EP2602373B1 - Method of rinsing laundry in a laundry machine, and laundry machine actuating the method - Google Patents
Method of rinsing laundry in a laundry machine, and laundry machine actuating the method Download PDFInfo
- Publication number
- EP2602373B1 EP2602373B1 EP11191914.8A EP11191914A EP2602373B1 EP 2602373 B1 EP2602373 B1 EP 2602373B1 EP 11191914 A EP11191914 A EP 11191914A EP 2602373 B1 EP2602373 B1 EP 2602373B1
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- EP
- European Patent Office
- Prior art keywords
- drum
- tub
- rotation speed
- laundry
- rinsing water
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000000034 method Methods 0.000 title claims description 47
- 239000008237 rinsing water Substances 0.000 claims description 64
- 238000005406 washing Methods 0.000 claims description 21
- 238000010412 laundry washing Methods 0.000 claims description 15
- 239000003599 detergent Substances 0.000 claims description 14
- 238000009987 spinning Methods 0.000 claims description 12
- 239000007788 liquid Substances 0.000 claims description 10
- 238000007599 discharging Methods 0.000 claims description 9
- 238000005507 spraying Methods 0.000 claims description 4
- 230000003134 recirculating effect Effects 0.000 claims description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 46
- 239000007921 spray Substances 0.000 description 9
- 238000010586 diagram Methods 0.000 description 5
- 230000004913 activation Effects 0.000 description 2
- 238000001035 drying Methods 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 230000003116 impacting effect Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 230000001737 promoting effect Effects 0.000 description 2
- 239000002351 wastewater Substances 0.000 description 2
- 238000009736 wetting Methods 0.000 description 2
- 229920000742 Cotton Polymers 0.000 description 1
- 239000012141 concentrate Substances 0.000 description 1
- 230000009849 deactivation Effects 0.000 description 1
- 230000001419 dependent effect Effects 0.000 description 1
- 238000000151 deposition Methods 0.000 description 1
- 238000009826 distribution Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 239000004753 textile Substances 0.000 description 1
- 238000009827 uniform distribution Methods 0.000 description 1
- 238000011144 upstream manufacturing Methods 0.000 description 1
- 210000002268 wool Anatomy 0.000 description 1
Images
Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F35/00—Washing machines, apparatus, or methods not otherwise provided for
- D06F35/005—Methods for washing, rinsing or spin-drying
- D06F35/006—Methods for washing, rinsing or spin-drying for washing or rinsing only
Definitions
- the present invention generally relates to laundry machines, i.e. machines for treating laundry, such as laundry washing machines (laundry washers) and laundry washing and drying machines (laundry washer/dryers).
- laundry machines i.e. machines for treating laundry, such as laundry washing machines (laundry washers) and laundry washing and drying machines (laundry washer/dryers).
- Laundry washers and washer/dryers implement laundry washing cycles that include rinsing phases, and, possibly, laundry washing cycles that essentially consist in a laundry rinsing phase alone (possibly followed by a spinning phase).
- a laundry machine shall feature good laundry rinsing performance, because it is important to ensure that the detergents and other products used to wash the laundry are, as far as possible, removed from the textiles before they are subjected to drying. At the same time, the consumption of resources like water and electric energy should be as limited as possible.
- EP 629733 discloses a solution consisting in the execution of at least one rinsing cycle effected in such a way that all the water available in the tank, even if in reduced amount, is circulated several times in forced fashion through all the laundry, by effecting one or more short periods, or impulses, of drum rotation at high speed (same speed of the spinning phase) during the rinsing cycle, in such a way that all the reduced amount of water available is made to pass through the fabrics several times.
- US 2004/045097 discloses a rinse control method for a washing machine including the steps of rinsing water supplying and infiltrating for supplying rinsing water rotating an inner tub at relatively low speed so that the rinsing water can be infiltrated into washing materials and rinsing water permeating and exhausting for draining the rinsing water rotating the inner tub at relatively high speed so that the rinsing water can be exhausted to the outside passing through the washing materials enable a swift rinsing operation with a smaller amount of rinsing water.
- the Applicant has faced the problem of devising a new laundry rinsing method, adapted to be implemented in laundry washers and washer/dryers without excessive burden, which improves the laundry rinsing result without impacting, or possibly even reducing, the demand for resources like water and electric energy.
- the laundry rinsing method comprises the steps of:
- the method comprises the steps of:
- the rinsing water with detergents diluted therein has time to deposit at the bottom of the tub.
- a significant part of the detergents residues are also discharged.
- the rinsing water present in the tub is preferably not recirculated.
- the rinsing water present in the tub is recirculated and sprayed into the drum.
- the rinsing water hits and penetrates into the laundry being rinsed (which, thanks to the rotation of the drum, is almost evenly distributed along the periphery of the drum).
- Said second rotation speed is for example of about 150 RPM.
- Said first rotation speed is for example of about 50 RPM.
- the drum is rotated at least once at an intermediate rotation speed, intermediate between the first and the second rotation speeds, for example of about 75 RPM.
- said step of rotating the drum at the second rotation speed may be additionally performed at least once without however being followed by said steps of stopping the drum rotation and discharging from the tub a part of the rinsing water present in the tub.
- the drum rotation speed is brought to said second rotation speed.
- the drum rotation speed may be kept at the second rotation speed for a time before starting to evacuate the rinsing water from the tub.
- the drum rotation is then stopped after an amount of rinsing water has been evacuated from the tub sufficient to cause a level of the remaining rinsing water remaining in the tub to be below the bottom of the drum.
- a step of spinning the drum at a spinning speed higher than said second rotation speed is preferably performed.
- the drum is rotated at the first rotation speed alternately clockwise and counter-clockwise.
- Another aspect of the present invention relates to a laundry washing cycle including at least one laundry rinsing phase implemented according to the laundry rinsing method set forth hereabove.
- Still another aspect of the present invention relates to a laundry machine adapted to implement the laundry rinsing method, or the laundry washing cycle, set forth above.
- the present patent application also discloses a laundry washing method in a laundry machine comprising a washing tub accommodating a rotatable drum, the method comprising the steps of:
- FIG. 1 there is schematically shown a laundry machine 100 , for example a laundry washer (the present invention nevertheless applies as well to a laundry washer/dryer).
