KR101977742B1 - Air conditioner for vehicle and control method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vehicle air conditioner and a control method thereof, and more particularly, An air conditioner and a control method thereof are provided.

Description

TECHNICAL FIELD [0001] The present invention relates to an air conditioner and an air conditioner,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vehicle air conditioner and a control method thereof, and more particularly, To an air conditioner and a control method thereof.

Generally, the vehicle air conditioning system 70 includes:

The air outside the vehicle flowing into the passenger compartment through the blower is selectively passed through the evaporator through which the coolant flows or the heater core through which the cooling water of the vehicle engine flows and the heat is exchanged. So as to cool or heat the inside of the vehicle.

The cooling system includes a condenser 40 for condensing the refrigerant discharged from the compressor 20 driven by the engine, an expansion valve for expanding the refrigerant liquefied through the condenser 40, And an evaporator E for cooling the ambient air using the latent heat of evaporation when the refrigerant is vaporized and returning the refrigerant to the compressor, By exchanging the refrigerant passing therethrough, blowing air changed into cold air is discharged into the interior of the vehicle to cool the interior of the vehicle.

In addition, the heating system exchanges heat between the air blown by the blower fan and the cooling water passing through the heater core H in the process of returning the cooling water of the engine to the engine via the heater core H, To the inside of the vehicle to heat the inside of the vehicle.

1 is a sectional view showing an example of an air conditioner 70 for a vehicle.

The vehicle air conditioner 70 includes an air conditioner case 10 in which vents 11, 12, and 13 are installed to be opened by respective doors 11d, 12d, and 13d, respectively; A blower 14 connected to an air inlet of the air conditioner case 10 to blow outside air; An evaporator (E) and a heater core (H) provided in the air conditioning case (10); And a tempo door 15 for controlling the opening degree of the cool air passage P1 and the warm air passage P2 of the air conditioning case 10. [

In the vehicle air conditioner 70 configured as described above, when the cooling cycle is activated, the tempo door 15 opens the cold air passage P1 and closes the warm air passage P2. Therefore, the air blown by the blower 14 passes through the evaporator E, is exchanged with the cooling water flowing in the evaporator E and is converted into a cool air, flows toward the cool air passage P1, (11, 12, 13) to perform cooling of the vehicle interior.

When hot air touches a cold surface, the temperature of the air goes down. As the temperature decreases, the relative humidity reaches 100%. Water vapor, which no longer exists in the gaseous state, condenses and sticks to the cold surface. This phenomenon is expressed as fogging or steaming. The phenomenon of frost can be seen in many places. On a cold winter day, the surface of the windshield is frozen. This is due to condensation of water vapor as the hot air in the room, which contains much moisture, meets the cold window and the temperature falls and the amount of saturated water decreases. Generally, there is a temperature difference between the inside and the outside of the vehicle, and when the humidity inside the vehicle is high, fogging phenomenon occurs in which water vapor condenses (fogs) on the windshield of the vehicle and blocks the visual field. Therefore, most vehicles are provided with a defogging system for removing fog using air discharged through a defrost duct of an air conditioner in the event of a fog.

Relative humidity is the ratio of the actual water vapor amount (absolute humidity) to the saturated water vapor amount of a given temperature or the ratio of the actual water vapor pressure to the saturated water vapor pressure as a percentage. Since the amount of saturated water vapor varies with temperature, the relative humidity varies with temperature even if the amount of water vapor contained is constant. Relative humidity is the humidity used to indicate the degree of air humidity in everyday life. Water vapor pressure refers to the pressure of water vapor contained in the atmosphere. In particular, the saturated water vapor pressure is the water vapor pressure when the water vapor is maximally contained at a given temperature.

This dephogging system detects early occurrence of fog on the windshield of a vehicle and suppresses the occurrence of fog. In addition, it removes it early when fog occurs, thereby ensuring safety of the driver by securing a smooth clock for the driver, Can be improved.

Conventionally, the occupant manually operated the air conditioner or the heater to perform the defogging of the windshield of the vehicle in which the fogging phenomenon occurred, but since the operation is troublesome and the safety operation is hindered, a fog phenomenon There is developed a technique of automatically suppressing or eliminating the occurrence of fog by operating the defogging system when a fog occurs or a fog occurs.

However, when the operating point of the defogging system is fast, there is a problem that the fuel consumption is low, and when the operation of the defogging system is delayed, the fogging phenomenon occurs. Therefore, It is applied as an important factor for improving the fuel efficiency of the vehicle.

