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    • 53. 发明申请
    • INCIDENT ILLUMINATION DEVICE FOR A MICROSCOPE HAVING A PLANAR LIGHT SOURCE
    • 具有平面光源的显微镜的偶发性照明装置
    • US20150260971A1
    • 2015-09-17
    • US14418623
    • 2013-08-02
    • Leica Microsystems (Schweiz) AG
    • Robert PaulusHarald SchnitzlerReto Züst
    • G02B21/06
    • G02B21/06G02B6/005G02B6/0068G02B21/082
    • The invention relates to an incident illumination device for a microscope, for viewing a sample (1) in the microscope (10), having a planar light source (100) for incident illumination of the sample (1), wherein the planar light source (100) comprises a panel-shaped light guide having a lower boundary surface (111), an upper boundary surface, and at least one lateral surface, as well as at least one light-emitting means that is arranged so that it irradiates light, via at least one lateral surface serving as a light entry surface, into the light guide in such a way that said light propagates in the light guide due to total reflection; wherein the total reflection is disrupted in defined fashion by an element abutting at the lower boundary surface of the light guide against a contact surface so that an outcoupling of light occurs at the upper boundary surface of the light guide.
    • 本发明涉及一种用于显微镜的入射照明装置,用于观察显微镜(10)中的样品(1),具有用于样品(1)的入射照明的平面光源(100),其中平面光源 100)包括具有下边界表面(111),上边界表面和至少一个侧表面的面板形光导,以及至少一个发光装置,其布置成使得其照射光,经由 至少一个用作光入射表面的侧表面以使得所述光由于全反射而在光导中传播的方式进入光导; 其特征在于,所述全反射以限定的方式被所述导光体的下边界面抵接接触面抵接,从而在所述导光体的上边界面发生光的外耦合。
    • 54. 发明授权
    • Surgical microscope system for ophthalmology, and associated detection unit
    • 眼科手术显微镜系统及相关检测单元
    • US08882271B2
    • 2014-11-11
    • US13707994
    • 2012-12-07
    • Leica Microsystems (Schweiz) AG
    • Ulrich Sander
    • A61B3/14A61B3/10A61B3/13
    • A61B3/102A61B3/13
    • A surgical microscope system (100) for ophthalmology, in particular for cataract surgery, comprising a surgical microscope (10) having an optical viewing unit (13), is proposed, in which an optical coherence tomograph (20) is set up to scan at least a region of a lens (53) of an eye (50) and to generate scan values, and in which a detection unit (30) is set up to generate, on the basis of the scan values, diagnostic data that correspond to light-reflecting structures in the scanned region of the eye (50) and that derive from a plane of the eye (50) that corresponds to an object plane of the surgical microscope (10).
    • 提出了一种用于眼科的手术显微镜系统(100),特别是用于白内障手术,包括具有光学观察单元(13)的手术显微镜(10),其中光学相干断层摄影机(20)被设置为扫描 至少一个眼睛(50)的透镜(53)的区域并且产生扫描值,并且其中设置检测单元(30)以根据扫描值生成与光对应的诊断数据 - 反射眼睛的扫描区域中的结构,并且从与手术显微镜(10)的物平面相对应的从眼睛(50)的平面得到的结构。
    • 55. 发明申请
    • DIAPHRAGM ARRANGEMENT FOR GENERATING AN OBLIQUE ILLUMINATION IN A MICROSCOPE, AND MICROSCOPE
    • 用于在微阵列和微阵列中产生OBLIQUE照明的膜片布置
    • US20130271808A1
    • 2013-10-17
    • US13858965
    • 2013-04-09
    • LEICA MICROSYSTEMS (SCHWEIZ) AG
    • Robert LettowPaul Gräfenhain
    • G02B21/06
    • G02B21/06G02B5/005G02B21/082
    • A diaphragm arrangement (100) for generating an oblique illumination in a microscope comprises a carrier element (130), an iris diaphragm element (110) having a variable iris diaphragm opening (111), a further diaphragm element (120) having a diaphragm opening (121) that, when it is in a first position relative to the carrier element (130), covers a portion of the iris diaphragm opening (111) and is mounted rotatably around a first rotation axis (A), such that a rotation of the further diaphragm element (120) around the first rotation axis (A) changes that portion of the iris diaphragm opening (111) which is covered by the further diaphragm element (120), and an actuation element (140) coupled to the further diaphragm element (120) via a coupling device (150) such that a rotation of the further diaphragm element (120) around the first rotation axis (A) is produced by an actuation of the actuation element (140).
    • 用于在显微镜中产生倾斜照明的光阑装置(100)包括载体元件(130),具有可变虹膜光阑开口(111)的可变光阑元件(110),另外的光阑元件(120) (121),当其位于相对于所述载体元件(130)的第一位置时,覆盖所述虹膜光阑开口(111)的一部分并且可旋转地安装在第一旋转轴线(A)周围,使得旋转 围绕第一旋转轴线(A)的另一个隔膜元件(120)改变由另一个隔膜元件(120)覆盖的可变光阑开口(111)的部分,以及联接到另外的隔膜的致动元件(140) 通过联接装置(150)使得所述另一隔膜元件(120)围绕所述第一旋转轴线(A)的旋转通过所述致动元件(140)的致动产生。
    • 58. 发明申请
    • STAND FOR HOLDING AT LEAST ONE MEDICAL DEVICE, IN PARTICULAR A MICROSCOPE
    • 用于至少一个医疗设备,特别是一个显微镜
    • US20130175412A1
    • 2013-07-11
    • US13736666
    • 2013-01-08
    • Leica Microsystems (Schweiz) AG
    • Marco Schutz
    • G02B21/24
    • G02B21/24G02B7/001
    • A stand (10, 100) for holding a medical device (W1, W2, W3) includes a stand foot (9) and a carrier unit (1) connected to the stand foot rotatably about an axis (S), the medical device being mountable on the carrier unit. The stand also includes a counterweight (W4) to compensate for the torque about the axis produced by the medical device and the carrier unit, a first receiving unit (6, 102) at a first location for receiving at least a portion of the counterweight, and a second receiving unit (7, 104) at a second location for receiving at least another portion of the counterweight. Upon a change in torque about the axis, a proportion of the counterweight received by the first receiving unit is increasable by a compensation value, and that proportion of the counterweight which is received by the second receiving unit is reducible by that compensation value.
    • 用于保持医疗装置(W1,W2,W3)的支架(10,100)包括支架(9)和支架单元(1),其围绕轴线(S)可旋转地连接到所述支架,所述医疗装置 可安装在载体单元上。 支架还包括用于补偿围绕由医疗装置和承载单元产生的轴的扭矩的配重(W4),用于接收至少一部分配重的第一接收单元(6,102) 以及在第二位置处的第二接收单元(7,104),用于接收所述配重的至少另一部分。 当绕轴线转矩变化时,由第一接收单元接收的配重的比例可以通过补偿值增加,并且由第二接收单元接收的配重的比例可以减小该补偿值。