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EP1738013A1 - A load detection method - Google Patents

A load detection method

Info

Publication number
EP1738013A1
EP1738013A1 EP05718534A EP05718534A EP1738013A1 EP 1738013 A1 EP1738013 A1 EP 1738013A1 EP 05718534 A EP05718534 A EP 05718534A EP 05718534 A EP05718534 A EP 05718534A EP 1738013 A1 EP1738013 A1 EP 1738013A1
Authority
EP
European Patent Office
Prior art keywords
speed
load
fall
spinning
ramp
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.)
Granted
Application number
EP05718534A
Other languages
German (de)
French (fr)
Other versions
EP1738013B1 (en
Inventor
K.; c/o Arcelik Anonim Sirketi ERENAY
A; c/o Arcelik Anonim Sirketi BAYKUT
L.; c/o Arcelik Anonim Sirketi TEZDUYAR
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Arcelik AS
Original Assignee
Arcelik AS
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Arcelik AS filed Critical Arcelik AS
Publication of EP1738013A1 publication Critical patent/EP1738013A1/en
Application granted granted Critical
Publication of EP1738013B1 publication Critical patent/EP1738013B1/en
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F34/00Details of control systems for washing machines, washer-dryers or laundry dryers
    • D06F34/14Arrangements for detecting or measuring specific parameters
    • D06F34/18Condition of the laundry, e.g. nature or weight
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F2103/00Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers
    • D06F2103/24Spin speed; Drum movements
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F2103/00Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers
    • D06F2103/44Current or voltage
    • D06F2103/46Current or voltage of the motor driving the drum
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F2105/00Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
    • D06F2105/46Drum speed; Actuation of motors, e.g. starting or interrupting
    • D06F2105/48Drum speed

