WO2009121854A1 - Circuit arrangement for operating a domestic appliance and a corresponding method - Google Patents

Abstract

Circuit arrangement (1) for operating a domestic appliance, having at least one electrical load (2, 2a, ..., 2n) and a switching element (3, 3a, ..., 3n) which is connected in series to the at least one electrical load (2, 2a, ..., 2n) and which has an associated control element (6, 6a, ..., 6n), wherein the switching state of the switching element (3, 3a, ..., 3n) can be varied by an application of current to the control element (6, 6a, ..., 6n), this application of current being controlled by a control and/or regulation unit (14), and having a safety switch (12) which is at least indirectly coupled to the control element (6, 6a, ..., 6n) and can be switched between an open switching state, in which the application of current to the control element (6, 6a, ..., 6n) is prevented, and a closed switching state, in which the current can be applied to the control element (6, 6a, ..., 6n), wherein the safety switch (12) has an associated state detection device (20), which is coupled to the control and/or regulation unit (14), for detecting the switching state of the safety switch (12), wherein the state detection device (20) comprises at least two separate state detection units (20a, 20b, 20c) which are designed to detect, independently of one another, the switching state of the safety switch (12). Moreover, the invention relates to a corresponding method.

Description

 Circuit arrangement for operating a domestic appliance and corresponding method

The present invention relates to a circuit arrangement for operating a domestic appliance, comprising at least one electrical load and a switching element connected in series with the at least one electrical load, to which a control element is assigned, wherein the control element is energized by a control and / or regulating unit the switching element is changeable in its switching state, and with a safety switch, which is at least indirectly coupled to the control and between an open switching state in which the current application of the control is prevented, and a closed switching state in which the control element can be acted upon by current switchable is, wherein the safety switch is associated with the control and / or regulating unit coupled state detection device for detecting the switching state of the safety switch. The present invention also relates to a corresponding method for operating a domestic appliance with the aid of a circuit arrangement.

Such circuit arrangements are already known from the prior art. The known, derived from the Applicant circuit arrangements for operating domestic appliances generally comprise at least one electrical load, which is connected in series with a switching element, such as a relay. The switching element is assigned a control, wherein a current applied to the control causes a change in the switching state of the switching element. For this purpose, the known circuit arrangements moreover each comprise a control and / or regulating unit which is designed to effect the energization of the control element. In addition, a safety switch is provided in the circuit arrangements, which is coupled to the control, in particular connected in series, and which is switchable between an open switching state and a closed switching state. This is, for example, a door switch, which can be changed by closing or opening a door of the domestic appliance in its switching state. Because the safety switch is coupled to the control, the control can be energized only in the closed switching state of the safety switch. If, on the other hand, the safety switch is in its open state, it is impossible to energize the control element. In addition, it is known that the current switching state of the safety switch can be detected. For this purpose, the circuit arrangements comprise a state detection device, which is designed to detect the switching state of the safety switch. Thus, for example, an "adhesive switch" can be detected.

It is an object of the present invention to provide a circuit arrangement and a method for operating a domestic appliance, in which and in which the switching state can be better recognized and the malfunctions can be diagnosed.

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

A circuit arrangement according to the invention is designed for operating a domestic appliance. It comprises at least one electrical load and a switching element connected in series with the at least one electrical load, to which a control element is assigned. In this case, the switching element in its switching state by a controlled by a control and / or control unit current application of the control is changeable. The circuit arrangement further comprises a safety switch which is at least indirectly coupled to the control element and between an open switching state, in which the current application of the control is prevented, and a closed switching state, in which the control element is energized, switchable, wherein the safety switch a is associated with the control and or control unit coupled state detection device for detecting the switching state of the safety switch. A basic idea of the invention is that the state detection device at least two separate

Condition detection units comprises, which are designed for detecting the switching state of the safety switch independently of each other. In other words, an idea of the invention consists in a redundant interrogation of the switching state of the safety switch by using at least two state detection units. Advantageously, it is achieved by the circuit arrangement according to the invention that the switching state of the safety switch can be reliably and reliably detected and fault functions can be detected. Moreover, this ensures that individual faulty state detection units can be detected by simple signal processing or by simple evaluation of signals from the at least two separate state detection units. Safe operation of the household appliance is thus ensured.

