JP2560155Y2 - EEG measurement device - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electroencephalogram measurement device.

[0002]

2. Description of the Related Art In order to measure an electroencephalogram, for example, as many as 21 electroencephalogram electrodes must be attached to a predetermined portion of a head. At this time, in order to reduce the impedance and the potential difference between the skin on the head and the electrode, it is necessary to ensure contact between the two. Each of them was attached one by one to the skin on the head of the electroencephalogram measurement point using a tape coated with an adhesive. Therefore, a preparation operation of about 30 minutes is required before the measurement is started, and the subject is given considerable pain when the silver plate is attached or detached. Then, after removing the silver plate, the head had to be washed to remove the silver paste. In addition, since the skin on the head is keratinized, the impedance and the potential difference between the skin on the head and the electrodes are increased, and there is a problem that accurate measurement is difficult.

[0003] Therefore, an electroencephalogram measuring device using an electroencephalogram electrode made of silver-silver chloride and an electrolysis solution such as potassium chloride, and using the electroencephalography electrode and the electrolysis solution for forming a half-cell has been studied. ing. That is, the tip protruding from the probe tip and exuding the electrolytic solution was brought into contact with the brain wave measurement point on the head, and at the same time, was also brought into contact with the forehead and ear as body earth, and was brought into contact with the positive electrode and the forehead that were in contact with the brain wave measurement point An electroencephalogram is measured by measuring a potential between three points of the body earth electrode and the ear earth electrode in contact with the ear. The electroencephalogram measurement device using an electrolytic solution covers a probe mounting device with a predetermined number of holders attached to the head, and when a probe is mounted on this holder, a plurality of probes simultaneously come into contact with the electroencephalogram measurement points on the head. It is possible to efficiently measure brain waves.

[0004]

The probe has a tip mounted downward in the center of an inverted tray-shaped electrode cover, and the electrode cover is mounted on the upper edge of the cylindrical holder. . Therefore, when the probe mounting tool is put on the head, the hair enters the holder,
When the electrode cover of the probe is mounted on the upper edge of the holder, the hair may be pinched between the electrode cover of the probe and the upper edge of the holder, causing severe pain to the subject.

Therefore, an object of the present invention is to provide an electroencephalogram measuring instrument which does not cause pain when the probe is mounted on the holder.

[0006]

In order to achieve the above object, the present invention comprises a half-cell comprising a cylindrical holder attached to a probe mounting device covering a head, a built-in brain wave electrode and an electrolyte. An electroencephalogram measurement tool for measuring an electroencephalogram by contacting the tip of the probe attached to the holder to an electroencephalogram measurement point on the head, comprising an electroencephalogram measurement probe in which the electrolyte solution oozes from the tip. A notch is formed so that the hair can extend from the notch when the electrode cover of the probe is mounted on the upper edge of the holder.

[0007]

As described above, since the notch is formed on the upper edge of the holder, when the electrode cover of the probe is mounted on the upper edge of the holder, the hair that has entered the holder is moved to the notch. Then, when the electrode cover of the probe is mounted on the upper edge of the holder, the hair extends from the cutout portion, and the hair does not get caught between the electrode cover of the probe and the upper edge of the holder. Therefore, an electroencephalograph that does not cause severe pain to the subject can be provided.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below with reference to the drawings. FIG. 3 shows a night cap-shaped probe mounting device made of a wire. The annular belt 41 and the three head covering belts 42 are each made of two parallel wires, and the first connecting device 43 and the second They are connected by the connector 44 to form a night cap-shaped hat. The wires of the annular belt 41 and the head covering belt 42 are slidably inserted through the first connecting device 43 and the second connecting device 44, and are designed so that the sliding resistance of the wires becomes a predetermined value. ing. In other words, the wire does not slide unintentionally, but by forcibly sliding, the night cap-shaped hat can be adjusted according to the size of the head. Then, 19 holders 1 are attached to the wire at predetermined positions according to the Jasper 10-20 method. FIG. 3 shows only one holder. Then, although a probe 2 described later is held in the holder 1, the position of the holder 1 can be freely changed, so that accurate measurement can be performed regardless of the shape of the head.

