EP1050616A1 - Method and washing machine for spinning laundry - Google Patents

Abstract

The process involves reducing the steepness of the slowing down ramp in a specific revolution speed range. The abovementioned revolution speed range lies above the resonance speed and in the range of a boundary value. The liquid r formed on the inner wall of the washing solution container begin to disintegrate in the speed range.

Description

The invention relates to a method for program-controlled spinning wet laundry in a rotatable in a washing machine tub Drum in which the spin program has reached a final speed above the resonance speed, the drum speed along a down-ramp is reduced, as well as a washing machine for performing this method, with a drum rotatable in a tub, a drive device for the drum and a control device for controlling the drum drive device.

When washing wet laundry, liquid is spilled out of the drum into the Lye container released and by means of a lye pump from the lye container away. The ejected liquid is in the tub set in motion by the rotation of the drum, forming annular liquid flows can form on the inner wall of the tub. These fluid flows are driven, for example, by air friction and usually move due to the friction on the inner tub wall at a speed less than the peripheral speed of the Drum is. In the lower speed range, these liquid rings are due the weight force directed towards the pump sump and can from there be pumped out.

Above a certain limit speed, however, the fluid can no longer the weight in the direction of the pump sump are directed so that the Liquid rings on the inner wall of the tub no longer run off and also cannot be pumped out. Depending on the washing machine, the limit speed are in the range of approximately 500 revolutions per minute. The liquid rings usually remain until the speed, for example on End of a spin cycle is reduced below the limit speed, the Liquid rings in the area of the limit speed begin to degrade. He follows the touring, however, with a high negative acceleration, respectively If the downhill ramp is very steep, it can happen that the liquid rings are not yet completely degraded when a drum speed is reached in which the liquid rings are no longer fully attached due to the centrifugal force the inner tub wall can be held. In such a case the liquid rings can collapse and onto the drum and the inside Drip the laundry and wet it again.

DE 27 04 111 A1 and DE 25 59 044 C2 describe a method for Spin known wet laundry, in which the spin cycle is still at the tub filled with liquid begins and the centrifugal run-up and the pump control can be coordinated. As a result, among other things the formation of liquid rings can be avoided.

Furthermore, DE-OS 1 485 072 and DE 24 48 834 A1 are a method known to avoid at the maximum speed before the final spin the liquid ring formation, the speed is alternately increased and decreased.

Furthermore, a method is known from DE 35 06 987 C2, in which at the beginning the spin speed to a value just above the resonance speed accelerated and held for a period of time sufficient prevent or reduce the generation of foams.

In all of the aforementioned, known methods can be proposed with the Solutions the formation of liquid rings when speed increases at the beginning of a spin cycle can be dampened at best. Already educated and above However, liquid rings that continue to form the limit speed can can no longer be dismantled. Studies by the applicant have shown that the limit speed depending on the design of the washing machine, for example can move in the range of about 500 revolutions per minute. This speed range is far below the usual maximum spin speed Final spin speeds of over 1500 revolutions per minute. In the final phase of a spin cycle, in which usually the speed Therefore, the formation of liquid rings cannot exceed the limit speed be prevented. The liquid ejected in the final phase is therefore at least partially form liquid rings on the inner wall of the tub, that collapse on touring and can drip on the laundry again.

The invention has for its object a method for spinning wet laundry and a washing machine to perform this procedure to create the type mentioned in the course of the spin cycle Liquid rings formed do not come back into contact with the laundry in the Drum can come.

This object is achieved according to the invention by a method in which Speed range that is above the resonance speed and in the range of the limit speed is located on the inner tub wall due to the rotation of the drum formed liquid rings begin to degrade the steepness of the Abtourrampe is reduced, as well as by a washing machine to carry out solved this method, in which the control device in a speed range, which is above the resonance speed and in the range of the limit speed which is formed on the inner wall of the tub due to the rotation of the drum Liquid rings begin to degrade, the steepness of the downhill ramp is reduced.

The reduction in the steepness of the downhill ramp in the sense of the present includes Invention also keeping the speed within a speed range in the range of the limit speed, the speed within the speed range can have any curve shape. By keeping the speed a state is created for a certain period in which the liquid rings start to drain and the liquid can be pumped out, without the liquid rings collapsing beforehand and the washing again can wet. Because the speed is always kept above the resonance range there are no adverse vibrations.

In addition, the method according to the invention provides a further advantage achieved. In the course of the spinning process, liquid also gets elastic Cuff with which the loading opening of the tub is usually is sealingly connected to the housing opening of the washing machine. This Cuff is usually designed as a bellows, in the folds of which can collect liquid when spinning, usually through a drain line is returned to the tub. When touring the Folding the cuff in the resonance area due to the violent movements of the Suds container compressed and pulled apart in rapid succession, so that liquid is splashed out of the folds of the cuff. By this so-called fountain effect can occur during a quick tour, that liquid still in the folds in the drum and again is sprayed onto the laundry.

