KR-20260062521-A - Helmet-type magnetic stimulation device

Abstract

The present invention relates to a helmet-type magnetic stimulation device that provides non-invasive treatment by applying a magnetic field to intracranial nerve cells or scalp cells, comprising a helmet-shaped case portion, a lower case portion disposed at a predetermined distance from the upper part of the skull, and an upper case portion coupled to the upper part of the lower case portion to form an internal space, and further comprising: a magnetic generating coil installed in the internal space to generate a magnetic field; a coil cover member covering at least a portion of the magnetic generating coil; and a cooling portion that generates an airflow in the internal space to cool the magnetic generating coil.

Inventors

• 조동식
• 신희준
• 김일규
• 이병주

Assignees

• (주)리메드브레인스팀

Dates

Publication Date

20260507

Application Date

20241029

Claims (10)

1. A helmet-type magnetic stimulation device that provides non-invasive treatment by applying a magnetic field to intracranial nerve cells or scalp cells, A helmet-shaped case part comprising a lower case part positioned at a predetermined distance from the upper part of the skull and an upper case part coupled to the upper part of the lower case part to form an internal space. A magnetic generating coil installed in the above internal space to generate a magnetic field; A coil cover member covering at least a portion of the magnetic generating coil; and A cooling unit that cools the magnetic generating coil by generating airflow in the internal space; further comprising The above cooling unit is, A helmet-type magnetic stimulation device comprising a blower that generates airflow in the internal space, and a first cooling hole and a second cooling hole that are open to introduce air into the internal space or discharge air from the internal space, wherein the blower allows air for cooling the magnetic generating coil to be introduced from the first cooling hole and discharged through the second cooling hole.
2. In Article 1, The first cooling hole is formed adjacent to the magnetic generating coil, and air introduced into the first cooling hole flows along one side of the magnetic generating coil, and A helmet-type magnetic stimulation device in which the second cooling hole is formed at a position spaced apart from the magnetic generating coil, and the air that cools the magnetic generating coil is discharged to the outside through the second cooling hole.
3. In Article 1, The lower case part and the upper case part each include an opening, and A helmet-type magnetic stimulation device in which the lower case part and the upper case part are connected to form a single opening.
4. In Article 1, It further includes a coil fixing part installed in the lower case part and providing a space for the magnetic generating coil to be seated thereon. The above first cooling hole is formed in the coil fixing part, a helmet-type magnetic stimulation device.
5. In Paragraph 3, A helmet-type magnetic stimulation device in which the second cooling hole is formed in the lower case portion or the upper case portion on the side of the opening, so that air cooling the magnetic generating coil is discharged through the opening.
6. In Paragraph 4, The above coil fixing part is, A first support member that supports the outer circumference of the above-mentioned magnetic generating coil, and A helmet-type magnetic stimulation device comprising a second support member that supports the inner circumference of the magnetic generating coil.
7. In Article 1, The above coil cover member is, A helmet-type magnetic stimulation device that guides the circulation of air so that air introduced into the first cooling hole is directed toward the second cooling hole.
8. In Article 7, The above coil cover member is, It includes a first through hole that allows air introduced into the first cooling hole to pass through the magnetic generating coil, and A helmet-type magnetic stimulation device comprising a second through hole that allows air passing through the first through hole to be discharged toward the second cooling hole.
9. In Article 8, The above coil cover member is, It includes a flow path that provides an air circulation path between the first through hole and the second through hole, and A helmet-type magnetic stimulation device in which the above-mentioned Euro surrounds the above-mentioned first through hole and the above-mentioned second through hole, and is defined by a perimeter portion formed by protruding to a predetermined height.
10. In Article 8, The first through hole is formed adjacent to the magnetic generating coil, and air flowing along the other side of the magnetic generating coil passes through the first through hole. A helmet-type magnetic stimulation device in which the second through hole is formed at a position spaced apart from the magnetic generating coil, and air passing through the second through hole is discharged to the outside through the second cooling hole via the blower.

Description

Helmet-type magnetic stimulation device The present invention relates to a helmet-type magnetic stimulation device, and more specifically, to a helmet-type magnetic stimulation device that performs non-invasive treatment by applying a magnetic field to the scalp or transcranial region of the human body. Transcranial magnetic stimulation (hereinafter referred to as 'TMS') is a brain stimulation technique that activates or inhibits nerve cells in specific areas of the brain using local magnetic field waves induced on the surface of the head outside the body. The principle of TMS is to generate a magnetic field of strength of several Tesla by applying a strong electric current to an electromagnetic coil. It is a method of stimulating the brain by transmitting the fluctuating energy of these magnetic field waves to the brain, thereby inducing depolarization in nerve cells within a range of several centimeters below the coil. TMS is a representative non-invasive brain stimulation technique, and its therapeutic applications are being actively researched for conditions such as depression, insomnia, obsessive-compulsive disorder, movement disorders, dementia, and brain dysfunction that do not respond well to drug therapy or psychotherapy. Typically, the recommended treatment time for TMS is about 20 minutes, once a day, five days a week, requiring high-frequency treatment. For example, when magnetic stimulation therapy of about 20 to 50 minutes per day is repeatedly applied over several days to central nervous system diseases such as stroke or spinal cord injury, effects of neuroplasticity, neuroregeneration, and functional recovery have been reported. However, since existing TMS treatment devices are not portable, it is difficult to meet such treatment cycles given the conditions of the domestic medical market. Therefore, there is a need to introduce miniaturized TMS treatment devices that can be easily used at home, and accordingly, portable or home-use devices are currently being developed. Although several portable TMS treatment devices are being developed, components such as coils and cases are heavy, which can place a strain on the neck or shoulders when worn for extended periods. This weight issue poses a significant inconvenience, particularly for the elderly or physically frail patients. Additionally, the inability to effectively dissipate heat generated by the coils can lead to overheating problems. These issues of weight and heat generation make continuous use of the device difficult and hinder the full benefits of stimulation therapy during long treatment sessions. FIG. 1 is a perspective view illustrating a helmet-type magnetic stimulation device according to one embodiment of the present invention. FIG. 2 is an exploded perspective view of a helmet-type magnetic stimulation device according to one embodiment of the present invention. FIG. 3 is an exploded perspective view of a helmet-type magnetic stimulation device according to one embodiment of the present invention. FIG. 4 is a drawing showing a helmet-type magnetic stimulation device according to one embodiment of the present invention as viewed from the bottom. FIG. 5 is a drawing specifically illustrating the lower case part and the coil fixing part of a helmet-type magnetic stimulation device according to one embodiment of the present invention. FIG. 6 is a drawing specifically illustrating a coil cover member of a helmet-type magnetic stimulation device according to one embodiment of the present invention. FIGS. 7 to 9 are drawings illustrating the air circulation path of a helmet-type magnetic stimulation device according to an embodiment of the present invention. FIG. 10 is a drawing illustrating various modified structures of the coil fixing part of a helmet-type magnetic stimulation device according to another embodiment of the present invention. The advantages and features of the present invention and the methods for achieving them will become clear by referring to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various different forms. These embodiments are provided merely to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the scope of the invention, and the present invention is defined only by the scope of the claims. Although terms such as "first," "second," etc., are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are used merely to distinguish one component from another. Therefore, it goes without saying that the first component mentioned below may also be the second component within the technical scope of the present invention. In the following embodiments, terms such as "include" or "have" mean that the features or components described in the specificat