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1. 发明公开

EP1323007A2 OPTIMIERUNGSVERFAHREN ZUR REGELUNG DES BETRIEBSZUSTANDES EINER GEFÜHRTEN WERKZEUGMASCHINE MIT EINEM ROTIERENDEN UND SCHLAG-BEAUFSCHLAGTEN WERKZEUG WÄHREND EINES BOHRVORGANGES 有权
标题翻译：优化一种用于控制控制的机械工具的动作状态与用于钻孔的旋转和Beat施加TOOL
公开(公告)号：EP1323007A2
公开(公告)日：2003-07-02
申请号：EP01982225.3
申请日：2001-08-30
申请人： FRAUNHOFER-GESELLSCHAFT ZUR FÖRDERUNG DERANGEWANDTEN FORSCHUNG E.V. , Black & Decker Inc.
发明人： KUNTZE, Helge-Björn , JACUBASCH, Andreas , FREY, Christian , PLIETSCH, Reinhard
IPC分类号： G05B19/19
CPC分类号： G05B19/416 , B25D16/00 , G05B2219/45148 , G05B2219/49097 , G05B2219/49098
摘要： The invention relates to an optimising method for regulating the operating state of a guided machine tool comprising a tool rotating at a certain speed and subjected to a percussion frequency during a boring process. Said tool is subjected to an additional force in a object consisting of a given material. The invention is characterised by the combination of the following steps: the parameters characterising the actual operating state of the machine tool are detected; an adaptive process analysis is carried out on the basis of the detected parameters in order to obtain parameter-specific, relevant characteristics; the parameter-specific, relevant characteristics are evaluated in the framework of a logical decision-making process in order to obtain one of the pieces of information characterising the actual operating state; known reference data describing the operating state is selected according to a given quality criterion, the tool used, and the material of the object to be machined; an optimum operating point which can be defined by means of rotational speed and percussion frequency is determined for the machine tool by comparing the information characterising the actual operating state with the selected reference data; and the machine tool is regulated in terms of rotational speed and percussion frequency on the basis of the detected optimum operating point.

2. 发明公开

EP0476137A4 METHOD OF SETTING BORING CONDITION 失效
标题翻译：设定镗孔条件的方法
公开(公告)号：EP0476137A4
公开(公告)日：1995-01-11
申请号：EP91905320
申请日：1991-03-01
申请人： FANUC LTD
发明人： SEKI MASAKI-KUGAYAMA , TAKEGAHARA TAKASHI-NISHITERA , MATSUNAKA TORU FANUC MANSHONHA
IPC分类号： B23Q15/00 , G05B19/4093 , G05B19/403
CPC分类号： G05B19/40937 , G05B2219/36201 , G05B2219/36274 , G05B2219/36283 , G05B2219/36294 , G05B2219/45148 , Y02P90/265
摘要： A method of setting a boring condition by which the working condition for defining of boring in an automatic programming can be set easily. In this method, when one of various registered bore form definitions displayed is selected by an operator, it is asked whether change of a registered working condition corresponding to the selected definition is necessary or not (S1) and if unnecessary, the registered working condition is set as a set working condition (S2). When the changing is selected, first and second coefficients are read out from a look-up table according to the combination of a work material represented by manually inputted data and the kind of boring relative to the selected bore form definition and the size of the tool. A rotational speed of the main shaft is calculated on the basis of the first coefficient and the manually set cutting speed, and a feed speed is calculated on the basis of the calculated rotational speed and the second coefficient to set both the calculated rotation and feed speeds as the working condition (S3). After the set working condition is changed as required, inputting a bore position (S7, S8), the defining of the boring is completed.
摘要翻译：一种设定钻孔条件的方法，通过该方法可以容易地设定用于定义自动编程中的钻孔的工作条件。在这种方法中，当由操作者选择显示的各种记录孔形式定义之一时，询问是否需要改变与所选择的定义相对应的注册工作条件（S1），如果不需要，则注册的工作条件是设置为设定工作状态（S2）。当选择变化时，根据由手动输入的数据表示的作业材料和相对于所选孔形式定义的钻孔类型的组合以及工具的尺寸，从查找表中读出第一和第二系数。基于第一系数和手动设定的切削速度来计算主轴的旋转速度，并且基于计算出的转速和第二系数计算进给速度，以设定计算出的旋转和进给速度作为工作条件（S3）。在根据需要改变设定工作状态后，输入钻孔位置（S7，S8），完成钻孔的定义。

