Process to prevent the overturning of a vehicle around its longitudinal axis
First Claim
1. A process to prevent overturning of a vehicle around a longitudinal axis of said vehicle when rounding a curve, in which danger of overturning is evaluated, and braking is automatically applied as required, comprising the following steps:
- a) applying a first braking force to at least one first wheel of said vehicle, wherein said at least one first wheel is on the inside of said curve, b) wherein an indication of a potential overturning of said vehicle requires a characteristic reduction of a rotational speed of said at least one first wheel on the inside of said curve, c) applying a second braking force to at least one second wheel of said vehicle, wherein said at least one second wheel is on the outside of said curve, to prevent said vehicle from overturning, d) wherein said first braking force is weaker than said second braking force, e) terminating said first and second braking forces when a rotational speed of said at least one first wheel on the inside of said curve accelerates in a predetermined characteristic manner.
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Accused Products
Abstract
A process to prevent a vehicle, such as a tractor-trailer, from overturning while negotiating a curve recognizes the potential for overturning, and automatically activates a preventive braking process. In addition, the automatic braking process is terminated in a timely fashion to avoid overbraking the vehicle. This is accomplished by subjecting at least one wheel on the inside of the curve to a relatively weak braking force during the automatic braking process, and by adjusting the braking parameters in accordance with the vehicle'"'"'s response characteristics.
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Citations
9 Claims
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1. A process to prevent overturning of a vehicle around a longitudinal axis of said vehicle when rounding a curve, in which danger of overturning is evaluated, and braking is automatically applied as required, comprising the following steps:
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a) applying a first braking force to at least one first wheel of said vehicle, wherein said at least one first wheel is on the inside of said curve, b) wherein an indication of a potential overturning of said vehicle requires a characteristic reduction of a rotational speed of said at least one first wheel on the inside of said curve, c) applying a second braking force to at least one second wheel of said vehicle, wherein said at least one second wheel is on the outside of said curve, to prevent said vehicle from overturning, d) wherein said first braking force is weaker than said second braking force, e) terminating said first and second braking forces when a rotational speed of said at least one first wheel on the inside of said curve accelerates in a predetermined characteristic manner. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
f) determining a transverse acceleration level of said vehicle, g) comparing said transverse acceleration level to a predetermined threshold level of said transverse acceleration, h) using the difference between said transverse acceleration level and said predetermined threshold level to indicate a potential overturning of said vehicle.
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3. The process of claim 1, wherein said indication of a potential overturning of said vehicle further requires that a characteristic reduction of said rotational speed of said at least one first wheel on the inside of said curve is achieved.
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4. The process of claim 3, wherein a verification is made to ascertain whether a rotational speed of said at least one second wheel on the outside of said curve remains essentially unchanged.
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5. The process of claim 4, wherein anti-lock braking system slippage signals for said at least one first wheel on the inside of said curve are disabled.
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6. The process of claim 5, wherein a predetermined threshold level of a transverse acceleration is varied as a function of the vehicle'"'"'s reaction to said first braking force.
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7. The process of claim 5, wherein a predetermined threshold level of a transverse acceleration is varied as a function of the vehicle'"'"'s transverse acceleration.
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8. The process of claim 5, wherein said first braking force is initiated only when a predetermined threshold level of a transverse acceleration is exceeded.
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9. The process of claim 8, wherein a plurality of transverse acceleration signals derived from corresponding wheel rotational speeds are used to improve the validity of a vehicle transverse acceleration determination.
Specification