DE102016217217A1 - Torque transfer device - Google Patents

Abstract

Torque transmission device, in particular torque converter or torsional vibration damping device in a torque converter, comprising a damping device for reducing torsional vibrations in the drive train, comprising an absorber mass which is limitedly movable relative to a Tilgerflansch, characterized in that between the absorber mass or one of these associated component and a radially adjacent component, in particular the Tilgerflansch stop means are provided for damping a stop on the adjacent component.

Description

The invention relates to a torque transmission device having the features according to the preamble of claim 1.

Such torque-transmitting devices, which are designed, for example, as torque converters, may comprise an absorber device which has an absorber mass which is limitedly movable with respect to a damper flange. For example, it is off DE 10 2011 013 232 A1 Such, designed specifically as centrifugal pendulum absorber known.

The object of the invention is to improve the vibration isolation, in particular to reduce the noise, to reduce the space requirement and to increase the reliability of the torque transmission device.

According to the invention, this object is achieved by a torque transmission device having the features according to claim 1.

Accordingly, a torque transmitting device is proposed, in particular torque converter or torsional vibration damping device in a torque converter, comprising a damping device for reducing torsional vibrations in the drive train, comprising an absorber mass which is limitedly movable relative to a Tilgerflansch, wherein between the absorber mass or one of these associated component and a radially adjacent Component, in particular the Tilgerflansch stop means are provided for damping a stop on the adjacent component. As a result, in particular the vibration isolation can be improved, in particular the noise development can be reduced, the space requirement can be reduced and the reliability of the torque transmission device can be increased.

Preferably, the stop means are arranged on a radially inner portion of the absorber mass or a radially inner portion of the absorber mass associated component. In particular, further stop means may be provided between the absorber mass or a component associated therewith, in particular with this attached component and the tiger flange or with a further absorber mass which is spaced apart from the circumference.

A particularly preferred embodiment of the invention is characterized in that the absorber device is designed as a centrifugal pendulum, and the absorber mass is received on the Tilgerflansch via at least two bearing points.

A particularly special embodiment of the invention is characterized in that the stop means are arranged radially above the two bearing points.

Another, special embodiment of the invention is characterized in that the stop means comprise at least two spring elements, in particular coil springs.

An advantageous embodiment of the invention is characterized in that the radially adjacent component or in turn connected to this component as a component of a torsional vibration damping device, in particular as a standing in engagement with damper spring elements damper flange is formed.

A preferred special embodiment of the invention is characterized in that the absorber mass comprises at least two mutually connected Tilgermassenelemente over which the absorber mass is received on the Tilgerflansch limited movable.

Another special embodiment of the invention is characterized in that an additional mass is attached to the absorber mass elements, in particular axially between the absorber mass elements.

A preferred special embodiment of the invention is characterized in that the stop means are attached to the additional mass.

A particularly preferred embodiment of the invention is characterized in that the stop means are inserted into recesses in the additional mass.

A particularly specific embodiment of the invention is characterized in that the torque transmission device comprises a fluid-filled housing in which the absorber device is introduced.

In a preferred embodiment of the invention, first and second absorber masses spaced apart from each other on the circumference are provided, wherein a damper component of a torsional vibration damping device radially extends through the circumference between the first and second absorber masses.

Particularly preferably, the damper component is in operative engagement with damper spring elements.

A particularly special embodiment of the invention is characterized in that the damper component is attached to the Tilgerflansch at least one attachment point.

Another, special embodiment of the invention is characterized in that the attachment point is arranged circumferentially between the first and second absorber mass.

An advantageous embodiment of the invention is characterized in that the damper spring elements are arranged axially adjacent to the first and / or second absorber mass.

Further advantages and advantageous embodiments of the invention will become apparent from the description and the drawings.

The invention will be described in detail below with reference to the drawings. They show in detail:

1 : A three-dimensional view of a section of a torque transmission device in a specific embodiment of the invention.

2 : A half section of a cross section through the torque transmitting device 1 in a specific embodiment of the invention.

3 : A plan view of a section of the torque transmission device 1 ,

4 : A plan view of a section of the torque transmission device 1 in a special operating condition.

5 : A plan view of a detail of a torque transmission device in a further specific embodiment of the invention.

6 : A half section of a cross section through the torque transmitting device 5 in a specific embodiment of the invention.

7 : A three-dimensional view of a section of the torque transmission device 5 ,

1 shows a spatial view of a section of a torque transmitting device 10 in a specific embodiment of the invention. The 2 to 4 are related to 1 and the following explanations 1 also apply to these other figures application. The torque transmitting device 10 can be designed in particular as a torque converter or torsional vibration damping device in a torque converter. The torque transmitting device 10 comprises a Tilgereinrichtung designed as a centrifugal pendulum 14 to reduce torsional vibrations in the drive train.

