JP2023035373A - Electroencephalograph - Google Patents

Abstract

A technique for facilitating the work of adjusting the wearing state of an electroencephalogram measuring device is provided. An electroencephalogram measurement apparatus (1) includes a frame (10) attached to a head (99), an electroencephalogram electrode unit (80) attached to the frame (10), and a frame (10) provided on the side of the head (99) to introduce gas into the inside. and a balloon 50 that is inflated by force, and the balloon 50 is provided in a region where the electroencephalogram electrode unit 80 is not provided. [Selection drawing] Fig. 1

Description

The present invention relates to an electroencephalogram measurement device.

Various developments have been made on electroencephalogram measuring devices. As this type of technology, for example, the technology described in Patent Document 1 is known. An electroencephalogram measurement electrode (electroencephalogram electrode holder) disclosed in Patent Document 1 includes a body portion arranged around the head, a plurality of support portions attached to the body portion, and at least a portion of the support portion. and an electroencephalogram electrode provided on the distal end side and supported inside the main body, wherein the main body has a size that allows a finger to pass through the electroencephalogram electrode to touch the electroencephalogram electrode. The electroencephalogram electrode has an opening, and the electroencephalogram electrode includes a flexible portion that is supported on the base end side by the support portion and that is flexible and elastically deformable; and an electrode portion for contact, wherein the flexible portion is deformable until the electrode portion is moved in a direction away from the axis of the support portion, and the flexible portion causes the electrode portion to contact with the head surface. The flexible portion also applies contact pressure to the head surface to the electrode portion moved in a substantially parallel direction along the head surface.

JP 2018-94054 A

In some cases, a cushioning member such as a sponge is placed between the headset and the head in order to match the wearing state of the electroencephalogram measurement device to the size of the subject's head, but it is necessary to replace the cushioning member after wearing. In some cases, a new technique for adjusting the wearing state was required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a technique for facilitating the work of adjusting the wearing state of an electroencephalogram measurement apparatus.

According to the invention,
a frame attached to the head;
electroencephalogram electrodes attached to the frame;
a balloon provided on the head side of the frame and inflated by introducing gas into the inside;
has
The balloon is provided in a region where the electroencephalogram electrode is not provided,
An electroencephalogram measurement device is provided.

Advantageous Effects of Invention According to the present invention, it is possible to provide a technique for facilitating the work of adjusting the wearing state of an electroencephalogram measurement device.

1 is a perspective view schematically showing an electroencephalogram measurement device attached to a subject's head according to a first embodiment; FIG. 4 is a perspective view schematically showing a frame according to the first embodiment; FIG. 1 is a perspective view schematically showing a balloon according to the first embodiment; FIG. FIG. 2 is a diagram schematically showing an electroencephalogram electrode unit according to the first embodiment; FIG. FIG. 10 is a vertical cross-sectional view of an electrode holding portion according to a second embodiment;

<<First Embodiment>>
<Overview>
BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view schematically showing the electroencephalogram measurement device 1 attached to the head 99 of a subject (person). FIG. 2 is an exploded perspective view schematically showing the electroencephalogram measurement device 1. As shown in FIG. 3A and 3B are diagrams schematically showing a balloon, FIG. 3A being a plan view and FIG. 3B being a side view. FIG. 3(b) shows the balloon 50 attached to the head 99 (indicated by the dashed line in the figure). In FIG. 3A, the positions of the electrode mounting portions 39 and 49 of the front division frame 30 and the rear division frame 40 when the balloon 50 is attached to the frame 10 are indicated by dashed lines for convenience. . In FIGS. 1 to 3, for the sake of convenience, description will be made in the up/down/front/rear/left/right directions indicated by arrows in the drawings. Also, the inner side will be described as the side facing (contacting) the head 99 in the frame 10, and the outer side will be described as the opposite side (the side not facing the head 99).

The electroencephalogram measurement device 1 is attached to a person's head 99, detects electroencephalograms as potential fluctuations from a living body, and outputs the detected electroencephalograms to an electroencephalogram display device (not shown). The electroencephalogram display device acquires electroencephalograms detected by the electroencephalogram measuring device 1, displays them on a monitor, stores data, and performs well-known electroencephalogram analysis processing.

