DE102004045886A1 - Method for avoiding fogging of a vehicle screen comprises activating an air conditioning system when the difference from the screen temperature and the dew point temperature sinks below a prescribed threshold value - Google Patents

Abstract

Method for avoiding fogging of a vehicle screen comprises measuring a dew point temperature and a screen temperature and activating an air conditioning system when the difference from the screen temperature and the dew point temperature sinks below a prescribed threshold value which depends on a temporary change of screen temperature and/or dew point temperature and/or the difference between the two. Preferred Features: The threshold value has a prescribed constant value in a value region of the temporary change. A hysteresis of the temporary change is considered during a transition between two constant values.

Description

The The invention relates to a method for fogging prevention of discs, in particular of motor vehicle windows, in which a dew point temperature and a disk temperature are measured and when the Difference between the temperature of the window and the dew point temperature below a specified one Threshold drops, an air conditioning system is activated.

Such a method is for example by the DE 199 42 286 C1 known.

fitting danger on the window of a motor vehicle is present, if due to external influences, the temperature of the window colder as the air temperature in the interior and thereby on the inside of the pane the dew point temperature is fallen below. To the horseshoeing To counteract in time, an air conditioning system should already be counteract below the dew point temperature, namely if the difference between disk temperature and dew point temperature falls below a certain threshold. This threshold (intervention threshold) is due to the measuring accuracy and the control speed of the air conditioning system certainly.

Of the Invention has for its object to provide a method which a timely intervention of the air conditioning system to avoid disc fitting allows.

These The object is achieved by the The method of claim 1 solved. The dependent ones claims represent preferred embodiments of the invention.

At the inventive method becomes the predefinable threshold depending on a time change the pulley temperature and / or the dew point temperature and / or the difference between the two. With the method according to the invention ensures that even with rapid changes of dew point temperature and / or Disk temperature the fogging conditioning system countermeasures in time.

The height of Intervention threshold is adjusted dynamically. It is raised when the disk temperature and / or the dew point temperature and / or change the difference between the two quickly. The threshold can either continuously over the total variation of the temporal change or in several value ranges (Intervals) adjusted differently. The way in which the threshold is set depends on the used in the latter case Value range.

at a preferred variant takes in at least one range of values the temporal change of the Threshold to a predefinable, constant value. Lying two such Value ranges next to each other, the threshold is gradually, preferably with hysteresis, switched between two constant values. The constant values are dependent on the performance of the procedure of various influencing factors such as the switching time of the air conditioning system etc. set.

at a particularly preferred variant increases in all value ranges the temporal change the threshold value is a different, constant value at. The threshold is in this case gradually, preferably with hysteresis, between the pre-set, constant values hergeschaltet.

In a particularly preferred variant is the transition between two constant Values take into account a hysteresis of the temporal change. Thus the threshold from a first constant value to a second, larger constant Value is to be switched on by a certain hysteresis amount greater value the temporal change present as if from the second constant value to the first constant value switched back becomes. This proves to be favorable, though the temporal change near a transition point between two ranges of values. Due to external influences, the temporal change in their temporal course fluctuate around this transition point around. Due to the hysteresis prevents in this case constantly between the two constant values is switched back and forth.

at A preferred variant is in at least one range of values the temporal change of the Threshold set by a function of the temporal change. The threshold can be in the range of values continuously depending on the temporal change vary and is not fixed from the beginning. Such Setting the threshold in a range of values is advantageous can be combined with a determination in a further value range, where the threshold is constant. The value range with the constant Threshold can be used with little time change, the value range with the variable threshold value with a larger change in time.

In a particularly preferred variant, the function is a weighted difference of the temporal change of disk temperature and dew point temperature. By using weighting factors, a possibly different influence of the change of the dew point temperature and the change of the pulley temperature on the determination of the threshold value can be taken into account.

at Another preferred variant becomes the predefinable threshold value dependent on from further factors, in particular an operating point of the air-conditioning system, an outside temperature, an interior temperature, a blower setting, a signal a daylight sensor, a signal of a sun sensor, a A rain sensor signal, a passenger number recognition signal and / or a car speed. This can be a even more precise definition of the intervention time of the air conditioning system be achieved.

In a particularly preferred variant, the dew point temperature is determined on the basis of the measurement signals of a temperature sensor and a moisture sensor. As a temperature sensor and humidity sensor, a sensor unit may advantageously be used, as in the DE 100 51 558 A1 is described.

embodiments the method according to the invention are shown in the schematic drawings and are in explained in the following description. It shows:

1 the change over time of the difference between the temperature of the disk and the dewpoint temperature over time with three value ranges; and

2 a threshold T _c over time with two threshold curves.

