EP0898008A1 - Method for determining the loading of a laundry drier - Google Patents

Abstract

Determining the loading volume of a laundry dryer comprises moving the washing in the drum (1) and determining the electric conductance of the washing by means of electrodes. The electrodes (12) touch the washing at least intermittently and the measuring signal of the conductance features impulses, the frequency of which is determined and used as a measure for the loading volume.

Description

The present invention relates to a method for determining the amount of loading a clothes dryer according to the preamble of claim 1.

The drying process plays alongside the moisture and the type of laundry that is usual is dried in a drum, including the load the dryer plays a big role. Therefore, for various reasons, it is about for accurate remaining time prediction, for optimal control of the drying process or for customized heating output, advantageous, the load to determine the dryer.

Methods for determining the amount of loading of are from the prior art Tumble dryers known, which are based on the evaluation of temperature or temperature gradient measurements, on the current draw of the motor to move the laundry drum or based on a measurement of the electrical capacity of the drum.

Furthermore, DE 29 45 696 A1 describes a method for determining the amount of loading known from tumble dryers, in which the electrical conductivity of the laundry is used becomes. According to this printing step, two electrodes are attached in the drum, which temporarily touch the laundry when the drum is rotated and by means of which determines the electrical conductivity. This master value signal, which with the Movement of laundry in the drum varies and has impulses to a threshold circuit connected to the concern of a piece of laundry, even in dry State on the electrodes indicates by a hit signal of constant height delivers, which is then integrated. The more often and the longer a piece of laundry applied to the electrodes, the more frequent and longer the hit signals and the higher is the value of the integration of these hit signals. Thus, the integration of this Hit signals represent a measure of the load of the tumble dryer, which is used for Control of the drying process can be used.

When using this method to determine the load of laundry dryers The following disadvantages essentially arise.

The integration of a digital hit signal per se has a relapse to an analog one This results in a signal that cannot be processed further with digital components can. In modern tumble dryers, however, digital modules are preferred, in particular Microcontroller, used for control, so that an analog signal to be processed disadvantageously requires an increased effort. So falls with processing an analog signal through a digital module, additional circuitry for analog / digital conversion.

It can also be used for very dry and very little conductive laundry a simple threshold circuit that the small conductance difference between concerns and non-concerns of this laundry item to the Electrodes cannot detect the touch of laundry.

The present invention is therefore based on the object of a method for determination the loading amount of tumble dryers of the type mentioned in the beginning to improve that the measure of laundry loading with digital building blocks simple is to be further processed, and also a more reliable determination of the loading quantity very little conductive laundry items is made possible.

This object is solved by the features of claim 1.

According to the invention the frequency of the pulses of the measurement signal of the electrical conductivity of the laundry determined and used as a measure of the load. The higher the frequency, the more often a piece of laundry touches the electrodes and the greater the laundry load of the dryer. This ensures that the measure of the loading quantity is available in digital form, which means further processing through digital components, in particular microcontrollers, and taking them into account Controlling the drying process much easier.

The edges of the conductance measurement signal are advantageously detected, in particular by forming a time derivative (differentiation) and by determining it Frequency determines the frequency of the pulses of the conductance measurement signal. By capturing the edges of the conductance measurement signal becomes independent of its absolute Height and thus reached by the conductivity of the laundry. So even with very with less conductive laundry, a reliable determination of the load quantity is possible.

According to a further advantageous embodiment, the pulses of the conductance measurement signal compared with a threshold value and by counting the pulses from a certain Threshold per unit of time, the frequency of the pulses is determined that the Exceed or fall below the threshold. Because the comparison with a threshold particularly easy by using a comparator or a Schmidt trigger can be implemented in terms of circuit technology, the invention in this way particularly can be used easily and inexpensively.

Advantageously, either solve the detected edges of the conductance measurement signal or, if necessary the conductance measurement signal exceeds or falls below a threshold value each a pulse of constant duration, then the frequency of this Impulse determined and used as a measure of the amount of loading. Through the Triggering pulses of constant duration will make the occurrence extremely short or extreme long pulses avoided with a limited temporal responsiveness of the subsequent components make it difficult to reliably determine the load.

The determination of the frequency of the pulses of the Conductivity measurement signal carried out by means of a microcontroller, the frequency determination enabled with a low component cost and as a rule central Control device of the dryer directly via the necessary information on the load quantity can dispose of.

Furthermore, each of the aforementioned steps can advantageously be carried out in the course of the processing of the conductance measurement signal for determining the frequency of its pulses also in one digital electronic computer or a microcontroller can be implemented. Because a function is carried out in an already existing microcontroller will always result in a saving that would otherwise have to be carried out Function necessary device and thus a lower component and circuit complexity, which also leads to a lower probability of failure of the dryer leads.

As already mentioned, the determination of the frequency of the pulses of the conductance measurement signal but also the determination of all others as a measure of the loading quantity serving frequencies performed particularly advantageously with a microcontroller become. The frequency measurement, whatever impulses or events, can be with a microcontroller with very little circuitry and very high accuracy Carry out, as opposed to analog circuits, digital signals can process particularly advantageously.

