KR101118547B1 - Ear cover for mri - Google Patents

Abstract

One side of the present invention, to provide an MRI ear cover comprising a polymer housing, a shield formed in a ring shape on one surface of the housing, and a magnetic body disposed on the other surface of the housing, having a predetermined magnetization rate Can be.

MRI, noise, magnetic field distortion

Description

Earmuffs for MRI {EAR COVER FOR MRI}

The present invention relates to an ear cap for MRI, and more particularly to an ear cap for MRI that can block the noise during the MRI procedure and reduce the magnetic field distortion caused by the ear space.

MRI (Magnetic Resonance Image) device, which uses nuclear magnetic resonance (NMR) to obtain images for diagnosis and treatment in medicine, obtains high contrast images of organs and tissues in the human body, and is a cancer or tumor. It is used to diagnose disease. In addition, MRI has the advantage of non-invasive to the human body, such as no radiation damage like X-rays, CT devices, etc. Recently, the demand is increasing.

The space in which the subject enters the MRI device is designed and placed in an extremely narrow test space area, and when the MRI device is operated, extremely loud noise of about 100 decibels or more is generated. In general, tests on MRI devices often take tens of minutes to over an hour, so that the subject wears a soundproof earmuff to reduce the mental and physical pain of the subject exposed to operating noise in a confined space.

When the test is performed using the MRI device, a magnetic field is generated using the main magnetic, and the magnetic field may be distorted in a space filled with air in the human body. There is a problem that accurate measurement of the inside of the human body is difficult due to such magnetic distortion. In particular, the magnetic field distortion caused by the air filled in the attributable space in the imaging of the brain has a problem of reducing the accuracy of the imaging of the brain, including the temporal lobe.

In order to solve the above problems, it is an object of the present invention to provide an ear cover for MRI that can compensate for the magnetic field distortion caused by the air filled in the attribution space.

The present invention may provide an MRI ear cover including a polymer housing, a shield formed in a ring shape on one surface of the housing, and a magnetic material disposed on the other surface of the housing and having a predetermined magnetization rate.

The magnetic body may be one of a plate shape, a disc shape, a spherical shape, a cylinder shape, a cone shape, and a rod shape.

An opening is formed on the other surface of the housing, and a plate-shaped magnetic body may be disposed in the opening.

The plate-shaped magnetic body may be formed to enable position movement within the opening.

A sliding groove may be formed at a side of the opening of the housing, and a protrusion corresponding to the sliding groove may be formed at the side of the plate-shaped magnetic material.

The plate-shaped magnetic body may be fixed to the housing so that the one point is rotatable with one point as the rotation axis. In this case, the plate-shaped magnetic material may be rotatable parallel to the bottom surface of the opening.

The ear cover may further include a fixing member which may be fixed by moving the position of the plate-shaped magnetic material.

The fixing member may include a plurality of fixing screws whose shafts are fixed to the housing, and the position of the plate-shaped magnetic body may be adjusted by adjusting the lengths of the plurality of fixing screws.

The magnetic body may be disposed to move a position on the other surface of the housing.

The magnetic body may be paramagnetic or diamagnetic.

The magnetic material may be niobium.

The shield may be a foamed elastic material.

According to the present invention, the magnetic field distortion generated by the air filled in the attributable space can be compensated for, so that a more accurate image can be obtained when measuring brain images using MRI.

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

1 is a structural diagram of an MRI ear cover according to an embodiment of the present invention.

Referring to FIG. 1, the MRI ear cover 100 according to the present exemplary embodiment may include a polymer housing 110, a shield 120, and a plate-shaped magnetic body 130.