- the laundry machine 100 comprises a cabinet 105 enclosing a washing tub 110 and, rotatably accommodated therein, a perforated laundry drum 115 , for containing the laundry to be washed; the drum 115 is caused to rotate by a - preferably electric - motor (not shown).
- the laundry machine 100 has a clean water load system and a waste water/washing liquid discharge system.
- the clean water load system preferably comprises a dosing device, e.g. an electrovalve, 120 , whose inlet is connectable (for example via a hose) to a water spigot (hose and water spigot not shown).
- the laundry machine may be equipped with a dosing device adapted to allow selectively providing, at its outlet, cold water or hot water; for example, the dosing device may comprise two electrovalves, one connectable to a cold water spigot and the other connectable to a hot water spigot, or the dosing device may comprise one electrovalve with one outlet and two inlets, one of which connectable to a cold water spigot and the other connectable to a hot water spigot.
- a metering device for example a flowmeter 125 , may advantageously be connected to the dosing device 120 (e.g ., electrovalve) outlet, for measuring the amount of clean water loaded.
- the dosing device 120 e.g ., electrovalve
- the loaded water may be caused to pass through a container of detergents 135 and be then supplied to the washing tub 110 .
- a by-pass circuit may be provided, internally or externally to the container of detergents 135 , adapted to allow the loaded water to be supplied to the washing tub 110 directly, i.e. without being mixed with one or more detergents contained in the container 135 .
- the waste water/washing liquid discharge system may comprise a discharge duct 145 , for example at the bottom of the washing tub 110 , preferably closable in a selective way by means of a valve 150 .
- a discharge duct 145 Downstream the valve 150 , an anti-fluff / anti-clog filter 155 is preferably provided, upstream a discharge pump 160 whose outlet is connected to a discharge hose 165 , for example connectable to a drain spigot (not shown).
- a pressure sensor 170 (which may be a pressure switch) may also be provided, adapted to sense the pressure of the liquid present in the washing tub 110 .
- a heater 173 is provided for heating the liquid present within the washing tub 110.
- the heater 173 may comprise one or more electric resistors, and may conveniently be arranged proximate to the bottom of the washing tub 110 .
- the laundry machine 100 preferably comprises a washing/rinsing liquid recirculation system, comprising a recirculation pump 175, (a) recirculation conduit(s) 1 80 and (a) nozzle(s) 18 5 arranged to spray recirculated washing/rinsing liquid inside the drum 115 , for example towards the center thereof.
- the laundry machine 100 is equipped with a control unit, 130 , for example a programmable logic control unit 130 .
- the control unit 130 governs the operation of the laundry machine.
- the control unit 130 may advantageously control the electrovalve 120 , possibly on the basis of readings received from the flowmeter 125 , when the latter is provided for;
- the control unit 130 may advantageously control the energization of the heater 173 ;
- the control unit 130 may advantageously control the activation/deactivation of the recirculation pump 175 and the discharge pump 160 ;
- the control unit 130 may advantageously control the rotation of the drum 115 by the motor.
- the control unit 130 may advantageously operate taking into account user's settings, like for example the selection of a particular laundry washing cycle among a plurality of washing cycles available ( e.g .: cotton, wool, synthetics, etc.).
- a rinsing procedure implementing a rinsing method according to an embodiment of the present invention will be described.
- the rinsing procedure that will be described may apply to any one of the rinsing phases of a laundry washing cycle, for example, albeit not limitatively, to the last rinsing phase of a laundry washing cycle (generally, but not necessarily, a laundry washing cycle may include more than one rinsing phases), or to a laundry washing cycle essentially consisting in a laundry rinsing phase alone.
- the abscissa represents the time, expressed in seconds. In ordinate there are shown: in all the diagrams, on the left, the level of water inside the tub 110 , expressed in millimeters (referred for example to the bottom of the drum 115 ); in the diagrams of Figures 2A and 2C , on the right, the rotation speed of the drum 115 , expressed in Revolutions per Minute - RPM.
- Several curves are depicted in the diagrams of Figures 2A , 2B and 2C :
- the rinsing procedure can be regarded as (and is better understood if regarded as) comprising a sequence of stages, for example fourteen stages in the exemplary embodiment depicted in Figures 2A - 2C .
- the subdivision of the rinsing procedure in a succession of stages, and the number and the sequence of stages illustrated in the following, are not to be construed limitatively, and are just for better intelligibility.
- the rinsing procedure starts by causing the laundry machine 100 to load clean water.
- the control unit 130 commands the opening of the electrovalve 120 , for example for a predetermined time interval, or, in case the flow meter 125 is provided, until the reading of the flow meter 125 itself about the amount of clean water loaded reaches a predetermined value.
- the amount of clean water loaded in the first stage is advantageously approximately 20-22 liters; the water may be loaded in one or more shots.
- the drum 115 is caused to rotate; preferably, the rotation speed is kept at a first, low RPM value, equal for example to approximately 50 RPMs; preferably, the sense of rotation of the drum is alternately clockwise and counter-clockwise.
- the recirculation pump 175 is activated, either for part of the time or continuously.
- the heater 173 is, for example, kept de-energized (however the heater 173 may also be energized, at least for part of the first stage duration).
- the first stage of the rinsing procedure may for example last about 300 seconds. This first stage of the rinsing procedure is useful for wetting the laundry to be rinsed.
- the control unit 130 energizes the heater 173 , in order to at least slightly heat the rinsing water up.
- the heater 173 may be kept energized for about 2 minutes. Heating the rinsing water up promotes the dissolving of detergents that are present in the laundry.
- the drum 115 is caused to rotate alternately clockwise and counter-clockwise at the first, low RPM value (e.g ., about 50 RPMs).
- the rotation speed may be slightly increased to an RPM value of, for example, approximately 75 RPM (in the example of Figures 2A - 2C , in the second stage of the rinsing procedure, four of the rotation pulses of the drum are at 75 RPM); for example, the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of e.g. 50 RPM may last about 6 seconds, whereas the generic drum rotation pulse at the increased RPM value of e.g. 75 RPM may last about 3 seconds.
