JP5984371B2 - Biometric electrode - Google Patents

Description

  The present invention relates to a biometric electrode that is mounted on a skin surface of a subject and detects bioelectricity.

The electrocardiogram test is performed by attaching a biometric electrode to the subject's chest and recording bioelectricity detected by the biometric electrode for a certain period.
As a biometric electrode, there has been proposed an electrode having a shield structure for preventing disturbance noise from being mixed, improving the wearing feeling, and making the bioelectrode and the connection structure compact (Patent Document 1).
The bioelectrode in Patent Document 1 includes a first insulating layer, a shield layer, a second insulating layer, an electrode element layer, and a plurality of electrolyte layers from one side. The shield layer is disposed so as to cover the electrode element layer, and constitutes a sandwiching portion in which a part of the overlapping portion is exposed and sandwiched.
The shield layer is exposed on one surface of the sandwiching portion, and the electrode element layer is exposed on the other surface of the sandwiching portion.
In addition, as an electrode for biometric measurement, one that performs high-accuracy measurement by preventing a short circuit of an electrode portion while maintaining good air permeability has been proposed (Patent Document 2).
The bioelectrode in Patent Document 2 is a gel layer provided on one surface of a substrate while interposing an electrode portion between the film-shaped substrate having a pair of surfaces and one surface of the substrate. And a conductive shield film of the electrode part provided at a position opposite to the electrode part on the other surface of the substrate, and a non-conductive resist film for sealing the shield film. And the conductive shield film of an electrode part consists of the silver film arrange | positioned on the other surface of a base material in the position facing an electrode part, and the carbon film which coat | covers a silver film.

Special table 2007-97769 JP-T 2008-212487

In Patent Document 1, the electrode layer is insulated from the shield layer by the second insulating layer, but the end of the electrode layer and the surface on the electrolyte side are exposed. The electrode part may be short-circuited by perspiration or moisture impregnation of clothing.
Further, in Patent Document 1, since the clamping portion of the biometric electrode has a shield layer on one surface and an electrode element layer on the other surface, the clamping clip that holds the biometric electrode is not included in the clamping clip. The shield terminal and the electrode terminal have to be arranged in the upper part and the lower part, respectively.
In Patent Document 2, short-circuiting of electrodes as in Patent Document 1 can be prevented, but connection to a recording apparatus is performed by a lead wire.

  An object of the present invention is to provide a biometric electrode that can be easily attached and detached with a clip, and that can prevent the electrode from being short-circuited and can be thinned.

