The invention relates to a process for removing foam in a lye container of an electronically controlled drum washing machine as a result of a program step, provided for dehydrating the lye container, with a lye discharge system arranged on the floor of the lye container with a lye pump and with a sensor for determining the level of the liquid in the lye container, whereof the sensor signal is recorded during operation of the lye pump.
Such a process is known from DE 198 46 248 A1. Therein foam is recognised in the discharge system during operation of the lye pump by a sensor on the basis of an optoelectronic sensor. By means of measures (not illustrated in greater detail) this foam can be broken up. This foam recognition method is secure to some extent, though it requires a particular optosensor, which is not always available due to its other duties.
A similar process is known from EP 0 278 239 A1. In this, removing excessive foam buildup in the main wash cycle, observed during heating of washing lye in the lye container, is eliminated by addition of a limited quantity of cold water and/or by temporarily switching off the lye heating.
The aim of the invention is to provide measures for removing foam in the discharge system, which occurs especially during discharge of the lye from the lye container and above all during pumping or respectively during spinning of the washing drum. These measures should above all require no additional expenditure.
According to the present invention this task is solved in that the sequence of the sensor signal contains a component, which detects the presence of foam in the measuring region, and in that in the presence of the component a foam treatment measure suiting the type of component is introduced. Since a level sensor must be available for ascertaining the level of the liquid in the lye container, no additional expenditure on measuring means is required. Detecting the components, whereof the presence hints at the presence of foam, can be realised with minimal expense for software in the electronic controls of the washing machine.
In a particularly advantageous further development of the invention the component is a specific change of the gradient of the sensor signal. It has surprisingly been shown that the sequence of the sensor signal of a level indicator contains a component, which indicates the presence of foam. This component can be derived by the gradient of the level fluctuation variables, observed the washing lye is pumped out prior to commencement of a spin cycle.
The foam treatment measure can, according to an advantageous further development of the invention, comprise a specific quantity of cold and/or warm water in the supply. This measure is already known per se, but has a particular quality in context with the abovementioned characteristics of the invention, because the task of the just-finished process is to remove liquid. Accordingly, the measuring of water supply in such a process is rather unusual.
Alternatively or in addition to this the foam treatment measure in a further advantageous configuration of the invention can consist of a change in the speed of the washing drum. It has been shown that contrary to previous assumptions that the drum movement is the fundamental cause for the buildup of foam, specific movements of the drum or respectively—according to further advantageous designs of the invention—a particular speed profile or the reversal of the washing drum during application of a foam removal measure in a manner suiting the measured variable of the component in the sense of more efficient foam removal are an advantage.
By way of advantage and alternatively the temperature of the liquid in the lye container can be raised or lowered additionally or during application of the foam removal measure.
One particular measure, which should first be applied if all other measures achieve no adequate effect, could be to add in a substance to inhibit the foam automatically during application of the foam removal measure.
However, the necessary expense would be justified only if devices for automatic metering of washing agents are present anyway in a washing machine.
A pressure transducer present in most washing machines anyway can be used advantageously as level indicator. The inventive process is explained further by means of two diagrams, in which:
The diagram of
The diagram of
The pumping out behaviour in
But later (time interval t2 to t7) the pumping out speed gradually slows, since the proportion of foam now in the lye increases very rapidly, or respectively the only foam present is what can no longer be discharged by the pump. Successive level gradients, e.g. of Δp1/Δt1 to Δp2/Δt2 or Δp6/Δt6 to Δp7/Δt7, accordingly become less and less. From this the electronic controls of the washing machine (not shown here) can recognise the presence of foam. After automatic detection of damaging foam at least a part of the above removal measures can be triggered by the electronic controls, which do not need to be detailed further here.
Number | Date | Country | Kind |
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102 34 472 | Jul 2002 | DE | national |
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Number | Date | Country |
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6919393 | Oct 1970 | DE |
1 760 809 | Jan 1972 | DE |
2 325 586 | Dec 1974 | DE |
41 04 151 | Aug 1992 | DE |
0 268 155 | May 1988 | EP |
0 278 239 | May 1991 | EP |
0 984 092 | Mar 2000 | EP |
0 992 622 | Apr 2000 | EP |
982310 | Feb 1965 | GB |
Number | Date | Country | |
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20050197264 A1 | Sep 2005 | US |
Number | Date | Country | |
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Parent | PCT/EP03/06861 | Jun 2003 | US |
Child | 11045529 | US |