EP2486291A1

EP2486291A1 - Rolling bearing, in particular radial needle bearing having a labyrinth seal

Info

Publication number: EP2486291A1
Application number: EP10752775A
Authority: EP
Inventors: Norbert Metten; Tino Beck; Dieter Jauernig
Original assignee: Schaeffler Technologies AG and Co KG
Current assignee: Schaeffler Technologies AG and Co KG
Priority date: 2009-10-05
Filing date: 2010-09-06
Publication date: 2012-08-15
Also published as: CN102549279B; DE102009048290A1; US20120195536A1; US8641288B2; WO2011042271A1; CN102549279A

Abstract

The invention relates to a rolling bearing designed as a radial needle bearing (1), which consists of a thin-walled outer needle sleeve (2) having radial rims (3, 4) that are axially inwardly directed on both sides, a plurality of needle bearings (6) rolling on the inner lateral area (5) of the needle sleeve (2) and on the outer lateral area of the shaft to be supported, and a needle cage (7) guiding the bearing needles (6) in the circumferential direction in an evenly spaced manner. To this end, at least on one side, in addition to the needle cage (7), an additional stop disc (8) is inserted into the needle sleeve (2), which disc is provided to delimit the axial movability of the needle cage (7) together with a radial rim (3) or a further stop disc inserted into the needle sleeve (2). Between the one stop disc (8) and the other radial rim (4), a sealing element (9) is arranged, which is provided to seal the radial needle bearing (1). According to the invention, the sealing element (9) is designed as a labyrinth seal, which can be assembled from two individual mutually engaging sealing rings (10, 11) designed as having complimentary profile cross-sections.

Description

Name of the invention

WAFER BEARINGS, IN PARTICULAR RADIAL NEEDLE BEARINGS

WITH A LABYRINTH SEAL Description

Field of the invention

The invention relates to a rolling bearing according to the preamble forming features of claim 1, and they are particularly advantageous to radial needle bearings for supporting bearing of the secondary mass on the primary mass of a dual mass flywheel in a motor vehicle applicable.

Background of the invention

As is known, dual-mass flywheels are arranged between the internal combustion engine and the transmission of a motor vehicle and are provided for increasing the driving comfort. Such a dual-mass flywheel essentially consists of a disc-shaped primary mass connected directly to the crankshaft of the internal combustion engine and of a disc-shaped secondary mass arranged coaxially with this primary mass, which is connected via a coupling to the input shaft of the transmission. Both masses are coupled together by a plurality of damping means arranged between them and, contrary to the effect of these damping means, can be rotated relative to one another via a friction-reducing support arranged on a bearing flange on the primary mass. During operation of the motor vehicle, the primary mass is actively driven via the rotating crankshaft of the internal combustion engine, while the secondary mass driving the transmission input shaft is entrained via the damping elements, via which the irregularities resulting from imbalances of the moving masses in the drive train and the rotational irregularities resulting from the piston movements of the internal combustion engine are damped. For storage between the secondary mass and the primary mass of the dual mass flywheel have in addition to sliding, cylindrical roller and ball bearings and radial needle roller bearings proved to be particularly suitable, as for example from JP 07-279 952 A or DE 1 944 576 U are known. Such radial needle roller bearings consist essentially of a thin-walled outer needle sleeve with axially on both sides inwardly directed Radialborden, a plurality on the inner circumferential surface of the needle sleeve and on the outer surface of the shaft to be stored rolling bearing needles and a bearing needles in the circumferential direction uniformly spaced needle cage , wherein at least one side next to the needle cage an additional thrust washer is inserted into the needle sleeve, which is provided together with a radial board or another thrust washer inserted into the needle sleeve to limit the axial movement of the needle cage. For sealing the needle bearing, a sealing element is additionally arranged between the at least one thrust washer and the other radial flange, which is designed as a metal-reinforced or simple lip seal made of an elastomer and the sealing lip abradingly abuts the lateral surface of the shaft to be supported.

A disadvantage of such radial needle bearings, however, has their seal on the sliding contact between the lip of their lip seal and the shaft proved, as this sliding contact usually causes high friction, as a result, it to increased wear of the lip seal and thus leads to a reduction in the service life of the needle bearing.

