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61. 发明授权

US07172490B2 Method for calibrating a grinding machine 有权
标题翻译：校准磨床的方法
公开(公告)号：US07172490B2
公开(公告)日：2007-02-06
申请号：US10544583
申请日：2004-01-30
申请人： Gaetano Campisi , Manfred Knaden
发明人： Gaetano Campisi , Manfred Knaden
IPC分类号： B24B49/00
CPC分类号： B24B49/02 , B24B3/02 , B24B3/34
摘要： The invention relates to a method for calibrating a grinding machine for sharpening bar blades by grinding at least two flanks and a top surface (K) of the bar blades, involving the following steps: producing a calibrating blade by sharpening a bar blade according to predetermined dimensions; measuring the dimensions of the calibrating blade, and; calibrating the machine with the aid of at least the measurement result. In order to produce a calibrating blade, the bar blade is, in at least two steps, ground on the flanks and on the top surface (K) in a complete calibrating grinding. The inventive method is advantageous in that the calibrating blade is ground under the same conditions as a production blade so that process-related influences, in particular, displacements associated with the grinding forces, can also be taken into consideration.
摘要翻译：本发明涉及一种通过研磨棒刀的至少两个侧面和顶面（K）来研磨棒刀的校准研磨机的方法，包括以下步骤：通过根据预定的方式磨刀杆来产生校准刀片尺寸; 测量校准刀片的尺寸; 借助于至少测量结果校准机器。为了生产校准刀片，棒刀片在至少两个步骤中，在完全校准研磨中在侧面和顶面（K）上研磨。本发明的方法的优点在于，在与生产叶片相同的条件下对校准叶片进行研磨，从而也可以考虑与加工相关的影响，特别是与磨削力相关的位移。

62. 发明公开

US20240238885A1 GEAR GRINDING MACHINE AND METHOD 审中-公开
公开(公告)号：US20240238885A1
公开(公告)日：2024-07-18
申请号：US18413977
申请日：2024-01-16
申请人： Klingelnberg AG
发明人： Florian Kienzle
IPC分类号： B23F1/02
CPC分类号： B23F1/02
摘要： A gear grinding machine includes a spindle arrangement, having a rotationally drivable tool spindle for accommodating a tool, having a spindle bearing for mounting the tool spindle in a housing, having a temperature sensor, wherein the temperature sensor is assigned to a bearing outer ring of the spindle bearing of the tool spindle and is adapted to measure a bearing outer ring temperature of the bearing outer ring, having a control device for controlling a grinding process of a toothing to be ground and/or for controlling a dressing of the tool. The control device is adapted to perform a temperature compensation based on a measured bearing outer ring temperature of the bearing outer ring compared to a reference temperature, wherein a temperature-induced axial displacement of the tool spindle is compensated.

63. 发明授权

US10857607B2 Method for gear cutting of bevel gear workpieces 有权
公开(公告)号：US10857607B2
公开(公告)日：2020-12-08
申请号：US16246878
申请日：2019-01-14
申请人： Klingelnberg AG
发明人： Rafael Frischtatzky , Timon Rabanus , Karl-Martin Ribbeck
IPC分类号： B23F17/00 , B23F9/10 , B23F5/16
摘要： Method for gear cutting a bevel gear workpiece, wherein a preliminary machining phase includes a first machining procedure, wherein a first relative infeed movement moves the gear cutting tool into a first starting position relative to the bevel gear workpiece, the gear cutting tool penetrates the material of the bevel gear workpiece relative to the bevel gear workpiece, proceeding from the first starting position up to a first end position, and the gear cutting tool and bevel gear workpiece carry out a first rolling procedure in a first rolling range, carrying out a further rolling procedure, in order to post-machine at least one of the tooth gaps on the bevel gear workpiece using the rotationally-driven gear cutting tool or another rotationally-driven gear cutting tool, wherein in the scope of this further rolling, a rolling rotation is carried out in a further rolling range, which differs from the first rolling range.

64. 发明授权

US10252360B2 Method for finish machining of a bevel gear in a region of a tooth head, machine for machining bevel gears, and grinding tool for use in association therewith 有权
公开(公告)号：US10252360B2
公开(公告)日：2019-04-09
申请号：US15211285
申请日：2016-07-15
申请人： Klingelnberg AG
发明人： Hastings Wyman
IPC分类号： B23F19/12 , B23F21/02 , B23F5/20 , B23F23/12 , B23F9/02
摘要： Methods for machining may include: (a) providing a bevel gear on a workpiece spindle of a machine, the gear having a tooth having a head, (b) rotationally driving the gear about an axis of the spindle, (c) providing a first machining tool on a tool spindle of the machine, (d) machining the gear by means of the first machining tool, (e) providing a grinding tool as a second machining tool on the tool spindle or on a further spindle, (f) driving the grinding tool to rotate about a tool axis of the tool spindle, wherein the grinding tool comprises a concave machining region that has a ring shape and is arranged concentrically in relation to the tool axis, and (g) advancing the grinding tool in relation to the gear to bring the machining region into chip-removing operational connection with an edge in a region of the head to produce a chamfer on the edge by grinding.

