Method and arrangement in a hybrid vehicle for maximizing efficiency by operating the engine at sub-optimum conditions
First Claim
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1. An arrangement for a vehicle steering-wheel, said arrangement comprising:
- a hub for fixing to a steering column;
a bowl-shaped element connected to the hub with at least one spoke, the at least one spoke further connecting the bowl-shaped element to a steering-wheel rim;
wherein the hub, the bowl-shaped element and the at least one spoke are integrally formed as a single material item;
the bowl-shaped element further comprising a casing for enclosing an airbag and a means for inflating the airbag in the event of a collision involving the vehicle; and
a wall section of the bowl-shaped element at least partly forming a part of the means for inflating the airbag.
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Abstract
Method for optimizing the operational efficiency of a hybrid electric vehicle is disclosed. The method comprises operating an engine of a hybrid electric vehicle preferentially on an optimized power curve of the engine for maximizing the efficiency of the engine and sensing a state-of-charge (SOC) condition of a battery of the hybrid electric vehicle being at a preferential value indicative of no additional charging being desired. The running torque of the engine is reduced below the optimized torque curve to a point that the power produced by the engine is substantially equal to the power demanded for driving the hybrid electric vehicle.
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Citations
7 Claims
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1. An arrangement for a vehicle steering-wheel, said arrangement comprising:
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a hub for fixing to a steering column;
a bowl-shaped element connected to the hub with at least one spoke, the at least one spoke further connecting the bowl-shaped element to a steering-wheel rim;
wherein the hub, the bowl-shaped element and the at least one spoke are integrally formed as a single material item;
the bowl-shaped element further comprising a casing for enclosing an airbag and a means for inflating the airbag in the event of a collision involving the vehicle; and
a wall section of the bowl-shaped element at least partly forming a part of the means for inflating the airbag. - View Dependent Claims (2, 3, 4, 5, 6, 7)
affecting the reduction in running torque of the engine by adjusting air flow to, fuel flow to, and ignition parameters at the engine.
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3. The method as recited in claim 1 further comprising:
reconfiguring the drive train of the hybrid electric vehicle from a negative power-split mode in which engine power is split through a planetary gear arrangement between the drive wheels and the generator to a parallel mode in which the generator is locked and all engine power is output to the drive wheels of the hybrid electric vehicle through the planetary gear arrangement.
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4. The method as recited in claim 3 further comprising:
minimizing time spent in negative power-split mode and maximizing time spent in parallel mode.
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5. The method as recited in claim 1 further comprising:
avoiding utilization of the generator to motor the engine to a slowed operational speed thereby avoiding sequential charge and discharge cycles in the drive train of the hybrid vehicle.
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6. The method as recited in claim 5 further comprising:
reducing energy losses in the power train of the hybrid electric vehicle by avoiding charge and discharge of the hybrid electric vehicle'"'"'s battery.
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7. The method as recited in claim 5 further comprising:
reducing cooling requirements for the hybrid electric vehicle'"'"'s battery.
Specification