초록

A dual-circuit cooling system for a vehicle is disclosed. One of the circuits may be used to manage the temperature of the engine while the other circuit may be used to manage the temperature of a component other than the engine. An associated method is disclosed.

대표청구항 ▼

The invention claimed is: 1. A dual-circuit cooling system for a vehicle, comprising: an endless loop first fluid circuit, an endless loop second fluid circuit, and a pump integrated into both the first fluid circuit and the second fluid circuit so as to be in common therewith to pump coolant there

The invention claimed is: 1. A dual-circuit cooling system for a vehicle, comprising: an endless loop first fluid circuit, an endless loop second fluid circuit, and a pump integrated into both the first fluid circuit and the second fluid circuit so as to be in common therewith to pump coolant therethrough, the pump situated such that the first fluid circuit is fluidly parallel to the second fluid circuit, the first fluid circuit comprising a first radiator, a first radiator bypass in parallel with the first radiator, a first heat exchanger positioned to receive coolant from the first radiator and the first radiator bypass and associated with an engine of the vehicle for transferring heat between the engine and the first heat exchanger, the pump, and a first thermostat for selectively directing coolant between the first radiator and the first radiator bypass in response to temperature, and the second fluid circuit comprising a second radiator, a second radiator bypass in parallel with the second radiator, a second heat exchanger positioned to receive coolant from the second radiator and the second radiator bypass and associated with a component of the vehicle other than the engine for transferring heat between the component and the second heat exchanger, the pump, and a second thermostat for selectively directing coolant between the second radiator and the second radiator bypass in response to temperature. 2. The dual-circuit cooling system of claim 1, wherein the second thermostat directs coolant to the second radiator bypass in response to temperatures below a predetermined temperature and directs coolant to the second radiator in response to temperatures above the predetermined temperature. 3. The dual-circuit cooling system of claim 1, wherein the second thermostat is positioned fluidly between the pump and the second radiator and between the pump and the second radiator bypass. 4. The dual-circuit cooling system of claim 1, wherein the second heat exchanger comprises a charge air cooler such that the second thermostat controls flow of coolant to the charge air cooler via the second radiator and the second radiator bypass. 5. The dual-circuit cooling system of claim 1, wherein the second heat exchanger comprises a hydraulic oil cooler such that the second thermostat controls flow of coolant to the hydraulic oil cooler via the second radiator and the second radiator bypass. 6. The dual-circuit cooling system of claim 1, wherein the second heat exchanger comprises a transmission oil cooler such that the second thermostat controls flow of coolant to the transmission oil cooler via the second radiator and the second radiator bypass. 7. A dual-circuit cooling system for a vehicle, comprising: a first fluid circuit for managing the temperature of an engine of the vehicle, a second fluid circuit fluidly coupled to the first fluid circuit and comprising a radiator and a radiator bypass in parallel with the radiator for use in managing the temperature of a component of the vehicle other than the engine, and a pump integrated into both the first fluid circuit and the second fluid circuit so as to be in common therewith to pump coolant common to both the first fluid circuit and the second fluid circuit therethrough, the pump situated such that the first fluid circuit is fluidly parallel to the second fluid circuit. 8. The dual-circuit cooling system of claim 7, wherein the second fluid circuit comprises a thermostat for selectively directing flow of coolant between the second radiator and the radiator bypass in response to temperature. 9. The dual-circuit cooling system of claim 8, wherein the thermostat directs coolant to the radiator bypass in response to temperatures below a predetermined temperature and directs coolant to the radiator in response to temperatures above the predetermined temperature. 10. The dual-circuit cooling system of claim 8, wherein the thermostat comprises a first outlet fluidly coupled to the radiator and a second outlet fluidly coupled to the radiator bypass. 11. The dual-circuit cooling system of claim 8, wherein: a pump is fluidly coupled to both the first fluid circuit and the second fluid circuit to pump coolant therethrough, and the thermostat comprises an inlet fluidly coupled to the pump, a first outlet fluidly coupled to the radiator, and a second outlet fluidly coupled to the radiator bypass. 12. The dual-circuit cooling system of claim 7, wherein: the second fluid circuit comprises a charge air cooler for cooling air supplied to the engine of the vehicle, and the charge air cooler is positioned to receive coolant from the radiator and the radiator bypass. 13. The dual-circuit cooling system of claim 7, wherein: the second fluid circuit comprises a hydraulic oil cooler for cooling hydraulic oil of the vehicle, and the hydraulic oil cooler is positioned to receive coolant from the radiator and the radiator bypass. 14. The dual-circuit cooling system of claim 7, wherein: the second fluid circuit comprises a transmission oil cooler for cooling transmission oil of the vehicle, and the transmission oil cooler is positioned to receive coolant from the radiator and the radiator bypass. 15. The dual-circuit cooling system of claim 7, wherein the dual-circuit cooling system is onboard the vehicle. 16. A method of operating a dual-circuit cooling system of a vehicle, the dual-circuit cooling system comprising an endless loop first fluid circuit an endless loop second fluid circuit, and a pump integrated into both the first fluid circuit and the second fluid circuit so as to be in common therewith, the pump situated such that the first fluid circuit is fluidly parallel to the second fluid circuit, the method comprising: thermostatically managing the temperature of an engine of the vehicle by use of the first fluid circuit, advancing coolant between the first fluid circuit and the second fluid circuit by use of the pump, and thermostatically managing the temperature of a component of the vehicle other than the engine by use of the second fluid circuit, the second fluid circuit comprising a radiator and a radiator bypass in parallel with the radiator, wherein the thermostatically managing the temperature of the component comprises selectively directing coolant common to both the first fluid circuit and the second fluid circuit between the radiator and the radiator bypass in response to temperature. 17. The method of claim 16, wherein the selectively directing comprises advancing coolant through the bypass to the component. 18. The method of claim 16, wherein the selectively directing comprises advancing coolant simultaneously through the bypass and the radiator to the component. 19. The method of claim 16, wherein the selectively directing comprises advancing coolant through the radiator, but not the radiator bypass, to the component. 20. The method of claim 16, wherein: the radiator and the radiator bypass are part of a parallel flow arrangement, and the thermostatically managing the temperature of the component comprises advancing coolant from the parallel arrangement to a charge air cooler, a hydraulic oil cooler, and at least one of a transmission and an oil cooler.