DE102012221165A1 - Torque transmission device i.e. two-mass flywheel, for use in e.g. all-wheel drive vehicle, has energy storage device arranged in closed radial chamber, and discharge opening arranged radially at one of components within sealing - Google Patents

Abstract

The device (1) has flywheel masses (2, 3) rotatable opposite to each other against the effect of an energy storage device (5). The storage device is arranged in a closed radial chamber (6) that is closed by a sealing (13), where the sealing is arranged between components (3b, 8b) that are rotatable relative to each other. A discharge opening (15) is arranged radially at one of the components within the sealing. The storage device comprises bow springs (5a) that are distributed over the circumference, and the chamber is partially filled with viscous medium.

Description

The invention relates to a torque transmission device, in particular a dual mass flywheel, against the effect of an energy storage device against each other rotatable flywheel masses, wherein the energy storage device is arranged in a substantially radially inwardly by means of a two relatively mutually twisting components effectively arranged seal sealed chamber.

Such torque transfer devices are known from the prior art. There is shown as a seal in some cases, a diaphragm spring or a diaphragm with a friction ring for radially inner seal to prevent, for example, in non-rotating torque transmitting device, the gravitational leakage of introduced into the chamber viscous medium. In order to additionally seal the chamber against penetrating dirt is known to seal installation-related openings in the flywheel masses, in particular in the primary flywheel of such torque transmission devices by means of pressed-sealing caps.

These torque transmission devices or dual-mass flywheels (DMFs) may have the disadvantage that water may possibly enter the seal of the chamber and thus the arc spring channel from bow springs or the chamber from radially inside, and thus adversely affect the effect of the energy storage device, for example the viscous medium filled in the chamber, such as grease and the like, is washed out when the vehicle is passing through a water passage or standing in the water. In this case, water and dirt can collect on the diaphragm spring diaphragm or the friction ring. Under centrifugal force can then create a pressure against the plate spring and thus a force against the diaphragm spring, so that the entry of water and / or dirt in the chamber is possible.

The invention has for its object to avoid entry of dirt and / or water into the chamber, also depending on the type of viscous medium or fat.

The object is achieved by a torque transmission device, in particular two-mass flywheel, with counter to the action of an energy storage device against each other rotatable flywheels, wherein the energy storage device is arranged in an at least substantially closed, radially inside by means of a relatively two mutually twisting components effectively arranged seal sealed chamber and radially is provided within the seal on a component at least one discharge opening. In this case, the at least one discharge opening can be arranged radially between an inner circumference of the component and a working circumference of the seal on this component. Due to the arrangement of the at least one discharge opening radially inside the seal, water can not collect in the gap space formed between the seal and the component and can be forced into the chamber under the action of centrifugal force by the seal. Rather, the collecting water is discharged under centrifugal force to the outside through the at least one discharge opening.

The arrangement of the discharge opening (s) is basically suitable for the protection of all chambers in torque transmission devices with such a sealing arrangement, but in particular for energy storage devices, which are formed from distributed over the circumference bow springs or other coil springs. Such chambers may be at least partially filled with viscous medium to reduce friction. Furthermore, in addition to or as an alternative to spring devices, so-called hydraulic damping devices may be provided in which viscous medium is used for hydrodynamic damping of gaps.

The torque transmission device is preferably designed such that a primary flywheel is formed from a disk part forming the chamber and a cover and engages the secondary flywheel by means of a flange from radially inward into the chamber. Here, the seal between the flange and the lid is arranged. It has proven to be advantageous if the seal rotatably connected to the flange and applied under bias to a contact surface of the lid. Here, between the cover and seal a ring member, such as a plastic disc may be arranged, for example, non-rotatably mounted on the lid or otherwise connected thereto and forms the contact surface of the lid.

The at least one discharge opening can be produced by means of a bore, punched out or recess. For example, a plurality of discharge openings arranged over the circumference may be provided, wherein in principle a single discharge opening is sufficient. The at least one discharge opening can be drilled, but it has proved to be advantageous if it is already provided by the tool during a shaping process of the lid. If the necessary rigidity of the inner circumference of the cover permits, at least one recess provided up to the area of the installation of the seal can be made from the inner circumference.

The at least one discharge opening causes an escape of water and / or dirt under centrifugal force, whereby the pressure or the force is at least reduced to the seal and thus an entry of water and / or dirt is avoided in the chamber. As a result, an ingress of water and / or dirt on the one hand and also the washing out of grease or viscous medium optionally present in the chamber are reduced and possibly completely avoided.

Such a configuration is particularly advantageous for use in vehicles in which at least occasionally can be expected with water passages, for example in four-wheel drive vehicles, off-road vehicles, SUV (sport utility vehicle) and similar vehicles. Furthermore, this solution is advantageous when in the chamber comparatively low viscosity medium or low viscosity ("liquid") fat is.

