FR2966087A1 - Bump stop device for use in MacPherson strut in steerable wheel of motor vehicle, has upper cap and lower cap, and set of self-lubricating sliding washers that is axially stacked between upper cap and lower cap - Google Patents

Abstract

The device (10) has an upper cap (12) mounted on a frame of a motor vehicle, and a lower cap (13) having a lower surface (19d) forming a support surface for a suspension spring (11) to exert axial and radial forces with the device. A set of self-lubricating sliding washers (22, 23) is axially stacked between the upper cap and the lower cap. The washers are provided with a lower surface (27) and an upper surface (24).

Description

The present invention relates to the field of suspension stop devices used in particular on motor vehicles in the suspension struts of motor vehicle steering wheels. Conventionally, a suspension stop comprises a rolling bearing forming axial stop and comprising a lower ring and an upper ring between which is arranged a row of rolling elements, for example balls or rollers. Preferably, an angular contact bearing is used which makes it possible to take up both the radial forces and the axial forces exerted on the suspension stop device. The lower and upper rings are generally mounted in contact with lower or upper support pieces or supports, such as cups or covers. The upper and lower covers form a housing for the rings of the bearing and make it possible to ensure the interface between said rings and the neighboring elements. Such a suspension stop device is disposed in the upper part of the suspension strut between a suspension spring and an upper element secured to the vehicle body. The suspension spring is arranged around a damper piston rod whose end can be secured to the vehicle body by means of a resilient block filtering vibrations. The suspension spring is axially supported, directly or indirectly, on the lower bearing cover of the suspension stop device. The upper support cover is fixed in relation to the vehicle body. The suspension abutment thus makes it possible to transmit axial forces between the suspension spring and the vehicle body while allowing relative angular movement between the rotatable lower cover and the top cover. This relative angular movement can result from steering of the steered wheels and / or compression of the suspension spring. In order to ensure optimal operation of the bearing, the suspension stop device requires the presence of a lubricant inside the rolling bearing, that is to say the space between the two rings. In addition, it is necessary to retain the lubricant inside the bearing, and at the same time to prevent the penetration of pollutants, solid or liquid, inside the bearing. For this purpose, joints can be arranged at the junction between the two rings. These seals can be attached either to one of the rings or to the cage for holding the rolling elements. Since the wear speed of the balls is sensitive to vibrations, it is difficult to maintain a flexible turning after a long period of time. The European patent application EP0656483, which makes it possible to respond to the problem raised above, describes a suspension stop device comprising a flat synthetic slip bearing designed to take up the axial or radial forces exerted by the suspension spring. However, this suspension stop device does not resume both axial and radial forces exerted by the suspension spring. Japanese Patent Application JP8 159 160 discloses a suspension stop device comprising an upper cover and a lower cover forming between them frustoconical tracks cooperating with a frustoconical sliding element in partial contact with the covers by sectors separated by grooves. The grooves being intended to serve as a reservoir for lubricant. Although this suspension stop device makes it possible to take up the axial and radial forces, the complex structure of the sliding elements does not allow optimal operation of a high-load suspension stop device having a long service life. In addition, the manufacturing cost of such a sliding element is important.

The object of the invention is to provide a suspension abutment carrying high loads, simple to manufacture and low cost, while being able to transmit the radial and axial forces exerted by the suspension spring.

Another object of the invention is to provide a suspension stop device with good friction properties. The invention relates to a suspension stop device for a motor vehicle comprising an upper cover intended to be mounted on the chassis of the motor vehicle, and a lower cover having a lower surface forming a bearing surface for a suspension spring intended for exert axial and radial forces to the suspension stop device. The suspension stop device comprises at least two self-lubricating sliding washers stacked axially between the upper cover and the lower cover. The stacking of the sliding washers between the upper and lower covers makes it possible to transmit the radial forces exerted by the suspension spring and to reduce the coefficient of friction. Advantageously, the first sliding washer comprises a lower surface in contact with an upper surface of the lower cover and the second sliding washer comprises an upper surface in contact with a lower surface of the upper cover. Each of the sliding washers may have at least one recess and at least one axial protuberance, said axial protuberance of one of the washers being adapted to cooperate with the recess of the other sliding washer. For example, the recesses are located on the upper surface of the sliding washers and the axial protuberances are located on the lower surface of the sliding washers.

