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    • 51. 发明授权
    • X-ray device
    • X光装置
    • US06375353B1
    • 2002-04-23
    • US09460933
    • 1999-12-14
    • Arthur R. Van Es
    • Arthur R. Van Es
    • H05G102
    • G01N23/20016
    • An X-ray device includes a C-shaped arm, a first end of which supports an X-ray source and a second end of which supports an X-ray image pick-up device. The C-shaped arm is pivotable about a pivot axis relative to a carriage. The carriage is tiltable about a tilting axis relative to a guide. The guide is rotatable about a propeller axis. The tilting axis extends at an angle relative to the propeller axis. A leverage point on the propeller axis is situated near the tilting axis. The mass center of the C-shaped arm is situated on the pivot axis. The mass centers of the C-shaped arm and of the carriage are situated on a leverage line which extends at least substantially through the leverage point. The mass centers of the C-shaped arm and of the carriage are situated to both sides of the leverage point. The ratio of the distance between the mass center of the C-shaped arm and the leverage point to the distance between the mass center of the carriage and the leverage point is substantially equal to the ratio of the mass of the carriage to the mass of the C-shaped arm.
    • X射线装置包括C形臂,其第一端支撑X射线源,其第二端支撑X射线摄像装置。 C形臂可相对于托架绕枢转轴线枢转。 滑架相对于导轨可绕倾斜轴线倾斜。 引导件可围绕螺旋桨轴线旋转。 倾斜轴线相对于螺旋桨轴线成一定角度延伸。 螺旋桨轴上的杠杆点位于倾斜轴附近。 C形臂的质心位于枢轴上。 C形臂和托架的中心位于杠杆线上,杠杆线至少基本上延伸穿过杠杆点。 C形臂和托架的质心位于杠杆点的两侧。 C形臂的质心与杠杆点之间的距离与托架的质心之间的距离与杠杆点之间的比率基本上等于滑架的质量与质量的比值 C形手臂。
    • 52. 发明授权
    • Medical image radiography apparatus
    • 医学影像摄影仪
    • US06334708B1
    • 2002-01-01
    • US09476126
    • 2000-01-03
    • Norimitsu Kosugi
    • Norimitsu Kosugi
    • H05G102
    • A61B6/0457A61B6/4441A61B6/4476A61B6/467A61B6/488A61B6/504A61B6/547A61B6/548
    • A medical image radiography apparatus includes a radiography system for taking a medical image of a subject, a supporting mechanism for supporting the radiography system in various radiography positions, a memory unit for storing a plurality of radiography positions, together with their order relation, as sequential automatic positioning data, and a controller for controlling the supporting mechanism on the basis of the sequential automatic positioning data in order to change a radiography position sequentially. In this manner, the plurality of radiography positions are stored, together with their order relation, as the sequential automatic positioning data. When taking a radiograph, the radiography position is sequentially changed in accordance with the sequential automatic positioning data. As a result, the operability concerning a change in the radiography position is improved more than in the conventional case wherein a preset button is repeatedly selected.
