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序号 专利名 申请号 申请日 公开(公告)号 公开(公告)日 发明人
181 METHOD FOR VISUALLY REPRESENTING INFORMATION RELATING TO READINGS OF EQUIPMENT WITH AN INDICATOR US13816025 2011-02-01 US20130133566A1 2013-05-30 Alexander Vladimirovich Asmandijarov
The suggested technical solution relates to a field of measurement technology and may be used for producing the means for visual representation of information about readings of pointer indicators.The suggested method for visual representation of information about readings of pointer indicators lies in putting a hand into motion over an outer face of a display panel; performing additional rotation of the hand around a longitudinal axis of the hand; and visually reading a value of a reading of the hand based on a location of an end of the hand over the outer face of a scale of the display panel. The technical effect achieved by the suggested technical solution lies in providing a sufficiently high degree of visual representation of information about readings of pointer indicators.
182 STAGE UNIT, EXPOSURE APPARATUS, AND EXPOSURE METHOD US13679523 2012-11-16 US20130120731A1 2013-05-16 Yuichi SHIBAZAKI
A power usage supply unit that supplies power usage to a stage which moves on a movement surface has a first axis section, first support section, a second axis section, and a second support section. The first axis section is movably supported by the first support section in a direction of the first axis and around the first axis, and the second axis section is movably supported by the second support section in a direction of the second axis and around the second axis. Using a mechanism in which the power usage supply unit has at least four degrees of freedom, the power usage supply unit does not interfere with the movement of a stage even when the stage moves in the first and second axis directions and in the rotational direction of each axis, thereby completely avoiding decrease in position controllability of the stage caused by dragging a tube.
183 INDICATOR DEVICE AND LIGHT-GUIDE MEMBER US13634752 2011-06-14 US20130000543A1 2013-01-03 Masanobu Terao; Akihiro Oohata; Katsuma Sano
[Problem to be Solved]An indicator device and a light-guide member for achieving low cost by lightening both an indicator and an indicator plate by using one light source is provided.[Solution]A light-guide indicator 32 is provided with a base part 32a, and an indicator main body 32b extending along the indicator plate 31 from one end of the base part 32a. One end of a light-guide output axis 33a provided with a motor 33 is arranged opposite to the other end of the base part 32a, and the other end of the output axis is arranged opposite to a light source 34. A back side of the indicator plate 31 is provided with a light-guide member 35, and the light-guide member 35 is provided with a first recess 35a receiving the other end of the base part 32a and a second recess 35b receiving the one end of the output axis 33a. A bottom face 35a-1 of the first recess 35a is arranged tapered in such a way that the bottom face approaches the output axis 33a as approaches rotation axis of the output axis 33a.
184 STACK SAMPLING APPARATUS US13033231 2011-02-23 US20120210805A1 2012-08-23 Randall F. Lind; Peter D. Lloyd; Lonnie J. Love; Mark W. Noakes; Francois G. Pin; Bradley S. Richardson; John C. Rowe
An apparatus for obtaining samples from a structure includes a support member, at least one stabilizing member, and at least one moveable member. The stabilizing member has a first portion coupled to the support member and a second portion configured to engage with the structure to restrict relative movement between the support member and the structure. The stabilizing member is radially expandable from a first configuration where the second portion does not engage with a surface of the structure to a second configuration where the second portion engages with the surface of the structure.
185 Flexure mount for an optical assembly US13324459 2011-12-13 US08205853B2 2012-06-26 Zvi Bleier; Alexander Jacobson
A flexure mount for economically producing pure translational motion with no arcuate or error motion in the vertical direction utilizing alignment pins and parts reducing structures including monolithic springs. A low profile embodiment utilizes a compound monolithic spring. The flexure mount may be used to translate a mirror or retroreflector in a purely linear direction of precisely controlled and known distance, useful in myriad interferometer applications including spectroscopy.
186 WIRELESS CHARGER INSTALLED WITH A TWO-DIMENSIONAL MOVING MECHANISM US13333428 2011-12-21 US20120146579A1 2012-06-14 Rei SHUKUYA; Takashi YAMANAKA
A wireless charger installed with a two-dimensional moving mechanism which is simply configured, inexpensive and can be easily miniaturized is provided wherein a table is freely moved in the X-axis direction and the Y-axis direction. In the two dimensional moving mechanism, each pair of X axis pinions are arranged to simultaneously mesh with teeth near both ends of each rack arranged on an X axis slider and Y axis slider respectively. Each pair of pinions are driven by each motor and rotated in synchronization.
187 SPEAKER ASSEMBLY WITH ROTARY FASTENING MECHANISM US12897804 2010-10-05 US20110186705A1 2011-08-04 Ming-Shiang Ke
A speaker fastening mechanism includes a first fastening component installed inside an audio device, a second fastening component installed inside the audio device and disposed on a side of the first fastening component, a speaker unit whereon a first fixing part and a second fixing part are formed, a first elastic component wedged in the first fixing part and fastened inside the first fastening component, and a second elastic component wedged in the second fixing part and fastened inside the second fastening component in a rotating manner after the first elastic component is fastened inside the first fastening component.