Conventionally, the defogging system has been operated by using the temperature and humidity information inside the vehicle. Since the defrost duct operates independently of the temperature of the air that has escaped from the defrost duct, it is difficult to control the defogging precisely, have.

Although the air conditioning control method for adjusting the number of stages of the blower motor to three or more stages in the disprost mode has been disclosed in Korean Patent Laid-Open Publication No. 2008-0080759 (2008.09.05, name: method for controlling the defrost mode of the automotive air conditioner) There is a need for improvement of the above-mentioned problems.

Korean Published Patent Application No. 2008-0080759 (2008.09.05, name: Control method of defrost mode of automobile air conditioner)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a vehicle air conditioner and a control method thereof, in which, when performing air conditioning control in which air is discharged through a defrost duct, The target temperature is set and the air of the set target temperature is discharged to the defrost duct or the temperature of the air passing through the defrost duct is sensed and the detected temperature is fed back to precisely control the fog on the windshield of the vehicle And a method of controlling the same.

The vehicle air conditioning system according to an embodiment of the present invention includes a control means for operating the air conditioning apparatus to calculate a target temperature to be discharged to the defrost side in accordance with external conditions and thereby perform a plurality of air conditioning controls (100) for detecting the temperature of air discharged to the defrost side; And a control unit (200) for performing air conditioning control according to the temperature detected by the detecting unit (100).

In addition, the controller 200 performs air conditioning control for controlling the temperature of the air discharged to the defrost side so as to prevent fog from occurring on the vehicle glass.

The control unit 200 performs air conditioning control for lowering the temperature of the air discharged toward the defrost side when the outside air temperature is lower than the room temperature.

In addition, the controller 200 performs air conditioning control for increasing the temperature of the air discharged toward the defrost side when the outside air temperature is higher than the room temperature.

The control method for a vehicle air conditioner according to an embodiment of the present invention includes a detection unit 100 and a control unit 200. The control unit 200 calculates a target temperature to be discharged to the defrost side according to an external condition, A control method for a vehicle air conditioner using a vehicle air conditioner including control means for operating the air conditioner to perform the air conditioner control, the method comprising the steps of: controlling an outside air temperature, a set temperature, an indoor temperature, a glass surface temperature, a humidity, , An external condition input step (S10) for receiving at least one external condition selected from among a solar radiation amount, a vehicle speed, a cooling water temperature and a tempdoor position; A mode determination step (S20) of determining which mode is the air conditioning control mode; A fog generation predicting step (S30) of predicting a free fog occurrence in the case of the mix mode or the deep mode in the mode determination step (S20); A target temperature calculation step (S40) of calculating a target temperature for suppressing the occurrence of fog on the vehicle glass according to a result predicted in the fog generation prediction step (S30); And a discharge temperature control step (S50) of receiving the discharge temperature of the air discharged to the defrost side from the controller (200) and controlling the discharge temperature of the air discharged to the defrost side .

In addition, the target temperature calculation step (S40) performs air conditioning control for lowering the temperature of the air discharged toward the defrost side when the outside air temperature is lower than the room temperature.

In addition, the target temperature calculation step (S40) performs air conditioning control for increasing the temperature of the air discharged toward the defrost side when the outside air temperature is higher than the room temperature.

The vehicle air conditioning apparatus and the control method thereof according to the present invention can improve the securing of the driver's watch by detecting the temperature of the air discharged to the windshield of the vehicle and controlling the detected temperature to be prevented from being generated in the windshield of the vehicle have.

More specifically, the vehicle air conditioning system and the control method thereof according to the present invention set a target temperature for performing the defogging control when the air conditioning control for discharging air into the defrost duct is performed, It is possible to confirm in real time whether it is discharged into the duct, thereby making it possible to suppress fog generation more precisely and efficiently.

1 is a schematic view showing a general automotive air conditioner.
2 is a schematic view showing a vehicle air conditioner according to the present invention.
3 is a flowchart of a method for controlling a vehicle air conditioner according to the present invention.

Hereinafter, a vehicle air conditioning system and a control method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic view showing a vehicle air-conditioning apparatus according to the present invention, and FIG. 3 is a flowchart of a method for controlling a vehicle air-conditioning apparatus according to the present invention.

The present invention relates to a defogging apparatus and method using an evaporator temperature and humidity sensor, and in the following description of the embodiments of the present invention, the same or similar components as those of FIG. 1 described with reference to the background of the invention are denoted by the same reference numerals .