<Structure of electroencephalogram measurement device 1>
As shown in FIG. 1 , the electroencephalogram measurement device 1 has a frame 10 , an electroencephalogram electrode unit 80 attached to the frame 10 , and a balloon 50 . The balloon 50 is inflated by introducing air into the inside, and is attached to the inner surface of the frame 10 by a predetermined fixing member (a hook-and-loop fastener 70 (indicated by a broken line in FIG. 1), which will be described later). Although only one electroencephalogram electrode unit 80 is shown in the drawing, it can be attached to a plurality of electrode attachment portions 39 and 49, respectively, as will be described later. The electrode mounting portions 39 and 49 are provided as mounting holes at positions based on, for example, the 10-20 arrangement method. In addition, in this embodiment, an example in which they are provided only at some of these positions (electrode arrangements Fz, F3, F4, O1, O2, Pz, P3, and P4) is shown. Further, the electrode mounting portions 39 and 49 may be formed of thick convex portions and mounting holes may be formed in order to provide sufficient threading.

<Configuration of frame 10>
As shown in FIG. 2, the frame 10 can be divided into a plurality of parts, a fixing frame 20 attached to and fixed to the head 99, a front split frame 30 and a rear split frame detachable from the fixing frame 20. 40. Note that the present embodiment has a symmetrical configuration unless otherwise specified. The front split frame 30 is attached to the front side of the fixing frame 20 . The rear split frame 40 is attached to the rear side of the fixing frame 20 . The front split frame 30 and the rear split frame 40 are attached to and detached from the fixing frame 20 independently of each other.

The fixing frame 20, the front division frame 30, and the rear division frame 40 are formed of a hard member such as polyamide resin, but the material is not limited to these materials, and does not affect electroencephalogram detection and is wearable. Any material suitable for workability may be used. Different materials may be used for the fixing frame 20 , the front split frame 30 and the rear split frame 40 .

<Structure of fixing frame 20>
The fixation frame 20 is configured by combining strip-shaped rigid members, and includes a peripheral fixation frame 21 and a top fixation frame 22 .

The peripheral fixing frame 21 is provided by curving a rigid member along the forehead, temporal region, and occipital region of the head 99. A front peripheral fixing frame 21a on the forehead side (front side) and an occipital region side (rear side) are provided. ), which are connected by two connecting parts 21c located in the left and right temporal regions.

The top fixing frame 22 extends from both connecting parts 21 c of the surrounding fixing frame 21 and is curved along the top of the head 99 .

The fixing frame 20 has a front side head fitting portion 24 , a front head fitting portion 26 , and a front top fitting portion 27 as a structure for attaching and detaching the front divided frame 30 . In addition, as a structure for attaching and detaching the rear split frame 40, a rear side head fitting portion 25, a rear top fitting portion 28, and a rear head fitting portion 23 are provided.

The front temporal head fitting part 24 is formed in a plate-like shape by a predetermined length ( rib-like). The front side head fitting portion 24 is fitted and fixed to a front side head fitting portion 35 of the front split frame 30 described later.

The forehead fitting portion 26 extends in a plate shape (rib shape) by a predetermined length substantially flush with the frontmost portion (that is, the position of the forehead) of the front peripheral fixed frame 21a toward the upper side (top side). there is The forehead fitting portion 26 is fitted and fixed to a forehead fitting portion 34 of the front split frame 30, which will be described later.

The front top fitting portion 27 extends from the top portion of the top portion fixing frame 22 toward the front side (that is, the forehead side) in a plate shape (rib shape) substantially flush with a predetermined length. The front top fitting portion 27 is fitted and fixed to a front top fitting portion 33 of the front split frame 30, which will be described later.

The rear temporal head fitting portion 25 is formed between the rear peripheral fixed frame 21b and the top fixed frame 22 and is substantially flush with each of the left and right connecting portions 21c. (ribbed) extending. The rear head fitting portion 25 is fitted and fixed to a rear head fitting portion 45 of the rear split frame 40, which will be described later.

The rear top fitting portion 28 extends from the top of the top fixing frame 22 toward the rear side (that is, the back of the head) in a plate shape (rib shape) substantially flush with a predetermined length. The rear top fitting portion 28 is fitted and fixed to a rear top fitting portion 43 of a rear split frame 40, which will be described later.

The occipital fitting portion 23 extends in a plate-like (rib-like) shape by a predetermined length substantially flush with the posterior portion (that is, the position of the occipital region) of the posterior peripheral fixed frame 21b toward the upper side (top side). . The occipital region fitting portion 23 is fitted and fixed to an occipital region fitting portion 44 of the rear divided frame 40 described later.

