EP2373839B1 - Household appliance having an automatic switch-off device - Google Patents

Description

The present invention relates to a circuit arrangement for operating a household appliance; the circuit arrangement comprises a control device for executing programs of the household appliance, a connection via which the control device can be supplied with electrical energy from a supply network, a first electrical switch, via which the control device can be coupled to the connection, an operating unit connected to the connection, wherein the first electrical switch is switchable from an open switching state to a closed switching state in which the first switch is electrically conductive, depending on an actuation of the operating unit, and a second electrical switch which is separate from the first switch and via which the control device can be coupled to the connection is, wherein the control means is adapted, as soon as the first switch is switched to the closed switching state, to switch the second switch from an open switching state to a closed switching state in which the control device is coupled via the second switch to the terminal.

The invention further relates to a method for operating a control device of a household appliance, with which programs of the household appliance are executed, wherein the control device is supplied via a terminal of the circuit arrangement of a supply network with electrical energy when a first electrical switch is switched to a closed switching state is, and wherein a separate from the first switch second electrical switch, via which the control device is coupled to the terminal is switched by means of the control device depending on demand in a closed switching state as soon as the first switch is switched to the closed switching state.

Such a circuit arrangement and such a method are apparent from the document US 2007/034236 A1 ,

Today's household appliances, such as in particular washing machines and dryers, are known to be equipped with a program selector, which is usually provided as a knob rotatably mounted on a control panel. In the present case should be achieved will turn off the home appliances after completing a previously selected program.

From the publication DE 20 2006 018 467 U1 a home appliance is known, which has a power switch, via which the household appliance can be connected to a power supply or disconnected from the power supply. The power switch can be operated by an operator. The household appliance further has a control device which opens the power switch after completion of a program of the household appliance and thus separates the household appliance from the power supply.

In addition, the document discloses DE 10 2006 054 539 B3 a method for generating a low-voltage power supply of an electrical control device of a household appliance. In this case, a power supply can be set by applying a switching signal at its activation input in an active mode. The switching signal is transmitted via a switch, which is provided for example as a program selector, to the power supply.

The publication DE 103 19 132 A1 describes an operating device for selecting an operating program of a household appliance. The operating device comprises a rotary knob, which is connected via a shaft with a magnetic Hall sensor. The shaft is mounted both rotatable and axially displaceable. Turn the knob to change the magnetic field of the Hall sensor. An evaluation unit receives signals from the Hall sensor. Depending on the signals of the Hall sensor, the evaluation unit concludes on the operating program selected by an operator of the household appliance. An axial displacement of the shaft causes a change in the magnetic field of the Hall sensor. The axial displacement of the shaft and the associated change in the magnetic field can be assigned an additional function, namely, for example, the function "pause" or "stop". In other words, an operator can select an additional function of the household appliance by pulling or pressing the rotary knob.

The present invention has for its object to reduce the power consumption of a household appliance.

This object is achieved by a circuit arrangement having the features of claim 1, and by a method having the features of claim 11. Advantageous embodiments of the invention are specified in the dependent claims.

A household appliance is a device that is used for household management. This may in particular be a large household appliance, which is designed for automatic execution of programs, such as a washing machine, a tumble dryer, a dishwasher or a cooking appliance.

A circuit arrangement according to the invention is designed for operating a household appliance. The circuit arrangement comprises a control device for executing programs of the household appliance, a connection via which the control device can be supplied with electrical energy from a supply network, a first electrical switch via which the control device can be coupled to the connection, a control unit connected to the connection, wherein the first electrical switch is switchable from an open switching state to a closed switching state in which the first switch is electrically conductive as a function of an actuation of the operating unit, and a second electrical switch separate from the first switch, via which the control device can be coupled to the connection is, wherein the control means is adapted, as soon as the first switch is switched to the closed switching state, to switch the second switch from an open switching state to a closed switching state in which the control device is coupled via the second switch to the terminal. For this purpose, the operating unit is designed as a program selector for selecting a program of the household appliance, which has a stationary contact element and a movable contact element which is immovably connected to an actuatable actuator by an operator and electrically coupled to the stationary contact element except in a starting position of the actuating element.

