Patents Assigned to ThyssenKrupp Presta TecCenter AG
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Patent number: 9957860Abstract: An oil separator may be used in a variety of contexts, one of which is for crankcase ventilation of an internal combustion engine. The oil separator may include a hollow member that extends along a longitudinal axis and is configured to receive a gas flow that is charged with oil. The oil separator may also include an oil separation member disposed within the hollow member and against which the gas flow flows. A redirection member may be disposed proximate the oil separation member in the hollow member, wherein the redirection member redirects at least a portion of the gas flow traveling substantially along the longitudinal axis radially outwards so as to impact an inner side of the oil separation member. As a result of an impactor effect from the gas flow striking the oil separation member as well as the inertia of the oil, the oil may remain in and/or pass through the oil separation member.Type: GrantFiled: June 17, 2014Date of Patent: May 1, 2018Assignee: THYSSENKRUPP PRESTA TECCENTER AGInventors: Robert Reichelt, Ulf Müller, Jürgen Meusel
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Publication number: 20180087644Abstract: A camshaft segment may include a camshaft having a shaft element and a cam element, as well as a camshaft bearing for mounting the camshaft at least in a radial or axial direction. The camshaft bearing may have an oil transfer element for transferring an oil medium to the camshaft. The camshaft may have an oil conducting element for receiving and guiding the oil medium. The camshaft bearing may have a reduction element, a material of which has a coefficient of expansion comparable to a coefficient of expansion of a material of the camshaft. In some cases, the reduction element may be a ring or a sleeve.Type: ApplicationFiled: May 4, 2016Publication date: March 29, 2018Applicants: THYSSENKRUPP PRESTA TECCENTER AG, thyssenkrupp AGInventor: Jürgen MEUSEL
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Patent number: 9926815Abstract: An adjustable camshaft for a valve drive of an internal combustion engine may include an inner shaft extending through an outer shaft with a cam element disposed on the outer shaft. The cam element may be connected rotationally conjointly to the inner shaft. The cam element may have a shaft passage with an internal bearing surface, which, together with a bearing surface on an outer side of the outer shaft, forms a plain bearing arrangement for the rotatable arrangement of the cam element on the outer shaft. The bearing surface on the outer side of the outer shaft and/or the internal bearing surface of the shaft passage of the cam element may include one or more sections with a spherical shape.Type: GrantFiled: November 27, 2014Date of Patent: March 27, 2018Assignee: THYSSENKRUPP PRESTA TECCENTER AGInventors: Martin Lehmann, Bernd Mann, Michael Kunz, Uwe Dietel, Jürgen Meusel, Manfred Muster, Markus Niederlechner, Marko Curlic
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Patent number: 9903236Abstract: An adjustable camshaft can be used in a valve drive of an internal combustion engine. The adjustable camshaft may include an inner shaft rotatably supported by and concentric with an outer shaft. A cam element may be rotatably supported on the outer shaft such that the outer shaft extends through a cam bore of the cam element. The cam element may be rotatably-fixed to the inner shaft, in some cases, by way of a bolt. Further, a bearing sleeve that is rotatably-fixed to the cam element may be inserted within the cam bore such that a slide bearing gap is formed between the bearing sleeve and the outer shaft. Furthermore, in some examples the cam element may be a collared cam that has a cam base body and a cam collar adjacent to one another.Type: GrantFiled: June 24, 2014Date of Patent: February 27, 2018Assignee: THYSSENKRUPP PRESTA TECCENTER AGInventors: Michael Kunz, Uwe Dietel, Jürgen Meusel
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Publication number: 20180030863Abstract: A camshaft may comprise a main shaft, on which at least two sliding cam pieces are accommodated in a rotationally fixed and axially displaceable manner, wherein the sliding cam pieces each comprise a carrier tube, on which are seated cam groups each comprising at least two cam tracks for valve-control purposes, as well as an adjustment element that can be brought into operative connection with an actuator for axial displacement of the two sliding cam pieces. A method for assembling such a camshaft may involve providing a module body with bearing bridges that receive the camshaft in a rotatable manner, inserting a first sliding cam piece into a first bearing bridge, connecting the first sliding cam piece to the adjustment element, inserting a second sliding cam piece into a second bearing bridge, and connecting the second sliding cam piece to the adjustment element with the aid of an axial adjustment distance of at least one of the sliding cam pieces in the bearing bridges.Type: ApplicationFiled: November 5, 2015Publication date: February 1, 2018Applicants: THYSSENKRUPP PRESTA TECCENTER AG, thyssenkrupp AGInventors: Volker JUNGE, Kevin WÖHLER, Merlin DEPTA, Michael FRICKE, Thomas ROGATSCH, Marko CURLIC, Falk HEITLING
