| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | AUTOMATIC INCORPORATION OF MATERIAL AND PROCESS STANDARDS FOR OPTIMIZED DIMENSIONAL MANAGEMENET | PCT/US0307192 | 2003-03-11 | WO03079239A2 | 2003-09-25 | REASONER MICHAEL V |
| A product design process automatically accesses standardized data during the design process to ensure that material standards, manufacturing process standards, and other associated tolerance standards set forth by the relevant industry are met by the product design. This proactive approach optimizes the design process by satisfying material and manufacturing standards in the early design stages, resulting in significant cost reductions and expedited component design times. Additionally, the process automatically performs a failure analysis and generates a failure occurrence ranking that predicts potential failures per predetermined quantity. The process automatically and continuously adjusts design features until the potential failures-per-predetermined quantity is less than an associated failure limit. Thus, the process automatically generates an optimized component design that satisfies both the predetermined industry standards and failure limits. | ||||||
| 82 | A METHOD OF ASSEMBLING A PRODUCT | PCT/GB0201258 | 2002-03-18 | WO02076170A2 | 2002-09-26 | HARDINGHAM CHRISTOPHER MARK; BOYLE RUPERT HAYMAN |
| A method of producing optical fibre amplifiers on a production basis, said amplifiers including a pump laser (1) and a plurality of optical components, including the steps of: measuring at least one parameter having a tolerance range of the lasers and sorting said sorted lasers into a plurality of groups, each group being defined by a predetermined size range of the parameter lying within the tolerance range, measuring or testing at least one other component or sub-assembly to determine a characteristic which in co-operation with said parameter provides a further parameter, and selecting said laser, in dependence upon the result of said measuring or testing of said characteristic, from a selected one of said groups to give a predetermined result for said further parameter. | ||||||
| 83 | A DIAGNOSTIC METHOD FOR MANUFACTURING PROCESSES | PCT/US0327709 | 2003-09-05 | WO2004023256A3 | 2004-05-21 | ALLEN JOHN R |
| A method for use in a system for diagnosing the causes of manufacturing defects involves process characterization. A set of forms is identified for a workpiece and for a piece of manufacturing equipment that acts upon the workpiece. The forms for the workpiece are preferably a hierarchic set of geometric forms. Each such geometric form corresponds to an aspect of the action of the manufacturing equipment upon the workpiece. A plurality of measurements is made on a defective workpiece following the hierarchical order of forms. The measurements are compared to a reference datum, and a deviation from the datum is computed. If the deviation exceeds a preselected threshold, an alert condition results, attributable to the action of the manufacturing equipment. Targeted adjustment corresponding to the action that caused the defect can then be made to the equipment. | ||||||
| 84 | METHOD AND SYSTEM FOR DEFINING AND VERIFYING A PART | PCT/US0125432 | 2001-08-13 | WO0214966A3 | 2003-03-13 | TURNER GREG A |
| A system for verifying a part disclosed. The system comprises a virtual part and a virtual gage associated with the virtual part. A physical part corresponds to the virtual part. A digitized part is generated from the physical part, and the virtual gage evaluates the digitized part. A method for verifying a part is disclosed. A virtual part is provided. A virtual gage associated with the virtual part is generated. A physical part corresponding to the virtual part is produced. A digitized part is generated from the physical part. The digitized part is evaluated with the virtual gage. | ||||||