According to the invention it is thus provided that the control device of the household appliance - depending on the operation of a control unit - initially via a first switch, which in particular is closed only for a predetermined period of time, is put into operation, and that the control device itself closes a second switch after commissioning and thus itself supplied with electrical energy. Advantageously, it is thus achieved that the control device after completion of a previously selected program open the second switch and thus can turn off automatically. Thus, the energy consumption of the household appliance is reduced overall, without an existing one. To change control panel. In particular, the circuit arrangement according to the invention thus comes without an additional, operable by an operator power switch and without a bistable relay, as used in the prior art for automatic shutdown.

According to the invention, it is provided that the operating unit is designed as a program selector for selecting a program of the household appliance. The program selector comprises a stationary contact element, in particular a conductor track, and a movable contact element. The movable contact element is in this case in a manner fixed against movement in particular with an actuating element which can be actuated by an operator and is electrically coupled to the stationary contact element except in an initial position of the actuating element. In particular, the program selector is provided as a program selector rotatably mounted on a control panel of the household appliance, ie a rotary knob. The stationary contact element can be provided as a substantially annular, an interruption having conductor track on which the movable contact element slides during rotation of the actuating element. The actuator is in the starting position, the movable contact element is preferably arranged over the interruption of the conductor track and thus electrically separated from this. By selecting a program from a plurality of available programs in the household appliance, in particular by turning the operating element of the program selector, thus the first electrical switch is switched to the closed switching state, in which the control device is turned on and can close the second electrical switch.

Preferably, the control device comprises a main power supply and a control unit, which is fed via the main power supply with electrical energy. Then, the control unit is preferably designed to execute the stored in a memory programs of the household appliance. For example, the control unit for controlling an electric drive motor, in particular via a semiconductor switch, be formed. The household appliance is preferably designed as a household appliance for the care of laundry items, which has a driven by a drive motor drum for receiving the laundry items. The term "household appliance" in particular fall into a washing machine, a dryer and a washer-dryer.

In order to ensure the automatic shutdown of the household appliance and thus the reduction of power consumption, the control device is preferably adapted to switch after completion of a previously selected program of the household appliance, the second switch in the open switching state. This can be achieved in a technically simple manner when the second switch is designed, for example, as a relay.

Preferably, a power supply unit, in particular a capacitor power supply, can be coupled via the operating unit to the terminal of the circuit arrangement, which is designed to provide an electrical voltage for driving the first switch. The power supply in particular comprises a capacitor connected to reference potential, to which the available for driving the first switch electrical voltage can be tapped, and a voltage limiting diode, in particular a Zener diode, by means of which the voltage applied to the capacitor is limited. Furthermore, the power supply can have a voltage divider. It can be provided that the power supply has a rectifier, in particular with a diode, by means of which the mains voltage is rectified. The rectified voltage may then be provided to drive the first switch on the capacitor. The power supply is thus coupled in particular via the operating unit with the connection of the circuit arrangement, ie with a supply network and may then provide a DC voltage to drive the first switch. By using a power supply, a reliable control of the first switch can be achieved with an electrical pulse.

Preferably, a control and monitoring unit or a pulse generator is coupled to the power supply and the first switch, which is designed to monitor the voltage provided by the power supply and to drive the first switch depending on the current value of the electrical voltage. The operation of the power supply and the control and monitoring unit, for example, look like that the control and monitoring unit only triggers an electrical pulse to the first switch when the capacitor of the power supply is charged or the voltage available to the capacitor a pre-definable Value achieved. The first switch is then switchable to the closed switching state for the duration of the electrical pulse. During the duration of the emitted pulse, that is, while the first electrical switch remains closed, the control device preferably closes the second switch and then supplies itself with electrical voltage. The control and monitoring unit is preferably provided as an integrated circuit (microchip) and in particular comprises one or more switches, in particular transistors, which serve to trigger the electrical pulse to the first switch. By using the control and monitoring unit, it is possible to control the first switch as needed and reliably after actuation of the operating unit.

