ES2404337A1 - Circuit arrangement for a household appliance, household appliance, and procedure for operating a circuit arrangement in a household appliance (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

The invention relates to a circuit arrangement (1) for operating a household appliance. This comprises a circuit input (2) for applying an alternating electric voltage supply (un), as well as an electrical consumer (4) which is coupled to the circuit input (2) through a switch (6). A protective element (5), coupled with the switch (6), is configured for the protection of the circuit arrangement (1) against an electrical connection current (I), which flows when the switch (6) closes. Pick-up means (12) are provided, which capture a temperature (t) of the protective element (5). A control unit (13), coupled with the circuit input (2), closes the electrical switch (6) considering the temperature (t). The invention also relates to a household appliance, as well as to a method for operating a circuit arrangement (1) in a household appliance. (Machine-translation by Google Translate, not legally binding)

Description

Circuit layout for a household appliance, household appliance, and procedure for operating a circuit arrangement in a household appliance.

The invention relates to a circuit arrangement for operating a domestic appliance, which has a circuit input in which an alternating power supply voltage (for example, the mains voltage) can be applied, that is, between terminals input circuit input. The circuit arrangement also comprises an electrical consumer, which can be coupled to the circuit input through an electrical switch. A protective element, coupled with the electrical switch, is configured for the protection of the circuit arrangement against an electrical connection current, which flows when the electrical switch is closed. The invention also relates to a domestic appliance with such a circuit arrangement, as well as to a method for operating a circuit arrangement in a domestic appliance.

A connection current is the electric current that flows directly after the electrical consumer is connected, thus, after the electrical switch is closed. This connection current flows over time until the capacitors present in the current circuit are charged, for example, the intermediate circuit capacitor. The connection current has a higher current intensity than the nominal current. For this reason, the circuit arrangement must be protected against thermal overload; for this purpose, protective elements are used in the state of the art, which limit the current intensity of the connection current. As an example, a series ohmic resistor can be used with respect to the electrical switch, or with respect to the electrical consumer. However, although a resistor fulfills its task of limiting the connection current and, therefore, of protecting the circuit arrangement, the use of an ohmic resistor is also linked to a significant disadvantage: the resistor is in the circuit current of the electric consumer also in the operation of the domestic appliance and, due to a decrease in the voltage in the resistor, losses of electrical power occur.

Therefore, elements (thermistors) NTC (negative temperature coefficient) are also used in the state of the art to protect the circuit arrangement against thermal overload. Such thermistors possess precisely the relative property that the value of their resistance decreases with rising temperature. When the electric consumer is connected (when the thermistor is still cold), the thermistor has a relatively high resistance value, so that the current of the connection current is also limited, and the circuit arrangement is protected against the connection current In the course of operation, the temperature of the thermistor is then increased, and the value of its resistance is decreasing. Then, there are no major losses.

A disadvantage of the NTC element is that, directly after disconnecting the electric consumer,

that is, after opening the switch, it is hot, and therefore the value of its resistance is low. If, now, the consumer is put back into operation immediately, then the protective element no longer fulfills its function, and the circuit arrangement is not protected from the connection current.

It is the task of the invention to show a solution about how the circuit arrangement of the type mentioned in the introduction can be protected from the connection current in a particularly safe manner.

This task is solved, according to the invention, by a circuit arrangement with the characteristics according to claim 1, by a domestic appliance with the characteristics according to claim 6, as well as by a procedure with the characteristics according to claim 8. Object of the Dependent claims, description and figures are advantageous embodiments of the invention.

A circuit arrangement according to the invention is configured to operate a domestic appliance, and comprises a circuit input in which an alternating electrical supply voltage can be applied (for example, the mains voltage of a current network). An electrical consumer can be coupled to the circuit input through an electrical switch. A protective element is also provided, which protects the circuit arrangement against an electrical connection current, which flows when the electrical switch is closed. The circuit arrangement also contains collection means to capture a temperature of the protective element, as well as a control unit, coupled with the circuit input, which is configured to, considering the temperature, close the electrical switch.

Therefore, the effect according to the invention is achieved through the temperature of the protective element (especially of an NTC element) being captured, at least indirectly, and taken into account in the decision about whether it can be closed. or not the electric switch. In this way, it is possible to protect the circuit arrangement of the connection current in a particularly safe manner and, consequently, from thermal overload. The control unit can close the electrical switch, by way of example, only on condition that the temperature of the protective element is below a predetermined limit value and, therefore, the resistance value of the protective element is correspondingly high . Therefore, the circuit arrangement can be protected without much cost.

The invention is based on various knowledge. First, the invention is based on the knowledge that, in the state of the art, the circuit arrangement, also with an NTC element, cannot be optimally protected. It is also based on the knowledge that, in the state of the art, reliable protection is not possible since, directly after opening the electric switch, the NTC element is still relatively hot and therefore has a value of low resistance Finally, the invention is based on the knowledge that this inconvenience of the state of the art can be avoided by capturing the temperature of the protective element, and closing the electrical switch depending on the temperature collected.