The absorber device 14 has an absorber mass 16 on, opposite a mortar flange 18 is limited movable. This is the absorber mass 16 on the absorber flange 18 over at least two bearings 20 added. The bearings 20 include in particular each in the absorber mass 16 and in the absorber flange 18 intended career contours, in which a rolling element 22 can move along the raceway contours.

The absorber mass 16 has two interconnected absorber mass elements 17 on, about the absorber mass 16 on the absorber flange 18 limited moveable recorded. This is in each of the axially spaced Tilgermassenelemente 17 a track contour provided over which the respective absorber mass element 17 over the rolling element 22 on the absorber flange 18 is included.

Axial between the two absorber mass elements 17 is an additional mass 24 appropriate. This serves in particular to increase the total redemption mass. At the additional mass 24 in turn are lifting gear 26 provided between the additional mass 24 and one of the absorber mass 16 neighboring component, here especially the Tilgerflansch 18 Act. The lifting gear 26 serve to damp a stop on the Tilgerflansch 18 ,

The lifting gear 26 are radially above the two bearing points 20 arranged. The lifting gear 26 comprise two spring elements 28 , in particular coil springs, in particular in recesses in the additional mass 24 are inserted. The lifting gear 26 can be a tilting of the absorber mass 16 Avoid when the stopper acts.

In 4 is the absorber device 14 shown in an operating state in which the absorber mass 16 opposite the absorber flange 18 has taken a deflected position and at the stop means 26 the radially adjacent component, here the Tilgerflansch 18 apply and cause the stop function.

5 shows a plan view of a section of a torque transmission device 10 in a further specific embodiment of the invention. The 6 and 7 are related to 1 and the following explanations 1 also apply to these other figures application.

The absorber device 14 has a first absorber mass 16 and to this circumferentially spaced second absorber mass 27 on. On the circumference between the first absorber mass 16 and second absorber mass 27 engages a damper component 30 a torsional vibration damping device 12 radially through. The damper component 30 is in operative engagement with damper spring elements 32 , which in turn with another, second damper component 34 be in effect. The damper component 30 may be formed as an output member while the second damper member 34 as an input part of the torsional vibration damping device 12 is trained.

The damper spring elements 32 are axially adjacent to the first tiger mass 16 and second absorber mass 27 arranged. The damper component 30 is with the absorber flange 18 at least one attachment point 36 attached. The attachment point 36 is circumferentially between the first absorber mass 16 and second absorber mass 27 arranged. This reduces the axial space requirement.

LIST OF REFERENCE NUMBERS

10

 Torque transfer device

14

 Tilgereinrichtung

16

 absorber mass

18

 Tilgerflansch

20

 bearings

22

 rolling element

24

 additional mass

26

 slings

27

 absorber mass

28

 spring elements

30

 damper member

32

 Damper spring elements

34

 damper member

36

 fastening point

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102011013232 A1 [0002]

Claims (10)

Torque transmission device, in particular torque converter or torsional vibration damping device in a torque converter, comprising a damping device for reducing torsional vibrations in the drive train, comprising an absorber mass which is limitedly movable relative to a Tilgerflansch, characterized in that between the absorber mass or one of these associated component and a radially adjacent component, in particular the Tilgerflansch stop means are provided for damping a stop on the adjacent component. Torque transmission device according to claim 1, wherein the Tilgereinrichtung is designed as a centrifugal pendulum, and the absorber mass is received on the Tilgerflansch via at least two bearing points. Torque transmission device according to claim 2, wherein the stop means are arranged radially above the two bearing points. Torque transmission device according to one of the preceding claims, wherein the stop means comprise at least two spring elements, in particular coil springs. Torque transmission device according to one of the preceding claims, wherein the radially adjacent component or in turn connected to this component as a component of a torsional vibration damping device, in particular as a standing in engagement with damper spring elements damper flange is formed. Torque transmission device according to one of the preceding Anprüche, wherein the absorber mass comprises at least two mutually connected Tilgermassenelemente over which the absorber mass is received on the Tilgerflansch limited movable. Torque transmission device according to claim 6, wherein an additional mass is attached to the absorber mass elements, in particular axially between the absorber mass elements. Torque transmission device according to claim 7, wherein the stop means are attached to the additional mass. Torque transmission device according to claim 8, wherein the stop means are inserted in recesses in the additional mass. Torque transmission device according to one of the preceding claims, wherein the torque transmission device comprises a fluid-filled housing in which the absorber device is introduced.

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