- the recirculation pump 175 is preferably kept activated, at least for part of the time, for recirculating the rinsing water and spraying it inside the drum, against the laundry to be rinsed.
- the drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g. 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses the drum 115 may be caused to rotate at an increased RPM value of, for example, approximately 75 RPM (in the example of Figures 2A - 2C , four rotation pulses are at 75 RPM).
- the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g ., 50 RPM may last about 6 seconds
- the generic drum rotation pulse at the increased RPM value of, e.g ., 75 RPM may last about 3 seconds.
- the recirculation pump 175 is preferably kept activated, to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- the duration of this third stage may be dependant on the overall duration of the rinsing phase; in the example of Figures 2A - 2C , the duration of the third rinsing procedure stage is about 3 minutes.
- the rotation speed of the drum is increased to reach a second RPM value (higher than the increased RPM value of, e.g ., 75 RPM), for example of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the second RPM value. Since there is water in the tub 110 , the drum rotation speed increase rate is deliberately rather slow, in order not to stress the motor.
- a second RPM value higher than the increased RPM value of, e.g ., 75 RPM
- the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the second RPM value. Since there is water in the tub 110 , the drum rotation speed increase rate is deliberately rather slow, in order not to stress the motor.
- the drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 20 seconds.
- the recirculation pump 175 is advantageously kept on, so as to cause recirculation of the rinsing water with spray thereof inside the drum 115 against the laundry to be rinsed.
- the laundry is caused to more or less stick against the inner wall of the drum 115 (due to the experienced centrifugal force); thanks also to the fact that there is a relatively high amount of water in the tub 110 , there is a good exchange of water between the laundry and the water in the tub.
- the Applicant has found that if, as mentioned, the recirculation pump 175 is preferably kept activated, the thrust of the water sprayed by the nozzle 185 is increased, so that the sprayed rinsing water reaches a longer distance and better penetrates through the laundry that is stuck against the inner wall of the drum, promoting the removal of detergents trapped therein, rather uniformly for all the laundry items being rinsed.
- the drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g . 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses the drum 115 may be caused to rotate at the increased RPM value of, for example, approximately 75 RPM (in the example of Figures 2A - 2C , six rotation pulses are at 75 RPM).
- the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g ., 50 RPM may last about 6 seconds
- the generic drum rotation pulse at the increased RPM value of, e.g ., 75 RPM may last about 3 seconds.
- the recirculation pump 175 is preferably kept activated, to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- the sixth stage may be similar to the fourth stage: the rotation speed of the drum 115 is increased - at a controlled increase rate - to reach a relatively high RPM value, for example the second RPM value, e.g . of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the second RPM value.
- the drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 20 seconds.
- the recirculation pump 175 is advantageously kept on, so as to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- the laundry is again caused to more or less stick against the inner wall of the drum 115 (due to the experienced centrifugal force); thanks also to the fact that there is a relatively high amount of water in the tub 110 , there is a good exchange of water between the laundry and the water in the tub.
- the Applicant has found that if, as mentioned, the recirculation pump 175 is preferably kept activated, the thrust of the water sprayed by the nozzle 185 is increased, so that the sprayed rinsing water reaches a longer distance and better penetrates through the laundry that is stuck against the inner wall of the drum, promoting the removal of detergents trapped therein, rather uniformly for all the laundry items being rinsed.
- control unit 130 stops the motor that causes the drum 115 to rotate.
- the drum 115 thus stops to rotate.
- the control unit 130 also stops the recirculation pump 175 , so as to stop the forced recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- This stage of the rinsing procedure lasts for a predetermined, relatively short time, for example 50 seconds. This allows the detergents diluted in the rinsing water depositing at the bottom of the tub 110 (and in the tub bottom sump).
- the Applicant has found that by stopping the drum 115 , and simultaneously stopping the recirculation pump 175 , the residues of detergents in the rinsing water more easily concentrate proximate to the sump of the tub 110 .
- the control unit 130 activates the discharge pump 160 , for discharging an amount of rinsing water sufficient to remove the detergent residuals accumulated at the bottom (in the sump) of the tub 110.
- the discharge pump 160 may be kept activated for a time sufficient to discharge about 1 liter - 1 liter and a half; for example, a discharge pump activation time of about 6 seconds has been found to be suitable.
- a certain additional amount of clean water might be loaded, for example an amount corresponding to the discharged amount of rinsing water; this might for example be useful in those cases where the amount of water loaded at the beginning of the rinsing procedure is relatively small.
- the ninth stage is similar to the fifth stage: the drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g . 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses the drum 115 rotation speed may be increased to an RPM value of, for example, approximately 75 RPM (in the example of Figures 2A - 2C , three rotation pulses are at 75 RPM).
- the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g ., 50 RPM may last about 6 seconds
- the generic drum rotation pulse at the increased RPM value of, e.g ., 75 RPM may last about 3 seconds.
- the recirculation pump 175 is preferably reactivated, to re-start recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- the duration of the ninth stage may be similar to, or lower than (as in the example of Figure 2 ), the duration of the fifth stage.
- the tenth stage is similar to the fourth stage: the drum rotation speed is increased - at a controlled increase rate - to reach the second RPM value, for example of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the third RPM value.
- the drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 20 seconds.
- the recirculation pump 175 is advantageously kept on, so as to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- the eleventh stage is similar to the fifth (and ninth) stage: the drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g . 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses the drum 115 rotation speed may be increased to, for example, approximately 75 RPM (in the example of Figures 2A - 2C , three rotation pulses are at 75 RPM).
- the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g ., 50 RPM may last about 6 seconds
- the generic drum rotation pulse at the increased RPM value of, e.g ., 75 RPM may last about 3 seconds.
- the recirculation pump 175 is preferably kept activated, to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed.
- the duration of the ninth stage may be similar to the duration of the fifth stage (as in the example of Figures 2A - 2C ), or different (longer or shorter).
- the drum rotation speed is increased to reach the second RPM value, for example of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second.
- the drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 30 seconds.
- the recirculation pump 175 is advantageously turned off.
- This stage of the rinsing procedure precedes the spinning phase.