By staying in a speed range above the resonance speed, can more fluid from the folds of the cuff through the drain line into the Alkaline containers run so that when they pass through the resonance range the fountain effect is significantly reduced or avoided entirely.

The limit speed can be determined beforehand and in the control device Washing machine held or in a storage device Control device can be stored. In this case, the washing machine points a sensor for measuring the drum speed on the with the control device connected is. The measurement can be done directly at the drum or at an intermediate link in the drive chain, for example in a reduction gear or the drive motor.

After reducing the steepness of the down-ramp, the drum speed can be reduced essentially be increased again to the final speed. For example briefly toured to the limit speed and then toured again to better break down the liquid rings in a dynamic process to be able to. This means that even during the final spin cycle Forming liquid rings are broken down, so that at the end of the spin cycle no or only small liquid rings in the tub are. This temporary downhill tour with subsequent uphill tours can be repeated several times.

Furthermore, the steepness of the downhill ramp can essentially again after a reduction be increased to the previous value. If the liquid rings are dismantled, the resonance area can pass quickly and the tour be shortened overall.

Furthermore, the steepness of the downhill ramp can be reduced in a speed range be in which during the touring an increase in out of the tub flowing amount of liquid can be determined. That way the range of the limit speed, which is precisely due to the dismantling of the liquid rings and the associated draining of liquid from the Dye container is distinguished, safe and determined separately for each spin cycle become. In this way, influences can also be taken into account, such as for example foam formation, which may change the limit speed. In this case the washing machine with a flow meter is at the drain opening of the tub, which is connected to the control device is.

Alternatively, the steepness of the downhill ramp can also be reduced in a speed range in which during the touring with blocked liquid drain an increase in pressure or a time derivative from the tub of the pressure curve at the bottom of the tub. The blocking the liquid drain can, for example, by switching off the drain pump be effected. Because the liquid draining from the tub if the drain is blocked, there will be an increase in liquid and thus one Pressure increase leads to the range of the limit speed can be determined safely. By evaluating the pressure curve at the bottom of the Tub or in the pump sump with respect to drainage over time can be achieved that the method only increases the pressure increase responds, which corresponds to an increase in the amount of liquid flowing off. This method can be particularly advantageous in washing machines can be used, for example, for liquid level measurement have a pressure sensor.

Fig.1

eine Schnittansicht von der Seite durch eine Waschmaschine zur Durchführung des erfindungsgemäßen Verfahrens,

Fig. 2

den schematischen Drehzahlverlauf des erfindungsgemäßen Verfahrens gemäß einer ersten Ausführungsform und

Fig. 3

den schematischen Drehzahlverlauf des erfindungsgemäßen Verfahrens gemäß einer zweiten Ausführungsform.

Further details, features and advantages of the invention result from the following description of two exemplary embodiments of the centrifugal process according to the invention and a washing machine according to the invention with reference to the drawings. Show in it

Fig. 1

2 shows a sectional view from the side through a washing machine for carrying out the method according to the invention,

Fig. 2

the schematic speed curve of the inventive method according to a first embodiment and

Fig. 3

the schematic speed curve of the inventive method according to a second embodiment.

The washing machine 1 shown in FIG. 1 has a tub in its interior 2, in which a drum 3 for receiving the to be spun Laundry 16 is rotatably mounted. A drive motor 4 is located on the tub 2 attached, which drives the drum 3 via pulleys and a belt. The tub 2 itself is via springs 10 and shock absorbers 9 with the housing connected to the washing machine 1. Because of the springy suspension the tub 2 forms a swinging with the attached parts Spring-mass system with a resonance frequency R, which is usually in the range of about 200 revolutions per minute. Because in this speed range the tub 2 moves violently despite the damper 9, this is Drive through the speed range advantageously as rarely and very quickly.

The tub 2 and the drum 3 have to put laundry 16 openings on the opening of the tub 2 via an elastic Cuff 12 with a corresponding opening in the housing of the washing machine 1 is sealingly connected. The cuff 12 forms a fold in the bottom a drain line 13 opens, which is connected to the tub 2. By the drain line 13 can return liquid from the fold into the tub 2 flow back. In front of the openings of the tub 2 and the drum 3 a porthole 11 is arranged, which is articulated with the housing of the washing machine 1 is connected and the disc in the form of a truncated cone up to the opening of the drum 3 extends. At the bottom of the tub 2 is a Pump sump 8 to which a drain pump 15 is connected via a drain hose Pumping off liquid is connected.

Furthermore, the washing machine 1 has a control device 5 with at least an operating element 6. At an input of the control device 5 is a Pressure sensor 7 connected to the pressure in the pump sump in front of the drain pump 15 measures. The control device can use the output signal of the pressure sensor 7 5 determine the liquid level in the tub 2.

