CN205433673U - Wearing formula electrode for physiological parameters measuring device - Google Patents

Abstract

The utility model relates to a wearing formula electrode for physiological parameters measuring device, solved the electrode of dressing formula physiological parameters measuring device among the prior art poor with people's physical contact effect, when measuring the travelling comfort less than not enough. The utility model provides a pair of wearing formula electrode for physiological parameters measuring device, be fixed with conductive fabric on the flexible base member, be equipped with the elastic support body between conductive fabric and the flexible base member, form the cavity that holds the elastic support body between conductive fabric and the flexible base member, set up the elastic support body between conductive fabric and flexible base member, after the electrode is fixed on the clothes, can make conductive fabric and human better contact, the measurement accuracy of electrode has been improved, furthermore, because the elastic support body has elasticity, thereby the travelling comfort of electrode has been optimized.

Description

A kind of Wearable physiological parameter measurement mechanism electrode

Technical field

This utility model relates to physiological parameter measurement mechanism accessory, particularly relates to a kind of Wearable physiological parameter measurement mechanism electrode.

Background technology

Along with the development of electronic technology, in medical field, the measurement of physiological parameter more and more uses electronic measurement technique, and relative to traditional measurement method, electronic measurement technique has more accurate measurement effect；Measurement for health check-up physiological parameter, such as cardioelectric monitor etc., increasing people likes measuring whenever and wherever possible, then, occur in that Wearable physiological parameter measurement mechanism, this device utilizes electronics integrated technology that measurement apparatus is integrated into the monitoring module of small volume, measuring probe is fixed on clothes, finally make probe and monitoring module communication, after clothes is through on health, probe and Body contact and by the signal transmission that records to monitoring module, independent from monitoring module or with miscellaneous equipment physiological parameter is shown.

Sensing probe (i.e. electrode) simple in construction of physiological parameter in prior art, probe is prepared by conducting strip, and conducting strip is electrically connected with monitoring module by wire, and conducting strip is bonded on clothes, and the probe in this scheme is conducting strip.This sonde configuration in the specific implementation with human contact's weak effect, in turn result in measurement parameter error bigger；It addition, this sonde configuration comfortableness is poor, greatly reduce the using effect of Wearable physiological parameter measurement mechanism.

Summary of the invention

A kind of Wearable physiological parameter measurement mechanism electrode that this utility model provides, it is intended to the deficiency of comfortableness difference when overcoming the electrode of Wearable physiological parameter measurement mechanism and human contact's weak effect, measurement in prior art.

In order to solve above-mentioned technical problem, this utility model adopts the following technical scheme that a kind of Wearable physiological parameter measurement mechanism electrode, including flexible substrate, the conductive fabric of sensing physiological signal it is fixed with on described flexible substrate, it is provided with elastic support between described conductive fabric and flexible substrate, after conductive fabric is fixed on flexible substrate, the cavity accommodating elastic support is formed between conductive fabric and flexible substrate, being fixed with electric conductor on described flexible substrate, described electric conductor electrically connects with conductive fabric.

Technique scheme is fixed on flexible substrate conductive fabric, elastic support it is provided with between conductive fabric and flexible substrate, elastic support makes conductive fabric can produce elastic displacement relative to flexible substrate, flexible substrate is fixed on clothes, conductive fabric and human contact, this elastic displacement can compensate for the gap between conductive fabric and human body so that conductive fabric preferably contacts with human body, and then the information that conductive fabric is recorded is more accurate；During it addition, elastic support makes conductive fabric and human contact, conductive fabric can produce elastic displacement relative to flexible substrate, optimizes comfortableness during electrode measurement.

A kind of optional scheme, described conductive fabric forms inductor with elastic support combination, described flexible substrate is fixed with several inductors, electrically connects with electric conductor after all inductor parallel connections.All and human contact, and several inductors are used in parallel, optimize the performance of electrode, improve the certainty of measurement of electrode for several inductors.

A kind of optional scheme, described flexible substrate is fixed with 9 inductors, and all inductors are distributed on the same side of flexible substrate.Optimize the contact performance of conductive fabric and human body, improve the certainty of measurement of electrode.

A kind of optional scheme, described inductor is cylinder；Or, described inductor is prism, a length of 3 centimetres to 5 centimetres of described inductor, and the width of described inductor is 3 centimetres to 5 centimetres, and the height of described inductor is 0.8 centimetre to 1.5 centimetres.Inductor shape is the most cylindrical all can be with human body good contact or prismatic, and therefore, the shape of inductor can be with unrestricted choice, and the Altitude control of inductor has more preferable comfortableness at 0.8 centimetre to 1.5 centimetre.

