Electricity: measuring and testing – Impedance – admittance or other quantities representative of... – Lumped type parameters
Reexamination Certificate
1998-08-21
2002-10-15
Le, N. (Department: 2858)
Electricity: measuring and testing
Impedance, admittance or other quantities representative of...
Lumped type parameters
C034S595000, CD32S008000
Reexamination Certificate
active
06466037
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The present invention relates to a method for determining a load in a tumble dryer. The tumble dryer is provided with electrodes for determining the electrical conductivity of laundry in the tumble dryer.
During the drying operation, in addition to the moisture and the type of laundry, which is usually dried in a drum, among other factors, the load in the tumble dryer also plays a major part in the drying process. It is therefore advantageous for various reasons to determine the load in the tumble dryer, for example in order to predict the remaining time accurately, in order to control the drying process in an optimum fashion or in order to output a heating capacity that is matched to the heating requirement.
The prior art discloses methods of determining the load in tumble dryers which are based on the evaluation of temperature measurements or temperature gradient measurements, on the current demand of the motor to move the laundry drum or on a measurement of the electrical capacitance of the drum.
Furthermore, a method for determining the load in tumble dryers in which the electrical conductivity of the laundry is used is disclosed in Published, Non-Prosecuted German Patent Application DE 29 45 696 A1. According to that document, the drum is fitted with two electrodes, which touch the laundry from time to time as the drum rotates and by which the electrical conductivity of the laundry is determined. The conductivity signal, which varies with the movement of the laundry in the drum and exhibits pulses, is connected to a threshold-value circuit. The conductivity signal indicates that there is a piece of laundry resting on the electrodes, even in the dry state, by outputting a hit signal of a constant level which is subsequently integrated. The more frequently and the longer a piece of laundry is resting on the electrodes, the more frequent and longer are the hit signals and the higher is the value of the integral of the hit signals. The integral of the hit signals therefore constitutes a measure of the load in the tumble dryer, which can be used for controlling the drying process.
However, the above-described method has disadvantages. The integration of an intrinsically digital hit signal results in a fall-back to an analog signal, which cannot be processed further using digital components. In modern tumble dryers, digital modules, in particular microcontrollers, are preferably used for control, so that an analog signal to be processed disadvantageously requires an increased outlay. Thus, the processing of an analog signal by a digital module entails an additional outlay in circuitry for the analog/digital conversion.
Furthermore, in the case of laundry which is very dry and has a low conductivity, the use of a simple threshold value circuit may give rise to the situation where, as a result of the low conductivity difference between a contact and a non-contact measurement of a piece of laundry engaging the electrodes, it may not be possible to register the contact of the laundry.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method for determining a load in a tumble dryer which overcomes the above-mentioned disadvantages of the prior art methods of this general type, in which a measure of the laundry load, using digital modules, is easy to further process, and a more reliable determination of the load is made possible even in the case of pieces of laundry having very low conductivity.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method for determining a load in a tumble dryer, which includes: moving laundry in a laundry drum having electrodes; generating a pulsed conductivity measurement signal measuring electrical conductivity of the laundry as a result of contact occurring at least from time to time between the laundry and the electrodes of the laundry drum; and determining a frequency of the pulsed conductivity measurement signal, the frequency serving as a measure of a load of the laundry.
According to the invention, the frequency of the pulses in the measurement signal of the electrical conductivity of the laundry is determined and used as a measure of the load. The higher the frequency, the more frequently a piece of laundry touches the electrodes, and the greater is the load of the laundry in the dryer. This achieves the situation where the measure of the load is present in digital form, which significantly simplifies further processing with digital modules, in particular microcontrollers. The load can then be taken into account for controlling the drying process.
Advantageously, the signal edges of the conductivity measurement signal are registered in particular by forming a time derivative (differentiation), and the frequency of the conductivity measurement signal is determined by determining the frequency of the registered edges. By registering the edges of the conductivity measurement signal, independent of its absolute level, the conductivity of the laundry is determined. Thus, a reliable determination of the load is possible even in the case of laundry of very low conductivity.
According to a further advantageous embodiment, the pulses of the conductivity measurement signal are compared with a threshold value and, by counting the pulses above or below a specific threshold value per unit of time, the frequency of the pulses which fall above or below the threshold value is determined. Since the comparison with a threshold value can be implemented particularly simply in terms of circuitry by using a comparator or a Schmitt trigger, it is possible in implement the invention in a particularly simply and cost-effectively manner.
Advantageously, either the registered edges of the conductivity measurement signal or, if appropriate, the fact that a conductivity measurement signal falls above or below a threshold value, in each case triggers a pulse of constant duration. The frequency of the pulses are then determined and used as a measure of the load. The triggering pulses of constant duration avoids the occurrence of extremely short or extremely long pulses which make a reliable determination of the load more difficult in the case of a limited reaction time capability of the components.
In a particularly advantageous way, the determination of the frequency of the pulses of the conductivity measurement signal is carried out by a microcontroller. This enables the frequency to be determined with a low outlay for components and, as the central control device in the tumble dryer, the microcontroller can directly use the necessary information about the load.
Furthermore, each of the above-mentioned steps in the course of processing the conductivity measurement signal in order to determine the frequency of its pulses can advantageously also be implemented in a digital electronic arithmetic unit or a microcontroller. The fact that the function is carried out in a microcontroller that is already present in the dryer results in a savings in components and circuitry, which also leads to a lower probability of failure of the tumble dryer.
Thus, as already mentioned, the determination of the frequency of the pulses of the conductivity measurement signal, but also the determination of all other frequencies serving as a measure of the load, can be carried out particularly advantageously with the microcontroller. The frequency measurement, of whatever pulses or events, can be carried out with a very low outlay on circuitry and very high accuracy using the microcontroller, since the latter, in comparison with analog circuits, is able to process just the digital signals particularly advantageously.
The comparison of the conductivity measurement signal with a predetermined threshold value may be carried out particularly advantageously with the microcontroller. For this purpose, it is possible to use an analog/digital convertor that is assigned to the microcontroller or implemented in it or else a special input to the microcontroller, such as an inpu
Meerpohl Hansjörg
Pech Dietmar
BSH Bosch und Siemens Hausgeräte GmbH
Greenberg Laurence A.
Kerveros James
Le N.
Locher Ralph E.
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