Class / Patent application number | Description | Number of patent applications / Date published |
356125000 | Focal length measuring | 14 |
20080278712 | Confocal Fiber-Optic Laser Device and Method for Intraocular Lens Power Measurements - A lens power measuring system has a light source and a fiber-optic light delivery system optically coupled to the light source to receive illumination light from the light source. The fiber-optic light delivery system has a transmit/receive end. The lens power measurement system also has a microscope objective optically coupled to the fiber-optic light delivery system through the transmit/receive end of the fiber-optic light delivery system, a movable mirror arranged to intercept at least a portion of light after having passed through the microscope objective, and an optical detection system optically coupled to the fiber-optic light delivery system to receive light after having been reflected from said movable mirror. The optical detection system is constructed to be able to determine a substantially maximum signal of light reflected from the movable mirror in correspondence with a relative position of the movable mirror to a lens to be measured. Methods of measurement include methods using such a lens system. | 11-13-2008 |
20080297776 | Cup attaching apparatus - A cup attaching apparatus for attaching a cup as a processing jig to an eyeglass lens, comprises: an illumination optical system comprising an illumination light source and arranged to illuminate the lens from a side of a front surface of the lens by illumination light from the light source; an imaging optical system comprising an imaging device and a retroreflection member placed on an opposite side from the light source with respect to the lens, the imaging optical system being adapted such that the retroreflection member returns the illumination light passing through the lens back to its incoming direction, and the imaging device receives the returned illumination light, and the imaging optical system being adjusted to focus on a point near a surface of the lens; an image processing device adapted to process an image signal from -the- imaging device to detect at least one of a mark point provided on a unifocal lens, a small lens portion of a bifocal lens, and a progressive mark provided on a progressive focal lens and obtain a position of the detected one; and an arithmetic control device adapted to determine an attaching position of the cup based on the position obtained by the image processing device. | 12-04-2008 |
20090168054 | 3-D Shape Measuring Method for Auto-Grinding Equipment of LCD Color Filter and 3-D Shape Measuring Apparatus for the Same - Provided are a three-dimensional image measuring method and apparatus for an LCD color filter automatic grinder. It is possible to measure a three-dimensional image of an LCD color filter, even though textures for recovering the three-dimensional image are insufficient, by irradiating illumination passed through a patterned filter to the LCD color filter. In addition, it is possible to measure a three-dimensional image of an LCD color filter by obtaining a plurality of image sequences along an optical axis of a camera composed of CCD or CIS. Illumination is irradiated to an LCD color filter to be measured through a patterned filter. | 07-02-2009 |
20100188653 | OPTICAL COMPONENT FOCUS TESTING APPARATUS AND METHOD - An optical component focus testing apparatus includes a plurality of test pattern displays. One or more illuminators are configured to selectively illuminate different test pattern displays at different times. Light directors are provided to direct light from at least one of the illuminated test pattern displays towards an optical component under test. The light directors and test pattern displays are arranged such that, in use, light directed from different illuminated test pattern displays travel different distances to reach the optical component under test. | 07-29-2010 |
20110134417 | INSTRUMENT AND METHOD FOR CHARACTERISING AN OPTICAL SYSTEM - An instrument ( | 06-09-2011 |
20110149273 | METHOD AND SYSTEM FOR MEASURING A FOCAL LENGTH OF AN OPTICAL LENS - A system for measuring a focal length of an optical lens includes an image processing device and an operating platform. The image processing device is configured for capturing a light spot image of the optical lens. The operating platform includes a mount, a holder and a measurer. The mount is configured for mounting the image processing device. The holder is configured for holding the optical lens. The mount is moved back and forth along the direction towards and away from the optical lens held by the holder. The measurer is configured for measuring and recording a distance between image processing device and the optical lens when a minimal light spot image of the optical lens is obtained. The distance is the focal length of the optical lens. | 06-23-2011 |
20120026485 | DEVICE FOR MEASURING THE FOCAL DISTANCE OF A THERMAL LENS - A method for measuring focal distance of a thermal lens located in an analyte, the method including: providing an exciting optical beam passing through the analyte and creating the thermal lens therein; emitting a coherent probe optical beam passing through the analyte and being propagated substantially perpendicular to the exciting optical beam; intercepting the probe optical beam by a detector after passing through the analyte; focusing the probe optical beam upstream or downstream of the thermal lens such that only a fraction of the probe optical beam passes through the thermal lens; acquiring an interference image by the detector; and processing the interference image to calculate the focal distance of the thermal lens. Such a method may find application in physico-chemical analysis of the analyte. | 02-02-2012 |