<Structure of Front Split Frame 30>
The front split frame 30 includes a front frame main body 31 and a fitting and fixing structure (a front top fitting portion 33, a front head fitting portion 34, and a front side fitting portion 35) for fitting and fixing with the fixing frame 20. As shown in FIG.

The front frame main body 31 is formed of a rigid member with a predetermined thickness and has a curved surface that curves inward along the shape of the frontal portion of the head portion 99 . Inside the front frame main body 31, a balloon right front portion 52 and a balloon left front portion 53 of the balloon 50, which will be described later, are arranged.

As a fitting and fixing structure, on the left and right lower rear portions of the front frame main body 31, front temporal head fitting portions 35 are offset outward by one step and extend in a plate shape (rib shape) by a predetermined length. The front side head fitting portion 35 is fitted and fixed to the front side head fitting portion 24 of the fixing frame 20 described above.

Specifically, it is fixed by an attachment/detachment mechanism using a stepped fitting between the front side head fitting portion 35 and the front side head fitting portion 24 . In order to prevent the fixation from coming off, the through-holes provided in the front temporal head fitting portion 35 and the front temporal head fitting portion 24 are aligned and fixed with screws 11 (see FIG. 1). A similar attachment/detachment mechanism is also used for fitting/fixing the fixing frame 20 and the front split frame 30 at other parts described below.

A front head fitting portion 34 is provided at the lower front portion of the front frame body 31, and a front top fitting portion 33 is provided at the rear upper portion thereof. out. The forehead fitting portion 34 is fitted and fixed to the forehead fitting portion 26 of the front circumference fixed frame 21a by the attachment/detachment mechanism described above. The front top fitting portion 33 is fitted and fixed to the front top fitting portion 27 of the top fixing frame 22 by the attachment/detachment mechanism described above.

Further, on the front frame body 31, electrode mounting portions 39 are provided as mounting holes for the electroencephalogram electrode units 80 at predetermined positions based on the 10-20 placement method, specifically at three positions of the electrode placements Fz, F3, and F4. It is Threaded screw holes are formed in the electrode attachment portions 39, and electroencephalogram electrode units 80 are attached thereto.

<Structure of Rear Divided Frame 40>
The rear split frame 40 includes a rear frame main body 41 and a fitting and fixing structure (rear top fitting portion 43, occipital head fitting portion 44, and rear side head fitting portion 45) with the fixing frame 20. As shown in FIG.

The rear frame main body 41 is formed of a rigid member with a predetermined thickness and a curved surface curved inward along the shape of the occipital portion of the head portion 99 . Inside the rear frame main body 41, a balloon right rear portion 54 and a balloon left rear portion 55 of the balloon 50, which will be described later, are arranged.

On the left and right lower front portions of the rear frame main body 41, the rear head fitting portions 45 are offset outward by one step and extend in a plate shape (rib shape) for a predetermined length. The posterior head fitting portion 45 is fitted and fixed to the posterior head fitting portion 25 of the fixing frame 20 by the attachment/detachment mechanism described above.

Similarly, an occipital fitting portion 44 is formed in the lower rear portion of the rear frame body 41, and a posterior top fitting portion 43 is formed in the upper front portion thereof, offset outward by one step and shaped like a plate (rib) by a predetermined length. procrastinating. The occipital region fitting portion 44 is fitted and fixed to the occipital region fitting portion 23 of the posterior periphery fixed frame 21b by the attachment/detachment mechanism described above. The rear top fitting portion 43 is fitted and fixed to the rear top fitting portion 28 of the top fixing frame 22 by the attachment/detachment mechanism described above.

The rear split frame 40 is provided with electrode mounting portions 49 as mounting holes at predetermined positions based on the 10-20 arrangement method, specifically, at five electrode positions Pz, P3, P4, O1, and O2. . Threaded screw holes are formed in the electrode attachment portions 49, and electroencephalogram electrode units 80 are attached thereto.

The attachment/detachment mechanism between the fixing frame 20 and the front split frame 30 and the attachment/detachment mechanism between the fixing frame 20 and the rear split frame 40 are not limited to the fitting mechanisms described above, and may include hook-and-loop fastener mechanisms, screwing mechanisms, and magnet joining mechanisms. Various mechanisms such as a mechanism and a thumb-turn mechanism can be used. Also, different mechanisms can be used depending on the fixation location.

