公开(公告)号：US20170006695A1

公开(公告)日：2017-01-05

申请号：US15022358

申请日：2015-03-02

申请人： THE SECRETARY, DEPARTMENT OF ATOMIC ENERGY

发明人： Vikas Kumar Jain ,  Girdhar Mundra ,  Satish Chandra Joshi ,  Parshotam Dass Gupta

IPC分类号： H05H7/02 ,  H05H7/22

摘要： The present invention relates to method and device invention made in SS316LN for tuning single-cell or multi-cell SCRF cavity for precise slow and fast tuning with low hysteresis. The tuning mechanism (device) for SCRF cavity consists of two thick square flanges connected to each other through two parallel sets of X-link levers pivoted in between such that the motion of top end of flange and bottom end of flange equalizes; wherein the top end of X-link connects one square flange to the bottom end of the other square flange and vice-versa using thin flat flexure plates; wherein the flexure plates are joined on X-link and square flange by bolts having spring locks; the square flanges have platform on the top that transfer motion and these are connected through power screw mechanism; wherein the power screw for linear actuation is rotated using worm-wheel.

摘要翻译： 本发明涉及用于调谐单电池或多电池SCRF腔的SS316LN中的方法和装置发明，用于具有低滞后的精确的慢速和快速调谐。 用于SCRF腔的调谐机构（装置）包括两个通过两个平行组合的X形连杆杆彼此连接的厚方形凸缘，这两组平行组合在其间枢转，使得凸缘顶端和凸缘底端的运动相等; 其中X形连杆的顶端将一个方形凸缘连接到另一个方形凸缘的底端，反之亦然，使用薄平板挠曲板; 其中所述弯曲板通过具有弹簧锁的螺栓在X形连杆和方形凸缘上接合; 方形法兰在顶部具有传递运动的平台，这些平台通过动力螺丝机构连接; 其中用于线性致动的动力螺杆使用蜗轮转动。

公开(公告)号：US10524346B2

公开(公告)日：2019-12-31

申请号：US15022358

申请日：2015-03-02

申请人： THE SECRETARY, DEPARTMENT OF ATOMIC ENERGY

发明人： Vikas Kumar Jain ,  Girdhar Mundra ,  Satish Chandra Joshi ,  Parshotam Dass Gupta

IPC分类号： H05H7/02 ,  H02N2/02 ,  H02N2/04 ,  H05H7/20 ,  H05H7/22

摘要： The present invention relates to method and device invention made in SS316LN for tuning single-cell or multi-cell SCRF cavity for precise slow and fast tuning with low hysteresis. The tuning mechanism (device) for SCRF cavity consists of two thick square flanges connected to each other through two parallel sets of X-link levers pivoted in between such that the motion of top end of flange and bottom end of flange equalizes; wherein the top end of X-link connects one square flange to the bottom end of the other square flange and vice-versa using thin flat flexure plates; wherein the flexure plates are joined on X-link and square flange by bolts having spring locks; the square flanges have platform on the top that transfer motion and these are connected through power screw mechanism; wherein the power screw for linear actuation is rotated using worm-wheel.