- the drum rotation speed is brought to the second RPM value of, e.g ., approximately 150 RPM, the recirculation pump 175 is maintained off; the discharge pump 160 is initially kept off. After some time, for example about 20 seconds, the discharge pump 160 is activated.
- the drum continues to rotate at the second RPM value, then, after the amount of discharged rinsing water is approximately 15 liters, and the level of rinsing water in the tub 110 has fallen below the bottom of the drum 115 (thereby the contact of the laundry in the drum with the rinsing water is thus almost null) the motor that makes the drum to rotate is stopped.
- the Applicant has found that in this way the distribution of the laundry within the drum 115 is more uniform: due to the presence of some rinsing water in the drum 115 , the laundry does not get packed and distributes rather uniformly at the periphery of the drum 115. This enhances the performance of the following spinning phase, since the laundry is distributed inside the tub in a more symmetrical or uniform way.
- the spinning phase of the washing cycle is started.
- the remaining water in the tub is discharged.
- the drum rotation speed is increased relatively quickly to a high RPM value, for example 450 RPM or more (depending for example on the washing cycle selected by the user).
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Description
- The present invention generally relates to laundry machines, i.e. machines for treating laundry, such as laundry washing machines (laundry washers) and laundry washing and drying machines (laundry washer/dryers).
- Laundry washers and washer/dryers implement laundry washing cycles that include rinsing phases, and, possibly, laundry washing cycles that essentially consist in a laundry rinsing phase alone (possibly followed by a spinning phase).
- A laundry machine shall feature good laundry rinsing performance, because it is important to ensure that the detergents and other products used to wash the laundry are, as far as possible, removed from the textiles before they are subjected to drying. At the same time, the consumption of resources like water and electric energy should be as limited as possible.
- Manufacturers of laundry machines have been for years developing solutions for reducing the demand of laundry machines for water and/or electric energy, without negatively impacting, or possibly even enhancing the laundry washing performance.
- The rinsing phase of a laundry washing cycle is in itself rather water-demanding, so it needs a careful study.
-
EP 629733 -
US 2004/045097 discloses a rinse control method for a washing machine including the steps of rinsing water supplying and infiltrating for supplying rinsing water rotating an inner tub at relatively low speed so that the rinsing water can be infiltrated into washing materials and rinsing water permeating and exhausting for draining the rinsing water rotating the inner tub at relatively high speed so that the rinsing water can be exhausted to the outside passing through the washing materials enable a swift rinsing operation with a smaller amount of rinsing water. - The Applicant has faced the problem of devising a new laundry rinsing method, adapted to be implemented in laundry washers and washer/dryers without excessive burden, which improves the laundry rinsing result without impacting, or possibly even reducing, the demand for resources like water and electric energy.
- According to an aspect of the present invention, there is provided a method of rinsing laundry in a laundry machine as set forth in
independent method claim 1. - The laundry rinsing method comprises the steps of:
- loading rinsing water into the tub;
- rotating the drum at a first rotation speed while recirculating the rinsing water present in the tub and spraying the recirculated rinsing water into the drum;
- evacuating the rinsing water present in the tub.
- Before said step of evacuating the rinsing water, the method comprises the steps of:
- rotating the drum at a second rotation speed for a predetermined first time interval, said second rotation speed being higher than the first rotation speed and sufficient to cause the laundry being rinsed to stick against an inner surface of the drum due to centrifugal force;
- stopping the drum rotation for a predetermined second time interval;
- after said second time interval, discharging from the tub a part of the rinsing water present in the tub.
- Additional features that are believed to be advantageous or preferential but not essential are set forth in the dependent method claims.
- In this way, by stopping the drum rotation, the rinsing water with detergents diluted therein has time to deposit at the bottom of the tub. By subsequently discharging a part of the rinsing water, a significant part of the detergents residues are also discharged.
- During said steps of stopping the drum rotation and discharging from the tub a part of the rinsing water present in the tub, the rinsing water present in the tub is preferably not recirculated.
- Preferably, during said step of rotating the drum at the second rotation speed, the rinsing water present in the tub is recirculated and sprayed into the drum. In this way, the rinsing water hits and penetrates into the laundry being rinsed (which, thanks to the rotation of the drum, is almost evenly distributed along the periphery of the drum).
- Said second rotation speed is for example of about 150 RPM. Said first rotation speed is for example of about 50 RPM.
- Preferably, during said step of rotating the drum at the first rotation speed, the drum is rotated at least once at an intermediate rotation speed, intermediate between the first and the second rotation speeds, for example of about 75 RPM.
- During the laundry rinsing phase, said step of rotating the drum at the second rotation speed may be additionally performed at least once without however being followed by said steps of stopping the drum rotation and discharging from the tub a part of the rinsing water present in the tub.
- In an embodiment of the present invention, before said step of evacuating the rinsing water from the tub, the drum rotation speed is brought to said second rotation speed.
- The drum rotation speed may be kept at the second rotation speed for a time before starting to evacuate the rinsing water from the tub. The drum rotation is then stopped after an amount of rinsing water has been evacuated from the tub sufficient to cause a level of the remaining rinsing water remaining in the tub to be below the bottom of the drum.
- After having evacuated the rinsing water from the tub, a step of spinning the drum at a spinning speed higher than said second rotation speed is preferably performed.
- Preferably, the drum is rotated at the first rotation speed alternately clockwise and counter-clockwise.
- Another aspect of the present invention relates to a laundry washing cycle including at least one laundry rinsing phase implemented according to the laundry rinsing method set forth hereabove.
- Still another aspect of the present invention relates to a laundry machine adapted to implement the laundry rinsing method, or the laundry washing cycle, set forth above.
- The present patent application also discloses a laundry washing method in a laundry machine comprising a washing tub accommodating a rotatable drum, the method comprising the steps of:
- before submitting the laundry to a spinning phase to extract water therefrom, and while in the washing tub there is still water sufficient to cause the laundry in the drum being wetted, causing the drum to rotate at a speed lower than the rotation speed in the spinning phase but sufficient to cause the laundry to distribute along the periphery of the drum due to centrifugal force;
- after a predetermined time of rotation of the drum, starting to evacuate water from the tub,
- stopping the drum rotation when a level of the water remaining in the washing tub is below the bottom of the drum.
