Method and apparatus for improved climate control function in a vehicle employing engine stop/start technology
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-019/00
출원번호
US-0916702
(2010-11-01)
등록번호
US-8560202
(2013-10-15)
발명자
/ 주소
Pebley, Kirk
Jackson, Kenneth J.
Gee, Thomas Scott
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Chea, Vichit
인용정보
피인용 횟수 :
3인용 특허 :
30
초록▼
An internal combustion engine has an engine shut-down system that automatically interrupts engine operation when vehicle operation indicates that no torque is required from the engine. An air conditioner compressor operates to cool a passenger compartment of the vehicle and is actuated in a first ph
An internal combustion engine has an engine shut-down system that automatically interrupts engine operation when vehicle operation indicates that no torque is required from the engine. An air conditioner compressor operates to cool a passenger compartment of the vehicle and is actuated in a first phase time, and is not actuated in a second phase time. An override system compares the time the compressor is in the enabled first phase time to the time the compressor is in the disabled second phase time. The override system disables the engine shut-down system unless it is determined that a ratio of the disabled second phase time to the enabled first phase time has a low rate of change, that the ratio is greater than a predetermined value, and that the time the compressor is in the disabled second phase is greater than a predetermined value.
대표청구항▼
1. An engine system for a vehicle comprising: an internal combustion engine having an engine shut-down system that automatically interrupts engine operation when vehicle operation indicates that no torque is required from the engine;an air conditioner compressor operative to cool a passenger compart
1. An engine system for a vehicle comprising: an internal combustion engine having an engine shut-down system that automatically interrupts engine operation when vehicle operation indicates that no torque is required from the engine;an air conditioner compressor operative to cool a passenger compartment of the vehicle, wherein the air conditioner compressor is enabled in a first phase time and is disabled in a second phase time; andan override system that compares the time the air conditioner compressor is in the first phase time to the time the air conditioner compressor is in the second phase time to disable the engine shut-down system. 2. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: the second phase time is greater than a predetermined time. 3. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: a ratio of the second phase time to the first phase time has a rate of change of less than a predetermined threshold. 4. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: the ratio of the second phase time to the first phase time is greater than a predetermined ratio. 5. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: a ratio of the second phase time to the first phase time has a rate of change less than a predetermined threshold, andthe second phase time is greater than a predetermined time. 6. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: a ratio of the second phase time to the first phase time has a rate of change less than a predetermined threshold, andthe ratio of the second phase time to the first phase time is greater than a predetermined ratio. 7. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: the second phase time is greater than a predetermined time, andthe ratio of the second phase time to the first phase time is greater than a predetermined ratio. 8. The engine system of claim 1, wherein the override system disables the engine shut-down system unless the override system determines that: a ratio of the second phase time to the first phase time has a rate of change less than a predetermined threshold,the second phase time is greater than a predetermined time, andthe ratio of the second phase time to the first phase time is greater than a predetermined ratio. 9. An engine system for a vehicle comprising: an engine;an air conditioner that cools a passenger compartment of the vehicle, the air conditioner includes a clutch that has a duty cycle that includes engaging and disengaging a compressor;an engine shut-down system that automatically interrupts engine operation when the engine torque required is below a predetermined value; andan override system that monitors the duty cycle of the clutch to disable the engine shut-down system. 10. The engine system of claim 9, wherein the override system prevents the engine shut-down system from automatically interrupting engine operation unless the override system determines that: the duty cycle has a rate of change less than a predetermined threshold,the compressor is disengaged for at least a predetermined time, andthe duty cycle is less than a predetermined ratio. 11. The engine system of claim 9, wherein the override system prevents the engine shut-down system from automatically interrupting engine operation unless the override system determines that: the duty cycle has a rate of change less than a predetermined threshold, andthe compressor is disengaged for at least a predetermined time. 12. The engine system of claim 9, wherein the override system prevents the engine shut-down system from automatically interrupting engine operation unless the override system determines that: the duty cycle has a rate of change less than a predetermined threshold, andthe duty cycle is less than a predetermined ratio. 13. The engine system of claim 9, wherein the override system prevents the engine shut-down system from automatically interrupting engine operation unless the override system determines that: the duty cycle has a rate of change less than a predetermined threshold. 14. The engine system of claim 9, wherein the override system prevents the engine shut-down system from automatically interrupting engine operation unless the override system determines that: the compressor is disengaged for at least a predetermined time. 15. The engine system of claim 9, wherein the override system prevents the engine shut-down system from automatically interrupting engine operation unless the override system determines that: the duty cycle is less than a predetermined ratio. 16. An air conditioning system for a vehicle having an engine and an engine shut-down system that automatically stops the engine, the air conditioning system comprising: a compressor;a clutch that engages the compressor in an activated phase and that disengages the compressor in a deactivated phase;a clutch status signal generator that generates a clutch status signal that indicates that the clutch is either in the activated phase or in the deactivated phase; anda control module that monitors the clutch status signal and enables the engine stop system upon the determination that:a ratio of the deactivated phase time to the activated phase time has a rate of change of approximately zero,the deactivated phase time is greater than a predetermined time, andthe ratio of the deactivated phase time to the activated phase time is greater than a predetermined ratio.
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이 특허에 인용된 특허 (30)
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Kotwicki, Allan Joseph; Blaha, George; Dage, Gerhard A.; Russell, John David; Cullen, Michael John, Control method for a vehicle having an engine and an accessory device.
Kotwicki,Allan Joseph; Blaha,George; Dage,Gerhard A.; Russell,John David; Cullen,Michael John, Control method for a vehicle having an engine and an accessory device.
Aldrich, III, William L.; O'Connell, Glenn P.; Hoang, Tony T.; Velliky, Michael L., Method and system for alternator load modeling for internal combustion engine idle speed control.
Bolander William J. (Clarkston MI) Witkowski Michael R. (Sterling Heights MI), Method for adjusting engine output power to compensate for loading due to a variable capacity air conditioning compresso.
Sakurai Yoshihiko (Saitama JPX), Method of controlling idling rotational speed of internal combustion engine for vehicles equipped with air conditioning.
Vanek Laurence D. (Girard PA) Smith Myron L. (Fairview PA) Aboyade Ojekunle (Erie PA), Method to compute horsepower required by an internal combustion engine coupled to an auxiliary alternator.
Rademacher, Eric Michael; Pebley, Kirk; Tomik, Filip; Celinske, David; Symanow, David Anthony, Control of vehicle electrical loads during engine auto stop event.
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