The housing 110 may be a polymer-based resin. In the present embodiment, the housing 110 may constitute a body of the ear cover. Ear cover according to the present embodiment has a function to protect the subject from noise during the MRI procedure, the housing 110 may include a separate structure for blocking the noise. For example, the interior of the housing 110 may include a soundproof material or a soundproof structure for blocking noise. One surface of the housing may contact the body of the examinee. In the present embodiment, the shield 120 may be formed on one surface of the housing in contact with the body of the examinee, and the plate-shaped magnetic body 130 may be formed on the other surface of the housing that is not in contact with the body of the examinee.

The shield 120 may be formed in a ring shape on one surface of the housing. The shield 120 may increase the noise blocking effect by shielding a space between the housing 110 and the human body when the examinee wears the earmuffs. The space generated by the shielding unit 120 may be a space that covers the ear. When the ear cover is worn by the examinee, the ear of the examinee may be located in a space formed by the shield 120. In the present embodiment, the shield 120 may use a foam material. The foamable material may be polyester and have a density of about 25 kg / m ³ . The foamable material may have elasticity and thus may be deformed along the curvature of the human body when it is in contact with the human body, thereby increasing the noise blocking effect.

The plate-shaped magnetic body 130 may be formed on the other surface of the housing 110. In the present embodiment, the plate-shaped magnetic body 130 may have a predetermined magnetization rate. Paramagnetic or diamagnetic materials may be used as the plate-shaped magnetic material. The paramagnetic material is a material that is weakly magnetized in the direction of the magnetic field when it is in the magnetic field and that is not magnetized when the magnetic field is removed, and may include aluminum, tin, platinum, iridium, and the like. The diamagnetic material is a material that is magnetized in a direction opposite to the magnetic field by an external magnetic field, and may include gas, water, etc. except metal and oxygen. In the present embodiment, the plate-shaped magnetic body 130 may be niobium.

As such, by attaching the plate-shaped magnetic material having a predetermined magnetization rate to the housing 110, when the subject wears the ear cover, the magnetic field distortion caused by the air in the attribution space can be reduced by the magnetization rate of the plate-shaped magnetic material. That is, the magnetic field caused by the main magnetic of the MRI device may be distorted in the attributable air region by a magnetic field induced by the magnetization properties of the plate-shaped magnetic body. In the present embodiment, a plate-shaped magnetic body is used, but the shape of the magnetic body may be variously implemented, such as a disk, a sphere, a cone, a cylinder, and a rod.

According to the physical characteristics of the subject, the magnetic field distortion caused by the air filled in the attributable space may vary. In the present embodiment, the plate-shaped magnetic body 130 may be formed to enable position movement on the surface of the housing 110. That is, the plate-shaped magnetic body may be moved in a sliding structure by forming a groove or a protrusion on the other surface of the housing, and the plate-shaped magnetic body may be rotated by using one point of the plate-shaped magnetic body as a fixed axis. As such, by allowing the position of the plate-shaped magnetic material to be changed, the position of the plate-shaped magnetic material can be appropriately adjusted according to different physical characteristics of the subject. As such, the plate-shaped magnetic body 130 may be variously implemented as long as it is formed on one surface of the housing 110 and its position is movable.

2 is a structural diagram of an MRI ear cover according to another embodiment of the present invention.

Referring to FIG. 2, the MRI ear cover 200 according to the present embodiment may include a polymer housing 210, a shield 220, and a plate-shaped magnetic body 230.

The housing 210 may be a polymer-based resin. In the present embodiment, the housing 210 may constitute a body of the ear cover. Ear cover according to the present embodiment serves to protect the subject from the noise during the MRI procedure, the housing 210 may include a separate structure for the noise blocking. For example, the interior of the housing 210 may include a soundproof material or a soundproof structure for blocking noise. One surface of the housing may contact the body of the examinee. In this embodiment, the shielding portion 220 is formed on one surface of the housing in contact with the body of the subject, and the plate-shaped magnetic body 230 may be formed on the other surface of the housing that is not in contact with the body of the examinee.