188 Instrument Cluster and Methods Thereof US12811693 2009-01-05 US20100284164A1 2010-11-11 Manikesi Manivannan; Rangappan Kanagaraj; Krishnasamy Kanakaraju
The present invention relates to an instrument cluster, more particularly relates to an improved instrument cluster having a Printed Circuit Board [PCB (1)] which holds the pointer drive source and an illumination source of pointer. The instant invention also provides for a method of operating the instrument cluster and method of assembling the instrument cluster.
189 System for Precisely Adjusting the Space Between Two Elements US12732679 2010-03-26 US20100247234A1 2010-09-30 Martin Closs
A device for precisely adjusting the space between two elements includes a connection member that mutually connects the first element and the second element, a first space adjusting member, and a second space adjusting member. The first space adjusting member has a first thread that interacts with an assigned counterthread of one of the elements, and the second space adjusting member has a second thread that interacts with an assigned counterthread of the first space adjusting member or of the other of the elements. The first thread and the second thread have different thread pitches.
190 Infrared sensor and method of calibrating the same US12175304 2008-07-17 US07795589B2 2010-09-14 Seth Prejean; Miguel Santana, Jr.; Ronald M. Potok
A method includes determining a transmission of a transmissive window and a transmission of a transmissive fluid. In addition, an infrared emission of the transmissive window is determined along with an infrared emission of the transmissive fluid for at least one temperature. In a system that has an infrared sensor and an optical pathway to the infrared sensor, the transmissive window and the transmissive fluid are placed in the optical pathway. A semiconductor chip is placed in the optical pathway proximate the transmissive fluid. Radiation from the optical pathway is measured with the infrared sensor. An emissivity of the semiconductor chip is determined using the measured radiation and the determined transmissions and emissions of the transmissive window and the transmissive fluid.
191 Apparatus for positioning an image measuring platform US11849303 2007-09-03 US07766298B2 2010-08-03 Chih-Kuang Chang; Sen Zhang
An apparatus for positioning an image measuring platform, the apparatus includes a horizontal base (11); a measuring platform (21) movable on the horizontal base; a support arm (12) extending in the Z-axis direction secured to the horizontal base; two parallel sliders (435) extending in the Z-axis direction fixed on the upper ends of the support arm; a first bar (411) for controlling the measuring platform to move in X-axis direction; a second bar (421) for controlling the measuring platform to move in Y-axis direction; a first cantilever (314) and a second cantilever (315) vertically attached on the two parallel sliders; a charge coupled device lens (31) fixed on the first cantilever and the second cantilever through a lens clamp (312) and a locking cap (313); a first screw handle (414) engaged with the holes of both sides of a first bracket (413) secured on the horizontal base, a first male screw thread (415) formed outside the first screw handle, and a first female screw thread (416) corresponding to the first male screw thread formed outside the first bar; and a second screw handle (424) engaged with the holes of both sides of a second bracket secured (423) on the horizontal base, a second male screw thread (425) formed outside the second screw handle, and a second female screw thread (426) corresponding to the second male screw thread formed outside the second bar.
192 Infrared Sensor and Method of Calibrating the Same US12175304 2008-07-17 US20100012828A1 2010-01-21 Seth Prejean; Miguel Santana, JR.; Ronald M. Potok
An infrared sensor system and a method of calibrating the system are disclosed. In one aspect, a method includes determining a transmission of a transmissive window and a transmission of a transmissive fluid. In addition, an infrared emission of the transmissive window is determined along with an infrared emission of the transmissive fluid for at least one temperature. In a system that has an infrared sensor and an optical pathway to the infrared sensor, the transmissive window and the transmissive fluid are placed in the optical pathway. A semiconductor chip is placed in the optical pathway proximate the transmissive fluid. Radiation from the optical pathway is measured with the infrared sensor. An emissivity of the semiconductor chip is determined using the measured radiation and the determined transmissions and emissions of the transmissive window and the transmissive fluid.
193 FLEXURE MOUNT FOR AN OPTICAL ASSEMBLY US12505279 2009-07-17 US20100012808A1 2010-01-21 Alexander Jacobson; Zvi Bleier
A flexure mount for economically producing pure translational motion with no arcuate or error motion in the vertical direction utilizing alignment pins and parts reducing structures including monolithic springs. A low profile embodiment utilizes a compound monolithic spring. The flexure mount may be used to translate a mirror or retroreflector in a purely linear direction of precisely controlled and known distance, useful in myriad interferometer applications including spectroscopy.
