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    • 4. 发明授权
    • Open access superconducting MRI magnet
    • 开放式超导MRI磁铁
    • US5412363A
    • 1995-05-02
    • US259914
    • 1994-06-10
    • Bruce C. BrenemanRaymond E. SarwinskiYen-Hwa L. Hsu
    • Bruce C. BrenemanRaymond E. SarwinskiYen-Hwa L. Hsu
    • H01F7/02A61B5/055F25B9/14F25D19/00G01R33/38G01R33/3815H01F6/00H01F6/04H01F7/22G01V3/00
    • G01R33/3806G01R33/3815H01F6/00H01F6/04F25B9/14F25D19/006Y10S505/893
    • An open access MRI magnet includes a ferromagnetic frame open on at least two sides and having upper and lower end plates and at least two support columns. A superconducting coil assembly is mounted to each end plate for generating a magnetic flux field in a patient receiving area located between the end plates. Each superconducting coil assembly includes a toroidal vacuum tight vessel, insulation, and one or more temperature shields mounted within the vacuum tight vessel. One or more coils of superconducting wire is wound within the vacuum vessel, and is coupled to a power source and to a persistent switch for maintaining a constant flow of current with no power consumption. A return path for the flux is provided by the end plates and support posts of the frame. The superconducting coils, the thermal shields, and the persistent switch are cooled by a cryocooler, by means of conduction through solid thermal conductors or by a combination of conduction and convection, through a fluid cooling circuit, without the consumption of a liquid cryogen.
    • 开放式磁共振磁体包括在至少两个侧面上开放并具有上端板和下端板以及至少两个支撑柱的铁磁框架。 超导线圈组件安装到每个端板,用于在位于端板之间的患者接收区域中产生磁通场。 每个超导线圈组件包括环形真空密封容器,绝缘体和安装在真空密封容器内的一个或多个温度屏蔽件。 超导线的一个或多个线圈缠绕在真空容器内,并且耦合到电源和持久开关,用于在没有功率消耗的情况下保持恒定的电流流动。 用于焊剂的返回路径由框架的端板和支撑柱提供。 超导线圈,热屏蔽和持续开关由低温冷却器通过固体热导体传导或通过传导和对流的组合通过流体冷却回路冷却而不消耗液体冷冻剂。
    • 6. 发明授权
    • Cryocooler interface sleeve
    • 冷却器接口套管
    • US06438966B1
    • 2002-08-27
    • US09881642
    • 2001-06-13
    • Raymond E. SarwinskiWilliam E. StonecipherBruce C. Breneman
    • Raymond E. SarwinskiWilliam E. StonecipherBruce C. Breneman
    • F25B900
    • F25D19/006F25B9/10H01F6/04
    • A sleeve assembly for thermally interconnecting a pulse tube, two stage cryocooler with a superconducting device includes a heat transfer cylinder, a heat transfer receptacle and a wall extending therebetween to define a passageway. The heat transfer receptacle is formed with a tapered recess wherein a tapered cooling probe of the cryocooler is urged against the heat transfer receptacle to establish thermal communication therebetween. A cooling element of the cryocooler is disposed in the heat transfer cylinder to establish thermal communication therebetween. In operation, the cryocooler moves relative to the sleeve assembly between a first configuration wherein the cryocooler is engaged with the sleeve assembly to establish thermal communication therebetween and a second configuration wherein the cryocooler is disengaged with the sleeve assembly. An expandable bellows which interconnects the cryocooler with the sleeve assembly will maintain thermal insulation therebetween when the cryocooler is disengaged from the sleeve assembly.
