KR101304711B1 - Control apparatus of air conditioner using sensor cluster and method thereof - Google Patents

Abstract

Disclosed are an air conditioner control apparatus using a sensor cluster and a method for increasing efficiency and fuel efficiency of an engine by operating or stopping a compressor (air conditioner) according to a slope and acceleration / deceleration of a road in a vehicle.
In the disclosed air conditioner control method using the sensor cluster, the vehicle is accelerated and tilted when the compressor is requested to operate in a state in which an "air conditioner" mode is selected to automatically control the compressor according to the acceleration / deceleration information and the slope information of the vehicle. A detecting step of detecting; A compressor driving step of accumulating cooling energy by driving the compressor when the detection result is not an acceleration state and the slope is not up; And a compressor control step of controlling the driving of the compressor according to the temperature difference between the target temperature and the current temperature when the vehicle is in an acceleration state and the slope is up.

Description

Control apparatus of air conditioner using sensor cluster and method thereof

The present invention relates to an air conditioner control using a sensor-cluster (acceleration sensor, left / right tilt sensor, front / rear tilt sensor), and more specifically, a compressor according to a road slope and acceleration / deceleration in a vehicle. The present invention relates to an air conditioner control apparatus using a sensor cluster and a method for increasing or reducing the efficiency and fuel efficiency of an engine by operating or stopping an air conditioner compressor.

In general, an air conditioner of a vehicle includes an evaporator, a compressor, a condenser, a blower, and the like.

The dual compressor uses a driving force of the engine to cool the refrigerant in a low temperature gas state. Compress to high pressure and send to condenser. Therefore, when the air conditioner is required when the engine requires a lot of driving power, the compressor is also operated and the engine driving power is lost. The loss of the engine driving power not only reduces the driver's feeling of driving but also the driver's accelerator pedal to compensate for the insufficient driving power. Because it stepped on, it also has a big impact on the fuel economy of the vehicle.

Therefore, the operation of the compressor and the distribution of the engine driving force have been very important problems in driving comfort and fuel economy of the vehicle.

In the past, various air conditioning control methods have been proposed to prevent such a loss of engine driving force. One of them is Korean Patent Laid-Open Publication No. 10-2010-0035049 (published on April 2, 2010) (name of the invention: a method for controlling a compressor of an air conditioner for an automobile). The disclosed prior art predicts refrigerant low flow conditions of the compressor, thereby increasing the ECV duty to improve the operability of the compressor. As a result, the compressor can be prevented from entering the low refrigerant flow state, thereby preventing noise generated by the compressor, thereby providing a sense of stability to the user, and reducing the flow rate of the ECV duty by reducing the ECV duty at a moderate rate. Therefore, there is an advantage that the influence of the vehicle torque change can be reduced.

1. Republic of Korea Patent Publication No. 10-2010-0035049 (published April 2, 2010)

However, the prior art as described above, the vehicle output shortage phenomenon due to the pump resistance of the air conditioner compressor when the air conditioner is operating uphill (uphill) or when the vehicle is started, resulting in further reduction of fuel efficiency and output shortage by pressing the accelerator pedal further. There was a problem.

Therefore, the present invention has been proposed to solve all the problems occurring in the prior art as described above,

The problem to be solved by the present invention is to provide an air conditioner control apparatus and method using a sensor cluster to increase the efficiency and fuel efficiency of the engine by operating or stopping the compressor (air conditioner) according to the inclination and acceleration / deceleration of the road in the vehicle. There is.

Another problem to be solved by the present invention is to detect the acceleration / deceleration of the vehicle and the tilt of the vehicle by using the sensor cluster during the operation of the air conditioner, the vehicle acceleration (departure) and the air conditioner in the hill automatically controlled output It is to provide an air conditioner control device using a sensor cluster and a method for improving fuel efficiency.

"An air conditioner control device using a sensor cluster" according to the present invention for solving the above problems,

A sensor cluster detecting an acceleration / deceleration of the vehicle and including an acceleration sensor and an inclination sensor for detecting an inclination of the vehicle;

And an air conditioner for controlling driving of the compressor according to acceleration / deceleration information and tilt information generated in the sensor cluster and a temperature difference between a target temperature and a current temperature.