The attachment/detachment mechanism (fitting mechanism) is fixed by the screws 11. At this time, the screw holes on one side (especially on the side of the front split frame 30 and the rear split frame 40) are elongated holes to make the screw fixing position variable. , the attachment positions of the front split frame 30 and the rear split frame 40 may be adjusted, and the position of the electroencephalogram electrode unit 80 may be adjusted accordingly. Even when a hook-and-loop fastener mechanism or a magnet joining mechanism is used, the same adjustment can be made by adjusting the joining position.

<Structure of Balloon 50 (Mounting Adjustment Member)>
The balloon 50 is attached to the inside of the frame 10 (on the side of the head 99) and adjusts how the electroencephalogram measurement device 1 is worn by the subject. The balloon 50 is composed of a plurality of members having air chambers made of an airtight material such as polyester. By adjusting the expansion state of the electroencephalogram measuring device 1, the mounting state of the electroencephalogram measurement device 1 on the head 99 can be adjusted. The top of the head of the balloon 50 (that is, the top of the head connecting portion 61) is not provided with an air chamber and is not inflated. It never floats off.

As shown in FIG. 3 , the balloon 50 has a balloon head circumference portion 51 , a balloon right front portion 52 , a balloon left front portion 53 , a balloon right rear portion 54 and a balloon left rear portion 55 . Although the details will be described later, each of the balloon right front portion 52, the balloon left front portion 53, the balloon right rear portion 54, and the balloon left rear portion 55 is a long hollow member having an air chamber therein. The ends are connected by a parietal connecting portion 61 provided in the parietal portion, and the respective other ends are connected at predetermined positions of the balloon head surrounding portion 51 (first to fourth head surrounding connecting portions 65a to 65d). .

<Balloon Head Surrounding Part 51>
The balloon head surrounding part 51 has a hollow annular shape and is attached to the inner surface of the surrounding fixed frame 21 . In other words, when the subject wears the electroencephalogram measurement device 1 , the balloon head circumference part 51 is arranged between the head circumference (forehead, temporal region, and occipital region) and the circumference fixing frame 21 .

The balloon head surrounding portion 51 has a structure in which two annular hollow bodies are stacked vertically in two stages. have The first balloon head surrounding portion 51a has an annular air chamber inside. The second balloon head surrounding portion 51b is similarly provided with an annular air chamber.

The first balloon head surrounding portion 51a and the second balloon head surrounding portion 51b have a structure in which their air chambers communicate with each other, and a common check valve 59 is provided. An air pump is connected to the check valve 59, and air is introduced from the air pump into the air chamber inside the balloon head surrounding portion 51 (the first balloon head surrounding portion 51a and the second balloon head surrounding portion 51b), and the air is introduced to the outside. Ejected. By adjusting the amount of air to be introduced, the expansion amount of the balloon head surrounding portion 51 can be adjusted. By opening the check valve 59, the air inside the front balloon head surrounding portion 46 is discharged. A check valve 59 is also provided in the other components of the balloon 50 (balloon right front portion 52, balloon left front portion 53, balloon right rear portion 54, balloon left rear portion 55) and has a similar function.

The air chambers of the first balloon head surrounding portion 51a and the second balloon head surrounding portion 51b may be constructed independently without being communicated with each other. Moreover, a plurality of air chambers may be provided in each of the first balloon head surrounding portion 51a and the second balloon head surrounding portion 51b, and they may communicate with each other or may be configured independently. Check valves 59 are provided according to the number of independent air chambers. By providing a large number of air chambers, it is possible to finely adjust the wearing state of the electroencephalogram measurement device 1 when worn.

<Balloon Right Front Part 52>
The balloon right front portion 52 includes a first head circumference connecting portion 65a provided at a substantially intermediate position between the forehead position (forehead position) and the right temporal region in the upper portion of the first balloon head surrounding portion 51a, and a top of the head connecting portion. 61 and is attached so as to extend vertically between the forehead position and the approximate middle position of the right side of the head. At this time, the balloon right front portion 52 is provided so as to avoid the electrode mounting portion 39 of the front divided frame 30 and does not prevent the electroencephalogram electrode unit 80 mounted on the electrode mounting portion 39 from contacting the head 99 .