194 Supporting unit, and moving table device and linear-motion guiding device that use the supporting unit US10558686 2004-06-25 US07624661B2 2009-12-01 Shigehiro Umetsu; Tatsuro Shimoyama; Koji Uchida
A supporting unit in a moving table device, easily connected to a base and a table, is provided. A supporting unit (Uα) has a pair of planar bearing plates. Inside the planar bearing plates are positioned spherical bearing plates, respectively. Further, a spherical axial member is sandwiched between the spherical bearing plates (34a, 34b). A planar bearing is formed between each of the planar bearing plates and each of the spherical bearing plates. A spherical bearing is formed between each of the spherical bearing plates and the spherical axial member. Thus, the supporting unit (Uα) is provided with a certain degree of movability in five-axis directions. With the high degree of movability, the supporting unit (Uα) can be easily connected to a base and a table.
195 MOVABLE TABLE US12055655 2008-03-26 US20090056597A1 2009-03-05 Sadayoshi HARA; Toshihisa Fujiwara
A movable table positioned to a predetermined position with respect to a base through manual movement, fixed to the base after the positioning. A lift mechanism that releases a top plate from a fixed state and lifts the top plate from the base against an attraction force of a magnet, or against the attraction force and the gravity of the magnet, and a mechanism that lowers the top plate from a predetermined lifted position with either or both the attraction force or the gravity of the magnet, and fixes the top plate to the base with an action of the attraction force of the magnet.
196 Precise Positioning Apparatus US11886427 2005-03-16 US20090045699A1 2009-02-19 Tetsunori Otaguro
A precision positioning device 1 having degrees of freedom along multi-axial directions includes a single unitary structure 2 and a plurality of expansion/contraction actuators 4a, 4b, and 4c. Movements of an object-to-be-positioned in the axial directions are effected through such elastic deformations of the unitary structure 2 as to move the object-to-be-positioned only in the axial directions. Forces to generate the elastic deformations are based on expansion/contraction of the expansion/contraction actuators 4a, 4b, and 4c incorporated in the unitary structure 2. The expansion/contraction actuators 4a, 4b, and 4c can be formed of piezoelectric elements.
197 Leveling and Support Device US11782550 2007-07-24 US20090026333A1 2009-01-29 John Lenzini
A leveling device comprising one or more bracket sections, an integrated structure coupling mechanism, a brace section, and a leveler. The one or more bracket sections may have a top member with a substantially flat top side and a generally perpendicularly aligned side member. The brace section may comprise a top surface substantially planar to the bracket section top side and extending one of away from and between the one or more bracket sections, a substantially flat bottom surface, and an angled bore. The leveler may comprise an angled nut and bolt.
198 Method of calibrating a clamping mechanism US11107755 2005-04-18 US07370398B2 2008-05-13 Anatoly Gosis; Richard L. Edwards; Howard W. Kimball; Anthony Brent Marshall
A new and improved method for calibrating workpiece clamping mechanisms such that once a particular clamping mechanism is calibrated with respect to a particular workpiece to be clamped upon a support surface, the clamping mechanism will always clamp the workpiece with a predetermined, precisely repeatable clamping force. In addition, the method of the present invention may be utilized in conjunction with the calibration of a plurality of clamping mechanisms so as to enable the plurality of clamping mechanisms to always generate the same precise clamping force whereby the multiple clamping mechanisms, utilized to clamp a single workpiece upon a support surface, can in fact clamp different regions of the single workpiece with precisely the same predetermined clamping force such that all regions of the single workpiece are in fact securely clamped.
199 Graphic display meter US11812802 2007-06-21 US20070296724A1 2007-12-27 Hiroshi Katoh; Kenichi Nagahashi
The object of the invention is to provide an improved graphic display meter which is prevented from causing inconvenience to the vehicle operator, when a motion blur display mode is switched to a normal display mode.When a motion blur pointer image 10 is switched to a normal pointer image 20a, multiple pointer images 20 including the normal pointer image 20a are displayed adjacent to or in abutment with a leading part of the motion blur pointer image 10 in a direction where the pointer is rotating. The multiple pointer images 20 are consisted of the normal pointer image 20a and a plurality of auxiliary pointer images 20b, which are aligned with one another and are positioned in close proximity to the normal pointer image 20a. The multiple pointer images 20, a plurality set of which have been stored as data in advance, are selected on the basis of a space between the motion blur pointer image 10 prior to the switching of the pointer image and the normal pointer image 20 after the switching of the pointer image.
200 Integrated black body and lens cap assembly and methods for calibration of infrared cameras using same US11085860 2005-03-22 US07297938B2 2007-11-20 Mark A. Fauci; Matthew A. Salvitti; Marek Pawlowski
A black body assembly is provided for use in the calibration of infrared cameras. The assembly includes, among other things, a housing within which calibration components may be situated, and a lens guide for accurately positioning the assembly over a lens of the infrared camera. A heat emitter may be positioned within the housing for emitting a necessary amount of heat for calibration purposes. A heating element may also be provided within the housing for controlling the heating and cooling of the heat emitter. The assembly may also include a heat sink to remove excessive heat generated from the thermoelectric cooler during temperature cycling. An arm may be employed to hingedly connect the assembly to the camera to provide reliable and repeatable way to position the black body assembly at the front of the infrared lens. A method for calibrating an infrared camera is also provided.
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