DE4327079B4 - Bearing arrangement for a device comprising two rotating components - Google Patents

Abstract

Bearing arrangement for a device with a first component rotatably driven about an axis of rotation and a second component which is rotatable about the axis of rotation relative to the first component and at least a limited angle of rotation and is in rotary drive connection with the first component, comprising:
An inner bearing seat that is operationally connected to one of the two components,
an outer bearing seat coaxial with the inner bearing seat, operationally firmly connected to the other of the two components,
- A radially between the bearing seats, the two components radially and axially leading roller bearing with an inner bearing ring guided on the inner bearing ring, an outer bearing ring guided on the outer bearing seat and a plurality of rolling elements radially between the bearing rings and
An annularly closed sealing ring arrangement with a central ring region arranged radially between a first of the two bearing rings and a first of the two bearing seats leading the first bearing ring and with the central ring region arranged axially on both sides of the roller bearing ...

Description

The invention relates to a bearing arrangement for a device with a first component driven to rotate about an axis of rotation and one relative to the first component at least by a limited amount Angle of rotation rotatable about the axis of rotation, in rotary drive connection with the first component standing second component, comprising a operationally firm with one of the two components connected inner bearing seat, one to the inner bearing seat coaxial, operationally fixed with the other of the outer bearing seat connected to both components, a radially arranged between the bearing seats, the two components radial and axial. leading each other roller bearing with an inner bearing ring guided on the inner bearing seat, one at the outer bearing seat guided outer bearing ring and a large number of rolling elements radially between the bearing rings and an annular closed sealing ring arrangement with a radial between a first of the two bearing rings and one leading the first bearing ring first of the two bearing seats arranged, central ring area and with axially on both sides of the rolling bearing arranged ring legs protruding radially from the central ring area, each of which is both fixed to an end face of the first bearing ring and sliding on an end face of the second of the two bearing rings.

Such a bearing arrangement is from the DE 34 42 679 A1 as well as the US 4,727,970 known. In the former, the focus is on thermal insulation of the bearing and a combination of this thermal insulation with a damping device. Axial ring legs are provided to form a central ring region, which axially protrude from radial ring legs and which delimit an annular gap between their axially adjacent leg edges. This annular gap, which is also provided in the second citation, brings with it problems with the sealing of the rolling bearing. In the US 4,727,970 For this purpose, sealing rings are provided in the corners between the radial and the axial ring legs with respect to the outer ring of the rolling bearing.

It is an object of the invention Bearing arrangement for a device with two both together and relative to each other specify rotating components that are easier and more space-saving is designed than before and allows reliable sealing. In particular, it is an object of the invention to provide such a bearing arrangement to create who is for the storage of two over Torsionsdämpfermittel Flywheels of a dual-mass flywheel which are connected to one another in a torsionally elastic manner suitable.

This task is solved in that the central ring area of the sealing ring arrangement the two radial Ring leg sealingly connects to each other by both ring legs each have an axial ring leg, the axial ring leg to form the central ring area of the radial ring legs project axially from each other and axially between them adjacent thigh margins limit an annular gap, and that the annular gap by an elastic, on the thighs tightly fitting sealing ring is bridged. Such a seal is particularly space-saving and easy to assemble.

It is also proposed that the annular gap approximated is arranged axially in the middle of the central ring region. In order to there are, for example, identical ring parts. In a particularly simple way Way, the sealing ring has both the first bearing seat and the first bearing ring radial distance. This makes the sealing ring special easy to assemble.

It can be particularly beneficial that from the radially inner edges of the end faces annular bucket projections protrude towards each other, the radially outer peripheral surfaces of which to the opposite Radially taper the blade projection and the sealing ring radially reach under inside. Such a sealing ring essentially seals only between the axially opposite end faces. The assembly is comparatively simple because the sealing ring is loose or if necessary, prestressed and depending on the installation situation on the inside Bearing seat or the outer bearing ring put on and of the blade projections during assembly between the faces is lifted. The sealing ring that is preferred to the radially adjacent one Peripheral areas of Bearing seat and bearing ring a radial distance in the assembled state has no direct thermal contact with these components, which benefits its lifespan.

It is suggested that the blade projections at least approximated taper to ring edges. This allows the sealing ring to be securely between the end faces of the both ring parts can be lifted.

The annular gap is radially inside of the sealing ring in the axial direction narrower than radially outside of the sealing ring. In this way, sufficient remains in the annular gap Recording volume for the when assembling the sealing ring arrangement, elastically evasive material volumes of the sealing ring.

In order to be able to hold the sealing ring in a radially defined manner even under the action of centrifugal forces, there are rings which are immediately radially adjacent to the blade projections in the end faces of the ring parts grooves sunk axially into which the sealing ring engages axially. The annular grooves and the radially outer peripheral surfaces of the adjoining blade projections, viewed in cross section, preferably have a circular sector shape.

It is also advantageous that the ring grooves the sealing ring between the first bearing seat and the guide the first bearing ring radially so that the radial projection of the annular gap on the radially outer side of the sealing ring larger than is on the radially inner side.