The term "household appliance" is understood to mean, in particular, a domestic appliance for the care of items of laundry, in particular a washing machine, a dryer or a washer-dryer, but the term also includes other household appliances.

In a preferred manner, the safety switch is designed as a door switch of a door of the household appliance. If the door of the domestic appliance is closed, then the safety switch is switched in particular into its closed switching state. If, on the other hand, the door of the household appliance remains open, then the safety switch is preferably in its open switching state, so that it is achieved that the energizing of the control element and thus switching on of the electrical consumer is rendered impossible. This ensures that the at least one electrical load can not be switched on when the household appliance has an open door. Thus, a safe operation of the household appliance is achieved.

In one embodiment, it is provided that a first state detection unit comprises a state detection pole formed on a power line coupling the safety switch to the control element, which is coupled via a first state detection line to a first state detection input of the control and regulation unit. In particular, the state detection pole can be coupled to a reference potential via the safety switch in its closed state, so that a signal at the first state detection input of the control circuit can be coupled to a reference potential. and / or control unit applied reference potential can be directly attributed to the closed switching state of the safety switch.

Preferably, the first state detection line is coupled to a DC voltage source. In particular, it can be provided that the first state detection line is coupled to the DC voltage source via a first resistor. If the safety switch is in its open switching state, then a DC voltage originating from the DC voltage source is present at the first state detection input of the control and / or regulating unit, so that it can be recognized directly from the evaluation of this voltage that the safety switch is in its open switching state located. If the safety switch is closed, the first state detection input of the control and / or regulating unit is short-circuited in particular to the reference potential, so that there is no voltage at the first state detection input. This in turn can be attributed directly to the closed switching state of the safety switch.

In a preferred embodiment, it is provided that a second state detection unit comprises a contact element coupled to a second state detection input of the control and / or regulating unit via a second state detection line, which can be coupled via the safety switch in the open switching state to an electrical potential, in particular to the reference potential is. Preferably, the second state detection line is coupled to a DC voltage source. If the safety switch is in its closed state, a DC voltage originating from the DC voltage source is present at the second state-detection input of the control and / or regulating unit. When the safety switch is opened, the second state detection input is coupled via the contact element and the safety switch to the reference potential, so that this is directly attributed to the change in the switching state of the safety switch. This ensures a reliable detection of the switching state of the safety switch.

It has proven to be advantageous that a third state detection unit comprises a state detection switch mechanically coupled to the safety switch, by means of which a state detection input of the control and / or Control unit via a state detection line with a reference potential can be coupled. The state detection line is preferably coupled to a DC voltage source. In particular, the state detection switch and the mechanical coupling are designed such that switching the safety switch into its closed switching state causes the state detection switch to also switch to its closed switching state. Opening the safety switch preferably causes an opening of the state detection switch. For this purpose, the state detection switch is formed concurrently with the safety switch. If the state detection switch is in its closed switching state, the state detection input of the control and / or regulating unit is connected to the reference potential, so that this can be correspondingly returned to the closed switching state of the safety switch. If, on the other hand, the state detection switch is open, a DC voltage originating from the DC voltage source is present at the state detection input of the control and / or regulating unit. This points directly to the open switching state of the safety switch.

In particular, the control and / or regulating unit is designed for logically combining the signals originating from the at least two state detection units. If the circuit arrangement comprises the first and the second state detection unit, an identical signal level of the two signals, for example a logical "0" or a logical "1", corresponds to an invalid combination. In particular, a safe state of the household appliance is taken in this case.