    • 用于将脉冲管,两级制冷器与超导装置热互连的套筒组件包括传热圆筒,传热容器和在其间延伸以限定通道的壁。 传热容器形成有锥形凹槽,其中低温冷却器的锥形冷却探针被推靠在传热容器上以在它们之间建立热连通。 低温冷却器的冷却元件设置在传热圆筒中,以在它们之间建立热连通。 在操作中,低温冷却器相对于套筒组件在第一配置之间移动,其中低温冷却器与套筒组件接合以在其间建立热连通,而第二配置,其中低温冷却器与套筒组件分离。 将低温冷却器与套管组件相互连接的可膨胀波纹管在低温冷却器与套筒组件脱离接合时将保持其间的热绝缘。
    • 7. 发明授权
    • Cooling apparatus for MRI magnet system and method of use
    • MRI磁体系统的冷却装置及其使用方法
    • US4782671A
    • 1988-11-08
    • US101516
    • 1987-09-28
    • Bruce C. BrenemanRaymond E. Sarwinski
    • Bruce C. BrenemanRaymond E. Sarwinski
    • A61B10/00A61B5/055F17C3/08F25J1/00G01R33/20G01R33/38G01R33/3815H01F7/20H01L39/00H05K9/00F25B19/00
    • F25J1/0276F17C3/085G01R33/3815F17C2201/0119F17C2203/0312F17C2203/032F17C2203/0391F17C2221/014F17C2221/017F17C2223/0161F17C2223/033F17C2227/0341F17C2265/034F17C2270/0509F17C2270/0536F25J2290/42
    • An improvement in cooling apparatus in a magnet system for providing a localized, substantially homogeneous magnetic field for use in magnetic resonance imaging. The magnet system includes a vacuum vessel, a cryogenic containment vessel inside the vacuum vessel and having a coil of superconductive wire along with a quantity of liquid helium to maintain the wire below its critical temperature. The system also includes an inner thermal radiation shield between the containment vessel and the vacuum vessel and an outer thermal radiation shield between the inner shield and the vacuum vessel. A cryogenic refrigerator is supported by the vacuum vessel and extends inside. This refrigerator has a first-stage heat station cooling the outer shield and second-stage heat station for cooling the inner shield. The improvement includes the provision of a tank holding a quantity of liquid nitrogen. This tank is supported in good heat transfer relationship with the first-stage heat station between the vacuum vessel and the outer shield and is spaced from the outer shield. Tubing is provided for transferring the liquid nitrogen from the tank so that it boils in good heat transfer relationship with the outer shield and also returns gas resulting from the boiling of the liquid nitrogen back to the tank where the refrigerator condenses it in the tank. A method of using the cooling apparatus in the event the refrigerator is not functional, is also disclosed.
    • 用于提供用于磁共振成像的局部的,基本均匀的磁场的磁体系统中的冷却装置的改进。 磁体系统包括真空容器,真空容器内部的低温容纳容器,并且具有一束超导线以及一定量的液氦,以将电线保持在其临界温度以下。 该系统还包括在容纳容器和真空容器之间的内部热辐射屏蔽以及内部屏蔽和真空容器之间的外部热辐射屏蔽。 低温冰箱由真空容器支撑并在内部延伸。 该冰箱具有冷却外屏蔽的第一级加热站和用于冷却内屏蔽的第二级加热站。 改进之处在于提供容纳液氮的罐。 该罐与真空容器和外罩之间的第一级加热站具有良好的传热关系,并与外护罩间隔开。 提供管道用于从罐转移液氮,使得其与外部屏蔽件具有良好的热传递关系,并且将从液氮的沸腾产生的气体返回到罐中,其中冰箱将其冷凝在罐中。 还公开了在冰箱不起作用的情况下使用冷却装置的方法。
    • 9. 发明授权
    • Magnetic field control apparatus
    • 磁场控制装置
    • US5134374A
    • 1992-07-28
    • US555269
    • 1990-07-18
    • Bruce C. BrenemanJ. Wesley ParkerRaymond E. Sarwinski
    • Bruce C. BrenemanJ. Wesley ParkerRaymond E. Sarwinski
    • G01R33/383G01R33/3873H01F7/02
    • G01R33/383G01R33/3873H01F7/0278
    • A magnetic field control apparatus for establishing a uniform field of flux for use in magnetic resonance imaging has a pair of opposed magnetic poles mounted on end plates of variable thickness. A pair of substantially flat parallel pole faces are attached to the facing surfaces of the magnetic poles. The end plates are supported by connecting members. In addition, there is included a plurality of segments movably mounted to the periphery of the pole face for adjusting the density of the magnetic field. The top and bottom end plates may have substantially identical concave portions on the opposite outside surfaces thereof. The magnetic poles and pole faces are preferably in the shape of thin, flat, circular plates. In one embodiment, there is included one or more inner segmented concentric rings for further adjustably controlling the homogeneity of the uniform magnetic flux in the air gap between the opposing pole faces into which a patient can be inserted for magnetic resonance imaging. In another embodiment, the end plates are shaped so that the aggregate cross-sectional area taken in any plane perpendicular to the direction of the return flow of flux is substantially constant.
