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    • 3. 发明授权
    • Method for producing optical beam splitter cubes
    • 光分束器立方体的制造方法
    • US09513485B2
    • 2016-12-06
    • US14443335
    • 2013-11-11
    • SCHILDTEC GMBH
    • Hans-Joachim Freitag
    • G02B27/10C03B19/02C03B33/06C03C17/06
    • G02B27/1073C03B19/02C03B33/06C03C17/06
    • To produce optical beam splitter cubes, an optically transparent plate is provided with an optically active layer on a cover side. Then, on both cover sides of the plate, a plurality of prism bars are formed by molding an optically transparent material, so that a double prism plate is obtained. The prism bars are arranged on cover sides of the plate projecting roof-like in ridge lines separated from each other by valleys. Each prism bar has the cross section of an isosceles right-angled triangle, complemented by the prism bar lying opposite on the other cover side of the plate to form the cross section of the beam splitter cube. The double prism plate is cut up along the valleys between the prism bars and transverse to the longitudinal direction into segments which in each case form a beam splitter cube.
    • 为了制造光分束器立方体,光学透明板在盖侧设置有光学活性层。 然后,在板的两个盖侧上,通过模制光学透明材料形成多个棱柱,从而获得双棱镜板。 棱柱布置在板状突出的屋顶状的盖侧,棱线彼此分开由谷分开。 每个棱镜杆具有等腰直角三角形的横截面,由位于板的另一个盖板侧面上的棱镜杆补充,以形成分束器立方体的横截面。 双棱镜板沿着棱柱之间的谷部被切割并且横向于纵向方向成为分段,其在每种情况下形成分束器立方体。
    • 5. 发明授权
    • Installation for performing operations of shaping glass or crystal pieces
    • 进行玻璃或水晶片的成型操作的安装
    • US08247735B2
    • 2012-08-21
    • US11995959
    • 2006-07-18
    • Georges Cuvelier
    • Georges Cuvelier
    • B23K26/00C03B9/00
    • C03B33/06C03B33/0855C03B35/04Y10T83/202
    • The invention relates to an installation that is used to perform operations for forming glass or crystal pieces (21), comprising: at least one drive wheel and at least one idler wheel (3); a support element which is driven by the drive wheel; main mandrels (7) which are supported by the support element and which, in turn, each support a first end of a glass or crystal piece (21); and work stations. According to the invention, at least one wheel takes the form of a carousel (2) which comprises secondary mandrels (8), numbering fewer than the main mandrels (7), and which co-operates with the moving support element. Each secondary mandrel (8) opposes a main mandrel (7) along a common axis (23) and supports the second end of the glass or crystal piece.
    • 本发明涉及一种用于执行形成玻璃或水晶片(21)的操作的装置,包括:至少一个驱动轮和至少一个惰轮(3); 由驱动轮驱动的支撑元件; 主轴心(7),其由支撑元件支撑,并且又分别支撑玻璃或水晶片(21)的第一端; 和工作站。 根据本发明,至少一个轮采取圆盘传送带(2)的形式,其包括次数心轴(8),编号少于主心轴(7),并且与移动的支撑元件配合。 每个次级心轴(8)沿着公共轴线(23)与主心轴(7)相对,并且支撑玻璃或水晶片的第二端。
    • 10. 发明授权
    • Dosimeter glass element, method for manufacturing same, and dosimeter holder
    • 剂量计玻璃元件,其制造方法和剂量计座
    • US06624427B2
    • 2003-09-23
    • US10022707
    • 2001-12-14
    • Tatsuyo IshidoyaYasuyuki MinouraMotoyuki Sato
    • Tatsuyo IshidoyaYasuyuki MinouraMotoyuki Sato
    • G01J104
    • G01T1/10C03B23/047C03B33/06C03B37/0124C03B37/16C03B2201/70
    • A cylindrical silver-activated phosphate glass base material 2 is placed inside a heater 1. The upper end of this base material 2 is set in a supporting section 3, and an extending section 4 provided in vertically movable fashion by means of a drive device is attached to the lower end thereof. As the base material 2 is softened by the heating of the heater 1, and the extending section 4 is lowered by operating the drive device, the base material 2 is extended and assumes a thin bar shape. The extension rate of the extending section 4 driven by the drive device is controlled by an external diameter control section 5, while detecting the external diameter, in such a manner that the external diameter of the extended portion is uniform. The extended portion 6 of the base material 2 is cut to uniform lengths, and the cut faces thereof are polished by a polishing device, thereby yielding a cylindrical dosimeter glass element 7a.
    • 将圆筒状的银活化磷酸盐玻璃基材2放置在加热器1的内部。该基材2的上端设置在支撑部3中,通过驱动装置设置成可上下移动的延伸部4, 附着在其下端。 由于通过加热器1的加热使基材2软化,并且通过操作驱动装置而使延伸部4下降,基材2延伸并呈现薄的条状。 由驱动装置驱动的延伸部分4的延伸率由外径控制部分5控制,同时检测外径,使得延伸部分的外径是均匀的。 将基材2的延伸部分6切割成均匀的长度,并且通过抛光装置对其切割面进行抛光,从而产生圆柱形剂量计玻璃元件7a。