KR20040033478A - Method for controlling a window glass defroster - Google Patents

Abstract

PURPOSE: A method for controlling a window glass defroster is provided to enable a driver to secure good visibility by preventing frost or moisture from being formed at a window glass. CONSTITUTION: A method for controlling a window glass defroster comprises the steps of: detecting the humidity in a vehicle(S100); comparing the detected humidity with setting humidity(S110); and heating a hot wire installed at a window glass if the detected humidity is more than the setting humidity(S120).

Description

Method for controlling a window glass defroster

The present invention relates to a method for controlling a window glass defroster of a vehicle, and more particularly, to a method for controlling a window glass defroster for controlling a heating wire provided in a rear window glass to control frost or moisture.

In general, when the temperature difference between the inside and outside of the vehicle is large in winter or in high humidity, frost or moisture is generated on the window glass surface to narrow the driver's watch.

As such, a window defroster is provided in the window glass of the vehicle to remove frost or moisture generated in the window glass.

A window defroster is a device for removing frost or moisture formed on a vehicle windshield in winter or in high humidity weather. Generally, a window defroster uses a heater unit provided in a vehicle or inserts an electric resistance wire into the glass to It will remove the moisture or frost formed inside or outside.

Warm wind is used for windshield glass and sidewind glass, and heat transfer type is used for rear window glass normally.

In general, the heating wire inserted into the rear window glass is operated by a push button provided in the instrument panel of the driver's seat, and the driver may press the button provided in the instrument panel when the rear window glass is poor due to frost or moisture in the rear window glass. It is operated to remove frost or moisture by heating action of heating wire.

After the frost formed on the glass surface or the moisture is completely removed, the driver again operates the button to cut off the power applied to the heating wire.

As described above, the conventional rear window glass defroster device requires the driver to artificially operate according to the state of the glass surface, so that the driver may forget to operate 'off' even after the frost or moisture is completely removed from the glass surface. Inconvenience to operate the defroster device will occur.

The present invention is to solve the above-mentioned drawback, the window glass that can prevent the occurrence of frost or moisture in the rear window glass by automatically controlling the heating wire provided in the rear window glass in the winter or high humidity weather It is intended to provide a defroster control method.

1 shows a first embodiment of a window glass defroster according to the present invention.

Showing schematics,

Figure 2 shows a first embodiment of the control method of the window glass defroster according to the present invention

Showing flow chart,

3 shows a second embodiment of a window glass defroster according to the present invention.

Showing schematics,

4 illustrates a second embodiment of a window glass defroster according to the present invention.

Showing flow chart.

<Explanation of symbols for the main parts of the drawings>

10: humidity sensor 11: outdoor temperature sensor

12: room temperature sensor 20: control unit

30: hot wire drive switch

The window glass defroster control method of the present invention includes a first step of sensing the humidity in the vehicle cabin; A second step of comparing the detected humidity with the set humidity; If the detected humidity is higher than the set humidity is achieved as a third step of heating the heating wire provided in the window glass.

In addition, the window glass defroster control method of the present invention comprises a first step of detecting the indoor temperature and the outdoor temperature of the vehicle; A second step of sensing humidity in a vehicle; Calculating a difference between the sensed indoor temperature and the outdoor temperature; When the calculated indoor / outdoor temperature difference and sensed humidity are larger than the set temperature difference and the set humidity, respectively, it may be achieved as a fourth step of generating heat rays provided in the window glass.

1 is a block diagram showing a first embodiment of the window glass defroster according to the present invention, Figure 2 is a flow chart showing a first embodiment of a control method of the window glass defroster according to the present invention.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First Embodiment

In the present invention, as shown in Figure 1, the window glass defroster device is provided in the cabin and the humidity sensor 10 for sensing the humidity in the cabin; A control unit 20 for determining a signal detected by the humidity sensor 10 and outputting a control signal; It may be configured to be connected to the control unit 20, the heat wire drive switch 30 for controlling the power of the heating wire provided in the rear window glass (not shown).

The control unit 20 may store a set humidity value which is a reference as a memory is provided, and compare the humidity value detected by the humidity sensor 10 with the set humidity value to operate the hot wire driving switch 30. It will be cracked down.

The set humidity value stored in the memory is set by experimentally determining an optimal threshold value for a condition where moisture may occur in the vehicle.

The window glass defroster control method according to the first embodiment of the present invention configured as described above will be described with reference to FIG. 2.

The first step (S100) is a step of sensing the humidity in the cabin by the humidity sensor 10.

