Variable shock absorber with integrated controller, actuator and sensors
First Claim
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1. A variable shock absorber assembly, comprising:
- a) a shock body with first attachment means on a first end of said shock body for attaching said shock body to a first component,b) said shock body having controllable valve means formed therein for varying the flow of a fluid,c) aperture means formed on an opposite end of said shock body from said first end, said aperture means provided for telescopically accepting a piston rod and sealingly retaining said fluid within said shock body,d) said piston rod having second attachment means also formed thereon for attaching said piston rod to a dust cover,e) said dust cover having a hollow cavity formed therein which telescopically accepts a portion of said shock body within said cavity,f) third attachment means for attaching said shock absorber assembly to a second component,g) motive means comprising a stepper motor integrated into said shock absorber for providing the force needed to move said controllable valve means,h) sensor means integrated into said shock absorber assembly for providing an input signal indicative of at least one of the group containing relative displacement between said first and second component, absolute displacement of said second component, relative velocity between said first and second component, absolute velocity of said second component, relative acceleration between said first and second component, absolute acceleration of said second component, internal pressure in said shock absorber assembly, and force exerted on said shock absorber assembly,i) an electronic controller for controlling damping behavior externally mounted on and integral to said shock absorber assembly for providing a control signal to said motive means responsive to said input signal;
a gear-type potentiometer for determining and providing a feedback signal proportional to one from the group containing rotational position and rotational velocity of said motive means for allowing positioning of said valve means.
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Abstract
A variable shock absorber assembly of the adaptive or semi-active type or an active actuator wherein the actuator, sensors, electronic controller and valving are integral to and integrated into one assembly and comprise one compact integral unit. Feedback control provides a signal proportional to and indicative of the actuator position and velocity. The compact system is temperature compensated by incorporating temperature sensors into the integrated assembly. The integrated system also provides diagnostics integral to the assembly and an LED mounted on the assembly for providing a visual indication of system condition.
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Citations
26 Claims
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1. A variable shock absorber assembly, comprising:
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a) a shock body with first attachment means on a first end of said shock body for attaching said shock body to a first component, b) said shock body having controllable valve means formed therein for varying the flow of a fluid, c) aperture means formed on an opposite end of said shock body from said first end, said aperture means provided for telescopically accepting a piston rod and sealingly retaining said fluid within said shock body, d) said piston rod having second attachment means also formed thereon for attaching said piston rod to a dust cover, e) said dust cover having a hollow cavity formed therein which telescopically accepts a portion of said shock body within said cavity, f) third attachment means for attaching said shock absorber assembly to a second component, g) motive means comprising a stepper motor integrated into said shock absorber for providing the force needed to move said controllable valve means, h) sensor means integrated into said shock absorber assembly for providing an input signal indicative of at least one of the group containing relative displacement between said first and second component, absolute displacement of said second component, relative velocity between said first and second component, absolute velocity of said second component, relative acceleration between said first and second component, absolute acceleration of said second component, internal pressure in said shock absorber assembly, and force exerted on said shock absorber assembly, i) an electronic controller for controlling damping behavior externally mounted on and integral to said shock absorber assembly for providing a control signal to said motive means responsive to said input signal; a gear-type potentiometer for determining and providing a feedback signal proportional to one from the group containing rotational position and rotational velocity of said motive means for allowing positioning of said valve means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A variable shock absorber assembly, comprising:
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a) a shock body with first attachment means on a first end of said shock body for attaching said shock body to a first component, b) said shock body having controllable valve means formed therein for varying the flow of a fluid, c) aperture means formed on an opposite end of said shock body from said first end, said aperture means provided for telescopically accepting a piston rod and sealingly retaining said fluid within said shock body, d) said piston rod having second attachment means also formed thereon for attaching said piston rod to a dust cover, e) said dust cover having a hollow cavity formed therein which telescopically accepts a portion of said shock body within said cavity, f) third attachment means for attaching said shock absorber assembly to a second component, g) motive means integrated into said shock absorber for providing the force needed to move said controllable valve means, h) sensor means integrated into said shock absorber assembly for providing an input signal indicative of at least one of the group containing relative displacement between said first and second component absolute displacement of said second component relative velocity between said first and second component absolute velocity of said second component relative acceleration between said first and second component absolute acceleration of said second component, internal pressure in said shock absorber assembly and force exerted on said shock absorber assembly, i) an electronic controller for controlling damping behavior externally mounted on and integral to said shock absorber assembly for providing a control signal to said motive means responsive to said input signal, said electronic controller being integral with said dust cover. - View Dependent Claims (15)
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16. A variable shock absorber assembly comprising:
