DE102017217401A1 - Suspension axle bearing device with a compact ball bearing - Google Patents

Abstract

The invention relates to a suspension axial bearing device (1) intended for use with a suspension spring in an automotive suspension strut, and having an angular contact ball bearing (5), a lower shell (4) and an upper shell (3). The suspension axial bearing device (1) further comprises an annular shield (21) for ensuring axial retention of the upper shell (3) and the lower shell (4) together, between which the ball bearing (5) is clamped.

Description

TECHNICAL FIELD OF THE INVENTION

The present invention relates to a suspension journal bearing device with a compact rolling bearing, in particular of the McPherson type, the so-called "McPherson suspension bearing unit" or MSBU. The invention also relates to a motor vehicle equipped with such a suspension axial bearing device. The environment of the invention is that of suspension systems, in particular of motor vehicles.

BACKGROUND OF THE INVENTION

In general, a vehicle suspension system includes a suspension strut that carries an axle and a vehicle wheel. A suspension-type bearing device is disposed at an upper portion of the suspension spring strut, opposite to the wheel and the ground, and between a suspension spring and an upper support block attached to the body of the vehicle. The device has at least one rolling bearing. The suspension thrust bearing allows the transmission of axial forces between the spring and the vehicle body, and in the meantime, it enables the relative angular movement between the spring, which is movable in rotation, and the stationary support block, which is fixed to the body.

For this purpose, the spring is supported by a spring seat which is provided on the suspension thrust bearing. More specifically, the suspension thrust bearing includes a support surface which abuts against end turns of the spring. The spring support surface has a radial surface to receive an axial force. The spring support surface may also have a tubular axial surface to accommodate radial deformations and ensure spring centering.

It is from the FR-B1-2 839 471 or EP-B1-2517805 For example, it is known to provide a suspension journal bearing device with a compact ball bearing with oblique contact between the balls and the rings. The angular contact ball bearing has reduced axial and radial dimensions, and the rolling bearing is supported by an upper shell and a lower shell also with reduced dimensions. The aim of such compact arrangements is to provide a compact device in a limited associated space. For this purpose, the amount of material is reduced and designs must be adjusted accordingly.

However, some functions such as sealing, component placement, and ruggedness are unsatisfactory due to the lack of axial and / or radial space. In particular, such compact suspension journal bearings are not robust enough for automobiles in heavy duty applications.

SUMMARY OF THE INVENTION

The object of the invention is to provide an improved suspension thrust bearing with a compact angular contact ball bearing which is robust, easy to assemble and has reduced costs.

To this end, the invention relates to a suspension axial bearing device intended for use with a suspension spring in an automotive suspension strut. The suspension thrust bearing is annular and has an angular contact ball bearing, an upper shell and a lower shell. The ball bearing has an inner ring having a toroidal portion with a concave outer raceway, an outer race having a toroidal portion with a concave inner raceway, and a series of balls disposed between the raceways according to a tapered contact. The lower shell has an axial hub and an outwardly projecting radial flange extending from the axial hub, a lower surface of the flange being adapted to support a suspension spring, and an upper surface of the flange forming the toroidal portion of the outer ring of the flange Angular contact ball bearing supports. The upper shell has an annular body having an inner bore and an outer surface supporting the toroidal portion of the inner race of the angular ball bearing.

According to the invention, the suspension axial bearing assembly further comprises an annular shield. The annular shield is provided with a radial support portion which axially covers an upper surface of the annular body of the upper shell and an upper surface of the toroidal portion of the outer ring, both in direct contact. The annular shield is provided with an inner holding portion extending inwardly downwardly from the radial portion and having a curved shape disposed in an associated recess provided on the upper shell. The annular shield is further provided with an outer axial rim extending outwardly axially downwardly toward the lower shell from the radial portion downwardly on the opposite radial side to the inner retaining portion. The outer axial rim radially covers an outer front surface of the radial flange of the lower shell without contact. A free end of the outer axial flange is radial bent inwardly toward the lower shell and cooperates with an outer annular rib which extends radially outwardly from the flange of the lower shell to together guarantee an axial retention of the upper and lower shell between which the ball bearing is clamped.

