Open magnet device and magnetic resonance imaging apparatus comprising it
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01F-003/00
H01F-006/00
H01F-007/00
G01V-003/00
출원번호
US-0362933
(2001-08-27)
우선권정보
JP-2000-258055(2000-08-28)
국제출원번호
PCT/JP01/007304
(2001-08-27)
§371/§102 date
20030227
(20030227)
국제공개번호
WO02/017783
(2002-03-07)
발명자
/ 주소
Yoshino,Hitoshi
Goldie,Fred
출원인 / 주소
Hitachi Medical Corporation
대리인 / 주소
Antonelli, Terry, Stout and Kraus, LLP
인용정보
피인용 횟수 :
4인용 특허 :
17
초록▼
In a superconductive magnet device comprising upper and lower vacuum vessels coupled by a coupling conduit, the upper and lower vacuum vessels 9 and the coupling conduit 24 coupling them are made of a high electric-resistance material so that the magnetic flux of gradient magnetic field coils reache
In a superconductive magnet device comprising upper and lower vacuum vessels coupled by a coupling conduit, the upper and lower vacuum vessels 9 and the coupling conduit 24 coupling them are made of a high electric-resistance material so that the magnetic flux of gradient magnetic field coils reaches the upper and lower pair of a second heat shields 8 and a coupling conduit 23 coupling the pair of the second heat shields 8. The coupling conduit 23 coupling the upper and lower pair of the second heat shields 8 is provided with a slit (cut) 41 extending in the vertical direction so that no eddy currents occur and thus eddy currents generated asymmetrically in the coupling conduit 23 are reduced. Artifacts caused by asymmetrical eddy currents can by reduced in an MRI apparatus using such a magnet device.
대표청구항▼
The invention claimed is: 1. An open magnet device comprising: A pair of vacuum vessels disposed across a space in a vertical direction, wherein an object of inspection is insertable within the space between the pair of vacuum vessels, at least one cylindrical vacuum vessel coupling means for verti
The invention claimed is: 1. An open magnet device comprising: A pair of vacuum vessels disposed across a space in a vertical direction, wherein an object of inspection is insertable within the space between the pair of vacuum vessels, at least one cylindrical vacuum vessel coupling means for vertically connecting the inner spaces of the pair of vacuum vessels, and a pair of magnetic field generating means, one of the pair of the magnetic field generating means being disposed in one of the pair of vacuum vessels and another of the pair of magnetic field generating means being disposed in another of the pair of vacuum vessels, the pair of magnetic field generating means including a material having a superconductivity, wherein the pair of vacuum vessels and the vacuum vessel coupling means are made of a material having a high electric resistance. 2. The open magnet device of claim 1, further comprising: at least one pair of heat shields disposed inside the pair of vacuum vessels and cylindrical heat shield coupling means for vertically connecting the heat shields through spaces surrounded by the vacuum vessel coupling means, wherein the heat shield coupling means has at least one slit having a high electric-resistance property and extending continuously or intermittently in the vertical direction. 3. The open magnet device of claim 1, further comprising: at least one pair of heat shields disposed inside the pair of vacuum vessels and cylindrical heat shield coupling means for vertically connecting the heat shields through spaces surrounded by the vacuum vessel coupling means, wherein the heat shields have first holes opening into the inside of the heat shield coupling means and at least one of second holes and recesses having the same shape as those of the first holes in positions symmetrical to the first holes. 4. The open magnet device according to claim 1, wherein the at least one vacuum vessel coupling means have slit portions extending continuously or intermittently in the vertical direction and members configured for covering the slit portions which maintain the vacuum vessels in a vacuum state. 5. The open magnet device according to claim 1, wherein the vacuum vessels have first holes opening into the inside of the vacuum vessel coupling means and at least one of second holes and recesses having the same shape as those of the first holes in positions symmetrical to the first holes, the second holes of the vacuum vessels being covered with a high electric resistance material. 6. The open magnet device of claim 1 further comprising: at least one pair of heat shields disposed inside the pair of vacuum vessels and cylindrical heat shield coupling means configured for vertically connecting the heat shields through spaces surrounded by the vacuum vessel coupling means, wherein the heat shield coupling means have slit portions exhibiting a high electric resistance and extending continuously or intermittently in the vertical direction, and the heat shields have first holes opening into the inside of the heat shield coupling means and at least one of second holes and recesses having the same shape as those of the first holes in positions symmetrical to the first holes. 