The invention will be explained in more detail with reference to the embodiment shown in the single figure. For this purpose, the figure shows a half-section of the torque transmission device rotatably arranged about the rotation axis d 1 in the form of the dual mass flywheel 1a with the primary flywheel 2 and the secondary flywheel 3 that about storage 4 , which is designed here as a rolling bearing, are rotatably mounted to each other. Instead of a rolling bearing and a plain bearing can be used. The two momentum masses 2 . 3 are against the resistance of the energy storage device 5 with distributed over the circumference bow springs 5a rotatable against each other. The bow springs 5a are in the chamber 6 the primary flywheel 2 arranged, this chamber 6 at least partially filled with a viscous medium or a fat. The chamber 6 is essentially through the primary disk 7 and the lid 8th formed, which are sealed together radially outward. This tight connection is in the present case on the weld 9 guaranteed.

Radially outward, the bow springs are based 5a on a wear protection 10 which in this case consists of a hardened metal band. Radially outward on the flywheel 2 is the starter ring gear 11 appropriate.

In the radially inner region of the lid acts 8th with the sealing device 12 together, which in this case formed from the plate-spring-like membrane, and between the chamber 6 radial sweeping, with the secondary flywheel 3 firmly connected flange 3a and the flywheel 3 rotatably received seal 13 with the contact surface 13a and the ring part preferably made of plastic 14 , which by means of the contact surface 14a is designed as a sealing and / or friction ring exists. The seal 13 is under bias against the lid 8th and exerts on the ring part 14 an axial force, so that the ring part 14 on the other hand to the lid 8th is pressed.

Radially inside the ring part 14 and radially outside the inner circumference 8a of the lid are the evenly distributed over the circumference discharge openings 15 provided that any water or dirt can penetrate under the influence of centrifugal force, so that they pass through the gap 18 between the lid 8th and the secondary flywheel 3 can be transported to the outside. The discharge openings 15 can be formed for example by drilling, punching or the like. Another seal of the chamber is through the into the primary pulley 7 pressed in sealing plug 16 reached. In a generalized view of the embodiment serve the flange 3a and the lid 8th as mutually rotatable components 3b . 8b between which the seal 13 is arranged, wherein the discharge openings 15 on the component 8b are arranged.

The secondary flywheel 3 has a friction surface 17 on, which cooperates with a clutch disc, not shown, of a friction clutch. Such a coupling is known from the prior art and can be carried out both conventionally as well as self-adjusting.

LIST OF REFERENCE NUMBERS

1

 Torque transfer device

1a

 Dual Mass Flywheel

2

 Inertia

3

 Inertia

3a

 flange

3b

 component

4

 storage

5

 Energy storage device

5a

 bow spring

6

 chamber

7

 primary disc

8th

 cover

8a

 inner circumference

8b

 component

9

 Weld

10

 wear protection

11

 Starter gear

12

 sealing

13

 poetry

13a

 contact surface

14

 ring part

14a

 contact surface

15

 discharge opening

16

 sealing plug

17

 friction surface

18

 gap

d

 axis of rotation

Claims (9)

Torque transmission device ( 1 ), in particular dual-mass flywheel ( 1a ), contrary to the effect of an energy storage device ( 5 ) against each other rotatable flywheels ( 2 . 3 ), wherein the energy storage device ( 5 ) in an at least substantially closed, radially inwardly by means of a relatively twisting between two components ( 3b . 8b ) effectively arranged seal ( 13 ) closed chamber ( 6 ), characterized in that radially inside the seal ( 13 ) on a component ( 8b ) at least one discharge opening ( 15 ) is provided. Torque transmission device ( 1 ) according to claim 1, characterized in that the at least one discharge opening ( 15 ) radially between an inner circumference ( 8a ) of the component ( 8b ) and a scope of action of the seal ( 13 ) on this component ( 8b ) is arranged. Torque transmission device ( 1 ) according to claim 1 or 2, characterized in that the energy storage device ( 5 ) at least from around the circumference distributed bow springs ( 5a ) is formed. Torque transmission device ( 1 ) according to one of claims 1 to 3, characterized in that the chamber ( 6 ) is at least partially filled with viscous medium. Torque transmission device ( 1 ) according to one of claims 1 to 4, characterized in that the primary flywheel ( 2 ) from one the chamber ( 6 ) forming primary disk ( 7 ) and a lid ( 8th ) and the secondary flywheel ( 3 ) by means of a flange part ( 3a ) from radially inside into the chamber ( 6 ) intervenes. Torque transmission device ( 1 ) according to claim 5, characterized in that the seal ( 13 ) between the flange part ( 3a ) and the lid ( 8th ) is arranged. Torque transmission device ( 1 ) according to claim 6, characterized in that the seal ( 13 ) rotatably with the flange ( 3a ) and under bias to a contact surface ( 14a ) of the lid ( 8th ) is created. Torque transmission device ( 1 ) according to claim 7, characterized in that between covers ( 8th ) and seal ( 13 ) a ring part ( 14 ) is arranged. Torque transmission device ( 1 ) according to one of claims 1 to 8, characterized in that the at least one discharge opening ( 15 ) is made by means of a bore, punched or recess.

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