Thanks to this invention, the lower and upper shells, between which the angular contact ball bearing is housed, held together axially by means of the annular shield. The annular shield is secured to the upper shell and has an outer portion which cooperates with the lower shell to limit relative axial displacement.

Furthermore, the curved free end of the annular shield forms a labyrinth seal with the corresponding groove of the lower shell.

The annular shield is easy to manufacture and mount to a suspension journal bearing device. It ensures both assembly position and seal functions. The annular shield is extremely shallow and does not increase the axial and radial dimensions of the device. Then, the device according to the invention is suitable to have a compact design with good robustness properties.

• - Der Innen- und der Außenring sind aus einem geprägten Metallblech hergestellt.
• - Die obere Schale ist aus einem steifen Kunststoffmaterial hergestellt.
• - Die untere Schale ist aus einem steifen Kunststoffmaterial hergestellt.
• - Die untere Schale ist aus einem Metall hergestellt.
• - Die untere Schale weist einen steifen Versteifungseinsatz auf.
• - Der Versteifungseinsatz erstreckt sich radial und ist dazu bestimmt, die Aufhängungsfeder direkt abzustützen.
• - Die obere Schale weist eine innere Bohrung auf, die zumindest teilweise eine kegelstumpfförmige Form hat und der innere Halteabschnitt, der sich nach innen von dem radialen Abschnitt nach unten erstreckt, hat auch eine kegelstumpfförmige Form, die mit der kegelstumpfförmigen inneren Bohrung der oberen Schale zusammenpasst.
• - Die obere Fläche der oberen Schale ist mit einer ringförmigen axialen Nut versehen, und der innere Halteabschnitt, der sich nach innen von dem radialen Abschnitt nach unten erstreckt, hat eine wesentliche axiale Ausdehnung und ist in der Nut angeordnet.
• - Die Aufhängungsaxiallagervorrichtung weist ein Dichtmittel auf, das an der unteren Schale befestigt ist und mit zumindest einer Dichtlippe versehen ist.
• - Die Dichtlippe ist in Gleitkontakt mit dem Innenring des Schrägkugellagers.
• - Die Dichtlippe ist in Gleitkontakt mit dem ringförmigen Schild.
• - Der Innenring des Schräglagers weist einen ersten radialen Abschnitt auf, der sich von dem torodialen Abschnitt radial nach innen erstreckt, wobei der erste radiale Abschnitt gegen eine untere Fläche der oberen Schale anliegt.
• - Der Innenring des Schräglagers weist einen zweiten radialen Abschnitt auf, der sich von dem torodialen Abschnitt axial nach außen erstreckt, wobei der radiale Abschnitt des ringförmigen Schilds in direkten Kontakt den zweiten radialen Abschnitt des Innenrings abdeckt.
• - Der Innenring ist des Weiteren mit einem äußeren axialen Bord versehen, der sich nach außen von dem zweiten radialen Abschnitt nach unten erstreckt und hinwärts zu der unteren Schale ausgerichtet ist, wobei der äußere Bord des ringförmigen Schilds radial den Bord des Innenrings abdeckt.
• - Der ringförmige Schild ist aus einem geprägten Metallblech hergestellt.

According to further aspects of the invention, which are advantageous but not mandatory, such a suspension bearing device may include one or more of the following features:

• - The inner and outer rings are made of embossed sheet metal.
• - The upper shell is made of a rigid plastic material.
• - The lower shell is made of a rigid plastic material.
• - The lower shell is made of a metal.
• - The lower shell has a stiff stiffening insert.
• - The stiffening insert extends radially and is intended to support the suspension spring directly.
• The upper shell has an inner bore at least partially frustoconical in shape, and the inner retaining portion extending inwardly from the radial portion downward also has a frusto-conical shape which mates with the frusto-conical inner bore of the upper shell ,
• The upper surface of the upper shell is provided with an annular axial groove, and the inner retaining portion, which extends inwardly from the radial portion, has a substantial axial extension and is disposed in the groove.
• - The suspension Axiallagervorrichtung has a sealing means which is fixed to the lower shell and is provided with at least one sealing lip.
• - The sealing lip is in sliding contact with the inner ring of the angular contact ball bearing.
• - The sealing lip is in sliding contact with the annular shield.
• - The inner ring of the angular bearing has a first radial portion which extends radially inwardly from the torodial portion, wherein the first radial portion abuts against a lower surface of the upper shell.
• - The inner ring of the angular bearing has a second radial portion extending axially outwardly from the torodial portion, wherein the radial portion of the annular shield in direct contact covers the second radial portion of the inner ring.
• The inner ring is further provided with an outer axial rim extending downwardly outwardly from the second radial portion and directed towards the lower shell, the outer rim of the annular shield radially covering the rim of the inner ring.
• - The annular shield is made of an embossed metal sheet.

