KR102397139B1 - EEG mesauring head moudle using conductive resin - Google Patents

Abstract

The present invention relates to an EEG measurement head module using a conductive resin. The EEG measurement head module comprises: a main body (10) formed in a hollow structure using a flexible material, and having a plurality of hook portions (14); an electrode member (20) capable of being attached to or detached from the main body (10) via insertion of a hook unit (24), and coupling a detection part (26) to a base part (21) made of a conductive resin; and an auxiliary member (30) added to assist the function of the electrode member (20). Accordingly, when the EEG measurement head module measures an electric signal of the brain while worn on the head of a subject, the EEG measurement head module can fit to the head of the subject to the maximum and keep contact with the scalp to a minimum, thereby increasing the convenience and accuracy of measuring brain waves.

Description

EEG measuring head module using conductive resin

The present invention relates to an EEG measurement head module, and more particularly, to an EEG measurement head module using a conductive resin for measuring an electrical signal of the brain while worn on a subject's head.

Electroencephalography (EEG) is induced by the electrical activity of nerve cells constituting the human brain, and can be indirectly measured in the form of electrical signals through electrodes in the scalp. However, the convenience and accuracy of the process of acquiring a weak EEG signal with a size of several tens of uV without noise and processing it in connection with the EEG signal processing circuit are important factors that determine reliability. For this purpose, the detection electrode worn on the subject's head is also being developed in a wireless and non-contact method.

As prior art documents that can be referenced in relation to the measurement of brain waves, Korean Patent Publication No. 1815276 (Prior Document 1), Korean Patent Publication No. 1542115 (Prior Document 2), and the like are known.

Prior Document 1 discloses a headband that is worn around a person's head and has an electrode attached to the inner surface of which an electrode for sensing a biopotential signal in contact with the skin is mounted; Turning of the dial to tighten the hair band quantitatively by winding the wire or to unwind the wire wound on the take-up reel; etc. Accordingly, the effect of guaranteeing the convenience and reliability of EEG measurement is expected.

However, since it is based on a circular headband with a simple structure, it reveals a limitation in increasing the measurement points.

In Prior Document 2, a head cap is composed of two vertical frames, a horizontal frame, an auxiliary vertical frame, a rear horizontal frame and a pinna frame to install the measurement electrodes in accordance with the EEG measurement point, and 21-23 measurement electrodes are attached to the back side. It is configured so that it can be used for EEG measurement. Accordingly, it is possible to wear it for a long time with a simple structure, and the effect of detecting it with many points is expected.

However, it is not easy to fit the subject's head, and it is easy to cause inconvenience due to the pressing force due to contact with the scalp.

Korean Patent Publication No. 1815276 "EEG measurement device optimized for wearability and measurement reliability" (Published on: 2018.01.05.) Korean Patent Publication No. 1542115 "Head cap for measuring brain waves" (Published date: 2015.08.12.)

It is an object of the present invention to improve the conventional problems as described above, using a conductive resin that minimizes contact with the scalp while maximally matching the head of the subject while measuring the electrical signal of the brain while worn on the subject's head. It is to provide an EEG measurement head module.

In order to achieve the above object, the present invention provides an EEG head module using a conductive resin, comprising: a body formed in a hollow structure using a flexible material and having a plurality of hooks; an electrode member detachable from the main body through a hook part and coupling a detection part to a base part made of conductive resin; and an auxiliary member added to assist the function of the electrode member.

As a detailed configuration of the present invention, the main body is characterized in that it is provided with a support portion and a ball joint at the lower end.

As a detailed configuration of the present invention, the electrode member is characterized in that it further comprises an application portion to reduce the contact resistance on the bottom surface.

As a detailed configuration of the present invention, the electrode member is characterized in that it further includes a capacitance part between the base part and the detection part.

As a detailed configuration of the present invention, the electrode member is characterized in that it is provided with a pattern portion for conducting electricity on the hook portion.

As a detailed configuration of the present invention, the auxiliary member comprises at least one of a reinforcing material for enhancing flexibility, a ciliary material for increasing repetitive adhesiveness, a cushioning material for relieving contact pressure, and a cover material for covering the head of the subject. .

As a detailed configuration of the present invention, the main body is characterized in that it is provided with a conducting wire portion, a power terminal, a ground terminal, and a signal terminal as a wiring member.

As described above, according to the present invention, since the electrical signal of the brain is measured while worn on the subject's head, the contact with the scalp is kept to a minimum while maximally matching the head of the subject, thereby increasing the convenience and accuracy of EEG measurement.

1 is a schematic view showing a head module according to the present invention from the rear
2 is a schematic view showing the head module according to the present invention from the side;
3 is a schematic diagram showing a main part of a head module according to the present invention;
4 is a schematic view showing a wiring member of the head module according to the present invention;

Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings.

The present invention proposes a head module for measuring brain waves using a conductive resin. It is not limited to the head module that measures EEG from the head of the subject, but it can also be applied to heart viscosity, blood flow, and bio-impedance measurement. The conductive resin is not limited to a type as long as it is a plastic having a certain level of conductivity or higher.