In addition, the "air conditioner control device using a sensor cluster" according to the present invention,

The apparatus may further include a mode switch for inputting an "air conditioner" mode for automatically controlling the compressor according to the acceleration / deceleration information and the slope information of the vehicle.

In the above air conditioner device,

After the air conditioner compressor operation request, if the uphill state through the slope information, and the acceleration state through the acceleration information, when the temperature difference between the target temperature and the current temperature is within a preset reference temperature range, the operation of the compressor is turned off. It is done.

"Air conditioning control method using a sensor cluster" according to the present invention for solving the above problems,

A detection step of detecting whether the vehicle is accelerated or inclined when a compressor operation is requested in a state in which an "air conditioner" mode for automatically controlling the compressor is selected according to the acceleration / deceleration information and the slope information of the vehicle;

A compressor driving step of accumulating cooling energy by driving a compressor when the detection result is not an acceleration state and the slope is not up;

And a compressor control step of controlling driving of the compressor according to a temperature difference between a target temperature and a current temperature when the vehicle is in an acceleration state and the slope is up as a result of the detection.

Compressor control step in the above,

If the temperature difference between the target temperature and the current temperature is not within a preset reference temperature range, the compressor is driven to accumulate cooling energy. If the temperature difference is within a preset reference temperature range, the compressor is turned off to improve engine output. It is characterized by improving fuel economy.

According to the present invention, by detecting the road conditions and inclination information of the vehicle body during the operation of the air conditioner, and actively controlling the air conditioner compressor to increase the engine output and fuel economy as much as possible, fuel efficiency reduction / output improvement / CO ₂ reduction / comfortable indoor air conditioning There is a measurable advantage.

1 is a block diagram of an air conditioner control device using a sensor cluster according to the present invention.
2 is a flowchart illustrating a method for controlling an air conditioner using a sensor cluster.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a block diagram of an air conditioner control apparatus using a sensor cluster according to the present invention, the engine control unit (ECU) 10, the shift controller 20, the sensor cluster 30, the brake / posture control device (ABS / ESP 40, the air conditioner 50, the mode switch 60, and the actuator 70. Here, the engine control device 10, the shift controller 20, the sensor cluster 30, the brake / posture control device 40, and the air conditioner device 50 transmit and receive data by CAN communication.

The engine control device 10 is a device for controlling the engine as a whole, and serves to transmit data such as an accelerator pedal signal, a brake signal, coolant temperature, refrigerant pressure information, engine load state information, and the like to a necessary part through can communication. .

The shift controller 20 is a device for shifting, and transmits data such as shift timing and shift stage information to a necessary portion through the can communication.

The sensor cluster 30 detects acceleration / deceleration of the vehicle, detects the tilt of the vehicle, and transmits the same through the can communication. An acceleration sensor (G sensor) and a tilt sensor (vertical sensor, lateral sensor) ).

The brake / posture control device 40 is a device for controlling the brake operation and the vehicle attitude, and transmits vehicle speed information data through can communication.

When the "air conditioner" mode is set by the mode switch 60, the air conditioner 50 receives the acceleration / deceleration information and the slope information generated by the sensor cluster 30, and the accelerator pedal signal and the brake of the engine control device 10. By comparing the signals with each other to determine the reliability, and serves to control the operation of the compressor according to the temperature difference between the current temperature and the target temperature detected by the external temperature sensor.

In the air conditioner control device using the sensor cluster according to the present invention configured as described above, the engine control device 10, the sensor cluster 30, the brake / posture control device 40 and the air conditioner device (50) through the can communication information To share.

In particular, the sensor cluster 30 detects acceleration information of the vehicle through an acceleration sensor, and detects left / right inclination information and front / rear inclination information of the vehicle through an inclination sensor to brake / posture through the can communication. It transmits to the control apparatus 40 and the air conditioning apparatus 50. FIG.

The current temperature detected by the external temperature sensor is input to the air conditioner 50, and the target temperature is input through the input device.

The driver operates the mode switch and operates the air conditioner to operate the air conditioner in "Eco air conditioner" mode to automatically control the compressor according to the acceleration / deceleration information and the slope information of the vehicle to improve the output and fuel economy. The device 50 recognizes this and actively controls the driving of the compressor under various information data received through the can communication.

For example, if the current vehicle state is accelerated at a constant speed (constant speed) from the starting state, and the slope information is searched to see whether the road state is uphill, and if it is not accelerated and not uphill, In order to improve the engine brake performance, the compressor is sufficiently driven to accumulate cooling energy.

