KR20120019896A - Controller of air conditioner in vehicle - Google Patents

Abstract

PURPOSE: A controller of an air conditioner for a vehicle is provided to control air conditioning state of an air conditioner by recognizing finger motion of passengers as control information; thereby convenience and simplification of operation are secured. CONSTITUTION: A controller of an air conditioner for a vehicle indicates air conditioning states through a display screen(10) and controls the air conditioning state. The controller recognizes finger motion of passengers as control information through the display screen. The controller comprises a motion sensor(20) for recognizing the finger motion touched the display screen and an optical sensor(30) for recognizing the finger motion moving separately from the display screen.

Description

Controller of air conditioner for vehicle

The present invention relates to a vehicle air conditioner, and more particularly, to a controller of a vehicle air conditioner that can conveniently control the air conditioning state of the air conditioner.

In general, the vehicle is equipped with an air conditioning system composed of a heater and an air conditioner, which is an air conditioning and heating device for maintaining the proper temperature in the cabin, which is to increase the comfort and comfort of passengers in the cabin while driving the vehicle and promote safe driving. As a device for maintaining the temperature, humidity and air environment according to the change of the surrounding environment appropriately gives a passenger a pleasant feeling.

The FATC (Full Automatic Temperature Controller) air conditioning system is equipped with automatic control factors such as mode, blower, intake, and A / C (air conditioner), and is designed to satisfy the target temperature set by the user. It detects temperature and automatically adjusts wind direction, air volume, internal / external air and A / C ON / OFF.

1 is a schematic view showing a vehicle FATC type air conditioner, and FIG. 2 is a front view showing an operation unit installed in a vehicle FATC type instrument panel.

As illustrated, the FATC type air conditioning system for a vehicle includes an in-car temperature sensor 410 (Incar Sensor), an in-vehicle temperature sensor 420 (Ambient Sensor), an insolation sensor 430, a humidity sensor 440, installed inside / outside the vehicle, Internal / external air information is input to the control unit 100 from the evaporator temperature sensor 450, the coolant temperature sensor 460, and the noxious gas detection sensor 470 to output a predetermined control signal to automatically perform the air conditioning function. .

Specifically, the vehicle air conditioning system has an air conditioning case in which the defrost vent 510, the face vent 520, and the floor vent 530 whose openings are adjusted by the doors 510d, 520d, and 530d, respectively, are installed at the exit. 500 and an air inlet 610 and an air inlet 620 which are connected to an inlet 550 of the air conditioning case 500 and whose opening degree is adjusted by an intake door 630 are installed thereon, and a blower motor 650. Blower 600 for blowing the inside or outside air into the air conditioning case 500 by the blowing fan 640 rotated by the fan, and an evaporator 700 installed upstream of the internal flow path of the air conditioning case 500. And a heater core 710 having a ventilation opening degree controlled by a temporal door 540 installed at a downstream side of the internal flow path of the air conditioning case 500 and installed at a front side thereof.

In addition, the evaporator 700 is connected to the compressor 720 in a pipeline, the compressor 720 is connected to the condenser 730, the condenser 730 is connected to the receiver dryer 740, the receiver dryer 740 is connected to the expansion valve 750 is connected to the evaporator 700 by the cooling cycle is configured. Here, the heater core 710 is connected to the engine 800 is configured a heating cycle.

Therefore, during the cooling mode control, the vents 510 opened while the inside air or the outside air blown by the blower 600 exchanges with the refrigerant flowing through the evaporator 700 while passing through the evaporator 700 and is changed to cold. Cooling of the vehicle interior is performed by discharging the vehicle interior through the 520 and 530.

In addition, in the heating mode control, the vented air 510 is opened while the blower air is exchanged with the coolant flowing through the heater core 710 while passing through the evaporator 700 and the heater core 710 to be warm. 520 and 530 are discharged to the vehicle interior, thereby heating the vehicle interior.