The shield 220 may be formed in a ring shape on one surface of the housing. The shield 220 may increase the noise blocking effect by shielding a space between the housing 210 and the human body when the examinee wears the earmuffs. The space generated by the shield 220 may be a space that covers the ear. When the ear cover is worn by the examinee, the ear of the examinee may be located in a space formed by the shield 220. In the present embodiment, the shielding part 220 may use a foamable material. The foamable material may be polyester and have a density of about 25 kg / m ³ . The foamable material may have elasticity and thus may be deformed along the curvature of the human body when it is in contact with the human body, thereby increasing the noise blocking effect.

In the present embodiment, an opening 211 in which the plate-shaped magnetic body 230 is disposed may be formed in the housing 210. In the present embodiment, the opening 211 may be formed in a rectangular shape with one surface open. The plate-shaped magnetic body 230 may be changed in position in the opening 211. The plate-shaped magnetic body 230 may have a predetermined magnetization rate. Paramagnetic or diamagnetic materials may be used as the plate-shaped magnetic material. The paramagnetic material is a material that is weakly magnetized in the direction of the magnetic field when it is in the magnetic field and that is not magnetized when the magnetic field is removed, and may include aluminum, tin, platinum, iridium, and the like. The diamagnetic material is a material that is magnetized in a direction opposite to the magnetic field by an external magnetic field, and may include gas, water, and the like except for metal and oxygen. In the present embodiment, the plate-shaped magnetic body 230 may be niobium. As such, by attaching the plate-shaped magnetic material having a predetermined magnetization rate to the housing 210, when the subject wears the ear cover, the magnetic field distortion caused by the air in the attribution space can be reduced by the magnetization rate of the plate-shaped magnetic material. That is, the magnetic field caused by the main magnetic of the MRI device may be distorted in the attributable air region by a magnetic field induced by the magnetization properties of the plate-shaped magnetic body.

In the present embodiment, the opening may have a rectangular shape, and the plate-shaped magnetic body may have a rectangular shape smaller than the opening. A sliding groove 212 is formed at a side of the opening 211, and a protrusion 231 corresponding to the sliding groove is formed at a side of the plate-shaped magnetic body 230 to form the plate-shaped magnetic body 230 along the sliding groove. Can slide and move.

According to the physical characteristics of the subject, the magnetic field distortion caused by the air filled in the attributable space may vary. In this embodiment, by adjusting the position of the plate-shaped magnetic body 230 formed in the housing 210, it is possible to adjust the position of the plate-shaped magnetic material to compensate for the magnetic field distortion according to the different body characteristics of the subject.

3 is a structural diagram of an MRI ear cover according to still another embodiment of the present invention.

Referring to FIG. 3, the MRI ear cover 300 according to the present embodiment may include a housing 310, a shield 320, and a plate-shaped magnetic material 330.

The housing 310 may be a polymer-based resin. In the present embodiment, the housing 310 may constitute a body of the ear cover. Ear cover according to the present embodiment has a function to protect the subject from noise during the MRI procedure, the housing 310 may include a separate structure for blocking the noise. For example, the interior of the housing 310 may include a soundproof material for blocking noise. One surface of the housing may contact the body of the examinee. At this time, the shield 320 may be formed on one surface of the housing in contact with the body of the subject.

The shield 320 may be formed in a ring shape on one surface of the housing. The shield 320 may increase the noise blocking effect by shielding a space between the housing 310 and the human body when the examinee wears the earmuffs. In the present embodiment, the shield 320 may use a foam material. The foamable material may be polyester and have a density of about 25 kg / m ³ . The foamable material may have elasticity and thus may be deformed along the curvature of the human body when it is in contact with the human body, thereby increasing the noise blocking effect.