Definitions

  • This invention is related to a method of detecting the weight of the laundry placed into the drum in order to provide efficient performance of the washing machine.
  • the water to be taken, amount of cleaning agent and softeners, time period and cycle of the washing are determined according to the type and weight of the laundry to be washed. Also, in case the laundries are not equally distributed on the sidewall of the drum during the spinning cycle, centrifugal forces formed thereof may create detrimental vibrations and can cause moving of the machine and excessive forcing of the machine.
  • load is determined based on the speed fluctuation during the washing cycle. Load is determined by the rising and falling down of the laundry in the drum.
  • load is estimated by the location and drawn voltage of the laundry placed into the drum rotating around its central axis.
  • the objective of this invention is to realize a method of detecting the load of the laundry placed into the washing machines in the most realistic way.
  • Figure 1 is the schematic view of a dryer/washer.
  • Figure 2 is the flow chart of a load detection method.
  • Figure 3 is the graphical view of the change in the number of cycle in a load detection method applied before washing cycle.
  • Figure 4 is the graphical view of the change in the number of cycles in a method of detection load applied before the rinsing cycle.
  • Figure 5 is the graphical view of the change in the number of cycles in a method of detection load applied before the spinning cycle.
  • the washing machines (1) preferably front loading washing machines comprises a drum (2) into which the laundry which is called load is placed and realizes washing and spinning by rotating around an axis, an electronic control card (3), a microprocessor (5) and a data storing unit (4).
  • Data storing unit (4) may be an external unit on the control card (3) or else an internal unit in a microprocessor such as RAM, ROM or EEPROM. In the preferrred embodiment, data is saved on a ROM in the microprocessor (5).
  • Washing machines perform the washing job in various program stages (PA) as washing cycle (PY) and/or rinsing cycle (PD) and/or spinning cycle (PS).
  • PA program stages
  • PY washing cycle
  • PD rinsing cycle
  • PS spinning cycle
  • the present load detection method comprises of the following steps - A distribution step (200) during which the unbalance is decreased or eliminated that is caused by the distribution of the laundry in the washing machine at a speed (Vy) preset by the manufacturer; - Speed deviation measuring step (300) in which first measurement is made at a test speed (Vt) preset by the manufacturer, absolute value deviations between measured speed values (V) and test speed (Vt) are calculated ( I V - Vt I ) and added that gives the speed deviation (Sv) at the test speed (Vt), determining whether or not to proceed with the process according to the value obtained in the comparisons and distribution of the unbalanced load and in order to pumping water out returning back to the distribution step (200) or to the next step ; - Ramp step (400) in which a pre-spinning speed (Vo) higher than the test speed (Vt) by a momentary acceleration is reached, the ramp period (t ramp) between the period from the test speed (Vt) and the pre-spinning
  • the ramp temporary load value (Yr) is found by using the values obtained in the ramp stage (400)
  • fall temporary load value (Yf) is found by using the values obtained in the fall stage (600)
  • corrected load (Y) value is found by using the obtained ramp temporary load value (Yr) and fall temporary load value
  • the unbalanced load (DY) value is obtained by the obtained load (Y) and the way to start and to continue the program stages (PA) are determined according to the unbalanced load (DY) values.
  • Distribution step (200) comprises the steps of reaching a test speed (Vt) which is substantially lower than the resonance speed (Vr) that corresponds to the natural frequency of the entire washer and that harms itself at this frequency, which enables the laundry to cling on to the drum (2) due to the washing speed at a low speed and a long time interval and which results from the washers structure; and of waiting for a c ertain amount of time for the drum (2) speed within a specific time interval to settle into the constant test speed (Vt).
  • evacuation pump continuously pumps out the accumulated water.
  • Obtained deviation value (Sv) from the test speed (Vt) is compared with the reference values obtained during design and manufacturing stages and recorded into the microprocessor (5) and unbalanced load amount in an empty drum is calculated. These values are equal to the minimum unbalanced load amount according to the other balanced load position. If this value does not permit to move to the pre-spinning step, before doing this, drum (2) is stopped and distribution step is repeated (200). If minimum unbalanced load amount obtained at the result of this process cannot be lowered to a limit preset by the manufacturer, distribution step (200) is repeated equal to the number of maximum cycle number. In case it is not succeeded, unbalanced load amount is accepted as a value specified as a result of test data and the cycle is proceeded.
  • GTr T (G ram p)j 2) t ramp — t ramp « ⁇ l - t ramp start (eCjV ltlOll J ⁇
  • the load (Y) quantity which is stored in the data storing unit (4) and which is found by solving the equations (equation 1 to eqution 8) with the parameters and the measurment values calculated from the results of the reference experiments carried out during design and production, the water quantity, the washing material such as detergant and softener quantity and the washing steps and the intervals to be used are selected according to the options predetermined by the manufacturer; and at the same time by comparing the experimental data defined for the spinning speeds that correspond to the obtained load (Y) quantity and the determined unbalanced load (DY) values, the spining profiles which comprise parameters such as the speed and the duration to be applied in the rinsing and the spinning stages are determined and applied.
  • the load detection method in a washer (1) which has a resonance frequency around 200 revolution minute the test speed (Vt) used is 100 revolution/minute and the pre spinning speed (Vo) is 400 revolution/ minute.
  • the load detection method by properly determining the loads at the beginning of the washing process, appropriate washing algorithms can be applied by comsuming low energy and by using the required amount of washing material and water quantity. Consequently, it is possible to produce low volume washing machines that have high load capacities.
  • the unbalanced load values (DY) which are calculated from the load (Y) values, problems resulting from spinning such as opening of the drum, breaking of the bearings, wearinng out of the damper and the burden of service is decreased and at the same time it is possible for the user to use the washer/ dryer by using minimum detergant, softener quantities and minimum time and minimum energy.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Control Of Washing Machine And Dryer (AREA)
  • Detergent Compositions (AREA)

Abstract

This invention relates to a load detection method which is used in washers (1), which enables the washer (1) to operate efficiently by detecting the weight of the laundry placed inside the drum, which determines the water, detergent and softener quantity and the washing program and/or period according to the type and weight of the laundry and at the same time the unbalanced load due to the distribution of the laundry inside drum (2) during spinning.

