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1. 发明授权

US10245664B2 Bevel gear cutting machine for chamfering bevel gear tooth edges and method for chamfering the tooth edges of bevel gears 有权
公开(公告)号：US10245664B2
公开(公告)日：2019-04-02
申请号：US15708576
申请日：2017-09-19
申请人： Klingelnberg AG
发明人： Ji Kyung Yoon , Jürgen Weber , Karl-Martin Ribbeck
IPC分类号： B23F19/10 , B23F23/12
摘要： Bevel gear cutting machines having multiple numerically-controllable axes, a workpiece spindle, which accommodates a bevel gear coaxially in relation to a workpiece spindle axis, and a deburring device having a deburring spindle for accommodating at least one first deburring tool. The bevel gear cutting machines may chamfer tooth edges of the bevel gear in two passes, where, in a first pass, first chamfers are provided on the tooth edges by using the first deburring tool, and, in a second pass, second chamfers are provided in the region of the first chamfers by using the first deburring tool or by using a second deburring tool in a continuous procedure, in which the bevel gear and the first or second deburring tool rotate in a coupled manner while engaged with one another.

2. 发明授权

US09776266B2 Bevel gear having modified geometry 有权
公开(公告)号：US09776266B2
公开(公告)日：2017-10-03
申请号：US14816606
申请日：2015-08-03
申请人： Klingelnberg AG
发明人： Gary Töpfer
IPC分类号： F16H55/17 , B23F1/00
CPC分类号： B23F1/00 , F16H55/17
摘要： Bevel gear having a main body comprises a heel-side skin surface. The bevel gear has at least one tooth gap, which exits from the main body in the region of the skin surface. The tooth gap has a tooth base, the profile of which is defined by a base cone angle in relation to the workpiece axis of rotation. A concentric circumferential ring structure is provided on the skin surface, which is raised in relation to the skin surface, and which results in a heel-side exit angle between the tooth base and the ring structure, which is in the range between 125° and 160°.

3. 发明申请

US20170234668A1 WORKPIECE CLAMPING SYSTEM FOR A MEASURING MACHINE 审中-公开
公开(公告)号：US20170234668A1
公开(公告)日：2017-08-17
申请号：US15432836
申请日：2017-02-14
申请人： Klingelnberg AG
发明人： Georg Mies , Rainer Engels
IPC分类号： G01B5/00 , B23B31/10
CPC分类号： B23B31/16033 , B23B31/102 , B23B31/16291 , B23B2260/062 , B23B2270/022 , G01B5/0002 , G01B5/0004 , Y10T279/14 , Y10T279/19 , Y10T279/1926 , Y10T279/26 , Y10T279/29
摘要： A workpiece clamping systems for a measuring machine includes a rotary table disposed in a workpiece rotation axis and includes a chuck for the concentric accommodation of a workpiece, a rotary drive for the rotary table, an upper centering tip mountable or mounted on the measuring machine in the workpiece rotation axis vertically opposed to the rotary table and a lower centering tip mountable or mounted on the rotary table in addition to the chuck for accommodating a workpiece between the centering tips instead of in the chuck, wherein the lower centering tip is provided and formed to be concentrically clamped in the chuck instead of a workpiece, and in that the workpiece clamping system is provided with a conveying device for vertically or vertically and chuck.

4. 发明授权

US09696713B2 Method for grinding machining of bevel gears in the single-indexing method 有权
公开(公告)号：US09696713B2
公开(公告)日：2017-07-04
申请号：US14670885
申请日：2015-03-27
申请人： Klingelnberg AG
发明人： Hartmuth Müller
IPC分类号： B23F9/02 , B23F23/12 , G05B19/402 , B23Q17/20 , B23F19/02 , G05B19/406 , B23Q17/00
CPC分类号： G05B19/402 , B23F9/02 , B23F9/025 , B23F19/025 , B23F23/12 , B23F23/1218 , B23Q17/20 , B23Q2017/001 , G05B19/406 , G05B2219/36196 , G05B2219/37367
摘要： A method for grinding bevel gears (1), wherein a first grinding tool (2) is used during a first method section and a second grinding tool is used during a second method section. A measurement system (30) is used to carry out a measuring procedure, in which sampling values can be ascertained for at least a part of first flanks of the bevel gear workpiece (1), which enable a statement about the concentricity error of this bevel gear workpiece (1) in the present chucking. Concentricity correction dimensions are ascertained by computer on the basis of the sampling values, and an adaptation of machining movements of the second method section is performed on the basis of the concentricity correction dimensions.