list of figures

• 1 ist eine Schnitthalbansicht einer Aufhängungslagervorrichtung gemäß einer ersten Ausführungsform der Erfindung;
• 2 ist eine Schnitthalbansicht einer Aufhängungslagervorrichtung gemäß einer zweiten Ausführungsform der Erfindung; und
• 3 ist eine Schnitthalbansicht einer Aufhängungslagervorrichtung gemäß einer dritten Ausführungsform der Erfindung.

The invention will now be explained in connection with the attached figures, as illustrative examples, without limiting the subject matter of the invention. In the attached figures:

• 1 Fig. 10 is a cross sectional view of a suspension bearing apparatus according to a first embodiment of the invention;
• 2 Fig. 10 is a sectional half-view of a suspension bearing apparatus according to a second embodiment of the invention; and
• 3 Fig. 10 is a sectional half-view of a suspension bearing apparatus according to a third embodiment of the invention.

DETAILED DESCRIPTION OF SOME EMBODIMENTS

1 shows a suspension Axiallagerervorrichtung 1 according to the invention and its basic elements. The device 1 has an overall shape of a revolution about a central axis X1 , The device 1 is between a coil spring 2 (shown in dashed lines) on a lower axial side and a support block (not shown) attached to an upper axial side and connected to the chassis of a motor vehicle. Such a suspension bearing device 1 For example, it can be used in an automobile MacPherson strut assembly.

In the following, the adjectives "axial" and "radial" with respect to the central axis X1 the annular device 1 defined, with an axial part parallel to the axis X1 is oriented, with a radial part perpendicular to the axis X1 is oriented. The adjectives "inner" and "outer" are also relative to the central axis X1 Are defined. The inner side of the device 1 is down to the axis X1 while the outer side of the device is toward the opposite direction to the axis X1 is oriented. The adjectives "lower" and "upper" are defined relative to the position of the device in the suspension strut, with the lower side of the device oriented axially towards the road and the upper side of the device oriented axially downwardly of the carriage chassis.

The suspension journal bearing device 1 has an upper shell 3 , a lower shell 4 and an angular contact ball bearing 5 on. In this embodiment, these have three components 3 . 4 and 5 a globally circular shape around the central axis X1 when the suspension axle bearing device 1 not burdened.

The angular contact ball bearing 5 has an inner ring 6 made of pressed sheet metal, an outer ring 7 also made of pressed sheet metal, a series of balls 8th and a cage 9 to maintain a regular circumferential spacing between the balls 8th on. The inner ring 6 has a torodial section 10 with a concave outer raceway and the outer ring 7 has a torodial section 11 with a concave inner raceway. The row of balls 8th is arranged between the raceways according to a diagonal contact.

In the present embodiment, the outer ring 7 furthermore, a first radial section 12 that is different from the torodial section 10 extends radially inwardly, a second radial portion 13 that is different from the torodial section 10 extends radially outward, and an outer axial shelf 14 on, extending outward from the second radial section 13 extends downwardly and axially directed toward the lower shell.

To the axial and radial compactness of the angular contact ball bearing 5 because of the cage 9 an annular heel and several pockets in which the balls 8th are arranged, with the paragraph of the cage 9 between an inner end of the outer ring 7 and a connecting portion between the torodial portion 10 and the first radial portion 12 of the inner ring 9 is arranged. The outer end of the outer ring 7 and the second radial portion 13 of the inner ring do not contact each other, but are in close proximity.

