KR101407967B1 - Electrode Assembly for Electrocorticography with Height and Direction Variable Electrode and Apparatus for Electrocorticography using the same - Google Patents

Abstract

There is provided an electrode body for measuring an EEG having a variable length and direction of an electrode and an EEG instrument using the same. An electrode body for EEG according to an embodiment of the present invention includes an electrode body having one end touched to the scalp and a variable length, and a body coupled with the electrodes. Thereby, the pressure applied to the scalp by the electrodes can be uniformly maintained, and more accurate EEG measurement becomes possible.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electroencephalogram measurement apparatus and a method of measuring an electroencephalogram (EEG)

[0001] The present invention relates to an electrode body for EEG measurement and an EEG measurement device using the same, and more particularly, to an electrode body for making contact with a human scalp for EEG measurement and an EEG measurement device using the same.

Electrodes for EEG measurements are classified as wet electrodes and dry electrodes. The wet electrode is used to supply moisture to the scalp using a gel, which can lower skin impedance and reduce noise, thus enabling accurate EEG measurement.

However, the wet electrode method causes discomfort because the gel is applied to the scalp, preparation for EEG measurement is long, and sometimes hair removal is required.

A dry electrode made of a metal material has been developed to solve the problem of the wet electrode. The inconvenience caused by the wet electrode by the dry electrode could be solved.

However, dry electrodes have different pressures on the scalp. This is due to the fact that the head is not a plane but a very irregular curved surface. The dry electrodes may be in intimate contact with the scalp depending on their position, or they may come in contact with each other weakly, which results in poor EEG measurement accuracy.

In addition, since the dry electrode does not supply moisture to the scalp, the skin impedance is high, and since it is not fixed to the scalp like a wet electrode, there is a problem that noises are generated due to movement of the head.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide an electroencephalogram (EEG) instrument for measuring EEG waves, And an EEG measuring device using the same.

Another object of the present invention is to provide a method for attenuating high impedance and high noise generated by using a dry electrode and an electrode body for electroencephalogram measurement using a hybrid electrode combining features of dry electrode and wet electrode, And an EEG measuring device using the same.

According to an aspect of the present invention, there is provided an electrode for electroencephalogram (EEG), comprising: an electrode having one end in contact with a scalp and a variable length; And a combination of the electrodes.

The electrode includes: an electrode body; An electrode body housing part; And an electrode spring which is provided in the electrode body accommodating portion and has one end in contact with a supporting plate provided on the coupling body and the other end in contact with the electrode body, and the electrode body is accommodated in the electrode body accommodating portion Accordingly, the length of the electrode can be determined.

The electrode assembly for electroencephalogram measurement according to an embodiment of the present invention may further include a support having one side fixed to the frame and the other side coupled to the coupling body and having a variable length.

The support base includes a support base body; A support base body receiving part; And a support spring which is provided in the support body receiving part and has one end in contact with a fixing device for fixing the support to the frame and the other end in contact with the support body, The length of the support can be determined depending on the degree of storage.

In addition, the coupling body may be coupled with the support base in a manner of accommodating balls provided on the other side of the support base, and may change the direction of the electrode by ball-turning around the support base.

The electrode body for EEG according to an embodiment of the present invention may further include a gel attached to the scalp contacting portion of the electrode.

As described above, according to the present invention, since the length and / or the direction of the electrodes are varied in the electrode body for EEG measurement, the pressures applied by the electrodes to the scalp can be uniformly maintained, and more accurate EEG measurement becomes possible.

In addition, according to the present invention, it is possible to use a hybrid electrode combining the characteristics of a dry electrode and the characteristics of a wet electrode, thereby combining the advantages of a dry electrode capable of simple EEG measurement without discomfort and the advantages of a wet electrode effective in impedance and noise attenuation. And can operate it.