    • 一种医用图像摄像装置,具备拍摄被检体的医用图像的放射线摄影系统,将各放射线照相位置的放射线照相系统进行支撑的支撑机构,将多个摄影位置及其顺序关系一起存储为顺序的存储单元 自动定位数据,以及用于基于顺序自动定位数据控制支撑机构的控制器,以顺序地改变放射照相位置。 以这种方式,将多个放射摄影位置与其顺序关系一起存储为顺序自动定位数据。 当拍摄X光片时,根据顺序自动定位数据依次改变放射摄影位置。 结果,与重复选择了预设按钮的常规情况相比,关于放射线照相位置变化的可操作性得到改善。
    • 53. 发明授权
    • Support system for a radiation treatment apparatus
    • 放射治疗仪的支撑系统
    • US06302581B1
    • 2001-10-16
    • US09502473
    • 2000-02-11
    • Alan P. SliskiKenneth J. Harte
    • Alan P. SliskiKenneth J. Harte
    • H05G102
    • A61N5/1001A61N5/01Y10S212/901
    • A support system for a radiation treatment system includes a rotatable extension arm extending from a vertical shaft and a rotatable counterbalance extending diametrically opposed to the extension arm from the vertical shaft. The vertical shaft is rotatably supported by a support base. The support base may include a damping mechanism to damp the rotational motion of the vertical shaft relative to the support base, wherein the damping force is preferably proportional to the velocity of the vertical shaft. The radiation treatment system is suspended from a cable extending from a distal end of the extension arm. The extension arm can be formed from a first arm extending from the vertical shaft and a second arm rotatably coupled to the first arm in order to permit the radiation treatment system to be moved in horizontal direction. The cable supporting the radiation treatment system can be coupled to a vertical counterbalance weight to allow the vertical position of the radiation treatment system to be adjusted. In addition, mass of the vertical counterbalance weight can be adjusted to compensate for attachments which may be used with the radiation treatment system during treatment. The radiation treatment system can be supported to permit rotation about a horizontal axis that extends through the center of mass of the radiation treatment system. In addition position of the horizontal axis of rotation relative to the center of mass of the radiation treatment system can be adjusted to compensate for attachments which may change the center of mass of the radiation treatment system.
    • 用于放射线治疗系统的支撑系统包括从垂直轴延伸的可旋转的延伸臂和从垂直轴与延伸臂径向相对延伸的可旋转平衡物。 垂直轴由支撑基座可旋转地支撑。 支撑基座可以包括阻尼机构,以阻止垂直轴相对于支撑基座的旋转运动,其中阻尼力优选地与垂直轴的速度成比例。 辐射处理系统从延伸臂的远端延伸的电缆悬挂。 延伸臂可以由从垂直轴延伸的第一臂和可旋转地联接到第一臂的第二臂形成,以允许辐射处理系统在水平方向上移动。 支撑辐射处理系统的电缆可以连接到垂直平衡重,以允许辐射处理系统的垂直位置被调节。 此外,可以调整垂直平衡重量的质量以补偿在处理期间可能与辐射处理系统一起使用的附件。 辐射处理系统可以被支撑以允许围绕延伸穿过辐射处理系统的质心的水平轴旋转。 相对于辐射处理系统的质心的水平旋转轴线的位置可以被调整以补偿可能改变辐射处理系统的质心的附件。
    • 54. 发明授权
    • X-ray imaging apparatus for subtraction angiography
    • 用于减影​​血管造影的X射线成像装置
    • US06834994B2
    • 2004-12-28
    • US10397874
    • 2003-03-27
    • Masahiro OzawaKunio Shiraishi
    • Masahiro OzawaKunio Shiraishi
    • H05G102
    • A61B6/481A61B6/4441A61B6/504G01N23/04
    • An X-ray imaging apparatus irradiates an X-ray every predetermined rotation angle of an arc arm for oppositely supporting an X-ray tube and an X-ray detector through a subject while the arc arm is reciprocated and rotated over a predetermined angle range. The X-ray imaging apparatus then acquires a mask image before injecting a contrast medium into the subject, and a contrast image after injecting the contrast medium. X-ray irradiation timing is controlled such that the collecting rate of an X-ray image in an acceleration/deceleration area near at least one of a start position and a stopping position of the arm is approximately equal to the collecting rate of the image in a constant velocity area for rotating the arm at an approximately constant velocity.