The lower shell 4 is with an axial hub 15 which defines an inner bore in which an elongated damper rod (not shown) is intended to be fastened. The lower shell 4 further includes a radially outwardly projecting flange 16 up, extending from the hub 15 towards the outside of the suspension axial bearing device 1 extends. The lower shell 4 has a curved connecting portion between the axial hub 15 and the radial flange 16 on.

An upper surface of the radial flange 16 the lower shell 4 is provided with a torodial outer portion, which is the torodial portion 11 of the outer ring 7 supported.

A lower surface of the radial flange 16 the lower shell 4 defines a spring seat designed to be the suspension spring 2 support. Advantageously, the flange 16 a radial stiffening insert 17 on to axial shocks from the suspension spring 2 to absorb.

The lower shell 4 further includes an outer annular rib 18 on, extending from an outer front surface 19 of the flange 16 extends radially outward. The outer axial board 14 of the inner ring 6 of angular contact ball bearing 5 covers radially the outer front surface 19 from.

The upper shell 3 has an annular body having an inner bore 31 has a frusto-conical shape, and an outer surface 20 on top of the torodial section 10 of the inner ring 6 of angular contact ball bearing 5 supported. The first radial section 12 of the inner ring 6 lies against a lower surface of the upper shell 3 at. The second radial section 13 of the inner ring 6 cantilevers radially from the upper shell 3 out.

The upper shell 3 is intended to be attached to a support block of the automotive chassis.

Advantageously, the lower shell 4 and the upper shell 3 each of a one-piece part, which is made of a synthetic plastic material, for example polyamide, optionally reinforced with glass fibers.

According to the invention, the suspension axle bearing device 1 Furthermore, an annular shield 21 on.

The ring-shaped shield 21 is with a radial support portion 22 Mistake. The radial section 22 axially covers an upper surface of the annular body of the upper shell 3 and an upper surface of the torodial portion 10 of the outer ring 6 of angular contact ball bearing 5 from. In the present embodiment, the radial section covers 22 also the second radial section 13 of the inner ring 5 from. The radial section 22 is in direct contact with both upper surfaces of the upper shell 3 and the inner ring 6 ,

The ring-shaped shield 21 is also with an inner holding section 23 provided inward of the radial section 22 extends downwards. The inner holding section 23 has a frusto-conical shape and corresponds to the inner bore 31 with frustoconical shape of the upper shell 3 , Advantageously, the inner portion of the annular shield 21 deformed to the frusto-conical shape of the inner bore 31 to fit.

Advantageously, the inner bore 31 further ribs or depressions to the upper shell 3 to strengthen. The inner section 23 of the annular shield 21 is deformed and fits with the specific shape of the inner bore 31 together to prevent relative rotation between them.

The annular shield is further provided with an outer axial rim 24 provided outwardly axially towards the lower shell 4 from the radial section 22 extends downwardly, on the opposite radial side to the inner holding portion 23 , The outer axial board 24 covers radially the outer front surface 19 of the radial flange 16 the lower shell 4 from. In particular, the outer board extends 24 of the annular shield 21 axially along the axial shelf 14 of the inner ring 6 of angular contact ball bearing 5 and covers it radially.

The ring-shaped shield 21 then becomes radial and axial through both the upper shell 3 as well as the inner ring 6 of the ball bearing 5 supported and held. The radial section 22 of the annular shield 21 becomes axially through the upper surface of the upper shell 3 , the upper surface of the torodial section 10 of the inner ring 6 and the upper surface of the radial section 22 of the inner ring 6 supported. The ring-shaped shield 21 becomes radially through the frusto-conical inner bore 31 the upper shell 3 on the inner radial side and through the outer axial flange 14 of the inner ring 6 supported on the outer radial side.

Furthermore, the outer axial board 24 of the annular shield 21 a free end 25 radially inward toward the lower shell 4 is bent.