1 is a perspective view of an EEG apparatus according to a preferred embodiment of the present invention,
FIG. 2 is a front view of the EEG apparatus shown in FIG. 1. FIG.
FIG. 3 is a plan view of the EEG apparatus shown in FIG. 1,
FIG. 4 is a rear view of the EEG apparatus shown in FIG. 1;
5 is a view provided for explaining the directional variation of the electrode assembly,
6 is a cross-sectional view of the support,
7 is a sectional view of the electrode assembly,
8 and 9 are views provided for explanation of the hybrid electrode.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a perspective view of an EEG apparatus according to a preferred embodiment of the present invention. FIG. 2 is a front view of the EEG apparatus shown in FIG. 1, FIG. 3 is a plan view of the EEG apparatus shown in FIG. 1, and FIG. 4 is a rear view of the EEG apparatus shown in FIG. Respectively.

1 to 4, an EEG apparatus according to an exemplary embodiment of the present invention includes a frame 110, a fixture 120, and a plurality of electrode assemblies 130.

A plurality of electrode bodies 130 for measuring brain waves are installed in the frame 110. The electrode bodies 130 are fixed to the frame 110 by a fixing device 120. [

1 to 4, it is assumed that the frame 110 is provided with two electrode bodies 130, but the number of the electrode bodies 130 is not limited. It is also possible that three or more electrode bodies 130 are provided.

Also, the straight frame 110 shown in Figs. 1 to 4 is also a simple example for convenience of explanation. The frame 110 may be a curved (headset type) or hemispherical (hat type) frame. In the case of embodying a hemispherical frame, it is preferable to increase the number of the electrode bodies 130 further.

The electrode assembly 130 includes a support base 140 and an electrode assembly 150. The upper side of the support member 140 is fixed to the frame 110, and the lower side of the support member 140 is coupled to the electrode assembly 150. The electrode assembly 150 is a structure in which a plurality of electrodes 155-1, 155-2, and 155-3 are physically combined.

Here, the length of the support table 140 is elastically variable, the direction of the electrode assembly 150 is variable, and the length of the electrodes 155-1, 155-2, and 155-3 is elastically variable to be.

When the EEG device is brought into close contact with the subject's head, the length of the support 140 provided on the left side of the frame 110 and the length of the support 140 provided on the left side may be different from each other. This is because the pressure applied to the scalp by the electrode assembly 150 is constant for each electrode assembly 150.

When the EEG device is brought into close contact with the subject's head, the direction of the electrode assembly 150 provided on the left side of the frame 110 and the direction of the electrode assembly 150 provided on the right side may be different. This is to ensure that the electrodes 155-1, 155-2, and 155-3 provided in the electrode assembly 150 are in a substantially perpendicular contact with the scalp.

5 illustrates a state in which the direction of the electrode assembly 150 provided on the left side of the frame 110 and the direction of the electrode assembly 150 provided on the right side are changed differently.

The lengths of the electrodes 155-1, 155-2, and 155-3 provided in the electrode assembly 150 are different from each other when the EEG apparatus is brought into close contact with the head of the subject. It is a structure that can be.

This is to ensure that the pressure applied to the scalp by the electrodes 155-1, 155-2, and 155-3 is constant. Considering that the scalp is curved, the length of the middle electrode will be shorter than the electrodes located on both sides.

The variable length structure of the support member 140 is a function of the pressure applied to the scalp by the electrode assembly 150 and ultimately the pressure applied to the scalp by the electrodes 155-1, 155-2, and 155-3 provided on the electrode assembly 150 It is a means for collective and comprehensive coordination.

The variable length structure of the electrodes 155-1, 155-2, and 155-3 is used to individually and finely adjust the pressures applied to the scalp by the electrodes 155-1, 155-2, and 155-3 It is means.

Hereinafter, each structure will be described in detail.

6 is a cross-sectional view of the support 140 shown in Figs. 1-5. 6, the support base 140 includes a support base body receiving portion 141, a support base spring 142, a support base body 143, and a ball-joint 144.

The support base body receiving portion 141 receives the support base spring 142 and a part of the support base body 143 is received. The upper end of the support spring 142 is in contact with the fixture 120, and the lower end of the support spring 142 is in contact with the support body 143.

The support body 143 provides a constant pressure to the scalp side due to the elastic force of the support spring 142. The retention length of the support base body 143 relative to the support base body retention portion 141 is determined by the degree of retraction of the support base spring 142. The length of the support base 140 is determined by the retention length.