    • X射线摄像装置在电弧臂往复运动并旋转预定角度范围时,通过对象对每个预定的旋转角度的X射线照射X射线成像装置,以相对地支撑X射线管和X射线检测器。 然后,X射线成像装置在将造影剂注入对象之前获取掩模图像,以及在注入造影剂之后获取对比度图像。 控制X射线照射定时,使得靠近臂的开始位置和停止位置中的至少一个的加速/减速区域中的X射线图像的收集率近似等于图像的收集率 用于以大致恒定速度旋转臂的恒定速度区域。
    • 56. 发明授权
    • Dual C-arm angiographic device for flat panel receptor
    • 用于平板受体的双C臂血管造影装置
    • US06789941B1
    • 2004-09-14
    • US10155539
    • 2002-05-24
    • John K. Grady
    • John K. Grady
    • H05G102
    • A61B6/447A61B6/4233A61B6/4423A61B6/481A61B6/504
    • A dual C-arm angiographic device for flat panel x-ray receptor (“dual C-arm gantry”) comprises: a base attached to the floor; an outer C-shaped track non-movably attached to the base; a crawler carriage that moves along the outer track; and a counterweighted, inner C-shaped instrument bracket (“inner C-arm”) pivotally attached to the crawler carriage. A detector/counterweight housing, flat-panel x-ray receptor, and x-ray tube and collimator are attached to the inner C-arm. The bottom end of the outer track terminates at the base, such that the outer track arches over the side and top of a separate patient support table. Additionally, the outer track, crawler carriage, and inner C-arm are mutually configured such that the dual C-arm gantry is capable of full spherical angulation and of providing a full range of clinical positioning, while minimizing interference with clinical use patterns (i.e., the head end of the table is left clear for all angulations).
    • 用于平板X射线受体(“双C型臂架”)的双C形血管造影装置包括:附接到地板的底座; 外部C形轨道不可移动地附接到基座; 沿着外轨道移动的履带架; 和一个平衡的内部C形工具支架(“内C形臂”)可枢转地连接到履带架上。 检测器/配重外壳,平板X射线接收器和X射线管和准直器附接到内C臂。 外轨道的底端终止在基座处,使得外轨道跨越单独的患者支撑台的侧面和顶部。 另外,外轨道,履带架和内C臂相互配置,使得双C臂机架能够具有全球面角度并提供全方位的临床定位,同时最小化对临床使用模式的干扰(即 ,桌子的头端对于所有角度都是清楚的)。
    • 59. 发明授权
    • Non-circular C-arm for fluoroscopic imaging equipment
    • 用于荧光镜成像设备的非圆形C型臂
    • US06659642B2
    • 2003-12-09
    • US09683670
    • 2002-02-01
    • Barry Keith Hanover
    • Barry Keith Hanover
    • H05G102
    • A61B6/4441A61B6/4405
    • A system and method of x-ray imaging is provided that includes a support base, a bearing assembly supported by the support base, and a non-circular positioning arm rotating in a semi-elliptical path relative to the support base through the bearing assembly. The non-circular positioning arm has first and second distal ends. The shape of the non-circular positioning arm conforms to a shape of a portion of a linear spiral. The system and method also includes an x-ray source located at the first distal end of the positioning arm, an x-ray detector located at the second distal end of the positioning arm. The x-ray source emits a conical beam having a theoretical central beam. The central beam passes through an origin of the linear spiral. The system also includes an imaging isocentric area located between the x-ray source and the x-ray detector. The imaging isocentric area remains substantially constant when the noncircular positioning arm rotates relative to the support base.
    • 提供了一种X射线成像的系统和方法,其包括支撑基座,由支撑基座支撑的轴承组件和相对于通过轴承组件的支撑基座以半椭圆形路径旋转的非圆形定位臂。 非圆定位臂具有第一和第二远端。 非圆定位臂的形状符合线性螺旋的一部分的形状。 该系统和方法还包括位于定位臂的第一远端处的X射线源,位于定位臂的第二远端处的X射线检测器。 x射线源发射具有理论中心束的锥形束。 中心光束通过线性螺旋的原点。 该系统还包括位于x射线源和x射线探测器之间的成像等中心区域。 当非圆形定位臂相对于支撑基座旋转时,成像等中心区域保持基本恒定。