DE102013217775A1 - Torsional vibration damper and friction ring for this - Google Patents

Abstract

The invention relates to a torsional vibration damper with an input part and an output part and with a friction ring with a friction surface, the friction ring being arranged in frictional contact with the friction surface opposite a friction surface of the input or output part and the friction ring with play with the output or input part or is non-rotatably connected without play, the friction ring having an arm which protrudes from the friction ring and bears against the output or input part under prestress in such a way that the friction surface of the friction ring is acted upon against the friction surface of the output or input part.

Description

The invention relates to a friction ring, in particular a friction ring for a torsional vibration damper and a torsional vibration damper with such a friction ring.

Torsional vibration dampers with friction rings are known in the art. For example, by the DE 10 2009 018 574 A1 a torsional vibration damper with an input part and an output part and with a friction ring has become known, wherein the friction ring is arranged with its friction surface against a friction surface of an input part in frictional contact, wherein the friction ring is rotatably connected to the output part with play or backlash. In the case of no play during operation, the input part of the torsional vibration damper is rotated relative to the output part of the torsional vibration damper and there is a targeted friction between the input part and the output part of the torsional vibration damper in the relative rotation, which supports the torsional vibration damping. The friction ring is thereby pressed axially by a disc spring against the friction surface of the output part. In this case, a spreading of the characteristic of the torsional vibration damper is effected by the targeted integration of the friction ring.

The friction ring supports the torsional vibration damping, which must be taken into account by the arrangement with the plate spring for pressing an effort for assembly.

Therefore, it is the object of the invention to provide a friction ring and a torsional vibration damper, which is simple in construction and yet has good damping properties, whereby a simplified assembly is made possible.

The object of the torsional vibration damper is achieved by a torsional vibration damper having the features of claim 1.

An embodiment of the invention provides a torsional vibration damper having an input part and an output part and having a friction ring with a friction surface, wherein the friction ring with the friction surface against a friction surface of the input or output part is arranged in frictional contact and wherein the friction ring with the output or input part with play or backlash rotatably connected, characterized in that the friction ring has an arm which protrudes from the friction ring and biased against the output or input part such that the friction surface of the friction ring is acted upon against the friction surface of the output or input part , As a result, the friction ring is not acted upon by another component, which must be mounted separately, but it is acted upon directly by the integrally formed arm.

The input part or the output part of the torsional vibration damper can be directly the respective input part or output part, but it can also be an element connected to the input part or output part.

It is expedient if the arm is a circumferential annular arm which forms a sealing lip. By the circumferential ring-shaped arm of the arm can also serve as a sealing lip to seal a space region of the torsional vibration damper can. This is particularly advantageous in torsional vibration dampers with grease or oil-lubricated force accumulators, when the chamber in which the energy accumulator or stores are accommodated, is sealed by means of a sealing lip of the friction ring. This gives the friction ring an additional functionality that goes beyond the friction and associated hysteresis and its own contact pressure.

It is also expedient if the arm bears sealingly against the starting or input part as a sealing lip. As a result, a space area is completed because the sealing lip may rest against one element of the torsional vibration damper, while the friction surface may abut another element of the friction surface. The elements can be the input part and the output part.

Because it is advantageous if the designed as a sealing lip arm is formed thickened end. As a result, a larger contact surface can be created for installation and sealing on an element to be sealed.

It is also advantageous if the thickened end is formed with an arcuate contour. This is particularly favorable at different angles due to changes in tolerances in the system to be sealed element, because a favorable contact surface is available for different angles.

It is also expedient if the friction ring has depressions introduced on its friction surface. This can save material.

The object of the friction ring is achieved by a friction ring with the features of claim 7.

One embodiment provides a friction ring, in particular for use in a torsional vibration damper, wherein the friction ring has a body and a friction surface, wherein protrudes from the body, an arm, which for applying an element serves to act on the friction surface against a complementary friction surface.

It is also expedient if the arm is designed with an end thickening. This serves for sealing.

It is also expedient if the body and the arm are made in one piece from plastic, preferably by injection molding. As a result, a simple production is achieved, wherein the one-piece element is also easier to install.

Furthermore, it is useful if the side facing away from the friction surface of the body is arranged at an acute angle to the plane of the friction surface. As a result, a simple assembly is achieved because the friction ring can be easily performed in the desired position.

The present invention will be explained in more detail below with reference to preferred exemplary embodiments in conjunction with the associated figures:

Showing:

1 a schematic partial view of a torsional vibration damper with a friction ring,

2 a detail of the torsional vibration damper with friction ring according to the 1 .

3 a detail of a torsional vibration damper with friction ring according to the prior art,

4 a view of a friction ring in section, and

5 a view of a friction ring from the front.

