Wheel suspension for a motor vehicle

Abstract

A motor vehicle body has an underbody and a link, which at one end is pivotably connected to the underbody and at another end carries a wheel. The connection to the underbody includes an underbody-side bearing support, in which a link-side pin engages.

Claims

1. A motor vehicle body comprising: an underbody; and a link having a first end pivotably connected to the underbody and a second end carrying a wheel, wherein the connection to the underbody comprises an underbody-side bearing support engaging a link-side pin, the first end of the link being forked at a fork, and the bearing support engaging in an intermediate space of the fork.

2. The motor vehicle body according to claim 1, wherein the underbody-side bearing support comprises an elastic sleeve engaging the pin.

3. The motor vehicle body according to claim 1, further comprising a side member of the underbody includes a front section extending below a passenger cabin and a rear section which at a higher level than that of the front section traverses a rear axle of the motor vehicle body, wherein the underbody-side bearing support is arranged in an indentation delimited by the rear section and a flank of the side member rising between the sections and fastened to the rear section and the flank.

4. The motor vehicle body according to claim 3, further comprising a zero mount mounted below the front section of the side member adjoining the indentation, wherein the bearing support is fastened to the zero mount.

5. The motor vehicle body according to claim 4, further comprising a floor section of the bearing support traversing below the pin and extending between a front welding flange welded to the zero mount and a rear welding flange welded to a lower side of the rear section of the side member.

6. The motor vehicle body according to claim 3, wherein the bearing support comprises a one piece component having a zero mount.

7. The motor vehicle body according to claim 3, wherein the bearing support further comprises two side walls with apertures, through which the link-side pin extends, and a floor section, by which the side walls are joined along their lower edges.

8. The motor vehicle body according to claim 7, wherein the two side walls respectively define an upper edge that is joined to the side member at a weldment.

9. The motor vehicle body according to claim 8, wherein the upper edges are formed by flanges that lie against lateral flanks of the side member.

10. The motor vehicle body according to claim 7, wherein the side walls and the floor section are formed in one piece from flat material.

11. The motor vehicle body according to claim 7, wherein the side walls, at which the bearing support is joined from two components, of which each comprises one of the side walls.

12. The motor vehicle body according to claim 7, wherein the bearing support further comprises a tube section inserted in the apertures of the side walls.

13. The motor vehicle body according to claim 7, wherein in the side walls of the bearing support comprise a step which lies against a lower side of the side member.

14. A motor vehicle body comprising: an underbody with a side member, the side member including a front section extending below a passenger cabin and a rear section which at a higher level than that of the front section traverses a rear axle of the motor vehicle body; and a link having a first end pivotably connected to the underbody and a second end carrying a wheel, wherein the connection to the underbody comprises an underbody-side bearing support engaging a link-side pin, the underbody-side bearing support being arranged in an indentation delimited by the rear section and a flank of the side member rising between the front and rear sections and fastened to the rear section and the flank.

15. The motor vehicle body according to claim 14, wherein the underbody-side bearing support comprises an elastic sleeve engaging the pin.

16. The motor vehicle body according to claim 14, further comprising a zero mount mounted below the front section of the side member adjoining the indentation, wherein the bearing support is fastened to the zero mount; and further comprising a floor section of the bearing support traversing below the pin and extending between a front welding flange welded to the zero mount and a rear welding flange welded to a lower side of the rear section of the side member.

17. The motor vehicle body according to claim 14, wherein the bearing support further comprises two side walls with apertures, through which the link-side pin extends, and a floor section, by which the side walls are joined along their lower edges; wherein the two side walls respectively define an upper edge that is joined to the side member at a weldment; and wherein the upper edges are formed by flanges that lie against lateral flanks of the side member.

18. The motor vehicle body according to claim 17, wherein the bearing support further comprises a tube section inserted in the apertures of the side walls.

19. The motor vehicle body according to claim 17, wherein the side walls of the bearing support comprise a step which lies against a lower side of the side member.

