DE2332309A1 - Independent road wheel suspension - has steering link rod dependent roll compensator - Google Patents

Abstract

To reduce roll on cornering, the effective load supporting spring length is altered correspondingly to compensate by means of a stop fitted to the steering link arm which turns a lever on its axis. The roll can also be reduced hydraulically in the case of hydraulic or hydropneumatic suspension by allowing the steering link stop to displace a hydraulic piston in a cylinder to exercise an influence on the hydraulic suspension system and raise the body work on the outside wheels. Basically it is possible to raise a mechanical suspension hydraulically and a hydraulic system mechanically.

Description

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Suspension for steered and unguided Motor vehicle wheels

The invention relates to a wheel suspension for steered and unguided wheels of vehicles with one on wheel guide members suspended, wheel carriers as well as an intermediary wheel load bearing spring element.

The general trend in passenger car construction is known to be that the scrub radius in the interest of a good braking stability is built smaller, as negative as possible. In most cases it means that the disturbance force lever arm also becomes smaller, so that the ram of the steering is favorably influenced. On the other hand, the aim is to To keep the spread within limits, in the interest of good camber characteristics when turning the wheel, especially for wide ones Tires. Since, however, both by reducing the disturbance lever arm and by reducing the spread and increasing the overtravel, the static reset torque is also reduced, is missing in vehicles whose front suspension for optimal camber characteristics and Braking stability is designed, the "center-point feeling" that by lifting the car body when turning the wheel. Usual front axle designs with positive spread and positive caster angle also experience a lowering of the car body on the outside of the curve, which is an additional unwanted curve inclination results.

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The invention is now based on the object of avoiding the difficulties and disadvantages of the known designs and to achieve the lifting of the car body by other means, and the axis parameters: spread and disturbance force lever arm as well as caster and rolling radius regardless of the self-aligning torque to be able to choose.

This object is achieved according to the invention in that one of the articulation points of the spring element displaceably and indirectly mechanically and / or in the direction of the spring force is hydraulically linked to the steering gear.

An advantageous embodiment of the wheel suspension according to the invention is that a coupled to the steering gear Rod has a stop which is in operative connection with an angle lever and the lever about its axis of rotation is adjustable against the spring force of an interposed wheel load-bearing spring element.

Furthermore, it is provided according to the invention that a spring strut consists of an element that can be acted upon by medium and a piston rod coupled to a steering system via a cylinder, and the shock absorber when the wheel is turned can be acted upon with medium.

Further details of the invention are explained in more detail in a description of the drawings below. Show it

Fig. 1 shows an embodiment of a wheel suspension for a vehicle wheel, in which a point of articulation of the wheel bearing The spring element is moved indirectly by the steering gear and

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FIG. 2 shows a wheel suspension according to FIG. 1, but with one hydropneumatic spring element and hydraulic control by a steering gear.

Between the structure 4 of a vehicle and the wheel guide member 1, there is a spring element 2 or 3, its point of application is shifted indirectly by the steering gear in the direction of the spring force, whereby an increase in the steering angle Wheel load or a lifting of the front end is achieved. There is a possibility that on the outside of the curve a stronger lifting of the vehicle is caused.

According to the invention according to FIGS. 1 and 2 it is provided that a point of articulation of the wheel load-bearing spring element 2 or mechanically and / or hydraulically through a steering gear 9 or 14 indirectly through the steering wheel in the direction of the spring force is movable. The spring shift is not caused by a rotation or pivoting of a wheel carrier (steering knuckle) initiated, but by the steering gear or by the steering wheel via a lever gear, possibly also via a screw joint with a non-linear characteristic. This arrangement makes it possible to lift the car body to effect even on non-steered wheels. As a result, when lifting on one side, e.g. when the outside of the curve The wheel takes on more of the lifting of the car body, a rolling moment of the car body in the same direction at the front and rear Rear axle can be achieved. This prevents part of the static restoring torque on the steering wheel from being affected by the real lifting work on the car body comes from, but rather from the stored spring energy with opposing rolling moments on the front and rear axles.

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In Fig. 1, such an embodiment of a wheel suspension is shown in which the lifting of the front end is effected. Approximately transversely to the vertical vehicle center longitudinal plane, a rod 10 with a stop 11 is displaced by the steering gear 9 or the steering wheel when the wheel is turned. When turning to one side, preferably at the wheel on the outside of the curve, the stop 11 rotates the lever 12 about the axis I ^ · This changes the spring length and increases the wheel load or the car body is raised. When turning in the other direction, preferably on the inside wheel, the rod 10 with the stop 11 moves loosely through the eye IJ of the lever 12, which is supported against the force of the spring 2 on the stop H fixed to the vehicle. In principle, it is also possible to let the lever 12 act on the wheel-side end of the spring element 2; the lever mechanism can also be designed differently, above all the stops can be replaced by non-linear lever ratios or helical gears.

In Fig. 2, a hydraulic or hydro-pneumatic version is shown. Here, by influencing the suspension, the car body is raised when the steering wheel is turned. When turning to one side, preferably the outer wheel, the steering system 14 pushes the piston rod 15 with the stop 18 into the cylinder 16 and the displaced fluid exerts pressure on the suspension system 19 so that the car body is raised. When turning to the other side (preferably the wheel on the inside of the curve), the stop 20 rests so that the piston rod Vj is not pushed any further out of the cylinder 16.

fundamentally}. a mechanical spring can be influenced hydraulically or mechanically Hydraul j H suspension. Likewise, non-linearity can accumulate through stops on >) ■■

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can be achieved through variable lifting gear ratios.

With the implementation of a wheel suspension according to the invention, even with low or negative spread values and Disturbing force lever arms a static restoring torque through a Raising the car body achieved. The axis parameters (spread, scrub radius or disturbance lever arm) can also be used without consideration the "center point feeling" solely in the interest of good braking stability, good camber characteristics, low impact and low steering fiddling. Additionally a lifting of the car body or a cornering effect can also be achieved on a non-steered axle.

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Claims (3)

2337309 _ 6 - R 42 Claims ! ./ Wheel suspension for steered and unguided wheels of vehicles with a wheel carrier suspended on wheel guide members and an interposed wheel load-bearing spring element, characterized in that one of the articulation points (5 or 6, 7 or 8) of the spring element (2; 3) can be adjusted in the direction of the firepower and is articulated indirectly mechanically and / or hydraulically to the steering gear (9; 14). 2. Wheel suspension according to claim 1, characterized in that a rod (10) coupled to the steering gear (9) has a Has stop (11) which is in operative connection with a lever (12) and counteracts the lever about its axis of rotation (I3) the spring force of a wheel load-bearing spring element (2) is adjustable. 3. Wheel suspension according to claim 1, characterized in that that a strut (3) from a can acted upon with medium Element consists and a piston rod (15) coupled to the steering system (14) via a cylinder (16) when the wheel is turned the shock absorber can also be acted upon with medium. 409884/0587 ORIGINAL INSPECTED