figs. 7 and 8, above-mentioned electrode slice further include: with institute The second connector 31, third magnet button 311 and the 4th magnet button 312 for stating instrument connection, on second connector 31 One groove is set, and offers two electrode wings 313 for the electrode slice on the side wall of second connector 31 around described The sliding groove (sliding groove is not shown in Fig. 7) of second connector 31 rotation, one end of the third magnet button 311 passes through Interface on first conductive flank is arranged on an electrode wing 313, and one end of the 4th magnet button 312 passes through described the Interface on two conductive flanks is arranged on another electrode wing 313, the other end and the instrument of the third magnet button 311 The current output terminal of device connects, and the other end of the 4th magnet button 312 is connect with the input terminal of the instrument.

Specifically, the electrode wing 313 of above-mentioned electrode slice is by one first above-mentioned insulation flank, second insulation sides What the wing, the first conductive flank and a conductive viscose piece were formed by stacking, that is to say, that above-mentioned first insulating layer, second insulating layer, Conductive silver slurry layer and conductive mucigel together constitute two electrode wings 313.In this way, one end of third magnet button 311 can be with It is arranged on an electrode wing 313 by the interface on the first conductive flank, one end of the 4th magnet button 312 can be by the Interface on two conductive flanks is arranged on another electrode wing 313, due to offering on the side wall of above-mentioned second connector 31 For the sliding groove that two electrode wings 313 are rotated around above-mentioned second connector 31, therefore, third magnet button 311 and the 4th magnet Button 312 can also rotate, rotational structure schematic diagram shown in Figure 8 with the rotation of the electrode wing 313.

Due to be provided on above-mentioned two electrode wing 313 the third magnet button 311 being adapted to the current output terminal of instrument, And the 4th magnet button 312 being adapted to the input terminal of instrument, when instrument can be fastened in the groove, the electric current of instrument Output end and input terminal are towards groove, so that third magnet button 311 can connect with the current output terminal magnetism of instrument (i.e. magnetic force attracts connection) is connect, and the 4th magnet button 312 is connect with the input terminal magnetism of instrument, so that instrument Device can be connected by third magnet button 311 and the 4th magnet button 312 with electrode slice.In this way, leading when electrode slice When electric mucigel is attached on human skin, the electric current of instrument output reaches the first conductive flank via third magnet button 311, into And human body is flowed to by conductive mucigel, and then the second conductive flank is flowed to by human body, most afterwards through the second conductive flank flow direction The input terminal of instrument.The design of above-mentioned second connector 31 avoids instrument and is connect by electrode wires with electrode slice, but also instrument Device can be set as one with electrode slice card, substantially increase the wearable property of instrument, facilitate the movement of user；In addition, due to The electrode wing 313 of electrode slice is rotatable, greatly reduces space shared when electrode slice storage.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；To the greatest extent Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into Row equivalent replacement；And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution The range of scheme.

Claims (5)

1. a kind of electrode slice characterized by comprising flexible insulating layer and conductive layer；

The conductive layer is to be laid on the upper surface of the flexible insulating layer after metal melt to be formed by structure sheaf, and described lead The interface connecting with instrument is provided in electric layer；

The electrode slice further include: the second connector, third magnet button and the 4th magnet button being connect with the instrument, institute It states and a groove is set on the second connector, and offer two electrodes for the electrode slice on the side wall of second connector The sliding groove that the wing is rotated around second connector；

One end of the third magnet button is arranged on an electrode wing by the interface on the first conductive flank, and the described 4th One end of magnet button is arranged on another electrode wing by the interface on the second conductive flank, the third magnet button The other end is connect with the current output terminal of the instrument, and the other end of the 4th magnet button and the input terminal of the instrument connect It connects；

The shape adaptation of the groove and the instrument, so that the instrument can be fastened in the groove.

2. electrode slice according to claim 1, which is characterized in that the conductive layer is conductive silver slurry layer.

3. electrode slice according to claim 2, which is characterized in that the flexible insulating layer includes the first insulating layer and is located at The second insulating layer of the upper surface of first insulating layer, the conductive silver slurry layer are laid on the upper table of the second insulating layer Face；

First insulating layer is thermoplastic polyurethane elastomer rubber TPU layer, and the second insulating layer is poly terephthalic acid Second diester pet layer.

4. electrode slice according to claim 3, which is characterized in that the electrode slice further include: dismountable conduction viscose The two sides of layer, the conduction mucigel all has stickiness；

The one side of the conduction mucigel and the upper surface of the conductive silver slurry layer are detachably connected, the conduction mucigel it is another It is contacted on one side with human skin.

5. electrode slice according to claim 4, which is characterized in that

First insulating layer includes two first insulation flank not interconnected, and the second insulating layer includes not interconnecting mutually The two second insulation flanks connect；

The conductive silver slurry layer includes two the discrete first conductive flanks and the second conductive flank, first conductive side The interface connecting with instrument is provided on the wing and the second conductive flank；

The conduction mucigel includes two discrete conductive viscose pieces.