DE3943854B4 - Device for damping torsional vibrations - Google Patents

Abstract

Means for damping torsional vibrations with a first, connectable to a motor and a second, connectable via a clutch with a gear flywheel, which is connected to each other via an interposed disc-like component, which communicates with one of the flywheels via circumferentially effective energy storage, and is rotatably connected to the other, can be coupled, both flywheels are rotatable about a bearing relative to each other, one of the flywheels has an axially directed projection (9) to which a ring-like friction body (12) is concentrically provided, wherein
a) axially between this and the bearing with the approach fixed flange (13) and
b) an axially effective spring device (16) are provided between the friction body and a flange which is likewise fixed to the projection,
and that the friction body (12) engages with radial arms in profiles of the disc-like component (10) with play in the circumferential direction, wherein the spring means of two oppositely placed, mutually braced, ring-disc-like spring bodies with different ...

Description

The The invention relates to means for damping torsional vibrations with a first, connectable with a motor and a second, via a Clutch with a gear connectable flywheel, which together with each other provided therebetween disc-like component, with one of the Flywheel over in the circumferential direction effective energy storage is in communication and with the other is rotatably connected, can be coupled, wherein one of the Flywheels has an axially directed approach to the concentric a friction device is provided with a ring-like friction body.

By the DE-OS 36 29 225 a device for damping torsional vibrations has been stimulated, with two counter to the torsional resistance of springs and friction rotatable flywheels. One of the friction devices is arranged around an axial projection of the flywheel which can be connected to the engine.

Of the present invention was based on the object axial space save as much as possible consistent or even optimized function. Furthermore, should the device is simple in construction and inexpensive to manufacture. Furthermore should in the friction device as uniform as possible surface load on the radial extent of the friction body take place, which in particular in the application of high contact pressures and for the Generating high friction in a small space is important.

According to one Embodiment of the invention, this is in a device of the aforementioned type achieved that about the axially directed Approach a concentrically arranged, ring-like friction body provided is, with axially between this friction body and the storage with a the approach fixed flange and continue between friction body and an also fixed with the approach further flange an axial effective spring means are provided and also the friction body with radial Jibs in profilings of the disc-like component with play engages in the circumferential direction, wherein the spring means of two oppositely set up, mutually strained, ring-disk-like spring bodies exists with different force.

Of the friction body and the disc-like member can be coordinated with each other so that the friction body provided with both at its outer periphery Arranged in the inner circumference of the disc-like component Profiles engages as well as axially in the disc-like component at least is partially relocated.

By such a configuration can be saved at least axial space be because of the friction body can be axially displaced in the disc-like component.

Advantageous it may be when the weaker spring body on the friction body can be present. It may be advantageous if the weaker of the spring body at least nearly half the strength of the stronger has. Furthermore, it may be advantageous if the spring body in opposite directions are set up. This ensures that the weaker spring body in its one radial area with the one applied by it Force against the friction body supported and with its other radial area with a force that the Difference to the stronger Spring force corresponds. This can be achieved that over the entire radial extent, over which is the weaker one spring body on the friction body applies, the contact pressure is equal, so that one one-sided plant is avoided and a running-in process until itself would compensate for such a one-sided investment is not required. Furthermore, this avoids that in a one-sided Installation of a trained as a plate spring spring body itself resulting unilateral abrasion can not occur.

From It can still be advantageous if at least the areas of the Boom of the friction body, the for activation in the disk body engage, a larger axial Have extension as the rest Areas of the friction body, causing independently from the axial strength the friction region of the friction body the contact surfaces for the washer body can be optimally designed.

The Spring device described here is not on the application so-called dual-mass flywheels limited, but can also with other aggregates, for example Clutch discs, torque converters o. The like. Be used.

Based on 1 to 3 let the invention be explained in more detail.

1 shows a two-mass flywheel on average,

2 a partial view in the direction of arrow II the 1 .

3 a spring device.

The dual mass flywheel 1 for damping torsional vibrations in the power transmission path between an engine and a transmission consists of a first flywheel 2 , which is connectable to the engine via the crankshaft and ei ner second flywheel 3 , which is connectable via a friction clutch, not shown, with the transmission. In the power transmission path between the flywheels 2 and 3 is a spring device 4 intended. feathers 5 are on the one hand on the flywheel 2 supported and on the other hand at an intermediate flange 6 radially inward via a torque limiting clutch 7 with the second flywheel 3 communicates. The two momentum masses 2 and 3 are about a storage 8th rotatably supported relative to each other, wherein the rolling bearing 8th on an axial approach 9 the first flywheel 2 is included. The torque limiting clutch 7 is formed by the flange clamped in the axial direction 6 , which is axially resiliently braced and on the one hand radially outwardly supported on a disc-like component 10 and radially inward on another disc-like component 11 , wherein both disc-like components 10 and 11 are rotatably with the second flywheel 3 ,

To the concentric approach 9 is a ring-like friction body 12 provided, which against a radial flange 13 , which is rotationally fixed with the approach 9 , is present. This friction body 12 has a ring body 12a and radial arms 14 , which in a profiling 15 in the disk body 10 engage in the circumferential direction with game "S".

On the flange 13 opposite side of the ring body 12a is an effective spring device in the axial direction 16 provided in connection with 3 is described in more detail. This spring device is supported on the one hand against the ring body 12 from and on the other hand against the flange-like first flywheel and consists of two disc springs 17 . 18 who are oppositely positioned and in the in 1 shown position are installed braced. Here is the spring 17 , in the 1 tired of the ring body 12a is present, weaker than the spring 18 that is, at least nearly half as strong. It can be seen that in the assembled state, the radially inner region of the twice as strong spring 18 against the radially inner region of the spring 17 pushes, causing the radially inner portion of the spring 17 with the differential force of both springs, while the radially outer region with the spring 17 inherent force against the ring body 13 is applied. About the radial extent therefore a more uniform system of the spring 17 on the ring body 13 ,

Conveniently, the spring 17 rotationally fixed at the neck 9 which can be done, for example, by the approach 9 Flattened at two opposite points and the inner recess of the spring 17 is adjusted accordingly.

Claims (4)

Means for damping torsional vibrations with a first, connectable to a motor and a second, connectable via a clutch with a gear flywheel, which is connected to each other via an interposed disc-like component, which communicates with one of the flywheels via circumferentially effective energy storage, and is rotatably connected to the other, can be coupled, both flywheels are rotatable about a bearing relative to each other, one of the flywheels an axially directed approach ( 9 ) concentrically around a ring-like friction body ( 12 ) is provided, wherein a) axially between this and the bearing with the approach fixed flange ( 13 ) and b) between the friction body and also with the approach fixed, further flange an axially effective spring means ( 16 ) are provided, and that the friction body ( 12 ) with radial arms in profiles of the disc-like component ( 10 ) engages with play in the circumferential direction, wherein the spring means consists of two opposite directions, mutually braced, annular disc-like spring bodies with different force. Device according to claim 1, characterized that the weaker spring body directly on the friction body is applied. Device according to claim 2, characterized that the weaker spring body at least approximately half the strength of the stronger having. Device according to claim 1, characterized that the Boom of the friction body in the axial direction a greater extent own as its annular Friction portion.