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Patent number: 9879576Abstract: An adjustable camshaft for an internal combustion engine may have a support shaft that extends along a rotational axis; a cam pack having a cam element that is received on the support shaft such that the cam pack can be displaced along the rotational axis, wherein the cam pack can be latched on the support shaft in at least two axial latching positions; a latching element that is prestressed by way of a spring element; and a latching element receptacle disposed on the support shaft. The latching element can latch into the latching element receptacle in the latching positions. The spring element and the latching element may be received in the cam pack.Type: GrantFiled: November 11, 2014Date of Patent: January 30, 2018Assignee: THYSSENKRUPP PRESTA TECCENTER AGInventor: Peter Hofmann
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Publication number: 20180003087Abstract: A method concerns producing a cam profile of a cam pack with at least two cam elements that can be adjusted relative to each other. The camshaft may comprise an outer shaft, a rotatable inner shaft, a fixed cam element connected to the outer shaft, and an adjustment cam element connected to the inner shaft. The method may comprise processing an adjustment cam contour by a continuous diameter reduction of a segment of the adjustment cam base circle, wherein the adjustment cam base circle is reduced to a diameter that is smaller than a fixed cam nominal circle diameter minus a doubled adjustment cam base circle tolerance. The method may comprise processing a fixed cam contour by reducing a fixed cam contour protrusion in a region between a transition point and a processing point. Upon reaching the transition point a tapping element for converting a revolving motion of the cam elements into a linear motion of the valves is transferred from the fixed cam element to the adjustment cam element.Type: ApplicationFiled: October 6, 2015Publication date: January 4, 2018Applicant: ThyssenKrupp Presta TecCenter AGInventors: Marcel Weidauer, Bernd Mann, Mario Lindner
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Publication number: 20170321577Abstract: A camshaft may include a shaft as well as a sliding element that is disposed on the shaft such that the sliding element is axially displaceable along a shaft axis. The shaft may comprise an external tooth for transmitting torque between the shaft and the sliding element. The external tooth may engage a mating tooth geometry formed in a passage of the sliding element. The sliding element on its axial end faces may comprise bearing collars that with the shaft form radial supporting bearings of the sliding element on the shaft. Further, the shaft may comprise cylindrical bearing portions for forming the radial supporting bearings, wherein the bearing portions can be configured with a diameter that is smaller than a diameter circumscribed by tips of the mating tooth geometry that protrude into the passage of the sliding element.Type: ApplicationFiled: August 4, 2015Publication date: November 9, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventor: Volker Junge
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Publication number: 20170321578Abstract: A camshaft for a multiple-cylinder internal combustion engine may include a sliding element comprising at least two cam elements, as well as a splined shaft that extends in an axial direction and on which the sliding element is received. The sliding element may comprise an internal spline system that interacts with an external spline system of the splined shaft such that the sliding element is seated fixedly on the splined shaft so as to rotate with the splined shaft. The sliding element may be received on the splined shaft such that the sliding element can, at least initially, be displaced axially. For axially-fixing the sliding element to the splined shaft, the sliding element may include a positively locking connection that is configured in the axial direction and is produced by way of at least one calked connection between the sliding element and the splined shaft. It should be understood that many camshafts include more than one sliding element.Type: ApplicationFiled: August 4, 2015Publication date: November 9, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Manfred Muster, Aaron Pfitscher, Marko Curlic, Volker Junge
