Active control of a vehicle occupant's body in frontal collision
First Claim
1. An active control for damping a vehicle occupant'"'"'s body motion during a frontal collision comprising, a vehicle frame, a seat frame slidably mounted on said vehicle frame, said seat frame being slidable along a longitudinal axis relative to the vehicle, a seat mounted on said seat frame, said seat adapted to support an occupant, a fluid motor connected between the vehicle frame and the seat frame, an hydraulic circuit connected to said fluid motor, and control means for measuring the seat position relative to the longitudinal axis of the Vehicle and the angular position of an occupant'"'"'s upper torso relative to the lower torso for controlling the flow of hydraulic fluid to said fluid motor, whereby the impact from a frontal collision is dampened by energizing the fluid motor, to thereby apply a force to the vehicle seat in a direction opposite from the point of impact to dampen the forward linear movement of the seat.
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Accused Products
Abstract
An active control of a vehicle occupant'"'"'s body in a frontal collision including a double-acting hydraulic cylinder connected between a vehicle seat frame and a vehicle frame upon which the seat frame is slidabley mounted for movement in a longitudinal direction relative to the vehicle. The seat frame is releasably fixed to the vehicle frame by a solenoid actuated detent controlled by a microprocessor electrically connected to an accelerometer. A linear variable differential transformer measures the linear position of the seat and a rotary variable differential transformer measures the angular motion of the occupant'"'"'s body. The transformers transmit signals to the microporcessor which in turn transmits signals responsive thereto to a directional control valve which controls the hydraulic fluid supplied to and exhausted from the double-acting hydraulic cylinder for controlling the forward sliding movement of the seat depending upon the severity of the impact level.
45 Citations
8 Claims
- 1. An active control for damping a vehicle occupant'"'"'s body motion during a frontal collision comprising, a vehicle frame, a seat frame slidably mounted on said vehicle frame, said seat frame being slidable along a longitudinal axis relative to the vehicle, a seat mounted on said seat frame, said seat adapted to support an occupant, a fluid motor connected between the vehicle frame and the seat frame, an hydraulic circuit connected to said fluid motor, and control means for measuring the seat position relative to the longitudinal axis of the Vehicle and the angular position of an occupant'"'"'s upper torso relative to the lower torso for controlling the flow of hydraulic fluid to said fluid motor, whereby the impact from a frontal collision is dampened by energizing the fluid motor, to thereby apply a force to the vehicle seat in a direction opposite from the point of impact to dampen the forward linear movement of the seat.
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8. An active control for damping a vehicle occupant'"'"'s body motion during a frontal collision comprising, a vehicle frame, a seat frame slidably mounted on said vehicle frame, said seat frame being slidable along a longitudinal axis relative to the vehicle, a seat mounted on said seat frame, said seat adapted to support an occupant, a fluid motor comprising a cylinder connected to the vehicle frame and a piston rod connected to the seat frame, an hydraulic circuit connected to said fluid motor, said hydraulic circuit comprising, an hydraulic fluid reservoir, a motor driven pump, an accumulator, said motor driven pump communicating with said reservoir and said accumulator for supplying hydraulic fluid from said reservoir to said accumulator, a directional control valve communicating with said accumulator and said cylinder, whereby pressurized hydraulic fluid is supplied to and exhausted from the cylinder for controlling the extension and retraction of said piston rod, and control means for controlling the flow of hydraulic fluid to said fluid motor, said control means comprising, a linear variable differential transformer operatively connected between the vehicle frame and seat frame for measuring the seat position relative to the longitudinal axis of the vehicle, a rotary variable differential transformer connected to the seat frame, a rigid strip, one end of said rigid strip being connected to the occupant'"'"'s upper torso, the other end of said rigid strip being connected to said rotary variable differential transformer, whereby the angular motion of the occupant'"'"'s upper torso related to the lower torso is measured, a microprocessor, and an electrical circuit connected between said linear and rotary variable differential transformers and said microprocessor, and between said microprocessor and said directional control valve, whereby signals are transmitted to the directional control valve from said microprocessor in response to signals from said linear and rotary variable differential transformers, thereby energizing the fluid motor to dampen the impact from a frontal collision by applying a force to the vehicle seat in a direction opposite from the point of impact to dampen the forward linear movement of the seat and associated occupant.
Specification