The biometric electrode of the present invention according to claim 1 is a base sheet made of an insulator, an electrode layer disposed on one surface of the base sheet, and a shield layer disposed on the other surface of the base sheet. A living body mounting portion on which the base sheet is affixed to the skin of the subject, a clamping portion that is electrically connected to the electrode terminal and the shield terminal in the clip, and a connecting portion that connects the living body mounting portion and the clamping portion. The electrode for living body measurement, wherein the electrode layer is disposed in the living body mounting portion, the connecting portion, and the clamping portion, and the electrode layer in the living body mounting portion is electrically connected to the skin And an electrode connection surface electrically connected to the electrode terminal is formed on the electrode layer in the sandwiching portion, and a through hole is formed on the base sheet in the sandwiching portion. The shield layer is disposed at a position covering at least the electrode layer, and the shield layer in the sandwiching portion has a shield connection surface electrically connected to the shield terminal at the position of the through hole. A first insulating layer is provided on the surface of the electrode layer on the side opposite to the base sheet, the first insulating layer covers the electrode layer except for the input surface and the electrode connection surface, and the shield A second insulating layer is provided on the surface of the layer on the side opposite to the base sheet, the second insulating layer covers the shield layer, and a ring-shaped auxiliary sheet is provided on the first insulating layer in the living body mounting portion. Affixing and disposing the input surface and the first insulating layer in the ring of the auxiliary sheet; disposing an electrolyte to be affixed to the skin in the ring of the auxiliary sheet; The electrode layer A width (12Ly) is formed to be smaller than a width (12Lz) of the electrode layer in the clamping part, and a width (13Ly) of the shield layer in the connecting part is set to a width (13Lz) of the shield layer in the clamping part. The shield layer is formed to be larger than the electrode layer, and the distance between the electrode connection surface and the shield connection surface is made larger than the width (13Ly) of the shield layer at the connecting portion. It is characterized by that.
According to a second aspect of the invention, claim 1 Te biometric electrode odor according to the prior SL first insulating layer, said base sheet and bonded in the outer periphery of the outer periphery and the connecting portion of the body mounting portion It is characterized by that.
According to a third aspect of the present invention, in the biometric electrode according to the second aspect, the first insulating layer is bonded to the base sheet except for the electrode layer and the shield connection surface. And
According to a fourth aspect of the present invention, in the biometric electrode according to the third aspect, the first insulating layer covers the electrode layer except for the input surface and the electrode connection surface. And
The present invention is claimed in claim 5, Te biometric electrode odor according to any one of claims 1 to 4, prior Symbol the second insulating layer, the outer periphery and the outer periphery of the connecting portion of the body mounting portion And the base sheet.
According to a sixth aspect of the present invention, in the biometric measurement electrode according to any one of the first to fifth aspects, the living body mounting portion is formed in a circular shape, and the width of the connecting portion is set to the living body mounting portion. It is characterized in that it is formed to be smaller than the diameter and smaller than the width of the clamping portion.
According to a seventh aspect of the present invention, in the electrode for biometric measurement according to the sixth aspect , the electrode layer in the living body mounting portion is formed in a circular shape, and the width of the electrode layer in the connecting portion is set to the living body mounting. characterized in that was smaller comb than the diameter of the electrode layer in part.
The present invention according to claim 8 is the living body measurement electrode according to claim 7 , wherein the shield layer in the living body mounting portion is formed in a circular shape, and the width of the shield layer in the connecting portion is defined as the living body mounting. characterized in that was smaller comb than the diameter of the shielding layer in part.
A ninth aspect of the present invention is a clip for holding the biometric electrode according to any one of the first to eighth aspects, wherein the main body portion on which the biometric electrode is placed, and the main body portion The electrode terminal and the shield terminal are formed on the main body part.
According to a tenth aspect of the present invention, in the clip according to the ninth aspect, a first taper surface is formed on a surface of the slide portion on the main body portion side, and the first taper is formed when the slide portion is opened. The slide part moves in a direction away from the main body part by a surface.
According to the eleventh aspect of the present invention, in the clip according to the ninth or tenth aspect of the present invention, a second tapered surface is formed on the main body portion, and the second tapered surface is used when the slide portion is closed. Friction resistance between the slide part and the main body part is added.

  According to the present invention, since the electrode connection surface and the shield connection surface are formed on one surface of the base sheet, the electrode terminal and the shield terminal in the clip can be formed on one surface, and the clip is made thinner and smaller. be able to.

(A) is a plan view of a biometric electrode according to an embodiment of the present invention, (b) is a rear view of the biometric electrode, (c) is a cross-sectional view taken along line AA of (a), and (d). Is a sectional view taken along line BB in (a). (A) is a plan view in the closed state of the clip for holding the biometric electrode according to this embodiment, (b) is a side view in the closed state of the clip, and (c) is a plane in the open state of the clip. (D) is a side view of the clip in the open state, (e) is a side cross-sectional view of the clip in the open state. (A) is a plan view in the closed state of the clip equipped with the biometric electrode according to the present embodiment, (b) is a side view in the closed state of the clip, (c) is a plane in the open state of the clip Figure, (d) is a side cross-sectional view of the clip in the open state

In the biometric measurement electrode according to the first embodiment of the present invention, the electrode layer is disposed in the living body mounting portion, the connecting portion, and the clamping portion, and the electrode layer in the living body mounting portion is electrically connected to the skin. An input surface that is electrically connected to the electrode terminal is formed on the electrode layer in the sandwiching portion, a through hole is formed in the base sheet in the sandwiching portion, and the shield layer includes at least The shield layer is disposed at a position that covers the electrode layer, and a shield connection surface that is electrically connected to the shield terminal is formed at the position of the through hole in the shield layer in the sandwiching portion . 1 is provided, the first insulating layer covers the electrode layer except for the input surface and the electrode connection surface, the second insulating layer is provided on the surface of the shield layer on the side opposite to the base sheet, and the second insulating layer is provided. The layer covers the shield layer and A ring-shaped auxiliary sheet is affixed to the first insulating layer in the section, the input surface and the first insulating layer are arranged in the ring of the auxiliary sheet, and an electrolyte to be adhered to the skin is placed in the ring of the auxiliary sheet And the width of the electrode layer (12Ly) in the connecting portion is smaller than the width of the electrode layer (12Lz) in the sandwiching portion, and the width of the shield layer (13Ly) in the connecting portion is the width of the shield layer in the sandwiching portion. It is formed smaller than (13Lz), the shield layer is formed larger than the electrode layer, and the distance between the electrode connection surface and the shield connection surface is made larger than the width (13Ly) of the shield layer at the connecting portion .
According to this embodiment, since the electrode connection surface and the shield connection surface are formed on one surface of the base sheet, the electrode terminal and the shield terminal in the clip can be formed on one surface, and the clip is thinned and miniaturized. Can be achieved. Moreover, noise to the electrode can be reliably prevented. Moreover, a test subject's bioelectricity can be reliably transmitted to an input surface via electrolyte. In addition, withstand voltage performance can be enhanced by increasing the distance between the electrode connection surface and the shield connection surface.