The control and monitoring unit preferably has a reset input, via which a triggering of an electrical pulse causing reset signal is transmitted to the control and monitoring unit, which can be generated by operating the control unit. Thus, it can be achieved that even after completion of a program of the household appliance, the control device by operating the control unit, in particular by turning the actuating element of the program selector to at least one position, is put into operation. It is thereby provided an operational readiness mode of the control device in which on the one hand it no longer receives active current and on the other hand can be switched on again at any time by actuating the operating unit. In this embodiment, it can be provided that the reset input of the control and monitoring unit with a further movable contact element is electrically coupled, which is immovably connected to the actuating element of the operating unit. In this case, a plurality of stationary contact elements spaced apart from one another can be provided, of which in each case a contact element is contacted with the movable contact element when the operating unit is actuated, in particular when the actuating element of the program selector is turned. If the plurality of stationary contact elements are coupled to a reference potential, in particular to ground, the reset input of the control and monitoring unit is located at the reference potential for a short period of time when adjusting the operating unit. In other words, if the operating unit is actuated, a reset signal (in the form of a low signal, that is to say ground) is transmitted to the reset input of the control and monitoring unit, which causes the output of the electrical pulse to the first switch.

It has proved to be particularly advantageous if the first switch is designed as a semiconductor switch, in particular as an OptoMOS relay, or as a relay. Thus, the period of time for which the first switch is switched conductive, as required - depending on the response time of the control device when closing the second switch - set or predefined. By using a semiconductor switch or relay, it is possible to control this without much effort by simply outputting electrical impulses.

According to a further embodiment it is provided that a third electrical switch is connected in parallel to the second switch, via which the control device can be coupled to the terminal, wherein the control device is designed to mechanically lock a door of the household appliance, the third switch in a closed switching state to switch. When a selected program of the household appliance is started, the door of the household appliance is automatically locked by the control device and the third switch is closed at the same time. In this case, the third switch for the period during which the door of the household appliance remains locked, remains closed. In this way, it is ensured that the control device remains electrically coupled to the connection of the circuit arrangement even if a power failure occurs on the part of the supply network. A program already started and interrupted by the power failure Domestic appliance can be properly terminated in this way after the return of the mains voltage.

According to a further aspect of the invention, a household appliance, in particular for the care of laundry items, is provided, which comprises a circuit arrangement according to the invention or a preferred embodiment thereof.

A method according to the invention is designed for operating a control device of a household appliance with which programs of the household appliance are executed. In the method, the control device is supplied via a terminal of the circuit arrangement of a supply network with electrical energy when a first electrical switch is switched to a closed switching state, and is a separate from the first switch second electrical switch, via which the control device coupled to the terminal is switched by means of the control device demand-dependent in a closed switching state, as soon as the first switch is switched to the closed switching state. For this purpose, a control unit connected to the terminal is provided, wherein the first electrical switch is switched depending on an operation of the operating unit, and the operating unit is designed as a program selector for selecting a program of the household appliance, which has a stationary contact element and a movable contact element with an actuating element operable by an operator is immovably connected and is electrically coupled in the actuation with the stationary contact element outside a starting position of the actuating element.

The preferred embodiments presented with reference to the circuit arrangement according to the invention and in particular their advantages apply correspondingly to the method according to the invention.

Further features of the invention will become apparent from the claims, the figures and the description of the figures. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or shown alone in the figures are not only in the respectively indicated combination, but also in others Combinations or alone, without departing from the scope of the invention.

Fig. 1

in schematischer Darstellung eine Schaltungsanordnung nach einem ersten Ausführungsbeispiel der Erfindung;

Fig. 2

in schematischer Darstellung eine Schaltungsanordnung nach einem zweiten Ausführungsbeispiel der Erfindung; und

Fig. 3

einen zeitlichen Verlauf einer an einem Kondensator eines Netzteils anliegenden elektrischen Spannung nach Drehen eines Betätigungselements eines Programmwählers, einen zeitlichen Verlauf von an einen ersten elektrischen Schalter mittels einer Steuer- und Überwachungseinheit ausgelösten elektrischen Impulsen sowie einen zeitlichen Verlauf eines Rücksetzsignals, welches an einen Rücksetzeingang der Steuer- und Überwachungseinheit übermittelt wird.

The invention will now be described with reference to individual preferred embodiments and with reference to the accompanying drawings. Showing:

Fig. 1

a schematic representation of a circuit arrangement according to a first embodiment of the invention;

Fig. 2

a schematic representation of a circuit arrangement according to a second embodiment of the invention; and

Fig. 3

a time profile of an applied voltage to a capacitor of a power supply voltage after rotating an actuator of a program selector, a time course of triggered by a control unit to a first electrical switch pulses and a time course of a reset signal, which to a reset input of the control and monitoring unit is transmitted.

