The invention relates to a process for accelerated wetting of laundry in a speed-controlled drum of a program-controlled drum washing machine with a device to determine the volume of the laundry filled into the drum and with an adjustable tap water filling device and a measuring device for the filled in water volume water volume and for the level of the washing liquid as well as with a control unit to influence the course of the movement of the loaded drum.
In one known process, a speed considerably below the speed suitable for washing is reached when turning the drum by drawing mechanisms on the drum jacket, so that the previously filled in dry laundry is moistened in a relatively short time. The familiar process, however, is too rigid and does not consider various absorbing laundry items. Based on this, more water is used in most cases, than would otherwise been required for the current laundry item. In addition, the duration of the wetting phase cannot satisfy with its considerably more than five minutes.
The invention therefore is based on the function to ensure in an initially described process at the acceleration of the power phase, that sufficient washing liquid is available in every case for subsequent washing and that only so much water is used in relation to the load and the absorbency of the laundry item as is absolutely necessary.
This function is solved by a process of the invention in which the programming section for wetting contains at least three phases, in which the first phase is or will be determined by the tap water relative to the absorbency of the filling quantity, in a subsequent phase after reaching the water volume filled in the soapy water container by which the drum is moved for a determined first phase in a manner through which an even soaking of the laundry item is achieved, and in a last phase in which the drum is stopped and/or moved at a speed suitable to move in a direction for a second preset duration and the quantity of washing liquid necessary for the subsequent washing phase is only determined after the end of the second defined time and is possibly filled and then the drum is powered in intervals and reversing at a speed suitable for washing.
The measures corresponding with the invention have proven to be very suitable after numerous tests. Advantages in the aforementioned criteria of the task have been found in almost all loading versions.
The process according to the invention may be designed favourably by numerous versions as described herein.
For example, it has an especially favourable effect, if a ratio development between the measure of the currently entering water volume and the current soap level is performed to measure the volume of the tap water and if this ratio is set in relation to the gradient of the soap level increase. The soapy water tank in the washing machine will then never be overfilled, because too much water had been filled in for a possibly below average absorbing laundry item at the beginning.
However, the other measures contribute as well to the improvement of the effect according to the function. This also prevents that the washing efficiency is inhibited due to undetermined and undefined filling steps as in the familiar process to measure the washing liquid volume, because the temperature shock and fluctuations of the detergent concentration may affect the smooth process of the washing process. In addition, in most cases, the washing liquid may be heated earlier and more evenly than the current state of technology, because the level of the filled water covering the heaters is reached more quickly.
Furthermore, intelligent control systems can learn data from the completed filling processes to calculate the laundry quantity estimated prior to the beginning of the filling process. Overall this results in a better adjustment of the filling water volume even at higher loading quantities.
The process according to the invention and individual characteristics of the process are described in more detail, based on diagrams illustrated in the drawing.
Tap water is filled into the soapy water tank in three phases at the beginning of a washing process in the process according to the invention; 0.5 liters initially, then 1.5 liters and finally approximately 2.5 liters. This is clarified in
The ratio of the measured values of the soapy water volume and the soapy water level or their difference contains a reference to the suction capacity of the laundry item. Together with the value for the gradient of the soapy water level increase during the rotation of the laundry drum, the value for the laundry item or for its overall suction capacity and therefore also the volume for the initial fill of tap water may therefore be calculated relatively accurately from these measured values. A predetermined quantity may have been defined for the initial fill instead of the calculation, which is oriented to a minimum suction capability of a laundry item that is to be treated.
As soon as the third partial quantity of tap water is filled in, the drum begins to turn at about 50 rpm approximately three times in intervals and reversing during phase B. This phase serves to intensify the soaking of the laundry, which is expressed in the decreasing soap level over the duration of phase B.
Other measures may be used to intensify the soaking process instead or in addition to these actions. The gradient of these soap level decreases again leads to a conclusion to the laundry quantity, whereby the accuracy of the value estimated during the initial phase A can be essentially improved. The measured value of the current soapy water level furthermore provides the potential to determine the washing method by the absorption capacity when comparing with the total of the entered water volume.
Phase B lasts about three minutes and ends with the transition of the drum movement from the reversing operation into the continuous operation, however, at only approximately 25 rpm. One or more drum-stopping phases may still be within the transition. During this last phase, the quiet phase C, any level control of the washing liquid will be prevented. The laundry has time during phase C to continue to fill with water, in a way, water for absorption. The surface fibre wetting initially penetrates deeper into the fibres. The rotating direction of the drum may be advantageously selected as that during which the water is distributed especially effectively over the laundry by the drawing mechanisms of the drum.
Phase C continues for approximately one half minute, however, is very important despite its brevity, because it prevents the cutting in of an additional later filling process, if the absorption process has been delayed.
Meanwhile, the control from the measurements of the incoming water volume and the soapy water level has gained so much data from the process of the suction processes that a particular volume for a final tap water addition has been calculated, which rarely is greater than 0.5 liters. The necessary and just sufficient volume of the total required washing liquid is actually defined so precise during this last fill-up that the following washing process (phase D) is not disturbed by any further cold tap water additions while the drum is again turned at 50 rpm in intervals and reversing. The drum may again be stopped before or during the final tap water addition for one or more brief times.
The comparison of the process according to the invention with a process from the current state of technology in
Number | Date | Country | Kind |
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102 34 473 | Jul 2002 | DE | national |
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5606877 | Hashimoto | Mar 1997 | A |
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Number | Date | Country | |
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20050204481 A1 | Sep 2005 | US |
Number | Date | Country | |
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Parent | PCT/EP03/06769 | Jun 2003 | US |
Child | 11044396 | US |