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    • 3. 发明申请
    • 表示装置
    • 显示设备
    • WO2012117497A1
    • 2012-09-07
    • PCT/JP2011/054493
    • 2011-02-28
    • パイオニア株式会社柳澤 琢麿
    • 柳澤 琢麿
    • G09F9/00B60K35/00G02B27/01
    • G02B17/023B60K35/00B60K2350/2013B60K2350/2026B60K2350/2052B60K2350/2056B60K2350/922B60K2350/927G02B27/0101G02B2027/0123
    •  表示装置は、光源と、第1反射ミラーと、第2反射ミラーと、第3反射ミラーと、第4反射ミラーとを備える。光源は、表示像を構成する光を出射する。第1反射ミラー及び第2反射ミラーは、光源から出射された光が入射する。第3反射ミラーは、第1反射ミラーが反射した光を観察者の一方の眼に導く。第4反射ミラーは、第2反射ミラーが反射した光を観察者の他方の眼に導く。第3反射ミラー移動機構は、第1反射ミラーと第3反射ミラーとの第1光学距離を変化可能である。第4反射ミラー移動機構は、第2反射ミラーと第4反射ミラーとの第2光学距離を変化可能である。光源移動機構は、第1光学距離及び第2光学距離の変化の前後で、光源から第3反射ミラーまでの光学距離、及び、光源から第4反射ミラーまでの光学距離が維持されるように光源を移動可能である。
    • 该显示装置设置有光源,第一反射镜,第二反射镜,第三反射镜和第四反射镜。 光源发射构成显示图像的光。 从光源发射的光入射到第一反射镜和第二反射镜上。 第三反射镜将由第一反射镜反射的光导向一个观察者的眼睛。 第四反射镜将由第二反射镜反射的光引导到另一观察者的眼睛。 第三反射镜移动机构能够改变第一反射镜和第三反射镜之间的第一光学距离。 第四反射镜移动机构能够改变第二反射镜和第四反射镜之间的第二光学距离。 光源移动机构能够使光源在第一光学距离和第二光学距离的变化前后移动,使得从光源到第三反射镜的光学距离和从光源到第三反射镜的光学距离 维持到第四反射镜的光源。
    • 4. 发明申请
    • HIGH RESOLUTION MICROSCOPE AND IMAGE DIVIDER ASSEMBLY
    • 高分辨率显微镜和图像分割器安排
    • WO2011085765A8
    • 2011-09-29
    • PCT/EP2010007594
    • 2010-12-14
    • ZEISS CARL MICROIMAGING GMBHKALKBRENNER THOMASGOELLES MICHAEL
    • KALKBRENNER THOMASGOELLES MICHAEL
    • G02B21/18G02B17/02G02B27/14
    • G02B21/361G01N21/6458G02B7/38G02B17/023G02B21/0032G02B21/0072G02B21/0076G02B21/0088G02B21/16G02B21/18G02B21/245G02B21/367G02B27/106G02B27/1066G02B27/141G02B27/144G02B27/145G02B27/58
    • The invention relates to a microscope having an illumination beam path with wide field illumination of a sample and a first detection beam path having a spatially resolved surface receiver, which is reached by a first part of the detection light coming from the sample via the first detection beam path, or an image divider assembly for a microscope. In order to lengthen the optical path length, at least a second part of the detection light coming from the sample is masked out of the detection beam path and, via deflection means belonging to the detection beam path, is led into a second detection beam path and, preferably via further deflection means, is deflected back in the direction of the detection in such a way that detection light is applied to at least two partial regions beside one another on the surface receiver. At least the second part of the detection light runs in an optical element having an optical density that is increased as compared with the first detection beam path, in order to lengthen the optical path length, and the optical element is designed to be displaceable at an angle, preferably perpendicular, to the optical axis of the first detection beam path in order to adjust the optical path length, and has flat surfaces, at least on the light entry and light exit side thereof; a prism is provided, preferably a glass prism, preferably at least in the second detection beam path after a first beam deflection, for deflection in a direction parallel to the first detection beam path, in order to increase the path length and for reverse deflection.
