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    • 7. 发明专利
    • Nmr device
    • NMR装置
    • JP2008209292A
    • 2008-09-11
    • JP2007047226
    • 2007-02-27
    • Hitachi Ltd株式会社日立製作所
    • SHIINO TOSHIYUKITSUKAMOTO HIDEOIIDA FUMIOTSUCHIYA TSUGUTOSHI
    • G01R33/3875
    • G01R33/31G01R33/307G01R33/3875G01R33/389
    • PROBLEM TO BE SOLVED: To solve the problems wherein, in an NMR device, when an output from a room-temperature shim coil is enlarged, a temperature gradient is generated in a sample domain, and an NMR spectrum line width is widened, to thereby lower sensitivity.
      SOLUTION: A heat conductor 12 having a high heat conductivity is installed on the room-temperature shim coil 10. The heat conductor 12 is provided as a coil bobbin, and the temperature of the heat conductor 12 is adjusted by a temperature control device 18 through a heat exchanger 15. In addition, generation of the temperature gradient in the sample domain can be suppressed by allowing temperature-controlled gas 9 whose temperature is adjusted to the same temperature as the room-temperature shim 10 to flow from under a sample tube 7. A combined material of a high-heat conductivity insulator such as aluminum nitride and a metal is used as a material for the heat conductor 12, and a metal part of the heat conductor has a rectangular shape to form a discontinuous structure in the circumferential direction, to thereby suppress flow of an eddy current.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 解决的问题为了解决在NMR装置中当室温填充线圈的输出增大时在样品域中产生温度梯度并且扩大NMR谱线宽度的问题 ,从而降低灵敏度。 解决方案:具有高导热性的导热体12安装在室温垫片线圈10上。热导体12设置为线圈架,热导体12的温度通过温度控制 装置18通过热交换器15.此外,可以通过将温度调节到与室温垫片10相同的温度的温度控制气体9从下面的 样品管7.使用诸如氮化铝和金属的高导热绝缘体的组合材料作为导热体12的材料,并且导热体的金属部分具有矩形形状以形成不连续结构 从而抑制涡流的流动。 版权所有(C)2008,JPO&INPIT
    • 9. 发明专利
    • Nmr device
    • NMR装置
    • JP2008209291A
    • 2008-09-11
    • JP2007047218
    • 2007-02-27
    • Hitachi Ltd株式会社日立製作所
    • TSUCHIYA TSUGUTOSHITSUKAMOTO HIDEOIIDA FUMIOSHIINO TOSHIYUKITANAKA HIDEKI
    • G01R33/3875G01R33/32G01R33/387
    • G01R33/3806G01R33/28G01R33/30G01R33/3875
    • PROBLEM TO BE SOLVED: To solve deflection of an NMR probe and of room-temperature shim coils, and to thereby facilitate positioning thereof.
      SOLUTION: This NMR device equipped with a split magnet and a cross-shape bore is also equipped with a straight pipe 3, having high rigidity for fitting the NMR probe 1, and the room-temperature shim coils 2 as an integrated object. The outside diameter of the straight pipe 3 is smaller than the inside diameter of a horizontal bore 13 into which the room-temperature shim coils 2, and the probe 1 are inserted. After fitting the room-temperature shim coils 2 and the NMR probe 1 into the straight pipe 3 with bolts 4 respectively, they are inserted into the horizontal bore (room-temperature space) 13 of NMR equipment. The room-temperature shim coils 2 and the probe 1 may be mounted on separate straight pipes 30, 30'.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了解决NMR探针和室温垫片线圈的偏转,从而便于其定位。 解决方案:配备有分裂磁体和十字形孔的NMR装置还配备有直管3,其具有高刚性,用于装配NMR探针1,室温垫片线圈2作为一体 。 直管3的外径小于室温垫片2和探针1插入的水平孔13的内径。 将室温垫片2和NMR探头1分别用螺栓4装入直管3后,将其插入NMR设备的水平孔(室温空间)13中。 室温垫片2和探针1可以安装在分开的直管30,30'上。 版权所有(C)2008,JPO&INPIT
    • 10. 发明专利
    • Winding method and winding device
    • 卷绕方法和卷绕装置
    • JP2005310955A
    • 2005-11-04
    • JP2004124202
    • 2004-04-20
    • Hitachi Ltd株式会社日立製作所
    • IWATA HIROYUKIOCHIAI YOSHITAKAWAKUTA TAKESHITSUKAMOTO HIDEOKUCHIISHI KEIICHI
    • H01F41/06H01F6/06
    • PROBLEM TO BE SOLVED: To provide a winding device, in which damages of a conductive wire and coating caused by interference between the conductive wires are prevented, the conductive wire of a plurality of layers, not necessarily having a constant sectional shape containing the coating, is wound densely on a coil bobbin having flange at both ends thereof, and a gap between the wire rods is eliminated to prevent degradation of the conductive performance. SOLUTION: The winding device comprises a guide pulley 10 for feeding a conductive wire 8 to a coil bobbin 2, having flanges at both ends thereof an urging roller 9 for urging the conductive wire 8 wound on the coil bobbin 2 by an end face in a direction of the flange; a support means 16 of the urging roller 9, which sets a relative position in an axial direction of the coil bobbin between the urging roller 9 and the guide pulley 10 of the conductive wire 8, according to characteristics, such as a raw material, a sectional shape or a material of costing of the conductive wire 8, and which makes an initial setting on an aslant introducing direction of the conductive wire 8, until a contact start point between the conductive wire 8 and the coil bobbin 2; an axial position detector 15 for detecting the position of the contact start point; a rotating means 4 of the coil bobbin 2; and a moving means 6 of the coil bobbin 2, which follows the coil bobbin 2 to the axial position of the contact start point so as to hold the aslant introducing direction after start of a coil winding. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供一种卷绕装置,其中防止由导线之间的干扰引起的导电线和涂层的损坏,多层的导线不一定具有恒定的截面形状,包含 该涂层密封地缠绕在其两端具有凸缘的线圈架上,并且消除了线棒之间的间隙,以防止导电性能的劣化。 卷绕装置包括用于将导线8馈送到线圈架2的导向滑轮10,其两端具有凸缘,该推压辊9用于将缠绕在线圈架2上的导线8推到末端 面向法兰方向; 推压辊9的支撑装置16,其根据诸如原材料的特性,将导线8的推压辊9和导向滑轮10之间的线圈架轴线的轴向设置相对位置, 导线8的接触开始点直到导线8的接触开始点为止,进行导线8的上下导入方向的初始设定, 用于检测接触起点的位置的轴向位置检测器15; 线圈架2的旋转装置4; 以及线圈架2的移动装置6,其沿着线圈架2到达接触开始点的轴向位置,以便在线圈绕组开始之后保持倾斜导入方向。 版权所有(C)2006,JPO&NCIPI