The 1 shows a torsional vibration damper 1 how it can be arranged for damping torsional vibrations in the drive train of a motor vehicle between a crankshaft of an internal combustion engine and a transmission input shaft. In this case, the torsional vibration damper may for example be part of a dual-mass flywheel or a damper of a clutch.

The 1 shows in a half section a torsional vibration damper 1 , The torsional vibration damper 1 has an entrance part 2 on, which consists of two bowls 3 . 4 is formed, which is spaced from each other a cavity 5 form. The entrance part 2 is applied to the input side with a torque.

The two bowls 3 . 4 are preferably formed as sheet metal shells, which are interconnected by means of a welded joint. Alternatively, the bowls 3 . 4 otherwise be positively connected. Between the two bowls 3 . 4 is in the cavity 5 a flange 7 arranged, which preferably the output part 8th of the torsional vibration damper 1 forms or is associated with this.

Radial inside is the flange 7 with a hub 9 by means of a riveted joint 10 rotatably connected. By means of the hub, a torque transmitting connection can be produced, for example, with a transmission input shaft.

In the cavity 5 are radially outside still power storage 11 provided on the one hand on both the shells 3 . 4 as well as on the flange 7 support so that the entrance part 2 relative to the starting part 8th rotatable in a predefined Verdrehwinkelbereich against the force of the energy storage 11 is arranged. The energy storage are in recesses of the flange 7 arranged, with the flanks of the flange 7 , which limit the recesses as stop surfaces for acting on the energy storage 11 serve. The bowls 3 . 4 that as an input part 2 serve, have to act on the energy storage 11 furthermore impressions 12 on, which have end faces, which an attachment of the energy storage 11 enable.

As a result, the energy store or a plurality of force accumulators on both the flange 7 as well as the impressions 12 supported in the circumferential direction, so that a torque transmission from the shells 3 . 4 about the energy storage 11 on the flange 7 is possible.

Between the entrance part 2 and the output part 8th is a first friction ring 13 , preferably radially within the energy storage 11 , provided, which a friction surface 14 which is located on a friction surface 15 of the starting part 8th supported. Here is the friction surface 14 with the friction surface 15 in frictional contact as soon as the friction ring 13 relative to the starting part 8th emotional. In an alternative design, the friction ring 13 also radially outside of the energy storage 11 be arranged.

The friction ring 13 is with the flange 3 as an entrance part 2 either rotationally fixed or connected to a predetermined game, so that upon rotation of the input part 2 relative to the starting part 8th the friction ring 13 with delay due to the game or without delay, immediately opposite to the starting part 8th is twisted.

The friction ring 13 has an arm 16 on which of the body 17 the friction ring 13 sloping obliquely radially outward and under Preload on the input part 2 or on the shell 3 of the entrance part 2 supports, so that the arm 16 under tension on the shell 3 of the entrance part 2 rests so that the friction surface 14 the friction ring 13 against the friction surface 15 of the starting part 8th is charged.

In the embodiment of 1 is the friction ring 13 with its friction surface 14 against the friction surface 15 of the starting part 8th axially biased. In an alternative embodiment, the friction ring 13 also with its friction surface 14 opposite a counter friction surface 15 of the entrance part 2 be tense, with the friction ring 13 then with game or without play with the starting section 8th connected is.

Furthermore, a second friction ring 18 provided, which is between the flange 8th and the shell 4 extends in the axial direction, wherein the second friction ring 18 preferably between the flange 8th and the shell 4 is acted upon or braced in the axial direction, so that between these two components 4 . 8th of the torsional vibration damper 1 a basic hysteresis during rotation of the flange 8th relative to the entrance 2 with the bowls 3 . 4 is present.

The 2 shows a section according to the 1 , being between the shells 3 . 4 and the flange 8th the two friction rings 13 . 18 are arranged. The friction ring 18 has a lead 19 on which one in a receptacle 20 the Bowl 4 positively engages. This is the friction ring 18 preferably rotatably with the shell 4 connected as part of the input part and is supported on a friction surface 21 of the flange 8th with its friction surface 22 from.

The friction ring 13 lies by means of its friction surface 14 on the friction surface 15 as Gegenreibfläche, wherein the friction surface 15 a friction surface of the flange 8th is. That of the friction surface 14 opposite end 23 the friction ring 13 is from the shell 3 spaced, wherein it can be seen that the end 23 relative to a plane parallel to the friction surface 14 is arranged at an acute angle. Also the radially inner end of the shell 3 is to a plane parallel to the plane of the friction surface 14 arranged at an acute angle, leaving the gap between the end 23 and the shell 3 approximately unchanged from radially inward to radially outward. Furthermore, the formation of the acute angle leads to an elevation, which ensures that during assembly or during operation of the torsional vibration damper, a suppression of the sealing lip can be avoided.