| 85 | 基板搬送装置和基板加工系统 | CN201620214168.7 | 2016-03-17 | CN205397506U | 2016-07-27 | 陈磊; 李冬 |
| 本实用新型提供一种基板搬送装置,包括传送皮带、传动轴和驱动马达,所述驱动马达通过所述传动轴驱动所述传送皮带进行运转,以传送置于所述传送皮带上的玻璃基板,还包括滑轨和推送块,所述滑轨设置在所述传送皮带之间,所述推送块设置在所述滑轨上并且能够在所述玻璃基板的传送方向上移动,所述推送块移动的速度与所述传送皮带运转的速度匹配,以推动所述玻璃基板在所述玻璃基板的传送方向上平移,从而防止所述玻璃基板流歪。根据本实用新型的基板搬送装置能够确保玻璃传送的精度,降低玻璃面板流歪而产生的机台异常发生率。本实用新型还提供一种基板加工系统。 | ||||||
| 86 | 風力発電装置のロータブレード製造用のロータブレード成形型をハンドリングするハンドリング装置 | JP2015519173 | 2013-07-01 | JP6068632B2 | 2017-01-25 | ゲオルクス、アルノ; ビープル、ヘルベルト; シュリューター、ライナー |
| 87 | 磁場とトルネード過流技術を用いる長距離浚渫土運送システム及びその制御方法 | JP2015560126 | 2014-05-29 | JP2016515172A | 2016-05-26 | リム ユン,ギル; スン キム,ユ |
| 【課題】本発明は、浚渫土の運送時の流動状況を把握し、現場状況に合う波形を有する電磁場を配送管に印加することによって、配送管内の浚渫土の流動流れに対する抵抗力を減少させて、効率的な浚渫土の運送を図る浚渫土運送システム及びその制御方法を提供する。【解決手段】本発明は、圧縮空気生成のためのポンプを含み、配送管の一側面に連通され、前記生成された圧縮空気を前記配送管内に流入させ、前記配送管内の状態を気状部と液状部とに分かれて流動するプラグ流を発生させるポンプモジュールと、前記液状部に電磁気波を印加するコイルが巻線され、複数の配送管を含む配管モジュールと、液状部の物性による流速及び波形に対する流動情報が格納されているデータベースと、前記配管モジュール、ポンプモジュール及びデータベースと有無線で通信し、前記配送管内の運送される液状部の流動波形と一致する波形の電流を前記コイルに印加する制御モジュールと、を含む。【選択図】図7 | ||||||
| 88 | Method operable automatic calculation of minimum allowance stack and maximum allowance stack, computer readable data storage medium, and computer support setting system | JP2005291508 | 2005-10-04 | JP2006134305A | 2006-05-25 | TORNQUIST CLAY; JARVINEN TODD |
| <P>PROBLEM TO BE SOLVED: To perform automatic calculation of a minimum allowance stack and a maximum allowance stack. <P>SOLUTION: This method for automatic calculation of the minimum allowance stack and a maximum allowance stack includes decision of a minimum condition and a maximum condition for an assembly of components for decision of a subset of a component assembly, construction of an allowance chain consisting of allowance characteristics having an allowance capable of taking a maximum value and a minimum value, setting of at least one allowance to the minimum value or the maximum value, and calculation of the minimum condition and the maximum condition of the assembly based on the setting of the allowance. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 89 | How to determine the impact of manufacturing decisions | JP2003507642 | 2002-05-31 | JP2004535008A | 2004-11-18 | アンドレアス・ピーチ; トーマス・ヘルケンラート; マーティン・ボーン |
| 本発明は、好ましくは許容差計画においてまたは締付けおよび固定概念を判断するための、物理オブジェクトのコンピュータ支援製造の際に使用される方法に関する。 前記方法によれば、物理オブジェクトの第1の部分オブジェクトに対する第1の基準オブジェクトのための決定の影響が自動的に判断される。 本発明による方法は、具体的には、物理オブジェクトの第1の部分オブジェクト上の第1の基準要素のターゲットオブジェクトの自動探索によって特徴付けられる。 ターゲットオブジェクトは、組立て順序において第1の部分オブジェクトの後に生じ、第1の基準要素内に第1の部分オブジェクトを収容し、および/または固定する部分オブジェクトである。 本発明の実施形態では、異なる基準要素の比較、またはさらなる基準要素の自動生成が提供される。 | ||||||
| 90 | Container inspection machine | JP52897197 | 1997-02-11 | JP3153250B2 | 2001-04-03 | ハルボー、ハンスヨルク |
| 91 | Process design processing system in machining | JP16620388 | 1988-07-04 | JP3068827B2 | 2000-07-24 | 悟 藤田 |
| 92 | Container inspection machine | JP52897197 | 1997-02-11 | JP2000508420A | 2000-07-04 | ハルボー、ハンスヨルク |
| (57)【要約】 供給コンベヤーと、放出コンベヤーと、これらの間に設けられた中間コンベヤーとからなり、容器を自転させることなく運搬し、容器に回転運動を付与する回転コンベヤーが供給コンベヤーに設けられた容器の検査機において、第1の側面検査デバイスが、中間コンベヤーの後方の放出コンベヤーに設けられ、底部検査デバイスが、供給コンベヤーと放出コンベヤーの間に存在する間隙部の区域に設けられる。 この装置によって、極めて効率的な容器の運搬と正確な検査が達成される。 | ||||||
| 93 | Suspension conveying device container with a protruding collar | JP51104697 | 1995-09-05 | JPH11512064A | 1999-10-19 | プリエロ、マルコ |
| (57)【要約】 この装置は、搬送装置のカテゴリーに属し、突出カラーを備え、ネックから吊り下げる手段によって移動されるボトルの搬送装置に関する。 前記のネックにおいては、容器(5)の突出カラー(6)が引っ張られて接する引っ張り部材(7)が、前記引っ張り部材の積極的走行下端部(7a)の移動が、湾曲区域においても、駆動部材(3)が描く軌跡と同じ曲率を有する軌跡を描くように、駆動部材(3)と連結される。 引っ張り部材(7)の積極的走行下端部(7a)は、駆動部材(3)とは異なる通過面を移動する。 | ||||||
| 94 | Goods distribution apparatus | JP11352298 | 1998-04-23 | JP2949344B2 | 1999-09-13 | WATANABE RYOZO; SUGIMOTO TAKEO; FUKAMI HIDEYUKI |
| 95 | Carrying chain device | JP21327196 | 1996-07-25 | JPH1035847A | 1998-02-10 | HIRASAWAZU TADAO; OSHIDA MAMORU |