In one embodiment, it is provided that the control element is assigned a first electronic switching unit arranged between the control element and the safety switch, and a control connection of the first electronic switching unit is coupled to a control output of the control and / or regulating unit. If the closed switching state of the safety switch is detected, then the control and / or regulating unit can control the first electronic switching unit and thus cause the control element to be energized and the at least one electrical load to be switched on. If a malfunction or a faulty state of the safety switch is detected, the first electronic switching unit is preferably not actuated by the control and / or regulating unit, so that in this case the Switching on the electrical load is prevented for safety reasons. In particular, the first electronic switching unit may be designed as a transistor and for operation with direct current. Alternatively, the first switching unit may be formed as a triac and for operation with alternating current. If the circuit arrangement comprises a plurality of electrical consumers, which are each connected in series with a contact element, wherein the respective one contact element is assigned a control element coupled to the safety switch, each of the control elements is preferably assigned a separate electronic switching unit. Each separate electronic switching unit can then be controlled by means of the control and / or regulating unit, so that a separate control of a single electrical load is made possible.

The control element is preferably coupled to a voltage source via a second electronic switching unit. In this case, the second electronic switching unit can be designed as a transistor and the voltage source as a DC voltage source. In an alternative embodiment, the second electronic switching unit may be designed as a triac and the voltage source as an alternating voltage source. If a plurality of electrical consumers and thus a plurality of control elements which are connected in parallel to one another are present in the circuit arrangement, all the control elements are preferably coupled to the voltage source via the common second electronic switching unit. This ensures that in the event of detection of a malfunction of the safety switch driving all controls on the part of the control and / or regulating unit can be made impossible.

If the circuit arrangement comprises a plurality of electrical consumers, it can preferably be provided that an additional switch is assigned to all electrical consumers. The common additional switch may preferably be associated with an additional control, which is in particular coupled to the safety switch.

A method according to the invention is designed for operating a domestic appliance with the aid of a circuit arrangement. In this case, the circuit arrangement comprises at least one electrical load and one with the at least one electrical Consumer switched in series switching element, which is changed in its switching state by means of a control by a controlled by a control and / or regulating unit current application of the control. In the method, a safety switch at least indirectly coupled to the control between an open switching state, in which the current application of the control is prevented, and a closed switching state, in which the control is acted upon by power demand, switched. In the method, the switching state of the safety switch is detected by means of a state detection device. A basic idea of the method is that the switching state of the safety switch is detected by means of at least two separate state detection units as needed and independently of each other.

Advantageous embodiments of the circuit arrangement according to the invention are to be regarded as advantageous embodiments of the method according to the invention.

Further advantages, features and details of the invention will become apparent from the following description of individual preferred embodiments and with reference to the drawings. Showing:

1 shows a circuit arrangement for operating a domestic appliance according to a first embodiment;

FIG. 2 shows a circuit arrangement for operating a household appliance according to a second embodiment; FIG.

3 shows a circuit arrangement for operating a household appliance according to a third embodiment.

The embodiments described in more detail below represent preferred embodiments of the present invention. The invention is not limited to the exemplary embodiments illustrated in the drawings. All features described below and illustrated in the drawings can be combined with each other in a variety of ways. A circuit arrangement 1 shown in Fig. 1 according to a first embodiment is designed for operating a domestic appliance. The circuit arrangement 1 comprises a plurality of electrical consumers 2, 2a,..., 2n, which are in each case connected in series with a switching element 3, 3a. The electrical consumers 2, 2a 2n have a common pole 4, via which the electrical consumers 2, 2a 2n with a first terminal of the

Circuit arrangement 1 are coupled. The switching elements 3, 3a 3n accordingly have a common pole 5, via which the switching elements 3, 3a

3n are coupled to a second terminal of the circuit arrangement 1. Via the first and the second connection, the circuit arrangement 1 can be connected to a supply network, in particular with a mains voltage of 230 V.

In the present example, each of the switching elements 3, 3a 3n each have a control 6, 6a associated with 6n, wherein by an energization of the respective control element 6, 6a 6n the associated switching element 3, 3a 3n in its switching state is changeable. Furthermore, each of the control elements 6, 6a 6n is connected in series with a first electronic switching unit 7, 7a 7n, which in the present example is designed as a transistor. The control elements 6, 6a 6n have a common pole 8, via which the control elements 6, 6a,

..., 6n are coupled via a second electronic switching unit 9 to a voltage source 10, in the present example a DC voltage source. In the present case, the second switching unit 9 is designed as a transistor. The first electronic switching units, 7, 7a 7n have a common pole 1 1, via which the first electronic switching units 7, 7a 7n via a power line 1 1a with a