20. A motor vehicle body comprising: an underbody with a side member; and a link having a first end pivotably connected to the underbody and a second end carrying a wheel, wherein the connection to the underbody comprises an underbody-side bearing support engaging a link-side pin, the bearing support including two side walls with apertures, the bearing support including a tube section inserted in the apertures of the side walls, the link-side pin extending through the apertures and the tube section, the bearing support including a floor section, the side walls respectively including lower edges that are joined by the floor section.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present disclosure will hereinafter be described in conjunction with the following drawing figures, wherein like numerals denote like elements.

(2) FIG. 1 shows a perspective view of a bearing support according to a first configuration of the present disclosure, fastened to a side member;

(3) FIG. 2 is a vertical section through the bearing support;

(4) FIG. 3 shows a view of a rear part of a vehicle underbody with bearing supports of the type shown in FIGS. 1 and 2;

(5) FIG. 4 is a longitudinal section through a side member, a bearing support and a zero support;

(6) FIG. 5 shows a view of the underbody with links mounted to the bearing supports;

(7) FIG. 6 is a lateral view of the underbody and of a link mounted thereon;

(8) FIG. 7 shows a view of the underbody and the link mounted thereon obliquely from below;

(9) FIG. 8 is a section along the plane VIII-VIII from FIG. 6; and

(10) FIG. 9 is a section analogous to FIG. 2 according to a second configuration.

DETAILED DESCRIPTION

(11) The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding background of the invention or the following detailed description.

(12) FIG. 1 shows a bearing support 1, which is to serve for the suspension of a link of a rear axle in a motor vehicle. The bearing support 1 is shown in the installation orientation as applicable on the finished vehicle at the oblique perspective of the view from below.

(13) The bearing support 1 is joined from two parts, a three dimensionally formed sheet metal stampings 2 and a tube section 3. The sheet metal stampings 2 include two approximately diamond-shaped side walls 4 which are approximately parallel to one another or slightly diverging towards the top, which side walls 4 are unitarily joined along their lower edges via a floor section 5. An upper edge of the side walls 4 is followed by steps 6 each standing away in vehicle transverse direction to opposite sides and flanges 7 angled upwards are formed at an outer edge of the steps 6.

(14) In a central region of the side walls 4, a circular hole is cut out in each case. The tube section 3 is pushed into the holes that are aligned with one another and welded to the side walls 4 along the edges of the holes.

(15) In the region of the holes and the tube section 3, the distance between the side walls 4 is comparatively small. From there, the distance and the width of the floor section 5 increase in vehicle longitudinal direction towards the front and towards the rear, while the width of the steps 6 decreases at the same time so that the front and rear tips of the diamond-shaped side walls 4 directly reach up against the flanges 7.

(16) Above the bearing support 1, a piece of a side member 8 is visible which, typically joined from multiple components, extends from a front bumper located on the left on the other side of the limits of FIG. 1 over the entire length of the motor vehicle as far as to a rear bumper located on the right on the other side of the limits of FIG. 1. The piece shown in FIG. 1 includes a component 9 in the form of a channel that is open towards the top which, by way of a placed-on closing plate welded to flanges extending at the edges of the component 9 such as for example the flange 10 visible in the figure, is to be complemented to form a hollow section with closed cross section.

(17) Below the flange 10 there extends a side wall 11 and a floor wall 12 of the component 9. A second side wall 13 (see for example FIG. 2) of the component 9 is concealed in FIG. 1 and not visible.

(18) In the side walls 11, 13, a flat indentation is stamped which receives the flanges 7 of the bearing support 1 over a large part of their length and in which the flanges 7 are welded to the side walls 11, 13. In FIG. 1, an upper edge 14 of the depression of the side wall 11 is noticeable and extends at uniform distance to the section of the floor wall 12 concealed by the bearing support 1 in FIG. 1. By way of the course of the upper edge 14 it is thus easily imagined that the floor wall 12 in the concealed section forms an indentation with a flank rising in the vehicle longitudinal direction towards the rear in the region marked by an arrow 15 and an approximately horizontal flank following thereon and extending towards the rear as far as to beyond the bearing support 1, and that the rising flank connects a front section 16 of the side member with a rear section 17 extending at a higher level. The front section 16 extends through below a passenger cell (not shown in the figure) of the vehicle towards the front. The rear section 17 extends above a rear axle (not shown in the figure) towards the rear of the vehicle.

