DE102014212810A1 - centrifugal pendulum - Google Patents

Abstract

The invention relates to a centrifugal pendulum comprising a pendulum, which is rotatably mounted about a rotation axis, a pendulum mass and a guide means for coupling the pendulum mass with the pendulum, said guide means at least one bearing element and at least one arranged in the pendulum mass and / or in the pendulum recess having a guide contour, wherein the bearing element is at least partially disposed in the recess and designed to unroll on the guide contour.

Description

The invention relates to a centrifugal pendulum according to claim 1.

There are centrifugal pendulum, which have a pendulum mass unit, a pendulum known. The pendulum mass unit is coupled to the pendulum limited movable.

It is an object of the invention to provide an improved centrifugal pendulum.

This object is achieved by means of a centrifugal pendulum according to claim 1. Advantageous embodiments are given in the dependent claims.

According to the invention, it has been recognized that an improved centrifugal pendulum can be provided by the centrifugal pendulum having a pendulum flange which is rotatably mounted about an axis of rotation, a pendulum mass and a guide means for coupling the pendulum mass to the pendulum flange. The guide device comprises at least one bearing element and at least one recess arranged in the pendulum mass and / or in the pendulum flange with a guide contour. The bearing element is at least partially disposed in the recess and designed to unroll on the guide contour.

As a result, wear of the pendulum mass and / or the pendulum flange can be reduced during operation of the centrifugal pendulum.

In a further embodiment, the pendulum flange has a first pendulum flange part and a second pendulum flange part arranged at least partially axially spaced from the first pendulum flange part. The pendulum mass is arranged axially at least partially between the Pendelflanschteilen. As a result, a particularly compact centrifugal pendulum can be provided.

In a further embodiment, the recess is arranged on an outer peripheral surface of the pendulum mass and at least partially open radially outwards.

In a further embodiment, the guide device comprises a coupling element, wherein the coupling element couples the first pendulum flange part with the second pendulum flange part. The coupling element is at least partially encompassed between the Pendelflanschteilen circumferentially by the bearing element. As a result, a stationary attachment of the bearing element is achieved with respect to the pendulum flange. This has the consequence that the pendulum mass can be kept very large.

In a further embodiment, the coupling element and the bearing element are arranged radially on the outside of the pendulum mass.

In a further embodiment, the guide device comprises a further recess in the pendulum mass, wherein the further recess is arranged in the circumferential direction spaced from the recess. Each recess is associated with a coupling element.

In a further embodiment, the guide device comprises a first recess in the pendulum flange and a second recess in the pendulum mass. The guide device comprises a coupling element, wherein the coupling element extends through the first and the second recess. The bearing element is arranged in at least one of the two recesses. The coupling element at least partially penetrates the bearing element.

Furthermore, it is advantageous if the bearing element has at least one sliding bearing or a rolling bearing.

The invention will be explained in more detail with reference to figures. Showing:

1 a semi-longitudinal section through a centrifugal pendulum according to a first embodiment;

2 a cut through the in 1 shown centrifugal pendulum along a in 1 shown section plane AA;

3 a semi-longitudinal section through a centrifugal pendulum according to a second embodiment; and

4 a semi-longitudinal section through a centrifugal pendulum according to a third embodiment.

1 shows a semi-longitudinal section through a centrifugal pendulum 10 according to a first embodiment and 2 shows a section through the in 1 shown centrifugal pendulum 10 along an in 1 shown section plane AA.

The centrifugal pendulum 10 is rotatable about an axis of rotation 15 stored. The centrifugal pendulum 10 includes a hub 20 , with the centrifugal pendulum 10 by means of a shaft-hub connection 25 torque-locking with other components of a drive train of a motor vehicle, for example, with a torsional vibration damper or a shaft can be connected. The centrifugal pendulum 10 also includes a pendulum flange 30 , the torque-locking with the hub 20 connected is. The pendulum flange 30 comprises a first pendulum flange part 35 and a second swing flange part 40 , The two pendulum flange parts 35 . 40 are by means of a first connection 45 torque-locking interconnected. The first connection 45 is designed as a riveted joint. Of course, other connections are conceivable. Radial outside of the first connection 45 is the first pendulum flange part 35 axially to the second pendulum flange part 40 spaced apart.

