DE69323073T2 - Method and device for automatically optimizing the amount of detergent in a washing machine, washer dryer, dishwasher or the like by measuring the water hardness - Google Patents

Description

This invention relates to a household washing machine, namely a washing machine, a washer-dryer, a dishwasher or the like, which automatically optimizes the use of detergents by measuring the hardness of the washing water. Hardness is known to be a property associated with water and is mainly determined by the presence of magnesium and calcium salts. The harder the water (i.e. its content of the mentioned salts) is when using a certain detergent in such machines, the lower the washing power of the detergent is in general.

US-A-3 223 108 discloses a washing machine with three measuring cells. The amount of detergent can be automatically adjusted according to the water hardness. The control system used in this known machine is a feedback system in which one of the three cells measures the electrical conductivity of the washing solution and in which problems arise due to contamination of this cell.

One object of the invention is to create a household washing appliance of the type mentioned in the preamble of claim 1, in which the automatic optimization of the detergent on the basis of the particular hardness of the washing water is very reliable in the long term.

A further object of the invention is to provide a household washing appliance of the aforementioned type which is simple in construction and inexpensive.

These objects and further objects which are easily recognizable to the person skilled in the art are achieved by a household washing appliance which has the features of claim 1.

The present invention will now be explained in more detail using an embodiment. Shown are:

Fig. 1 is a block diagram of the apparatus of the present invention,

Fig. 2 shows a circuit of a part of the device according to the invention, this circuit comprising conventional electrical and/or electronic components which are known to the person skilled in the art and are therefore not described in detail, and

Fig. 3 is a front view of a part of the circuit of Fig. 2 in the installed state of this part.

In the figures, the device according to the invention comprises a conductivity sensor 1, which is arranged in a water pipe 2 through which water is fed to the tub, which belongs, for example, to a washing machine (not shown). The sensor 1 is connected to a unit 3 for evaluating the electrical conductivity measured by this sensor. For the evaluation, the evaluation unit 3 cooperates with a memory 4 containing reference values of the conductivity. The unit 3 is connected to the usual timer of the washing machine and controls the supply of the detergent to the said tub in an amount proportional to the measured conductivity value.

The sensor 1 is a conductivity cell and measures the conductivity or the impedance between two flat plates 10, 11. These plates are parallel to each other and arranged inside a support 12. This support is positioned on the water path indicated by an arrow F in Fig. 1 and leading to the tub of the washing machine. This support comprises, for example, an annular body 13 which is provided with lateral eyelets 14 for fastening this body to any known fixed part of the washing machine. The body 13 has a sealing ring 15 inside and supports the plates 10, 11 inside by means of two arms 16. The body 13 is arranged between two parts 2A and 2B of the water pipe 2 and is traversed by the water supplied to the machine.

The plates 10, 11 are connected to an electrical discriminator circuit 20 for the conductivity data measured by the sensor 1. This discriminator circuit shown in Fig. 2 has a circuit part 21 which operates as an oscillator and generates a sinusoidal signal with a frequency of preferably between 900 and 1200 Hz. This oscillator prevents the water flowing between the plates 10, 11 from being subjected to electrolysis. The circuit part 21 is connected to a circuit part 23 which operates as a differential amplifier with a high input resistance. Before the output signal of the circuit part 21 reaches the circuit part 23, it is fed to the plates 10, 11, which are connected together with two resistors 24, 25 to form a bridge circuit. The output signal of the amplifier 23 is fed to a rectifier 26 and then to an integrator 27, so that a direct current signal appears at the output of the circuit 20, which is fed to a control and operating unit 28. The unit 28 acts on an actuator 29 which sets a metering element 30 for the detergent to be fed to the washing machine tub. The circuit 20 and the unit 28 form the aforementioned evaluation unit 3. The actuator 29 is, for example, an electric stepping motor which acts on an arm 32. This arm is connected to a movable flap 33 which is hinged to a fixed part of the machine at point 33A and which closes an opening 34 of a detergent container 35. This detergent container is connected to a vessel 36 into which water flows from a water pipe 37 and from which the detergent can be fed to the washing machine tub via a water pipe 38. The arm 32 and the flap 33 form the aforementioned measuring element 30.

The operation of the circuit according to the invention shown in the figures will now be described.

Suppose that a washing cycle has started in the washing machine. When the water initially flows into the tub, the sensor 1 arranged in the water pipe 2 measures the electrical conductivity by means of a signal generated in the circuit 20 by the bridge circuit consisting of the plates 10, 11 and the resistors 24, 25. If the water hardness changes in the process, the signal coming from the plates 10, 11 and consequently the signal coming from the bridge circuit also change.

