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    • 3. 发明申请
    • Superconductivity magnet apparatus
    • 超导磁体装置
    • US20050134414A1
    • 2005-06-23
    • US10786012
    • 2004-02-26
    • Tsuyoshi WakudaKohji MakiMitsuyoshi TsuchiyaMichiya OkadaHideo TsukamotoSouji KajiuraShuichi Kido
    • Tsuyoshi WakudaKohji MakiMitsuyoshi TsuchiyaMichiya OkadaHideo TsukamotoSouji KajiuraShuichi Kido
    • G01R33/3815H01F1/00H01F6/00H01F6/06
    • H01F6/00H01F6/06
    • The present invention provides a superconductivity magnet apparatus for generating a uniform magnetic field suitable for NMR applications. The superconductivity magnet apparatus has an access port for allowing an access to the center of the magnetic field from an external position separated away from the center in a direction other than the axial direction of a split-type superconductivity electromagnet employed in the magnet apparatus. In the superconductivity magnet apparatus, a gap exists between first and second superconductivity coil blocks facing each other to form the split-type superconductivity electromagnet. To put it in detail, the access port allows an access to a measurement space at the center of the magnet by way of the gap. A configuration element of the magnet such as a coil bobbin is cut out for providing the access port. An area including a deficiency portion caused by the cutout portion or the like is filled up with a material having a relative magnetic permeability in the range 1.000 to 1.002 as an axis-symmetrical area. By using the material with a relative magnetic permeability in the range 1.000 to 1.002, the strength of an erroneously generated magnetic field can be reduced so that a magnet producing a uniform magnetic field can be provided.
    • 本发明提供一种用于产生适用于NMR应用的均匀磁场的超导磁体装置。 超导磁体装置具有用于允许从除了在磁体装置中使用的分型超导电磁体的轴向以外的方向从中心离开的外部位置进入磁场的中心的进入口。 在超导磁体装置中,在彼此相对的第一和第二超导线圈块之间存在间隙,形成分体型超导电磁体。 要详细说明,访问端口允许通过间隙访问磁体中心处的测量空间。 为了提供接入口,切断了诸如线圈骨架的磁体的配置元件。 由切口部等引起的包括缺陷部的区域被填充有相对磁导率在1.000〜1.002的范围内的材料作为轴对称区域。 通过使用相对磁导率在1.000〜1.002的范围内的材料,可以减小误产生的磁场的强度,从而可以提供产生均匀磁场的磁体。
    • 7. 发明授权
    • Superconductivity magnet apparatus
    • 超导磁体装置
    • US07049913B2
    • 2006-05-23
    • US10786012
    • 2004-02-26
    • Tsuyoshi WakudaKohji MakiMitsuyoshi TsuchiyaMichiya OkadaHideo TsukamotoSouji KajiuraShuichi Kido
    • Tsuyoshi WakudaKohji MakiMitsuyoshi TsuchiyaMichiya OkadaHideo TsukamotoSouji KajiuraShuichi Kido
    • H01F7/00
    • H01F6/00H01F6/06
    • The present invention provides a superconductivity magnet apparatus for generating a uniform magnetic field suitable for NMR applications. The superconductivity magnet apparatus has an access port for allowing an access to the center of the magnetic field from an external position separated away from the center in a direction other than the axial direction of a split-type superconductivity electromagnet employed in the magnet apparatus. In the superconductivity magnet apparatus, a gap exists between first and second superconductivity coil blocks facing each other to form the split-type superconductivity electromagnet. To put it in detail, the access port allows an access to a measurement space at the center of the magnet by way of the gap. A configuration element of the magnet such as a coil bobbin is cut out for providing the access port. An area including a deficiency portion caused by the cutout portion or the like is filled up with a material having a relative magnetic permeability in the range 1.000 to 1.002 as an axis-symmetrical area. By using the material with a relative magnetic permeability in the range 1.000 to 1.002, the strength of an erroneously generated magnetic field can be reduced so that a magnet producing a uniform magnetic field can be provided.
    • 本发明提供一种用于产生适用于NMR应用的均匀磁场的超导磁体装置。 超导磁体装置具有用于允许从除了在磁体装置中使用的分型超导电磁体的轴向以外的方向从中心离开的外部位置进入磁场的中心的进入口。 在超导磁体装置中,在彼此相对的第一和第二超导线圈块之间存在间隙,形成分体型超导电磁体。 要详细说明,访问端口允许通过间隙访问磁体中心处的测量空间。 为了提供接入口,切断了诸如线圈骨架的磁体的配置元件。 由切口部等引起的包括缺陷部的区域被填充有相对磁导率在1.000〜1.002的范围内的材料作为轴对称区域。 通过使用相对磁导率在1.000〜1.002的范围内的材料,可以减小误产生的磁场的强度,从而可以提供产生均匀磁场的磁体。