The present invention relates to an air conditioner comprising a blower (14) for blowing air into the air conditioning case (10), an evaporator (E) and a heater core (H) And a tempo door (15) provided between the evaporator (E) and the heater core (H) for regulating the opening of the flow path passing the heater core (H) and the flow path for bypassing the heater core. ≪ / RTI >

The vehicle air conditioner according to the present invention includes a control means for calculating a target temperature to be discharged to the defrost side in accordance with an external condition input by a heater control and operating the air conditioner to perform a plurality of air conditioner controls accordingly, And includes a detection unit 100 and a control unit 200.

The detection unit 100 detects the temperature of the air discharged to the defrost side. This is to sense the temperature of the air discharged to the windshield of the vehicle and to perform compensation control according to the difference between the target temperature to be discharged to the defrost duct according to the external condition inputted to the heater control. At this time, the detecting unit 100 can be installed at any place in the path through which the air passing through the defrost duct passes, after the defrost duct, in order to detect the temperature of the air passing through the defrost duct.

In the case of an air conditioner having no detecting unit 100 for detecting the temperature of the air passing through the deep frost duct, since the temperature discharged to the defrost side can not be known, the temperature discharged to the windshield of the vehicle is too low or too high There is a problem that the fog may be increased. Therefore, by performing the air conditioning control according to the temperature of the air exiting the defrost duct by using the detecting unit 100, it is possible to control the deformation more effectively.

The control unit 200 performs air conditioning control according to the temperature detected by the detection unit 100. In other words, when the temperature detected by the detecting unit 100 is different from the target temperature of the air to be discharged into the defrost duct, the air conditioning control is performed according to the target temperature of the air to be discharged into the defrost duct. At this time, the control unit 200 performs air conditioning control for controlling the temperature of the air discharged to the defrost side so as to prevent fog from occurring in the vehicle glass. In other words, the air conditioning control can be performed by adjusting the temperature of the air discharged to the defrost side to the target temperature calculated so as to prevent fog on the vehicle glass.

The defogging method suppresses fog generation and removes generated fog by means of compressor non-driven defogging control (changeover of outdoor mode or defrost (DEF) mode) and operation of compressor driven defogging control. In this case, if the operation of the compressor driving defogging control is increased in order to minimize the occurrence of fog, there is a problem that the fuel economy is increased, and if the operation of the compressor driving defogging control is minimized to raise the fuel efficiency, there is a problem that fog occurs. Therefore, it is important to control the air conditioner so that the driver's watch can be secured and the fuel consumption can be raised.

In the air conditioning control by calculating the target temperature of the air to be discharged to the defrost duct in order to suppress fog generation, the most important thing is that the air having the temperature that exactly matches the calculated target temperature is discharged to the defrost duct. If the temperature difference between the target temperature and the target temperature is large, fog may be generated on the inside or outside of the windshield of the vehicle, or the fuel consumption may be unnecessarily consumed. Therefore, by using the temperature of the air exiting the defrost duct, it is necessary to check whether the air-conditioning control according to the target temperature is smoothly performed and correct the air-conditioning control.

At this time, the controller 200 performs the air conditioning control for lowering the temperature of air discharged to the defrost side so that fog is not generated inside the vehicle glass when the outside air temperature is lower than the room temperature. If the outside temperature is lower than the room temperature, fog may be generated inside the vehicle glass. To prevent this, fog generation can be suppressed by lowering the temperature of the air discharged to the defrost side.

The control unit 200 performs air conditioning control for increasing the temperature of the air discharged to the defrost side so that fog does not occur outside the vehicle glass when the outside air temperature is higher than the room temperature. When the outside temperature is higher than the room temperature, fog may be generated outside the vehicle glass. To prevent this, fog generation can be suppressed by raising the temperature of the air discharged to the defrost side.

The control method for a vehicle air conditioner according to the present invention includes a detection unit 100 and a control unit 200. The control unit 200 calculates a target temperature to be discharged to the defrost side according to an external condition input from the respective sensors to the heater control, A method for controlling a vehicle air conditioner using a vehicle air conditioner including control means for operating the air conditioner to perform a plurality of air conditioner controls in accordance with a control mode, the method comprising the steps of: inputting an external condition (S10) A prediction step S30, a target temperature calculation step S40, and a discharge temperature control step S50.