The curved free end 25 is at the lower axial side of the rib 18 of the flange 16 the lower shell 4 arranged. Then the curved free end works 25 of the annular shield 21 with the outer annular rib 18 the lower shell 4 together to provide axial retention of the upper shell 3 and the lower shell 4 to guarantee together, between which the ball bearing 5 is clamped.

The flange 16 , the rib 18 , the outer board 24 and the curved free end 25 define an outer labyrinth seal between the upper shell 3 and the lower shell 4 , The outer labyrinth seal prevents the entry of water, particles and dirt from the outside of the device 1 in the radial space defined between the shells.

Advantageously, the annular shield 21 Made from an embossed sheet metal.

Advantageously, the suspension axial bearing device 1 furthermore two sealants 26 . 27 between the upper shell 3 and the lower shell 4 on.

The first sealant 26 is on the inner side of the device 1 is provided on the inner side of the flange 16 the lower shell 4 attached and has a sealing lip in sliding contact with the upper shell 3 on.

The second sealant 27 is on the outer side of the device 1 is provided on the outer side of the flange 16 the lower shell 4 and has a first curved sealing lip in sliding contact with an inner surface of the outer axial rim 14 of the inner ring 6 of angular contact ball bearing 5 and a second arcuate sealing lip in sliding contact with a lower surface of the radial portion 13 of the inner ring 6 on.

A second embodiment of the invention is in 2 , wherein the same elements have the same reference numerals and which are different from the previous embodiment of 1 in this differentiates that the inner ring 6 of angular contact ball bearing 5 has a simplified design.

More specifically, the inner ring 6 only the torodial section 10 who has a career for the balls 8th forms, and the first radial section 12 up, extending from the torodial section 10 extends radially inward.

The ring-shaped shield 21 is substantially similar to that used in the first embodiment in FIG 1 is described. The ring-shaped shield 21 has an inner holding portion 23 in a corresponding frusto-conical shape with the inner bore 31 the upper shell 3 , a radial section 22 passing axially through an upper surface of the upper shell 3 and an upper surface of the torodial portion 10 of the inner ring 6 is supported, and an outer axial board 24 on top, with a curved free end 25 is provided with the rib 18 of the flange 16 interacts. The radial section 22 cantilevers radially from the inner ring 6 outwards.

Advantageously, the radial section 22 of the annular shield 21 with a stiffening shoulder section 28 provided good rigidity properties of the shield 21 sure.

A third embodiment of the invention is in 3 , wherein the same elements have the same reference numerals, and from the previous embodiment of 2 in it distinguishes that the annular shield 21 an inner holding section 29 a bent axial shape, which in an annular groove 30 is arranged on the upper shell 3 is provided.

More precisely, the upper surface of the upper shell 3 on an inner radial side with an annular groove 30 provided, which is open to the upper surface.

The ring-shaped shield 21 is substantially similar to that used in the first embodiment in FIG 1 is described. The ring-shaped shield 21 has a radial section 22 passing axially through an upper surface of the upper shell 3 and an upper surface of the torodial portion 10 of the inner ring 6 is supported, and an outer axial board 24 on top, with a curved free end 25 is provided with the rib 18 of the flange 16 interacts. The radial section 22 cantilevers radially from the inner ring 6 outwards. The ring-shaped shield 21 further includes an inner holding portion 29 on the inside of the radial section 22 in the substantial axial direction, toward the lower shell 4 cantilevered down. The curved inner section 22 is in the groove 30 The upper shell is fitted to the radial support of the shield 21 with the upper shell 3 to guarantee.

In this embodiment, a second sealant 27 on the outer side of the device 1 is provided on the outer side of the flange 16 the lower shell 4 and has a first curved sealing lip in sliding contact with an inner surface of the outer axial rim 24 of the annular shield 21 and a second arcuate sealing lip in sliding contact with a lower surface of the radial portion 22 of the annular shield 21 on.

Representative, non-limiting examples of the present invention have been described above in detail with reference to the attached drawings. This detailed description is merely intended to teach one skilled in the art further details for practicing preferred aspects of the present teachings and is not intended to limit the scope of the invention. Furthermore, each of the additional features and teachings disclosed above may be used separately or in conjunction with other features and teachings to provide improved suspension bearing devices.