3. 发明授权

EP0043920B1 Machine tool with bore diameter measuring apparatus and tool position compensating apparatus 失效
标题翻译：机器工具与直径测量仪器和工具位置补偿装置
公开(公告)号：EP0043920B1
公开(公告)日：1984-10-24
申请号：EP81104556.6
申请日：1981-06-12
申请人： TOYODA KOKI KABUSHIKI KAISHA
发明人： Yamakage, Tetsuro , Yoneda, Takao , Imamura, Kohsei
IPC分类号： B23B29/034 , B23Q15/22
CPC分类号： B23B29/03457 , B23B2270/48 , B23Q17/2241 , G05B19/401 , G05B2219/37345 , G05B2219/37405 , G05B2219/45148 , G05B2219/49113 , G05B2219/50293 , Y02P90/265 , Y10T82/2502 , Y10T279/21 , Y10T279/3487 , Y10T279/35 , Y10T408/08 , Y10T408/173 , Y10T408/175 , Y10T408/85892 , Y10T408/85895 , Y10T409/303528

4. 发明公开

EP2529866A4 CENTER HOLE MACHINING METHOD FOR SHAFT BLANK AND CENTER HOLE MACHINING APPARATUS 有权
标题翻译： ZENTRUMSLOCHHERSTELLUNGSVERFAHRENFÜREINEN SCHAFTROHLING UND ZENTRUMSLOCHHERSTELLUNGSVORRICHTUNG
公开(公告)号：EP2529866A4
公开(公告)日：2017-08-02
申请号：EP11736923
申请日：2011-01-21
申请人： KOMATSU NTC LTD
发明人： YOSHIMOTO AKIHIRO
IPC分类号： B23B49/04
CPC分类号： B23B49/04 , B23B2215/16 , B23Q17/20 , B23Q17/2233 , G05B19/402 , G05B2219/45148 , G05B2219/49113 , Y02P90/265
摘要： It is an object of the present invention to prevent a blank surface from remaining on a shaft blank after machining even when the machining allowance of the shaft blank is set to be small. The present center hole machining method includes first to fifth steps. The first step is a step of obtaining outer peripheral shape data of a plurality of portions of the shaft blank in an axial direction. The second step is a step of obtaining a center axis for determining the center hole by comparing measured data of the plural portions of the shaft blank with design data corresponding thereto. The third step is a step of calculating minimum distance from the center axis to the outer periphery of each of the plural portions of the shaft blank. The fourth step is a step of: determining the center axis as an appropriate center axis when the minimum distance in each of the portions is greater than a machining dimension; and shifting the center axis in a direction of making the minimum distance greater than the machining dimension and repeatedly executing the third step based on the shifted center axis when the minimum distance is less than or equal to the machining dimension. The fifth step is a step of boring a center hole in an end surface of the shaft blank at a position arranged on a line extended from the center axis determined as the appropriate center axis.
摘要翻译：本发明的目的在于，即使在将轴坯的加工余量设定得较小的情况下，也能够防止加工后的毛坯面残留在轴坯上。本中心孔加工方法包括第一至第五步骤。第一步骤是获得轴坯的多个部分的轴向外周形状数据的步骤。第二步骤是通过比较轴坯的多个部分的测量数据和与其对应的设计数据来获得用于确定中心孔的中心轴的步骤。第三步骤是计算轴坯的多个部分中的每一个的从中心轴到外周的最小距离的步骤。第四步骤是：当每个部分中的最小距离大于加工尺寸时，将中心轴确定为合适的中心轴; 以及在使最小距离大于加工尺寸的方向上偏移中心轴，并且当最小距离小于或等于加工尺寸时，基于偏移的中心轴重复执行第三步骤。第五步骤是在布置在从被确定为适当的中心轴线的中心轴线延伸的线上的位置处对轴坯的端面钻中心孔的步骤。