Description

Description A LOAD DETECTION METHOD
[001] This invention is related to a method of detecting the weight of the laundry placed into the drum in order to provide efficient performance of the washing machine.
[002] In the washer/dryers and especially in washing machines, the water to be taken, amount of cleaning agent and softeners, time period and cycle of the washing are determined according to the type and weight of the laundry to be washed. Also, in case the laundries are not equally distributed on the sidewall of the drum during the spinning cycle, centrifugal forces formed thereof may create detrimental vibrations and can cause moving of the machine and excessive forcing of the machine.
[003] In the prior art, in WO 03046271, a method for determining unbalanced load in front loading machines is described in which the sensed values are compared to prerecorded values at high speed.
[004] In US 6029299, load is determined based on the speed fluctuation during the washing cycle. Load is determined by the rising and falling down of the laundry in the drum.
[005] In DE 19832292, in a direct drive washing machine, load is estimated by the location and drawn voltage of the laundry placed into the drum rotating around its central axis.
[006] In EP 1113102, total load and unbalanced load are determined according to the signals received from motor.
[007] The objective of this invention is to realize a method of detecting the load of the laundry placed into the washing machines in the most realistic way.
[008] The load detection method realized to achieve the objective of this invention is shown in the attached drawings in which
[009] Figure 1, is the schematic view of a dryer/washer.
[010] Figure 2, is the flow chart of a load detection method.
[011] Figure 3, is the graphical view of the change in the number of cycle in a load detection method applied before washing cycle.
[012] Figure 4, is the graphical view of the change in the number of cycles in a method of detection load applied before the rinsing cycle.
[013] Figure 5, is the graphical view of the change in the number of cycles in a method of detection load applied before the spinning cycle.
[014] Each of the parts in the figures are numbered as follows: 1. Washing machine 2. Drum 3. Control card 4. Data storing unit 5. Microprocessor
[015] The washing machines (1) preferably front loading washing machines comprises a drum (2) into which the laundry which is called load is placed and realizes washing and spinning by rotating around an axis, an electronic control card (3), a microprocessor (5) and a data storing unit (4).
[016] Data storing unit (4) may be an external unit on the control card (3) or else an internal unit in a microprocessor such as RAM, ROM or EEPROM. In the preferrred embodiment, data is saved on a ROM in the microprocessor (5).
[017] Washing machines perform the washing job in various program stages (PA) as washing cycle (PY) and/or rinsing cycle (PD) and/or spinning cycle (PS). In washing machines (1), before each washing cycle, weight of the laundry is determined by a load detection method.
[018] The present load detection method comprises of the following steps - A distribution step (200) during which the unbalance is decreased or eliminated that is caused by the distribution of the laundry in the washing machine at a speed (Vy) preset by the manufacturer; - Speed deviation measuring step (300) in which first measurement is made at a test speed (Vt) preset by the manufacturer, absolute value deviations between measured speed values (V) and test speed (Vt) are calculated ( I V - Vt I ) and added that gives the speed deviation (Sv) at the test speed (Vt), determining whether or not to proceed with the process according to the value obtained in the comparisons and distribution of the unbalanced load and in order to pumping water out returning back to the distribution step (200) or to the next step ; - Ramp step (400) in which a pre-spinning speed (Vo) higher than the test speed (Vt) by a momentary acceleration is reached, the ramp period (t ramp) between the period from the test speed (Vt) and the pre-spinning speed (Vo) and total motor current values (GTr) calculated at time intervals preset by the manufacturer are recorded ; - A pre-spinning step (500) in which, after spending some time at the reached pre-spinning speed (Vo), the total motor current values (Gts) at the pre spinning as calculated at the time intervals preset by the manufacturer at the pre spinning speed (Vo) is recorded, and - A fall step (600) wherein the fall interval (t decent ) required for to pass from a pre spinning speed (Vo) to a fall transition speed (Vg) that is lower than the pre spinning speed (Vo) and greater than the test spinning speed (Vt) is recorded, and by using ramp exit period (t ramp), fall period (t fall), total pre spinning voltage (GTs) and total ramp voltage (GTr) values