The external condition input step S10 is a step of inputting at least any one of the outside temperature selected from the outside air temperature, the set temperature, the room temperature, the glass surface temperature, the humidity, the air conditioner operating condition, the inside / outside air operating condition, The condition is input. The phenomenon in which the fog occurs is clearly indicated by only information of the outside air temperature, the set temperature, the indoor temperature, the glass surface temperature, the humidity, the air conditioner operating condition, the inside / outside operating condition, the irradiation amount, the vehicle speed, the cooling water temperature, Therefore, it is possible to control the defogging more precisely by using various kinds of information to predict the fog occurrence probability more accurately.

The mode determination step S20 determines which mode the air conditioning control mode is. In other words, it is determined which of the various modes, such as the deep mode, the floor mode, the bent mode, the bi-level mode, and the mix mode, the air conditioning control is being performed.

The fog generation predicting step S30 predicts a vehicle free fog occurrence in the mix mode or the deep mode in the mode determination step S20. The floor mode, the vant mode, and the bi-level mode should preferentially perform the air conditioning control according to the requirements of the occupant. For example, if you want to warm to warmer or cooler to cool down, you should give priority to the control of defogging, and if the cold air is cold or the hot air is hot when it is hot, it can be rather uncomfortable to the occupant. Therefore, it is intended to perform the defogging control only in the case of the mix mode or the deep mode in which the air is discharged to the windshield side of the vehicle.

The target temperature calculation step S40 calculates a target temperature for suppressing fog generation on the vehicle glass according to the result predicted in the fog generation prediction step S30. In other words, the dew point temperature of the windshield of the vehicle can be calculated using the room temperature, the glass surface temperature, and the relative humidity, and the target temperature of the air discharged to the defrost side can be calculated by predicting the fog occurrence.

The control unit 200 receives the discharge temperature of the air discharged to the defrost side from the detection unit 100 and controls the discharge temperature of the air discharged to the defrost side. In other words, it is checked whether the air conditioning control according to the target temperature calculated in the target temperature calculation step S40 is smoothly performed using the temperature detected by the detection unit 100, and the target temperature is detected from the detection unit 100 The discharge temperature of the air discharged to the defrost side can be controlled so that the air conditioning control according to the target temperature can be performed when the detected temperature difference occurs.

At this time, the target temperature calculation step (S40) may perform the air conditioning control for lowering the temperature of the air discharged toward the defrost side so that fog is not generated inside the vehicle glass when the outside air temperature is lower than the room temperature. Also, the target temperature calculation step S40 may perform air conditioning control for increasing the temperature of the air discharged toward the defrost side so that no fog occurs outside the vehicle glass when the outside air temperature is higher than the room temperature.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

10: Air conditioning case
11, 12, 13: vent 11d, 12d, 13d: door
14: Blower 15: Temp door
P1: cool air passage P2: warm air passage
E: Evaporator H: Heater core
20: Compressor 30: Expansion valve
40: condenser 50: humidity sensor for control of depog
100: detecting unit 200:
S10: External condition input step
S20: mode determination step
S30: Fog generation prediction step
S40: Target temperature calculation step
S50: Discharge temperature control step

Claims (7)

delete delete delete delete A control unit that includes a detection unit 100 and a control unit 200 and calculates a target temperature to be discharged to the defrost side according to external conditions and operates the air conditioning apparatus to perform a plurality of air conditioning controls in accordance with the air conditioning control mode A method for controlling a vehicle air conditioner using a vehicle air conditioner,
An external condition input step of inputting at least one external condition selected from the outside temperature, the set temperature, the room temperature, the glass surface temperature, the humidity, the air conditioner operating condition, the outside / inside air operating condition, the solar radiation amount, (S10);
A mode determination step (S20) of determining which mode is the air conditioning control mode;
A fog generation predicting step (S30) of predicting a free fog occurrence in the case of the mix mode or the deep mode in the mode determination step (S20);
A target temperature calculation step (S40) of calculating a target temperature for suppressing the occurrence of fog on the vehicle glass according to a result predicted in the fog generation prediction step (S30); And
A discharge temperature control step (S50) of controlling the discharge temperature of air discharged from the detection part (100) to the de-frost side, the discharge temperature of the air discharged to the de-frost side by the controller (200); ≪ / RTI &
The target temperature calculation step S40 performs air conditioning control for lowering the temperature of the air discharged toward the defrost side when the outside air temperature is lower than the temperature of the air discharged toward the defrost side, The air conditioning control for increasing the temperature of the air discharged to the defrost side is performed . delete delete

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