With regard to the temperature capture of the protective element, in principle, two different embodiments are provided. On the one hand, the collection means may be arranged at a distance from the protective element; The collection means are then configured to indirectly capture the temperature of the protective element. In this case, the actual temperature of the protective element can be estimated by the control unit, or the control unit can close the electrical switch, considering the temperature indirectly captured, thus, a temperature around the protective element. This indirect temperature pick-up has the advantage that the pick-up means must not be installed directly next to the protective element and, therefore, the existing circuit arrangements should not be modified at great cost. The temperature of the protective element can be captured here, also if no constructive space is available in its direct vicinity. On the other hand, it can also be provided that the collection means directly capture the temperature of the protective element. In this embodiment, the collection means are preferably arranged in direct contact with the protective element. This embodiment has, in turn, the relative advantage that the temperature of the protective element can be captured with the greatest precision. Generally speaking, therefore, a temperature relevant to the resistance value of the protective element is captured, and is taken into account when the switch is closed.

Preferably, the protective element is a thermistor, thus, an NTC element. Then, the advantages of the invention are completely effective, since the resistance value of the thermistor depends directly on its temperature.

In principle, it is possible to use the existing NTC protective element as a temperature sensor. However, this is shown to be especially advantageous if the collection means comprise a temperature sensor separated from the protective element, that is, in particular, an NTC temperature sensor. In this way, the temperature of the protective element can be captured without much cost, and with the greatest accuracy, without having to transform the structure of the circuit arrangement.

The control unit can close the electrical switch, by way of example, only if the temperature of the protective element is below a predetermined limit value. Then, it is also ensured that the resistance value of the protective element is correspondingly high, and that the circuit arrangement is reliably protected from the connection current. The mentioned limit value can be found, for example, in a range of values between 50 ° C and 75 ° C; by way of example, it may be 65 ° C. Considering another different protective element and another processing circuit, the optimum operating range may vary.

For example, a mechanical switch, especially a relay, can be used, through which the electrical consumer is coupled to the circuit input of the circuit arrangement. Then, leakage currents do not flow through the open switch, and the electrical losses of the open circuit circuit arrangement can therefore be reduced to a minimum.

Furthermore, according to the invention, a domestic apparatus comprising a circuit arrangement according to the invention is made available.

By "domestic appliance", it is understood herein, in particular, a domestic appliance that is used for performing household chores. The household appliance may be an apparatus for preparing food (for example, a cooking oven and / or a cooking field), or a household appliance for the care of garments, such as, for example, a machine washing machine, a clothes dryer, or a washer-dryer.

In case of use in a household appliance for the preparation of food (cooking apparatus), the circuit arrangement according to the invention is particularly advantageous. In such a domestic appliance (cooking oven and / or cooking field), temperatures usually occur precisely higher than in other domestic appliances. Accordingly, the situation may also occur that the protective element is heated in an undesired manner, without the electrical consumer running. Here, the circuit arrangement creates a remedy, taking into account the temperature of the protective element when the electrical switch is closed.

The domestic appliance can be connected in one direction and another between a standby mode and an operating mode (active mode). This can be manifested, by way of example, in such a way that, when the electric switch is closed, the domestic appliance is switched from standby mode to operating mode. In the standby mode, the control unit, in particular, exclusively the control unit, can be electrically connected to the circuit input, and to capture the alternating supply voltage there. From this alternating supply voltage, the control unit (this can contain, for example, a power source) can generate a continuous voltage, with which the electrical switch can then be closed. With this continuous voltage, the collection means can also be fed in the standby mode.

A method according to the invention is configured to drive a circuit arrangement in a domestic appliance. In an circuit input of the circuit arrangement, an alternating electrical supply voltage is applied, and an electrical consumer is coupled to the circuit input through an electrical switch. A protective element, coupled with the electrical switch, protects the circuit arrangement against an electrical connection current, which flows when the electrical switch is closed. Through a collection means, a temperature of the protective element is captured and, considering the temperature, the electric switch is closed by means of a control unit coupled with the circuit input.

Preferred embodiments, presented in relation to the circuit arrangement according to the invention, and their advantages are correspondingly applicable to the household appliance according to the invention, as well as to the process according to the invention.

Other features of the invention are drawn from the claims, the figures and the description of the figures. All the features and combinations of features mentioned above in the description, as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures are usable not only in the combination indicated in each case, but also in other combinations or, otherwise, individually.

In the following, the invention is explained in greater detail by means of particular preferred embodiments, as well as referring to the accompanying drawings.

They show:

Fig. 1 a block diagram of a circuit arrangement according to an embodiment of the invention; Y

Fig. 2 temporal evolutions of the current intensity of a connection current depending on the temperature of a protective element.

A circuit arrangement 1 shown in Figure 1 serves to operate a household appliance, for example, a food preparation apparatus, such as, for example, a cooking oven and / or a cooking field. The electrical circuit arrangement 1 comprises a circuit input 2, in which an alternating supply voltage UN is provided (that is, the network voltage), if the circuit arrangement 1 is electrically coupled with a public current network . A processing circuit 3 is connected to circuit input 2, which can transform the alternating supply voltage UN into an operating voltage UB, with which an electric consumer is supplied 4. The operating voltage UB can be, in application function, a continuous voltage or, if not, an alternating voltage, whose amplitude is adapted to the electric consumer

Four.