In a particularly advantageous manner can the Bearing arrangement with the sealing ring between the first and second component install a dual mass flywheel, the first component first flywheel and the second component represent the second flywheel and both over a torsional vibration damper are connected to each other in a torsionally elastic manner.

An advantageous solution provides that the rolling bearing as a ball bearing with a broken outer bearing ring is trained. This makes the entire storage very space-saving be executed there is an exploded outer bearing ring a full spherical ball bearing enables leaving out a cage for the Rolling elements. The Rolling bearings can in this way be formed in the axial direction so that it hardly needs to be wider than the rolling elements themselves neither axially from the gap between the two bearing rings nor radially penetrate out of the joint of the blasted outer ring.

The invention is then based on of an embodiment shown in more detail. They show in detail:

1 An axial longitudinal section through half of a dual mass flywheel;

2 a detailed view of the bearing with sealing and insulating ring arrangement;

3 u. 4 Excerpts from 2 in two assembly steps.

1 essentially shows schematically a dual mass flywheel with a first flywheel forming a primary flywheel mass 1 that is centric to an axis of rotation 3 one at 5 indicated crankshaft of the internal combustion engine of a motor vehicle is attachable. On one together with the flywheel 1 on the crankshaft 5 fortified bearing approach 7 is by means of a roller bearing 9 a secondary flywheel mass in the form of a second flywheel 11 relative to the first flywheel 1 pivoted on the same axis. The second flywheel 11 contributes one 13 indicated friction clutch and is via a torsional vibration damper 15 torsionally flexible with the first flywheel 1 coupled. The torsional vibration damper 15 transmits the drive torque of the internal combustion engine from the first flywheel 1 on the second flywheel 11 and filters torsional vibrations. If necessary, it can be sealed to the outside and can be filled with lubricant.

At the rolling bearing 9 it is a cage-free ball bearing located between its inner bearing ring 17 and its outer bearing ring 19 essentially completely with balls 21 is filled. Around the balls 21 To be able to use the outer ring is blown up, that is provided with a joint. The inner bearing ring 17 of the ball bearing 9 is on a cylindrical seat 22 of the bearing approach 7 put on and by a clamping ring 23 and a lid 25 of the bearing approach 7 axially secured. The second flywheel 1 1 is with the interposition of two ring parts or ring elements 27 . 29 a sealing and insulating ring arrangement 31 with an equally cylindrical seat 33 on the outer ring 19 placed. One shoulder 35 as well as a lid ring 37 fix that via the sealing and insulating ring arrangement 31 on the outer ring 19 radial flywheel 1 1 in the axial direction.

2 shows a section of the area of the ball bearing and the sealing and insulating ring arrangement with the same reference numerals as in 1 , but supplemented by the letter f. This also applies to the 3 and 4 to. The arrangement shows the ball bearing 9f and details of the sealing and insulating ring assembly 31f , Each of the two ring elements 27f . 29f has an L-shaped cross-section with a radial ring leg 39f respectively. 41f and an axial ring leg 43f respectively. 45f, which form the central ring area. The radial ring legs 39f . 41f protrude radially inwards and each end in a bead 47f respectively. 49f , which is under axial prestress on one of the axial side surfaces of the inner bearing ring 17f rests. Both ring elements 27f . 29f are installed through the shoulder 35f or the ring cover 37f axially with the side surfaces of the outer bearing ring 19f braced so that the radial ring legs 39f . 41f because of the beads 47f . 49f sealing on the side surfaces of the inner bearing ring with slight axial preload 17f rest. The two axial ring legs 43f . 45f are facing each other from the radial ring legs 49f . 41f ab, but do not touch with their thigh edges, so that an albeit small annular gap 51f remains. An elastic sealing ring is located between these thigh edges 59f clamped.

The annular gap 51f forming axial end faces of the axial legs 43f . 45f contain how best the 3 and 4 show, in cross-section circular ring-shaped grooves 69 . 71 , to which, during operation of the radially inner edge of the end faces, ring-shaped blade projections 73 . 75 connect immediately. The blade protrusions 73 . 75 end in the outer circumference of the outer ring 19f closely adjacent in ring cutting edges, towards which the ring-sector-shaped ring sector area in cross-section extends surface of the ring grooves 69 . 71 rejuvenated.

3 shows the pre-assembly state of the sealing and insulating ring arrangement 31f , in which the sealing ring 59f on the outer ring 19f is put on. When mounting the bearing 9f , corresponding 2 , the radial ring legs 39f . 41f against the end faces of the outer ring 19f cocked, with the blade projections 73 . 75 the sealing ring 59f reach under radially on the inside and from the outer circumference of the outer ring 19f take off. The 4 shows, the blade projections are approaching 73 . 75 in the fully assembled state largely to each other, but without touching axially. On the radially outside of the sealing ring 59f side located on the ring grooves 69 . 71 adjoining areas 77 . 79 the the annular gap 51f end faces forming a comparatively large axial distance from each other and here limit a receiving space for the axial tensioning of the sealing ring 59f elastically displaced ring material. The ring grooves 69 . 71 have a greater radial distance from the bearing seat 33f than radially inward towards the outer ring 19f , In any case, however, the sealing ring 59f held at a distance from the peripheral surfaces of these parts, so that it only with the end faces of the axial ring legs 43f . 45f is sealingly in contact. This improves the sealing effect and reduces the thermal load on the sealing ring 59f ,