In the present embodiment, an opening 311 in which the plate-shaped magnetic material 330 is disposed may be formed in the housing 310. In the present embodiment, the opening 311 may be formed in a circular shape with one surface open. The plate-shaped magnetic material 330 may be changed in position in the opening 311. The plate-shaped magnetic body 330 may have a predetermined magnetization rate. Paramagnetic or diamagnetic materials may be used as the plate-shaped magnetic material. The paramagnetic material is a material that is weakly magnetized in the direction of the magnetic field when it is in the magnetic field and that is not magnetized when the magnetic field is removed, and may include aluminum, tin, platinum, iridium, and the like. The diamagnetic material is a material that is magnetized in a direction opposite to the magnetic field by an external magnetic field, and may include gas, water, and the like except for metal and oxygen. In the present embodiment, the plate-shaped magnetic body 330 may be niobium. By attaching the plate-shaped magnetic material having a predetermined magnetization rate to the housing 310 as described above, when the ear cover is worn by the subject, the magnetic field distortion caused by the air in the attribution space can be reduced by the magnetization rate of the plate-shaped magnetic material. That is, the magnetic field caused by the main magnetic of the MRI device may be distorted in the attributable air region by a magnetic field induced by the magnetization properties of the plate-shaped magnetic body.

In the present embodiment, the opening 311 may be formed in a circular shape, and the plate-shaped magnetic material 330 may be implemented in a semicircle shape corresponding to the shape of the opening 311. The one point 331 may be fixed to the housing 310 such that the plate magnetic material 330 rotates using the one point 331 of the plate-shaped magnetic material 330 of the semicircular shape as the rotation axis. The magnetic body may be implemented in various ways according to the shape of the opening.

According to the physical characteristics of the subject, the magnetic field distortion caused by the air filled in the attributable space may vary. In this embodiment, by adjusting the position of the plate-shaped magnetic body 330 formed in the housing 310, the position of the plate-shaped magnetic body can be adjusted to compensate for the magnetic field distortion according to the different body characteristics of the subject.

4 is a structural diagram of an MRI ear cover according to still another embodiment of the present invention.

Referring to FIG. 4, the MRI ear cover 400 according to the present embodiment includes a housing 410, a shield 420, a plate-shaped magnetic body 430, and fixing members 441, 442, 443, and 444. It may include.

The housing 410 may be a polymer-based resin. In the present embodiment, the housing 410 may constitute a body of the ear cover. Ear cover according to the present embodiment has a function to protect the subject from noise during the MRI procedure, the housing 410 may include a separate structure for noise blocking. For example, the interior of the housing 410 may include a soundproof material for blocking the noise. One surface of the housing may contact the body of the examinee. At this time, the shielding portion 420 may be formed on one surface of the housing in contact with the body of the examinee.

The shield 420 may be formed in a ring shape on one surface of the housing. The shield 420 may increase the noise blocking effect by shielding a space between the housing 410 and the human body when the examinee wears the ear cover. In the present embodiment, the shield 420 may use a foam material. The foamable material may be polyester and have a density of about 25 kg / m ³ . The foamable material may have elasticity and thus may be deformed along the curvature of the human body when it is in contact with the human body, thereby increasing the noise blocking effect.

In the present embodiment, the housing 410 may be formed with an opening 411 in which the plate-shaped magnetic body 430 is disposed. In the present embodiment, the opening 411 may be formed in a rectangular shape with one surface open.

The plate-shaped magnetic body 430 may be changed in position in the opening 411. The plate-shaped magnetic body 430 may have a predetermined magnetization rate. Paramagnetic or diamagnetic materials may be used as the magnetic material. The paramagnetic material is a material that is weakly magnetized in the direction of the magnetic field when it is in the magnetic field and that is not magnetized when the magnetic field is removed, and may include aluminum, tin, platinum, iridium, and the like. The diamagnetic material is a material that is magnetized in a direction opposite to the magnetic field by an external magnetic field, and may include gas, water, and the like except for metal and oxygen. In the present embodiment, the plate-shaped magnetic body 430 may be niobium. Thus, by forming a plate-shaped magnetic material having a predetermined magnetization rate in the housing 410, when the subject wears the ear cover, the magnetic field distortion caused by the air in the bound space can be reduced by the magnetization rate of the plate-shaped magnetic material. That is, the magnetic field caused by the main magnetic of the MRI device may be distorted in the attributable air region by a magnetic field induced by the magnetization properties of the plate-shaped magnetic body. In the present embodiment, the magnetic material is implemented in a plate shape, but the magnetic material may be embodied in various forms such as a disc shape, a spherical shape, a cylinder shape, a cone shape, a rod shape, and the like.