The balloon right front portion 52 has a configuration in which two long hollow members are stacked vertically, and has a first balloon right front portion 52a on the front side and a second balloon right front portion 52b on the rear side. The air chamber of the first balloon right front portion 52a and the air chamber of the second balloon right front portion 52b communicate with each other, and a common check valve 59 is provided. The air chambers of the first balloon right front portion 52a and the second balloon right front portion 52b may be configured independently without being communicated with each other. Also, a plurality of air chambers may be provided in each of the first balloon right front portion 52a and the second balloon right front portion 52b, and they may communicate with each other or may be configured independently. Check valves 59 are provided according to the number of independent air chambers. By providing a large number of air chambers, it is possible to finely adjust the wearing state of the electroencephalogram measurement device 1 when worn.

<Balloon Left Front Part 53>
The balloon left front portion 53 is formed by a second head circumference connecting portion 65b provided at a substantially intermediate position between the frontal region and the left temporal region in the upper portion of the first balloon head surrounding portion 51a, and the outer edge of the top of the head connecting portion 61. It is attached so as to extend vertically between the forehead position and the substantially intermediate position between the left head position. At this time, the balloon left front portion 53 is provided so as to avoid the electrode mounting portion 39 of the front divided frame 30 , and does not prevent the electroencephalogram electrode unit 80 mounted on the electrode mounting portion 39 from contacting the head 99 .

The balloon left front portion 53 is configured by vertically stacking two rows of long hollow members, and has a first balloon left front portion 53a on the front side and a second balloon left front portion 53b on the rear side. The air chamber of the left front portion 53a of the first balloon and the air chamber of the front left portion 53b of the second balloon communicate with each other, and a common check valve 59 is provided. The air chambers of the first balloon left front portion 53a and the second balloon left front portion 53b may be configured independently without being communicated with each other. Moreover, a plurality of air chambers may be provided in each of the first balloon left front portion 53a and the second balloon left front portion 53b, and they may communicate with each other or may be configured independently. Check valves 59 are provided according to the number of independent air chambers. By providing a large number of air chambers, it is possible to finely adjust the wearing state of the electroencephalogram measurement device 1 when worn.

<Balloon Right Rear 54>
The balloon right rear portion 54 is the outer edge of the third head circumference connecting portion 65c provided at a substantially intermediate position between the occipital region and the right temporal region in the upper portion of the first balloon head surrounding portion 51a and the top of the head connecting portion 61. It is attached so as to extend vertically between the occipital region and the approximately middle position between the right temporal regions. At this time, the balloon right rear portion 54 is provided so as to avoid the electrode mounting portion 39 of the front divided frame 30 and does not prevent the electroencephalogram electrode unit 80 mounted on the electrode mounting portion 39 from contacting the head 99 .

The balloon right rear portion 54 has a configuration in which two long hollow members are stacked vertically, and has a first balloon right rear portion 54a on the rear side (occipital side) and a second balloon right rear portion 54b on the front side. The air chamber of the right rear portion 54a of the first balloon and the air chamber of the right rear portion 54b of the second balloon communicate with each other, and a common check valve 59 is provided. Note that the air chambers of the first balloon right rear portion 54a and the second balloon right rear portion 54b may be configured independently without being communicated with each other. Moreover, a plurality of air chambers may be provided in each of the first balloon right rear portion 54a and the second balloon right rear portion 54b, and they may communicate with each other or may be configured independently. Check valves 59 are provided according to the number of independent air chambers. By providing a large number of air chambers, it is possible to finely adjust the wearing state of the electroencephalogram measurement device 1 when worn.

<Balloon left rear 55>
The balloon left rear portion 55 is the outer edge of the parietal connecting portion 61 and a fourth head circumference connecting portion 65d provided at a substantially intermediate position between the occipital region and the left temporal region in the upper portion of the first balloon head surrounding portion 51a. It is attached so as to extend vertically between the occipital position and the substantially intermediate position of the left temporal region. At this time, the left rear portion 55 of the balloon is provided so as to avoid the electrode mounting portion 39 of the front divided frame 30 so that the electroencephalogram electrode unit 80 mounted on the electrode mounting portion 39 does not interfere with the head 99 .