According to the present invention, the body 10 formed in a hollow structure using a flexible material has a structure including a plurality of hook portions 14 .

Referring to FIGS. 1 and 2 , the body 10 shows a state in which the body 10 has a plurality of hooks 14 while being bent. The body 10 forms a curved shape similar to the back of the head of the subject. The body 10 requires flexibility to expand and contract according to the shape of the head while maintaining the overall support strength. The body 10 is made of metal, resin, or a composite material thereof, and a hollow of a certain size is formed therein. The hook portion 14 is tightly fixed or integrated to communicate with the hollow of the body 10 .

As a detailed configuration of the present invention, the main body (10) is characterized in that it is provided with a support (11) and a ball joint (12) at the lower end.

In FIG. 1 , the support 11 and the ball joint 12 coupled to the lower end of the body 10 are shown. The main body 10 is fixed to a chair or bed for examination so as to reduce the pressure exerted on the subject's head. To this end, the support 11 is formed in a bracket structure that is fixed to a chair or bed with a clamping body or a bolt. After the body 10 is fixed, it is preferable to add a ball joint 12 to allow a minute movement of the subject's head.

On the other hand, it is preferable that the main body 10 is further provided with an expansion and contraction portion 16 to easily fit the size of the head of the examinee. The stretchable part 16 applies a telescopic structure that maintains the changed length with an appropriate frictional force.

In addition, according to the present invention, the electrode member 20 in which the detection part 26 is coupled to the base part 21 of the conductive resin has a structure detachable from the main body 10 through the hook part 24 .

In FIG. 1 , a base part 21 , a hook part 24 , a detection part 26 , etc. constituting the electrode member 20 are shown. The base part 21 is injection-molded by mixing carbon fibers, carbon nanotubes, and graphite with a matrix resin made of a thermoplastic polymer resin. The matrix resin may be single or multiple selected from soft PVC, polyethylene, polyester, polybutylene terephthalate, polyethylene terephthalate, polyamide, and the like. In addition, a dispersing agent, a fluidizing agent, a viscosity adjusting agent, a plasticizer, an antioxidant, a flame retardant, etc. are added.

The electrode member 20 is formed in two or more lengths and is mechanically and electrically connected to the body 10 . The hook portion 24 formed at one end of the electrode member 20 is detachably coupled to the hook portion 14 of the body 10 . In order to minimize contact of the electrode member 20 with the scalp, non-contact measurement is preferred, but some contact measurement may be included. The detection unit 26 may have a simple connector type or may include elements such as a preamplifier and a resistor according to an EEG measurement method. The detection part 26 is at least partially covered by the insulating part 27 . The base part 21, the detection part 26, and the insulating part 27 are joined in a laminated state.

As a detailed configuration of the present invention, the electrode member 20 is characterized in that it further includes an applicator 22 on the bottom surface to reduce contact resistance.

In FIG. 1 , the application part 22 formed on the bottom surface of at least a part of the electrode member 20 is shown. It is preferable to use silver paste for the applicator 22, but a method such as vapor deposition may be applied. The electrode member 20 provided with the applicator 22 is measured by a contact method, but is not limited thereto.

On the other hand, the electrode member 20 of the present invention can be utilized for the purpose of measuring a biosignal alone without being coupled to the body 10 .

As a detailed configuration of the present invention, the electrode member 20 is characterized in that it further includes a capacitance part between the base part 21 and the detection part 26 .

Although not shown, the capacitive part is added in a state in which a liquid is accommodated in the conductive silicone pocket. The capacitive part is bonded to form a layer between the upper surface of the base part 21 and the bottom surface of the detection part 26 . The detection unit 26 may amplify the displacement current generated due to the capacitance and convert it into a signal in the form of a voltage. Even if the electrode member 20 is not in direct contact with the subject's scalp, it is possible to measure the EEG by contacting it over the hair.

As a detailed configuration of the present invention, the electrode member (20) is characterized in that it is provided with a pattern portion (28) for conducting electricity onto the hook portion (24).

In FIG. 1 , a state in which the pattern part 28 is formed in the insulating part 27 and the hook part 24 of the electrode member 20 is shown. The pattern part 28 is formed in the insulating part 27 to electrically connect the detection part 26 . The pattern portion 28 may be added in the form of a flexible substrate, and a configuration in which a separate conductive wire is used is not excluded. Of course, it is advantageous in terms of convenience of measurement to displace the conductors as much as possible. A pattern portion 28 for electrical connection is also formed on the hook portion 14 of the body 10 .

In addition, according to the present invention, the auxiliary member 30 is added to assist the function of the electrode member 20 .

Referring to FIG. 3 , the auxiliary member 30 supporting the electrode member 20 has various structures. The function of the electrode member 20 is based on the accuracy of the measurement and also includes the convenience of measurement. Convenience of measurement means reducing the burden of wearing by the examinee and the burden of use by the examiner.

