DE1240413B - Independent wheel suspension and suspension for vehicles - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN Wjf ^ PATENT OFFICE

EDITORIAL

Int. Cl .:

B62d

B 60 g
German class: 63 c - 40

Number: 1 240 413

File number: R 32927 11/63 c

Filing date: June 15 , 1962

Open date: May 11, 1967

The invention relates to an independent suspension and suspension for vehicles, in which the wheels are arranged at the free end of a trailing arm whose outside of the wheel circumference horizontal swivel hub anchored to the chassis by means of an inner and outer swivel bearing and is fixedly connected to one end of a torsion bar extending through the hub, the transverse to the longitudinal direction of the vehicle and the other end of which is held non-rotatably on the chassis.

In a known independent wheel suspension of this type, the two trailing arms are cantilevered by means of their hubs on the chassis. For this purpose, strong pipe journals extend on both sides of the side members of the chassis, each of which forms the fixed part of the pivot bearing associated with each pivot hub. These two pipe journals must be made very strong in order to be able to absorb the considerable forces exerted by the trailing arms at their clamping point, ao Another disadvantage of the known wheel suspension is that the pivot hubs of the arm are relatively short. As a result, the inner and outer pivot bearings of a pivot hub have a relatively small distance from one another, as a result of which they are exposed to high loads, since bending moments can consequently only be absorbed with a relatively short lever arm. The reason for the short training the swing boys in the known construction is that the hub engages the fixed spigot from the outside and must protrude still a considerable distance beyond the outer pivot bearing out to taper there and in the connection point '■ with the relevant torsion bar to pass. Furthermore, in the known arrangement, the torsion bars, each having the shape of a tube, of the individual wheels belonging to an axle interlock. This results in a cumbersome construction and the difficulty that the swivel hub of the two trailing arms can only be made short. Another disadvantage is that care must be taken to center the torsion bars. In addition, due to its shortness, the swivel hub requires particularly good bearings, for example complex needle bearings, in order to absorb the bending moments that occur.

The object of the invention is to provide an independent wheel suspension and suspension for vehicles To create the type mentioned above, which is simple and stable, a large distance between the inner and outer independent suspension and suspension for vehicles

Applicant:

Directed by Nationale des Usines Renault,

Billancourt, Seine (France)

Representative:

Dr.-Ing. E. Liebau, patent attorney,
Göggingen via Augsburg,
Von-Eichendorff-Str. 10

Claimed priority:

France of June 16, 1961 (865 198)

Pivot bearing and a particularly simple arrangement of the torsion bars allows.

This object is achieved according to the invention in that the outer pivot bearing relative to the inner pivot bearing is anchored on a separate bearing block or longitudinal member of the chassis and that the associated torsion bar in the area of the outer pivot bearing with the pivot hub of is connected in a rotationally fixed manner on the inside, the two torsion bars of associated wheels on the one hand and on the other side of the vehicle offset from one another and connected to the chassis in a rotationally fixed manner Ends of the torsion bars on the side member of the opposite of the wheel in question Chassis are set offset accordingly. By using a separate bearing block or longitudinal member of the chassis on which the outer pivot bearing is arranged, and accordingly By dispensing with a cantilever arrangement, an enlargement of the can be achieved in a simple manner Achieve distance between the inner and outer pivot bearing. This will reduce the stress on the Bearing significantly reduced when bending moments occur. Furthermore, according to the invention is the Corresponding torsion bar in the area of the outer swivel bearing with the ScTiwenknabe from the inside non-rotatably connected. The outer pivot bearing can thus follow up to the outer end of the torsion bar be offset on the outside, which also increases the distance between the inside and the outside Pivot bearing benefits.

709 579/264

The inventive arrangement of the torsion bars, in which only one within each pivot hub a single rod is provided, avoids centering problems. For this reason, too, it is therefore it is not necessary to use roller bearings for the mounting of the swivel hub, which are naturally expensive are.