The balloon left rear portion 55 has a configuration in which two long hollow members are stacked vertically, and has a first balloon left rear portion 55a on the rear side (occipital region side) and a second balloon left rear portion 55b on the front side. The air chamber of the left rear portion 55a of the first balloon and the air chamber of the left rear portion 55b of the second balloon communicate with each other, and a common check valve 59 is provided. The air chambers of the left rear portion 55a of the first balloon and the left rear portion 55b of the second balloon may be configured independently without being communicated with each other. Moreover, a plurality of air chambers may be provided in each of the first balloon left rear portion 55a and the second balloon left rear portion 55b, and they may communicate with each other or may be configured independently. Check valves 59 are provided according to the number of independent air chambers. By providing a large number of air chambers, it is possible to finely adjust the wearing state of the electroencephalogram measurement device 1 when worn.

<Mounting Structure of Balloon 50 and Frame 10 (Velcro Fastener)>
Fixing members for attaching the balloons 50 are provided at a plurality of locations inside the fixing frame 20 . Here, as fixing members, the hook surface 71 of the hook-and-loop fastener 70 is attached to the fixing frame 20 and the loop surface 72 is attached to the balloon 50 . For example, the hook surface 71 of the hook-and-loop fastener 70 is provided at a total of five locations on the inner surface of the fixing frame 20: the forehead portion, the temporal portion (two locations on the inner surface side of the connecting portion 21c), the occipital portion, and the crown portion. is provided. Correspondingly, the loop surfaces 72 of the hook-and-loop fasteners 70 are provided at a total of five locations, namely, the forehead portion, the temporal portion, the occipital portion, and the inner surface side portion of the parietal connecting portion 61 of the balloon head surrounding portion 51 of the balloon 50. ing.
The location and number of hook-and-loop fasteners 70 (hook surface 71 and loop surface 72) are not limited to this, and may be any location and number at which the balloon 50 is appropriately attached to the frame 10. FIG.

<EEG electrode unit 80>
FIG. 4 shows a front view of the electroencephalogram electrode unit 80. As shown in FIG. The electroencephalogram electrode unit 80 has a substantially cylindrical body portion 81 and an electrode projection portion 83 provided on one end side (lower side in the drawing). Threads are provided on the side portions of the body portion 81 and screwed into screw holes provided in the electrode mounting portions 39 and 49 described above.

A signal extraction part 85 is formed at one end (upper end in the figure) of the electroencephalogram electrode unit 80 . An electrode protrusion 83 is provided at the other end (lower end in the figure) of the electroencephalogram electrode unit 80 . The electrode projecting portion 83 is formed by providing a conductive electrode member in a structure of a rubber-like elastic body (such as silicone rubber) having a predetermined shape, for example, and extracting a signal detected by the electrode member from the signal extracting portion 85 through a signal line. It's becoming

The predetermined shape of the rubber-like elastic body exhibited by the electrode protrusion 83 is, for example, a shape in which a plurality of protrusions extend annularly from a cylindrical base. A conductive electrode member is provided on the protrusion.
The contact pressure between the scalp (head 99) and the electrode protrusions 83 is adjusted by adjusting the amount of protrusion toward the head 99 when the electroencephalogram electrode unit 80 is screw-fitted to the electrode attachments 39 and 49. can do.

<Wearing/adjustment method of electroencephalogram measuring device 1>
A method of mounting and adjusting the electroencephalogram measuring apparatus 1 having the above configuration on the head 99 will be described.
As a device preparation step, the front split frame 30 and the rear split frame 40 are attached to the fixing frame 20 and the frame 10 is assembled. Furthermore, a balloon 50 is attached to the inner surface of the assembled frame 10 . At this time, air may have already been introduced into the balloon 50 .

Subsequently, as a mounting step, the examiner mounts the frame 10 to which the balloon 50 is attached to the subject's head 99 .

Next, as an adjustment step, the inspector adjusts the mounting state of the frame 10 and the head 99 . If there is looseness in the mounting between the balloon 50 and the head 99, the air chamber in the loose portion is replenished with air from the air pump. If the test subject feels that the wearing state is tight, the air in the portion of the balloon 50 that feels tight is removed.

After adjusting the mounting state, the electroencephalogram electrode unit 80 is mounted on the electrode mounting portion 39 of the frame 10 as an electrode mounting step. If necessary, the person in charge of inspection performs the replacement process. In other words, when the electroencephalogram electrode unit 80 is attached to the electrode attachment portion 39, it is necessary to adjust the attached state of the electroencephalogram electrode unit 80 to the head 99, or when the attached electroencephalogram electrode unit 80 needs to be adjusted or replaced. , the person in charge of the examination removes and replaces the electroencephalogram electrode unit 80 to be adjusted or the like. If necessary, the whole rear split frame 30 is removed and replaced.