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Publication number: 20170314428Abstract: A valve train for actuating gas exchange valves of an internal combustion engine may include a first camshaft that is received such that it can be rotated in a first shaft axis, and a second camshaft that is received such that it can be rotated in a second shaft axis. At least one of the camshafts may be configured as an adjustable camshaft that comprises an outer shaft in which an inner shaft is received such that it can be rotated. At least one of the camshafts may be drive-connected via a drive means to a crankshaft of the internal combustion engine. A phase shifting member may be provided by way of which the phase position of at least one inner shaft can be changed relative to the phase position of at least one outer shaft of the camshaft. The phase shifting member may comprise an arrangement that is spaced apart from both shaft axes.Type: ApplicationFiled: August 4, 2015Publication date: November 2, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Jürgen Meusel, Bernd Mann, Michael Kunz
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Publication number: 20170314427Abstract: An adjustable camshaft, which can be utilized in a motor vehicle, may include at least one fixed cam arranged rotationally fixed on at least one outer shaft segment and at least one adjusting cam arranged rotationally fixed to an inner shaft extending concentrically within the outer shaft segment. A method for producing such an adjustable camshaft may involve arranging an outer shaft segment on an inner shaft, generating a surface modification on a surface of the inner shaft to generate at least one arranging section, arranging a fixed cam on at least one section of the outer shaft segment, and arranging the adjusting cam on the arranging section of the inner shaft.Type: ApplicationFiled: September 30, 2015Publication date: November 2, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Henning BRANDENBURGER, Alexander PAEPLOW, Alexander LÜBBERSTEDT
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Publication number: 20170314424Abstract: A method for mounting a camshaft module may involve a module that includes a module cover in which a camshaft is accommodated. The camshaft may comprise a main shaft and a plurality of displacement elements with cam tracks formed thereon for valve-control purposes. The displacement elements may be arranged at predetermined positions in the module cover. The main shaft may be guided along a shaft axis through accommodating passages of the displacement elements. The method may involve arranging a first displacement element in the module cover, introducing the main shaft into the module cover and guiding the main shaft through the accommodating passage of the first displacement element, arranging a second displacement element in the module cover, rotating the main shaft about the shaft axis by an angular amount, and advancing and guiding the main shaft through the accommodating passage of the second displacement element.Type: ApplicationFiled: August 3, 2015Publication date: November 2, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Marko Curlic, Aaron Pfitscher, Manfred Muster
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Publication number: 20170314425Abstract: A camshaft may include a shaft on which at least one sliding element is received in such a way as to be axially displaceable along a shaft axis. The shaft may comprise an external longitudinal spline structure that meshes with an internal spline structure of a passage in the sliding element such that the sliding element is arranged in a rotationally fixed manner on the shaft. The sliding element, on its axial end faces, may comprise guiding portions by way of which the sliding element is guided on the shaft to minimize an axial offset of the sliding element. Further, guiding sleeves against which the guiding portions of the sliding element are supported may be received on the shaft.Type: ApplicationFiled: August 3, 2015Publication date: November 2, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Jürgen Meusel, Michael Kunz
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Patent number: 9803514Abstract: The invention relates to a shaft, particularly a cam shaft (1), comprising a hollow shaft section (10) with at least one radial inlet opening (11a, 11b) for evacuating a gas through said hollow shaft section (10), and comprising a splash-guard device (4) arranged in the region of the radial inlet opening (11a, 11b) on the hollow shaft section (10). According to the invention, the splash-guard device (4) has a radially exposed cover with radial passage openings (8) and protrusions between said passage openings (8). The protrusions can, in particular, be in the form of ribs (9).Type: GrantFiled: February 2, 2012Date of Patent: October 31, 2017Assignee: THYSSENKRUPP PRESTA TECCENTER AGInventor: Ulf Mueller
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Patent number: 9757822Abstract: A method for assembling a camshaft from a support shaft and components to be connected to the support shaft, the components having through-openings for receiving the support shaft. In this method, a support shaft is provided, having first diametrical enlargements in first regions, in which the components are to be secured, and second diametrical enlargements in second regions, in which the components are to be pre-positioned. A diameter (D2) in the second regions is smaller than a diameter (D1) in the first regions The support shaft is cooled and/or the components are heated up, so that the support shaft can be pushed with its first and second diametrical enlargements through the through-openings of the components.Type: GrantFiled: December 18, 2013Date of Patent: September 12, 2017Assignee: THYSSENKRUPP PRESTA TECCENTER AGInventors: Andreas Stappelmann, Peter Wiesner, Falk Muhsfeldt