1 shows a graphical representation of the change over time (time derivative) of the difference between disk temperature T _s and dew point temperature τ: d / dt (T _s - τ). This difference is initially constant, so that the temporal change is zero, and then decreases monotonically in the time interval shown. In this case, the temporal change successively passes through a first value range W1 with 0 ≥ d / dt (T _s -τ)> -1, a second value range W2 with -1 ≥ d / dt (T _s -τ)> -2 and a third value range W3 with -2 ≥ d / dt (T _s - τ)> -3. For each of the three value ranges W1 to W3, it is determined how to calculate a threshold value T _c at which a climate control device for preventing window fogging is activated.

In a first variant for determining the threshold value T _c , the latter passes through a first threshold curve 1 , in the 2 is shown. At the first threshold curve 1 the threshold value T _c in each of three time periods t ₁ to t _3, corresponding to the three value ranges W1 to W3, constant and has in the time interval t ₁ the value of T _c = 1, in the time interval t ₂ the value of T _c = 2, 5 and in the time interval t ₃ the value T _c = 4. The threshold value T _c is thus switched through stepwise in this variant of the method.

In a second variant for determining the threshold value T _c , this passes through the in 2 shown, second threshold curve 2 , In the time interval t ₁ , the threshold value T _{c is} constant as in the above variant and has the value T _c = 1. In the two further time intervals t ₂ and t ₃ , the threshold value T _{c is} equal to the absolute value of the temporal change of the difference between the disk temperature T _s and dew point temperature τ: T _c = d / dt | T _s - τ |.

The two based on 2 shown method variants are representative of a variety of possible variants for determining the threshold value T _c as a function of the change over time of the difference between the disk temperature and dew point temperature d / dt (T _s - τ). Common to all variants is that the threshold value T _c increases as the rate of change of this difference increases, as a result of which rapid changes can be reacted in time to prevent fogging of the disk.

Alternatively to in 1 The temporal change of the difference between the temperature of the disk and the dew point temperature d / dt (T _s -τ), which is shown in FIG. _3, may also be the change with time of a weighted difference d / dt (c ₁ T _s -c ₂ τ) with constant weighting factors c ₁ , c ₂ or a more complicated one Dependent on disk temperature, dew point temperature and other influencing factors f (T _s , τ, ...) are used for the determination of the threshold value T _c .

The above-described method for determining the threshold value T _c can be used advantageously in particular for preventing the fogging of windshields of motor vehicles. In this case, as influencing factors, for example, the operating point of the air conditioning system of the motor vehicle, the outside temperature, a fan setting and / or a motor vehicle speed can be. To determine the dew point, a sensor unit may be used in this case, in particular as used in the DE 100 51 558 A1 is described.

Claims (8)

A method for preventing fogging of windows, in particular of motor vehicle windows, in which a dew point temperature (τ) and a window temperature (T _s ) is measured, and in which, when the difference (T _s - τ) of the window temperature (T _s ) and dew point temperature (τ) below a predetermined threshold value (T _c ) decreases, an air conditioning system is activated, characterized in that the predetermined threshold value (T _c ) in response to a change in the temperature of the disk (d / dt T _s ) and / or the dew point temperature (d / dt τ) and / or the difference (d / dt T _s - d / dt τ) is determined from both. A method according to claim 1, characterized in that in at least one range of values (W1, W2, W3) of the temporal change of the threshold value (T _c ) assumes a predetermined, constant value. A method according to claim 2, characterized in that in all value ranges (W1, W2, W3) of the temporal change of the threshold value (T _c ) assumes a respectively different, constant value. Method according to claim 2 or 3, characterized that at the transition between two constant values a hysteresis of the temporal change considered becomes. The method of claim 1, 2, or 4, characterized in that in at least one range of values (W1, W2, W3) of the temporal change, the threshold value (T _c ) is determined by a function of the temporal change. A method according to claim 5, characterized in that the function is a weighted difference of the temporal change of disk temperature (d / dt T _s ) and dew point temperature (d / dt τ). Method according to one of the preceding claims, characterized in that the predefinable threshold value (T _c ) as a function of further influencing variables, in particular an operating point of the air conditioning system, an outside temperature, an interior temperature, a blower setting a signal of a daylight sensor, a signal of a sun sensor, a signal a rain sensor, a signal of a passenger number recognition and / or a vehicle speed is set. Method according to one of the preceding claims, characterized characterized in that the dew point temperature (τ) based on the measurement signals of a temperature sensor and a humidity sensor.