- These and other features and advantages of the present invention will be made apparent by the following detailed description of some exemplary and non-limitative embodiments thereof, description that will be made more intelligible by the aid of the attached drawings, wherein:
-
Figure 1 schematically shows a laundry machine according to an embodiment of the present invention, adapted to implement a laundry rinsing method according to an embodiment of the present invention; -
Figures 2A ,2B and2C are time diagrams depicting the evolution in time of some control signals and measured quantities of the laundry machine while performing a laundry rinsing procedure according to an embodiment of the present invention. - Referring to the drawings, in
Figure 1 there is schematically shown alaundry machine 100, for example a laundry washer (the present invention nevertheless applies as well to a laundry washer/dryer). - The
laundry machine 100 comprises acabinet 105 enclosing awashing tub 110 and, rotatably accommodated therein, aperforated laundry drum 115, for containing the laundry to be washed; thedrum 115 is caused to rotate by a - preferably electric - motor (not shown). - The
laundry machine 100 has a clean water load system and a waste water/washing liquid discharge system. - The clean water load system preferably comprises a dosing device, e.g. an electrovalve, 120, whose inlet is connectable (for example via a hose) to a water spigot (hose and water spigot not shown). In some embodiments of the invention, the laundry machine may be equipped with a dosing device adapted to allow selectively providing, at its outlet, cold water or hot water; for example, the dosing device may comprise two electrovalves, one connectable to a cold water spigot and the other connectable to a hot water spigot, or the dosing device may comprise one electrovalve with one outlet and two inlets, one of which connectable to a cold water spigot and the other connectable to a hot water spigot.
- A metering device, for example a
flowmeter 125, may advantageously be connected to the dosing device 120 (e.g., electrovalve) outlet, for measuring the amount of clean water loaded. - The loaded water may be caused to pass through a container of
detergents 135 and be then supplied to thewashing tub 110. A by-pass circuit may be provided, internally or externally to the container ofdetergents 135, adapted to allow the loaded water to be supplied to thewashing tub 110 directly, i.e. without being mixed with one or more detergents contained in thecontainer 135. - The waste water/washing liquid discharge system may comprise a
discharge duct 145, for example at the bottom of thewashing tub 110, preferably closable in a selective way by means of avalve 150. Downstream thevalve 150, an anti-fluff /anti-clog filter 155 is preferably provided, upstream adischarge pump 160 whose outlet is connected to adischarge hose 165, for example connectable to a drain spigot (not shown). - A pressure sensor 170 (which may be a pressure switch) may also be provided, adapted to sense the pressure of the liquid present in the
washing tub 110. - A
heater 173 is provided for heating the liquid present within thewashing tub 110. Theheater 173 may comprise one or more electric resistors, and may conveniently be arranged proximate to the bottom of thewashing tub 110. - The
laundry machine 100 preferably comprises a washing/rinsing liquid recirculation system, comprising arecirculation pump 175, (a) recirculation conduit(s) 180 and (a) nozzle(s) 185 arranged to spray recirculated washing/rinsing liquid inside thedrum 115, for example towards the center thereof. - The
laundry machine 100 is equipped with a control unit, 130, for example a programmablelogic control unit 130. Thecontrol unit 130 governs the operation of the laundry machine. For example: thecontrol unit 130 may advantageously control theelectrovalve 120, possibly on the basis of readings received from theflowmeter 125, when the latter is provided for; thecontrol unit 130 may advantageously control the energization of theheater 173; thecontrol unit 130 may advantageously control the activation/deactivation of therecirculation pump 175 and thedischarge pump 160; thecontrol unit 130 may advantageously control the rotation of thedrum 115 by the motor. Thecontrol unit 130 may advantageously operate taking into account user's settings, like for example the selection of a particular laundry washing cycle among a plurality of washing cycles available (e.g.: cotton, wool, synthetics, etc.). - Referring now to
Figures 2A - 2C , a rinsing procedure implementing a rinsing method according to an embodiment of the present invention will be described. The rinsing procedure that will be described may apply to any one of the rinsing phases of a laundry washing cycle, for example, albeit not limitatively, to the last rinsing phase of a laundry washing cycle (generally, but not necessarily, a laundry washing cycle may include more than one rinsing phases), or to a laundry washing cycle essentially consisting in a laundry rinsing phase alone. - In the diagrams of
Figures 2A - 2C , the abscissa represents the time, expressed in seconds. In ordinate there are shown: in all the diagrams, on the left, the level of water inside thetub 110, expressed in millimeters (referred for example to the bottom of the drum 115); in the diagrams ofFigures 2A and2C , on the right, the rotation speed of thedrum 115, expressed in Revolutions per Minute - RPM. Several curves are depicted in the diagrams ofFigures 2A ,2B and2C : - curve A (depicted only in
Figure 2A ) represents the (incremental) amount of clean water loaded during the rinsing phase (e.g., as measured by the flow meter 125); - the square-wave curve B (the dotted line, depicted only in
Figures 2A and2C ) represents the ON/OFF status of the recirculation pump 175 (the OFF status is indicated by the value 0); - curve C (depicted only in
Figures 2A and2B ) represents the level of water within the tub 110 (e.g., as measured by the pressure sensor 170); - curve D (depicted only in
Figures 2A and2C ) represents the drum rotational speed as set by thecontrol unit 130; - curve E (depicted only in
Figure 2A ) represents the variation of the temperature of the water inside thetub 110; - curve F (the dotted line visible only in
Figure 2B ) represents the ON/OFF status of the discharge pump 160 (the OFF status is indicated by the value 0). - The rinsing procedure can be regarded as (and is better understood if regarded as) comprising a sequence of stages, for example fourteen stages in the exemplary embodiment depicted in
Figures 2A - 2C . However, the subdivision of the rinsing procedure in a succession of stages, and the number and the sequence of stages illustrated in the following, are not to be construed limitatively, and are just for better intelligibility. - The rinsing procedure starts by causing the
laundry machine 100 to load clean water. Thecontrol unit 130 commands the opening of theelectrovalve 120, for example for a predetermined time interval, or, in case theflow meter 125 is provided, until the reading of theflow meter 125 itself about the amount of clean water loaded reaches a predetermined value. In the example ofFigure 2A , the amount of clean water loaded in the first stage is advantageously approximately 20-22 liters; the water may be loaded in one or more shots. - During the first stage, the
drum 115 is caused to rotate; preferably, the rotation speed is kept at a first, low RPM value, equal for example to approximately 50 RPMs; preferably, the sense of rotation of the drum is alternately clockwise and counter-clockwise. Also, during the first stage, therecirculation pump 175 is activated, either for part of the time or continuously. Theheater 173 is, for example, kept de-energized (however theheater 173 may also be energized, at least for part of the first stage duration). - The first stage of the rinsing procedure may for example last about 300 seconds. This first stage of the rinsing procedure is useful for wetting the laundry to be rinsed.