The control unit 100 includes the intake door 630, the blower motor 650, the temp door 540, and the doors 510 d, 520 d, 530 d of the various vents 510, 520, 530. By controlling the voltage applied to the actuator (not shown) to operate the air conditioning mode to control the air conditioning mode pattern for the internal / outdoor air inflow, air volume, temperature and wind direction.

The operation unit 200 installed in the instrument panel includes an air conditioner operation button 210, a wind direction selection button 220, an outdoor temperature display button 230, an automatic button 240, an automatic release button 250, and a volume control button 260. ), Windshield defrost button 270, rear windshield heating button 280, temperature setting button 290, internal / external air selection button 300, harmful gas automatic shut-off button 310 and display panel 320 Is installed.

The air conditioner operation button 210 operates a predetermined air conditioner during the ON operation and is used to stop the air conditioner operation during the OFF operation. The wind direction selection button 220 selects various air-conditioning modes such as a defrost mode, a vent mode, a floor mode, a bi-level mode, a mixed mode, and the like. It is used to adjust the opening degree of 530). The outside temperature display button 230 is used to display the temperature of the outside air on the display panel 320.

The automatic button 240 is used by the control unit 100 to automatically perform automatic air conditioning mode control. The automatic release button 250 is used to release the automatic air conditioning mode control. The air volume control button 260 is used to control the air volume by adjusting the rotation speed of the blower motor 650. The windshield defrost button 270 is used to remove the frost caught on the windshield by indoor discharge air by operating the defrost door 510d to open the defrost vent 510.

The rear window hot wire button 280 is used to remove the frost on the rear window by heating the heating wire installed in the rear window. The temperature setting button 290 is used to adjust the temperature of the indoor discharge air by operating the temporal door 540 to adjust the opening degree of the blowing passage toward the heater core 710. The internal / external air selection button 300 is used to operate the intake door 630 to open the internal air inlet 610 or the external air inlet 620 to blow air in the internal air circulation mode or the external air mode. The harmful gas automatic shut-off button 310 operates the intake door 630 to automatically bet circulation mode when it is recognized through the harmful gas detection sensor 470 installed on the front of the vehicle to the outside harmful air flows into the room It is used to The display panel 320 is used to display a current air conditioning mode pattern state. In this way, the user operates various buttons to perform air conditioning control.

On the other hand, as shown in FIG. 3, a display screen method technology of performing air conditioning condition control by touching a menu 11 displayed on the display screen 10 with a finger has recently been applied. However, when the air conditioner is operated by the screen touch, an error according to the response response may be generated, and the air conditioner is integrated with audio or navigation, and there is a need to change a menu for the desired air conditioner control. As a result, such operational inconveniences have a problem of threatening the safe operation of the vehicle.

Accordingly, an object of the present invention is to provide a controller of a vehicle air conditioner that can conveniently control the air conditioning state of the air conditioner so as to facilitate safe driving of the vehicle.

In order to achieve the above object, the controller of the vehicle air conditioner according to the present invention, in the controller of the vehicle air conditioner for displaying the air conditioning state through the display screen and receiving control information for controlling the air conditioning state, the controller Recognize the finger operation of the occupant as the control information through the display screen to control the air conditioning state of the air conditioning apparatus.

Here, the controller may be provided with a motion sensor to recognize the finger operation of the occupant in contact with the display screen as control information.

In addition, the controller may include an optical sensor to recognize the finger operation of the occupant spaced apart from the display screen by the control information.

In addition, the control information may be a character of the trajectory of the occupant's finger movement.

In addition, the control information may be the first letter of a word representing each mode for each of the air volume, wind direction, and indoor and outdoor air control items.

The control information may be a symbol formed by a trajectory of a passenger's finger movement.

In addition, the control information may be a symbol indicating an arrow or a straight line indicating each mode for each of the air volume, wind direction, indoor and outdoor air control items.

The display screen may be divided into a plurality of areas for each control item, and control items corresponding to each area may be controlled.

According to the present invention, the user's finger operation of the air conditioning apparatus is controlled by recognizing, as control information, the finger movements of the occupant who touches the display screen or is spaced apart from the display screen as control information, thereby ensuring the convenience and simplicity of the operation. There is an advantage to plan the operation.