    • 显微镜用具有样品的宽视场照明,并用为在经由所述第一检测光束路径从所述样品检测光的光的第一部分经过或图像分割器装置,用于在显微镜空间分辨表面接收器的第一检测光束路径的照明光束的路径,其中对于至少一个第二部分的光路长度的延长 从检测光路中的样本的检测光的光线被隐藏和被引导越过偏转装置,用于至少在第二检测光束路径检测光束路径,并且优选地引导返回通过进一步偏转装置在检测的方向,使得彼此相邻的至少两个子区域被暴露给检测光接收器的表面上, 至少至少部分地延伸在光学元件的光路长度相对于所述第一德的检测光的第二部分 延伸根据第一光束偏转tektionsstrahlengang至少在所述第二检测光束路径增加的光密度和以一个角度的光学元件,最好是垂直形成在第一检测光束路径的光轴为它的光入射和光出射侧调节光程长度,并具有至少平坦表面,并且优选地 棱镜,优选玻璃棱镜用于在平行偏转到第一检测光束路径方向上​​增加的路径长度,并且设置到后偏转。
    • 6. 发明申请
    • ADJUSTABLE OPTICAL SYSTEM, AND METHOD FOR USING AND MANUFACTURING SUCH
    • 可调光学系统,以及使用和制造方法
    • WO2004111697A1
    • 2004-12-23
    • PCT/FI2004/050095
    • 2004-06-17
    • NOKIA CORPORATIONLEVOLA, Tapani
    • LEVOLA, Tapani
    • G02B15/00
    • G02B17/023G02B3/14G02B13/0065G02B15/00G02B17/04G02B23/02G02B26/005G02B2207/117
    • The invention relates to a small-size and light-weight optical system with an adjustable focal length. The invention relates to a method and system comprising an image plane (203, 303) on which there is formed an image of the target observed by the optical system, a first optical component (204, 304) with an adjustable focal length, and a prism (201, 301) with an optical path that is adjustable to correspond to the focal length adjusted for the first optical component (204, 304). By means of the optical system according to the invention, there is formed an image of the target under observation, located at the distance of the focal length of the first optical component (204, 304), on the image plane (203, 303) so that the first optical component (204, 304), the prism (201, 301) and the image plane (203, 303) remain permanently in place in relation to each other.
    • 本发明涉及一种具有可调节焦距的小尺寸和重量轻的光学系统。 本发明涉及一种包括图像平面(203,303)的方法和系统,在该平面上形成由光学系统观测到的目标的图像,具有可调节焦距的第一光学部件(204,304),以及 棱镜(201,301)具有可调节以对应于针对第一光学部件(204,304)调节的焦距的光路。 借助于根据本发明的光学系统,在图像平面(203,303)上形成了位于第一光学部件(204,304)的焦距的距离处的观察对象的图像, 使得第一光学部件(204,304),棱镜(201,301)和图像平面(203,303)相对于彼此保持永久地就位。
    • 7. 发明申请
    • METHOD OF ELIMINATING VIBRATIONS GENERATED BY MONITORS AND A SYSTEM BASED ON THIS METHOD
    • 消除由监测器产生的振动和基于该方法的系统的方法
    • WO2003007598A1
    • 2003-01-23
    • PCT/PL2001/000090
    • 2001-11-12
    • ROSA, Robert
    • ROSA, Robert
    • H04N5/64
    • G02B17/023G06F1/1607
    • The subject of this invention is the method for eliminating and attenuating vibrations of the monitor screen's grid, which have a detrimental effect on the user's eyes, and a device protecting the computer user's sight while working in front of the monitor. The method of eliminating vibrations of the monitor screen's grid is based on viewing the images emitted by the monitor screen (1) via a set of moveable mirrors that are nearly parallel or parallel to each other and directed to each other with their mirror surfaces. The image emitted by the monitor screen (1) is received by the mirror (5) located near the upper edge of the monitor screen (1) and is transmitted to the mirror (4) located near the lower edge of the monitor screen (1), where it is viewed by the user. The set of moveable covers consists of two moveable covers. The upper cover (5) is installed at the height of the upper surface of the monitor screen (1). The lower cover (4) is installed at the height of the lower plane of the monitor screen (1). The inner sides of the upper cover (5) and the lower cover (4) have mirrors (12) and (11)., and the set of the upper cover (5) and the lower cover (4) is mounted to the frame (10) of the monitor (1) in an adjustable system, which allows for positioning the covers in the angular range from 0° to 180° towards the monitor screen (1).