The construction described enables a axially particularly narrow bearing, which is nevertheless radial and axial is sealed and possibly also thermal insulation of the camp. The design of the sealing and insulating ring arrangement also allows to axially brace the radial ring limbs so that at least to some extent the basic friction of the torsional vibration damper Dual mass flywheel can be tailored. It is the second flywheel carrying the clutch on the outer ring of the ball bearing. It is understood that the installation situation if necessary, can also be done inversely in which the second flywheel is guided on the inner bearing ring of the ball bearing. The axial ring legs the sealing and insulating ring arrangement overlap the inner surface of the inner bearing ring. Instead of a ball bearing, too other cage-free and completely with Rolling bearings filled with rolling elements, For example, roller bearings or needle bearings can be used.

The bearing arrangement can also devices other than a dual mass flywheel become. It is advantageous for devices in which both Components both together and relative to each other about a common axis of rotation rotate so that in the rolling bearing containing lubricating fluid or the like exposed to increased centrifugal forces is. For example, bearing arrangements of this type in fluid friction clutches, for example for the drive of a radiator fan or used with rotating power take-offs be how they drive for example in motor vehicles Auxiliary units, such as. B. a generator, an air conditioner, an oil pump or the like can be used.

Claims (11)

Bearing arrangement for a device with a first component rotatably driven about an axis of rotation and a second component which is rotatable about the axis of rotation relative to the first component and at least a limited angle of rotation and which is in rotary drive connection with the first component, comprising: - an operationally fixed component with one of the two Components connected inner bearing seat, - an outer bearing seat coaxial to the inner bearing seat, operationally firmly connected to the other of the two components, - a radially arranged between the bearing seats, the two components leading radially and axially to each other with an inner bearing ring guided on the inner bearing seat, an outer bearing ring guided on the outer bearing seat and a plurality of rolling elements radially between the bearing rings and - an annularly closed sealing ring arrangement with a radially between a first of the two bearing rings and a first leading the first bearing ring of the two bearing seats arranged, central ring area and with ring legs arranged axially on both sides of the rolling bearing, radially projecting from the central ring area, each of which rests fixedly on an end face of the first bearing ring and slidably on an end face of a second of the two bearing rings, characterized in that that the central ring area ( 43f . 45f ) the sealing ring arrangement ( 31f ) the two radial ring legs ( 39f . 41f ) sealingly connects to each other by both ring legs ( 39f . 41f ) one axial ring leg each ( 43f . 45f ), the axial ring legs ( 43f . 45f ) to form the central ring area of the radial ring legs ( 39f . 41f ) protrude axially from one another and an annular gap between their axially adjacent leg edges ( 51f ) limit and that the annular gap ( 51f ) thanks to an elastic sealing ring that lies tightly on the thigh edges ( 59f ) is bridged. Bearing arrangement according to claim 1, characterized in that the annular gap ( 51f ) is arranged approximately axially in the middle of the central ring area. Bearing arrangement according to claim 2, characterized in that the sealing ring ( 59f ) both to the first camp seat ( 33f ) as well as the first bearing ring ( 19f ) has a radial distance. Bearing arrangement according to claim 3, characterized in that from the radially inner edges of the end faces annular blade projections ( 73 . 75 ) protrude towards each other, the radially outer peripheral surfaces of which face the opposite blade projection ( 73 . 75 ) taper radially and the sealing ring ( 59f ) Reach in radially on the inside. Bearing arrangement according to claim 4, characterized in that the blade projections ( 73 . 75 ) taper at least approximately to cut ring. Bearing arrangement according to claim 5, characterized in that the annular gap ( 51f ) radially inside the sealing ring ( 59f ) is narrower in the axial direction than radially outside the sealing ring. Bearing arrangement according to claim 6, characterized in that in the end faces of the blade projections ( 73 . 75 ) immediately radially adjacent ring grooves ( 69 . 71 ) are axially recessed into which the sealing ring ( 59f ) engages axially. Bearing arrangement according to claim 7, characterized in that the annular grooves ( 69 . 71 ) and the radially outer peripheral surfaces of the adjoining blade projections ( 73 . 75 ) have a circular sector shape in cross section. Bearing arrangement according to claim 7 or 8, characterized in that the annular grooves ( 69 . 71 ) the sealing ring ( 59f ) between the first bearing seat ( 33f ) and the first bearing ring ( 19f ) radially so that the radial projection of the annular gap ( 51f ) on the radially outer side of the sealing ring ( 59f ) is larger than on the radially inner side. Bearing arrangement according to claims 1 to 9, characterized in that the first and second components are parts of a dual-mass flywheel, the first component being the first flywheel ( 1 ) and the second component the second flywheel ( 11 ) and both via a torsional vibration damper ( 15 ) are connected to each other in a torsionally elastic manner. Bearing arrangement according to claims 1 to 9, characterized in that the roller bearing as a ball bearing ( 9f ) with broken outer bearing ring ( 19f ) is trained.