5. 发明授权

EP1671192B1 PROCEDE D' ETALONNAGE D' UNE MACHINE DE PERCAGE DE VERRES OPHTALMIQUES, DISPOSITIF POUR LA MISE EN OEUVRE D' UN TEL PROCEDE, ET APPAREIL D' USINAGE DE VERRES OPHTALMIQUES EQUIPE D' UN TEL DISPOSITIF 有权转让
标题翻译：方法校准镜片DURCHDRINGUNGSMASCHINE，DEVICE履行等程序及上述设备综合光学镜片加工装置的
公开(公告)号：EP1671192B1
公开(公告)日：2007-06-13
申请号：EP04787315.3
申请日：2004-09-06
申请人： BRIOT INTERNATIONAL
发明人： VASSARD, Micha¬l , VIDECOQ, Jean-Jacques
IPC分类号： G05B19/401
CPC分类号： G05B19/401 , G05B2219/45148 , G05B2219/45157 , G05B2219/50033
摘要： The invention relates to a method of calibrating an ophthalmic-lens-piercing machine, a device used to implement one such method and an ophthalmic-lens-machining apparatus comprising one such device. The inventive method applies to a machine comprising a piercing tool, a lens support which is associated with a first reference mark (O1, X1, Y1), and programmable tool-control means which are associated with a second reference mark expressing set co-ordinates which define a target piercing point (M). The inventive method consists in: placing a template (21) on the support, said template comprising pre-applied markings defining a third reference mark (O3, X3, Y3), such that the third reference mark is essentially in line with the first reference mark; piercing the template at a pre-determined point corresponding to a target point; taking an image of the template thus pierced; analysing said image such as to measure the misalignment between the real piercing point position and the target point position; and programming the control means, such as to apply a correction to the set co-ordinates that can compensate for the misalignment. The invention also relates to a device which is used to implement said method and to an ophthalmic-lens-machining apparatus comprising one such device.

6. 发明授权

EP1163974B1 Elektrohandwerkzeuggerät mit Werkzeug 有权
标题翻译：用工具电动手工具
公开(公告)号：EP1163974B1
公开(公告)日：2003-05-14
申请号：EP01810542.9
申请日：2001-06-05
申请人： HILTI Aktiengesellschaft
发明人： Wissmach, Walter , Kristen, Ferdinand , Bongers-Ambrosius, Hans-Werner
IPC分类号： B23Q3/155
CPC分类号： B25F5/00 , B23Q3/15546 , G05B2219/33199 , G05B2219/45148

7. 发明授权

EP0044200B1 Machine tools 失效
标题翻译：机械工具
公开(公告)号：EP0044200B1
公开(公告)日：1987-03-25
申请号：EP81303149.9
申请日：1981-07-10
申请人： AE PLC
发明人： Edwards, Walter Glyn , Winterbottom, Robert John Holdswirth
IPC分类号： G05B19/18 , B23Q27/00
CPC分类号： B23Q27/00 , B23Q35/103 , G05B19/184 , G05B2219/36078 , G05B2219/41338 , G05B2219/45129 , G05B2219/45148 , G05B2219/45218 , G05B2219/45248 , G05B2219/49277 , G05B2219/49376 , G05B2219/50008 , G05B2219/50293 , Y10T82/135 , Y10T82/2502

8. 发明公开

EP2887167A1 Verfahren zur Steuerung eines Gerätesystems mit einem Werkzeuggerät und einer motorischen Vorschubeinrichtung 审中-公开
标题翻译：用于控制设备的系统与工具单元和机动进给装置的方法
公开(公告)号：EP2887167A1
公开(公告)日：2015-06-24
申请号：EP13199045.9
申请日：2013-12-20
申请人： HILTI Aktiengesellschaft
发明人： Drexl, Tobias , Pfeiffer, Ralf , Schaer, Roland , Profunser, Dieter
IPC分类号： G05B19/416
CPC分类号： G05B19/40938 , G05B19/042 , G05B19/4166 , G05B2219/35519 , G05B2219/37583 , G05B2219/45148 , G05B2219/49088 , G05B2219/49097
摘要： Verfahren zur Steuerung eines Gerätesystems (10) mit einem Werkzeuggerät (12) und einer motorischen Vorschubeinrichtung (25) beim Bearbeiten eines Werkstückes aus einem ersten Material und einem, vom ersten Material verschiedenen, zweiten Material, wobei das Werkstück vom Gerätesystem (10) zunächst in einem ersten Betriebsmodus mit ersten Bearbeitungsparametern bearbeitet wird, die für das erste Material gespeichert sind. Nach Beginn der Bearbeitung des Werkstückes im ersten Betriebsmodus wird ein erster Bearbeitungsfort-schritt gemessen und als Referenzwert gespeichert, während der Bearbeitung im ersten Betriebsmodus wird regelmäßig ein aktueller Bearbeitungsfortschritt gemessen und mit einem voreingestellten ersten Grenzwert verglichen.
摘要翻译：本发明涉及一种用于由第一材料构成的工件和从所述不同的第二材料的加工过程中控制装置系统（10），它包括一个工具装置（12）和机动推进装置（25）第一材料，worin工件首先通过与第一加工参数的第一操作模式中，装置（10）机加工被存储没有为第一材料。在第一操作模式中的工件的加工开始后，第一加工进度被测量并存储为基准值。期间，在第一操作模式中加工，电流加工进展定期测量和与预先设定的第一极限值进行比较。