65. 发明授权

US10185302B2 Method for operating a gear cutting machine 有权
公开(公告)号：US10185302B2
公开(公告)日：2019-01-22
申请号：US15560621
申请日：2016-03-23
申请人： Klingelnberg AG
发明人： Jürgen Weber , Karl-Martin Ribbeck , Herbert Blasberg
IPC分类号： G05B19/404 , B23Q15/22 , B23F23/12
摘要： A method for operating a gear cutting machine comprising the following steps: machining a first workpiece (1) in the machine, wherein the first workpiece (1) heats up due to the machining, determining at least one characteristic workpiece variable in the first workpiece (1) in the heated state, wherein a measuring device of the machine is used for the determination, determining a compensation on the basis of the at least one characteristic workpiece variable of the first workpiece (1) and at least one characteristic workpiece variable of a reference workpiece, wherein the characteristic workpiece variable of the reference workpiece is determined in the machine after a steady-state temperature has been reached, at least one compensation value is determined in the course of determining the compensation, adjusting of the machine setting by taking into account the at least one compensation value, and machining a further workpiece (2) in the machine.

66. 发明授权

US09993886B2 Method and device for the face-side chamfering of gear teeth of a workpiece 有权
公开(公告)号：US09993886B2
公开(公告)日：2018-06-12
申请号：US14733548
申请日：2015-06-08
申请人： Klingelnberg AG
发明人： Olaf Vogel
IPC分类号： G06F19/00 , B23F19/10 , B23F21/00 , B23F21/12 , G05B19/402
CPC分类号： B23F19/102 , B23F21/005 , B23F21/12 , G05B19/402 , G05B2219/35491 , Y10T409/101113
摘要： Method for the face-side chamfering of gear teeth of a workpiece (20) in a CNC-controlled multiaxis machine including inserting a tool (100) in the multiaxis machine, wherein the tool (100) has at least one cutting tooth (111) having a first rake face and a second rake face, driving the tool (100) in a first rotational direction, executing first CNC-controlled relative movements while the tool (100) rotates in the first rotational direction to chamfer a first face-side edge (24) of a first tooth of the gear teeth using the first rake face of the tool (100), and executing second CNC-controlled relative movements while the tool (100) rotates in the first rotational direction, to chamfer a second face-side edge (25) of the first tooth or another tooth of the gear teeth using the second rake face of the tool (100), and apparatus therefor.

67. 发明授权

US09440328B2 Method for ascertaining topography deviations of a dressing tool in a grinding machine 有权
标题翻译：确定研磨机中修整工具的地形偏差的方法
公开(公告)号：US09440328B2
公开(公告)日：2016-09-13
申请号：US14197796
申请日：2014-03-05
申请人： Klingelnberg AG
发明人： Karl-Martin Ribbeck
IPC分类号： B24B53/00 , B24B49/18 , B24B53/06 , B23F23/12
CPC分类号： B24B53/00 , B23F23/1225 , B24B49/18 , B24B49/186 , B24B53/062
摘要： The invention relates to a method for ascertaining topography deviations of a dressing tool. The method includes executing a predefined relative movement of a dressing tool in relation to a dressable grinding tool, wherein during the execution of the relative movement, at least one contour region of the dressing tool is transferred into a transfer region of the grinding tool. A plunging body made of material which can be ground in the machine is provided. The transfer region of the grinding tool is moved into the vicinity of the plunging body by a relative infeed movement. A rotational movement of the grinding tool around an axis of rotation is executed. Plunging the transfer region of the grinding tool into the material of the plunging body, to thus perform a transfer of the topography of the transfer region into an imaging region of the plunging body. A scanning movement of the topography is performed of the plunging body using a coordinate scanning sensor and a computational ascertainment by means of a computer of at least one item of coordinate information, which permits a statement about the actual geometry of the dressing tool.
摘要翻译：本发明涉及一种确定修整工具的地形偏差的方法。该方法包括执行修整工具相对于可调整研磨工具的预定义的相对运动，其中在执行相对运动期间，修整工具的至少一个轮廓区域被转移到磨削工具的传送区域中。提供了一种可在机器中研磨的材料制成的突出体。研磨工具的传送区域通过相对进给运动移动到插入体附近。执行磨削工具围绕旋转轴的旋转运动。将研磨工具的传送区域插入到插入体的材料中，从而执行将传送区域的形貌转移到插入体的成像区域中。使用坐标扫描传感器和通过至少一个坐标信息项的计算机的计算确定来对插入体执行扫描运动，其允许关于修整工具的实际几何形状的陈述。