    • 用于建立用于磁共振成像的通量的均匀磁场的磁场控制装置具有安装在可变厚度的端板上的一对相对的磁极。 一对基本上平坦的平行极面附接到磁极的相对表面。 端板由连接构件支撑。 此外,还包括可移动地安装到极面的周边的多个段,用于调节磁场的密度。 顶端板和底端板可以在其相对的外表面上具有基本上相同的凹部。 磁极和极面的形状优选为薄,平的圆形板。 在一个实施例中,包括一个或多个内部分段的同心环,用于进一步可调节地控制可插入患者以用于磁共振成像的相对极面之间的气隙中的均匀磁通的均匀性。 在另一个实施例中,端板被成形为使得在垂直于焊剂回流方向的任何平面中取得的骨截面面积基本上是恒定的。
    • 10. 发明授权
    • Cryocooler interface sleeve for a superconducting magnet and method of use
    • 用于超导磁体的冷却器接口套管及其使用方法
    • US06438967B1
    • 2002-08-27
    • US09915916
    • 2001-07-26
    • Raymond E. SarwinskiWilliam E. StonecipherBruce C. Breneman
    • Raymond E. SarwinskiWilliam E. StonecipherBruce C. Breneman
    • F25B900
    • F25D19/006F25B9/10H01F6/04
    • A method for cooling a superconducting device by using a sleeve assembly which thermally interconnects a two stage cryocooler with the device. In operation, the cryocooler is moveable relative to the sleeve assembly between a first configuration wherein the cryocooler is engaged with the sleeve assembly, and a second configuration wherein the cryocooler is disengaged from the sleeve assembly. The cryocooler is disposed in the sleeve assembly with the cooling element of the cryocooler positioned at a distance from the cylinder of the sleeve assembly to establish thermal communication therebetween. Also, the cooling probe of the cryocooler is in contact with the receptacle of the sleeve assembly and is urged against the receptacle to establish thermal communication therebetween. A bellows joins the cryocooler with the sleeve assembly to create an enclosed chamber therebetween and helium is pumped into the sleeve assembly to maintain an operational pressure in the sleeve assembly.
    • 一种通过使用将两级制冷器与设备热互连的套筒组件来冷却超导装置的方法。 在操作中,低温冷却器可相对于套筒组件在第一构型和第二构造之间移动,第一配置是低温冷却器与套筒组件接合,以及第二构造,其中低温冷却器与套筒组件脱离接合。 低温冷却器设置在套筒组件中,低温冷却器的冷却元件位于与套筒组件的气缸一定距离处,以在它们之间建立热连通。 此外,低温冷却器的冷却探针与套筒组件的容器接触并且被推靠在容器上以在它们之间建立热连通。 波纹管将低温冷却器与套筒组件连接以在其间形成封闭的腔室,并且将氦泵送到套筒组件中以保持套筒组件中的操作压力。