One way to avoid such adverse sliding contact between the seal and the shaft for sealing a radial needle bearing is also known from DE 1 869 210 U. The disclosed in this document radial needle roller bearing differs essentially to the needle bearing described above in that it is formed on both sides next to the needle cage with angled in profile Anlaufscheiben and that Roll the bearing needles instead of on the lateral surface of a shaft on the lateral surface of an additional inner ring. Both thrust washers are at the same time part of two the needle bearings on both sides sealing labyrinth seals, which are further formed by the radial rims of the needle sleeve and two additional, each secured between the thrust washers and the Radialborden on the inner ring of the needle bearing metal sealing rings. The thrust washers and the radial rims of the needle bearing have in each case inside the inner side a gap to the inner ring and at their inner annular surfaces a gap to the metal sealing rings, which in turn each outer diameter side have a gap to the thrust washers, so that the needle bearing on both sides by non-contact labyrinth seals with a multiple angled Sealing gap is sealed.

The disadvantage of such trained labyrinth seals, however, is that they can not be integrated as a structural unit in the bearing with needle bearings without inner ring, as used in support bearings in dual-mass flywheels, but only on assembly of the bearing on the shaft can be completed and thus relatively cause high assembly costs. Object of the invention

Based on the stated disadvantages of the solutions of the known prior art, the invention is therefore based on the object to design a rolling bearing, in particular radial needle roller bearing, which at least one side with a cost-effective and easy to install and a sliding contact to be stored Shaft avoiding seal is formed.

Description of the invention

According to the invention this object is achieved in a roller bearing according to the preamble of claim 1 such that the at least one sealing element is designed as a labyrinth seal, which consists of two individual interlocking the and formed with complementary profile cross-sections sealing rings is metsetzbar together.

Preferred embodiments and further developments of the rolling bearing formed according to the invention are described in the subclaims.

Thereafter, it is provided according to claim 2 in the inventively embodied rolling bearing that both sealing rings of the sealing element consist of a heat-resistant plastic and substantially each having a C-shaped profile cross section and a sealing ring is formed with a smaller outer diameter than the other sealing ring. When using the roller bearing as a support bearing in a dual mass flywheel while using a heat-resistant plastic for the sealing rings because of the immediate proximity of the needle sleeve to the clutch and emanating from this heat radiation is required to prevent premature wear of the sealing rings. The formation of the sealing rings with different outer diameters is also necessary to allow their meshing to form a labyrinth seal. According to claim 3, it is a further feature of the inventively embodied rolling bearing, that the larger diameter sealing ring is fixed to the outer circumferential surface of its outer profile leg by a press connection to the inner circumferential surface of the needle sleeve and rests with its profile web on Radialbord the needle sleeve. Due to the press connection on the inner lateral surface of the needle sleeve of the larger diameter sealing ring is thus formed as a fixed part of the labyrinth seal, while its investment ensures the Radialbord the needle sleeve that the entire labyrinth seal is arranged axially immovable in the needle hub. According to claim 4, the inventively designed roller bearing is also characterized by the fact that the smaller diameter sealing ring on the inner surface of its inner profile leg with two circumferential annular beads to fix it on the lateral surface of the shaft to be stored is formed and is arranged with its profile web parallel to the thrust washer. The fixation of the smaller-diameter sealing ring on the lateral surface of the shaft to be supported thus causes it to be designed as a co-rotating part of the labyrinth seal, while the parallel and not directly adjacent arrangement of its profile web to the thrust washer is intended to wipe an additional sealing gap between this and the To form thrust washer and at the same time to create a compensation possibility of minor axial movement of the shaft to be stored. The interlocking arrangement of the sealing rings of the labyrinth seal is then realized according to claim 5 such that, starting from the complementary C-shaped profile cross sections, the outer profile leg of the smaller diameter sealing ring between the profile legs of the larger diameter sealing ring and the inner profile leg of the larger diameter sealing ring between the profile legs of the smaller diameter sealing ring is arranged. As a result, a multi-angled sealing gap is produced between the individual profile legs of both sealing rings, with which a high sealing effect can be achieved. An expedient development of the inventively embodied rolling bearing, it is further claim that the smaller diameter sealing ring on each of the larger diameter sealing ring facing annular surfaces of its profile legs several uniformly circumferentially distributed spacer knobs to form a uniform sealing gap between the sealing rings. These spacer knobs are designed as lens-shaped point elevations on the smaller-diameter sealing ring and ensure that when acting on the rolling bearing axial forces, the sealing rings do not move so far into one another that the sealing gap is closed but also always the height of the spacer studs corresponding sealing gap remains. It has proven to be particularly advantageous to arrange a circumferential row of the spacer knobs on the outer annular surface of the outer profile leg of the smaller diameter sealing ring, with the inner annular surface of the outer profile leg of the larger diameter Sealing ring is in operative connection, and to arrange a further row of the spacer knobs on the annular end face of the inner profile leg of the smaller-diameter sealing ring, which is in operative connection with the inner annular end face of a radially inwardly directed extension of the profile web of the diameter-sized sealing ring. Alternatively, it is of course also possible to arrange the spacer knobs instead of the smaller-diameter sealing ring on individual the smaller-diameter sealing ring facing annular surfaces of the profile leg of the larger diameter sealing ring.

