Thomas Weckerling
Thomas Weckerling, Bonn DE
Patent application number | Description | Published |
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20080214317 | DRIVESHAFT COMPRISING A COUNTER TRACK JOINT FEATURING A DELIMITED AXIAL DISPLACEMENT PATH - A constant velocity universal ball joint | 09-04-2008 |
20090143152 | COUNTER TRACK JOINT WITH BALL CAGE - A constant velocity joint in the form of a counter-track joint. The circumferential length (L | 06-04-2009 |
20100035696 | DRIVESHAFT COMPRISING A COUNTER TRACK JOINT FEATURING A DELIMITED AXIAL DISPLACEMENT PATH - A constant velocity universal ball joint | 02-11-2010 |
20100113167 | CONSTANT VELOCITY BALL JOINT IN THE FORM OF A COUNTER TRACK JOINT - An exemplary constant velocity ball joint in the nature of a counter track joint, includes first and second track pairs that form an opposite opening angle (W | 05-06-2010 |
20100310307 | TRIPOD JOINT AND ROLLER BODY FOR A TRIPOD JOINT - A tripod joint is disclosed which has an outer joint part and an inner joint part. The outer joint part includes a first longitudinal axis and a longitudinally running cavity with an open end. Three longitudinally running recesses are formed in the outer joint part. The inner joint part includes a second longitudinal axis and comprising at least one central body on which are integrally formed three journals with journal axes which extend radially from the second longitudinal axis. In each case, one roller body is arranged on the journals, which roller body has at least one outer ring, a closed inner ring and bearing bodies which are arranged in between. Each roller body is additionally, in each case, held in the recesses in a longitudinally moveable manner, and a rotation of the closed inner ring about the respective journal is blocked. Also proposed is a roller body with a non-circular or angular inner ring. | 12-09-2010 |
20100323802 | JOINT ARRANGEMENT WITH CAGE OFFSET - A joint arrangement in the manner of a counter track joint, wherein a cage is provided which is arranged between a joint outer part and joint inner part, which has a cage outer sphere with an outer sphere centre point and a cage inner sphere with an inner sphere center point and which has a plurality of cage windows which each hold at least one ball, wherein at least the outer sphere center point and the inner sphere center point of the cage are arranged offset with respect to the joint center plane. | 12-23-2010 |
Thomas Weckerling, Sankt Augustin DE
Patent application number | Description | Published |
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20140206463 | COUNTER TRACK JOINT - A counter track joint includes an outer joint part with first and second outer ball tracks, an inner joint part with first and second inner ball tracks. The first outer and inner ball tracks, together, form first pairs of tracks, which, when the joint is in an aligned position, widen towards the aperture end of the outer joint part and each accommodate first torque transmitting balls. The second outer and inner ball tracks, together, form second pairs of tracks which, when the joint is in the aligned position, widen towards the attaching end of the outer joint part and which each accommodate second torque transmitting balls. The centres of the balls of the first pairs of tracks each define a first track centre line. The first track centre line, in the direction from the central joint plane towards the attaching end extends radially inside a first reference arc. | 07-24-2014 |
20150072795 | CONSTANT VELOCITY JOINT - A constant velocity joint comprises an outer joint part with a longitudinal axis and outer ball tracks, wherein the outer joint part comprises an attachment side and an aperture side; an inner joint part with a longitudinal axis and inner ball tracks; a torque transmitting ball in each pair of tracks; a ball cage with cage windows in which the balls are held, wherein in each angular position of the constant velocity joint there is enclosed an opening angle δ between an outer tangent T and an inner tangent T′ at the ball, wherein at least one of the pairs of tracks is designed such that, inside a small articulation angle range, which comprises at least the joint central plane EM, in at least one joint articulation angle β, an opening angle δ amounts to zero, and that inside a larger articulation angle range, an aperture side opening angle δ of a ball moving towards the aperture side of the outer joint part and an attachment side opening angle δ of a ball moving at the same joint articulation angle β towards the attachment side of the outer joint part do not equal zero and open in the same axial direction. | 03-12-2015 |