5. 发明授权

US09387547B2 Power skiving tool for power skiving gear teeth on a crown wheel workpiece 有权
标题翻译：动力切割工具，用于在齿轮工件上切割齿轮齿
公开(公告)号：US09387547B2
公开(公告)日：2016-07-12
申请号：US14255069
申请日：2014-04-17
申请人： Klingelnberg AG
发明人： Olaf Vogel , Judith Nägele
IPC分类号： B23F21/00 , B23F21/24 , B23F21/04 , B23F5/16 , B23F15/06 , B23F5/20
CPC分类号： B23F21/245 , B23F5/163 , B23F15/06 , B23F21/046 , Y10T407/1745
摘要： A power skiving tool for producing multiple tooth gaps by means of a power skiving method on a ring-shaped or disk-shaped workpiece, which has a workpiece axis of rotation is provided. The power skiving tool includes a tool axis of rotation, a skiving conical body, which is in the form of a hyperboloid or truncated cone, and which is arranged rotationally-symmetrically to the tool axis of rotation, and multiple cutting teeth, which protrude essentially radially out of a lateral surface of the skiving conical body. Each of the cutting teeth has a rake face and at least one cutting edge, and all rake faces have a cutting surface normal, which encloses an acute angle, which is less than 40°, with the tool axis of rotation, and wherein the power skiving tool is designed for axially-offset power skiving of the workpiece.
摘要翻译：提供了一种用于在具有工件旋转轴线的环形或圆盘形工件上通过动力切割方法生产多个齿隙的动力切割工具。动力切削工具包括一个工具旋转轴线，一个双曲面或截锥体形式的平滑锥形体，其旋转对称地设置在工具旋转轴线上，多个切割齿基本上突出径向地从平滑锥体的侧面开始。每个切割齿具有前刀面和至少一个切削刃，并且所有前刀面都具有切削面法线，其与刀具旋转轴线围成小于40°的锐角，其中功率扫描刀具设计用于工件的轴向偏移功率切割。

6. 发明授权

US08959986B2 Apparatus having a roughness measurement sensor and corresponding methods 有权
标题翻译：具有粗糙度测量传感器和相应方法的装置
公开(公告)号：US08959986B2
公开(公告)日：2015-02-24
申请号：US13163128
申请日：2011-06-17
申请人： Georg Mies
发明人： Georg Mies
IPC分类号： G01B5/28
CPC分类号： G01B5/28
摘要： An apparatus having a roughness sensing system and a roughness measurement sensor, wherein a slide element and a probe tip come to operation, and method of use thereof. The slide element is arranged on an extreme end of a probe pin in the form of a scan-slide element. The probe tip is integrated into the probe pin, and the distance between the scan-slide element and the probe tip is predetermined. The roughness sensing system is a 1D-, 2D- or 3D-scanning system having a parallelogram configuration. The apparatus further has a serving device which enables moving the probe pin together with the scan-slide element and the probe tip jointly over a surface to be scanned.
摘要翻译：一种具有粗糙度感测系统和粗糙度测量传感器的装置，其中滑动元件和探针尖端起作用，及其使用方法。滑动元件以扫描滑动元件的形式布置在探针的最末端。探针尖端集成到探针中，扫描滑块和探针尖之间的距离是预先确定的。粗糙度感测系统是具有平行四边形配置的1D，2D或3D扫描系统。该装置还具有能够将探针与扫描滑动元件和探针尖端一起移动到要扫描的表面上的服务装置。