Finally, it is proposed as an advantageous embodiment of the invention designed according rolling bearing by claim 7 that the smaller diameter sealing ring is additionally formed on the outer annular surface of its profile web with further uniformly circumferentially spaced studs to form a further sealing gap between this and the thrust washer. These also formed as lens-shaped point elevations on the profile web of the smaller diameter sealing ring spacer studs are provided that when acting on the bearing axial forces of smaller diameter sealing ring does not move so far against the thrust washer that the additional sealing gap between this and the sealing ring is closed, so that here in any case, the height of the spacer studs corresponding sealing gap remains.

The rolling bearing according to the invention thus has the advantage over the rolling bearings known from the prior art that it is formed with a labyrinth seal which can be produced cost-effectively and which, on the one hand, avoids sliding contact with the shaft to be supported and, on the other hand, as a completely assembled structural unit integrated into the rolling bearing and can be easily handled in the bearing assembly. In addition, such a labyrinth seal additionally offers the possibility of being able to be used within a U-profile-shaped sheet-metal ring as a preassembled single-sight system in other suitable applications. Brief description of the drawings

A preferred embodiment of the inventively embodied rolling bearing will be explained in more detail with reference to the accompanying drawings. Showing:

Figure 1 is an enlarged view of a cross section through an inventively designed roller bearing;

FIG. 2 shows an enlarged view of the detail X of the rolling bearing according to the invention according to FIG. 1.

Detailed description of the drawings

FIG. 1 clearly shows a radial needle roller bearing 1 suitable for supporting the secondary mass on the primary mass of a dual mass flywheel in a motor vehicle, which essentially consists of a thin-walled outer needle sleeve 2 with radial rims 3, 4 axially directed on both sides in a multiplicity the inner circumferential surface 5 of the needle sleeve 2 and on the outer circumferential surface of a shaft, not shown, rolling off bearing needles 6 and a needle bearing 6 which guides the bearing needles 6 in the circumferential direction at equal intervals. It is also apparent from Figure 1 that on one side next to the needle cage 7, an additional thrust washer 8 is inserted into the needle sleeve 2, which is provided together with the one Radialbord 3 of the needle sleeve 2 to limit the axial movement of the needle cage 7 and that between the thrust washer 8 and the other radial board 4, a sealing element 9 is arranged, which is provided for one-sided sealing of the radial needle bearing 1.

Furthermore, it can be seen in Figure 1, that the sealing element 9 is formed as a labyrinth seal, the present invention from two individual interlocking sealing rings 10, 1 1 is assembled with complementary profile cross-sections. By the enlarged view in Figure 2 is also clear that the existing of a heat-resistant plastic Sealing rings 10, 1 1 of this sealing element 9 essentially each have a C-shaped profile cross-section and a sealing ring 10 is formed with a smaller outer diameter than the other sealing ring 1 1. The larger diameter sealing ring 1 1 is in such a way in the needle sleeve 2 arranged that this can be attached to the outer circumferential surface 12 of its outer profile leg 13 by a press connection to the inner circumferential surface 5 of the needle sleeve 2 and with its profile web 14 on Radialbord 4 of the needle sleeve 2 is present. The smaller diameter sealing ring 10, however, is arranged with its profile web 20 parallel to the thrust washer 8 and has on the inner circumferential surface 16 of its inner profile leg 17, two circumferential annular beads 18, 19, with which it can be fixed on the lateral surface of the shaft, not shown.

The interlocking arrangement of the sealing rings 10, 1 1 of the sealing element 9 is then, as also apparent from Figure 2, realized such that, starting from the C-shaped profile cross sections, the outer profile leg 21 of the smaller diameter sealing ring 10 between the profile legs 13, 15 of the larger diameter sealing ring 1 1 and the inner profile leg 15 of the larger diameter sealing ring 1 1 between the profile legs 1 7, 21 of the smaller diameter sealing ring 10 is arranged.