20130155393 | METHOD AND DEVICE FOR ESTIMATING THE OPTICAL POWER OF CORRECTIVE LENSES IN A PAIR OF EYEGLASSES WORN BY A SPECTATOR - This invention relates to a method for estimating the optical power of corrective lenses in a pair a eyeglasses worn by a spectator, characterized in that it comprises the following steps:
| 06-20-2013 |
20130301038 | SYSTEM AND METHOD FOR NONDESTRUCTIVE MEASURING REFRACTIVE INDEX AND THICKNESS OF LENS - The present invention discloses a system and method for nondestructively measuring the refractive index and the central thickness of a lens. The system comprises a radius measurement module arranged for measuring the curvature radius of the first surface of the lens; a focus measurement module arranged for measuring the best focus distance of the first surface of the lens; and a calculation module arranged for performing the first or the second calculation process according to the lensmaker's formula. Wherein, when the central thickness is given, the calculation module performs the first calculation process according to the curvature radius, the best focus distance and the central thickness to calculate the refractive index. On the contrary, when the refractive index is given, the calculation module performs the second calculation process according to the curvature radius, the best focus distance and the refractive index to calculate the central thickness. | 11-14-2013 |
20140029000 | Method for detecting parfocality of zoom-stereo microscope - A method for detecting a parfocality of a zoom-stereo microscope includes: acquiring four highest definitions corresponding to a plurality of images with a cooperation of four definition judging functions, acquiring a relatively clearest position according to the four highest definitions, comparing a definition in the relatively clearest position with a definition in a parfocal position to judge whether the relatively clearest position is the parfocal position, then adjusting a magnification of the zoom-stereo microscope to acquire the parfocal positions at a finite number of the discrete magnifications, and finally fitting a parfocal curve at the continuous magnifications. The method according to the present invention implements a parfocality detection of the stereo microscope automatically and effectively and increases a productivity, and has a high detecting precision. In addition, the method according to the present invention has a good robustness, so that users needn't intervene and adjust frequently. | 01-30-2014 |
20140320851 | LENS MODULE TESTING DEVICE - Lens module testing device for testing a lens module includes a testing platform, a light source, a testing board, a sensing element, a processor, a driving element, and a position feedback unit. The light source, the testing board, and the sensing element are arranged in order on the testing platform along an optical axis of the lens module. The lens module is positioned between the testing board and the sensing element. The light source emits testing light to the testing board, and the sensing element senses an image of the testing board and sends the image to the processor. The processor determines whether the testing board is in a focal plane of the lens module, controls the driving element to adjust a position of the testing board relative to the lens module, and obtains position information from the position feedback unit to generate a focal length of the lens module. | 10-30-2014 |
20140347655 | Machining Head for a Laser Machining Apparatus - A machining head of a laser machining apparatus comprises focusing optics which focus laser radiation in a focal spot. A measuring device measures changes of the focal length of the focusing optics. The measuring device has a light source for generating measuring light that is different from the laser radiation. A light-exit window for the measuring light is imaged, with the assistance of the focusing optics or a part thereof, onto a reflecting reference surface which is arranged to be stationary relative to the light-exit window and the focusing optics. A light sensor detects measuring light that has emerged from the light-exit window, has passed through the focusing optics or the part thereof, was reflected on the reflecting surface, and has again passed through the focusing optics or the part thereof. An evaluating device ascertains the change in the focal length of the focusing optics from measuring signals made provided by the light sensor. | 11-27-2014 |
20160011075 | Measurement of Focal Points and other Features in Optical Systems | 01-14-2016 |
356126000 | Deflecting or interrupting optical path | 1 |
20100060883 | Apparatus and method for determining the focus position - An apparatus and a method for determining the focus of an optical system on a substrate are disclosed. A light source emits an auxiliary light beam into an auxiliary beam path, wherein the auxiliary light beam, after splitting, is offset in relation to an optical axis of a measuring objective. At least one optical switch is provided in the auxiliary beam path for switching the path of the auxiliary beam path from one side offset from the optical axis to the other side offset from the optical axis of the measuring objective. | 03-11-2010 |