Adaptive electronic control suspension system and a control method of the system
First Claim
1. A control method for an adaptive electronic suspension system, comprising the steps of:
- sensing a vehicle speed by a detecting signal which is output from a vehicle speed sensor;
sensing a steering angle by a detecting signal which is output from a steering angle sensor;
computing an odd number variable from the vehicle speed and the steering angle;
determining the odd number variable is smaller than a predetermined value; and
converting a damping force of a wheel damper into “
hard mode”
when the odd number variable is larger, and converting the damping force of the wheel damper into “
soft mode”
after a time delay when the odd number variable is smaller and a damping force of a wheel damper is in “
hard mode”
.
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Abstract
According to the controller for an adaptive electronic suspension system and the control method of the system, it becomes possible to improve the driving performance and steering stability by controlling the damping force of the variable damper considering vehicle speed, steering angle, opening amount of throttle valve, up/down acceleration, brake operation, axle acceleration etc., wherein the controller for an adaptive electronic suspension system includes a vehicle speed sensor, a steering angle sensor, a throttle position sensor, an up/down acceleration sensor, a brake switch, an axle acceleration sensor and an electronic controller for controlling to convert damping force of dampers of four wheels into “hard mode”, “medium mode” and “soft mode” by checking up driving state of the vehicle according to detecting signals output from the sensors and driving front and rear actuators to change passages by rotation of control rods.
18 Citations
15 Claims
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1. A control method for an adaptive electronic suspension system, comprising the steps of:
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sensing a vehicle speed by a detecting signal which is output from a vehicle speed sensor;
sensing a steering angle by a detecting signal which is output from a steering angle sensor;
computing an odd number variable from the vehicle speed and the steering angle;
determining the odd number variable is smaller than a predetermined value; and
converting a damping force of a wheel damper into “
hard mode”
when the odd number variable is larger, and converting the damping force of the wheel damper into “
soft mode”
after a time delay when the odd number variable is smaller and a damping force of a wheel damper is in “
hard mode”
.
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2. A control method for an adaptive electronic suspension system, comprising the steps of:
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sensing a vehicle speed by a detecting signal which is output from a vehicle speed sensor;
sensing an opening amount of a throttle valve mounted on an intake manifold by a detecting signal which is output from a throttle position sensor;
differentiating the opening amount of the throttle valve from the throttle position sensor;
computing a squirt variable (Q) from the opening amount of the throttle valve from the throttle position sensor;
determining as to whether the squirt variable (Q) is smaller than a predetermined value (Cr1); and
converting a damping force of a wheel damper into “
medium mode”
when the squirt variable (Q) is larger than the predetermined value (Cr1), while converting the damping force of the wheel damper into “
soft mode”
when the squirt variable (Q) is smaller than the predetermined value and the damping mode of the wheel damper is recognized to be “
medium mode”
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3. A control method for an adaptive electronic suspension system, comprising the steps of:
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sensing a vehicle speed by a detecting signal which is output from a vehicle speed sensor;
sensing an up/down acceleration value (G) according to a detecting signal output from an up/down acceleration sensor;
reading a value of control map;
determining as to whether the vehicle speed of the vehicle speed sensor is smaller than or equal to a reference vehicle speed (V1);
determining as to whether an absolute value of the up/down acceleration value G is larger than or equal to a predetermined value (g1), when the vehicle speed is smaller than or equal to the reference value (V1);
converting a damping force of a wheel damper into “
hard model”
when the absolute value of the up/down acceleration value G is larger than or equal to the predetermined value (g1);
converting the damping force of the wheel damper from “
hard mode”
into “
soft mode”
in sequence, when the absolute value of the up/down acceleration value (G) is smaller than the predetermined value (g1), or when the vehicle speed is smaller than the absolute value of the up/down acceleration value (G) and predetermined values (g, g2) according to sizes of the vehicle speed and the reference vehicle speed value (V3) if the vehicle speed is smaller than the reference vehicle speed (V1); and