7. 发明授权

US08214074B2 Device and method for positioning a rotationally-symmetric precision part 有权
标题翻译：用于定位旋转对称精密零件的装置和方法
公开(公告)号：US08214074B2
公开(公告)日：2012-07-03
申请号：US12625610
申请日：2009-11-25
申请人： Georg Mies , Günter Mikoleizig , Frank Wellmann , Harald Wüster
发明人： Georg Mies , Günter Mikoleizig , Frank Wellmann , Harald Wüster
IPC分类号： G06F19/00
CPC分类号： G05B19/402 , B23Q15/26 , B23Q17/22 , B23Q17/2291 , G05B2219/49113 , G05B2219/50152
摘要： Device and method for positioning a precision part on a turntable (130). The device (100) comprises at least two distance sensors (121.1, 121.2, 121.3), which operate in a contactless manner and are situated in a previously known configuration to a rotational axis (A1) of the turntable (130). The measurement axes (124.1, 124.2, 124.3) of the distance sensors (121.1, 121.2, 121.3) are radially oriented in the direction of the rotational axis (A1) so that the measurement axes (124.1, 124.2, 124.3) of the distance sensors (121.1, 121.2, 121.3) meet in a virtual measuring point (MV). The distance sensors (121.1, 121.2, 121.3) are connected to analysis electronics (200). Output signals (a.1, a.2, a.3) of the distance sensors (121.1, 121.2, 121.3) may be processed on the basis of the analysis electronics (200), in order to allow coaxial centering of the precision part (11) in relation to the rotational axis (A1) upon placement of the precision part (11) on the turntable (130).
摘要翻译：用于将精密部件定位在转盘（130）上的装置和方法。装置（100）包括至少两个距离传感器（121.1,122.2,121.3），其以非接触方式操作并且位于转台（130）的旋转轴线（A1）处于先前已知的构造。距离传感器（121.1,122.2,123.3）的测量轴（124.1,124.2,124.3）在旋转轴线（A1）的方向上径向定向，使得距离传感器的测量轴（124.1,124.2,124.3）（121.1,121.2,121.3）在虚拟测量点（MV）中相遇。距离传感器（121.1,121.2,121.3）连接到分析电子装置（200）。距离传感器（121.1,122.2,123.3）的输出信号（a.1，a.2，a.3）可以在分析电子装置（200）的基础上进行处理，以便允许精密部件（11）放置在转台（130）上时，相对于旋转轴线（A1）旋转。

8. 发明授权

US10702936B2 Method for machining the tooth flanks of bevel gear workpieces 有权
公开(公告)号：US10702936B2
公开(公告)日：2020-07-07
申请号：US15923656
申请日：2018-03-16
申请人： Klingelnberg AG
发明人： Jürgen Weber
IPC分类号： B23F19/05 , B23F23/12 , B23F9/10 , B23F19/00 , B23F9/02 , B23F21/22
摘要： A method for machining the tooth flanks of a bevel gear workpiece includes carrying out correction machining of a concave tooth flank and a convex tooth flank of at least one tooth gap by, after machining using a first machine setting, cutting free of the concave tooth flank by the bevel gear workpiece executing a workpiece rotation in a first rotational direction having a predefined first absolute value in relation to a gear-cutting tool and/or cutting free the convex flank by the bevel gear workpiece executing a workpiece rotation in another rotational direction having a predefined second absolute value in relation to the gear-cutting tool, and finish machining the concave tooth flank using a second machine setting, which differs from the first machine setting, and finish machining the convex tooth flank using a third machine setting, which differs from the second machine setting.

9. 发明授权

US09764402B2 Cutter head and use thereof 有权
公开(公告)号：US09764402B2
公开(公告)日：2017-09-19
申请号：US14308902
申请日：2014-06-19
申请人： Klingelnberg AG
发明人： Christian Brieden , Martin Zagromski , Leif Heckes , Jürgen Gsell
IPC分类号： B23F23/12 , B23F21/00 , B23F9/10 , B23F21/14 , B23F21/22 , B23C5/22
CPC分类号： B23F23/1212 , B23C5/2239 , B23C5/2295 , B23C2270/025 , B23F9/10 , B23F21/146 , B23F21/226 , Y10T407/2266
摘要： Cutter head for accommodating multiple cutters, wherein the cutter head has a separate receptacle opening for each of the cutters, and wherein the cutter head includes clamping means for clamping the cutters in the receptacle openings. A cavity is implemented in the cutter head in the region of at least one of the receptacle openings, which is separated by a thin wall or layer from this receptacle opening, and the cavity can be filled with a fluid and a pressure can be applied thereto.

10. 发明授权

US09757840B2 Method for compensating temperature-induced deviations in a grinding machine and machine being equipped corresondingly 有权
公开(公告)号：US09757840B2
公开(公告)日：2017-09-12
申请号：US14991525
申请日：2016-01-08
申请人： Klingelnberg AG
发明人： Karl-Martin Ribbeck
IPC分类号： B24B49/00 , B24B49/14 , B23F23/12 , B24B49/18 , B24B53/08
CPC分类号： B24B49/14 , B23F23/1225 , B24B49/18 , B24B53/08
摘要： Method for compensating temperature-induced deviations in a grinding machine includes controlling the movements of the dressing tool relative to the grinding tool in order to relatively move the dressing tool towards the grinding tool; checking whether a first-cut detection signalizes a contact of the grinding tool and the dressing tool; repeating the controlling and checking steps until a contact between the grinding tool and the dressing tool is detected, and when the contact is detected, then (i) recording the Current Position, and (ii) carrying out a compensation calculation using the Current Position and a reference position.

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