The circuit 20 generates a continuous (AC) signal, as previously mentioned. This signal is fed to the unit 28. The unit 28 is, for example, a microprocessor circuit or a comparison circuit made up of logic circuits. It compares the signal coming from the circuit 20 with certain values stored in the memory 4 and corresponding to certain amounts of detergent to be added to the tub. After this comparison and on the basis of this comparison and after the arrival of an enable signal from the timer 5 (which is fed when the washing program requests detergent to be added to the tub), the unit 28 activates the actuator (or stepper motor) 29. This actuator moves the flap 33 in such a way that it clears the opening 34 so that a certain amount of detergent is dispensed. Sensor means, for example an encoder on the usual output shaft of the motor 29, are provided for determining the movement of the arm 32 and the flap 33. These sensors are shown in general, designated 50 and connected to the unit 3. When the signals from the sensors 50 arrive at the evaluation circuit 3, the latter can indirectly detect the amount of detergent that has flowed from the container 35 into the vessel 36.

Alternatively, the actuator 29 may be a displacement pump which is directly connected to the detergent present in the container. Other actuators can also be used in the invention.

According to the operation of the circuit according to the invention, the control and operating circuit 28 therefore enables the detergent to be supplied from the container 35 to the vessel 36 to be dispensed in an amount which is proportional to the measured electrical conductivity (or hardness) of the water. The harder the water, the greater the amount of detergent supplied to the vessel 36, which is supplied from this vessel to the washing machine tub in a known manner.

A particular embodiment according to the invention has been described above. However, further embodiments are possible within the scope of the claims.

Claims (10)

1. Household washing appliance, namely washing machine, washer-dryer, dishwasher or the like, with a water pipe (2) for supplying water to a washing tub or a machine part, a detergent container or dispenser (35), a vessel (36) for dispensing the detergent to the washing tub, a program or timer (5) for controlling the various operating phases of the machine, means (1) for measuring the electrical conductivity of the water entering the washing tub or the machine part, the means (1) being connected to means (3) for evaluating the measured conductivity value and these evaluation means (3) controlling selection means (30) for dispensing a suitable amount of detergent to the washing tub or the machine part on the basis of this conductivity value, characterized in that the measuring means (1) have a conductivity sensor (1) which is arranged in the water pipe supplying water to the washing tub or the machine part (2) is arranged, and that the evaluation means (3) have a control unit (28) which is connected to the conductivity sensor (1) via an electrical circuit (20) and which cooperates with a storage unit (4) which contains certain conductivity values which correspond to quantities of detergent to be supplied to the wash tub or the machine part. 2. Household washing appliance according to claim 1, characterized in that the conductivity sensor (1) is an electrical resistor. 3. Washing machine according to claim 1, characterized in that the conductivity sensor (1) is carried by a member (12) which is connected to the water pipe (2) leading to the tub, and in that this member (12) has an annular body (13) in which supports (16) for the conductivity sensor are provided and through which the water entering the washing tub or the machine part incoming water flows. 4. Washing machine according to claim 1, characterized in that the control unit (28) is a microprocessor unit . 5. Washing machine according to claim 1, characterized in that the electrical circuit (20) has a first circuit part (21) which generates an oscillator signal, a second circuit part (23) connected to this circuit part, which works as a differential amplifier with a high input resistance, a third circuit part (26) to which the signal emitted by the differential amplifier is fed and which works as a rectifier, and a fourth circuit part (27) connected to this rectifier, which works as an integrator and is connected to the control unit (28). 6. Washing machine according to claim 5, characterized in that the conductivity sensor (1) has flat elements (10, 11) which together with resistors (24, 25) in the electrical circuit (20) between the first circuit part (21) and the second circuit part (23) form a bridge circuit. 7. Washing machine according to claim 5, characterized in that the first circuit part (21) generates an oscillator signal with a frequency between 900 and 1200 Hz. 8. Washing machine according to claim 1, characterized in that the evaluation means (3) are connected to the machine program or timer (15). 9. Washing machine according to claim 1, characterized in that the selection means are formed by at least one member (30) which is mounted on the detergent container or detergent dispenser in such a way that the detergent is dispensed from this container in a certain quantity, and that this member (30) is controlled by adjusting means (29), the operation of which is controlled by the evaluation means (3). 10. Washing machine according to claim 1, characterized in that release means (50) are provided which are operatively connected to the selection means (30) and to the evaluation means (3) and which inform the evaluation means (3) when the measurement of the detergent has been effected after the operation of the selection means (30).