Advantageously, the upper surface of the lower cover comprises at least one recess adapted to cooperate with the protrusion of the corresponding sliding washer and the lower surface of the upper cover comprises at least one protrusion adapted to cooperate with a recess of the corresponding sliding washer. The upper cover may be provided with an annular outer skirt and an inner annular skirt surrounding the lower cover, and defining with the lower cover an annular passage forming a labyrinth seal. For example, at least one of the annular skirts of the upper cover comprises a hook intended to cooperate with a corresponding hook of the lower cover.

In addition, the lower cover comprises at least one sealing means having a sealing lip in frictional contact with the upper cover. The lower cover may comprise two sealing means, said sealing means being overmolded to the lower cover.

Slip washers may be made of synthetic or metallic material. According to a second aspect, the invention relates to a suspension strut comprising a suspension stop device according to one of the preceding claims.

Other objects, features and advantages of the invention will become apparent on reading the following description, given solely by way of nonlimiting example, and with reference to the appended drawings in which: FIG. 1 is a sectional view axial view of a suspension stop device according to one embodiment of the invention, - Figure 2 is a sectional view II-II of a suspension stop of Figure 1, and - Figure 3 is a detail sliding washers according to the invention.

The suspension stop device 10, referenced as a whole in FIGS. 1 and 2, is intended to be integrated in a suspension strut of a motor vehicle (not shown) between an element of the chassis of the motor vehicle and a suspension spring. 11 helical type, of which only the upper turn is shown. The suspension stop device 10 is arranged around a damper rod extending axially in the form of a cylinder of revolution (not shown), of vertical Y axis supposed. The suspension spring 11 is mounted around the damper rod. The suspension stop device 10, of axis Y, comprises an upper support cover 12 intended to be mounted directly or indirectly on the chassis of the vehicle, a lower support cover 13 having reinforcing ribs 14 of substantially rectangular section. in the vicinity of its bore 13a and a self-lubricating sliding bearing 15 disposed between said lower cover 13 and the upper cover 12. The suspension stop device 10 allows a rotational movement between the lower cover 13 and the upper cover 12 and transmits the axial and radial forces between the suspension spring 11 and the vehicle frame in a reduced axial size. The upper cover 12, of generally annular collar shape, may consist of a one-piece piece made of synthetic material such as, for example, polyamide PA 6.6, reinforced or not with glass fibers. The upper cover 12 has a bore 12a of axis Y1 substantially equal to the Y axis of the suspension stop device 10. The upper cover 12 comprises an annular solid portion 16 whose upper surface 16a is intended to come into contact with a vehicle chassis element. The annular solid portion 16 has an inner annular axial skirt 17 of smaller thickness than the solid portion 16, and an outer annular skirt 18 also of lower thickness than the solid portion 16, said outer annular skirt 18 radially surrounding the skirt The annular skirts extend axially downwardly from the solid portion 16. The outer annular skirt 18 includes an annular flange 8a extending axially downward and radially outwardly, and delimiting with a flange annular 19a of the lower cover 13, a narrow passage 19b, forming a labyrinth seal. The solid part 16 comprises a flat bottom surface 16b in contact with the sliding bearing 15.

The lower end of the inner annular skirt 17 comprises a hook 17a directed outwards towards the lower cover 13, which may be continuous or discontinuous circumferentially. The hook 17a can cooperate with corresponding hooks 20a of the lower cover 13, directed radially inwardly, so as to form a labyrinth type seal. The lower support cowl 13 may consist of a one-piece piece made of synthetic material such as, for example, polyamide PA 6.6, reinforced or not with glass fibers and comprises a portion in the form of a radial plate 19 and an annular axial skirt 21 disposed inwardly and extending axially downwardly opposite the upper cover 12. The axial skirt 21 has at its lower end a rounded portion 21a extending through a radial bead 21b directed outwardly defining a groove 21c allowing, for example, the retention of a protective bellows (not shown) for the damper rod. The axial skirt 21 may also comprise at its lower end, a radial bead 21e directed inwards and allowing, for example, the axial retention of the damper rod. Said radial beads 21b, 21e may be continuous or discontinuous depending on the circumference of the lower cover 13.

