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Title:
CLOTHES WASHING MACHINE WITH MOTOR TORQUE MEASURING DEVICE
Document Type and Number:
WIPO Patent Application WO/2007/107217
Kind Code:
A1
Abstract:
Household-type clothes washing machine comprising a rotating drum for holding the clothes to be washed and/or dried, adapted to rotate about a substantially- horizontal axis; a universal motor (1) adapted to rotatably drive said drum,- means for controlling the motor current; means for measuring a quantity that is representative of the driving torque supplied by said motor, said measurement means comprising at least an additional coil (5) adapted to link up with the electromagnetic flux passing through said motor. Said machine is provided with means for processing the electric signal produced by said additional coil so as to be adapted to deliver the driving torque of said motor. Preferably, said signal processing means comprise an integrator circuit and a circuit for detecting the peak-to-peak voltage connected in a series arrangement to each other.

Inventors:
ALTINIER FABIO (IT)
Application Number:
PCT/EP2007/001407
Publication Date:
September 27, 2007
Filing Date:
February 19, 2007
Export Citation:
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Assignee:
ELECTROLUX HOME PROD CORP (BE)
ALTINIER FABIO (IT)
International Classes:
D06F34/16; D06F34/18
Domestic Patent References:
WO2001090472A22001-11-29
Foreign References:
US4853605A1989-08-01
EP1609901A12005-12-28
US20040211009A12004-10-28
Attorney, Agent or Firm:
BAUMGARTL, Gerhard (AEG Hausgeräte GmbH Patent, Trademarks & Licensing Nürnberg, DE)
Download PDF:
Claims:

Claims

1. Clothes washing machine or washer-dryer combination, preferably of the household type, comprising: - a rotating drum for holding the clothes to be washed and/or dried, adapted to rotate about an axis that is either substantially horizontal or inclined,

- a universal motor (1) adapted to selectively drive said drum rotatably,

- means for controlling the rotating speed of said motor,

- means for measuring a quantity that is representative of the driving torque supplied by said motor, characterized in that said measurement means comprise at least an additional coil (5) adapted to link up with at least a part of the electromagnetic flux passing through said motor, and in that said machine is provided with means for processing the electric signal produced by said additional coil so as to be adapted to represent the average and instant driving torque of said motor in accordance with said signal supplied by said additional coil (5).

2. Machine according to claim 1 , characterized in that said means for processing said electric signal comprise integration means, preferably an integrator circuit, for integrating said signal.

3. Machine according to claim 2, characterized in that said integrator circuit comprises:

- an operational amplifier (10), - a capacitor (C1) and a resistor (R1 ), arranged in parallel relative to each other and connected in series with an end thereof to the output terminal (11) of said operational amplifier and, with the opposite end thereof via a resistor (R2), to the input terminal (7) of the same integrator circuit.

4. Machine according to claim 2, characterized in that said means for processing the electric signal generated by said additional coil (5) comprise a circuit adapted to deliver the peak-to-peak voltage (V ou t) of the signal generated by said integrator circuit.

5. Machine according to claim 4, characterized in that said means delivering the peak-to-peak voltage comprise:

- a first current rectifier member (20) connected with a terminal thereof having a definite polarity to the output terminal (11 ) of said operational amplifier (10), and

- connected in series with a first capacitor (21 ), the opposite terminal (22) of which is connected, possibly via an impedance (23), to an input (6) for said signal issuing from said additional coil (5);

- a second current rectifier member (25) connected with a terminal thereof to said output (11 ) of said operational amplifier, said terminal having a polarity that is opposite to the polarity of the terminal with which said first current rectifier member (20) is connected to the same output terminal (11),

- said second current rectifier member (25) being further connected in series to a second capacitor (24), which is in turn connected with the opposite terminal thereof to said opposite terminal (22) of said first capacitor (21 ).

Description:

CLOTHES WASHING MACHINE WITH MOTOR TORQUE MEASURING DEVICE

Description

The present invention refers to an improved kind of clothes washing machine, preferably of the type intended for household use, which allows the amount, i.e. weight of the washload and an unbalanced condition thereof to be measured in a particularly efficient and reliable manner.