Safety switch 12, which is formed in the present example as a door switch a door of the household appliance, are coupled. The safety switch 12 is switchable between an open switching state and a closed switching state shown in Fig. 1. Furthermore, the safety switch 12 is connected to a reference potential 13. If the safety switch 12 is in its closed switching state, then the pole 11 that is common to the first electronic switching units 7, 7a is located at the

Reference potential 13. The circuit arrangement 1 comprises a control and / or regulating unit 14, which in the present case is coupled to a voltage source 15 and supplied by it. The control and / or regulating unit 14 is also connected to the reference potential 13. The control and / or regulating unit has a first control output 16, which is connected to a control terminal 17 of the second electronic switching unit 9, so that the second electronic switching unit 9 can be controlled by the control and / or regulating unit 14.

The control and / or regulating unit 14 also has a plurality of control outputs

18, 18a 18n, which are each connected to an associated control terminal 19, 19a 19n of the first electronic switching units 7, 7a 7n. Thus, the control and / or regulating unit 14 is a control of the first electronic

Switching units 7, 7a 7n and thereby cause a current application of the corresponding controls 6, 6a 6n.

The circuit arrangement 1 furthermore has a state detection device 20, which is designed to detect the current switching state of the safety switch 12 and possibly to detect fault states of the safety switch 12. The state detection device 20 in the present example comprises two separate state detection units 20a, 20b, by means of which the switching state of the safety switch 12 can be detected independently. In the present case, a first state detection unit 20a comprises a state detection pole 21 formed on the power line 1a and coupled to a first state detection input 23 of the control and / or regulating unit 14 via a first state detection line 22. The first state detection line 22 is coupled via a first ohmic resistor 24 to a DC voltage source VCC. If the safety switch 12 is in its open switching state, a DC voltage originating from the DC voltage source VCC is applied to the first state detection input 23 of the control and / or regulating unit 14 via the first ohmic resistor 24. This DC voltage points directly to the open switching state of the safety switch 12. On the other hand, if the safety switch 12 is in its closed switching state, then the first state detection input 23 of the control and / or regulating unit 14 is located on the Reference potential 13, which is directly due to the closed switching state of the safety switch 12.

A second state detection unit 20b in the present example comprises a contact element 25, which is coupled via a second state detection line 26 to a second state detection input 27 of the control and / or regulating unit 14. The contact element 25 can be coupled via the safety switch 12 in the open switching state of the safety switch 12 to the reference potential 13, so that in the open switching state of the safety switch 12, the second state detection input 27 of the control and / or regulating unit 14 is coupled to the reference potential 13. The second state detection line 26 is in this case coupled via a second ohmic resistor 28 to the DC voltage source VCC. If the safety switch 12 is in its closed switching state, a DC voltage originating from the DC voltage source VCC is applied to the second state-detection input 27 of the control and / or regulating unit 14. This can be attributed directly to the closed switching state of the safety switch 12. If, on the other hand, the safety switch 12 is in its open switching state, there is no voltage at the second state-detection input 27 of the control and / or regulating unit 14 due to the connection to the reference potential 13.

In the present example, the control and / or regulating unit 14 is designed for logically combining the signals originating from the first and second state detection units 20a, 20b. In the present case, the DC voltage originating from the DC voltage source VCC is assigned a logic "1" and the reference potential a logical "0". If the two signals have the same signal levels, for example both a logical "0" or both a logical "1", this corresponds to an invalid combination, which directly indicates a malfunction of the safety switch 12 and / or one of the state detection units 20a, 20b. In this case, the control and / or regulating unit 14 assumes a safe state, in which the control of the control element 6, 6a 6n is prevented. Is at the first

State detection input 23, the DC voltage, ie a logic "1" and the second state detection input 27, the reference potential 13, ie a logic "0", so this corresponds to the open switching state of the safety switch 12. Lies on the other hand, at the first state detection input 23 a logical "0" and at the second state detection unit a logical "1", so this combination is due to the closed switching state of the safety switch 12.