The second embodiment of the present invention are those Te first embodiment according biometric electrodes smell embodiment, the first insulating layer, bonded to a base sheet at the outer periphery of the outer periphery and the connecting portion of the living body mounting portion It is.
According to the present embodiment, the first insulating layer and the base sheet are bonded to each other on the outer periphery of the living body mounting portion and the outer periphery of the connecting portion, so that the short circuit of the electrode due to sweat or the like can be reliably prevented.

The third embodiment of the present invention is a biometric electrode according to the second embodiment in which the first insulating layer is bonded to the base sheet except for the electrode layer and the shield connection surface.
According to the present embodiment, it is possible to prevent the short circuit of the electrodes more reliably.

According to a fourth embodiment of the present invention, in the biometric electrode according to the third embodiment, the first insulating layer covers the electrode layer except for the input surface and the electrode connection surface.
According to the present embodiment, it is possible to prevent the short circuit of the electrodes more reliably.

According to a fifth embodiment of the present invention, in the biometric electrode according to any one of the first to fourth embodiments, the second insulating layer is formed on the outer periphery of the living body mounting portion and the outer periphery of the connecting portion. Are pasted together.
According to this embodiment, noise can be reliably prevented by reliably insulating the shield layer.

According to a sixth embodiment of the present invention, in the biometric measurement electrode according to any one of the first to fifth embodiments, the living body mounting portion is formed in a circular shape, and the width of the connecting portion is set to the width of the living body mounting portion. It is smaller than the diameter and smaller than the width of the sandwiching portion.
According to the present embodiment, by reducing the width of the connecting portion, the flexibility at the connecting portion can be increased, and twist and the like can be absorbed by the connecting portion at the time of mounting, so that the mounting property can be improved.

According to a seventh embodiment of the present invention, in the biometric measurement electrode according to the sixth embodiment, the electrode layer in the living body mounting portion is formed in a circular shape, and the width of the electrode layer in the connecting portion is set in the living body mounting portion. those were smaller comb than the diameter of the electrode layer.
According to the present embodiment, by reducing the width of the electrode layer at the connecting portion, the flexibility at the connecting portion can be increased, and twisting and the like can be absorbed by the connecting portion at the time of mounting, thereby improving the wearability. it can.

According to an eighth embodiment of the present invention, in the biometric measurement electrode according to the seventh embodiment, the shield layer in the living body mounting portion is formed in a circular shape, and the width of the shield layer in the connecting portion is set in the living body mounting portion. it is obtained by less than the diameter of the shield layer.
According to the present embodiment, by reducing the width of the shield layer at the connecting portion, the flexibility at the connecting portion can be increased, and twisting and the like can be absorbed at the connecting portion at the time of mounting, thereby improving the mounting property. it can.

The clip according to the ninth embodiment of the present invention is a clip that holds the biometric electrode according to any one of the first to eighth embodiments, and a main body portion on which the biometric electrode is placed, and a main body It comprises a slide part that slides relative to the part, and is formed with electrode terminals and shield terminals on the main body part.
According to the present embodiment, the electrode terminal and the shield terminal in the clip can be formed on the main body, and the clip can be reduced in thickness and size.

According to a tenth embodiment of the present invention, in the clip according to the ninth embodiment, a first tapered surface is formed on the surface of the slide portion on the main body portion side, and the first tapered surface is formed when the slide portion is opened. Thus, the slide part moves in a direction away from the main body part.
According to this embodiment, by making it difficult to open the slide portion, it is possible to prevent the biometric measurement electrode from falling off the clip during mounting.