Household clothes washing machines provided with a horizontal-axis rotating drum - either of the front-loading or the top-loading type - are generally known to have a major drawback in the operation thereof, which is basically inherent to the very nature and construction thereof. In fact, during the final phase of the high-speed spin- extraction cycle, the washload usually tends to distribute in an uneven manner along the inner walls of the rotating drum and such occurrence typically gives rise to unbalance problems, which all those skilled in the art are well aware of, so that no need arises here to dwell upon them any further.

In view of doing away or, at least, minimizing such drawback, a wide variety of solutions have been developed and proposed: so, for instance, reference should be made in this connection to the European patent application No. 04102927.3 by this same Applicant and the disclosure set forth therein.

The above-cited document describes a method for measuring the moment of inertia of the drum, which in turn enables a procedure to be activated by the control means of the machine for bringing the washload into a balanced condition again.

However, for such method for measuring the moment of inertia of the drum to be able to be carried out, the need arises for also the rotational speed of the drum to be preliminarily measured — both before and during said procedure - along with the driving torque supplied by the motor.

As far as the driving torque supplied by the torque is concerned, a variety of

measuring methods are known in the art; one of these methods consists of measuring the vector of the current absorbed by the motor as compared with the voltage thereof. Such method, however, is rather complicated to be practically carried into effect in the light of the high-accuracy and practicableness requirements it has to comply with.

Moreover, a particularly serious drawback connected with the method using the measurement of the motor current lies in the fact that such measurement is only feasible, i.e. can only be performed on a connection coupled with the line voltage and, therefore, not an isolated one, as this would on the contrary be most desirable if the generated signal has to undergo further processing.

In addition, in low-priced household clothes washing machines use is generally made of so-called universal motors, owing to the latter being extremely low in cost and not requiring any sophisticated control system. It is however exactly on this ground that such machines practically ensure limited performance capabilities and, even if they are generally provided with means adapted to measure the motor torque, such measurement is however performed with means of a traditional kind that suffer from all afore-described drawbacks.

Known from the Japanese patent No. 03040744 A2 is another method, which is used in connection with a universal motor and is based on the installation - within the stator - of a control turn or loop that intercepts part of the flux linkage in said stator, and that - based on the voltage generated thereacross - works out the instant motor torque.

This solution, however, is found to be scarcely suitable for application in a clothes washing machine, since no indication is given on how the thus obtained information can actually be used practically even in the presence of non-controllable variables, such as in particular a variation in the instant value of the supply voltage, a variation in temperature, wear-down of brushes, and the like.

It would therefore be desirable, and is actually a main object of the present invention,

to provide a clothes washing machine using a universal motor and equipped with associated devices for measuring and processing signals that are representative of the instant motor torque.

According to the present invention, this aim is reached in a clothes washing machine incorporating the features and characteristics as recited in the appended claims.

Features and advantages of the present invention will anyway be more readily understood from the description that is given below by way of non-limiting example with reference to the accompanying drawings, in which:

- Figure 1 is a symbolical view of the stator and rotor arrangement of a universal motor provided with brushes, and the arrangement of a coil according to the present invention;

- Figure 2 is a symbolical schematic view of the electric circuit of the motor shown in Figure 1 ;

- Figure 3 is a schematic view of a first embodiment of a circuit according to the present invention;

- Figure 4 is a schematic view of an improved embodiment of the circuit shown in Figure 3;

- Figure 5 is a diagrammatical view symbolically illustrating the pattern of the output voltage from the circuit shown in Figure 4.

With reference to Figures 1 and 2, in a clothes washing machine according to the present invention there is provided a universal motor 1 , which is adapted to rotatably drive the rotating drum of said machine, and which is basically comprised of a casing 2, a stator winding 3 and, connected in series thereto, a rotor winding 4.

Furthermore, said clothes washing machine comprises means for controlling said

motor, including also voltage-regulator devices that are implemented in the form of conventional TRIAC devices, which - owing to them being largely known as such in the art - shall not be illustrated and described to any greater detail herein.

The clothes washing machine also includes an additional measurement coil 5, which - as this is best shown in Figure 1 - links up with a polarity 16 of said casing 2.