    • 本发明的主题是消除和减弱对用户眼睛有不利影响的监视器屏幕的振动的方法,以及在监视器前工作时保护计算机用户视线的装置。 消除监视器屏幕的振动的方法是基于通过一组可移动的反射镜观察由监视器屏幕(1)发射的图像的方法,所述可移动的反射镜几乎是平行的或彼此平行的并且以它们的镜面指向彼此。 由监视器屏幕(1)发射的图像由位于监视器屏幕(1)的上边缘附近的反射镜(5)接收,并被传送到位于监视器屏幕(1)的下边缘附近的反射镜(4) ),由用户查看。 一套可动盖包括两个可动盖。 上盖(5)安装在监视器屏幕(1)的上表面的高度处。 下盖(4)安装在监视器屏幕(1)的下平面的高度处。 上盖(5)和下盖(4)的内侧具有反射镜(12)和(11),上盖(5)和下盖(4)的组被安装在框架 (1)的可调节系统(10),其允许将盖在0°至180°的角度范围内朝向监视器屏幕(1)定位。
    • 9. 发明申请
    • A MONITOR SYSTEM
    • 监控系统
    • WO1994006245A1
    • 1994-03-17
    • PCT/KR1993000074
    • 1993-08-20
    • LEE, Hyeong, Gon
    • H04N05/74
    • G02B17/023G02B5/08H04N9/3141
    • The present invention relates to a system for providing clear picture quality and safe environment while using the monitor (35), and more particularly to a monitor system for removing various factors deteriorating the picture quality such as harmful electromagnetic waves and unnecessary light emitted from the monitor, spreading phenomenon of colors, the phenomenon of glare occurring at the panel of monitors, the alteration of color of monitor picture while using the filter and reflection at filter surface. To accomplish objects of the present invention, the present invention comprises one method selected between the method of combining the monitor (35) providing mirror symmetrical picture with mirrors (17) having uneven number, at least one, or the method of combining the normal monitor with mirrors having even number, at least two. In this construction, at least one of the said mirrors should be the front mirror (17) made of dielectric having proper reflectance and the angle of reflection should be adequate to obtain the desired reflectance and the effect of polarization of light. It also provides the clear and safe virtual image of picture of the monitor without harmful waves and unnecessary light, and supplementary function to enlarge or reduce the picture of the virtual image by selectively including at least one among plane mirrors, convex mirrors or concave mirrors. This monitor system provides very clear picture and safer environment in case of watching televisions and using computer monitors.
    • 本发明涉及一种在使用监视器(35)时提供清晰图像质量和安全环境的系统,更具体地涉及一种用于去除恶化诸如有害电磁波和从监视器发出的不必要光的图像质量的各种因素的监视器系统 ,颜色的扩散现象,显示器面板发生眩光的现象,使用过滤器时的显示器图像的颜色变化以及过滤器表面的反射。 为了实现本发明的目的,本发明包括一种方法,该方法是将提供镜像对称图像的监视器(35)与具有不均匀数目的反射镜(17),至少一个或组合正常监视器的方法 具有偶数镜子,至少两个。 在这种结构中,所述反射镜中的至少一个应该是由具有适当反射率的电介质制成的前反射镜(17),并且反射角度应足以获得所需的反射率和光的偏振效果。 它还提供监视器的图像的清晰和安全的虚拟图像,无有害的波浪和不必要的光,以及通过选择性地包括平面镜,凸面镜或凹面镜中的至少一个来放大或缩小虚像的图像的补充功能。 该监视器系统在观看电视和使用电脑显示器的情况下,提供非常清晰的图像和更安全的环境。
    • 10. 发明申请
    • TELECENTRIC LENS
    • 远摄镜头
    • WO2016147071A9
    • 2017-07-27
    • PCT/IB2016051076
    • 2016-02-26
    • SEDAZZARI CLAUDIO
    • SEDAZZARI CLAUDIO
    • G02B13/22G02B17/02G02B26/08G02B27/14
    • G02B17/023G02B13/22G02B26/0825G02B27/141
    • A telecentric lens comprises a front optical group (20) defining a front optical axis (k), at least a first rear optical group (40), defining a rear optical axis (k'), and at least one lens aperture (30) positioned between the front optical group 20 and a respective rear optical group. Between the front optical group (20) and the lens aperture (30) are inserted at least two reflective or semi-reflective elements arranged in such a way that at least a part of the rays coming from the front optical group undergoes at least one double reflection before reaching the rear optical group (40).
    • 一种远心透镜,包括限定前光轴(k)的前光学组件(20),限定后光轴(k')的至少第一后光学组(40)以及至少一个透镜孔径(30) 其位于前光学组件20和相应的后部光学组件之间。 在前光学组件(20)和透镜孔(30)之间插入至少两个反射或半反射元件,该至少两个反射或半反射元件以这样的方式布置,使得来自前光学组的至少一部分光线经历至少一个双倍 在到达后部光学组(40)之前进行反射。