- In the second stage, preferably, the
control unit 130 energizes theheater 173, in order to at least slightly heat the rinsing water up. For example, theheater 173 may be kept energized for about 2 minutes. Heating the rinsing water up promotes the dissolving of detergents that are present in the laundry. During the second stage, thedrum 115 is caused to rotate alternately clockwise and counter-clockwise at the first, low RPM value (e.g., about 50 RPMs). Possibly, but not necessarily, during the second stage, for one or more of the clockwise or counter-clockwise rotation pulses of thedrum 115 the rotation speed may be slightly increased to an RPM value of, for example, approximately 75 RPM (in the example ofFigures 2A - 2C , in the second stage of the rinsing procedure, four of the rotation pulses of the drum are at 75 RPM); for example, the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of e.g. 50 RPM may last about 6 seconds, whereas the generic drum rotation pulse at the increased RPM value of e.g. 75 RPM may last about 3 seconds. During the second stage, therecirculation pump 175 is preferably kept activated, at least for part of the time, for recirculating the rinsing water and spraying it inside the drum, against the laundry to be rinsed. - In the third stage of the rinsing procedure, the
drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g. 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses thedrum 115 may be caused to rotate at an increased RPM value of, for example, approximately 75 RPM (in the example ofFigures 2A - 2C , four rotation pulses are at 75 RPM). For example, the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g., 50 RPM may last about 6 seconds, whereas the generic drum rotation pulse at the increased RPM value of, e.g., 75 RPM, may last about 3 seconds. During the third stage, therecirculation pump 175 is preferably kept activated, to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. The duration of this third stage may be dependant on the overall duration of the rinsing phase; in the example ofFigures 2A - 2C , the duration of the third rinsing procedure stage is about 3 minutes. - In the fourth stage of the rinsing procedure, the rotation speed of the drum is increased to reach a second RPM value (higher than the increased RPM value of, e.g., 75 RPM), for example of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the second RPM value. Since there is water in the
tub 110, the drum rotation speed increase rate is deliberately rather slow, in order not to stress the motor. - The drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 20 seconds. The
recirculation pump 175 is advantageously kept on, so as to cause recirculation of the rinsing water with spray thereof inside thedrum 115 against the laundry to be rinsed. - Thanks to the relatively high drum rotation speed (e.g., 150 RPM), the laundry is caused to more or less stick against the inner wall of the drum 115 (due to the experienced centrifugal force); thanks also to the fact that there is a relatively high amount of water in the
tub 110, there is a good exchange of water between the laundry and the water in the tub. The Applicant has found that if, as mentioned, therecirculation pump 175 is preferably kept activated, the thrust of the water sprayed by thenozzle 185 is increased, so that the sprayed rinsing water reaches a longer distance and better penetrates through the laundry that is stuck against the inner wall of the drum, promoting the removal of detergents trapped therein, rather uniformly for all the laundry items being rinsed. - During the fifth stage, similarly to the third stage, the
drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g. 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses thedrum 115 may be caused to rotate at the increased RPM value of, for example, approximately 75 RPM (in the example ofFigures 2A - 2C , six rotation pulses are at 75 RPM). For example, the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g., 50 RPM may last about 6 seconds, whereas the generic drum rotation pulse at the increased RPM value of, e.g., 75 RPM may last about 3 seconds. During the third stage, therecirculation pump 175 is preferably kept activated, to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. - The sixth stage may be similar to the fourth stage: the rotation speed of the
drum 115 is increased - at a controlled increase rate - to reach a relatively high RPM value, for example the second RPM value, e.g. of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the second RPM value. The drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 20 seconds. Therecirculation pump 175 is advantageously kept on, so as to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. - Thanks to the relatively high drum rotation speed (e.g., 150 RPM), the laundry is again caused to more or less stick against the inner wall of the drum 115 (due to the experienced centrifugal force); thanks also to the fact that there is a relatively high amount of water in the
tub 110, there is a good exchange of water between the laundry and the water in the tub. The Applicant has found that if, as mentioned, therecirculation pump 175 is preferably kept activated, the thrust of the water sprayed by thenozzle 185 is increased, so that the sprayed rinsing water reaches a longer distance and better penetrates through the laundry that is stuck against the inner wall of the drum, promoting the removal of detergents trapped therein, rather uniformly for all the laundry items being rinsed. - During this stage, the
control unit 130 stops the motor that causes thedrum 115 to rotate. Thedrum 115 thus stops to rotate. Preferably, thecontrol unit 130 also stops therecirculation pump 175, so as to stop the forced recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. - This stage of the rinsing procedure lasts for a predetermined, relatively short time, for example 50 seconds. This allows the detergents diluted in the rinsing water depositing at the bottom of the tub 110 (and in the tub bottom sump). The Applicant has found that by stopping the
drum 115, and simultaneously stopping therecirculation pump 175, the residues of detergents in the rinsing water more easily concentrate proximate to the sump of thetub 110. - After the stop of the
drum 115 rotation and of therecirculation pump 175, thecontrol unit 130 activates thedischarge pump 160, for discharging an amount of rinsing water sufficient to remove the detergent residuals accumulated at the bottom (in the sump) of thetub 110. For example, thedischarge pump 160 may be kept activated for a time sufficient to discharge about 1 liter - 1 liter and a half; for example, a discharge pump activation time of about 6 seconds has been found to be suitable. - Optionally, after this stage, a certain additional amount of clean water might be loaded, for example an amount corresponding to the discharged amount of rinsing water; this might for example be useful in those cases where the amount of water loaded at the beginning of the rinsing procedure is relatively small.