According to an eleventh embodiment of the present invention, in the clip according to the ninth or tenth embodiment, a second tapered surface is formed on the main body portion, and the sliding portion is formed by the second tapered surface when the sliding portion is closed. And a frictional resistance between the main body and the body.
According to the present embodiment, it is possible to prevent rattling and make it difficult to open the slide portion, and it is possible to prevent the biometric measurement electrode from falling off the clip during mounting.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
1A is a plan view of a biometric electrode according to the present embodiment, FIG. 1B is a rear view of the biometric electrode, and FIG. 1C is a cross-sectional view taken along line AA in FIG. FIG. 1 and FIG. 1D are cross-sectional views taken along the line BB of FIG. In FIG. 1C and FIG. 1D, the thickness dimension is drawn larger than other dimensions for convenience of explanation.

  The biometric electrode 10 according to this embodiment includes an insulating base sheet 11, an electrode layer 12 disposed on one surface of the base sheet 11, and a shield layer 13 disposed on the other surface of the base sheet 11. A first insulating layer 14 disposed on the surface of the electrode layer 12 on the side opposite to the base sheet 11; a second insulating layer 15 disposed on the surface of the shield layer 13 on the side opposite to the base sheet 11; The auxiliary sheet 16 is provided.

The base sheet 11 includes a living body wearing part X to be affixed to the skin of the subject, a holding part Z electrically connected to the electrode terminal 22 and the shield terminal 23 in the clip 20 shown in FIG. It is comprised from the connection part Y which connects.
The base sheet 11 has the living body mounting portion X formed in a circular shape, and the width Ly of the connecting portion Y is smaller than the diameter Lx of the living body mounting portion X and smaller than the width Lz of the holding portion Z.
A through hole 11 </ b> A is formed in the base sheet 11 in the clamping part Z.

The electrode layer 12 is disposed on the living body mounting part X, the connecting part Y, and the clamping part Z.
The electrode layer 12 in the living body mounting portion X is formed in a circular shape, the width 12Ly of the electrode layer 12 in the connecting portion Y is smaller than the diameter 12Lx of the electrode layer 12 in the living body mounting portion X, and the electrode layer 12 in the holding portion Z The width is smaller than 12Lz.
An input surface 12A that is electrically connected to the skin is formed on the electrode layer 12 in the living body wearing portion X, and an electrode connection surface 12B that is electrically connected to the electrode terminal 22 is formed on the electrode layer 12 in the sandwiching portion Z. Is formed.

The shield layer 13 is disposed at a position covering at least the electrode layer 12. The shield layer 13 is preferably formed larger than the electrode layer 12.
The shield layer 13 in the living body wearing part X is formed in a circular shape, and the width 13Ly of the shield layer 13 in the connecting part Y is smaller than the diameter 13Lx of the shield layer 13 in the living body wearing part X, and the shield layer 13 in the holding part Z The width is smaller than 13Lz.
In the shield layer 13 in the sandwiching portion Z, a shield connection surface 13A that is electrically connected to the shield terminal 23 is formed at the position of the through hole 11A.
The shield connection surface 13A is preferably formed by embedding a conductive material in the through hole 11A.
The shield layer 13 prevents electrostatic noise and electromagnetic wave noise from being mixed during medical practice or measurement.

The first insulating layer 14 is bonded to the base sheet 11 on the outer periphery of the living body mounting portion X and the outer periphery of the connecting portion Y. The first insulating layer 14 is bonded to the base sheet 11 except for the electrode layer 12 and the shield connection surface 13A. The first insulating layer 14 covers the electrode layer 12 except for the input surface 12A and the electrode connection surface 12B.
The second insulating layer 15 is bonded to the base sheet 11 on the outer periphery of the living body mounting portion X and the outer periphery of the connecting portion Y. The second insulating layer 15 covers the shield layer 13.
The ring-shaped auxiliary sheet 16 is affixed to the first insulating layer 14 in the living body mounting portion X. In the ring of the auxiliary sheet 16, the input surface 12A and the first insulating layer 14 are arranged.
An electrolyte 17 such as gel is placed in the ring of the auxiliary sheet 16 and attached to the skin.
A protective surface sheet 18 is provided on the side of the second insulating layer 15 opposite to the base sheet 11.

  As described above, the shield layer 13 is formed to be larger than the electrode layer 12, the shield layer 13 is covered with the second insulating layer 15, and the distance between the electrode connection surface 12B and the shield connection surface 13A is increased, so that the DC5 , Withstand voltage performance that can withstand 1,000 V (for 1 minute).