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a) a shock body with first attachment means on a first end of said shock body for attaching said shock body to a first component, b) said shock body having controllable valve means formed therein for varying the flow of a fluid, c) aperture means formed on an opposite end of said shock body from said first end said aperture means provided for telescopically accepting a piston rod and sealingly retaining said fluid within said shock body, d) said piston rod having second attachment means also formed thereon for attaching said piston rod to a dust cover, e) said dust cover having a hollow cavity formed therein which telescopically accepts a portion of said shock body within said cavity, f) third attachment means for attaching said shock absorber assembly to a second component, g) motive means integrated into said shock absorber for providing the force needed to move said controllable valve means, h) sensor means integrated into said shock absorber assembly for providing an input signal indicative of at least one of the group containing relative displacement between said first and second component absolute displacement of said second component, relative velocity between said first and second component, absolute velocity of said second component, relative acceleration between said first and second component, absolute acceleration of said second component, internal pressure in said shock absorber assembly, and force exerted on said shock absorber assembly, said sensor means being positioned on and built into a circuit board of said electronic controller for controlling damping behavior; and i) an electronic controller for controlling damping behavior externally mounted on and integral to said dust cover of said shock absorber assembly for providing a control signal to said motive means responsive to said input signal. - View Dependent Claims (17, 18, 19)
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20. A variable shock absorber assembly, comprising:
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a) a shock body with first attachment means on a first end of said shock body for attaching said shock body to a first component, b) said shock body having controllable valve means formed therein for varying the flow of a fluid, c) aperture means formed on an opposite end of said shock body from said first end, said aperture means provided for telescopically accepting a piston rod and sealingly retaining said fluid within said shock body, d) said piston rod having second attachment means also formed thereon for attaching said piston rod to a dust cover, e) said dust cover having a hollow cavity formed therein which telescopically accepts a portion of said shock body within said cavity, f) third attachment means for attaching said shock absorber assembly to a second component, g) motive means integrated into said shock absorber for providing the power needed to move said controllable valve means, h) a sensor means integrated into said shock absorber assembly for providing an input signal indicative of at least one of the group containing relative displacement between said first and second component, absolute displacement of said second component, relative velocity between said first and second component, absolute velocity of said second component, relative acceleration between said first and second component, absolute acceleration of said second component, internal pressure in said shock absorber assembly and force exerted on said shock absorber assembly, i) an electronic controller for controlling the damping behavior externally mounted on and integral to said shock absorber assembly for providing a control signal to said motive means responsive to said input signal, and j) diagnostic means integrated into said shock absorber assembly for providing diagnostic analysis of the condition of said shock absorber assembly by blinking out error codes through an LED integral to and attached to an external portion of said shock absorber.
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21. A variable shock absorber assembly, comprising:
- diagnostic means integrated into a shock absorber for providing diagnostic analysis of the condition of the shock absorber via blinking out at least one from the group consisting of error codes, maximum excursions, and maintenance warnings through an LED integral to and attached to an external portion of said shock absorber.
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22. A variable shock absorber assembly, comprising:
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a) a cylindrical shock body with a first resilient bushing formed upon a first end of said shock body for attaching said cylindrical shock body to a first vehicle component; b) aperture means formed on an opposite end of said cylindrical shock body from said first end, said aperture means provided for telescopically accepting a piston rod during extension of said shock absorber assembly and sealingly retaining a fluid within said cylindrical shock body; c) said shock body having controllable valve means capable of multiple position settings formed therein for varying the flow of said fluid d) means for attaching said piston rod to a dust cover; e) said dust cover having a hollow cavity formed therein which accepts a portion of said shock body within said cavity; f) a second resilient bushing for attaching said dust cover to a second vehicle component; g) a motive means for providing the motive force needed to move said controllable valve means, said motive means integrated into said shock absorber assembly; h) a sensor means integrated into said dust cover for providing a sensor signal proportional to at least one of the group containing relative displacement, and relative velocity of said first and second vehicle components; i) electronic controller for controlling damping behavior integrated into a housing attached to a side of said dust cover for providing a control signal to said motive means responsive said sensor signal. - View Dependent Claims (23)
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24. A shock absorber assembly, comprising:
an electronic controller for controlling damping behavior externally mounted on and integral with a shock absorber for processing an input signal and providing a control signal to said shock absorber responsive to said input signal, a temperature sensing means integrated into, and attached to an external portion of, said electronic controller wherein the shock absorber is temperature compensated to vary the damping dependent on the ambient temperature.
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25. A variable shock absorber assembly, comprising:
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a) a shock body with first attachment means on a first end of said shock body for attaching said shock body to a first component, b) said shock body having controllable valve means formed therein for varying the flow of a fluid, c) aperture means formed on an opposite end of said shock body from said first end, said aperture means provided for telescopically accepting a piston rod and sealingly retaining said fluid within said shock body, d) said piston rod having second attachment means also formed thereon for attaching said piston rod to a dust cover, e) said dust cover having a hollow cavity formed therein which telescopically accepts a portion of said shock body within said cavity, f) third attachment means for attaching said shock absorber assembly to a second component, g) motive means integrated into said shock absorber for providing the force needed to move said controllable valve means, h) a sensor means integrated into said shock absorber assembly for providing an input signal indicative of at least one of the group containing relative displacement between said first and second component, absolute displacement of said second component, relative velocity between said first and second component, absolute velocity of said second component, relative acceleration between said first and second component, absolute acceleration of said second component, internal pressure in said shock absorber assembly and force exerted on said shock absorber assembly, i) an electronic controller for controlling damping behavior externally mounted on and integral to said shock absorber assembly for providing a control signal to said motive means responsive to said input signal, j) said shock absorber assembly is temperature compensated to vary the damping dependent on the ambient temperature and a temperature sensing means is integrated into, and attached to an external portion of, said electronic controller. - View Dependent Claims (26)
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Specification