KR19990011007A - Automatic ventilation device and control method - Google Patents

Abstract

The present invention relates to an automatic ventilator and a control method thereof, and more particularly, to detect the oxygen concentration in the air inside the vehicle and the gas concentration such as carbon dioxide, which is harmful to the human body. If is increased above the set value, the alarm sound is output, and if the door or window of the vehicle does not open within a certain time after outputting the alarm sound, the power window is lowered automatically. The present invention relates to an automatic ventilation device and a method of controlling the same, which can prevent the case of suffocating while sleeping in the room.

The automatic ventilation device according to the present invention for this purpose is a gas detection means for detecting the concentration of the gas present in the air in the cabin, an alarm sound output means for outputting an alarm sound in accordance with a signal from the gas detection means, the outside air vehicle Outside air detecting means for detecting whether the air is being introduced into the room, a window motor driving unit for driving the window motor to lower the window glass, a signal from the gas detecting means and the outside air detecting means, and receiving the alarm sound output means and the window motor. It includes a control unit for outputting an operation signal to the drive unit, the control method of the automatic ventilation device comprises the steps of detecting the concentration of the gas present in the air in the cabin, comparing the gas concentration with the set value, the alarm sound Outputting a signal, counting a predetermined time from an alarm sound output time point, and And the step of detecting whether or not the outside air introduction, hayeoseo comprising the step of automatically lowering the window glass is characterized by true.

Description

Automatic ventilator and its control method

The present invention relates to an automatic ventilator and a control method thereof, and more particularly, to detect the oxygen concentration in the air inside the vehicle and the gas concentration such as carbon dioxide, which is harmful to the human body. If is increased above the set value, the alarm sound is output, and if the door or window of the vehicle does not open within a certain time after outputting the alarm sound, the power window is lowered automatically. The present invention relates to an automatic ventilation device and a method of controlling the same, which can prevent the case of suffocating while sleeping in the room.

Generally, a power window device installed in a vehicle, as shown in FIG. 1, drives a window glass up / down switch 2 for raising or lowering a window glass, and drives a window motor to raise or lower the window glass. And a control unit 1 for raising or lowering the window glass by outputting an operation signal to the motor driving unit 3. The control unit 1 includes a window glass up / down switch 2. The window glass is raised or lowered by outputting an operation signal to the motor drive unit 3 in accordance with the switch operation.

As described above, in the conventional power window device, the window glass is raised / falled by the rider operating the window glass lift / fall switch, so that the passenger lifts the window glass and operates the heater during the winter. When sleeping in the car, the air in the cabin was reduced by the occupant's breathing, the oxygen concentration was reduced, and the concentration of harmful gases (carbon dioxide, etc.) was increased, causing the passenger to suffocate.

An object of the present invention is to provide an automatic ventilation device and a method of controlling the same so as to prevent a case of suffocating while sleeping in a car while the heater is operated in winter. .

1 is a block diagram of a conventional power window device.

Figure 2 is a block diagram of an automatic ventilation device according to an embodiment of the present invention.

3 is a control flowchart of the automatic ventilation device of FIG. 2.

Figure 4 is a block diagram of an automatic ventilation device according to another embodiment of the present invention.

5 is a control flowchart of the automatic ventilation device of FIG. 4.

* Explanation of symbols for main parts of the drawings

11: automatic ventilation device 12: oxygen detection sensor

13 door opening and closing detection sensor 14: alarm sound output means

15: motor driving unit 16: control unit

Hereinafter, with reference to the accompanying drawings, an automatic ventilation apparatus and a control method thereof according to the present invention will be described in detail.

2 is a block diagram illustrating an automatic ventilation device according to an embodiment of the present invention, wherein the automatic ventilation device 11 is an oxygen detection sensor installed in a vehicle cabin to detect a concentration of oxygen present in the vehicle cabin. 12), the door open / close detection sensor 13 for detecting the open and closed states of the door, and the alarm sound output means 14 for outputting an alarm sound when the concentration of oxygen present in the air in the vehicle is lower than the set value. And a window motor driver 15 for driving a window motor to lower the window glass, a signal of the oxygen detection sensor 12 and the door open / close detection sensor 13 and the alarm sound output means 14 and the window. The control unit 16 outputs an operation signal to the motor driving unit 15.