(19) A rear edge of the sheet metal stampings 2 is formed by a flange 18 which extends approximately horizontally in vehicle transverse direction between the rear ends of the flanges 7 and is welded to the floor wall 12. A flange 19 extending horizontally in the vehicle transverse direction also connects the front ends of the flanges 7. In contrast with the rear flange 18, the front flange 19 however does not lie against the floor wall 12 and front ends of the lateral flanges 7 also project downwards over and beyond the floor wall 12. These front ends and the flange 19 are provided for being welded to a rear zero mount of the vehicle, as will still be explained in more detail later on.

(20) FIG. 2 shows a section through the bearing support and the side member 8 along a section plane extending vertically and, in the vehicle, transverse direction. The section plane coincides with a longitudinal axis 20 of the tube section 3. Evident are the indentations on the side walls 11, 13 of the side member in which the flanges 7 of the bearing support engage and the floor wall 12 lying on the steps 6 of the bearing support 1. The abovementioned closing plate, which completes the component 9 to form the side member 8, is a seat panel 21 of the passenger cabin which carries a rearward row of seats and extends as far as to the opposite side of the vehicle.

(21) FIG. 3 shows a view from below of a rear part of a vehicle underbody 99. Starting out from the rear of the vehicle at the lower edge of the figure, the following follow one another along a longitudinal center plane 22: a load compartment floor 23, in which a spare wheel trough is molded, a cross member 24, the floor panel 21, a heel plate 25 and a center tunnel 26. The heel plate 25 substantially extends vertically in order to bridge a difference in height between the seat panel 21 and two floor panels 27 extending on both sides of the center tunnel 26.

(22) The side members 8 are welded to the cross member 24, the heel plate 25 and possibly further cross members to form a ladder-type frame, into which the load compartment floor 25, the seat panel 21 and the floor panels 27 are placed and welded to flanges projecting from the side members and cross members.

(23) The rear section 17 of the side members 8 extends between the load compartment floor 23, the cross member 24 and the seat panel 21 on the one hand and a rear wheelhouse 28 on the other hand. Here, the front section 16 is offset relative to the rear section 17 not only vertically but also laterally and forms a sill extending along the outer edges of the floor panels 27.

(24) In the seat panel 21, two troughs 29 are molded which reach up as far as to the flanges 10 of the two side members 8 and which, in their profile visible in FIG. 1 are depicted as indentation 30 above the tube section 3.

(25) At the transition between front section 16 and rear section 17 a bearing support 1 each is mounted on the lower side of the two side members 8. The longitudinal axes 20 of the bearing supports 1 lie on a same line. The front flanges 19 of the bearing supports 1, as already mentioned, are welded to a rear zero mount 31. In a base plate 32 of the zero mounts 31 facing the beholder in FIG. 3, holes 33 and protrusions 34 are formed, in which complementary contours of an assembly line conveying the vehicle from one assembly station to the next engage during the assembly of the vehicle.

(26) In order to make it possible for these complementary contours to engage adequately deep for a secure hold, the base plate 32 is held spaced from the floor wall 12. To this end, front flange 19 of the bearing support 1 is welded lying on the base plate 32 of the zero mount 31 as visible in the longitudinal section of FIG. 4 and an edge 36 of the base plate 32 facing the vehicle outside is welded to a lower side of a sill profile 35 forming a part of the front section 16 of the side member 8 (see also FIG. 7). At an edge of the base plate 32 which is not visible in FIG. 4 since located in front of the section plane and facing the longitudinal center plane 22, a leg 37 of the zero mount 31 is angled upwards and welded to the side wall 11 of the component 9 (see FIG. 7).

