会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Photometer for observation instruments mainly for microscopes
    • 用于显微镜观察仪的光电测定仪
    • US3652163A
    • 1972-03-28
    • US3652163D
    • 1970-04-22
    • TS LAB ASTYKI
    • BORKOWSKI WIESLAW KPLUTA MAKSYMILIANPOPIELAS MACIEJ
    • G02B21/00G02B27/14
    • G02B21/0096
    • Photometer enabling simultaneous observation of an object being investigated and of a measuring diaphragm, provided with visual and measuring systems, wherein one or two polarizing been splitters divide the main light beam entering into the instrument into two beams which are linearly polarized. The image of the measuring diaphragm is projected on the background of the image of the object being investigated by means of special plates which turn the direction of the light vibrations and change the kind of light polarization from linear to circular. The images of the measuring diaphragm and of the investigated object are formed by two beams which are linearly polarized, whereby the directions of light vibrations are mutually perpendicular. The visual system of the photometer has a polarizing filter, enabling the controlling of the ratio of luminance of the measuring diaphragm image to that of the investigated object image.
    • 配有可视化和测量系统的测量光圈的同时观察的光度计,其中一个或两个偏振分束器将入射到仪器中的主光束分成两束直线偏振的光束。 测量光阑的图像通过转动光振动方向的特殊板投射到被研究物体的背景上,并将光偏振的种类从线性改变为圆形。 测量膜片和被检查物体的图像由线性偏振的两个光束形成,由此光振动的方向相互垂直。 光度计的视觉系统具有偏振滤光器,能够控制测量光圈图像的亮度与被检查对象图像的亮度之比。
    • 8. 发明专利
    • ELECTROMAGNETIC GRIPPER
    • BG66317B1
    • 2013-04-30
    • BG10956006
    • 2006-05-26
    • TS LAB MEHATRONIKA I PRIBOROSTROENE BAN
    • DOBRINOV ATANASDOBRINOV VELICHKOZAHARIEV ROMANKARASTOYANOV DIMITUR
    • B23Q7/04B25J15/06
    • The electromagnetic gripper consists of a body (1), at one end of which two electromagnetic coils (2 and 3) with windings (4 and 5) are located at a distance from each other. Between them, a permanent magnet (6) is placed to which an axle (7) with a toothed rack (8) are immovably fixed, the rack being in contact on both sides with gear-wheels (9 and 10), to which fingers (11 and 12) with removable jaws (13 and 14) are fastened. The adjustable clamp electromagnetic gripper finds application in industry for handling small objects both in hard to access places and in injurious to human health environment. The wider clamp of the jaws (13 and 14) results from the use of the elements of the gear-wheels (9 and 10). Besides, the excellent speed and dynamic characteristics result from the small mass of the mobile part of the gripper. The zero-maximum regulation of the gripping force is performed by changing the value of the voltage fed to the windings (4 and 5) of the coils (2 and 3) of the gripper. Using the feedback by position from an encoder (15) helps to establish the level of opening of the gripper jaws (13 and 14) as well as the gripping force, this offering a possibility for telecontrol of the gripper and for using it in hard to access places and/or injurious to human health environment. Besides, the position and gripping force feedback information makes it possible to identifythe hardness of the details as well as the deviation of the details dimensions from the preset ones.
    • 10. 发明专利
    • LASER INTERFEROMETER
    • BG66285B1
    • 2013-01-31
    • BG11017108
    • 2008-06-27
    • TS LAB OPTICHEN ZAPIS I OBRABOTKA NA INF KUM BAN
    • SUYNOV VENTSESLAVSTOYKOVA ELENAZDRAVKOV KALOYAN
    • G01B9/02
    • The laser interferometer is used for measurement in a wide dynamic range of the diffraction, reflection and transition through the examined objects of coherent (laser) light and is used to determine the coordinates of the points on their surface, to determine their displacement, to determine the differences in the coefficients of refraction during lighting with different light wavelengths. It canbe used to control the shape of precision details, molds, dies, machine elements and mirror reflective surfaces, control of the travel and the occurring changes in details, facilities, building constructions, and for biological objects within the range from the overall size the object to its individual building elements (for biological objects - to cellular and sub-molecular level). The laser interferometer consists of consecutively situated and optically connected laser (1), expander (2) spatial filter (3), collimator (4) receptacle lens (6) removable optical divider (7) formers of interference pictures - Mach-Zehnder interferometers with integrated optical dividers, phase-displacement elements (8), optical compensators (9), reflectors (10) lenses (11) and two-coordinate receivers (12), connected via analogue-digital converters (13) to a computer (14). The subject of measurement (5) is placed between the collimator (4) and the receptacle lens (6).