The features of the electroencephalogram measurement apparatus 1 of this embodiment are summarized as follows.
(1) The electroencephalogram measurement device 1 includes a frame 10 attached to the head 99,
an electroencephalogram electrode unit 80 (electroencephalogram electrode) attached to the frame 10;
a balloon 50 provided on the head 99 side of the frame 10 and inflated by introducing gas thereinto;
The balloon 50 is provided in a region where the electroencephalogram electrode unit 80 is not provided.
The balloon 50 can adjust the mounting state of the head 99 without affecting the attachment of the electroencephalogram electrode unit 80 .
(2) The balloon 50 is detachably attached to the frame 10 .
Since the balloon 50 is detachable, when the balloon 50 is damaged or the like, it can be dealt with by replacing only the balloon 50 .
(3) The balloon 50 is configured with a plurality of communicating air chambers.
The inflated state of the balloon 50 can be adjusted for each communicating air chamber.
(4) The balloon 50 is not provided in the area that will be the top of the head when the frame 10 is worn on the head.
Even when the balloon 50 is inflated, the electroencephalogram measuring device 1 (that is, the frame 10) can be prevented from floating.
(5) It has a pump that is connected to the balloon 50 and introduces gas (here, air) into the balloon 50 .
The inflation state of the balloon 50 can be easily adjusted.

<<Second Embodiment>>
A second embodiment of the invention will now be described with reference to FIG. FIG. 5 is a longitudinal sectional view showing a part of the electroencephalogram measurement device 201 with the electroencephalogram electrode unit 280 attached to the electrode holder 240. As shown in FIG.

In this embodiment, an electrode holding portion 240 is provided instead of the electrode mounting portion 39 of the front divided frame 30 and the electrode mounting portion 49 of the rear divided frame 40 of the first embodiment. An electroencephalogram electrode unit 280 is attached to the electrode holder 240 .

<EEG electrode unit 280>
The electroencephalogram electrode unit 280 has a base portion composed of a cap portion 220 and an outer cylinder portion 230, a plunger portion 241, and a compression spring 250, and realizes a pressure adjustment mechanism.

An electrode protrusion 283 is attached to the plunger tip portion 245 of the plunger portion 241 . A signal line (not shown) is attached to the electrode projecting portion 283 , and is drawn out from the cap portion 220 through the inside of the outer cylindrical portion 230 , for example.

<Pressure adjustment mechanism>
A threaded portion 226 is provided on the upper portion of the inner peripheral surface of the outer cylindrical portion 230 . The cap portion 220 has a downwardly convex columnar shape and has a threaded portion 224 on its peripheral surface. A compression spring 250 is positioned between the lower end 222 of the cap portion 220 and the upper plunger end 246 of the plunger portion 241 . A compression spring 250 biases the plunger portion 241 toward the head portion 99 .

The threaded portion 226 of the outer cylinder portion 230 and the threaded portion 224 of the cap portion 220 are screwed together, and by adjusting the amount of insertion of the cap portion 220 into the outer cylinder portion 230, the electrode projection from the electrode holding portion 240 is adjusted. The amount of protrusion of the portion 283 can be adjusted. By changing the plunger part 241 or the compression spring 250, various subjects can be treated, and stable and good electroencephalogram measurement can be realized without causing discomfort.

<Direction adjustment mechanism>
The orientation mechanism has a sphere portion 270 , a housing portion 260 and a sphere fixing portion 290 . The sphere portion 270 is spherically provided around the outer cylinder portion 230 of the electroencephalogram electrode unit 280 . In other words, the electroencephalogram electrode unit 280 is configured to pass through the spherical portion 270 of the sphere.

The housing portion 260 is integrally formed with the electrode holding portion 240 and has a tubular shape that protrudes upward. The housing portion 260 has a sphere housing surface 263 forming a sphere pair with the sphere portion 270 . An opening 265 is provided in the center of the sphere housing surface 263 , and the electroencephalogram electrode unit 280 passes through the opening 265 . A threaded portion 269 is provided on the outer peripheral surface of the housing portion 260 .

The sphere fixing part 290 is formed in a ring shape, and the electroencephalogram electrode unit 280 penetrates through an opening at the center of the ring. A pressing surface 291 and a threaded portion 299 are provided on the inner surface of the ball fixing portion 290 .