As shown in FIGS. 1 and 2, the holder 1 is an electrode holder receiving member 12 formed of a synthetic resin into a cylindrical shape.
And an electrically conductive electrode holder 11 formed of, for example, bronze with a gold-plated surface. The electrode holder 11 is fitted on the upper outer periphery of the electrode holder receiver 12 to be integrated. Then, cut out from the upper edge of the holder 1
However, this notch 13 is
It extends below the eleventh step 11a. A head cover belt 42 is inserted through the electrode holder receiver 12, and the lead wire 3 is connected to the electrode holder 11.

Next, the probe 2 will be described with reference to FIGS. The electrode cover 21 is made of, for example, gold-plated brass, has conductivity, and is formed in an inverted tray shape. And this electrode cover 21 is the holder 1
To the electrode holder 11. Note that the electrode cover 2
The connection between the electrode holder 11 and the electrode holder 11 is not limited to fitting, but may be screwing. A holding tube 26 is fixed to the electrode cover 21, and a chip holder 25 is slidably disposed in the holding tube 26.

An electroencephalogram electrode 22 is fixed in the tip holder 25, and a tip 2 containing an electrolytic solution is provided in front of the electroencephalogram electrode 22.
3 is located. The electroencephalogram electrode 22 is an electrode plate made of, for example, silver-silver chloride. The electroencephalogram electrode 22 is in contact with the chip 23, and the two constitute a half cell. A conductive spring 24 made of, for example, phosphor bronze is interposed between the electrode cover 21 and the electroencephalogram electrode 22, and the electrode cover 21 and the electroencephalogram electrode 22 are electrically connected. , The electroencephalogram electrode 22 and the tip 23 are propelled forward.

On the other hand, the chip 23 includes KCl, RbCl,
CsCl, NaCl, LiCl, CaCl ₂ , MgCl ₂
An electrolytic solution composed of an aqueous chloride solution is gelled in a colloidal state by a gelling agent. As a gelling agent,
For example, CMC, PVA, water-soluble polymers such as polyacrylamide, or agar, algarose, gelatin,
Peptin, silica gels and the like can also be used. As described above, since the chip 23 is a gel of the electrolytic solution,
The electrolyte does not exude excessively and does not stain the hair during measurement. In addition, since the volume is shrunk even after drying, there is an advantage that the time until the conductivity is lost is long and the life is long. Alternatively, a polymer water-absorbing resin may be formed into a block shape with an appropriate binder such as EVA so as to contain an electrolytic solution.

When measuring the electroencephalogram, a night cap-shaped probe attachment is put on the subject's head. At this time, the hair enters the cylindrical holder 1.
For this reason, after bringing the hair into the notch 13, the electrode cover 21 of the probe 2 is
Fit into 11. By this fitting, the lower edge of the electrode cover 21 comes into contact with the step 11a of the electrode holder 11, but since the notch 13 extends below the step 11a, the hair F is The hair extends from the window formed by the electrode cover 21, so that the hair does not get caught between the electrode cover 21 and the upper edge of the holder 1. Therefore, the subject does not suffer severe pain.

When the probe 2 is mounted on the holder 1, the electroencephalogram electrode 22 is electrically connected to the lead wire 3, and the tip 23 is securely attached to the scalp irrespective of the unevenness of the head by the elastic force of the spring 24. Touch and tip 23
From the electrolyte. The tip 23, which is a gel of the electrolyte, may shrink over time.However, the elasticity of the spring 24 can cover this shrinkage, ensuring reliable contact with the scalp and accurate EEG can be measured.

[0015]

[Effects of the Invention] As described above, according to the present invention,
An electroencephalograph that can measure accurately without causing pain when the probe is mounted on the holder can be provided.

[Brief description of the drawings]

FIG. 1 is a perspective view of an embodiment of the present invention.

FIG. 2 is an explanatory diagram of a use state.

FIG. 3 is a perspective view of a probe mounting tool.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Holder 2 Probe 21 Electrode cover 22 Electroencephalogram electrode 23 Tip 3 Lead wire

Claims (1)

(57) [Scope of request for utility model registration] 1. A half-cell is formed by a cylindrical holder attached to a probe mounting tool that covers the head, a built-in electroencephalogram electrode and an electrolyte, and comprises a probe for measuring an electroencephalogram in which the electrolyte exudes from a chip. An electroencephalogram measurement device for measuring an electroencephalogram by bringing a probe tip of the probe mounted on a holder into contact with an electroencephalogram measurement point on a head, wherein a notch is formed at an upper edge of the holder, and an electrode cover of the probe is provided. An electroencephalogram measurement device, wherein the hair can extend from the cutout portion when the hair is attached to the upper edge of the holder.