| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Specimen container detection | US13671454 | 2012-11-07 | US09046506B2 | 2015-06-02 | Martin Müller; Andreas Weihs; Gerhard Gunzer; Michael Eberhardt |
| A system is disclosed. The system includes at least one image acquisition device configured to obtain one or more images of sample containers in a sample container holder. It also includes an image analysis device coupled to the at least one image acquisition device. The image analysis device is configured to analyze, by a processor, the one or more images of the sample containers in the sample container holder, to determine (a) a presence or absence of sample containers at sample container holder locations in the sample container holder, and (b) sample container characteristics of the sample containers in the sample container holder, wherein the sample container characteristics include one or more of cap color, cap shape, labels and markers associated with the sample containers, or one or more sample container holder characteristics. | ||||||
| 102 | SYSTEMS AND METHODS FOR DETERMINING ROTARY BLADE TRACK AND BALANCE ADJUSTMENTS | US14313719 | 2014-06-24 | US20150096370A1 | 2015-04-09 | Yiqing Lin; Ramona A. Georgescu; Daniel Hiatt |
| A method of adjusting a rotary blade includes receiving performance data for a rotary blade, receiving an adjustment constraint for the rotary blade, defining an adjustment space for alternative adjustment solutions for the rotary blade including a plurality of alternative adjustment solutions, and calculating expected performance for one of the plurality of alternative adjustment solutions. Based on the expected performance of the one of the plurality of alternative adjustment solutions, the method determines whether to calculate expected performance for another of the plurality of alternative adjustment solutions. | ||||||
| 103 | Magnetic damping for specimen transport system | US13670884 | 2012-11-07 | US08973736B2 | 2015-03-10 | Charles W. Johns; Samuel H. Rizzotte |
| A specimen transport system with magnetic damping and method for transporting specimens with magnetic damping are disclosed. A conveyance device transports sample carriers configured to carry specimen containers. One or more of the sample carriers include magnets. The system may also include a diverting arm having a magnet. When a first sample carrier is transported toward a second sample carrier, a first sample carrier magnet coupled to the first sample carrier repels a second sample carrier magnet coupled to the second sample carrier. When a sample carrier is transported toward a diverting arm, a diverting arm magnet of the diverting arm repels a sample carrier magnet of the sample carrier. | ||||||
| 104 | METHOD FOR PRODUCING A KINETIC ENERGY STORAGE SYSTEM | US14322675 | 2014-07-02 | US20150007686A1 | 2015-01-08 | Cheruvari Karthik Hari Dharan |
| A flywheel energy storage system incorporates various embodiments in design and processing to achieve a very high ratio of energy stored per unit cost. The system uses a high-strength steel rotor rotating in a vacuum envelope. The rotor has a geometry that ensures high yield strength throughout its cross-section using various low-cost quenched and tempered alloy steels. Low-cost is also achieved by forging the rotor in a single piece with integral shafts. A high energy density is achieved with adequate safety margins through a pre-conditioning treatment. The bearing and suspension system utilizes an electromagnet that off-loads the rotor allowing for the use of low-cost, conventional rolling contact bearings over an operating lifetime of several years. | ||||||
| 105 | Method and apparatus for determining imbalance correction weight amounts for application during vehicle wheel balancing | US12945185 | 2010-11-12 | US08813543B2 | 2014-08-26 | Michael W. Douglas |
| A method for reducing imbalance correction weight usage during a balancing operation of a vehicle wheel assembly. An imbalance of the vehicle wheel assembly is initially determined and utilized together with an established acceptable threshold of imbalance for the vehicle wheel assembly to compute a reduced imbalance value having a magnitude less than the determined imbalance. Using the reduced imbalance value, correction weight amounts and placement locations for application to the vehicle wheel assembly are identified. Determined differences between the identified correction weight amount using the reduced imbalance value and a convention correction weight amount are identified as imbalance correction weight savings. | ||||||
| 106 | SPECIMEN CONTAINER DETECTION | US13671454 | 2012-11-07 | US20130129166A1 | 2013-05-23 | Martin MÜLLER; Andreas WEIHS; Gerhard GUNZER; Michael EBERHARDT |
| A system is disclosed. The system includes at least one image acquisition device configured to obtain one or more images of sample containers in a sample container holder. It also includes an image analysis device coupled to the at least one image acquisition device. The image analysis device is configured to analyze, by a processor, the one or more images of the sample containers in the sample container holder, to determine (a) a presence or absence of sample containers at sample container holder locations in the sample container holder, and (b) sample container characteristics of the sample containers in the sample container holder, wherein the sample container characteristics include one or more of cap color, cap shape, labels and markers associated with the sample containers, or one or more sample container holder characteristics. | ||||||