The comparison of the conductance measurement signal with a predetermined one can be particularly advantageous Carry out the threshold with a microcontroller. This can be done using the microcontroller assigned or implemented in it analog / digital converter can be used or a special input of the microcontroller, such as an input with Schmidt trigger or comparator that can perform this comparison function.

In some embodiments, when using a microcontroller, this must be analog Process signals only with an intermediate analog / digital converter is possible. The latter can be assigned externally to the microcontroller or also in be integrated. When using a microcontroller with an assigned analog / digital converter can be processed by both analog and also digital signals all previously mentioned methods are carried out, so that in a tumble dryer also use several of the aforementioned methods can come.

Further details, features and advantages of the present invention will become apparent from the following description of an embodiment with reference to FIG the drawing. In it, the only figure shows a schematic circuit structure to carry out an embodiment of the method according to the invention.

As can be seen from the drawing, the drum 1 has an electrode 12, wherein as second electrode serves the drum 1 itself. To obtain the conductivity value the drum 1 is connected to the mass 5 of the dryer and the electrode 12 connected to a constant voltage 6 via a series resistor 13. The laundry in the drum 1 has a laundry resistance 14, on the one hand over the drum 1 with the mass 5 of the dryer and on the other hand via the electrode 12 with the Resistor 13 is connected and thus forms a voltage divider with this. On the connection point between the laundry resistor 14 and the resistor 13 a measurement signal 15 is obtained which serves as a measure of the laundry conductance. This Conductivity measurement signal is connected to the input of a differentiator 2, the one Output signal 21 generated. This output signal 21 of the differentiator 2 is in turn connected to the input of a monostable multivibrator 3, the Output signal 31 finally connected to an input of a microcontroller 4 is.

The load of the tumble dryer is determined when moving the laundry in the drum 1 by rotating it. The laundry gets at least at times in contact with the electrode 12, which is a time-varying conductivity measurement signal 15 results. Every time the electrode 12 is touched by a piece of laundry or any change in that measured between the electrode 12 and the drum 1 Laundry resistance 14, the conductance measurement signal 15 jumps or have an impulse. The number of these pulses per unit of time is therefore a measure of the load of the dryer. Because the conductance measurement signal is very irregular and determining the frequency of the pulses is difficult, this signal must be suitable be processed. For this purpose, the slope of the pulses is determined using a differentiator 2 of Leifwertmeßsignals 15 determined and thus detected by their edges. Each of the detected edges which are contained in the output signal 21 of the differentiator 2 are, triggers a pulse of constant duration by means of a monostable multivibrator 3. The output signal 31 of the monostable multivibrator 3, which the pulses more constant Duration is connected to a digital input of a microcontroller 4. Of the Microcontroller 4 counts the pulses of signal 31 received per unit of time and determines them so their frequency, which is a direct measure of the load quantity.

The solution according to the invention thus becomes a method for determining the loading quantity created a dryer with which the measure of the load is available in digital form. This makes it easier to process through digital Building blocks, especially by a microcontroller, and a more precise determination the load quantity possible. When using a microcontroller for control of the drying process, it is possible in this way that directly in the microcontroller the necessary information on the load quantity is available.

Claims (11)

Method for determining the load quantity of a clothes dryer, in which the laundry is moved in a drum, the electrical conductivity of the laundry is determined by means of electrodes which at least temporarily touch the laundry, and the measurement signal of the electrical conductivity has pulses, characterized in that the frequency the impulses of the measurement signal (15) of the electrical conductance is determined and serves as a measure of the loading quantity. A method according to claim 1, characterized in that a detection of the edges of the conductance measurement signal, in particular by forming a time derivative (Differentiation), is carried out and its frequency as a measure of the loading quantity serves. Method according to Claim 1, characterized in that the pulses of the conductance measurement signal be compared with a threshold, and the frequency of the pulses is determined that exceed or fall below the threshold. A method according to claim 2, characterized in that the detected edges each trigger a pulse of constant duration, and the frequency of these pulses as a measure of the load quantity serves. A method according to claim 3, characterized in that when exceeding or falling below the predetermined threshold is triggered a pulse of constant duration, and the Frequency of these pulses serves as a measure of the amount of loading. Method according to Claim 1, characterized in that the frequency is determined is carried out by means of a microcontroller (4). A method according to claim 2, characterized in that the detection of the edges of the conductance measurement signal and / or the determination of the frequency of the detected edges is carried out by means of a microcontroller (4). A method according to claim 3, characterized in that the comparison of the pulses of the Conductivity measurement signal with a threshold value and / or the determination of the frequency dei Pulses that exceed or fall below the threshold value by means of a microcontroller (4) is carried out. A method according to claim 4, characterized in that the detection of the edges of the conductance measurement signal and / or the triggering of one pulse more constant Duration and / or the determination of the frequency of the pulses of constant duration by means of a Microcontroller (4) is performed. A method according to claim 5, characterized in that the comparison of the conductance measurement signal with a threshold and / or triggering a pulse more constant Duration in the event of exceeding or falling short and / or determining the frequency of the pulses constant duration is carried out by means of a microcontroller (4). Method according to one of claims 6 to 10, characterized in that the microcontroller (4) an analog / digital converter is assigned to the one occurring in the method processed analog signals.

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