(27) FIG. 5 shows an extract of the underbody 99 as FIG. 3 in a view from below, with links 38 pivotably mounted to the bearing supports 1 about the axis 20. The two links 38 are curved hornlike and carry a fork 39 at one end, the two tines 40 of which engage about the side walls 4 of the bearing support 1 on both sides. A pin 41 is anchored on both tines 40 and extends along the axis 20 through the tube section 3 of the bearing support 1. The pin 41 is surrounded by an elastic sleeve 42 pressed into the tube section 3.

(28) A cross beam 43 is rigidly connected to both links 38 and couples the pivot movements about the axis 20 of these. Along the convex side of the link 38, the cross beam 43 is followed by a spring disc 44 which in the view of FIG. 5 conceals a spring arranged between it and the side member 8 extending above the same, and a counter bearing 45 of a shock absorber 46.

(29) The second end of each link 38 is a flange 47 with surface normal parallel to the axis 20, which is provided in order to mount a hub 48 of a wheel 49 thereon. So as not to conceal the flange 47, hub 48 and wheel 49 are drawn transparently as dashed outlines in FIG. 5.

(30) FIG. 6 shows a lateral view of the underbody 99 with the link 38 mounted on the bearing support 1. Clearly visible is the height profile of the side member 8 with the front section 16 extending in floor height of the passenger cell including the sill profile 35 and the rear section 17 extending at a higher level above the rear axle 50 extending through the flange 47, the spring marked with 51 and the shock absorber 46.

(31) The tines 40 of the link fork 39 have a semi-circular tip centered about the axis 20. The radius r of the semi-circle is smaller than the radius R of the tube section 3 of the bearing support 1, so that the tines 40 cannot strike the step 6 extending above and in vehicle longitudinal direction in front of the tube section 3 and not any other point of the underbody 99.

(32) FIG. 7 shows the underbody 99 with the two links 38 mounted thereon and connected by way of the cross beam 43 in a perspective view. In each case, an outside and a side facing the vehicle interior is visible of the links 38, the bearing supports 1, the side members 8. In particular on the zero mount 31 of the right vehicle side facing away from the beholder, the leg 37 angled upwards and welded to the side wall 11 of the side member and the outer edge 36 welded to the sill section 35 are clearly visible. This profile 36 merges into a flange 59 towards the front, which is welded to the heel plate 25. It can be easily followed that the bearing support 1 and the zero mount 31 adjoining thereon can also be designed in one piece according to a modification which is not separately drawn.

(33) FIG. 8 shows a section along the plane VIII-VIII of FIG. 6. The section plane extends horizontally through the axis 20. The viewing direction is upwards as in FIGS. 3 and 5 which is why of the link 38 only the parts located above the section plane are visible, i.e. the fork 39 and a piece adjoining the flange 47.

(34) The pin 41 is composed of a screw 52, which penetrates two bores in the tines 40 of the fork 39, and a nut 53 locking the screw 52 in the bores. The sleeve 42 includes a rigid sleeve 54 and an elastomer body 55 which annularly surrounds the sleeve 54 and covers 56, 57, which prevent a frictional contact of the elastomer body 55 with the tines 40 and support the elastomer body 55 in the axial direction in order to prevent excessive deformation of the elastomer body 55 when exposed to high loads.

(35) FIG. 9 shows a version of the bearing support 1 in a vertical section analogous to FIG. 2. The bearing support 1 is joined from two sheet metal stampings 2, each of which forms a side wall 4, a step 6 and a flange 7. The sheet metal stampings 2 are connected to one another via flanges 58 extending along the floor section 5.

(36) While at least one exemplary embodiment has been presented in the foregoing detailed description, it should be appreciated that a vast number of variations exist. It should also be appreciated that the exemplary embodiment or exemplary embodiments are only examples, and are not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the foregoing detailed description will provide those skilled in the art with a convenient road map for implementing an exemplary embodiment as contemplated herein. It should be understood that various changes may be made in the function and arrangement of elements described in an exemplary embodiment without departing from the scope of the invention as set forth in the appended claims.