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Publication number: 20170254234Abstract: A camshaft adjusting device of a drive, such as a motor vehicle drive, for example, for adjusting a phase position of a cam segment may include a camshaft and a phase shifter that is operatively connected to the camshaft. The camshaft may comprise a shaft segment including an inner shaft and an outer shaft at least partially surrounding the inner shaft. The camshaft adjusting device may further comprise a drive segment for driving the shaft segment and a cam segment that is connected in a form-fitting and/or force-fitting manner to the outer shaft. The phase shifter may comprise a rotor element and a stator element. A compensating element for compensating for part tolerances between the camshaft and the phase shifter can be disposed at least in sections between the rotor element and the drive segment.Type: ApplicationFiled: August 14, 2015Publication date: September 7, 2017Applicants: ThyssenKrupp Presta TecCenter AG, ThyssenKrupp AGInventors: Martin Lehmann, Michael Kunz
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Publication number: 20170211680Abstract: A camshaft may include a support shaft and a component with a passage opening that receives the support shaft. The support shaft may include fastening regions and positioning regions alternating in an axial direction. A diameter of the support shaft in the fastening regions may be greater than a diameter of the support shaft in the positioning regions. Furthermore, the passage opening of the component may include axially spaced fastening sections with positioning sections arranged between pairs of the fastening sections. A diameter of the passage opening in the fastening sections may be smaller than a diameter of the passage opening in the positioning sections. Further, the diameter of the support shaft in the positioning regions may be smaller than the diameter of the passage opening in the fastening sections, and the diameter of the support shaft in the fastening regions may be smaller than the diameter of the passage opening in the positioning sections.Type: ApplicationFiled: July 1, 2015Publication date: July 27, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Marko Curlic, Aaron Pfitscher, Jörg Schätzle
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Publication number: 20170204751Abstract: A valve control system may include an adjustable camshaft that includes an outer shaft and an inner shaft that extends through the outer shaft. The valve control system may further include a phase shifter that comprises a first control element and a second control element that can be rotated relative to the first control element. The outer shaft and the inner shaft may each be connected with a control element. The valve control system may also include a stop coupled with the outer shaft in a torque-proof manner, as well as a counter-stop coupled with the inner shaft in a torque-proof manner. A maximal angle of rotation of the inner shaft in the outer shaft may be determined by the stop bordering on the counter-stop.Type: ApplicationFiled: April 22, 2015Publication date: July 20, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Juergen Meusel, Michael Kunz
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Publication number: 20170207671Abstract: A rotor for an electric motor may include a shaft and a plurality of disks that are received on the shaft. The disks may include an inner passage, through which the shaft is guided, with the result being that the disks are centered on the shaft via the inner passage. The plurality of disks may have spring tongues that are configured in or along the inner passage and are braced with a bracing force in a circumferential direction against at least one mating geometry that is configured on the shaft.Type: ApplicationFiled: July 1, 2015Publication date: July 20, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Daniel Paul, Juergen Meusel
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Publication number: 20170191444Abstract: A hood module for attachment on a cylinder head of an internal combustion engine may include a hood body comprised of plastic and a bearing bracket comprised of metal as a rotatable holder for a camshaft in the hood module. The bearing bracket may be attached to the hood body with position accuracy by a joint connection so that the bearing bracket is aligned for attachment on the cylinder head through the hood body. In some examples, a joint element in the form of a sleeve may be used as part of the joint connection between the bearing bracket and the hood body.Type: ApplicationFiled: April 10, 2015Publication date: July 6, 2017Applicant: ThyssenKrupp Presta TecCenter AGInventors: Jürgen MEUSEL, Walter SCHIMMER