As a detailed configuration of the present invention, the auxiliary member 30 includes a reinforcing material 32 that enhances flexibility, a ciliary material 34 that increases repeat adhesion, a cushioning material 36 that relieves contact pressure, and a cover surrounding the head of the subject. It is characterized in that at least one of the ash 38 is provided.

In FIG. 3 , the reinforcing material 32 , the ciliary material 34 , the cushioning material 36 , and the cover material 38 constituting the auxiliary member 30 are shown. Reinforcing materials 32 are added to enhance flexibility in addition to basic mechanical strength. In the process of fitting the electrode member 20 to the curvature of the subject's head, the reinforcing material 32 exhibits flexibility and maintains a deformed state. The ciliary material 34 is attached to a predetermined length using conductive fibers. The ciliary material 34 is formed at the end of the electrode member 20 and is in close contact with the subject's scalp. The cushioning material 36 is formed of a material having elasticity and is attached to the end of the electrode member 20 . The ciliary material 34 and the cushioning material 36 reduce the burden of the user wearing it for a long time. The cover material 38 is based on conductive fibers and may partially add the aforementioned capacitive portion. According to the condition of the hair of the subject, the accuracy can be improved by covering the cap-shaped cover material 38 and using the electrode member 20 .

Of course, the reinforcing material 32 , the ciliary material 34 , the cushioning material 36 , and the cover material 38 are selectively mounted on the electrode member 20 .

On the other hand, the electrode member 20 can be used hygienically in response to an individual subject as a consumable. Of course, it is also possible to replace only the base portion 21 and the application portion 22 of the electrode member 20 with disposable consumables.

As a detailed configuration of the present invention, the main body 10 is characterized in that it is provided with a conducting wire portion 42, a power terminal 44, a ground terminal 46, and a signal terminal 48 as a wiring member (40).

Referring to FIG. 4 , a conductive wire portion 42 and a plurality of terminals constituting the wiring member 40 are shown. For convenience of understanding, the main body 10 and the electrode member 20 are shown in a deployed state. The conductive wire portion 42 is accommodated to be concealed in the hollow of the main body 10 and is connected from the lower end to the pattern portion 28 of each hook portion 14 . A power terminal 44 , a ground terminal 46 , and a signal terminal 48 are connected to an end of the conducting wire 42 in a terminal structure. The signal terminal 48 is connected to an external measuring device (not shown).

In use, the body 10 is fixed to a chair or bed for examination using the support 11 of the body 10, and then the body 10 is bent to fit the head of the subject, and the electrode is attached to the hook 14 of the body 10. When the hook portion 24 of the member 20 is bent to fit the head while coupling, and the terminal of the wiring member 40 is connected to the measuring instrument, preparation is completed. If it is to be worn for a long time, the electrode member 20 provided with the reinforcing material 32 , the ciliary material 34 , and the like is also used.

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

10: main body 11: support part
12: ball joint 14: hook part
16: stretchable part 20: electrode member
21: base part 22: applicator part
24: hook unit 26: detection unit
27: insulating part 28: pattern part
30: auxiliary member 32: reinforcing material
34: ciliary material 36: cushioning material
38: cover material 40: wiring member
42: conducting wire 44: power terminal
46: ground terminal 48: signal terminal

Claims (7)

In the brain wave measurement head module using conductive resin:
The body 10 is formed in a hollow structure using a flexible material, and having a plurality of hook portions 14;
an electrode member 20 detachable from the main body 10 via a hook part 24 and coupling the detection part 26 to the base part 21 made of conductive resin; and
An EEG measuring head module using a conductive resin, characterized in that it comprises; an auxiliary member (30) added to assist the function of the electrode member (20). The method according to claim 1,
The main body (10) is an EEG head module using a conductive resin, characterized in that it has a support (11) and a ball joint (12) at the lower end. The method according to claim 1,
The electrode member (20) is an EEG head module using a conductive resin, characterized in that it further comprises an applicator (22) on the bottom surface to reduce contact resistance. The method according to claim 1,
The electrode member (20) is an EEG head module using a conductive resin, characterized in that it further comprises a capacitive part between the base part (21) and the detection part (26). The method according to claim 1,
The electrode member (20) is an EEG measurement head module using a conductive resin, characterized in that it has a pattern portion (28) for conducting electricity onto the hook portion (24). The method according to claim 1,
The auxiliary member 30 includes at least one of a reinforcing material 32 for enhancing flexibility, a ciliary material 34 for increasing repeat adhesiveness, a cushioning material 36 for relieving contact pressure, and a cover material 38 covering the head of the subject. EEG measurement head module using a conductive resin, characterized in that it comprises one. The method according to claim 1,
The main body 10 is an EEG measurement head module using a conductive resin, characterized in that it includes a conducting wire portion 42, a power terminal 44, a ground terminal 46, and a signal terminal 48 as a wiring member (40). .

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