On the contrary, if the current vehicle state is an acceleration state and the road state is up as a result of searching the inclination information, the temperature difference is calculated by comparing the current temperature detected by the external temperature sensor with a target temperature preset by the driver. Comparing the calculated temperature difference with a preset reference temperature range (5 ° C.) for compressor control, when the temperature difference exceeds the reference temperature range, the compressor is driven to accumulate cooling energy.

In addition, when the calculated temperature difference is within the reference temperature range, the compressor is automatically turned off in order to improve engine output and fuel economy.

According to the present invention, by actively controlling the air conditioner compressor according to the road condition (uphill, downhill) and acceleration state, there is an advantage that can improve the fuel economy and increase the output.

FIG. 2 is a flowchart illustrating a method for controlling an air conditioner using a sensor cluster according to the present invention, in which an “air conditioner” mode for automatically controlling a compressor according to acceleration / deceleration information and slope information of a vehicle is selected. A detection step (S11 ˜ S15) of detecting whether the vehicle is accelerated or inclined when a compressor operation is requested; A compressor driving step (S17) of accumulating cooling energy by driving the compressor when the detection result is not the acceleration state and the slope is not up; As a result of the detection, when the vehicle is in an acceleration state and the slope is up, the compressor control steps S19 to S23 control the driving of the compressor according to the temperature difference between the target temperature and the current temperature.

In the air conditioner control method using the sensor cluster according to the present invention as described above, if the "eco air conditioner" mode switch is first operated by the driver in step S11, and the operation of the air conditioner compressor (compressor) is requested in step S13, In step S15, the road state (uphill, downhill) and the acceleration state (acceleration sensor) are detected through the sensor cluster.

If the road state is not an uphill state and the vehicle state is not an acceleration state as a result of the detection, the process moves to step S17 to drive the air conditioner compressor to accumulate cooling energy.

On the contrary, if the detected road condition is an uphill state and the vehicle state is an accelerated state, the process moves to step S19 to calculate a temperature difference between the current temperature detected by the temperature sensor and the target temperature preset by the driver, and the calculated temperature difference. And a preset reference temperature range (5 ° C.) in order to control the compressor.

As a result of the comparison, if the temperature difference is out of the reference temperature range, the compressor is moved to step S21 to improve the cooling performance. In contrast, if the temperature difference is within the reference temperature range, the compressor is moved to step S23. By turning it off, the engine power and fuel economy are improved.

10: engine control device 30: sensor cluster
40: brake / posture control device 50: air conditioning device
60: mode switch

Claims (5)

In the apparatus for controlling the air conditioning of the vehicle,
A sensor cluster detecting an acceleration / deceleration of the vehicle and including an acceleration sensor and an inclination sensor for detecting an inclination of the vehicle;
And an air conditioner for controlling driving of the compressor according to acceleration / deceleration information and gradient information generated in the sensor cluster, and a temperature difference between a target temperature and a current temperature.
After the air conditioner compressor is requested to operate, the air conditioner is uplifted through the slope information and the acceleration state is accelerated by the acceleration information. Air conditioner control device using a sensor cluster, characterized in that.
The method according to claim 1,
And a mode switch for inputting an "echo air conditioner" mode for automatically controlling the compressor according to the acceleration / deceleration information and the slope information of the vehicle.
delete In the method for controlling the air conditioner of the vehicle using the air conditioner control device using a sensor cluster,
A detection step of detecting whether the vehicle is accelerated or inclined when a compressor operation is requested in a state in which an "air conditioner" mode for automatically controlling the compressor is selected according to the acceleration / deceleration information and the slope information of the vehicle;
A compressor driving step of accumulating cooling energy by driving a compressor when the detection result is not an acceleration state and the slope is not up;
And a compressor control step of controlling driving of the compressor according to a temperature difference between a target temperature and a current temperature when the vehicle is accelerated and the slope is up as a result of the detection.
The compressor control step,
If the temperature difference between the target temperature and the current temperature is not within a preset reference temperature range, the compressor is driven to accumulate cooling energy. If the temperature difference is within a preset reference temperature range, the compressor is turned off to improve engine output. Air conditioner control method using a sensor cluster, characterized in that to improve the fuel economy. delete

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