Abstract: A control apparatus for a vehicle disclosed herein is applied to a vehicle configured to perform pre-air conditioning of the interior of the vehicle by starting an internal combustion engine according to a remote control signal sent from a remote controller. When starting pre-air conditioning according to the remote control signal, the control apparatus sets the control mode of the vehicle to a drive-disabling mode, which is a control mode that disables an operation for driving the vehicle. If a specific mode-cancelling operation is detected in a situation in which the remote controller is present in the interior of the vehicle while the control mode of the vehicle is being set to the drive-disabling mode, the control apparatus cancels the drive-disabling mode while leaving the internal combustion engine operating.

Abstract: A vehicle control device includes a controller configured to execute: receiving a remote signal containing a target temperature in a cabin and an expected traveling start time of a vehicle; performing preheating of the cabin in a second air-conditioning mode in which the preheating is performed by using an electric heat pump when a temperature in the cabin is predicted to be increasable to the target temperature in the second air-conditioning mode before the expected traveling start time, the preheating being based on a remote operation; and performing the preheating of the cabin in a first air-conditioning mode in which the preheating is performed by using exhaust heat generated when an internal combustion engine operates when the temperature in the cabin is predicted not to be increasable to the target temperature in the second air-conditioning mode before the expected traveling start time.

Abstract: A control system includes a manual-type air conditioner, and a control device which causes the manual-type air conditioner to execute remote air conditioning in response to a command from outside of a vehicle. The control device starts actuation of the manual-type air conditioner with a maximum temperature as a target blowout temperature of an air-conditioning air and a maximum air quantity as a target air quantity in response to a trigger command of the remote air conditioning, and gradually changes and reduces the target air quantity while gradually changing the target blowout temperature toward a target intermediate temperature with elapse of time. The control device changes the target blowout temperature and the target air quantity respectively to a set blowout temperature and a set air quantity at a time of previous disembarkment, when boarding of a user to the vehicle is detected.

Abstract: A vehicle control device includes a controller configured to execute: receiving a remote signal containing a target temperature in a cabin and an expected traveling start time of a vehicle from a remote controller used by a user of the vehicle; calculating a catalyst warming period which is an estimated period required to warm, to an active temperature, an electrically heated catalyst; calculating a pre-air conditioning period which is an estimated period required to adjust a temperature in the cabin to the target temperature; and starting pre-air conditioning of the cabin by starting an internal combustion engine after completion of warming of the electrically heated catalyst when a sum of the catalyst warming period and the pre-air conditioning period is equal to or shorter than a starting time margin from a time of reception of the remote signal to the expected traveling start time.

Abstract: A control system includes a manual-type air conditioner, and a control device which causes the manual-type air conditioner to execute remote air conditioning in response to a command from outside of a vehicle. The control device starts actuation of the manual-type air conditioner with a maximum temperature as a target blowout temperature of an air-conditioning air and a maximum air quantity as a target air quantity in response to a trigger command of the remote air conditioning, and gradually changes and reduces the target air quantity while gradually changing the target blowout temperature toward a target intermediate temperature with elapse of time. The control device changes the target blowout temperature and the target air quantity respectively to a set blowout temperature and a set air quantity at a time of previous disembarkment, when boarding of a user to the vehicle is detected.

Abstract: An air conditioning control device senses a turning off of an ignition or a power supply of a vehicle, and stores a time of the turning off that is sensed at the vehicle, and stores a time of the turning off that is acquired by communication of a portable information terminal with the vehicle, and senses an advance setting command for pre-air-conditioning that operates an air conditioner of the vehicle, and determines absence or presence of the advance setting command, and, in a case in which it is determined that there is the advance setting command, instructs of execution of pre-air-conditioning control of the air conditioner on the basis of the time of the turning off that is sensed at the vehicle and the time of the turning off that is acquired by the communication of the portable information terminal with the vehicle.

Abstract: An air conditioning control device stores air conditioning control settings relating to plural users of a vehicle, and controls at least one air conditioner among plural air conditioners of the vehicle in accordance with an air conditioning control setting relating to at least one user among the air conditioning control settings relating to the plural users, and senses a pre-air-conditioning command to operate at least one air conditioner among the plural air conditioners of the vehicle, and, after operation of the at least one air conditioner related to the pre-air-conditioning command is started in accordance with the pre-air-conditioning command, in a case in which turning on of an ignition or turning on of a power supply of the vehicle is sensed, instructs execution of continued operation of the at least one air conditioner related to the pre-air-conditioning command in accordance with the pre-air-conditioning command, regardless of the air conditioning control settings relating to the plural users.