Axial between the two pendulum flange parts 35 . 40 includes the centrifugal pendulum 10 at least one pendulum mass 50 , The pendulum mass 50 is formed in the embodiment of a partial ring, with further circumferentially adjacent to the pendulum shown 50 can be arranged further pendulum masses 55 , dashed in 1 represented, are conceivable. The other pendulum masses 55 can be identical to the pendulum mass 50 be educated. The further pendulum mass 55 can with the pendulum mass 50 by means of a spring element 60 in the circumferential direction between the two pendulum masses 50 . 55 is arranged to be coupled. Of course, it is conceivable on the spring element 60 to renounce.

The centrifugal pendulum 10 further comprises a guide means 65 , The management device 65 serves to the pendulum masses 50 . 55 with the pendulum flange 30 to couple and the pendulum mass 50 . 55 along a predefined aerial tramway 70 limited mobility relative to the pendulum flange 30 respectively. The aerial tramway 70 runs in a plane of rotation perpendicular to the axis of rotation 15 , Of course, while the guide device 65 for each pendulum mass 50 . 55 be designed differently, for example, the pendulum masses 50 . 55 along different aerial tramways 70 to lead in their pendulum motion.

The management device 65 includes a coupling element 75 and a bearing element 80 , The coupling element 75 is bolt-like and parallel to the axis of rotation 15 , The coupling element 75 connects the first pendulum flange part 35 with the second pendulum flange part 40 , The coupling element 75 is with the two pendulum flange parts 35 . 40 riveted. Of course, it is also conceivable that the coupling element 75 with the pendulum flange parts 35 . 40 connected in a different way.

The coupling element 75 points in a section between the two pendulum flange parts 35 . 40 a circular cross section. In this case, the coupling element 75 between the two pendulum flange parts 35 . 40 through the bearing element 80 surrounded on the periphery. It is conceivable that between the bearing element 80 and at least one of the two pendulum flange parts 35 . 40 A gap 81 is provided to a rotatability of the bearing element 80 on the coupling element 75 ensure and a frontal wear of the bearing element 80 to avoid.

The bearing element 80 is formed in the embodiment as a plain bearing. The bearing element sits here 80 with an inner peripheral surface 85 as a bearing seat on an outer peripheral surface 90 of the coupling element 75 on. The bearing element 80 is a connection axis 95 rotatable, the connection axis 95 parallel to the axis of rotation 15 is arranged. The coupling element 75 and the bearing element 80 are radially outward to the pendulum mass 50 arranged. This allows a particularly simple designed centrifugal pendulum 10 to be provided.

The management device 65 has one on an outer peripheral surface 96 the pendulum mass 50 arranged first recess 100 and one related to the first recess 100 offset in the circumferential direction arranged second recess 105 on. The two recesses 100 . 105 are identical in the embodiment, but it is also conceivable that the two recesses 100 . 105 deviating from each other are formed. The recesses 100 . 105 are open radially outwards. The first recess 100 has a first guide contour 110 and the second recess 105 has a second guide contour 115 on. Corresponding to the arrangement of the second recess 105 includes the guide device 65 a circumferentially spaced from the coupling element 75 arranged further coupling element 75 and another bearing element 80 ,

In operation of the centrifugal pendulum 10 become the pendulum masses 50 . 55 in a plane of rotation perpendicular to the axis of rotation 15 pressed radially outwards, so that the guide contour 110 . 115 on an outer peripheral surface 120 of the bearing element 80 abuts and in each recess 100 . 105 at least partially the bearing element 80 is arranged. The bearing element 80 proportionally takes one each on the pendulum mass 50 . 55 acting centrifugal force F on. The bearing element 80 in turn is supported by the coupling element 75 on the pendulum flange 30 from.