In the figures, identical and functionally identical elements are provided with the same reference numerals.

Fig. 1 shows a schematic representation of a circuit arrangement 1, which is used for operating a household appliance, in the example of a washing machine. The circuit arrangement 1 has a control device 2, which - as in Fig. 1 schematically indicated - a main power supply 3 and a powered by the main power supply 3 control unit 4 has. The control unit 4 is used in the example for controlling a drive motor, with which a drum for receiving laundry is driven. The drive motor can be fed in, for example via a triac, which in turn can be controlled by means of the control unit 4. The control unit 4 may further be designed to control other electrical consumers, such as in particular of pumps, heaters and the like. The control unit 4 is thus designed to execute programs of the washing machine, which are stored in the control device 2, for example in a memory.

For selecting a program by an operator, the circuitry 1 comprises a program selector 5 having an operator-operable actuator (not shown in the figures). The program selector 5 has a stationary contact element 6, which is here as an in the Substantial annular track is executed with an interruption 7. With the rotatable actuating element, a movable contact element 8 is rotatably connected, which slides on the conductor track 6 except in a starting position of the actuating element. In the initial position of the actuating element, the movable contact element 8 is arranged above the interruption 7 of the conductor track 6, so that no electrical connection between the movable contact element 8 and the conductor track 6 is given. If the actuating element is moved from the starting position into a different position from a plurality of different positions, then the movable contact element 8 is electrically coupled to the conductor track 6.

The circuit arrangement 1 can be electrically coupled to a supply network via a connection 9 (phase conductor), i. the circuit arrangement 1, more precisely the control device 2, can be supplied with electrical energy via the connection 9. In the present example, the control device 2 via three separate electrical switch, a first electrical switch 10, a second electrical switch 11 and a third electrical switch 12, with the terminal 9, ie with the supply network, coupled.

The first switch 10 is controlled by means of a program selector 5 having drive circuit 13. In this case, the first switch 10 in the in Fig. 1 illustrated first embodiment provided as a relay. If electrical current flows through a control element 14 of the first switch 10, then the first switch 10 is closed. If no current flows via the control element 14, then the first switch 10 is open. The control element 14 may be formed as a coil.

The drive circuit 13 has a capacitor power supply 15, which is coupled on the one hand to the track 6 of the program selector 5 and on the other hand via a pole 16 to a control and monitoring unit 17. The capacitor power supply 15 comprises a voltage divider 18 including a first and a second ohmic resistor 19, 20. The second ohmic resistor 20 is connected to ground 21. By means of the voltage divider 18, a mains voltage of the supply network can be lowered. The voltage divider 18 is a rectifier diode 22 downstream, by means of which the mains voltage is rectified. The capacitor power supply 15 further comprises a pole 16 with Mass 21 coupling capacitor 23, to which an electrical voltage U _C for the first switch 10 can be provided. The voltage U _C is limited by means of a Zener diode 24 which couples the pole 16 to ground 21. The voltage U _C is, for example, 3V or 5V when the capacitor 23 is charged.

The voltage U _C applied to the capacitor 23 is monitored by means of the control and monitoring unit 17. For this purpose, the pole 16 is coupled to a monitoring input 25 of the control and monitoring unit 17. Thus, the control and monitoring unit 17 can detect whether the voltage U _{C has reached} a predeterminable value V _CC , that is, whether the capacitor 23 - when the actuator of the program selector has rotated from the starting position - has charged.

The control element 14 of the first switch 10 is coupled, on the one hand, to the pole 16, to which the voltage U _{C is} provided, and, on the other hand, to a connection 26 of the control and monitoring unit 17. The control and monitoring unit 17 now has the task when the voltage U _{C has reached} the predeterminable value V _CC , for example 3 V or 5 V, to switch the control element 14 to ground 21 so that current flows through the control element 14. For this purpose, the control and monitoring unit 17 is connected to ground 21 and comprises, for example, a switch, in particular a transistor, via which the control element 14 can be coupled to ground 21. The control and monitoring unit 17 thus serves to cause current pulses are output to the control element 14 to close the first switch 10. This can only take place when the capacitor 23 has charged or the voltage U _{C has reached} the predeterminable value V _CC .

