DE1045816B - Ball joint for a front wheel suspension on motor vehicles - Google Patents

Description

Ball joint for a front wheel suspension on motor vehicles The invention relates to ball joints for a front suspension on motor vehicles a cup-shaped, inserted into the control arm or formed by this Joint cap. Such support joints generally require on their inner surface a largely careful processing, as well as the joint cap itself a high one Must have manufacturing accuracy in order to have a complete system on all sides of the spherical shell in the joint cap. This is particularly necessary to center and secure the ball socket in the joint cap and avoid hitting the ball socket in the joint cap. Further an additional lubricant space is provided in such joints, the one Requires special space and its production requires additional material and labor costs caused.

Ball joints are also to be mentioned as belonging to the state of the art, where there is a gap between a supporting spherical shell and a housing cover is formed for a compression spring, which on the one hand against the load-bearing spherical shell directly or indirectly, on the other hand is supported against the housing cover, which has an annular bulge against which the supporting spherical shell is additionally supports. A lubricant space is in these joints above the Housing cover formed. The problem of manufacturing accuracy plays a role in these ball joints and in particular the simultaneous saving of space play a subordinate role. By the arrangement of a space between the spherical shell and the housing cover for. However, these joints require a spring and the additional lubricant space a space that is often not available in motor vehicles.

A major simplification in terms of making a Ball joint while saving space is, as the invention suggests, achieved in that between the ball socket receiving the supporting ball head half and the hinge cap disposed over them a cap-shaped gap therethrough is formed that the spherical shell has an outer diameter that is smaller than the inner diameter of the shell-shaped joint cap, or that with the same The outer diameter of the spherical shell and the inner diameter of the shell-shaped joint cap the spherical shell is arranged offset in the longitudinal direction with respect to the joint cap. This is for the formed by the control arm or used in this Joint cap has a largely lower manufacturing accuracy compared to previously known Ball joints required in which the spherical shell is fully attached to the joint cap is present. The inner surface of the joint cap as well as the outer surface of the spherical shell can remain in the rough machined state or the tolerances during machining be roughly chosen.

In this embodiment there is a cap-shaped space between formed by the joint cap and the supporting spherical shell, which is against its edge too tapered, d. H. forms a sickle-shaped gap in cross section, so that the The spherical shell is only in contact with the joint cap with the lateral peripheral parts. The manufacturing accuracy the joint cap and the spherical socket are thus limited only to the diameter their marginal parts.

A substantial saving in space is achieved as a result; däß the cap-shaped The space between the joint cap and the spherical socket forms a lubricant space, which is connected to a lubricating device, the spherical shell with radial Holes is provided.

An even lower manufacturing accuracy requires a further embodiment, in the case of a resilient, likewise cap-shaped, in the cap-shaped gap Lining is arranged. The chuck is provided with a flange-like attachment, which protrudes between the flange of the ball socket and the flange of the joint cap. By the flange-like approach of the resilient lining has the additional advantage of that the often unused space next to the joint caps for additional suspension is used. It is not only the part of the lining between the joint cap that acts and the spherical shell, but also the lateral, flange-like attachment of the chuck for a suspension of the spherical shell in relation to the corresponding joint cap.

The chuck and its neck preferably sit in under tension the cap-shaped space or between the joint cap and the ball socket flange, wherein the flange of the lower retaining shell or lower The joint shell of the joint is supported against the flange of the upper joint cap. The amount of bias is preferably chosen so that the static load is taken up by the joint without play of movement of the spherical shell and only at dynamic impacts a longitudinal movement of the spherical shell occurs and the impacts be picked up and cushioned by the elastic lining. Shear forces can also be taken up by the plastic guided spherical shell.

The lining can be provided with deformation grooves which form intermediate ribs as well as the lining only with part of its surface to the joint cap can come to the plant. When dynamic impacts occur, the Ribs in the grooves, or the lining comes out except with its static Load with the joint cap in contact with the part of the surface with a the strength of the impact with another surface part with the joint cap in contact, whereby an increase in the bearing lining surface is achieved.

The lining is designed so that it is in the cap-shaped space forms a lubricant space which is connected to a lubricant device in the joint cap can be connected.

The retaining cap flange can be provided with an angle that when a certain preload is reached between the joint cap and the spherical shell arranged lining and its approach on the flange of the upper joint cap.

In the drawing, exemplary embodiments of a support joint are shown in FIG of the invention shown, namely Fig. 1 shows a ball joint with a standing arrangement Ball stud in side section, Fig. 2 a ball joint with a hanging ball stud in side section, Fig. 3 shows a further embodiment with one in the cap-shaped Intermediate lining in the side section and FIG. 4 a modification of the Embodiment according to FIG. 3.