  2A is a plan view of the clip holding the biometric electrode according to this embodiment in a closed state, FIG. 2B is a side view of the clip in the closed state, and FIG. 2C is the clip. FIG. 2D is a side view of the clip in the open state, and FIG. 2E is a side cross-sectional view of the clip in the open state.

The clip 20 includes a main body portion 24 on which the biological measurement electrode 10 is placed and a slide portion 25 that slides with respect to the main body portion 24.
The slide part 25 is opened and closed by sliding the slide part 25 with respect to the main body part 24. The biometric electrode 10 can be placed on the main body 24 by opening the slide portion 25, and the biometric electrode 10 is attached by closing the slide portion 25.

The main body 24 is provided with a placement surface 21z on which the sandwiching portion Z of the biological measurement electrode 10 can be placed. The placement surface 21z has a connection placement portion 21y on which the connection portion Y of the biological measurement electrode 10 can be placed. Electrode terminals 22 and shield terminals 23 are formed on the mounting surface 21z.
As shown in FIG. 2E, a first tapered surface 25A is formed on the surface of the slide portion 25 on the main body portion 24 side. 25 A of 1st taper surfaces incline so that the mounting surface 21z side may become thick.
As shown in FIG. 2D, a second tapered surface 24A is formed on the bottom surface on the rear side of the mounting surface 21z of the main body 24. 24 A of 2nd taper surfaces incline so that the mounting surface 21z side may become thick.

  3A is a plan view of the clip equipped with the biometric electrode according to the present embodiment in a closed state, FIG. 3B is a side view of the clip in the closed state, and FIG. 3C is the clip. FIG. 3D is a side cross-sectional view of the clip in the open state.

By closing the slide portion 25, the biometric electrode 10 can be mounted, and the clamping portion Z is held in the clip 20. Since the width Lz of the clamping part Z is larger than the width Ly of the connecting part Y, the biometric electrode 10 does not come out of the clip 20 when the slide part 25 is closed.
The biometric electrode 10 can be attached to and detached from the clip 20 by opening the slide portion 25. Further, in a state where the biometric electrode 10 is attached to the clip 20, the electrode connection surface 12 </ b> B is in pressure contact with the electrode terminal 22, and the shield connection surface 13 </ b> A is in pressure contact with the shield terminal 23.

During the opening operation of the slide portion 25, the slide portion 25 moves in a direction away from the main body portion 24 by the first tapered surface 25A. By making the slide part 25 difficult to open by the first tapered surface 25A, it is possible to prevent the biometric measurement electrode 10 from falling off the clip 20 during mounting.
Further, during the closing operation of the slide portion 25, a frictional resistance between the slide portion 25 and the main body portion 24 is added by the second tapered surface 24A. The second tapered surface 24 </ b> A prevents rattling and makes it difficult to open the slide portion 25, and prevents the biometric electrode 10 from falling off the clip 20 when attached.

As described above, according to this embodiment, since the electrode connection surface 12B and the shield connection surface 13A are formed on one surface of the base sheet 11, the electrode terminal 22 and the shield terminal 23 in the clip 20 are on one surface. Thus, the clip 20 can be reduced in thickness and size.
Further, according to the present embodiment, the first insulating layer 14 and the base sheet 11 are bonded to each other on the outer periphery of the living body mounting portion X and the outer periphery of the connecting portion Y, thereby reliably preventing the electrode from being short-circuited due to sweat or the like. .

In the present embodiment, the mounting surface 21z is formed on a part of the main body 24. However, the entire surface of the main body 24 is used as the mounting surface 21z, and the entire surface of the main body 24 is covered with the sandwiching portion Z of the biological measurement electrode 10. May be. By setting the holding portion Z to a size that covers the entire surface of the main body portion 24, the wiring length in the main body portion 24 connected to the electrode terminal 22 can be shortened, or the wiring in the main body portion 24 can be connected to the holding portion Z. Since it can be covered with the shield layer 13, noise at the clip 20 can be prevented.
Further, the entire surface of the slide portion 25 may be covered with a shield member. In this case, a part of the insulating layer 15 in the clamping part Z is removed to expose the shield layer 13, and the shield member that covers the slide part 25 is brought into contact with the exposed shield layer 13. Alternatively, the shield member that covers the slide portion 25 is connected to the wiring connected to the shield terminal 23.