| PROBLEM TO BE SOLVED: To prevent the fall of bottles and the damage of bottle by arranging carrying chains, which are respectively formed by unifying a link main body with a bottle carrying member, in both sides of a bottle carrying passage, and holding a bottle neck part with both the bottle carrying members for suspension and carrying. SOLUTION: A pair of chain devices A1, A2 are arranged in both sides of a bottle carrying passage. A neck cylindrical part of a bottle B is provided with a holding link so as to form a neck part, and both carrying chains 2 support the holding link, which is provided in the neck cylindrical part of the bottle B, with a support plate of the bottle carrying member, and hold the bottle neck part. Namely, when the bottle B, which is taken out of a blow forming machine, is carried by a belt conveyor, the neck part of the bottle is held by the bottle carrying member of the carrying chains 2 of a carrying chain device A, and fed in the suspended condition. With this structure, fall of bottle and the damage of bottle can be prevented. | ||||||
| 96 | Roller unit | JP1892197 | 1997-01-31 | JPH09208026A | 1997-08-12 | FUERARI FUABIRIJIO |
| PROBLEM TO BE SOLVED: To make a module flexible and fix it on a side wall quickly and easily by constituting a roller unit of the module which includes a flat plate which diverges into the first pair of brackets from the facing side and the second pair of brackets and forming the second pair of brackets with a recessed part extending so that the recessed part may include a plate. SOLUTION: A module is constituted of a flat plate 2, the first pair of brackets 3 diverge from one side of the flat plate 2 so as to face it, and an idle running roller is supported by an equidistance fixing pin 4 between the brackets 3. Respective rollers are constituted of a hub 51 and a large part 52 which extends along a part whose roller length is half or less. In module, the second pair of brackets 6 diverge from the side surface which is opposite to the flat plate 2, respective brackets 6 are provided with two recessed parts which extend to the plate 2, thus dividing the flat plate 2 into three parts. The bracket 6 parts are provided with seats for inserting a wedge with large heads respectively. | ||||||
| 97 | Irradiation for transport equipment | JP3407989 | 1989-02-14 | JP2620361B2 | 1997-06-11 | 勝 大泉; 義行 市沢; 守 押田 |
| 98 | Control device | JP9770185 | 1985-05-10 | JP2528813B2 | 1996-08-28 | 雅嗣 亀谷; 隆 古川; 謙吾 杉山; 武 花田 |
| 99 | JPH07504876A - | JP50586892 | 1992-02-03 | JPH07504876A | 1995-06-01 | |
| 100 | Device for distributing intersection and system for preparing assembly origin | JP11893 | 1993-01-04 | JPH06223081A | 1994-08-12 | RICHIYAADO DABURIYU JIYONSON |
| PURPOSE: To provide a method and device for distributing intersections in which intersections can be non-repeatedly distributed. CONSTITUTION: Total intersections distributed among plural variable intersections which are respectively related to an assembly origin are designated. A related first intersection point by which costs for attaining the variable intersections can not be extremely reduced when the strictness of the variable intersections is reduced any more is defined in each related assembly origin. Then, a related second intersection point by which the costs for attaining the variable intersections are substantially started to increase when the strictness is increased any more is defined in each related assembly origin. A related third intersection point by which the variable intersections can be not substantially attained when the strictness is increased any more is defined in each related assembly origin. The total intersections are distributed among the variable intersections so that a first prescribed relation between the variable intersections and the total intersections can be substantially fulfilled, and a second prescribed relation between each variable intersection and the related intersection point can be substantially fulfilled. | ||||||
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