The threaded portion 269 of the housing portion 260 and the threaded portion 299 of the ball fixing portion are screwed together, and by operating the ball fixing portion 290, the ball portion 270 can be attached to the housing portion 260 (more specifically, the ball receiving surface 263). ) can be fixed or unfixed.

It should be noted that the shape of the spherical body housing surface 263, the spherical body portion 270, and the pressing surface 291 can take various shapes as long as they exhibit their respective functions.

When the spherical portion 270 is not fixed to the housing portion 260, the spherical portion 270 is rotatable, and the orientation of the electroencephalogram electrode unit 280 (electrode projection portion 283) integrated with the spherical portion 270 can be adjusted. The orientation of the electroencephalogram electrode units 280 can be individually adjusted.

With such a configuration, if there is an electroencephalogram electrode unit 280 with an inappropriate orientation (in other words, adjustment is required) when attached to the head 99, the inappropriate electroencephalogram electrode unit 210 can be individually adjusted, and the contact state of the electroencephalogram electrode unit 280 that does not require adjustment with the head 99 is not affected.

With such a configuration, if there is an electroencephalogram electrode unit 280 with an inappropriate orientation (in other words, adjustment is required) when attached to the head 99, the inappropriate electroencephalogram electrode unit 210 can be individually adjusted, and the contact state of the electroencephalogram electrode units 210 that do not require adjustment with the head 99 is not affected.

Although the embodiments of the present invention have been described above with reference to the drawings, these are examples of the present invention, and various modifications other than those described above can be adopted. For example, the balloon right front portion 52, the balloon left front portion 53, the balloon right rear portion 54, and the balloon left rear portion 55 of the balloon 50 are not fixed to the peripheral fixing frame 21 and the parietal connecting portion 61, and can be removed by hook-and-loop fasteners or the like. You may enable it to adjust a fixing position. Further, in the second embodiment, a position adjusting mechanism may be provided that enables adjustment of the position of the electrode holding portion 240 in the front split frame 30 or the rear split frame 40 . As such a position adjusting mechanism, for example, the electrode holding portion 240 slides in a groove provided in the front split frame 30 or the rear split frame 40, and is locked at a desired position by fastening means (screw, lever type lock, etc.). Any configuration can be used.

1, 201 Electroencephalogram measuring device 10 Frame 20 Fixing frame 21 Peripheral fixing frame 22 Top fixing frame 30 Front split frame 31 Front frame main bodies 39, 49 Electrode attachment part 40 Rear split frame 41 Rear frame main body 50 Balloon 51 Balloon head circumference part 52 Balloon right front part 53 Balloon left front part 54 Balloon right rear part 55 Balloon left rear part 70 Hook-and-loop fastener 80 Electroencephalogram electrode unit 81 Body part 83, 283 Electrode projection part 220 Cap part 222 Lower end part 224, 226, 269, 299 Threaded part 230 Outer cylinder portion 241 Plunger portion 245 Plunger tip portion 246 Plunger upper end portion 250 Compression spring 260 Housing portion 263 Sphere receiving surface 265 Opening 270 Sphere portion 290 Sphere fixing portion 291 Pressing surface

Claims (7)

a frame attached to the head;
electroencephalogram electrodes attached to the frame;
a balloon provided on the head side of the frame and inflated by introducing gas into the inside;
has
The balloon is provided in a region where the electroencephalogram electrode is not provided,
Electroencephalogram measurement device. The electroencephalogram measurement apparatus according to claim 1, wherein said balloon is provided detachably from said frame. 3. The electroencephalogram measurement apparatus according to claim 1, wherein said balloon is configured with a plurality of communicating air chambers. 4. The electroencephalogram measuring apparatus according to any one of claims 1 to 3, wherein the balloon is not provided in a region that will be the top of the head when the frame is worn on the head. 5. The electroencephalogram measuring apparatus according to any one of claims 1 to 4, further comprising a pump connected to said balloon for introducing gas into said balloon. The electroencephalogram measuring apparatus according to any one of claims 1 to 5, wherein the electroencephalogram electrode has a position mechanism for adjusting a position on the frame. The electroencephalogram measuring apparatus according to any one of claims 1 to 6, wherein the electroencephalogram electrode has an angle mechanism for adjusting an angle with respect to the frame.

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