and predetermined load constants (Kl, K2, K3, K4, K5, ...) and unbalanced load constants (C1(Y), C2 (Y), C3 (Y), C4(Y),. ..) for possible load values (Y) predetermined by calculating from experimental data and which are stored in the data storing unit (4), the ramp temporary load value (Yr) is found by using the values obtained in the ramp stage (400), fall temporary load value (Yf) is found by using the values obtained in the fall stage (600), corrected load (Y) value is found by using the obtained ramp temporary load value (Yr) and fall temporary load value and the unbalanced load (DY) value is obtained by the obtained load (Y) and the way to start and to continue the program stages (PA) are determined according to the unbalanced load (DY) values. [019] Distribution step (200) comprises the steps of reaching a test speed (Vt) which is substantially lower than the resonance speed (Vr) that corresponds to the natural frequency of the entire washer and that harms itself at this frequency, which enables the laundry to cling on to the drum (2) due to the washing speed at a low speed and a long time interval and which results from the washers structure; and of waiting for a c ertain amount of time for the drum (2) speed within a specific time interval to settle into the constant test speed (Vt). During the distribution step (200) evacuation pump continuously pumps out the accumulated water. [020] Right after the distribution step, in the speed deviation calculation step (300), it is determined whether the absolute deviation is within the range set by the manufacturer. Thus when it is determined that the settling is provided at the test speed (Vt), speed measurement is made during "k" number of tours as set by the manufacturer in order to provide sufficient statistical data and required load distribution. Absolute deviation from the calculated speed values (V i ) from the test speed (Vt) (I V i - Vt I) are calculated and added. By means of this, at the speed deviation calculation step (300), the speed deviation (Sv) formed at the test speed (Nt) is calculated according to the equation:
[021] Sv = 2. I V i - Vt I (equation 1 }
[022] Obtained deviation value (Sv) from the test speed (Vt) is compared with the reference values obtained during design and manufacturing stages and recorded into the microprocessor (5) and unbalanced load amount in an empty drum is calculated. These values are equal to the minimum unbalanced load amount according to the other balanced load position. If this value does not permit to move to the pre-spinning step, before doing this, drum (2) is stopped and distribution step is repeated (200). If minimum unbalanced load amount obtained at the result of this process cannot be lowered to a limit preset by the manufacturer, distribution step (200) is repeated equal to the number of maximum cycle number. In case it is not succeeded, unbalanced load amount is accepted as a value specified as a result of test data and the cycle is proceeded. Thus, as there is no pre-limiting, it is moved from the speed deviation calculation step (300) to ramp step (400). [023] At ramp step (400), at the ramp accelerating period (t ramp), from (t ramp start) moment to (t ramp end) moment, with a high acceleration in a short time a speed higher than the resonance spinning speed (Vr), for instance to a pre-spinning speed (Vo) about twice as much of the resonance spinning speed (Vr). This high acceleration is for distributing load and passing the resonance frequency with high speed in order to eliminate the moving of the washing machine and/or striking the parts to each other. Total ramp voltage (GTr) obtained as a result of specific time intervals at the ramp stage (G ramp ) and ramp acceleration time period (t ramp ) are calculated with the equations
[024] GTr = T (Gramp)j 2) t ramp t ramp «κl - t ramp start (eCjV ltlOll J }
[025] and gives a valuable information about the amount of laundry in the drum (2). Higher amount of the load increases the time period and current values. [026] As the pre-spinning step (500) is reached from ramp step (400), at pre-spinning speed (Vo) spinning is conducted for a specific time (t settle-pre spinning ). This period (t settle-pre spinning ) is a period of time wherein settling in is guaranteed at the pre spinning speed. At the end of this process an environment wherein clinging tightly on the wall of the drum (2) and minimum friction of laundry-glass lid is achieved. [027] At the pre spinning stage (500) after the part which corresponds to the settling (t settle-pre spinning ) of the duration period of the pre spinning speed (Vo), the voltage (G pre spinning ) applied to the motor in order to ensure spinning at the pre spinning speed (Vo) are added together and the total of the pre spinning voltage (GTs) is calculated with the equation;
[028] GTs = V (Gpieqiiiuώiϊh (equation 4) /-l