- The ninth stage is similar to the fifth stage: the
drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g. 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses thedrum 115 rotation speed may be increased to an RPM value of, for example, approximately 75 RPM (in the example ofFigures 2A - 2C , three rotation pulses are at 75 RPM). For example, the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g., 50 RPM may last about 6 seconds, whereas the generic drum rotation pulse at the increased RPM value of, e.g., 75 RPM may last about 3 seconds. During the third stage, therecirculation pump 175 is preferably reactivated, to re-start recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. The duration of the ninth stage may be similar to, or lower than (as in the example ofFigure 2 ), the duration of the fifth stage. - The tenth stage is similar to the fourth stage: the drum rotation speed is increased - at a controlled increase rate - to reach the second RPM value, for example of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second, so that a time of about 30 seconds is needed to reach the third RPM value. The drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 20 seconds. The
recirculation pump 175 is advantageously kept on, so as to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. - The eleventh stage is similar to the fifth (and ninth) stage: the
drum 115 is caused to rotate, preferably alternately clockwise and counter-clockwise, at the first RPM value, e.g. 50 RPM, and for one or more of the clockwise or counter-clockwise rotation pulses thedrum 115 rotation speed may be increased to, for example, approximately 75 RPM (in the example ofFigures 2A - 2C , three rotation pulses are at 75 RPM). For example, the generic clockwise or counter-clockwise drum rotation pulse at the first RPM value of, e.g., 50 RPM may last about 6 seconds, whereas the generic drum rotation pulse at the increased RPM value of, e.g., 75 RPM may last about 3 seconds. During the third stage, therecirculation pump 175 is preferably kept activated, to cause recirculation of the rinsing water with spray thereof inside the drum against the laundry to be rinsed. The duration of the ninth stage may be similar to the duration of the fifth stage (as in the example ofFigures 2A - 2C ), or different (longer or shorter). - Similarly to the fourth, sixth and eleventh stages, the drum rotation speed is increased to reach the second RPM value, for example of about 150 RPM; for example, the rotation speed increase rate is of about 5 RPM per second. The drum rotation speed is then kept at the second RPM value for a predetermined time, for example about 30 seconds. In the twelfth stage the
recirculation pump 175 is advantageously turned off. - This stage of the rinsing procedure precedes the spinning phase. The drum rotation speed is brought to the second RPM value of, e.g., approximately 150 RPM, the
recirculation pump 175 is maintained off; thedischarge pump 160 is initially kept off. After some time, for example about 20 seconds, thedischarge pump 160 is activated. The drum continues to rotate at the second RPM value, then, after the amount of discharged rinsing water is approximately 15 liters, and the level of rinsing water in thetub 110 has fallen below the bottom of the drum 115 (thereby the contact of the laundry in the drum with the rinsing water is thus almost null) the motor that makes the drum to rotate is stopped. - The Applicant has found that in this way the distribution of the laundry within the
drum 115 is more uniform: due to the presence of some rinsing water in thedrum 115, the laundry does not get packed and distributes rather uniformly at the periphery of thedrum 115. This enhances the performance of the following spinning phase, since the laundry is distributed inside the tub in a more symmetrical or uniform way. - Finally, the spinning phase of the washing cycle is started. In this stage, the remaining water in the tub is discharged. The drum rotation speed is increased relatively quickly to a high RPM value, for example 450 RPM or more (depending for example on the washing cycle selected by the user).
- The present invention has been described by presenting an exemplary embodiment thereof, which comprises several optional and non-essential features. Several modifications to the described embodiments are possible and straightforward for those skilled in the art, as well as other practical embodiments of the invention may be devised, without departing from the scope of protection set forth in the following claims.
- It is pointed out that the implementation, before a spinning phase, of a stage like the
thirteenth stage Stage 13 described above - in which, starting with water in the tub at a level sufficient for the laundry to be partly immersed, the drum is rotated at a speed that is sufficiently high (e.g., about 150 RPM) to cause (by centrifugal force) the laundry in the tub to more or less stick around the periphery of the drum, and after some time the discharge pump is activated to start discharging the water from the tub, while the drum is continued to rotate until, after some time, an amount of water has been discharged that is sufficient to cause the level of rinsing water in the tub to fall below the bottom of the drum, thereby the drum rotation is stopped - is believed to be per se advantageous, because it allows a better, more uniform distribution of the laundry within the drum (thanks to the fact that while the drum is rotated there is still water wetting the laundry), so that the latter is prevented from closely packing in, possibly, just one location inside the drum.
Claims (15)
- A method of rinsing laundry in a laundry machine (100) with a washing tub (110) accommodating a rotatable laundry drum (115), the method comprising the steps of:- loading rinsing water into the tub;- rotating the drum at a first rotation speed while recirculating the rinsing water present in the tub and spraying the recirculated rinsing water into the drum;- evacuating the rinsing water present in the tub,characterized by comprising, before said step of evacuating the rinsing water:- rotating the drum at a second rotation speed for a predetermined first time interval, said second rotation speed being higher than the first rotation speed and sufficient to cause the laundry being rinsed to stick against an inner surface of the drum due to centrifugal force;- stopping the drum rotation for a predetermined second time interval so that the rinsing water with detergents diluted therein has time to deposit at the bottom of the tub;- after said second time interval, discharging from the tub a part of the rinsing water present in the tub so that a significant part of the detergents residues are also discharged.
- The method of claim 1, wherein during said steps of stopping the drum rotation and discharging from the tub a part of the rinsing water present in the tub, the rinsing water present in the tub is not recirculated.
- The method of claim 1 or 2, wherein during said step of rotating the drum at a second rotation speed, the rinsing water present in the tub is recirculated and sprayed into the drum.
- The method of any one of the preceding claims, wherein said second rotation speed is of about 150 RPM.
- The method of any one of the preceding claims, wherein said first rotation speed is of about 50 RPM.
- The method of claim 5, wherein during said step of rotating the drum at the first rotation speed, the drum is rotated at least once at an intermediate rotation speed, intermediate between the first and the second rotation speeds.