  The present invention is suitable for a biometric electrode used for an electrocardiogram examination, and can reduce the thickness and size of a clip and reliably prevent a short circuit of the electrode.

DESCRIPTION OF SYMBOLS 10 Biological measurement electrode 11 Base sheet 11A Through hole 12 Electrode layer 12A Input surface 12B Electrode connection surface 13 Shield layer 13A Shield connection surface 14 1st insulating layer 15 2nd insulating layer 20 Clip 22 Electrode terminal 23 Shield terminal 24 Main body Part 24A Second taper surface 25 Slide part 25A First taper surface

Claims (11)

A base sheet made of an insulator; an electrode layer disposed on one surface of the base sheet; and a shield layer disposed on the other surface of the base sheet;
The base sheet is
A living body wearing part to be applied to the skin of the subject;
A clamping part electrically connected to the electrode terminal and the shield terminal in the clip;
A living body measuring electrode comprising a connecting portion connecting the living body mounting portion and the clamping portion;
The electrode layer is disposed on the living body mounting part, the connecting part, and the clamping part,
The electrode layer in the living body wearing part is formed with an input surface electrically connected to the skin,
The electrode layer in the clamping part is formed with an electrode connection surface electrically connected to the electrode terminal,
A through hole is formed in the base sheet in the clamping portion,
The shield layer is disposed at a position covering at least the electrode layer,
The shield layer in the sandwiching portion is formed with a shield connection surface electrically connected to the shield terminal at the position of the through hole ,
A first insulating layer is provided on the surface of the electrode layer on the side opposite to the base sheet,
The first insulating layer covers the electrode layer except for the input surface and the electrode connection surface;
Providing a second insulating layer on the surface of the shield layer on the side opposite to the base sheet;
The second insulating layer covers the shield layer;
Attaching a ring-shaped auxiliary sheet to the first insulating layer in the living body mounting portion,
Placing the input surface and the first insulating layer in the ring of the auxiliary sheet;
In the ring of the auxiliary sheet, an electrolyte to be attached to the skin is disposed,
Forming the width (12Ly) of the electrode layer in the connecting portion smaller than the width (12Lz) of the electrode layer in the sandwiching portion;
Forming a width (13Ly) of the shield layer in the connecting portion smaller than a width (13Lz) of the shield layer in the sandwiching portion;
Forming the shield layer larger than the electrode layer;
The biometric electrode according to claim 1, wherein a distance between the electrode connection surface and the shield connection surface is larger than the width (13Ly) of the shield layer at the connecting portion . Before SL first insulating layer, wherein the biological attachment portion of the outer periphery and biometric electrode according to claim 1, characterized in that bonded to the base sheet at the outer periphery of the connection portion.   The biometric electrode according to claim 2, wherein the first insulating layer is bonded to the base sheet except for the electrode layer and the shield connection surface.   The biometric electrode according to claim 3, wherein the first insulating layer covers the electrode layer except for the input surface and the electrode connection surface. Previous SL second insulating layer, biodata measurement according to claim 4 in the outer periphery and the outer periphery of the connecting portion of the body mounting portion of claim 1, characterized in that bonded to the base sheet electrode. The biological mounting portion is formed in a circular shape, the width of the connecting portion, the biological mounting portion less than the diameter, the claim from claim 1, characterized in that formed smaller than the width of the clamping portion 5 The biometric electrode according to any one of the above. Said electrode layer in the living body mounting portion formed in a circular shape, the width of the electrode layer in the connecting unit, to claim 6, characterized in that there was small comb than the diameter of the electrode layer in the living body mounting portion The electrode for biological measurement as described. The shield layer in the living body mounting portion formed in a circular shape, a width of the shielding layer in the connecting unit, to claim 7, characterized in that there was small comb than the diameter of the shielding layer in the living body mounting portion The electrode for biological measurement as described. A clip for holding the biometric electrode according to any one of claims 1 to 8 , comprising: a main body portion on which the biometric electrode is placed; and a slide portion that slides on the main body portion. And the electrode terminal and the shield terminal are formed on the main body. A first tapered surface is formed on the surface of the slide portion on the body portion side, and the slide portion moves in a direction away from the body portion by the first taper surface when the slide portion is opened. The clip according to claim 9 . Claims wherein the second tapered surface is formed in the body portion, characterized in that the frictional resistance is added between the slide portion and the body portion by the second tapered surface when the closing operation of the slide portion Item 10. The clip according to item 9 or claim 10 .