The invention is described below on the basis of an exemplary embodiment shown in the drawing explained in more detail. It shows

Fig. 1 shows a rear suspension and suspension of a vehicle according to the invention in a plan view, wherein the left independent suspension is partially shown in section,

Fig. 2 is a side view of the left independent suspension according to Fig. 1, with the wheel removed,

F i g. 3 shows the end view of one with an adjusting device provided torsion bar deposit, seen in the direction of arrow III of Fig. 1,

F i g. 4 shows a detailed view of a pivot bearing of a trailing arm in section and in an enlarged view Scale,

Fig. 5 is a detailed view of the other, outer pivot bearing of this. Trailing arm in section and on a larger scale.

In the drawing, particularly in FIG. 1, 1 and 2 are the left and right rear wheels Vehicle referred to, the partially and in dash-dotted lines shown chassis in particular two longitudinal members 3 and 4 comprises.

Each wheel is mounted at the free end of a trailing arm 5, the other end on a tubular Hub 6 is placed, which forms the pivot axis of the trailing arm and at both ends in two bearings 7 and 8 fixedly connected to the chassis.

The hub 6 assigned to the left wheel 1 carries within the bearing 8 a sleeve 9 which is torsionally rigid is connected to the hub 6 and has a profile bore 10 into which the hexagon 11 formed The end of a round torsion bar 12 is inserted torsionally rigid. The torsion bar 12 penetrates in the axial direction Direction of the hub 6 and the bearing 7 adjacent to the side member 3 and extends over the other longitudinal beam 4 addition, where its also formed as a hexagon other end in a sleeve 13 is anchored, which has an inner profile and is adjustable in its angular position, as later to be described in more detail.

This suspension and cushioning by means of a torsion bar described above for the left wheel 1 is the same in its general arrangement for the right wheel 2; only the two torsion bars 12, 12 ¹ arranged at the same height are offset from one another by an amount D in the longitudinal direction of the vehicle, which results in a corresponding offset of the wheels, the center distance E of which corresponds to the distance D in the longitudinal direction.

In the illustrated and described embodiment, the bearing 7 has a trailing arm and the adjusting sleeve 13 of the torsion bar of the other trailing arm has a common bearing block 15, which is attached to the outside of the respective longitudinal member 3 or 4, for. B. by means of three Screws 16, which penetrate the side member.

The bearing 7 (F i g. 4) comprises an elastic bearing bush, which consists of a rubber sleeve 17 which is firmly adhered to inner and outer sleeves 18,19 is connected, the outer sleeve 19 being firmly connected to the hub 6. The inner sleeve 18, which the torsion bar 12 penetrates freely, is with the interposition of a ring 20 in an opening 21 of the lower Part of the bearing block 15 attached, which is down over the corresponding longitudinal beam extends beyond (Fig. 3).

The bearing 8 is arranged in a bearing block 22 which, by means of screws 24, is attached to a chassis longitudinal member 23 is attached and a tubular part 25 comprises. Between the tubular part 25 and the sleeve 9 arranged at the end of the hub 6 is an elastic bearing bush 26, 27, 28 arranged.

The elastic bearing bush (Fig. 5) consists of a rubber sleeve 26, which is firmly adhered to a inner sleeve 27 and an outer sleeve 28 is connected, the latter fixed to the tubular Part 25 is connected. The sleeve 27 is pushed onto the end sleeve 9, and in both parts are radial bores are provided in which a connecting pin or behind the end of the torsion bar -splint 29 is inserted.

On the other hand, the sleeve 13 used to attach each torsion bar to the chassis is included a transverse lever 30, the sleeve together with its lever in an open bearing 31 is arranged, which is provided in the lower part of the bearing block 15. The bearing block 15 has two side cheeks, between which the lever 30 is freely rotatably guided (Fig. 1 and 3).