68. 发明申请

US20130259591A1 Method for Producing Conical or Hypoid Wheels Using the Plunging Process 有权
标题翻译：使用倾斜过程生产锥形或扭曲轮的方法
公开(公告)号：US20130259591A1
公开(公告)日：2013-10-03
申请号：US13855639
申请日：2013-04-02
申请人： KLINGELNBERG AG
发明人： Alexander Dürr , Wilhelm Kreh
IPC分类号： B23F9/10
CPC分类号： B23F9/10 , B23F9/105 , Y10T409/103975 , Y10T409/106042 , Y10T409/10795 , Y10T409/108109
摘要： A method of chip-removal machining a tooth gap of a work piece includes executing a first substantially linear plunging movement of the cutting tool along a first plunge vector and machining a region of the work piece near a tooth head of a first tooth flank of the tooth. A substantially transverse movement of the tool along a transverse vector is then executed to machine a region of the work piece near a tooth head of the second tooth flank of the tooth. A second plunging movement of the cutting tool along a vector path is then executed, to an end point of the second plunging movement that lies at a position of the work piece corresponding to the slot depth of the tooth gap to be fabricated. The cutting tool is rotated about an axis of rotation thereof during execution of these steps.
摘要翻译：一种切屑加工工件的齿隙的方法包括：沿着第一插入矢量执行切割工具的第一基本上线性的插入运动，并且在所述工件的第一齿面的齿头附近加工工件的区域齿。然后执行沿着横向矢量的工具的基本上横向的运动，以便在齿的第二齿面的齿头附近加工工件的区域。然后，沿着矢量路径的切割工具的第二个插入运动被执行到位于工件的与待制造的齿隙的槽深度对应的位置处的第二插入运动的终点。在执行这些步骤期间，切割工具围绕其旋转轴线旋转。

69. 发明申请

US20130122787A1 Method for Generating of Non-Straight Gear Teeth 有权
标题翻译：非直齿轮齿的生成方法
公开(公告)号：US20130122787A1
公开(公告)日：2013-05-16
申请号：US13700616
申请日：2011-03-08
申请人： Igor Zarebski
发明人： Igor Zarebski
IPC分类号： B23F15/06
CPC分类号： B23F15/06 , B23F9/00 , B23F9/02 , B23F9/08
摘要： A gear teeth generation method carried out on multi-axis machines, using a disk tool. The tool travels along the gear tooth where its motion along a gap adjacent to the gear tooth is synchronized with the roll motion performed by said multi-axis machine so that the pressure line is on the machining surface of the tool. The tool machines a bottom land surface of the tooth with its perimeter. Machining of the tooth flank starts with the tool positioned such that the pressure line is near a first edge of the tooth flank. Positions of the tool and the tooth are changed to cause the pressure line to move away from the first edge of the tooth flank. Machining is finished when the pressure line reaches the opposite edge of the tool flank. The pressure line is on the machining surface of the tool throughout every stage of machining.
摘要翻译：使用磁盘工具在多轴机器上执行齿轮齿生成方法。工具沿着齿轮行进，其中沿与齿轮齿相邻的间隙的运动与由多轴机器执行的辊运动同步，使得压力线在工具的加工表面上。该工具将牙齿的底部表面与其周边加工。齿面的加工开始于工具定位成使得压力线接近齿面的第一边缘。改变工具和齿的位置，使得压力线从齿面的第一边缘移开。当压力线到达工具侧面的相对边缘时，加工完成。在整个加工阶段，压力线位于刀具加工面上。

70. 发明授权

US08388281B2 Method for producing bevel gears having hypocycloidai teeth in the continuous indexing method using a corresponding face cutter head 有权
标题翻译：在使用相应的面铣刀的连续分度方法中制造具有低齿状齿的锥齿轮的方法
公开(公告)号：US08388281B2
公开(公告)日：2013-03-05
申请号：US13097848
申请日：2011-04-29
申请人： Carsten Hünecke , Hartmuth Müller
发明人： Carsten Hünecke , Hartmuth Müller
IPC分类号： B23F5/24
CPC分类号： B23F21/223 , B23F9/10 , B23F9/105 , Y10T407/17 , Y10T407/1705 , Y10T407/171 , Y10T407/1725 , Y10T409/103975 , Y10T409/104134 , Y10T409/104293 , Y10T409/108427
摘要： A face milling cutter method for manufacturing various hypocycloidal bevel gears that is characterized in that the following steps are performed to manufacture a first bevel gear: equipping a universal face milling cutter in a first configuration with a first number of cutter groups that corresponds to a first number of passes. A first bevel gear is then produced in the continuous partial method using the universal face milling cutter in the first configuration. The following steps are performed to manufacture a second bevel gear: equipping the same universal face milling cutter in a second configuration with a second number of cutter groups that corresponds to a second number of passes. The second bevel gear is then produced in the continuous partial method using the universal face milling cutter in the second configuration.
摘要翻译：一种用于制造各种下摆式锥齿轮的面铣刀方法，其特征在于执行以下步骤以制造第一锥齿轮：将具有第一配置的通用面铣刀装配成与第一锥齿轮对应的第一数量的刀具组通行证数量然后使用第一构型中的通用面铣刀在连续部分方法中制造第一锥齿轮。执行以下步骤以制造第二锥齿轮：将具有第二数量的切割器组的第二配置的相同的通用面铣刀装备成对应于第二数量的通过。然后，在第二构造中使用通用面铣刀以连续部分方法制造第二锥齿轮。

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