1 is a schematic view showing a conventional vehicle FATC type air conditioner.
2 is a front view showing an operation unit provided in a conventional vehicle FATC type instrument panel.
3 is a view showing a display screen of a conventional vehicle air conditioner.
4 is a view showing a display screen of the controller of the vehicle air conditioner according to the present invention.
Figure 5 is a state diagram used to control the air volume by showing a character in a finger motion in accordance with the present invention.
6 is a state diagram used to control the direction of the wind by showing a character with a finger motion in accordance with the present invention.
Figure 7 is a state diagram used to control the internal and external air by showing a character with a finger gesture in accordance with the present invention.
8 is a use state diagram for controlling the air volume by showing a sign by a finger operation in accordance with the present invention.
9 is a use state diagram for controlling wind direction by showing a sign by a finger operation in accordance with the present invention.
10 is a state diagram used to control the internal and external air by showing a sign by a finger operation in accordance with the present invention.
11 is a conceptual diagram in which the display screen is divided into multiple areas for each control item of the air conditioning apparatus according to the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a view showing a display screen of the controller of the vehicle air conditioner according to the present invention, Figure 5 is a state diagram used to control the air volume by showing a character by the finger motion according to the present invention, Figure 6 is a character by the finger motion according to the present invention Fig. 7 is a state of use to control the direction of the wind, Figure 7 is a state of use to control the internal and external air by showing the character by the finger gesture according to the present invention, Figure 8 is a state of use to control the amount of air by showing a symbol by the finger operation in accordance with the present invention, 9 is a state diagram showing the use of a finger gesture in accordance with the present invention control the direction of the wind, FIG. 10 is a state diagram showing the use of a finger gesture in accordance with the present invention control the internal and external air, FIG. Is a conceptual diagram of dividing into multiple areas for each control item of the air conditioning apparatus.

The controller of the vehicle air conditioner according to the present invention is a controller of a vehicle air conditioner that displays an air conditioning state through a display screen 10 and receives control information for controlling the air conditioning state, wherein the controller is the display screen 10. Recognizing the finger operation of the occupant as the control information through the) to control the air conditioning state of the air conditioning apparatus. That is, the preset finger motion is recognized as control information to control various air conditioning states of the air conditioning apparatus.

Accordingly, the air conditioning control can be performed by inputting desired control information for each control item (air volume, wind direction, A / C on / off, indoor / outdoor mode) of the air conditioner to be controlled by an arbitrary finger operation.

Specifically, the controller of the vehicle air conditioner according to the present invention includes a motion sensor 20 to recognize the finger operation of the occupant in contact with the display screen 10 as the control information. That is, the motion sensor 20 is provided to recognize the finger motion which is in contact with the display screen 10 as the control information.

In addition, the controller of the vehicle air conditioner according to the present invention includes an optical sensor 30 so as to recognize the finger operation of the occupant spaced apart from the display screen 10 by the control information. That is, the optical sensor 30 is provided to recognize, as control information, the finger motion that is not in contact with the display screen 10.

In addition, the control information may be a character formed by the trajectory of the occupant's finger movement, and in particular, may be the first character of a word indicating each mode of the control items of the air conditioner, that is, the air volume, the wind direction, and the inside and outside air control.

For example, in the case of the air volume control, the air volume control can be performed by indicating H and L, which are the first letters of HIGH / LOW indicating the increase / decrease of the air volume, with a finger gesture. FIG. 5 shows a state in which the occupant draws L by a finger operation in contact with or not in contact with the display screen 10 in order to select a decrease in air volume.

In the case of wind direction control, a word indicating the air discharge mode such as DEFROST mode, VENT mode, FLOOR mode, Bi-level mode, and MIX mode (DEFROST, VENT) , FLOOR, Bi-level, MIX), the first letter of D, V, F, B, M can be represented by finger movement to control the air volume. FIG. 6 shows a state in which the passenger draws V by using a finger operation in a state of contacting or non-contacting the display screen 10 to select a vent mode.