The second electrical switch 11 is provided in the present example as a simple relay. The second switch 11 can be controlled by means of the control device 2 via a control element 27. The control element 27 can be provided here as a coil. If electrical current flows through the control element 27, then the second switch 11 is closed. This current flow can be effected by the control device 2.

The third electrical switch 12 is in the present example by means of the control device 2 simultaneously with locking a door of the household appliance closed. The third switch 12 remains closed until the door is mechanically unlocked after completion of a previously selected program of the household appliance. If a power failure occurs on the part of the supply network, then the control device 2 is supplied with electrical energy after the voltage has returned via the third switch 12. In this way, it is possible to end a previously selected and started program of the household appliance even after a power failure.

Hereinafter, the operation of the circuit arrangement 1 according to Fig. 1 explained in more detail. If the actuating element of the program selector 5 is rotated from the starting position, then an electrical connection between the movable contact element 8 and the conductor track 6 and thus between the capacitor power supply 15 and the terminal 9 is produced. The control and monitoring unit 17 now monitors the voltage applied to the capacitor 23 U _C. When the voltage U _{C reaches} the predeterminable value V _CC or the capacitor 23 charges up completely, the control and monitoring unit 17 establishes an electrical connection between the control element 14 of the first switch 10 and the ground 21. Now flows over the control element 14 current, and for the duration of a pulse, for example, for the period of about 3s. For this period of time, the first switch 10 is in the closed state, ie it is electrically conductive.

At the same time, the control device 2 is coupled via the first switch 10 to the terminal 9 of the circuit arrangement 1 and fed with electrical energy from the supply network. Now the control device 2 can switch the second electric switch 11 itself into the closed switching state; this by applying the control 27 with power. The control device 2 closes the second switch 11 during the time duration of the triggered to the first switch 10 pulse, d. H. during the three seconds, that is, when the first switch 10 remains closed. If the three seconds, ie the duration of the current pulse delivered to the control element 14, have expired, the first switch 10 opens. The second switch 11 remains closed for the duration of the previously selected program.

If the selected program of the household appliance is over, the control device 2 switches the second switch 11 into the open switching state. This happens at the time the program exits. In this way will ensures that the control device 2 no longer receives active current after completion of the program. There is thus a total of the energy consumption of the household appliance is reduced.

The circuit arrangement 1 is according to a second embodiment of the invention in Fig. 2 played. The circuit arrangement 1 according to the second example essentially corresponds to that according to the first example, so that only the differences are explained below.

In the second embodiment, the first switch 10 is provided as an OptoMOS relay. Thus, the first switch 10 on the primary side a light emitting diode (LED), which drives a secondary side arranged MOSFET transistor. Thus, a wear-free switch 10 is provided.

In the second embodiment, the control and monitoring unit 17 comprises a reset input 28, via which the control and monitoring unit 17, a reset signal 29 can be supplied, which causes the outputting of a current pulse to the first switch 10 and thus causes the same causes or effects. In the example, the pulse to the first switch 10 is triggered when the reset input 28 is coupled to ground 21, that is, a low signal is applied.

Now, there is a goal to ensure that even after completion of a program, that is, when the controller 2 is turned off, it can be put into operation again by simply turning the program selector 5. For this purpose, in the program selector 5, a second stationary and substantially annular strip conductor 30 is provided with a plurality of contact elements 31 spaced apart from one another in the circumferential direction. These contact elements 31 are electrically coupled to each other via the conductor 30 and are at ground potential 21. With the actuating element of the program selector 5 another movable contact element 32 is rotatably connected, which is decoupled or separated in the respective positions of the actuating element of the stationary contact elements 31. Only when rotating the actuating element, the movable contact element 32 first touches a stationary contact element 31, to then reach a further position of the actuating element of this stationary contact element 31 to solve. Thus, the reset input 28 of the control and monitoring unit 17 during rotation of the actuator briefly to ground 21, ie the reset signal 29 is evaluated with regard to the triggering of a pulse to the first switch 10. If it has been determined via the monitoring input 25 that the capacitor 23 is charged, a current pulse is output to the first switch 10 after rotating the actuating element by at least one position. The control device 2 can thus be put into operation even after completion of a program.