The lever 30 is used to adjust the bias of the torsion bar, of which the height of the Chassis depends on the roadway. It can be opposite the adjacent side member of the chassis be adjusted in its angular position. For this purpose it is provided with an arched end provided, which has bores 32 which are distributed on a circular arc concentric to the sleeve 13 are arranged and the locking of the lever with respect to the longitudinal beam by means of a screw 33 allow, which penetrates the side member. In the embodiment shown, the lever five holes 32, which are evenly distributed over an arc of 30 °, while in the side member two bores 34 are provided for the passage of the screw 33, the distance between them is one and a half times the distance between two bores 32, whereby an adjustment is made possible by an eighth of the aforementioned arc of 30 °. In addition, the socket 13 a twelve-sided inner profile, so that the corresponding hexagonal end of the torsion bar in the If necessary, the socket can be offset by 30 °.

From the F i g. 1 and 3 it can be seen that each of the longitudinal beams, which in the illustrated embodiment is designed as a U-beam with upper side bars are, at the point of the bearing block 15 and the adjustable mounting of the lever 30 by an additional U-profile 35 is reinforced, with the passage points of the screws 33 also have reinforcing washers 36 provided with a bore are arranged, between which serving to accommodate the aforementioned screw spacer sleeves 37 extend.

^{The torsion bars 12, 12 1} running below the side members are painted and painted

by means of a covered rubber hose 38 against the damaging influences of the outside air and against damage Protected by foreign bodies thrown off the road by the vehicle wheels.

The suspension and cushioning of each wheel is finally provided by a telescopic shock absorber 40 completed. This is in a slightly inclined position to the horizontal between one Deflection lever arm 41 of the trailing arm 5, which extends upwards from the latter at its articulation point stretches, and arranged on a bearing block 42 fastened to the outside of the respective longitudinal member. In this way, a favorable arrangement is achieved under the vehicle floor.

The shock absorber cylinder 43 is connected at 44 to the end of the rocker arm 41 while the piston rod 45 is fastened to the bearing block 42 at a point 46 lower than 44, so that the inner working chamber of the shock absorber, which is in the usual way at the end of the shock absorber cylinder which is opposite to the end penetrated by the piston rod, normally located in the higher upper part of the shock absorber. The shock absorber can be made with elastic Stop buffers may be provided to limit wheel movement, with one stop buffer in the Cylinder is arranged and serves as an end stop during rebound, while the other at the end of the Piston rod is arranged and when compressing the shock absorber during compression as an end stop serves the suspension.

Parts of the description and the exemplary embodiment that go beyond the wording of the claims and the drawings are for explanatory purposes only and are not part of the invention.

Claims (2)

Patent claims: 1. Independent suspension and suspension for vehicles, in which the wheels are arranged at the free end of a trailing arm, the swivel hub of which is located outside the wheel circumference anchored to the chassis by means of an inner and outer swivel bearing and fixed to one end of a torsion bar extending through the hub which runs transversely to the longitudinal direction of the vehicle and the other end of which is held non-rotatably on the chassis, characterized in that the outer pivot bearing (8) opposite the inner pivot bearing (7) on a separate bearing block (22) or longitudinal member (23) of the chassis is anchored and that the associated torsion bar (12 or 12 ¹ ) in the area of the outer pivot bearing (8) is non-rotatably connected to the pivot hub (6) from the inside, the two torsion bars (12, 12 ¹ ) of associated wheels (1, 2) arranged offset to one another on one and the other side of the vehicle and the ends of the rotating bars connected to the chassis in a rotationally fixed manner äbe are fixed accordingly offset on the side member (4 or 3) of the chassis opposite the wheel (1, 2) in question. 2. Independent wheel suspension according to claim 1, characterized in that the pivot hub (6) of each trailing arm (5) is mounted in a known manner in elastic bearings (17, 26). Considered publications:
German Patent No. 646 447;
German patent application H 9027II / 63 c
made known on January 29, 1953). 1 sheet of drawings 709 579/264 5. 67 © Bundesdruckerei Berlin