A circuit arrangement 1 for operating a household appliance according to a second embodiment is shown in FIG. The circuit arrangement 1 according to the second embodiment essentially corresponds to the circuit arrangement 1 according to the first exemplary embodiment, so that in the present case the differences between them are discussed. Instead of the second state detection unit 20b, the state detection device 20 now includes a third state detection unit 20c. In the present example, the third state detection unit 20c comprises a state detection switch 29 mechanically coupled to the safety switch 12, via which the second state detection input 27 of the control and / or regulating unit 14 can be coupled to the reference potential 13 as a function of the switching state of the safety switch. The state detection switch 29 and the mechanical coupling are presently designed such that switching the safety switch 12 to the open switching state directly effects switching of the state detection switch 29 to its open switching state. Accordingly, the switching of the safety switch 12 in the closed switching state causes a switching of the state detection switch 29 in its closed switching state.

If the safety switch 12 and thus the state detection switch 29 are in their closed switching state, then the second state detection input 27 is coupled to the reference potential 13 via the second state detection line 26. If, on the other hand, the safety switch 12 and thus the state detection switch 29 are open, a DC voltage originating from the DC voltage source VCC is applied to the second state detection input 27 of the control and / or regulating unit 14. Here, too, an evaluation of the signals originating from the first and third state detection units 20a, 20c and applied to the first and second state detection inputs 23, 27 takes place. In contrast to the first embodiment, the same signal levels at the state detect inputs 23, 27 correspond to a valid combination. If a logical "0", ie the reference potential 13, is present at the first and at the second state detection input 23, 27, this can be based on the closed state of the Safety switch 12 are returned. If, on the other hand, a logical "1", ie a DC voltage, is applied to the first and second state detection inputs 23, 27, this corresponds to the open switching state of the safety switch 12. If different signal levels are present at the first and second state detection inputs 23, 27, for example the first state detection input 23 a logic "0" and at the second state detection input 27 a logical "1", it corresponds to an invalid combination, so that in this case the control and / or regulating unit 14 assumes a safe state a control of the controls 6, 6a 6n impossible.

A circuit arrangement 1 for operating a household appliance according to a third embodiment is shown in FIG. The circuit arrangement 1 according to the third embodiment substantially corresponds to the circuit arrangement 1 according to the first exemplary embodiment, so that in the present case the differences between them are explained in greater detail. In the third exemplary embodiment, the pole 4 that is common to the electrical loads 2, 2a 2n is coupled to the first terminal of the circuit arrangement 1 via an additional switch 30. The additional switch 30 may be formed, for example, as a relay. In the present example, the additional switch 30 is assigned an additional control element 31 which, together with an additional switching unit 32 connected in series with the additional control element 31, is connected in parallel with the control elements 6, 6a and the corresponding first switching units 7, 7a. A control terminal 32 a of the additional switching unit 32 is coupled to an additional control output 33 of the control and / or regulating unit 14, so that it is achieved that the additional control element 31 is actuated by the control and / or regulating unit 14 via the additional switching unit 32 Thus, the additional switch 30 can be changed in its switching state. The additional switch 30 advantageously enables a decoupling of all electrical consumers 2, 2a 2n from the first terminal of the circuit arrangement 1 and thus from a supply network. Thus, the safety of the circuit arrangement 1 and the domestic appliance is increased. If, for example, an invalid combination of the signals present at the first and the second state detection input 23, 27 is detected, then the additional switch 30 can be brought into its open switching state and thus a secure state of the circuit arrangement 1 can be achieved.

Claims

claims

1. Circuit arrangement (1) for operating a household appliance, with at least one electrical load (2, 2a 2n) and one with the at least one electrical load (2, 2a 2n) connected in series switching element (3, 3a 3n), which a control (6, 6a 6n) is assigned, wherein the

Switching element (3, 3a 3n) in its switching state by a current from a control and / or regulating unit (14) controlled current of the control element (6,

6a 6n) is variable, and with a safety switch (12), which with the

Control element (6, 6a 6n) at least indirectly coupled and between an open switching state, in which the current application of the control

(6, 6a 6n) is prevented, and a closed switching state, in which the control element (6, 6a 6n) can be acted upon by electricity, is switchable, wherein the safety switch (12) with the control and / or regulating unit (14) coupled state detecting means (20) for detecting the switching state of the safety switch (12) is associated, characterized in that the

Condition detection means (20) comprises at least two separate state detection units (20a, 20b, 20c), which are designed for detecting the switching state of the safety switch (12) independently of each other.