7 is a cross-sectional view of the electrode assembly 150 shown in Figs. 1 to 6. Fig. 7, the electrode assembly 150 includes a cover 151, a housing 152, a support plate 153, an electrode fixing portion 154, and electrodes 155-1, 155-2, and 155-3 ).

The housing 152 houses a ball-joint 144 provided at the lower portion of the support body 143 and is coupled to the housing 152 and the ball-joint 144 by a cover 151 so as to be ball-rotatable. Thereby, the electrode assembly 150 can ultimately change the direction of the electrodes 155-1, 155-2, and 155-3 while performing the two-dimensional ball-rotation movement around the support table 140 .

On the other hand, the electrodes 155-1, 155-2, and 155-3 are fixed to the respective positions in the housing 152 by the electrode fixing portions 154. 7, the electrodes 155-1, 155-2, and 155-3 are electrically connected to the electrode body housing portion 155-11, the electrode spring 155-12, and the electrode body 155-13, Respectively.

An electrode spring 155-12 is accommodated in the electrode body housing part 155-11 and a part of the electrode body 155-13 is accommodated. The upper end of the electrode spring 155-12 is in contact with the support plate 153, and the lower end thereof is in contact with the electrode body 155-13.

The electrode body 155-13 provides a constant pressure to the scalp side due to the elastic force of the electrode spring 155-12. The storage length of the electrode body 155-13 with respect to the electrode body housing part 155-11 is determined according to the degree of contraction of the electrode spring 155-12. 155-2 and 155-3 are determined.

8 and 9 are views provided for explanation of the hybrid electrode. As shown in FIGS. 8 and 9, the hybrid electrode is an electrode having a structure in which a gel 156 is coupled to an end of an electrode body 155-13, which is a portion where the scalp contacts.

To this end, the gel 156 may be coupled to the electrode by forming a groove in the end of the electrode body 155-13 and attaching the gel 156 to the formed groove.

Up to this point, the electrode body for EEG measurement having a structure in which the length of the support table 140, the direction of the electrode assembly 150, and the lengths of the electrodes 155-1, 155-2 and 155-3 are variable, The device has been described in detail with a preferred embodiment.

Since the above structure is presented as a preferred embodiment, it is also included in the scope of the present invention to adopt only a part of the variable structure to implement an electrode body for EEG measurement and an EEG instrument.

In the above embodiment, three electrodes 155-1, 155-2 and 155-3 are shown and described in the electrode assembly 150, but they are merely illustrative for convenience of explanation. The number of electrodes provided in the electrode assembly 150 may be four or more, but may be two or less.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

110: frame 120: retainer
130: electrode body 140:
141: support base body housing part 142: support spring
143: support base body 144: ball joint
150: electrode assembly 151: cover
152: housing 153:
154: electrode fixing unit 155-1, 155-2, 155-1: electrode
155-11: electrode body housing part 155-12: electrode spring
155-13: electrode body

Claims (6)

An electrode which once contacts the scalp and has a variable length;
A combination of a plurality of the electrodes; And
And a support whose one side is fixed to the frame and the other side is coupled to the coupling body and whose length is variable,
[0028]
A support body;
A support base body receiving part; And
And a support spring which is provided in the support body accommodating portion and has one end in contact with the fixing device for fixing the support to the frame and the other end in contact with the support body,
The length of the support base is determined according to the degree of the support base body received in the support base body accommodation portion,
The electrode
An electrode body;
An electrode body housing part; And
And an electrode spring which is provided in the electrode body housing part and has one end in contact with a supporting plate provided in the coupling body and the other end in contact with the electrode body,
The length of the electrode is determined according to the extent to which the electrode body is housed in the electrode body housing part,
The above-
And a ball provided on the other side of the supporter is coupled to the supporter in such a manner as to accommodate the ball, and the ball is rotated around the supporter to vary the direction of the electrode,
Wherein a gel is attached to the groove formed in the scalp contacting portion of the electrode.
delete delete delete delete delete

Images