A kind of optional scheme, described elastic support is sponge block；Or, described elastic support is the cloth being filled in cavity；Or, described elastic support is the elastic fiber being filled in cavity.Elastic support has good elasticity, optimizes the comfortableness of electrode.Elastic support is so that conductive fabric preferably contacts with human body, and sponge, cloth, elastic fiber are the most soft, optimize the comfortableness of electrode further.

A kind of optional scheme, described electric conductor is bonded on flexible substrate, and described electric conductor offers jack, and described jack runs through electric conductor and flexible substrate.The plug coordinated with jack can coordinate with jack from both direction, optimizes the serviceability of electrode.

A kind of optional scheme, described flexible substrate is knitted by flexible fiber silk spinning and is formed；Described conductive fabric is formed by silver cellosilk weaving, and described conductive fabric sews on flexible substrate.Conductive fabric is connected reliably with flexible substrate.

Compared with prior art, a kind of Wearable physiological parameter measurement mechanism electrode that this utility model provides, have the advantage that on flexible substrate and be fixed with conductive fabric, elastic support it is provided with between conductive fabric and flexible substrate, the cavity accommodating elastic support is formed between conductive fabric and flexible substrate, elastic support is set between conductive fabric and flexible substrate, after electrode is fixed on clothes, conductive fabric can be made preferably to contact with human body, improve the certainty of measurement of electrode, and, owing to elastic support has elasticity, thus optimize the comfortableness of electrode.

Accompanying drawing explanation

Accompanying drawing 1 is the front view of this utility model a kind of Wearable physiological parameter measurement mechanism electrode；

Accompanying drawing 2 is sectional view at A-A in accompanying drawing 1；

Accompanying drawing 3 is the scheme front view that this utility model a kind of Wearable physiological parameter measurement mechanism electrode includes 9 inductors；

Accompanying drawing 4 is the front view of inductor in this utility model a kind of Wearable physiological parameter measurement mechanism electrode.

Detailed description of the invention

Below in conjunction with the accompanying drawings, a kind of Wearable physiological parameter measurement mechanism electrode of the present utility model is described further.As shown in Figure 1, Figure 2, Figure 3, Figure 4, a kind of Wearable physiological parameter measurement mechanism electrode, including flexible substrate 1, flexible substrate 1 can pass through VELCRO or sewing at garment interior, when measuring physiological parameter, putting on clothes and should make electrode and human contact, flexible substrate 1 is knitted by flexible fiber silk spinning and is formed, it would however also be possible to employ the material identical with clothes prepares；

See Fig. 2, the conductive fabric 2 of sensing physiological signal it is sewed with on described flexible substrate 1, this conductive fabric 2 is prepared by weaving by silver cellosilk, it is provided with elastic support 3 between described conductive fabric 2 and flexible substrate 1, this elastic support 3 is sponge, after conductive fabric 2 is fixed on flexible substrate 1, between conductive fabric 2 and flexible substrate 1, form the cavity 4 accommodating sponge；

See Fig. 1, Fig. 3, it is fixed with electric conductor 5 on described flexible substrate 1, described electric conductor 5 electrically connects with conductive fabric 2, Wearable physiological parameter measurement mechanism should include that monitoring electrode records the monitoring module of signal, this monitoring module should electrically connect with conductive fabric 2, electric conductor 5 plays the effect connecting conductive fabric 2 with monitoring module, described electric conductor 5 is bonded on flexible substrate 1, jack 7 is offered on described electric conductor 5, described jack 7 runs through electric conductor 5 and flexible substrate 1, monitoring module is electrically connected with electric conductor 5 by wire and connects, wire is fixed with the plug coordinated with jack 7, plug coordinates the connection i.e. realizing electric conductor 5 with monitoring module with jack 7, easy to operate；

When concrete measurement physiological parameter, due to human body off-gauge plane, and the work surface of conductive fabric 2 is plane, the work surface of conductive fabric 2 i.e. conductive fabric 2 and the face of human contact, now, conductive fabric 2 is less with the contact area of human body, just should strengthen the contact area of conductive fabric 2 and human body for recording physiological parameter accurately, it is contemplated that the comfortableness of electrode, the area of conductive fabric 2 should be not excessive, to this end, the contact area of following structure increase conductive fabric 2 and human body can be used:

See Fig. 2, Fig. 3, described conductive fabric 2 forms inductor 6 with elastic support 3 combination, several inductors 6 it are fixed with on described flexible substrate 1, several inductors 6 should do at least two inductor 6 and understand, electrically connecting with electric conductor 5 after the parallel connection of all inductors 6, inductor 6 can be electrically connected with electric conductor 5 by conductive fiber；