In the case of the internal / external air control, the internal and external air can be controlled by representing the first letters I and O of the inside air and the outside air representing the betting mode and the outside air mode with a finger gesture. FIG. 7 shows a state in which the occupant draws I by a finger operation in a state in which the occupant touches or non-contacts the display screen 10 to select a bet.

The control information may be a symbol formed by a trajectory of the occupant's finger movement, and in particular, may be a symbol indicating a control item of the air conditioner, that is, an arrow or a straight line indicating each mode of the air volume, the wind direction, and the inside and outside air control.

For example, in the case of the air volume control, the air volume control can be controlled by drawing an arrow (symbol) indicating the up and down direction by a finger motion. FIG. 8 shows a state in which an occupant draws an arrow upward with a finger movement in a state in which the occupant is in contact with or not in contact with the display screen 10 to select an increase in air volume.

In the case of the wind direction control, it is possible to control the air volume by drawing an arrow (symbol) toward the air discharge direction by a finger motion. FIG. 9 shows a state in which the occupant draws an arrow toward the floor direction with a finger movement in a state in which the occupant touches or non-contacts the display screen 10 to select the floor mode.

In the case of internal and external air control, the internal and external air can be controlled by drawing an arrow (symbol) toward the menu displaying the internal and external air by a finger motion. FIG. 10 shows a state in which the occupant draws an arrow toward the betting direction with a finger movement in a state in which the occupant is in contact with or not in contact with the display screen 10 to select a bet.

As shown in FIG. 11, the controller of the vehicle air conditioner according to the present invention divides the display screen into a plurality of areas for each control item (air volume, wind direction, A / C on / off, outdoor and outdoor modes) of the air conditioner. Even though the control information is the same between the control items, the control items corresponding to the respective areas can be controlled. Accordingly, for example, even if the middle M of the middle air volume in the air volume control and the M of the Mix mode M in the wind direction control are the same, control of the corresponding control items can be performed according to the area on the input display screen. .

As described above, when the controller of the vehicle air conditioner according to the present invention is applied, the user can arbitrarily control desired control information for each control item (air volume, wind direction, A / C on / off, indoor / outdoor mode) of the air conditioner to be controlled by the occupant. By displaying letters or symbols, the air conditioning state of the air conditioning apparatus can be conveniently controlled.

On the other hand, while the controller of the vehicle air conditioner according to the present invention has been described according to a limited embodiment, the scope of the present invention is not limited to the specific embodiment, it is within the scope obvious to those skilled in the art with respect to the present invention. Many alternatives, modifications and changes can be made.

Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10: display screen 20: motion sensor
30: optical sensor

Claims (8)

In the controller of the vehicle air conditioner for displaying the air conditioning state through the display screen 10 and receiving control information for controlling the air conditioning state,
The controller of the vehicle air conditioner, characterized in that for controlling the air conditioning state of the air conditioner by recognizing the finger operation of the occupant as the control information through the display screen. The method according to claim 1,
Wherein the controller is a controller of a vehicle air conditioner, characterized in that it comprises a motion sensor 20 to recognize the finger operation of the occupant in contact with the display screen as control information. The method according to claim 1,
The controller of the vehicle air conditioner, characterized in that it comprises an optical sensor 30 so as to recognize the finger operation of the occupant spaced apart from the display screen as a control information. The method according to claim 1,
The control information controller of the vehicle air conditioner, characterized in that the character of the trajectory of the occupant's finger movements. The method according to claim 4,
The control information is a controller of a vehicle air conditioner, characterized in that the first letter of the word indicating the air volume, wind direction, each mode for each indoor and outdoor control items. The method according to claim 1,
The control information is a controller of a vehicle air conditioner, characterized in that the sign of the trajectory of the occupant's finger movements. The method according to claim 6,
The control information is a controller for a vehicle air conditioner, characterized in that the air volume, the wind direction, a symbol indicating a straight line or an arrow indicating each mode for each indoor and outdoor air control item. The method according to claim 5 or 7,
And dividing the display screen into a plurality of areas for each control item to control a control item corresponding to each area.

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