KR101231467B1 - Control Method of Blow System in ISG Automobile - Google Patents

Abstract

The present invention relates to a method for controlling a blower system when an ISG device is driven and idle stops in an ISG vehicle equipped with an ISG (Idle Stop and Go) device.
The method for controlling a blower system of an ISG vehicle according to the present invention includes a first step of storing air conditioning conditions of a blower system while driving, and stopping the engine when the engine stops, and reducing the blower airflow amount, thereby reducing the blower system. A second step of starting, and a third step of restarting the engine and restarting the blower system to the stored air conditioning condition when the evaporator temperature exceeds the preset threshold or the cooling water temperature and the room temperature are below the preset threshold, respectively. It includes.

Description

Control Method of Blow System in ISG Automobile

The present invention relates to an ISG vehicle equipped with an ISG (Idle Stop and Go) device, and more particularly, to a method of controlling a blower system when an ISG device is driven and idle stops.

In recent years, fuel economy improvement technology for reducing CO2 has been developed. Among these, ISG (Idle Stop & Go) system turns off the engine when the vehicle is stopped and automatically starts when the vehicle starts to run. It is a hanging device

ISG (Idle Stop and Go) device receives information such as vehicle speed, engine rotation speed, coolant temperature, etc., and automatically stops the engine under specified conditions. When restart is required, the engine is automatically restarted to allow normal operation.

The condition that enters idle stop in the ISG unit is a stop state in which the vehicle speed is not detected while the engine warms up sufficiently, that is, the coolant temperature is maintained above a predetermined temperature, and the shift stage remains neutral, and the brake When the pedal is operated and maintained for a predetermined time or more, the engine is stopped to increase fuel economy and stabilize the emission.

In addition, in the idle stop state of the engine, when the driver's intention to start, such as the operation of the accelerator pedal, the release of the brake pedal, the operation of the clutch pedal, is detected, the engine is turned on to maintain normal driving. Vehicles equipped with such an ISG device can achieve a fuel economy increase of 5 to 15%.

On the other hand, the vehicle is equipped with a blower system in order to provide a comfortable indoor environment for occupants in the summer or winter, the ISG device is running to stop the blower system when the engine is idle.

1 is a flowchart illustrating a method of controlling a blower system of a conventional ISG vehicle.

The blower system runs the air conditioner in the summer and the heaters in the winter to keep the car's interior at the right temperature.

When the ISG vehicle is in the idling stop condition (S11), the engine is idled and the blower system is stopped (S12). When the vehicle is operating the air conditioner (S13), it is checked whether the evaporator temperature exceeds the preset threshold temperature (S14). When the evaporator temperature exceeds the preset threshold temperature, the engine is restarted to restart the blower system (S15). If the vehicle is not in operation of the air conditioner (S13) and the heater is in operation (S16), it is checked whether the cooling water temperature and the indoor temperature are less than the preset threshold temperature, respectively (S17), and the cooling water temperature and the indoor temperature are respectively preset threshold temperatures. If down, restart the engine to restart the blower system (S15).

As such, when the blower system is completely shut off while the engine is stopped, the indoor temperature of the vehicle rapidly cools or heats according to the outside temperature. However, the fuel economy is reduced because the engine is restarted despite the engine idle state. There is a problem.

An object of the present invention devised to solve the above-mentioned problems of the prior art is to control the blower system to a certain degree even during engine idle stop in an ISG vehicle, so that the engine idle stop state is maintained while maintaining the comfort of the vehicle interior. It is to provide.

A blower system control method for an ISG vehicle according to the present invention for achieving the above object is a first step of storing the air conditioning conditions of the blower system during driving, and when the engine stops the idle conditions, the engine is idled and the blower airflow amount A second step of operating the blower system by reducing the pressure and restarting the engine when the evaporator temperature exceeds a preset threshold or when the coolant temperature and the room temperature are respectively below a preset threshold and restart the blower system. And a third step of restarting the condition.

As described above, according to the present invention, since the blower system is operated to a certain degree even while the ISG vehicle is stopped, the comfort of the vehicle interior can be maintained for a long time and the idle stop condition can be sufficiently maintained, thereby improving fuel efficiency. .

1 is a flowchart illustrating a method of controlling a blower system of a conventional ISG vehicle.
2 is a block diagram showing a configuration of an ISG vehicle to which the present invention is applied.
3 is a flowchart illustrating a method of controlling a blower system of an ISG vehicle according to the present invention.

Hereinafter, a control method of a blower system of an ISG vehicle according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a configuration of an ISG vehicle to which the present invention is applied.

The ISG controller 24 collects state information of the vehicle from various sensors (not shown) for monitoring typical ISG conditions, stops the engine 25 when the engine idle stop condition is reached, and the blower system 26 The blower airflow volume of the On the other hand, when the engine restart condition is reached in the engine idle state, the blower system 26 is operated in a normal state while restarting the engine 25.

The ISG controller 24 monitors the vehicle interior using the evaporator temperature sensor 21, the coolant temperature sensor 22, and the room temperature sensor 23 when the engine is stopped. Restart blower (25) to allow blower system (26) to operate normally.

3 is an operation flowchart illustrating a control method of a blower system of an ISG vehicle according to the present invention.

The air conditioning condition of the blower system set by the user or automatically set while the ISG vehicle is driving is stored (S31).

When the idle stop condition of the engine is reached (S32), the engine is idled and the blower airflow amount is reduced to operate the blower system (S33).

If the air conditioning condition of the vehicle was operating the air conditioner (S34), it is checked whether the evaporator temperature exceeds the threshold temperature (S35), and when the evaporator temperature exceeds the threshold temperature, the engine is restarted and the blower system is restarted to the stored air conditioning condition (S36). ).

If the air conditioning condition of the vehicle is not operating the air conditioner (S34) and the heater is running (S37), it is checked whether the cooling water temperature and the indoor temperature are respectively lower than the threshold temperature (S38), and the cooling water temperature and the indoor temperature are respectively below the threshold temperature. When the engine is restarted, the engine is restarted and the blower system is restarted at the stored air conditioning condition (S36).

The method of reducing the blower blow amount in step S33 is a method of reducing according to the stored air conditioning conditions, a method of reducing to a predetermined specific value, a method of reducing according to the difference between indoor and outdoor air temperature, a method of reducing according to the amount of insolation, an evaporator or a heater core. The method of reducing according to the temperature of the back, and the like to reduce the combination of the above methods.

21: evaporator temperature sensor 22: cooling water temperature sensor
23: room temperature sensor 24: ISG controller
25 engine 26 blower system

Claims (5)

A first step of storing air conditioning conditions of the blower system while driving;
A second step of operating the blower system by idling the engine and reducing the blower airflow amount when the engine stops while the blower system is operating according to the stored air conditioning condition;
A third step of determining whether the evaporator temperature exceeds a preset threshold,
And if it is determined that the threshold value is exceeded in the third step, restarting the engine and restarting the blower system to the stored air conditioning condition when the cooling water temperature and the room temperature are respectively lower than the preset threshold value. A blower system control method for an ISG vehicle. The blower system control method of claim 1, wherein the blower blowing amount is reduced according to the blower blowing amount of the stored air conditioning condition. The method of controlling the blower system of an ISG vehicle according to claim 1, wherein the blower airflow amount is reduced to a predetermined value in the second step. The method of claim 1, wherein the blower air blowing amount in the second step is reduced according to a difference between indoor and outdoor air temperatures of the vehicle. The method of claim 1, wherein the blower air blowing amount is reduced according to a temperature of an evaporator or a heater core in the second step.

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