| 107 | CENTRIFUGE SYSTEM AND WORKFLOW | US13671361 | 2012-11-07 | US20130123089A1 | 2013-05-16 | Charles W. JOHNS; Stephen Otts |
| Systems, methods and apparatus are described for a centrifuge module of a laboratory analysis system. Specimen containers may be weighed, loaded into a centrifuge adapter, and transported to a centrifuge module by an adapter shuttle. A centrifuge adapter gripper may transport the centrifuge adapter into a centrifuge for centrifugation. The centrifuge adapter may be transported by the centrifuge adapter gripper to an adapter shuttle for unloading of the specimen containers, which may be performed by a specimen container gripper. A centrifuge drawer that allows a centrifuge to be extended from its installed position is also described. Additional embodiments pertain to a sequence for replacing, in a centrifuge, a set of centrifuge adapters that have been centrifuged with a set of centrifuge adapters that have not been centrifuged. A sequence for loading specimen containers into centrifuge adapters is also described. | ||||||
| 108 | Method And Apparatus For Determining Imbalance Correction Weight Amounts For Application During Vehicle Wheel Balancing | US12945185 | 2010-11-12 | US20110056277A1 | 2011-03-10 | Michael W. Douglas |
| A method for reducing imbalance correction weight usage during a balancing operation of a vehicle wheel assembly. An imbalance of the vehicle wheel assembly is initially determined and utilized together with an established acceptable threshold of imbalance for the vehicle wheel assembly to compute a reduced imbalance value having a magnitude less than the determined imbalance. Using the reduced imbalance value, correction weight amounts and placement locations for application to the vehicle wheel assembly are identified. Determined differences between the identified correction weight amount using the reduced imbalance value and a convention correction weight amount are identified as imbalance correction weight savings. | ||||||
| 109 | Method And Apparatus For Determining Imbalance Correction Weight Amounts For Application During Vehicle Wheel Balancing | US12644588 | 2009-12-22 | US20100095767A1 | 2010-04-22 | Michael W. Douglas |
| A method for reducing imbalance correction weight usage during a balancing operation of a vehicle wheel assembly. An imbalance of the vehicle wheel assembly is initially determined and utilized together with an established acceptable threshold of imbalance for the vehicle wheel assembly to compute a reduced imbalance value having a magnitude less than the determined imbalance. Using the reduced imbalance value, correction weight amounts and placement locations for application to the vehicle wheel assembly are identified. | ||||||
| 110 | Method and apparatus for selection of balancer static imbalance correction mode | US11952809 | 2007-12-07 | US07658108B2 | 2010-02-09 | Michael W. Douglas |
| A method for measuring the imbalance characteristics of a rotating body, and for determining if an application of at least one imbalance correction weight in only one of two identified imbalance correction weight planes is sufficient to reduce the measured imbalance characteristics of the rotating body to an acceptable residual imbalance level. | ||||||
| 111 | Method and apparatus for determining imbalance correction weights for a rotating body | US11207974 | 2005-08-19 | US20050274179A1 | 2005-12-15 | Michael Douglas |
| A method for measuring the imbalance characteristics of a rotating body, and for determining if an application of imbalance correction weights is required to reduce the measured imbalance characteristics to an acceptable residual imbalance level. | ||||||
| 112 | Lateral wheel balancing apparatuses and methods for lateral wheel balancing | US10890634 | 2004-07-14 | US20050039522A1 | 2005-02-24 | Lance Okada; Stuart Imai |
| Apparatuses and methods for laterally balancing a wheel or for determining the location for placing a balancing weight on the wheel for laterally balancing the wheel are provided. A method provided includes laterally balancing a wheel on a elongate member. An apparatus includes a member on which the wheel is laterally balanced. | ||||||
| 113 | Method and apparatus for detecting angular position and amount of dynamic unbalance of rotating body | US3720110D | 1971-08-13 | US3720110A | 1973-03-13 | SAKURABA H |
| A method and apparatus for detecting the angular position and amount of a dynamic unbalance of a rotary body by detecting the direction and magnitude of a displacement of the normal axis of rotation of a rotationally vibrated rotary body, the displacement corresponding to the position and amount of the unbalance of said rotary body. The rotary body is rotationally vibrated within a minute angular range around its own normal axis of rotation and is resiliently supported to two spaced points along said axis so that it may be displaced in a plane perpendicular to said axis. As a result, said normal axis of rotation of the rotary body is displaced as a function of the angular position and amount of the unbalance of the rotary body. The magnitude and direction of the displacement are detected, whereby the angular position and amount of the dynamic unbalance of the rotary body are detected.