9. 发明公开

EP2529866A1 CENTER HOLE MACHINING METHOD FOR SHAFT BLANK AND CENTER HOLE MACHINING APPARATUS 有权
标题翻译： ZENTRUMSLOCHHERSTELLUNGSVERFAHRENFÜREINEN SCHAFTROHLING UND ZENTRUMSLOCHHERSTELLUNGSVORRICHTUNG
公开(公告)号：EP2529866A1
公开(公告)日：2012-12-05
申请号：EP11736923.1
申请日：2011-01-21
申请人： Komatsu NTC Ltd.
发明人： YOSHIMOTO, Akihiro
IPC分类号： B23B49/04
CPC分类号： B23B49/04 , B23B2215/16 , B23Q17/20 , B23Q17/2233 , G05B19/402 , G05B2219/45148 , G05B2219/49113 , Y02P90/265
摘要： It is an object of the present invention to prevent a blank surface from remaining on a shaft blank after machining even when the machining allowance of the shaft blank is set to be small. The present center hole machining method includes first to fifth steps. The first step is a step of obtaining outer peripheral shape data of a plurality of portions of the shaft blank in an axial direction. The second step is a step of obtaining a center axis for determining the center hole by comparing measured data of the plural portions of the shaft blank with design data corresponding thereto. The third step is a step of calculating minimum distance from the center axis to the outer periphery of each of the plural portions of the shaft blank. The fourth step is a step of: determining the center axis as an appropriate center axis when the minimum distance in each of the portions is greater than a machining dimension; and shifting the center axis in a direction of making the minimum distance greater than the machining dimension and repeatedly executing the third step based on the shifted center axis when the minimum distance is less than or equal to the machining dimension. The fifth step is a step of boring a center hole in an end surface of the shaft blank at a position arranged on a line extended from the center axis determined as the appropriate center axis.
摘要翻译：本发明的目的在于，即使将轴坯的加工余量设定得较小，也可以在加工后防止坯料表面残留在轴坯料上。本中心孔加工方法包括第一至第五步骤。第一步骤是在轴向上获得轴坯的多个部分的外周形状数据的步骤。第二步是通过将轴坯的多个部分的测量数据与对应于其的设计数据进行比较来获得用于确定中心孔的中心轴的步骤。第三步骤是从轴坯的多个部分的中心轴到外周计算最小距离的步骤。第四步骤是当每个部分中的最小距离大于加工尺寸时，将中心轴确定为适当的中心轴; 并且使中心轴沿最小距离大于加工尺寸的方向移动，并且当最小距离小于或等于加工尺寸时，基于偏移的中心轴重复执行第三步骤。第五步骤是在从设置在适当的中心轴线的中心轴线延伸的线上的位置上钻孔轴坯端面的中心孔的步骤。

10. 发明授权

EP1323007B1 OPTIMIERUNGSVERFAHREN ZUR REGELUNG DES BETRIEBSZUSTANDES EINER GEFÜHRTEN WERKZEUGMASCHINE MIT EINEM ROTIERENDEN UND SCHLAG-BEAUFSCHLAGTEN WERKZEUG WÄHREND EINES BOHRVORGANGES 有权
标题翻译：优化一种用于控制控制的机械工具的动作状态与用于钻孔的旋转和Beat施加TOOL
公开(公告)号：EP1323007B1
公开(公告)日：2005-11-09
申请号：EP01982225.3
申请日：2001-08-30
申请人： Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. , Black & Decker Inc.
发明人： KUNTZE, Helge-Björn , JACUBASCH, Andreas , FREY, Christian , PLIETSCH, Reinhard
IPC分类号： G05B19/19
CPC分类号： G05B19/416 , B25D16/00 , G05B2219/45148 , G05B2219/49097 , G05B2219/49098
摘要： The invention relates to an optimising method for regulating the operating state of a guided machine tool comprising a tool rotating at a certain speed and subjected to a percussion frequency during a boring process. Said tool is subjected to an additional force in a object consisting of a given material. The invention is characterised by the combination of the following steps: the parameters characterising the actual operating state of the machine tool are detected; an adaptive process analysis is carried out on the basis of the detected parameters in order to obtain parameter-specific, relevant characteristics; the parameter-specific, relevant characteristics are evaluated in the framework of a logical decision-making process in order to obtain one of the pieces of information characterising the actual operating state; known reference data describing the operating state is selected according to a given quality criterion, the tool used, and the material of the object to be machined; an optimum operating point which can be defined by means of rotational speed and percussion frequency is determined for the machine tool by comparing the information characterising the actual operating state with the selected reference data; and the machine tool is regulated in terms of rotational speed and percussion frequency on the basis of the detected optimum operating point.

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