Furthermore, various features of the above-described representative examples as well as the various independent and dependent claims may be combined below in ways that are not specifically and explicitly enumerated to provide additional useful embodiments of the present teachings.

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

• FR 2839471 B1 [0004]
• EP 2517805 B1 [0004]

Claims (10)

A suspension axial bearing device (1) intended for use with a suspension spring in an automobile suspension spring leg, comprising: - an angular contact ball bearing (5) having an inner ring (6) having a toroidal portion (10) with a concave outer raceway Outer ring (7) having a torodial portion (11) with a concave inner race, and a series of balls (8) arranged between the raceways according to a tapered contact, - a lower shell (4) having an axial Hub (15) and an outwardly projecting radial flange (16) extending from the axial hub (15), a lower surface of the flange (15) being intended to support a suspension spring (2) and an upper one Surface of the flange (15) supports the torodial portion (11) of the outer ring (7) of the angular contact ball bearing (5), and - an upper shell (3) having an annular body having an inner bore (31) t, and an outer surface (20) supporting the toroidal portion (10) of the inner ring (6) of the angular contact ball bearing (5), characterized in that the suspension axial bearing device (1) further comprises an annular shield (21) is provided with: - a radial support portion (22) axially covering an upper surface of the upper shell (3) and an upper surface of the toroidal portion (10) of the outer ring (6), both in direct contact, - an inner holding portion (23) extending inwardly downwardly from the radial portion (22) and having a curved shape disposed in an associated recess (30, 31) provided on the upper shell (3), - an outer axial shelf (24) extending axially downwardly towards the lower shell (4) from the radial portion (22) downwardly, on the opposite radial side to the inner holding portion (23), the axial shelf (24) one outer front surface (19) of the radial flange (16) of the lower shell (16) radially, without contact, and - a free end (25) of the outer axial flange (24) radially inwardly toward the lower shell (16) 4) is bent and cooperates with an outer annular rib (18) extending radially outward from the flange (16) to assure axial retention of the upper shell (3) and the lower shell (4) together; between which the ball bearing (5) is clamped. Suspension Axiallagervorrichtung according to Claim 1 wherein the upper shell (3) has an inner bore (31) at least partially frusto-conical in shape and the inner retaining portion (23) extending inwardly from the radial portion (22) of the annular shield (21) also has a frusto-conical shape, which mates with the frusto-conical inner bore (31) of the upper shell (3). Suspension Axiallagervorrichtung according to Claim 1 wherein the upper surface of the upper shell (3) is provided with an annular axial groove (30), and the inner retaining portion (29) extending inwardly downward from the radial portion (22) of the annular shield (21) , has a substantial axial extent and is disposed in the groove (30). A suspension axial bearing device according to any one of the preceding claims, wherein the suspension axial bearing device (1) comprises a sealing means (26, 27) fixed to the lower shell (4) and provided with at least one sealing lip. Suspension Axiallagervorrichtung according to Claim 4 , wherein the sealing lip is in sliding contact with the inner ring (6) of the angular contact ball bearing (5). Suspension Axiallagervorrichtung according to Claim 4 wherein the sealing lip is in sliding contact with the annular shield (21). A suspension axial bearing device according to any preceding claim, wherein the inner ring (6) of the angular bearing (5) has a first radial portion (12) extending radially inwardly from the toroidal portion (10), the first radial portion (12) facing a lower surface of the upper shell (3) rests. A suspension axial bearing device according to any one of the preceding claims, wherein the inner ring (6) of the angular bearing (5) has a second radial portion (13) extending axially outwardly from the torodial portion (10), the radial portion (22) of the annular Shield (21) in direct contact the second radial portion (13) of the inner ring (6) covers. Suspension Axiallagervorrichtung according to Claim 8 wherein the inner ring (6) is further provided with an outer axial shelf (14) extending outwardly from the second radial portion (13) downwardly and toward the lower cup (4), the outer shelf (24) of the annular shield (21) radially covers the board (14) of the inner ring (6). A suspension axial bearing device according to one of the preceding claims, wherein the annular shield (21) is made of an embossed metal sheet.

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