In a second step (S110), the control unit 20 compares and determines the humidity value detected by the humidity sensor 10 with a set humidity value set in the memory.

In the third step (S120), if the detected humidity is higher than the set humidity, the control unit 20 controls 'on' the hot wire driving switch 30 provided in the window glass (S121). The driving switch 30 is 'off' control (S122).

This process is continuously repeated until the humidity sensor 10 detects the humidity in the vehicle and becomes less than the set humidity to prevent the generation of frost or moisture on the rear window glass surface.

Figure 3 is a block diagram showing a second embodiment of the window glass defroster according to the present invention, Figure 4 is a flow chart showing a second embodiment of the window glass defroster according to the present invention.

Second Embodiment

As shown in FIG. 3, in the present invention, the window glass defroster device includes a humidity sensor 10, a control unit 20, and a hot wire driving switch 30 as described in the first embodiment. An outdoor temperature sensor 11 for sensing an outdoor temperature of the indoor temperature sensor 12 for detecting the indoor temperature of the vehicle is characterized in that the technical configuration.

The control unit 20 is provided with a memory as described above in the first embodiment, a condition for controlling the hot wire drive switch 30, the set humidity value is set and stored, and the set temperature difference is set And stored.

The set temperature difference stored in the memory as described above is compared with the absolute value of the indoor temperature and the outdoor temperature difference sensed by the outdoor and indoor temperature sensors 11 and 12, respectively, and the set humidity value of the hot wire driving switch 30 together with the set humidity value. Judging by the control condition.

The set humidity value and the set temperature difference can be determined as an experimentally optimized threshold value for the conditions where frost or moisture may occur on the rear window glass surface. The two-dimensional map is stored in the memory of the control unit 20.

The window glass defroster control method according to the second embodiment of the present invention configured as described above will be described with reference to FIG. 4.

In the first step (S200) is the step of measuring the temperature of the outdoor and indoor of the vehicle and outputs the detected signal to the control unit 20.

The second step (S210) is a step of sensing the indoor humidity of the vehicle by the humidity sensor 10 and outputting a signal to the controller 20.

In the third step S220, the control unit 20 calculates an absolute value of the difference from the sensed indoor and outdoor temperatures.

The fourth step is a step 4-1 (S231) comparing the set temperature difference set in the memory of the controller 20 with the measured indoor and outdoor temperature difference ΔT calculated in the third step, and the memory set in the memory of the controller 20. It consists of a 4-2 step (S232) for comparing the set humidity and the detected humidity measured in the second step (S210).

Specifically, if the calculated indoor / outdoor temperature difference ΔT is greater than the set temperature difference in step 4-1 (S231), the process proceeds to step 4-2 (S232), which is the next step, and the indoor / outdoor temperature difference ΔT is greater than the set temperature difference. If it is small, the control unit 20 maintains the 'off' state of the hot wire drive switch 30.

Next, if the detected humidity is greater than the set humidity in step 4-2 (S232), the control unit 20 controls the hot wire drive switch 20 to the 'on' state, if the detected humidity is less than the set humidity value The controller 20 controls the hot wire driving switch 20 to an 'off' state.

As described above, according to the second embodiment of the present invention, the temperature difference between the inside and the outside of the vehicle is determined on the condition of the inside and the outside of the vehicle. Even in the winter, even if the humidity of the inside of the vehicle is low, the temperature difference between the inside and the outside of the vehicle is greatly generated. When moisture may be generated in the window glass, the heating wire is heated to prevent the moisture from generating in the rear window glass.

The window glass defroster control method of the present invention as described above detects the indoor humidity of the vehicle and the temperature difference between the indoor and outdoor to determine the conditions that can cause moisture in the rear window glass by automatically controlling the heating wire provided in the rear window glass In addition, the invention is effective to prevent deterioration of the driver's rear view by suppressing occurrence of frost or moisture in the rear window glass in winter or high humidity weather.

Claims (2)

A first step of sensing humidity in the vehicle cabin; A second step of comparing the detected humidity with the set humidity; And a third step of generating a heating wire provided in the window glass when the detected humidity is higher than the set humidity. A first step of sensing indoor and outdoor temperatures of the vehicle; A second step of sensing humidity in a vehicle; Calculating a difference between the sensed indoor temperature and the outdoor temperature; And a fourth step of generating a heating wire provided in the window glass when the calculated indoor / outdoor temperature difference and sensed humidity are greater than the set temperature difference and the set humidity, respectively.