The supporting half of the ball head 1 rests in the ball socket 2, the is provided with a flange 3, the ball stud 4 is received in a known manner in the steering knuckle support 5: between the spherical shell 2 and the joint cap 6, the, as shown in Fig. 1, can form a part inserted into the control arm 7 or, as shown in FIGS. 2 to 4, are formed by the wheel guide itself and can represent a unitary joint part with this, is the cap-shaped Space 8 is provided. The joint cap 6 as well as the one that terminates the joint Retaining cap 9 have the flanges 10, 11, which, by means of a screw connection or Welding connected to one another, holding the joint parts together. Parts 2, 6, 9 can also be dotted beforehand and connected to one another via suitable rolled edges be..

According to the embodiment shown in FIGS. 1 and 2, the cap-shaped space 8 tapers towards its lower edge, so that the spherical shell 2 and the joint cap 6 are in circular contact with one another only at 12. A sealing ring 13 can be inserted between the circular contact line 12 and the flanges 3, 10, as a result of which the cap-shaped intermediate space 8 experiences an additional seal. In this embodiment, a manufacturing accuracy of the spherical shell 2 and the joint cap 6 is only required with respect to the circular contact line 12, without cutting or rotated, for a centering of the spherical shell in the joint cap, while the demands on the manufacturing accuracy of the sections of these parts located above this contact line are largely lower places are. If the spherical socket 2 breaks, the spherical head 1 abuts the cap 6 without impairing its function.

The cap-shaped intermediate space 1 creates a lubricant space created which can be connected to a lubricant device 13a. That Lubricant can from the lubricant space thus formed through holes 14 between the ball socket 2 and the ball head 1 reach.

In the embodiment according to FIGS. 3 and 4, in which an even lower one Manufacturing accuracy is required, the cap-shaped gap takes an elastic one Lining 15, which is provided with the flange-like extension 16, which between the flanges 3 and 10 protrudes. The feed 15 sits with its approach under tension between the spherical shell 2 and the joint cap 6 or between the flanges 3 and 10, the angled portion 17 of the flange 11 of the retaining cap against the flange 10 supports the joint cap. If the joint is only subjected to static loads, the Ribs 19 formed between the deformation grooves 18 have the shape shown and Location a; while the ribs deform under dynamic loading and into the Grooves can enter (Fig. 3). In place of the grooves, holes can also be used or other recesses are provided.

According to Fig. 4, the chuck 15 is only a part of its surface at 20 in contact with the joint cap 6. If impacts occur, the located in the direction of the flange-like projection 16 surface, for. B. at 21, with the hinge cap come into contact, thereby reducing the bearing surface of the lining is enlarged. Here, too, the lining 15 can have deformation ribs and grooves, Bores or the like. Be provided. The screw holes 22 in the flange 3 of the spherical shell 2 have a larger one in the embodiments shown in FIGS. 3 and 4 Hole diameter than would be required for the screws 23 so that the ball socket 2 can evade the occurrence of lateral forces.

As in FIGS. 1 and 2, when using a chuck 15 in a lubricant can be stored in the cap-shaped space.

Claims (7)

PATENT CLAIMS: 1. Ball joint for front suspension on motor vehicles with a cup-shaped joint flap inserted into the wheel guide or formed by it, characterized in that a cap-shaped gap is created between the ball socket (2) which accommodates the supporting ball head half and the joint cap (6) arranged above it is formed, -that the ball socket (2) has an outer diameter which is smaller than the inner diameter of the shell-shaped "joint cap (6); is. 2. Ball joint according to claim 1, characterized in that the cap-shaped Intermediate space (8) connected to a lubricating device (13a) and the spherical shell (2) is provided with radial bores in a known manner. 3. Ball joint according to claim 1, characterized in that a resilient in the cap-shaped space (8) acting, also approximately cap-shaped lining (15) is arranged (Fig. 3 and 4). 4. Ball joint according to claim 3, characterized in that the chuck (15) is provided with a shoulder (16) projecting between the flange (3) of the ball socket (2) and the flange (10) of the joint cap (6). 5. Ball joint according to claim 3 and 4, characterized in that the chuck (15) and its extension (16) is arranged under prestress in the intermediate space (8) or between the flanges (3, 10) . 6. Ball joint according to claim 3 to 5, characterized in that that the lining (15) with between them ribs (19) forming deformation grooves (18) is provided. 7. Ball joint according to claim 3 to 5, characterized in that the Chuck (15) rests against the joint cap (6) with only part of its surface (Fig. 4). B. ball joint according to claim 3 to 5, characterized in that the retaining cap flange (11) is provided with an angled portion (17), which when a certain Pre-tensioning of the chuck (15) and its extension (16) on the joint cap flange (10) is present. Documents considered: German Patent No. 887 610.