See Fig. 3, as a example by being fixed with 9 inductors 6 on flexible substrate 1, all inductors 6 are distributed on the same side of flexible substrate 1,9 inductors 6 may be used without 3 rows and take advantage of the mode of 3 row to arrange, flexible substrate 1 has flexibility, in this scheme multiple inductors 6 can from different perspectives with human contact, thus increase the contact area of conductive fabric 2 and human body, improve the certainty of measurement of electrode；

See Fig. 4, in such scheme, inductor 6 is shaped as prism, length L of described inductor 6 is 3 centimetres to 5 centimetres, the width S of described inductor 6 is 3 centimetres to 5 centimetres, the height H of described inductor 6 is 0.8 centimetre to 1.5 centimetres, inductor 6 sews on flexible substrate 1, therefore, conductive fabric 2 should have extension edge 8, together with system that conductive fabric 2 is knitted with flexible substrate 1, the length of inductor 6 and width should not will extend over limit 8 and be included, with inductor 6 a length of 5 centimetres, the width of inductor 6 is 5 centimetres, as a example by the height of inductor 6 is 1.2 centimetres, in this scheme, the shape of cross section of inductor 6 is square, and it is highly 1.2 centimetres, statistics shows that the inductor 6 of this size has optimal comfortableness, client's positive rating is more than 80%；

Such scheme is in the specific implementation, conductive fabric 2 and human contact record physiological signal, then this signal is transmitted to monitoring module by conductive fabric 2 by electric conductor 5, wire, independently or by miscellaneous equipment, physiological parameter is shown by monitoring module, sponge between conductive fabric 2 and flexible substrate 1, make electrode have a good comfortableness, and increase the contact area of conductive fabric 2 and human body, improve the certainty of measurement of electrode.

In such scheme, the shape of inductor 6 can be shaped as cylinder, quadrangular, pentagonal prism, six prisms etc. with unrestricted choice such as inductor 6 in the specific implementation, and the concrete shape of inductor 6 does not limits, and can the most rationally select when being embodied as；

Elastic support 3 in such scheme can also use following scheme to replace, and described elastic support 3 is the cloth being filled in cavity 4；Or, described elastic support 3 is the elastic fiber being filled in cavity 4.

These are only preferred implementation of the present utility model, it is intended to embody prominent technique effect of the present utility model and advantage, be not the restriction to the technical solution of the utility model.Those skilled in the art will appreciate that all amendments made based on this utility model technology contents, change or substitute technology feature, all should be covered by the technology category that this utility model claims are advocated.

Claims (7)

1. a Wearable physiological parameter measurement mechanism electrode, including flexible substrate (1), it is characterized in that: on described flexible substrate (1), be fixed with the conductive fabric (2) of sensing physiological signal, elastic support (3) it is provided with between described conductive fabric (2) and flexible substrate (1), after conductive fabric (2) is fixed on flexible substrate (1), the cavity (4) accommodating elastic support (3) is formed between conductive fabric (2) and flexible substrate (1), electric conductor (5) it is fixed with on described flexible substrate (1), described electric conductor (5) electrically connects with conductive fabric (2).

A kind of Wearable physiological parameter measurement mechanism electrode the most according to claim 1, it is characterized in that: described conductive fabric (2) forms inductor (6) with elastic support (3) combination, it is fixed with several inductors (6) on described flexible substrate (1), electrically connects with electric conductor (5) after all inductors (6) parallel connection.

A kind of Wearable physiological parameter measurement mechanism electrode the most according to claim 2, it is characterized in that: be fixed with 9 inductors (6) on described flexible substrate (1), all inductors (6) are distributed on the same side of flexible substrate (1).

4. according to a kind of Wearable physiological parameter measurement mechanism electrode described in Claims 2 or 3, it is characterised in that: described inductor (6) is cylinder；Or, described inductor (6) is prism, a length of 3 centimetres to 5 centimetres of described inductor (6), the width of described inductor (6) is 3 centimetres to 5 centimetres, and the height of described inductor (6) is 0.8 centimetre to 1.5 centimetres.

A kind of Wearable physiological parameter measurement mechanism electrode the most according to claim 4, it is characterised in that: described elastic support (3) is sponge block；Or, described elastic support (3) is for be filled in the cloth in cavity (4)；Or, described elastic support (3) is for be filled in the elastic fiber in cavity (4).

A kind of Wearable physiological parameter measurement mechanism electrode the most according to claim 1, it is characterized in that: described electric conductor (5) is bonded on flexible substrate (1), offering jack (7) on described electric conductor (5), described jack (7) runs through electric conductor (5) and flexible substrate (1).

A kind of Wearable physiological parameter measurement mechanism electrode the most according to claim 1, it is characterised in that: described flexible substrate (1) is knitted by flexible fiber silk spinning and is formed；Described conductive fabric (2) is formed by silver cellosilk weaving, and described conductive fabric (2) sews on flexible substrate (1).