The arm 16 rests radially on the outside of the shell 3 and thus acts on the friction ring 13 in the axial direction on the flange 8th , The friction surface 14 lies with a bias on the friction surface 15 of the flange 8th at.

The 3 shows an embodiment of the prior art, which in addition to the friction ring 18 another friction ring 25 is arranged, wherein the friction ring with its friction surface 26 at a counter friction surface 27 of the flange 28 is arranged and by means of the plate spring 29 is acted upon in the axial direction, wherein the plate spring 29 radially outward on the sheet metal part of the shell 3 supports and radially inward on a projection 30 the friction ring 25 supported. Next to the friction ring 25 thus becomes also a plate spring 29 needed to move the friction ring in the axial direction against the flange 28 to act on.

The 4 shows a section through the friction ring according to the invention 40 with its friction surface 41 and the arm 42 ,

The arm 42 is starting from the body 43 arched and protrudes from the body 43 off, with the free end 44 of the arm 42 an arcuate thickened end portion 45 having. The arched end area 45 forms a sealing lip, which advantageously applies sealingly to the input part of the torsional vibration damper. The arched end area 45 can also serve as a friction surface.

Furthermore, it can be seen that the friction surface 41 with depressions 47 is trained, the body 43 at least partially hollow out.

The 5 shows the friction ring 40 with the friction surface 41 in a view, with the arm 42 is designed as an annular circumferential arm, wherein at the radially outer end of the sealing lip 46 is formed. It can also be seen that the body 43 elongated, advantageously following the arc depressions 47 which has by webs 48 are separated from each other.

LIST OF REFERENCE NUMBERS

1

 torsional vibration dampers

2

 introductory

3

 Bowl

4

 Bowl

5

 cavity

6

 welded joint

7

 flange

8th

 output portion

9

 hub

10

 rivet

11

 power storage

12

 impressing

13

 friction ring

14

 friction surface

15

 friction surface

16

 poor

17

 body

18

 friction ring

19

 head Start

20

 admission

21

 friction surface

22

 friction surface

23

 The End

25

 friction ring

26

 friction surface

27

 friction surface

28

 flange

29

 Belleville spring

30

 head Start

31

 friction ring

32

 Bowl

40

 friction ring

41

 friction surface

42

 poor

43

 body

44

 free end

45

 end

46

 sealing lip

47

 deepening

48

 web

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 102009018574 A1 [0002]

Claims (10)

Torsional vibration damper ( 1 ) with an input part ( 2 ) and an output part ( 8th ) and with a friction ring ( 13 ) with a friction surface ( 14 ), wherein the friction ring ( 13 ) with the friction surface ( 14 ) against a friction surface ( 15 ) of the input or output part ( 2 . 8th ) is arranged in frictional contact and wherein the friction ring ( 13 ) with the output or input part ( 8th . 2 ) is rotatably connected with play or backlash-free, characterized in that the friction ring ( 13 ) an arm ( 16 . 42 ), which of the friction ring ( 13 ) protrudes and under bias at the output or input part ( 8th . 2 ) is applied in such a way that the friction surface ( 14 ) of the friction ring ( 13 ) against the friction surface ( 15 ) of the output or input part ( 8th . 2 ) is applied. Torsional vibration damper according to claim 1, characterized in that the arm ( 16 . 42 ) is a circumferential annular arm having a sealing lip ( 46 ). Torsional vibration damper according to claim 1 or 2, characterized in that the arm ( 16 . 42 ) as a sealing lip ( 46 ) sealingly at the output or input part ( 8th . 2 ) is present. Torsional vibration damper according to claim 1, 2 or 3, characterized in that the sealing lip ( 46 ) trained arm ( 42 ) is formed thickened end. Torsional vibration damper according to claim 4, characterized in that the thickened end ( 44 ) is formed with an arcuate contour. Torsional vibration damper according to one of the preceding claims, characterized in that the friction ring ( 13 . 40 ) on its friction surface ( 14 . 41 ) introduced depressions ( 47 ) having. Friction ring ( 13 . 40 ), in particular for use in a torsional vibration damper according to one of the preceding claims, wherein the friction ring ( 13 . 40 ) a body ( 43 ) and a friction surface ( 41 ), wherein from the body ( 43 ) an arm ( 42 protruding, which serves to act on an element, for acting on the friction surface ( 41 ) against a complementary friction surface. Friction ring according to claim 7, characterized in that the arm ( 42 ) is formed with a terminal thickening. Friction ring according to claim 7 or 8, characterized in that the body ( 43 ) and the arm ( 42 ) are made in one piece from plastic, preferably by injection molding. Friction ring according to claim 7, 8 or 9, characterized in that the friction surface ( 41 ) opposite side of the body ( 43 ) is arranged at an acute angle to the plane of the friction surface.

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