Front end motor-generator system and hybrid electric vehicle operating method
First Claim
1. A hybrid electric front end motor-generator system, comprising:
- an internal combustion engine including an engine crankshaft having a front end opposite a rear end at which an engine flywheel is located, the engine being configured to transfer torque from the rear end of the crankshaft to a torque consumer;
a motor-generator;
a torque transfer segment having a motor-generator end configured to receive the motor-generator and to transfer torque between the motor-generator end and a coupling end of the torque transfer segment; and
an integrated switchable coupling having a coupling rotation axis arranged co-axially with a crankshaft rotation axis, the integrated switchable coupling being located between the coupling end of the torque transfer segment and the front end of the engine crankshaft in a region adjacent to a front end of the engine, the integrated switchable coupling includingan engine-side portion coupled to the engine crankshaft,a drive-side portion coupled to the torque transfer segment coupling end, andan engagement actuator configured to selectively engage the engine-side portion with the drive-side portion, at least a portion of the engagement actuator being concentrically surrounded by the drive portion along the coupling rotation axis;
an engine accessory drive arranged to be driven by the drive-side portion of the integrated switchable coupling and to drive at least one engine accessory;
an energy storage system, the energy storage system includingan energy store configured to store electrical energy generated by the motor-generator and to deliver stored electrical energy to the motor-generator to generate torque output from the motor-generator to the integrated switchable coupling, andan electrical energy conversion and distribution network configured to convert a current type of the electrical energy transferred between the motor-generator and the energy store between alternating current and direct current when the electrical energy is transferred from the motor-generator to the energy store and between direct current and alternating current when the electrical energy is transferred from the energy store to the motor-generator; and
a front end motor-generator system controller configured to switch the integrated switchable coupling actuator between engaged and disengaged states and control operation of the electrical energy conversion and distribution network during transfer of electrical energy between the motor-generator and the energy store,whereinthe integrated switchable coupling is a clutch-pulley-damper unit in whichthe engine-side portion of the integrated switchable coupling is a damper configured to damp vibrations of the crankshaft,the drive-side portion of the switchable coupling is a pulley configured to drive the engine accessory drive, andthe engagement actuator of the integrated switchable coupling is a clutch.
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Accused Products
Abstract
A system and method are provided for hybrid electric internal combustion engine applications in which a motor-generator, a narrow switchable coupling and a torque transfer unit therebetween are arranged and positioned in the constrained environment at the front of an engine in applications such as commercial vehicles, off-road vehicles and stationary engine installations. The motor-generator is preferably positioned laterally offset from the switchable coupling, which is co-axially-arranged with the front end of the engine crankshaft. The switchable coupling is an integrated unit in which a crankshaft vibration damper, an engine accessory drive pulley and a disengageable clutch overlap such that the axial depth of the clutch-pulley-damper unit is nearly the same as a conventional belt drive pulley and engine damper. The front end motor-generator system includes an electrical energy store that receives electrical energy generated by the motor-generator when the coupling is engaged. When the coupling is disengaged, the motor-generator may drive the pulley portion of the clutch-pulley-damper to drive the engine accessories using energy returned from the energy store, independent of the engine crankshaft.
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Citations
23 Claims
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1. A hybrid electric front end motor-generator system, comprising:
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an internal combustion engine including an engine crankshaft having a front end opposite a rear end at which an engine flywheel is located, the engine being configured to transfer torque from the rear end of the crankshaft to a torque consumer; a motor-generator; a torque transfer segment having a motor-generator end configured to receive the motor-generator and to transfer torque between the motor-generator end and a coupling end of the torque transfer segment; and an integrated switchable coupling having a coupling rotation axis arranged co-axially with a crankshaft rotation axis, the integrated switchable coupling being located between the coupling end of the torque transfer segment and the front end of the engine crankshaft in a region adjacent to a front end of the engine, the integrated switchable coupling including an engine-side portion coupled to the engine crankshaft, a drive-side portion coupled to the torque transfer segment coupling end, and an engagement actuator configured to selectively engage the engine-side portion with the drive-side portion, at least a portion of the engagement actuator being concentrically surrounded by the drive portion along the coupling rotation axis; an engine accessory drive arranged to be driven by the drive-side portion of the integrated switchable coupling and to drive at least one engine accessory; an energy storage system, the energy storage system including an energy store configured to store electrical energy generated by the motor-generator and to deliver stored electrical energy to the motor-generator to generate torque output from the motor-generator to the integrated switchable coupling, and an electrical energy conversion and distribution network configured to convert a current type of the electrical energy transferred between the motor-generator and the energy store between alternating current and direct current when the electrical energy is transferred from the motor-generator to the energy store and between direct current and alternating current when the electrical energy is transferred from the energy store to the motor-generator; and a front end motor-generator system controller configured to switch the integrated switchable coupling actuator between engaged and disengaged states and control operation of the electrical energy conversion and distribution network during transfer of electrical energy between the motor-generator and the energy store, wherein the integrated switchable coupling is a clutch-pulley-damper unit in which the engine-side portion of the integrated switchable coupling is a damper configured to damp vibrations of the crankshaft, the drive-side portion of the switchable coupling is a pulley configured to drive the engine accessory drive, and the engagement actuator of the integrated switchable coupling is a clutch. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A hybrid electric front end motor-generator system, comprising:
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an internal combustion engine including an engine crankshaft having a front end opposite a rear end at which an engine flywheel is located, the engine being configured to transfer torque from the rear end of the crankshaft to a torque consumer; a motor-generator; a torque transfer segment having a motor-generator end configured to receive the motor-generator and to transfer torque between the motor-generator end and a coupling end of the torque transfer segment; and an integrated switchable coupling having a coupling rotation axis arranged co-axially with a crankshaft rotation axis, the integrated switchable coupling being located between the coupling end of the torque transfer segment and the front end of the engine crankshaft in a region adjacent to a front end of the engine, the integrated switchable coupling including an engine-side portion coupled to the engine crankshaft, a drive-side portion coupled to the torque transfer segment coupling end, and an engagement actuator configured to selectively engage the engine-side portion with the drive-side portion, at least a portion of the engagement actuator being concentrically surrounded by the drive portion along the coupling rotation axis; an engine accessory drive arranged to be driven by the drive-side portion of the integrated switchable coupling and to drive at least one engine accessory; an energy storage system, the energy storage system including an energy store configured to store electrical energy generated by the motor-generator and to deliver stored electrical energy to the motor-generator to generate torque output from the motor-generator to the integrated switchable coupling, and an electrical energy conversion and distribution network configured to convert a current type of the electrical energy transferred between the motor-generator and the energy store between alternating current and direct current when the electrical energy is transferred from the motor-generator to the energy store and between direct current and alternating current when the electrical energy is transferred from the energy store to the motor-generator; and a front end motor-generator system controller configured to switch the integrated switchable coupling actuator between engaged and disengaged states and control operation of the electrical energy conversion and distribution network during transfer of electrical energy between the motor-generator and the energy store, wherein the torque transfer segment is a gearbox including a torque transfer drive, and the torque transfer drive includes at least a first gear arranged coaxially with the coupling rotation axis and a second gear arranged coaxially with the motor-generator rotation axis, the torque transfer drive being configured such that rotation of one of the first or second gears results in rotation of the other of the first and second gears. - View Dependent Claims (23)
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Specification