A cooling system includes: a shutter grille provided to an air guide port configured to guide air to a power compartment in which a power source of a vehicle is installed; a radiator configured to radiate heat from coolant for cooling the power source; a radiator fan configured to send the air to the radiator and the power source; a shutter grille controller configured to control opening and closing of the shutter grille; and a radiator fan controller configured to control the radiator fan. If a power source load on the power source is less than predetermined power source load, and if an air conditioning load on an air conditioner is equal to or greater than predetermined air conditioning load, the shutter grille controller and the radiator fan controller operate the radiator fan with the shutter grille closed.

A cooling system includes: a shutter grille provided to an air guide port configured to guide air to a power compartment in which a power source of a vehicle is installed; a radiator configured to radiate heat from coolant for cooling the power source; a radiator fan configured to send the air to the radiator and the power source; a shutter grille controller configured to control opening and closing of the shutter grille; and a radiator fan controller configured to control the radiator fan. If a power source load on the power source is less than predetermined power source load, and if an air conditioning load on an air conditioner is equal to or greater than predetermined air conditioning load, the shutter grille controller and the radiator fan controller operate the radiator fan with the shutter grille closed.

Disclosed is an engine temperature regulating device installed to a cool air inlet of a casing of an engine. The engine temperature regulating device includes a power source, a link rod module connected to the power source, a control module and a fan cover module including a fixed casing and a movable casing. The control module is provided for detecting a temperature when the engine is turned on to control the power source to drive the link rod module, so as to control the rotation of the connected movable casing and further adjust an air intake hole of the fixed casing to a smooth or obscured state.

Disclosed is an engine temperature regulating device installed to a cool air inlet of a casing of an engine. The engine temperature regulating device includes a power source, a link rod module connected to the power source, a control module and a fan cover module including a fixed casing and a movable casing. The control module is provided for detecting a temperature when the engine is turned on to control the power source to drive the link rod module, so as to control the rotation of the connected movable casing and further adjust an air intake hole of the fixed casing to a smooth or obscured state.

A vehicle has a front grille, engine, engine compartment, power storage device, temperature sensor, shutter, heater and controller. The device can be electrically charged from an external power supply. The temperature sensor detects engine coolant temperature. The shutter is disposed in a transfer pathway of air drawn into the engine compartment via the front grille, and is switched between closed and open states. The heater is able to generate heat when receiving the electric power, raising the coolant temperature. The controller starts the engine when the coolant temperature is lower than a startup threshold value, drives the heater when the coolant temperature is lower than a first threshold value equal to or higher than the startup threshold value, until the coolant temperature becomes equal to or higher than the first threshold value, and drives the shutter to place the shutter in the closed state while the heater is driven.

A vehicle has a front grille, engine, engine compartment, power storage device, temperature sensor, shutter, heater and controller. The device can be electrically charged from an external power supply. The temperature sensor detects engine coolant temperature. The shutter is disposed in a transfer pathway of air drawn into the engine compartment via the front grille, and is switched between closed and open states. The heater is able to generate heat when receiving the electric power, raising the coolant temperature. The controller starts the engine when the coolant temperature is lower than a startup threshold value, drives the heater when the coolant temperature is lower than a first threshold value equal to or higher than the startup threshold value, until the coolant temperature becomes equal to or higher than the first threshold value, and drives the shutter to place the shutter in the closed state while the heater is driven.

A controller includes a forced-induction-device controlling section, an obtaining section that is configured to repeatedly obtain a temperature of the coolant in the intake-air cooling system, a determining section that is configured to determine whether the temperature obtained by the obtaining section is higher than or equal to a forced-induction limiting control starting temperature. On condition that the temperature of the coolant has risen to a value at which the determining section determines that the temperature obtained by the obtaining section is higher than or equal to the forced-induction limiting control starting temperature, the forced-induction-device controlling section starts a forced-induction limiting control to lower a forced-induction pressure In the forced-induction limiting control, the forced-induction-device controlling section increases an extent of limiting of the forced induction as the temperature obtained by the obtaining section becomes closer to the boiling point.

A controller includes a forced-induction-device controlling section, an obtaining section that is configured to repeatedly obtain a temperature of the coolant in the intake-air cooling system, a determining section that is configured to determine whether the temperature obtained by the obtaining section is higher than or equal to a forced-induction limiting control starting temperature. On condition that the temperature of the coolant has risen to a value at which the determining section determines that the temperature obtained by the obtaining section is higher than or equal to the forced-induction limiting control starting temperature, the forced-induction-device controlling section starts a forced-induction limiting control to lower a forced-induction pressure In the forced-induction limiting control, the forced-induction-device controlling section increases an extent of limiting of the forced induction as the temperature obtained by the obtaining section becomes closer to the boiling point.

A system for optimizing power consumption of a vehicle includes a cooling fan, an active grille shutter (AGS) system, and a plurality of heat exchangers. At least one controller is provided including a processor including computer-executable instructions for selecting a pairing of a cooling fan speed and AGS system position to provide a required airflow to a dominant one of the plurality of heat exchangers, or to an entire vehicle component system, at a minimum total combined cooling fan and AGS system power consumption. Methods for optimizing vehicle power consumption are described utilizing the system.

Methods and systems are provided for cooling assembly configured to control a temperature of a vehicle component relying on cooling from a cooling air stream. In one example the cooling assembly may include a plurality of blades fixed to a surface of a cooling device. The cooling assembly may be bimetallic so that a position of the blades is self-regulatory and automatically adjusted based on heat conduction.