The lower end of the axial skirt 21 extends radially inwardly by a radial portion 13b, slightly inclined downwards, and having a bore 13a for the passage of the damper rod. The radial plate-shaped portion 19 comprises a cylindrical outer surface 19c of axial dimension varying along the circumference of the lower cover 13, and from the end of which extends an annular radial surface 19d delimiting a bearing surface for the upper end turn of the suspension spring 11. The radial surface 19d is extended inwards and downwards by a rounded surface 19e connected to the outer cylindrical surface 21d of the axial skirt 21. The outer cylindrical surface 21d allows the centering of the suspension spring 11. In the vicinity of the upper end of the annular flange 19a, the radial plate 19 of the lower cover 13 has a flat upper surface 20 cooperating with the sliding bearing 15. The upper surface 20 extends radially towards the the inside by a hook 20a directed towards the upper seat 12. The hook 20a can be continuous or discontinuous circumf erentially and is arranged above the hook 17a of the upper cover 12, so as to be able to interfere diametrically with said hook 20a in case of beginning of separation of the upper cover 12 and the lower cover 13. The hook 20a therefore forms a retaining means axial of the upper cover 12 relative to the lower cover 13 to avoid disengagement of the elements constituting the device 10 before mounting in the strut of the vehicle. The hook 20a follows axially downwards to an axial portion 20b intended to cooperate with the hook 17a of the upper cover 12. A radial annular passage 20c exists between the hook 17a of the upper cover 12 and the axial portion 20b of the lower cover 13. The axial portion 20b is extended by a frustoconical portion 20d connecting the axial skirt 21 to the radial portion 19. The radial portion 19 has an axial dimension varying according to the circumference of the lower cover 13 and the bearing surface 19d, as illustrated. 2, is slightly inclined along the circumference of the lower cover 13, so as to support the suspension spring 11. As illustrated, the radial portion 19 comprises a radial rib 19f extending radially outwards and having an outer diameter greater than the outer diameter of the outer annular skirt 18 of the upper cover 12. The sliding bearing 15, shown in greater detail in FIG. 3, consists of two sliding washers 22, 23 stacked axially between the upper support cover 12 and the lower support cover 13. Each sliding washer 22, 23 comprises two axial recesses 22a, 23a, made on the surface. 24, 25 of each sliding washer 22, 23 and two axial protuberances 221), 23b formed on the lower surface 26, 27 of each sliding bearing 22, 23. The upper cover 12 comprises on its lower surface 16b two protuberances 28 intended to cooperate with the recesses 22a formed on one of the sliding washers 22. The protuberances 28 are in register with the recesses 22a.

Similarly, the lower cover 13 comprises on its upper surface 20 two recesses 29 intended to cooperate with the protuberances 23b formed on the other sliding washer 23. The recesses 29 are also in shape with the protuberances 23b.

In the illustrated example, the first sliding washer 23 is in contact with the lower cover 13 by its protuberances 23b and its lower surface 27 and with the second sliding washer 22 by its recesses 23a and its upper surface 25. The second washer sliding 22 is in axial support against the first sliding washer 23 and in contact with the upper cover 12 by its upper surface 24 and its recesses 22a. Thus, the sliding washers 22, 23 are held radially in position in the suspension abutment 10, and allow the transmission of the radial forces exerted by the suspension spring 11. Alternatively, a larger stack of sliding washers could be provided. to further reduce the friction torque. The sliding washers may be made, by way of non-limiting example, of synthetic material such as polyamide PA 6.6, or polypropylene PP, or metal material from the same sheet blank. Lubrication can be carried out by applying a thin layer of PTFE polytetrafluoroethylene or a thin layer of greasy material or solid lubricant.