Although the power supply 15 includes the drive circuit 13, as in Fig. 2 is shown according to the second embodiment, in part other components than the power supply 15 according to Fig. 1 However, the operation of the power supply 15 remains the same in the second embodiment. So is in Fig. 2 For example, a capacitor between the conductor 6 and the diode 22 connected, which in Fig. 1 is connected between the terminal 9 and the program selector 5. It is also in Fig. 2 - unlike in Fig. 1 the first switch 10 is switched between the program selector 5 and the control device 2 while in Fig. 1 is connected directly between the terminal 9 and the control device 2. The trained as OptoMOS relay first switch 10 according to the second embodiment is thus completely decoupled from the mains voltage in the initial position of the program selector.

Referring to Fig. 3 now waveforms of signals are explained, as they occur at respective inputs 25, 26, 28 of the control and monitoring unit 17. In the upper part of Fig. 3 a curve 33 of the voltage applied to the capacitor 23 U _{C is} shown, as a function of the time applied to the x-axis time t. In the middle is in Fig. 3 a time course 34 of the output to the first switch 10, that is represented at the terminal 26 current pulses. Finally, poses Fig. 3 in its lower part a time course 35 of the reset signal 29, which occurs at the reset input 28.

If the actuating element of the program selector 5 is rotated from the starting position to a position deviating therefrom, the voltage U _C begins to increase at a time t ₀ . This is monitored by the control and monitoring unit 17. The voltage U _C applied to the capacitor 23 reaches the value V _CC at a time t ₁ , what is detected by the control and monitoring unit 17 accordingly. As long as the actuator of the program selector 5 is rotated, the reset input 28 is pulsed closed to ground 21, which can be seen from the course 35 until a time t ₂ . At about the time t ₂ , that is, when the voltage U _C applied to the capacitor 23 has reached the value V _CC , the control and monitoring unit 17 causes a current pulse 36 to be output to the first switch 10, so that it becomes electrically conductive. This current pulse 36 is output over a time interval t _w , after which the current pulse 36 goes out at a time t ₃ . After the time t _{3, it} is ensured that the control device 2 is supplied with electrical energy via the second switch 11. A time t ₄ sets in Fig. 3 the time at which a previously selected program of the household appliance is terminated. At this time t ₄ , the second switch 11 is thus switched to the open switching state, and the control device 2 is turned off.

However, it is possible to turn on the control device 2 by simply turning the actuating element of the program selector 5 again. If the actuating element of the program selector 5 is at a time t ₅ in a previously selected position and at a time t ₆ in an adjacent position (the actuating element is rotated by one position), the reset input 28 of the control and monitoring unit 17 is during the Time interval between t ₅ and t ₆ at ground 21. This is evaluated by the control and monitoring unit 17 to the effect that a further current pulse 36 is output to the first switch 10 at time t ₆ and the first switch 10 is closed.

With the invention, a circuit arrangement 1 is thus provided, with which on the one hand a reduction of power consumption after completion of a program allows and on the other hand given the opportunity to turn on by pressing the program selector 5, the control device 2 after the end of the program again. The described circuit arrangement 1 can be used without a bistable relay and without an additional power switch, as used in the prior art. Another advantage of the described circuit arrangement is the fact that the existing control panels do not need to be redesigned to ensure the functionality of the circuit arrangement 1.

Claims (15)

1. Circuit arrangement (1) for operating a domestic appliance, comprising:

   - a control device (2) for executing programs of the domestic appliance,

   - a terminal (9) by way of which the control device (2) can be supplied with electrical energy from a supply mains,

   - a first electrical switch (10) by way of which the control device (2) can be coupled with the terminal (9),

   - a control unit (5) connected with the terminal (9), wherein the first electrical switch (10) is switchable from an open switching state to a closed switching state, in which the first switch (10) is electrically conductive, depending on actuation of the control unit (5) and