[029] Passing from the pre spinning stage (500) to the fall stage (600), during a fall transition speed (Vg) which is smaller than pre spinning speed (Vo) and greater than the test spinning speed (Vt), the period of time (t fall transition ) which passes from the time where free fall begins from the pre spinning stage (Vo) and the time (t fall transition ) where fall transition speed (Vg) is reached. The load value is calculated by using the period and voltage values obtained from this and from the previous stages and the fall stage (600) is continued according to the program used.
[030] t fi.il _ t Mi transition - t fall start (equation 5)
[031] If it is present before the washing stage (PY) a free fall is ensured at the fall stage (600) for a period of time wherein the drum (2) reaches a stop from the pre spinning speed (Vo).
[032] If it is present at the rinsing stage (PD), free fall is ensured at the fall stage (600) from the pre spinning speed (Vo) to the test spinning speed (Vt). In the meantime, at which step to carry on with the rinsing stage (PD) is determined by calculating the determined load (Y) value and recorded manufacturer values and the unbalanced load (DY) value.
[033] If it is present at the spinning stage (PS), free fall is ensured at the fall stage (600) from the pre spinning speed (Vo) to the test spinning speed (Vt). In the meantime, at which step to carry on with the spinning stage (PS) is determined by calculating the determined load (Y) value and recorded manufacturer values and the unbalanced load (DY) value.
[034] The measured speed deviation (Sv) at the speed deviation calculation step (300), the ramp exit period (t ramp ) and the total ramp voltage (GTr) measured at the ramp stage (400), the total pre spinning voltage (GTs) and the fall period (t fall ) which is detected by the measurements made at the fall stage (600) and the constants, such as ( Kl, K2, K3, K4, K5, ... ); which are recorded at the data storing unit (4) and which are obtained by solving the experimental data are used by a control card (3) and the temporary ramp load value (Yr) is found with the equation; [035]
Yr = 1 + K2 * Sv + K3 * ( t ramp) + 4 * GTr ( equation 6)
[036] In a similar way, the temporary fall load value (Yf) is found with the equation;
[037] Yf = Kl l + 12 * Sv + K13 * (t faiι) + K14 * GTs (equation 7) [038] By using the obtained temporary ramp load value (Yr) and the temporary fall load value (Yf), the corrected load (Y) value is found with the equation; [039] Y = K21 * Yr + K22 * Yf (equation 8)
[040] The obtained load (Y) value, the unbalanced load constants ((C1(Y)), (C2(Y)) which are recorded in the data storing unit (4) and which are determined by experimental measurements for load values (Y) calculated from experimental data and speed deviation (Sv) and unbalanced load (DY) value measured at the speed deviation calculation step (300) is calculated with the equation
[041] DY = (CI (Y))+ (C2 ( Y))* (Sv) (equation 9)
[042] By taken into account the load (Y) quantity which is stored in the data storing unit (4) and which is found by solving the equations (equation 1 to eqution 8) with the parameters and the measurment values calculated from the results of the reference experiments carried out during design and production, the water quantity, the washing material such as detergant and softener quantity and the washing steps and the intervals to be used are selected according to the options predetermined by the manufacturer; and at the same time by comparing the experimental data defined for the spinning speeds that correspond to the obtained load (Y) quantity and the determined unbalanced load (DY) values, the spining profiles which comprise parameters such as the speed and the duration to be applied in the rinsing and the spinning stages are determined and applied.
[043] In one of the embodiment of the invention, the load detection method, in a washer (1) which has a resonance frequency around 200 revolution minute the test speed (Vt) used is 100 revolution/minute and the pre spinning speed (Vo) is 400 revolution/ minute.
[044] With the invention, the load detection method, by properly determining the loads at the beginning of the washing process, appropriate washing algorithms can be applied by comsuming low energy and by using the required amount of washing material and water quantity. Consequently, it is possible to produce low volume washing machines that have high load capacities. Moreover, as efficient and reliable washing and spinning profiles are provided with the unbalanced load values (DY) which are calculated from the load (Y) values, problems resulting from spinning such as opening of the drum, breaking of the bearings, wearinng out of the damper and the burden of service is decreased and at the same time it is possible for the user to use the washer/ dryer by using minimum detergant, softener quantities and minimum time and minimum energy.