Will over the hub 20 For example, from a drive motor, for example, a rotational irregularity in the pendulum 30 initiated, so the pendulum flange twists 30 opposite the pendulum mass 50 . 55 , In this case, the bearing element is in the rotation 80 and the coupling element 75 taken along, so relative to the pendulum flange 30 the bearing element 80 or the coupling element 75 are stationary. When twisting the pendulum mass 50 along the aerial tramway 70 guided radially inward so that the pendulum mass 50 serves as an energy store. It rolls the outer peripheral side 120 on the guide contour 110 . 115 from, so that wear of the coupling element 75 and the pendulum mass 50 . 55 effectively avoided.

In the embodiment, the recess 100 . 105 on the outer peripheral surface 90 the pendulum mass 50 . 55 arranged. Of course, it is also conceivable that the recess 100 . 105 at another position of the pendulum mass 50 . 55 is arranged so that the recess 100 . 105 radially outward, for example, closed.

To fall out of the pendulum mass 50 from the pendulum flange 30 to avoid is a distance d between an inner peripheral surface 125 the pendulum mass 50 . 55 to a stop 130 passing through a substantially parallel to the axis of rotation 15 extending portion of the second pendulum flange part 40 is formed, chosen such that the pendulum mass 50 at the stop 130 strikes, but between the pendulum flange parts 35 . 40 can slip out.

3 shows a variant of the guide device 65 in the 1 and 2 shown centrifugal pendulum 10 , The management device 65 is similar to the one in the 1 and 2 formed guide means. Deviating from this is the bearing element 80 designed as a rolling bearing. The bearing element 80 includes a bearing ring 150 and several rolling elements 155 , The rolling elements 155 are radially relative to the connection axis between the coupling element 85 and the bearing ring 150 arranged and roll both on the bearing ring 150 as on the coupling element 75 circumferentially from.

4 shows a semi-longitudinal section through a centrifugal pendulum 10 according to a second embodiment. The functioning of the in 4 shown centrifugal pendulum 10 is essentially similar to the one in 1 and 2 shown centrifugal pendulum 10 , Deviating from this, the centrifugal pendulum 10 a one-piece pendulum flange 30 on. The management device 65 has one in the pendulum flange 30 arranged first recess 200 on.

The pendulum mass 50 . 55 is formed in two parts and has a first pendulum mass part 205 and a second pendulum mass part 210 on, by means of a spacer bolt 215 connected to each other. The distance bolt 215 passes through a not shown recess in the pendulum flange 30 ,

Furthermore, the guide device 65 one in the pendulum mass parts 205 . 210 arranged second recess 220 on. The first recess 200 has a first guide contour in a plan view (not shown) 221 with a kidney-shaped configuration having a center of curvature radially inward of the first recess 200 is arranged. The second recess 220 has a second guide contour 222 with an equally kidney-shaped configuration, but with the second recess 220 having a center of curvature radially outwardly of the second recess 220 is arranged. Of course, other configurations for the recesses 200 . 220 conceivable.

The guide device further comprises a coupling element 225 points in the first recess 200 a thickening section 230 on, which has a larger diameter than that in the thickening section 230 right and left adjacent sections 235 that in the second recess 220 each intervene. Radial outside of the thickening section 230 is the bearing element 80 arranged so that the coupling element 225 not in touching contact with the pendulum flange 30 occurs. The bearing element 80 can then be in the first recess 200 along the first guide contour 221 roll in the pendulum motion, so that wear of the coupling element 225 in the thickening section 230 is avoided. In addition, it is also conceivable that in the second recess 220 another bearing element 80 the management facility 65 is arranged, so that the coupling element 225 no contact with the pendulum flange 30 and the pendulum mass 50 having.

4 shows a semi-longitudinal section through a centrifugal pendulum 10 according to a third embodiment. The centrifugal pendulum 10 is similar to the one in 3 shown centrifugal pendulum 10 educated. Deviating from this is the second recess 220 one bearing element each 80 arranged, which is the coupling element 225 encompasses the circumference. The bearing element 80 during a pendulum movement of the pendulum mass parts 205 . 210 on the second guide contour 222 so that no contact between pendulum mass 50 and coupling element 225 is present.

In the embodiments, the bearing element 80 shown as plain bearings. Of course, it is also conceivable that any type of rolling bearings are used to the pendulum mass 50 along the guide contour 110 . 115 respectively.