This additional coil 5 links up with the electromagnetic flux passing through the casing of said motor, so that a voltage is generated thereacross, which is representative of the intensity, i.e. strength and frequency of said flux.

Following relations should now be considered:

e A =K E φ-ω M

φ = K F ' i M

c c dt

-*

wherein:

V M - Main voltage

Vc - Coil voltage for measuring motor torque

IM = Motor current φ = Motor magnetic flux ω M = Motor speed τ = Motor torque

R = Electric resistance

L = Inductance e A = Electric counter-voltage

It should now be noticed that, in the last relation, the value of the torque τ is represented as being proportional - with the constant indicated therein, i.e. *% 2 - to the square function of the voltage integral of the electromotive force of said coil, as measured in time.

At this point, it can therefore be readily appreciated that solving said integration function is all it takes to obtain a value that is univocally representative of the desired motor torque.

To this purpose, and with reference to Figure 3, the voltage V 0 generated by such additional coil 5 is connected to an integrating circuit comprising:

- the input terminals 6, 7;

- an operational amplifier 10; - a capacitor C1 connected between the output terminal 11 of said operational amplifier 10 and an input terminal 7 via a resistor R2 for regulating the input current to said operational amplifier 10;

- a resistor C1 connected in a parallel arrangement to said capacitor C1.

It has been found and demonstrated that such circuit is capable of effectively perform in a simple manner the function of integrating the signal being sent to the input terminals, whereas the resulting signal being output at the output terminal 11 is

represented schematically in Figure 5.

Anyway, the present invention proves utmost useful and effective when the drum is driven to rotate at a speed, at which the spin-extraction cycle is just prepared, but not yet started, actually. In this preliminary phase, the drum is in fact driven to rotate at a so-called "distribution" speed, i.e. at a speed at whichthe washload is allowed to distruibute along the inner cylindrical surface of the same drum, wherein this usually occurs at a rotating speed of approx. 120 rpm.

Under these circumstances, a signal output pattern is typically obtained as the one represented in the diagram appearing in Figure 5, which is in fact modulated according to such rate, i.e. rotating speed of the drum. However, if the signal V 0 , which is very fast since it corresponds to the motor supply frequency, i.e. the power supply frequency, is to be integrated numerically, the need would arise for it to be sampled at a sufficiently high frequency; in practice, however, such requirement proves neither necessary nor useful, since what really matters in this case is the slowly variable component of such function, i.e. the envelope or peak-to peak curve

Therefore, for this function to be identified, an appropriate electric circuit is connected to the output terminal 11 of said operational amplifier, which is adapted to detect and represent the peak-to-peak voltage V ou t existing at the input side of said circuit, i.e. at said terminal 11.

Electronic circuits capable of performing such function are available in a large number and are generally known as such in the art, so that they shall not be specially described herein. Only a particularly simple and effective circuit - illustrated in Figure 4 - shall be cited here by way of example.

This circuit - clearly represented inside the dashed-line circle A in Figure 4 - has a substantially symmetrical configuration and is based on a first rectifier member 20 connected with a terminal thereof to said output terminal 11 of said operational amplifier 10 and, with the other terminal 12 thereof, to a first capacitor 20 that is in

turn connected with the other terminal 22 thereof - possibly via an attenuation resistor 23 - to the input 6 of said integrator circuit 10 that is different from the input 7 to said operational amplifier, which also said capacitor C1 and said resistor R1 are connected to.

Said other terminal 22 is furthermore connected - via a second capacitor 24 and a second rectifier member 25 - to the same output terminal 11 of the operational amplifier 10, wherein it should be noticed that said second rectifier member 25 and said first rectifier member 20 are connected to said output terminal 11 with opposite polarities.

Therefore, the peak-to-peak signal V out is produced and detected between said other terminal 12 of said first capacitor and the terminal 26 connected between said second capacitor 24 and the related second rectifier member 25.

According to what has been described and explained hereinbefore, this signal shall then be further processed and conditioned to ultimately represent the value of the motor torque, in accordance with the afore-indicated mathematical relations and functions, wherein these operations can anyway be performed with such means and methods as generally known to those skilled in the art, which - due to them not falling within the scope of the present invention - are not dealt with 1o any further detail herein.