Abstract: A control apparatus for a vehicle disclosed herein is applied to a vehicle configured to perform pre-air conditioning of the interior of the vehicle by starting an internal combustion engine according to a remote control signal sent from a remote controller. When starting pre-air conditioning according to the remote control signal, the control apparatus sets the control mode of the vehicle to a drive-disabling mode, which is a control mode that disables an operation for driving the vehicle. If a specific mode-cancelling operation is detected in a situation in which the remote controller is present in the interior of the vehicle while the control mode of the vehicle is being set to the drive-disabling mode, the control apparatus cancels the drive-disabling mode while leaving the internal combustion engine operating.

Abstract: A vehicle control device includes a controller configured to execute: receiving a remote signal containing a target temperature in a cabin and an expected traveling start time of a vehicle from a remote controller used by a user of the vehicle; calculating a catalyst warming period which is an estimated period required to warm, to an active temperature, an electrically heated catalyst; calculating a pre-air conditioning period which is an estimated period required to adjust a temperature in the cabin to the target temperature; and starting pre-air conditioning of the cabin by starting an internal combustion engine after completion of warming of the electrically heated catalyst when a sum of the catalyst warming period and the pre-air conditioning period is equal to or shorter than a starting time margin from a time of reception of the remote signal to the expected traveling start time.

Abstract: A vehicle control device includes a controller configured to execute: receiving a remote signal containing a target temperature in a cabin and an expected traveling start time of a vehicle; performing preheating of the cabin in a second air-conditioning mode in which the preheating is performed by using an electric heat pump when a temperature in the cabin is predicted to be increasable to the target temperature in the second air-conditioning mode before the expected traveling start time, the preheating being based on a remote operation; and performing the preheating of the cabin in a first air-conditioning mode in which the preheating is performed by using exhaust heat generated when an internal combustion engine operates when the temperature in the cabin is predicted not to be increasable to the target temperature in the second air-conditioning mode before the expected traveling start time.

Abstract: A vehicle air conditioner includes a bypass passage configured to cause a coolant to circulate while bypassing a heater core, a switching device set to switch between a first mode in which the coolant flows through the bypass passage and returns to an internal combustion engine while bypassing the heater core and a second mode in which the coolant flows to the heater core, a coolant-temperature sensor that detects a temperature of the coolant at a part through which the coolant flows in both the first mode and the second mode, and a control unit that controls an operation of a blower based on the coolant-temperature control data. Furthermore, first and second calculating portions are configured to calculate the coolant-temperature control data in the first and second modes, respectively.

Abstract: An air conditioning control device stores air conditioning control settings relating to plural users of a vehicle, and controls at least one air conditioner among plural air conditioners of the vehicle in accordance with an air conditioning control setting relating to at least one user among the air conditioning control settings relating to the plural users, and senses a pre-air-conditioning command to operate at least one air conditioner among the plural air conditioners of the vehicle, and, after operation of the at least one air conditioner related to the pre-air-conditioning command is started in accordance with the pre-air-conditioning command, in a case in which turning on of an ignition or turning on of a power supply of the vehicle is sensed, instructs execution of continued operation of the at least one air conditioner related to the pre-air-conditioning command in accordance with the pre-air-conditioning command, regardless of the air conditioning control settings relating to the plural users.

Abstract: An air conditioning control device senses a turning off of an ignition or a power supply of a vehicle, and stores a time of the turning off that is sensed at the vehicle, and stores a time of the turning off that is acquired by communication of a portable information terminal with the vehicle, and senses an advance setting command for pre-air-conditioning that operates an air conditioner of the vehicle, and determines absence or presence of the advance setting command, and, in a case in which it is determined that there is the advance setting command, instructs of execution of pre-air-conditioning control of the air conditioner on the basis of the time of the turning off that is sensed at the vehicle and the time of the turning off that is acquired by the communication of the portable information terminal with the vehicle.

Abstract: A vehicle air conditioner includes a bypass passage configured to cause a coolant to circulate while bypassing a heater core, a switching device set to switch between a first mode in which the coolant flows through the bypass passage and returns to an internal combustion engine while bypassing the heater core and a second mode in which the coolant flows to the heater core, a coolant-temperature sensor that detects a temperature of the coolant at a part through which the coolant flows in both the first mode and the second mode, and a control unit that controls an operation of a blower based on the coolant-temperature control data. Furthermore, first and second calculating portions are configured to calculate the coolant-temperature control data in the first and second modes, respectively.