Claims

Claims A load detection method, which is used in a washer (1) comprising an electronic control card (3) and a data storing unit (4) and which is applied before any of the program stages (PA) such as washing stage (PY), rinsing stage (PD) or spinning stage (PS) to detect the weight of the laundry placed inside the drum, and which is comprising the steps of; a distribution step (200) during which the unbalance is decreased or eliminated that is caused by the distribution of the laundry in the washing machine at a speed (Vy) preset by the manufacturer; speed deviation measuring step (300) in which first measurement is made at a test speed (Vt) preset by the manufacturer, absolute value deviations between measured speed values (V i ) and test speed (Vt) are calculated ( I V i - Vt I ) and added that gives the speed deviation (Sv) at the test speed (Vt), determining whether or not to proceed with the process according to the value obtained in the comparisons and distribution of the unbalanced load and in order to pumping water out returning back to the distribution step (200) or to the next step; ramp step (400) in which a pre-spinning speed (Vo) higher than the test speed (Vt) by a momentary acceleration is reached, the ramp period (t ramp) between the period from the test speed (Vt) and the pre-spinning speed (Vo) and total motor current values (GTr) calculated at time intervals preset by the manufacturer are recorded ; a pre- spinning step (50O) in which, after spending some time at the reached pre- spinning speed (No), the total motor current values (Gts) at the pre spinning as calculated at the time intervals preset by the manufacturer at the pre spinning speed is recorded, and; a fall step (600) wherein the fall interval (t decent ) required for to pass from a pre spinning speed (Vo) to a fall transition speed (Vg) that is lower than pre spinning speed (Vo) and greater than a test spinning speed (Vt) is recorded, and by using ramp exit period (t ramp), fall period (t fall), total pre spinning voltage (GTs) and total ramp voltage (GTr) values and predetermined load constants (Kl, K2, K3, K4, K5, ...) and unbalanced load constants (C1(Y), C2 (Y), C3 (Y), C4(Y),...) for possible load values (Y) predetermined by calculating from experimental data and which are stored in the data storing unit (4); the ramp temporary load value (Yr) is found by using the values obtained in the ramp stage (400) with the equation; Yr = Kl + K2 * Sv + K3 * (t ramp ) + K4 *
GTr (equation 6 ) the fall temporary load value (Yf) is found by using the values obtained in the fall stage (600) with the equation Yf = Kl 1 + K12 * Sv + K13 * (t ) + K14 * GTs (equation 7) the corrected load (Y) value is found by using the obtained ramp temporary load value (Yr) and the fall temporary load value with the equation Y = K21 * Yr + K22 * Yf (equation 8 ) and the unbalanced load (DY) value is obtained by the obtained load (Y) and the way to start and to continue the program stages (PA) are determined according to the unbalanced load (DY) values; [002] A load detection method as defined in Claim 1 comprising the fall stage (600) wherein its unbalanced load (DY) value is calculated with the equation; DY = CI (Y) + C2 (Y) * Sv (equation 9); [003] A load detection method as defined in Claim 1 or 2 comprising a fall stage (600) wherein free fall is ensured from pre spinning speed (Vo) until the drum reaches a stop before the washing stage (PY); [004] A load detection method as defined in any of the claims above comprising a fall stage (600) wherein a free fall is enabled from the pre spinning speed (Vo) to the test spinning speed (Nt) before the rinsing stage (PD). [005] A load detection method as defined in any of the claims above comprising a fall stage (600) wherein a free fall is enabled from the pre spinning speed (Vo) to the test spinning speed (Nt) before the spinning stage (PS). [006] A washer (1) which is operated with a load detection method defined in any of the claims above.
EP05718534A 2004-03-01 2005-03-01 A load detection method Not-in-force EP1738013B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
TR200400381 2004-03-01
PCT/IB2005/050751 WO2005085511A1 (en) 2004-03-01 2005-03-01 A load detection method

Publications (2)

Publication Number Publication Date
EP1738013A1 true EP1738013A1 (en) 2007-01-03
EP1738013B1 EP1738013B1 (en) 2012-01-11

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP05718534A Not-in-force EP1738013B1 (en) 2004-03-01 2005-03-01 A load detection method

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EP (1) EP1738013B1 (en)
AT (1) ATE541076T1 (en)
TR (1) TR200604628T1 (en)
WO (1) WO2005085511A1 (en)

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EP1738013B1 (en) 2012-01-11
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