2. Circuit arrangement (1) according to claim 1, characterized in that the safety switch (12) is designed as a door switch a door of the household appliance.

3. Circuit arrangement (1) according to claim 1 or 2, characterized in that a first state detection unit (20a) at one of the safety switch

(12) comprising the control line (6, 6a 6n) coupling power line (11 a) formed state detection pole (21), which via a first state detection line (22) with a first state detection input (23) of the control and / or regulating unit (14) is coupled.

4. Circuit arrangement (1) according to claim 3, characterized in that the first state detection line (22) is coupled to a DC voltage source (VCC).

5. Circuit arrangement (1) according to one of the preceding claims, characterized in that a second state detection unit (20b) via a second state detection line (26) with a second state detection input (27) of the control and / or regulating unit (14) coupled contact element ( 25) which can be coupled via the safety switch (12) in the open switching state of the safety switch (12) to an electrical potential, in particular to a reference potential.

6. Circuit arrangement (1) according to claim 5, characterized in that the second state detection line (26) is coupled to a DC voltage source (VCC).

7. Circuit arrangement (1) according to one of the preceding claims, characterized in that a third state detection unit (20c) with the safety switch (12) mechanically coupled state detection switch (29) by means of which a state detection input (27) of the control and / or Control unit (14) via a state detection line (26) with a

Reference potential (13) can be coupled.

8. Circuit arrangement (1) according to claim 7, characterized in that the state detection line (26) is coupled to a DC voltage source (VCC).

9. Circuit arrangement (1) according to claim 7 or 8, characterized in that the state detection switch (29) is formed concurrently with the safety switch (12).

10. Circuit arrangement (1) according to one of the preceding claims, characterized in that the control element (6, 6a 6n) one between the

Control (6, 6a 6n) and the safety switch (12) arranged first electronic switching unit (7, 7a 7n) is assigned, and a control terminal

(19, 19a 19n) of the first electronic switching unit (7, 7a 7n) with a

Control output (18, 18a 18n) of the control and / or regulating unit (14) is coupled.

1 1. Circuit arrangement (1) according to one of the preceding claims, characterized in that the circuit arrangement (1) has a plurality of electrical

Consumers (2, 2a 2n), which a corresponding plurality of

Associated with controls (6, 6a 6n).

12. Circuit arrangement (1) according to claim 1 1, characterized in that the

Control elements (6, 6a 6n) via a common second electronic

Switching unit (9) are coupled to a voltage source.

13. Circuit arrangement (1) according to claim 1 1 or 12, characterized in that the electrical consumers (2, 2a 2n) via a common additional

Switch (30) are coupled to a terminal of the circuit arrangement (1).

14. Circuit arrangement (1) according to claim 13, characterized in that the additional switch (30) is associated with an additional control element (31) which is coupled to the safety switch (12).

15. A method for operating a domestic appliance with a circuit arrangement (1) which comprises at least one electrical load (2, 2a 2n) and one with the at least one electrical load (2, 2a 2n) connected in series switching element (3, 3a 3n) which in its switching state by means of a

Control (6, 6a 6n) by one of a control and / or regulating unit

(14) controlled current application of the control element (6, 6a 6n) is changed, wherein a at least indirectly coupled to the control element (6, 6a 6n) safety switch (12) between an open switching state in which the current application of the control element (6, 6a 6n ) is prevented, and a closed switching state in which the control element (6,

6a 6n) is subjected to demand-dependent current, is switched, and the

Switching state of the safety switch (12) by means of a State detection device (20) is detected, characterized in that the switching state of the safety switch (12) by means of at least two separate state detection units (20a, 20b, 20c) of the state detection device (20) is detected independently.