In Figure 1, the washing machine 1 is shown at the end of a spin cycle, in which the final speed has already been reached. On the inner tub of the tub have a front and a rear liquid ring in this state 14 formed from the ejected liquid in the tub 2 circulate past the pump sump 8 and are therefore not pumped out can. These liquid rings 14 form from a limit speed G.

FIG. 2 schematically shows the drum speed curve according to a first embodiment of the method according to the invention, in which in a first phase 21 the speed is gradually increased to the final speed. Here the resonance speed R and the limit speed G are passed quickly. The phase 22 at the final speed, which is essentially up to 1500 revolutions per minute can vary in length, as determined by the dashed course is indicated. The speed is then in a phase 23 relatively quickly down to substantially the limit speed G or toured, whereupon in a phase 24 the reduction in speed significantly slows down or the steepness of the downhill ramp significantly is reduced. Alternatively, as shown by the dashed line, the speed reached at the beginning of phase 24 also kept essentially constant become. During phase 24, the liquid rings 14 begin to run off and can be pumped out with the drain pump 15. To determine the limit speed switches the control device 2 at the beginning of phase 23 Alkaline pump 15 off, thus blocking the liquid drain from the tub 2 and monitors the output signal of the pressure sensor 7. As soon as during of drum 3 touring a significant increase in pressure increase is determined in the pump sump 8, it can increase to a faster rate Liquid level in tub 2 and a larger one from the tub 2 draining amount of liquid to be closed and reaching the Limit speed can be determined.

After phase 24, the speed is reduced again relatively quickly in phase 25, to pass through the resonance speed R quickly. Finally, in phase 26 rotated the drum 3 at a relatively low speed for a short time to loosen the laundry 16 pressed against the drum wall by spinning.

FIG. 3 shows a drum speed curve according to a second embodiment shown. The individual phases are with the digits of the corresponding phases characterized in Figure 2, being for the second or third time phases through are characterized by one or two apostrophes are. In this embodiment, the liquid rings 14 will end the spin cycle by repeatedly lowering the speed in the Phases 23, 23 'and 23' 'reduced to substantially the limit speed G, whereby the speed in between again in phases 21 'and 21' 'up to the final speed is increased (phases 22 'and 22' '). In phases 24 and 24 ', after which the speed is increased again, the speed is essentially in the range of Limit speed G kept constant.

After the last hold of the speed in the range of the limit speed G in the Phase 24 '', in which the speed is slowly reduced, is in phase as before 25 quickly toasted until the laundry 16 finally loosened up in phase 26 becomes.

Claims (9)

Method for program-controlled spinning of wet laundry in a drum (3) which can be rotated in a tub (2) of a washing machine (1), in which after reaching a final speed of the spin program above the resonance speed, the drum speed is reduced along a downturn ramp, characterized in that in a steepness range above the resonance speed and in the range of a limit speed at which liquid rings (14) formed on the inner wall of the tub due to the rotation of the drum begin to decrease, the steepness of the downward ramp is reduced. Method according to claim 1, characterized in that after a reduction the steepness of the downhill ramp the drum speed essentially is increased again to the final speed. Method according to claim 1 or 2, characterized in that the slope the down ramp after a reduction essentially again the previous value is increased. Method according to one of claims 1 to 3, characterized in that that the steepness of the downhill ramp is reduced in a speed range, in which an increase in the suds container (2) flowing amount of liquid can be determined. Method according to one of claims 1 to 3, characterized in that that the steepness of the downhill ramp is reduced in a speed range, in which during the touring with blocked liquid drain from the Tub (2) an increase in pressure or a time derivative of the pressure curve at the bottom in the tub (2). Washing machine (1) for carrying out a method according to one of claims 1 to 5, with a drum (3) rotatable in a tub (2), a drive device (4) for the drum (3) and a control device (5) for controlling the Drum drive device (4), characterized in that the control device (5) in a speed range which is above the resonance speed and in the range of the limit speed at which liquid rings (14) formed on the inner wall of the tub due to the rotation of the drum begin to degrade the steepness of the down-ramp decreased. Washing machine according to claim 6, characterized in that it has a Has sensor for measuring the drum speed, the output with an input of the control device (5) and that the speed range, in which the control device (5) the steepness of the downhill ramp reduced, is stored in the control device (5). Washing machine according to claim 6, characterized in that it is a Device for measuring the draining from the tub (2) Has amount of liquid, the output of which has an input of the control device (5) is connected, and that the control device (5) the slope the down ramp as soon as they hit one during the down Increase in the amount of liquid flowing out of the tub (2) notes. Washing machine according to claim 6, characterized in that it has a Has pressure sensor (7) which is connected to the tub (2) and its output is connected to an input of the storage device (5) and that the control device (5) the steepness of the down ramp diminishes as soon as it turns while touring with the liquid drain blocked from the tub (2) an increase in pressure or a time derivative of the pressure curve in the bottom of the tub (2).

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