The MRI ear cover according to the present embodiment may include fixing members 441, 442, 443, and 444 capable of moving and fixing the plate-shaped magnetic body 430 in the opening 411.

In the present embodiment, the fixing member may be four fixing screws that contact each side of the rectangular plate-shaped magnetic body 430 and have shafts fixed to the housing 410. Rotating the fixing screw can adjust the length of the rotating screw in the opening. The position of the plate-shaped magnetic body 430 may be adjusted by adjusting the length of each of the fixing screws in the opening. Contact members 441a, 442a, 443a, and 444a are formed at one end of each of the fixing screws to increase the fixing effect of the plate-shaped magnetic body 430 by the fixing screws 44, 442, 443, and 444. Can be.

It is intended that the invention not be limited by the foregoing embodiments and the accompanying drawings, but rather by the claims appended hereto. Accordingly, various forms of substitution, modification, and alteration may be made by those skilled in the art without departing from the technical spirit of the present invention described in the claims, which are also within the scope of the present invention. something to do. That is, the shape of the plate-shaped magnetic body formed on the other surface of the housing and its arrangement may be variously modified.

1 is a structural diagram of an MRI ear cover according to an embodiment of the present invention.

2 is a structural diagram of an MRI ear cover according to another embodiment of the present invention.

3 is a structural diagram of an MRI ear cover according to still another embodiment of the present invention.

4 is a structural diagram of an MRI ear cover according to still another embodiment of the present invention.

<Code Description of Main Parts of Drawing>

110 housing 120 shield

130: plate-shaped magnetic material

Claims (13)

A housing made of polymer material; A shield formed in a ring shape on one surface of the housing; And Magnetic material disposed on the other side of the housing, having a unique magnetic susceptibility Ear cover for MRI comprising a. The method of claim 1, The magnetic material, Ear cover for MRI, characterized in that the plate, disk, spherical, cylindrical, cone, rod. The method of claim 1, An opening is formed on the other surface of the housing, MRI ear cover, characterized in that the plate-shaped magnetic material is disposed in the opening. The method of claim 3, The plate-shaped magnetic material is MRI ear cover, characterized in that formed in the opening to be movable. 5. The method of claim 4, A sliding groove is formed on the side of the opening of the housing, MRI ear cover, characterized in that the protrusion corresponding to the sliding groove is formed on the side of the plate-shaped magnetic material. 5. The method of claim 4, The plate-shaped magnetic material, The ear cover for MRI, characterized in that the one point is fixed to the housing so as to be rotatable with one point as the rotation axis. The method of claim 6, The plate-shaped magnetic material is rotatable for MRI, characterized in that the rotatable parallel to the bottom surface of the opening. 5. The method of claim 4, Fixed member that can be fixed by moving the position of the plate-shaped magnetic material Ear cover for MRI, further comprising a. The method of claim 8, The fixing member, At least one fixing screw fixed to the shaft in the housing, Ear cover for MRI, characterized in that the position of the plate-shaped magnetic material is adjusted by adjusting the length of the fixing screw. The method of claim 1, The magnetic material, Ear cover for MRI characterized in that the position is arranged to be movable on the other side of the housing. The method of claim 1, The magnetic body is MRI ear caps, characterized in that the paramagnetic or diamagnetic material. The method of claim 1, The magnetic material is niobium (Niobium) ear cover for MRI characterized in that. The method of claim 1, The shield, Ear cover for MRI, characterized in that the foam elastic material.

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