   - a second electrical switch (11) which is separate from the first switch (10) and by way of which the control device (2) can be coupled with the terminal (9), wherein the control device (2) is constructed for the purpose of switching the second switch (11) from an open switching state to a closed switching state, in which the control device (2) is coupled with the terminal (9) by way of the second switch (11), as soon as the first switch (10) is switched to the closed switching state,

   characterised in that

   - the control unit (5) is constructed as a program selector for selection of a program of the domestic appliance, which comprises a stationary contact element (6) and a movable contact element (8), which is connected with an actuating element, which is actuable by operator, to be fixed with respect to movement and is electrically coupled with the stationary contact element (6) other than in an initial setting of the actuating element.
2. Circuit arrangement (1) according to claim 1, characterised in that the control device (2) is constructed to switch the second switch (11) to the open switching state after the end of a program of the domestic appliance.
3. Circuit arrangement (1) according to claim 1 or 2, characterised in that the second switch (11) is constructed as a relay.
4. Circuit arrangement (1) according to any one of the preceding claims, characterised by a mains supply unit (15), particularly a capacitor mains supply unit, which can be coupled with the terminal (9) by way of the control unit (5) and by means of which an electrical voltage (U_C) for activation of the first switch (10) can be provided.
5. Circuit arrangement (1) according to claim 4, characterised that a controlling and monitoring unit (17) is coupled with the mains supply unit (15) and the first switch (10), which is constructed for monitoring the electrical voltage (U_C) provided by the mains supply unit (15) and for activating the first switch (10) in dependence on the respective current value of the electrical voltage (U_C).
6. Circuit arrangement (1) according to claim 5, characterised in that the controlling and monitoring unit (17) is constructed to trigger an electrical pulse (36) at the first switch (10) if the electrical voltage (U_C) provided by the mains supply unit (15) reaches a predeterminable value (V_CC).
7. Circuit arrangement (1) according to claim 6, characterised in that the first switch (10) is switchable to the closed switching state for the time duration (t_w) of the electrical pulse (36).
8. Circuit arrangement (1) according to any one of claims 5 to 7, characterised in that the controlling and monitoring unit (17) has a reset input (28) by way of which a reset signal (29), which causes triggering of an electrical impulse (36), is transmissible to the controlling and monitoring unit (17), which signal can be produced by actuation of the control unit (5).
9. Circuit arrangement (1) according to any one of the preceding claims, characterised in that the first switch (10) is constructed as a semiconductor switch, particularly as an OptoMos relay, or as a relay.
10. Circuit arrangement (1) according to any one of the preceding claims, characterised in that a third electrical switch (12) is connected in parallel with the second switch (11), by way of which the control device (2) can be coupled with the terminal (9), wherein the control device (2) is constructed to switch the third switch (19) to the closed switching state when a door of the domestic appliance is mechanically locked.
11. Method of operating a control device (2) of a domestic appliance, by which programs of the domestic appliance are executed, wherein the control device (2) is supplied with electrical energy from a supply mains by way of a terminal (9) of the circuit arrangement (1) when a first electrical switch (10) is switched to a closed switching state, and wherein a second electrical switch (11), which is separate from the first switch (10) and by way of which the control device (2) is coupled with the terminal (2) is switched when required by means of the control device (2) to a closed switching state as soon as the first switch (10) is switched to the closed switching state, characterised in that

    - a control unit (5) connected with the terminal (9) is provided, wherein the first electrical switch (10) is switched in dependence on actuation of the control unit (5), and

    - the control unit (5) is constructed as a program selector for selection of a program of the domestic appliance, which comprises a stationary contact element (6) and a movable contact element (8) which is connected with an actuating element, which is actuable by an operator, to be fixed in terms of movement and on actuation is electrically coupled with the stationary contact element (6) apart from an initial setting of the actuating element.
12. Method according to claim 11, characterised in that a program of the domestic appliance is selected by means of the control unit (5).
13. Method according to claim 11 or 12, characterised in that the first switch (10) is acted on by an electrical pulse (36), which is triggered by a controlling and monitoring unit (17), after actuation of the control unit (5) and is switched to the closed switching state for the time duration (t_w) of the pulse (36), wherein during the time duration (t_w) of the pulse (36) the second switch (11) is switched by means of the control device (2) to the closed switching state for the time duration of a previously selected program of the domestic appliance.
14. Method according to any one of claims 11 to 13, characterised in that after the conclusion of a program of the domestic appliance the second switch (11) is switched by means of the control device (2) to the open switching state.
15. Domestic appliance with a circuit arrangement (1) according to any one of claims 1 to 10 for carrying out a method according to any one of claims 11 to 14.

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