The lower cover 13 comprises sealing means 30, 31. The first sealing means 30 of generally annular shape, rests axially on the annular flange 19a delimited between the outer cylindrical surface 19c and the upper flat surface 20. sealing 30 comprises an axial annular portion 30a and a sealing lip 30b extending from the axial portion 30a to the annular flange 18a of the upper cover 12. The axial contact between the annular flange 18a and the sealing lip 30b allows to prevent the intrusion of pollutants into the suspension stop device 10, and in particular to the sliding bearing 15. In the example illustrated, the suspension stop device 10 comprises a second sealing means 31 of generally annular shape, resting axially on the radial surface 19d of the lower cover 13 delimited between the hook 20a and the upper flat surface 20. The sealing means it 31 comprises a radial portion 31a and a sealing lip 31b extending from the radial portion 31a to the inner annular skirt 17 of the top cover 12. The sealing means 30, 31 may be overmolded, glued or forcibly at the lower support cover 13.

The invention is not limited to the described embodiments and may be subject to various variations. For example, sealing means can be mounted in all the examples described above. The sliding bearing is in full contact with the lower and upper covers, thus reducing the number of elements forming the suspension stop device. Such a suspension stop device makes it possible to reduce manufacturing costs by limiting the number of elements to be assembled. In addition, the conformation of sliding bearings with the lower and upper covers provides a suspension stop device supporting the axial and radial forces exerted by the suspension spring and to obtain a suspension stop with good properties. friction.

Claims (11)

REVENDICATIONS1. Suspension stop device for a motor vehicle comprising an upper cover (12) intended to be mounted on the chassis of the motor vehicle, and a lower cover (13) having a lower surface (19d) forming a bearing surface for a suspension spring (11) for exerting axial and radial forces to the suspension stop device (10), characterized in that it comprises at least two self-lubricating sliding washers (22, 23) stacked axially between the upper cover (12) and the lower cover (13). 2. stop device according to claim 1, characterized in that the first sliding washer (23) comprises a lower surface (27) in contact with an upper surface (20) of the lower cover (13) and the second sliding washer (22) comprises an upper surface (24) in contact with a bottom surface (16b) of the top cover (12). 3. Stop device according to claim 1 or 2, characterized in that each of the sliding washers (22, 23) have at least one recess (22a, 23a) and at least one axial protuberance (221), 23b), said axial protuberance (221), 231)) of one of the washers (22) being adapted to cooperate with the recess (221), 231)) of the other washer (23). Stop device according to claim 3, characterized in that the recesses (221), 231)) are located on the upper surface (24, 25) of the sliding washers (22, 23) and the axial protuberances (22a, 23a) are located on the lower surface (26, 27) of the sliding washers (22, 23). 5. Stop device according to claim 3 or 4, characterized in that the upper surface (20) of the lower cover (13) comprises at least one recess (29) adapted to cooperate with the protrusion (231)) of the washer of sliding (23) and the lower surface (16b) of the upper cover (12) comprises at leastan axial protrusion (28) adapted to cooperate with a recess (22a) of the corresponding sliding washer (22). Stop device according to one of the preceding claims, characterized in that the upper cover (12) is provided with an outer annular skirt (18) and an inner annular skirt (17) surrounding the lower cover (13). ), and delimiting with the lower cover (13) an annular passage (20c, 19b) forming a labyrinth seal. 7. Stopper device according to claim 6, characterized in that at least one of the annular skirts (17) of the upper cover (12) comprises a hook (17a) intended to cooperate with a hook (20a) corresponding to the lower cover (13). ). 8. Stop device according to any one of the preceding claims, characterized in that the lower cover (13) comprises at least one sealing means (30, 31) having a sealing lip (30b, 31b) in contact with each other. friction with the upper cover (12). 9. Stop device according to claim 8, characterized in that the lower cover (13) comprises two sealing means (30, 31), said sealing means (30, 31) being overmolded to the lower cover (13). . 10. Stopper device according to any one of the preceding claims, characterized in that the sliding washers (22, 23) are made of synthetic or metallic material. 11. Suspension strut comprising a suspension stop device (10) according to one of the preceding claims.