It should be noted that in the 1 to 4 Of course, features shown can be combined with each other.

LIST OF REFERENCE NUMBERS

10

 centrifugal pendulum

15

 axis of rotation

20

 hub

25

 Shaft-hub-connection

30

 pendulum

35

 first pendulum flange part

40

 second pendulum flange part

45

 first connection

50

 pendulum mass

55

 further pendulum mass

60

 spring element

65

 guide means

70

 aerial tramway

75

 coupling element

80

 bearing element

81

 gap

85

 inner peripheral surface

90

 outer peripheral surface

95

 connecting axis

96

 outer peripheral surface of the pendulum mass

100

 first recess

105

 second recess

110

 first guide contour

115

 second guide contour

120

 outer peripheral side of the bearing element

130

 attack

200

 first recess

205

 first pendulum mass part

210

 second pendulum mass part)

215

 Standoffs

220

 second recess

221

 first guide contour

222

 second guide contour

225

 coupling element

230

lobe section

235

 section

Claims (8)

Centrifugal pendulum ( 10 ) - comprising a pendulum flange ( 30 ) which is rotatable about an axis of rotation ( 15 ) is storable, a pendulum mass ( 50 ) and a leadership facility ( 65 ) for coupling the pendulum mass ( 50 ) with the pendulum flange ( 30 ), - the management device ( 65 ) at least one bearing element ( 80 ) and at least one in the pendulum mass ( 50 ) and / or in the pendulum flange ( 30 ) arranged recess ( 100 . 105 . 200 . 220 ) with a guide contour ( 110 . 115 . 221 . 222 ), - wherein the bearing element ( 80 ) at least partially in the recess ( 100 . 105 . 200 . 220 ) is arranged and formed on the guide contour ( 110 . 115 . 221 . 222 ) unroll. Centrifugal pendulum ( 10 ) according to claim 1, - wherein at the pendulum flange ( 30 ) a first pendulum flange part ( 35 ) and one to the first pendulum flange part ( 35 ) at least partially axially spaced second pendulum flange part ( 40 ), the pendulum mass ( 50 ) axially between the pendulum flange parts ( 35 . 40 ) is arranged. Centrifugal pendulum ( 10 ) according to claim 1 or 2, wherein the recess ( 100 . 105 . 205 . 220 ) on an outer peripheral surface ( 90 ) of the pendulum mass ( 50 ) is arranged and at least partially open radially outward. Centrifugal pendulum ( 10 ) according to claim 2 or 3, - wherein the guide device ( 65 ) a coupling element ( 75 ), wherein the coupling element ( 75 ) the first pendulum flange part ( 35 ) with the second pendulum flange part ( 40 ), - wherein the coupling element ( 75 ) at least partially between the pendulum flange parts ( 35 . 40 ) circumferentially through the bearing element ( 80 ) is embraced. Centrifugal pendulum ( 10 ) according to claim 4, - wherein the coupling element ( 75 ) and the bearing element ( 80 ) radially on the outside of the pendulum mass ( 50 ) are arranged. Centrifugal pendulum ( 10 ) according to claim 5, - wherein the guide device ( 65 ) another recess ( 105 ) in the pendulum mass ( 50 ), wherein the further recess ( 105 ) in the circumferential direction spaced from the recess ( 100 ), each recess ( 100 . 105 ) each have a coupling element ( 75 ) assigned. Centrifugal pendulum ( 10 ) according to one of claims 1 to 6, - wherein the guide device ( 65 ) in the pendulum flange ( 30 ) a first recess ( 205 ) and in the pendulum mass ( 50 ) a second recess ( 220 ), wherein the guide device ( 65 ) at least one coupling element ( 225 ), - wherein the coupling element ( 225 ) through the first and the second recess ( 205 . 220 ), - wherein the bearing element ( 80 ) in at least one of the two recesses ( 205 . 220 ) is arranged, - wherein the coupling element ( 225 ) the bearing element ( 80 ) at least partially. Centrifugal pendulum ( 10 ) according to one of claims 1 to 7, wherein the bearing element ( 80 ) has at least one sliding bearing or a rolling bearing.

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