Here, the control unit 16 is composed of a RAM, ROM, input and output devices, communication ICs, etc., and various sensors (oxygen detection sensor, acceleration sensor, light receiving sensor, etc.) and switches (light switch, wiper switch, etc.) installed in a vehicle. It is composed of a BCM (Body Control Module) for receiving a signal from the power window operation switch, etc.) to control the light, the wiper, the power window, and the like, and the set value of the oxygen concentration is stored in the ROM of the BCM 16.

A control method of the automatic ventilation device configured as described above will be described with reference to the control flowchart of FIG. 3.

When the control starts, the oxygen detection sensor 12 installed in the vehicle interior detects the concentration of oxygen present in the air in the vehicle interior and outputs the detection result to the BCM 16 (S10). The BCM 16 receives the signal from the oxygen detection sensor 12 and compares the oxygen concentration with the set value (S20), and outputs an operation signal to the alarm sound output means 14 when the oxygen concentration is less than or equal to the set value. To output (S30).

When the alarm sound is output in the step S30, the BCM 16 counts a predetermined time from the alarm sound output time (S40), and receives a signal from the door open / close detection means 13 while counting the predetermined time to open the door. In step S50, if the door is not opened in step S50, an operation signal is output to the window motor driver 15 to automatically lower the window glass by a predetermined amount (about 10 cm) (S60).

As a result, the window glass is automatically lowered when the oxygen present in the vehicle interior is below the set value.

Figure 4 is a block diagram showing an automatic ventilation device according to another embodiment of the present invention, the automatic ventilation device 21 is installed in the vehicle to detect the concentration of gases harmful to the human body, such as carbon dioxide present in the vehicle interior The harmful gas detection sensor 22, the switch means 23 for outputting a specific signal while the window glass is closed, and the alarm sound when the concentration of the harmful gas existing in the air inside the vehicle is increased above the set value. The alarm sound output means 24, the window motor driver 25 for driving the window motor to lower the window glass, the signal of the harmful gas detection sensor 22 and the switch means 23 receives the alarm sound output And a control unit 26 for outputting an operation signal to the means 24 and the window motor drive unit 25.

Here, the control unit 26 stores the set value of the noxious gas concentration.

FIG. 5 is a control flowchart illustrating a control method of the automatic ventilation device of FIG. 4.

When the control starts, the noxious gas detection sensor 22 installed in the vehicle interior detects the concentration of noxious gas such as carbon dioxide present in the air in the vehicle interior and outputs the detection result to the control unit 26 (S100). The control unit 26 receives the signal from the harmful gas detection sensor 22 and compares the noxious gas concentration with the set value (S200), if the noxious gas concentration is above the set value, the alarm sound output means 24 controls the alarm sound. Output the (S300).

When the alarm sound is output in the step S300, the control unit 26 counts a predetermined time from the alarm sound output time (S400), and while opening the window glass by receiving a signal from the switch means 23 while counting the predetermined time. In step S500, if the window glass is not opened in step S500, an operation signal is output to the window motor driver 25 to automatically lower the window glass by a predetermined amount (about 10 cm) (S600).

As a result, the window glass is automatically lowered when the oxygen present in the vehicle interior is below the set value.

According to the automatic ventilation device according to the present invention configured as described above, even if the driver sleeps in the car with the heater turned on in winter, the concentration of oxygen or noxious gas present in the air inside the vehicle is detected and detected. Accordingly, by automatically lowering the window glass by a predetermined amount to allow ventilation between the air inside the cabin and the outside air, it is possible to prevent suffocation of the occupants.

The present invention is not limited to the embodiments described herein but may be modified and changed by those skilled in the art within the spirit and scope of the appended claims.

Claims (2)

Gas detection means for detecting the concentration of gas present in the interior of the vehicle, alarm sound output means for outputting an alarm sound in accordance with a signal from the gas detection means, and outdoor air detection means for detecting whether air is introduced into the vehicle interior And a window motor driving unit which drives the window motor to lower the window glass, and a control unit which receives signals from the gas detecting unit and the outside air detecting unit and outputs an operation signal to the alarm sound output unit and the window motor driving unit. Automatic ventilation, characterized in that made. Detecting the concentration of gas present in the air in the vehicle; Comparing the gas concentration to a set point; Outputting an alarm sound; Counting a predetermined time from the alarm sound output time; Detecting whether air is introduced into the vehicle interior; Automatically lowering the window glass; Control method of the automatic ventilation device, characterized in that made, including.