7. A magnetic resonance imaging apparatus configured for using an open magnet device according to any one of claims 1-6. 8. The open magnet device according to claim 1, configured for a magnetic resonance imaging apparatus, wherein the pair of magnetic field generating means include a pair of magnets disposed across the space in the vertical direction which generates a static magnetic field, and supporting columns which connect the magnets, wherein the supporting columns have slit portions extending continuously or intermittently in the vertical direction. 9. The open magnet device configured for a magnetic resonance imaging apparatus of claim 8, wherein the supporting columns are hollow. 10. The open magnet device configured for a magnetic resonance imaging apparatus of claim 9, further comprising: covers configured for the magnets, wherein the covers have holes opening into the inside of the columns and recesses having the same shape as those of the holes in positions symmetrical to the holes. 11. A magnetic resonance imaging apparatus including an open magnet device according to any one of claims 8-10. 12. The open magnet device according to any one of claims 3 and 6, wherein the second holes of the heat shields are covered with a high heat-conductive material via a material having high electric resistance and high heat-conductivity. 13. The open magnet device according to claim 2, wherein the slits are arranged at a position, which is nearest to a measurement space of the open magnet device. 14. The open magnet device according to any one of claims 4, 6 and 8, wherein the slit portions are arranged at a position which is nearest to a measurement space of the open magnet device. 15. The open magnet device according to claim 2, wherein the slits extend from at least a pad of the cylindrical heat shield coupling means at the connection thereof to the heat shields of the open magnet device. 16. The open magnet device according to claim 4, wherein the slit portions extend from at least a part of the cylindrical vacuum vessel coupling means at a connection thereof to the heat shields of the open magnet device. 17. The open magnet device according to claim 6, wherein the slit portions extend from at least a part of the cylindrical heat shield coupling means at a connection thereof to the heat shields of the open magnet device. 18. The open magnet device according to claim 8, wherein the slit portions extend from at least a part of the supporting columns at a connection thereof to the heat shields of the open magnet device. 19. The open magnet device of claim 1, further comprising: a pair of heat shields disposed inside the pair of the vacuum vessels, a pair of helium containers disposed inside the pair of the heat shields, at least one heat shield coupling conduit connecting the pair of heat shields, and at least one helium container coupling conduit disposed inside the heat shield coupling conduit and connecting the pair of helium containers. 20. The open magnet device of claim 1, wherein the vacuum vessel coupling means is disposed at one side of the space with respect to a plane including a central axis of a magnetic field extending in the vertical direction. 21. The open magnet device of claim 1, wherein a top and a bottom of the open magnet device are surrounded by an upper iron plate and lower iron plate, and the upper and lower iron plates are coupled magnetically by at least one iron column. 22. The open magnet device of claim 1 wherein the open magnet device is an active-shielding type open magnet device. 23. The open magnet device of claim 2, wherein the at least one pair of heat shields comprise a plurality of pairs of heat shields and a heat shield coupling conduit connecting the pair, and at least one of the heat shield coupling conduits has a slit.
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이 특허에 인용된 특허 (17)
Stacy Len E. (Florence SC), Axial strap suspension system for a magnetic resonance magnet.
DeMeester Gordon D. (Wickliffe OH) Morich Michael A. (Mentor OH) Patrick John L. (Chagrin Falls OH), Filamentary cold shield for superconducting magnets.
Mller Wolfgang H. (Karlsruhe DEX) Roth Gerhard (Karlsruhe DEX) Stautner Wolfgang (Stutensee-Bchig DEX) Turowski Peter (Leopoldshafen DEX) Lehmann Wolfgang (Leopoldshafen DEX) Graf Franz (Karlsruhe DE, NMR magnet system with superconducting coil in a helium bath.
Breneman Bruce C. (San Diego CA) Sarwinski Raymond E. (San Diego CA) Hsu Yen-Hwa L. (Solana Beach CA), Open access superconducting MRI magnet having an apparatus for reducing magnetic hysteresis in superconducting MRI syste.
Laskaris Evangelos T. (Schenectady NY) Dorri Bizhan (Clifton Park NY) Vermilyea Mark E. (Schenectady NY) Mueller Otward M. (Ballston Lake NY), Refrigerated superconducting MR magnet with integrated cryogenic gradient coils.
Breneman Bruce C. (San Diego) Sarwinski Raymond E. (San Diego) Hsu Yen-Hwa L. (Solana Beach CA), Superconducting MRI magnet with magnetic flux field homogeneity control.
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