converting the damping force of the wheel damper into “
hard mode”
when the absolute value of the up/down acceleration speed value (G) is larger than or equal to the predetermined values (g, g2), after comparing the absolute value of the up/down acceleration speed value (G) with the predetermined values (g, g2) according to the sizes of the vehicle speed and the reference vehicle speed value (V3) if the vehicle speed is smaller than the reference vehicle speed (V1). - View Dependent Claims (4, 5, 6)
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7. A control method for an adaptive electronic suspension system comprising the steps of:
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determining operation state of a brake switch;
computing a damping force (dV) by reading vehicle speed;
comparing the damping speed (dV) with a predetermined damping speed (dV1);
converting a damping force of a wheel damper into “
soft mode”
after a predetermined time delay, when the damping speed (dV) is smaller than the predetermined damping speed (dV1) or it is “
hard mode” and
the brake is not in operation; and
converting the damping force of the wheel damper into “
hard mode”
when the damping speed (dV) is larger than the predetermined damping speed (dV1) but smaller than a predetermined damping speed (dV2), and converting the damping force of the wheel damper into “
hard mode”
during an emergency warning light is blinking when the damping speed (dV) is larger than the random damping speed (dV2). - View Dependent Claims (8)
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9. A control method for an adaptive electronic suspension system comprising the steps of:
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sensing a vehicle speed by a detecting signal which is output from a vehicle speed sensor;
determining as to whether the vehicle speed is smaller than 5 km/h, to convert a damping force of a wheel damper into “
hard mode”
if smaller, and determining as to whether the vehicle speed is larger than a predetermined vehicle speed (V3) if not smaller;
converting the damping force of the wheel damper in response to change of vehicle speed if the vehicle speed is determined not to be larger than the predetermined vehicle speed (V3); and
comparing the vehicle speed with a predetermined vehicle speed (V4) if the vehicle speed is determined to be larger than the predetermined vehicle speed (V3), to convert the damping force of the wheel damper. - View Dependent Claims (10, 11, 12, 14)
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13. A control method for an adaptive electronic suspension system comprising the steps of:
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obtaining a frequency ratio (W), a surface roughness (R), and a surface height (H) by processing an up/down acceleration value and an axle acceleration value;
obtaining a variable Wc in relation to the frequency ratio (W) and the surface roughness (R);
comparing the variable (Wc) with “
0”
, to convert a damping force of a wheel damper into “
hard mode”
when the variable (Wc) is larger than “
0”
, and to convert the damping force of the wheel damper according to the surface roughness (R); and
checking the damping force of the wheel damper when the variable Wc is not larger than “
0”
, to convert the damping force of the wheel damper into “
soft mode”
in case of “
hard mode”
, and to convert the damping force of the wheel damper into “
medium mode”
or “
soft mode”
according to the surface roughness R in case of any other mode than “
hard mode”
.
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15. A controller for an adaptive electronic suspension system comprising:
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a vehicle speed sensor for detecting a vehicle speed;
a steering angle sensor for detecting a steering angle;
a throttle position sensor for detecting an opening amount of a throttle valve which is mounted on an intake manifold;
an up/down acceleration sensor for detecting an acceleration in the up and down directions of a vehicle;
a brake switch for detecting whether a brake in operation or not;
an axle acceleration sensor for detecting an acceleration in the direction of axle of the vehicle; and
an electronic controller for controlling damping forces of dampers of four wheels into “
hard mode”
, “
medium mode” and
“
soft mode”
in such a manner that a driving state of the vehicle is determined according to detecting signals output from the vehicle sensor, the steering angle sensor, the throttle position sensor, the up/down acceleration sensor, the axle acceleration sensor and the brake switch, and front actuators and rear actuators which are mounted on upper parts of the wheel dampers are driven to change passages by rotation of control rods.
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Specification