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| 114 | Process and apparatus for measuring mass distribution in a rotating body | US39289664 | 1964-08-28 | US3295375A | 1967-01-03 | SHARPLES THOMAS D |
| 115 | モータの制御方法、制御装置および工具マガジンを備えた工作機械 | JP2017501804 | 2015-02-27 | JP6407402B2 | 2018-10-17 | 石井 一成; 長屋 昌史 |
| 116 | モータ振動要因判定システム | JP2017009497 | 2017-01-23 | JP2018119804A | 2018-08-02 | 大原 卓 |
| 【課題】主軸がモータに連結された状態において生じる振動の要因を簡易に判定可能な振動要因判定システムを提供する。 【解決手段】本発明のモータ振動要因判定システム10は、駆動状態のモータ40の振動を検出可能な振動センサ部12であって、出荷前におけるモータ40の単体の振動である第1振動、出荷後の状態であって主軸20に連結されていない非連結状態におけるモータ40の単体の振動である第2振動、及び、連結状態におけるモータ40の振動である第3振動を検出する振動センサ部12と、振動センサ部12により検出されたモータ40の振動の情報であって、第1振動の情報、第2振動の情報及び第3振動の情報を記憶する振動情報記憶部13と、振動情報記憶部13に記憶された第1振動の情報、第2振動の情報及び第3振動の情報に基づいて、連結状態において生じる振動の要因を判定する振動要因判定部14と、を備える。 【選択図】図1 |
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| 117 | 不平衡ハブ設計 | JP2017539306 | 2016-06-01 | JP2018513396A | 2018-05-24 | リュ, シン; ツァオ, シモン; シュ, イレーネ |
| カラーホイールは、モータに結合する回転子として作用するように構成され、円板形状の表面を有する、ハブ部分と、ハブ部分に取り付けられる、またはそれと統合され、入射光を光学的に処理するように構成される、光学的に活性の放射状部分と、(a)円板形状の表面の縁まで延在する円板形状の表面内の陥凹と、(b)非均一幅を有し、および/または円板形状の表面と非同心である、円板形状の表面内の環状溝と、(c)その少なくとも一部が質量平衡化部品によって充填される、円板形状の表面内の環状溝と、(d)環状の形状の一部を画定するように配列された円板形状の表面内の溝および/または陥凹のマトリクスとのうちの1つまたはそれを上回るものを備える、ハブ部分の円板形状の表面に対する平衡化適応とを備える。 | ||||||
| 118 | 遠心分離機システムおよびワークフロー | JP2014540219 | 2012-11-07 | JP6320926B2 | 2018-05-09 | ジョンズ, チャールズ ダブリュー.; オッツ, スティーブン |
| 119 | 等分機システムおよびワークフロー | JP2014540214 | 2012-11-07 | JP6190380B2 | 2017-08-30 | ミュラー, マルティン; ジョンズ, チャールズ ダブリュー.; エーベルハルト, ミヒャエル |
| 120 | ロボットアーム | JP2014540218 | 2012-11-07 | JP6165755B2 | 2017-07-19 | ジョンズ, チャールズ ダブリュー.; クイント, ジョセフ エフ.; チェン, チ エス. |
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