In order to ensure a minimum height at all times between the sealing rings 10, 11 for the sealing gap 26 produced in this arrangement, the smaller-diameter sealing ring 10 also has a plurality of spacer knobs 24 on individual annular surfaces 22, 23 of its profile legs 17, 21 facing the larger diameter sealing ring 11 25, which are clearly visible as a uniform circumferentially distributed lens-shaped point elevations formed. A first circumferential row of the spacer knobs 24 is arranged on the outer annular surface 22 of the outer profile leg 21 of the smaller diameter sealing ring 10 and communicates with the unspecified inner annular surface of the outer profile leg 13 of the larger diameter sealing ring 1 1 in operative connection, while a second row of the spacer knobs 25 at the annular surface 23 of the inner profile leg 17 of the diameter neren sealing ring 10 is arranged and with the also not designated inner annular end face of a radially inwardly directed extension of the profile web 14 of the larger diameter sealing ring 1 1 is in operative connection. In addition, a third row of uniformly circumferentially distributed spacer knobs 28 is arranged on the outer annular surface 27 of the profile web 20 of the smaller-diameter sealing ring 10, with which a further sealing gap 29 is formed between the latter and the thrust washer 8. As a result, between the individual profile limbs 17, 21 and 13, 15 of both sealing rings 10, 11 and between the sealing ring 10 and the thrust washer 8, a multiple angled sealing gap 26, 29 is produced, with which a high sealing effect can be achieved.

LIST OF REFERENCE NUMBERS

Radial needle bearing

needle sleeve

Radial board at 2

inner lateral surface of 2

bearing needles

needle cage

thrust washer

sealing element

smaller diameter sealing ring

larger diameter sealing ring

Outer surface of 13

outer profile leg of 1 1

Profile footbridge of 1 1

inner profile leg of 1 1

Inner lateral surface of 17

inner profile leg of 10

Ring bulge at 16

Profile footbridge of 10

outer profile leg of 10

Ring surface at 21

Ring surface at 17

Spacer knobs on 22

Spacer knobs on 23

Sealing gap between 10 and 1 1

Ring surface at 20

Spacer knobs on 27

Sealing gap between 10 and 8

Claims

claims

Rolling bearings, in particular radial needle roller bearings (1), essentially consisting of a thin-walled outer needle sleeve (2) with axially inwardly directed radial rims (3, 4), a plurality on the inner circumferential surface (5) of the needle sleeve (2) and on the outer circumferential surface of the shaft to be stored rolling off the needle needles (6) and a needle bearing (7) circumferentially at equal intervals leading needle cage (7), wherein at least on one side next to the needle cage (7) an additional thrust washer (8) into the needle sleeve (2 ) is used, which is provided together with a radial board (3) or another inserted into the needle sleeve (2) thrust washer for limiting the axial movement of the needle cage (7) and at least between the one thrust washer (8) and the other radial board (4) a sealing element (9) for sealing the radial needle bearing (1) is arranged, characterized in that the at least one sealing element (9) as Labyr Inthdichtung is formed, which is composed of two individual interlocking and formed with complementary profile cross-sections sealing rings (10, 1 1).

Rolling bearing according to claim 1, characterized in that both sealing rings (10, 1 1) of the sealing element (9) consist of a heat-resistant plastic and substantially each having a C-shaped profile cross section and a sealing ring (10) having a smaller outer diameter than that other sealing ring (1 1) is formed.

Rolling bearing according to claim 2, characterized in that the larger diameter sealing ring (1 1) with the outer circumferential surface (12) of its outer profile leg (13) by a press connection to the inner circumferential surface (5) of the needle sleeve (2) is fixed and with its profile web ( 14) on the radial board (4) of the needle sleeve (2). Rolling bearing according to claim 3, characterized in that the smaller diameter sealing ring (10) on the inner circumferential surface (16) of its inner profile limb (17) with two circumferential annular beads (18, 19) is designed to fix it on the lateral surface of the shaft to be supported and with its profile web (20) is arranged parallel to the thrust washer (8).

Rolling bearing according to claim 4, characterized in that the outer profile limb (21) of the smaller-diameter sealing ring (10) between the profile limbs (13, 15) of the larger diameter sealing ring (1 1) and the inner profile limb (15) of the larger diameter sealing ring (1 1) between the profile legs (17, 21) of the smaller diameter sealing ring (10) is arranged.

Rolling bearing according to claim 5, characterized in that the smaller diameter sealing ring (10) on each of the larger diameter sealing ring (1 1) facing annular surfaces (22, 23) of its profile legs (17, 21) a plurality of uniformly circumferentially distributed spacer knobs (24, 25) to form a uniform sealing gap (26) between the sealing rings (10, 1 1).

Rolling bearing according to claim 6, characterized in that the smaller diameter sealing ring (10) in addition to the outer annular surface (27) of its profile web (20) with further uniformly circumferentially distributed spacer knobs (28) for forming a further sealing gap (29) between this and the thrust washer ( 8) is formed.