- The method of claim 6, wherein said intermediate rotation speed is of about 75 RPM.
- The method of any one of the preceding claims, wherein said step of rotating the drum at the second rotation speed is additionally performed at least once without being followed by said steps of stopping the drum rotation and discharging from the tub a part of the rinsing water present in the tub.
- The method of any one of the preceding claims, wherein before said step of evacuating the rinsing water from the tub, the drum rotation speed is brought to said second rotation speed.
- The method of claim 9, wherein before said step of evacuating the rinsing water from the tub, and after having brought the drum rotation speed to said second rotation speed, the drum rotation speed is kept at the second rotation speed for a time before starting to evacuate the rinsing water from the tub.
- The method of claim 10, wherein the drum rotation is stopped after an amount of rinsing water has been evacuated from the tub sufficient to cause a level of the remaining rinsing water remaining in the tub to be below the bottom of the drum.
- The method of claim 11, wherein after having evacuated the rinsing water from the tub, a step of spinning the drum at a spinning speed higher than said second rotation speed is performed.
- The method of any one of the preceding claims, wherein said rotating the drum at the first rotation speed comprises alternately rotating the drum clockwise and counter-clockwise.
- A method of implementing a laundry washing cycle for a laundry machine, comprising a method of rinsing laundry according to any one of the preceding claims.
- A laundry machine comprising a tub (110) accommodating a rotatable drum (115), a discharge pump (160) activatable for evacuating at least partly liquid present in the tub, and a liquid recirculation system (175,180,185) adapted to recirculated liquid present in the tub and spraying the recirculated liquid into the drum, and a control unit (130) operable to control the operation of the machine, characterized in that the control unit is adapted to cause the machine perform a laundry rinsing method according to any one of claims 1 to 13.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP11191914.8A EP2602373B1 (en) | 2011-12-05 | 2011-12-05 | Method of rinsing laundry in a laundry machine, and laundry machine actuating the method |
PCT/EP2012/073709 WO2013083434A2 (en) | 2011-12-05 | 2012-11-27 | Method of rinsing laundry in a laundry machine, and laundry machine actuating the method |
AU2012348703A AU2012348703B2 (en) | 2011-12-05 | 2012-11-27 | Method of rinsing laundry in a laundry machine, and laundry machine actuating the method |
CN201280060002.9A CN103987889B (en) | 2011-12-05 | 2012-11-27 | The method that medicated clothing is cleaned in washing machine and the washing machine for activating the method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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EP11191914.8A EP2602373B1 (en) | 2011-12-05 | 2011-12-05 | Method of rinsing laundry in a laundry machine, and laundry machine actuating the method |
Publications (2)
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EP2602373A1 EP2602373A1 (en) | 2013-06-12 |
EP2602373B1 true EP2602373B1 (en) | 2018-10-17 |
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EP11191914.8A Active EP2602373B1 (en) | 2011-12-05 | 2011-12-05 | Method of rinsing laundry in a laundry machine, and laundry machine actuating the method |
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EP (1) | EP2602373B1 (en) |
CN (1) | CN103987889B (en) |
AU (1) | AU2012348703B2 (en) |
WO (1) | WO2013083434A2 (en) |
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EP2868793A1 (en) * | 2013-11-05 | 2015-05-06 | Whirlpool Corporation | A method for improving washing performances of a washing machine and horizontal axis washer using such method |
ITPR20130088A1 (en) * | 2013-11-07 | 2015-05-08 | Indesit Co Spa | METHOD OF TREATMENT OF TEXTILE ITEMS. |
US10745842B2 (en) | 2014-03-24 | 2020-08-18 | Haier Us Appliance Solutions, Inc. | Washing machine appliances and methods for operating the same |
EP3064631B1 (en) * | 2015-03-05 | 2017-12-20 | Whirlpool Corporation | A method for rinsing fabric in a washing machine and washing machine using such method |
KR102578676B1 (en) * | 2016-10-05 | 2023-09-13 | 엘지전자 주식회사 | Method for controlling the washing machine |
DE102018200147A1 (en) * | 2018-01-08 | 2019-07-11 | BSH Hausgeräte GmbH | Process for the treatment of laundry in a washing machine with Umpumpsystem and washing machine therefor |
Family Cites Families (7)
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IT1268525B1 (en) | 1993-06-18 | 1997-03-04 | Zanussi Elettrodomestici | MACHINE FOR WASHING WITH PERFECTED RINSING CYCLES |
ES2146130B1 (en) * | 1995-12-27 | 2001-02-16 | Fagor S Coop | CLOTHING WASHING METHOD IN A DOMESTIC WASHER. |
JP2000061187A (en) * | 1998-08-18 | 2000-02-29 | Lg Electronics Inc | Transmitting-mode washing machine, its controlling method and tab cover for the machine |
IT1308788B1 (en) * | 1999-07-05 | 2002-01-10 | Merloni Elettrodomestici Spa | WASHING LINEN AND MACHINE WASHING METHOD THAT IMPLEMENTS THIS METHOD. |
GB0003008D0 (en) * | 2000-02-11 | 2000-03-29 | Notetry Ltd | A method of operating a domestic appliance |
KR100689338B1 (en) * | 2001-01-16 | 2007-03-08 | 주식회사 엘지이아이 | The rinse method for a washing machine |
US7584633B2 (en) * | 2003-04-14 | 2009-09-08 | Lg Electronics Inc. | Spray type drum washing machine |
-
2011
- 2011-12-05 EP EP11191914.8A patent/EP2602373B1/en active Active
-
2012
- 2012-11-27 AU AU2012348703A patent/AU2012348703B2/en not_active Expired - Fee Related
- 2012-11-27 WO PCT/EP2012/073709 patent/WO2013083434A2/en active Application Filing
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AU2012348703A1 (en) | 2014-06-12 |
WO2013083434A2 (en) | 2013-06-13 |
EP2602373A1 (en) | 2013-06-12 |
CN103987889A (en) | 2014-08-13 |
CN103987889B (en) | 2017-03-29 |
AU2012348703B2 (en) | 2016-11-03 |
WO2013083434A3 (en) | 2013-11-21 |
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