The processing circuit 3 is a series connection of a protective element 5, an electrical switch 6, a bridge rectifier 7, where appropriate, with a filtering capacitor (hold-up), and a power source 8 (for example, switching power source). The protective element 5 is an NTC protective element, whose resistance value depends on the temperature. On the one hand, the protective element 5 is directly connected to the circuit input 2; on the other hand, it is attachable through the switch 6 with the bridge rectifier 7 and the power source 8. In the exemplary embodiment, the switch 6 is a mechanical switch, especially a relay.

The protective element 5 has the task of protecting the circuit arrangement 1 and, more accurately, the processing circuit 3 and the electrical consumer 4, against a connection current I. This connection current I is the electrical current that It flows through the processing circuit 3 when the switch 6 is closed. The connection current I has a relatively high current intensity, and it is necessary to reduce it and, in fact, by the protective element 5.

There are several protective elements on the market whose impedance varies depending on the temperature. Taking as an example one of them we can characterize the connection current experienced by a certain circuit arrangement, since in turn, said current will depend on the processing circuit 3 used. This is due to the fact that said temporal evolutions will depend on the impedance presented by the equivalent electrical circuit, which, given its main characteristics, is modeled using a serial RLC.

Figure 2 shows evolutions of the current of the connection current I as a function of time t, and depending on the current temperature of the protective element 5. If the processing circuit 3 is modified, the electrical equivalent can vary and modify the curves presented by altering the slope very positive or negatively. An evolution 9 of the current of the connection current I for a temperature of the protective element 5 of 25 ° C, an evolution 10 of the current for a temperature of 85 ° C, as well as an evolution 11 for a temperature are represented of protective element 5 of 105º

C. At a temperature of 25º C (evolution 9), the protective element 5 has a resistance value of 33 Ω; to

temperature of 85º C (evolution 10), the ohmic resistance of the protective element 5 amounts to approximately 6

Ω and, finally, the protective element 5 has a resistance value of 3'6 Ω at the temperature of 105 ° C (evolution 11).

The evolutions 9, 10, 11 shown in Figure 2 represent the development of the current of the connection current I after closing the switch 6 with zero crossing of the alternating supply voltage UN. The moment 0 msec. this coincides with the zero crossing of the alternating supply voltage UN, or switch 6 is closed at the moment 0 msec.

As extracted from Figure 2, the current of the connection current I is maximum after approximately 5 msec. (since a network frequency of 50Hz has been considered), and, in addition, is dependent on the temperature of the protective element 5. Precisely, the condition is applicable that the higher the temperature of the protective element 5, the lower the resistance value. To protect the circuit arrangement 1 against thermal overload, collection means 12 (see Figure 1) are used, which capture a temperature T that influences the resistance value of the protective element 5.

The collection means 12 may comprise, for example, an NTC temperature sensor, which measures the temperature T. The collection means 12 generally measures a temperature T relevant to the operation, or, for the value of the resistance of the protective element 5. This measurement can be performed directly or indirectly. The collection means 12 can therefore be arranged directly next to the protective element 5, and measure its temperature; alternatively, the collection means 12 may be arranged at a distance with respect to the protective element 5, and capture the temperature of the environment of the protective element 5. In both cases, this temperature T is a measure for the resistance value of the protective element 5.

Referring still to Figure 1, a control unit 13 is also connected directly to the circuit input 2, which captures the alternating supply voltage UN at the circuit input 2. The control unit 13 may contain a small power source and / or microcontroller. The control unit 13 can direct the switch 6, that is, close it and open it. The control unit 13 also receives the temperature T of the protective element 5. The control unit 13 takes this temperature T into account when closing the switch 6 and, consequently, in the commissioning of the electric consumer 4. Yes, by way of For example, a switch 6 (for example, a relay) is used, which can withstand a current intensity of the connection current I up to 15 A, then the control unit 13 can close the switch 6 only if the temperature T Snapshot of the protective element 5 is less than 65 ° C. This interrelation is represented in Figure 2 by means of a line

14.

As already stated, circuit arrangement 1 serves to operate a household appliance. The domestic appliance can be connected in one direction and another between a standby mode and an operating mode. The domestic appliance is moved from standby mode to operating mode, closing the control unit 13 the electrical switch 6. In standby mode, exclusively the control unit 13 is conductively connected to circuit input 2, of so that, in standby mode, electric power is consumed exclusively by the control unit 13 and the collection means 12, as well as, if necessary, by a control device, by which the domestic appliance can be switched to the operating mode by a user. In the standby mode, the processing circuit 3 and, therefore, also the electric consumer 4, is separated from the circuit input 2.

Overall, a circuit arrangement 1 is provided, in which safe operation of the electrical switch 6 and the consumer 4 is guaranteed. The electrical switch 6 is closed, in particular, considering the current temperature T of the protective element 5 (limiter of connection current). If this temperature T is greater than a predetermined limit value (for example, 65 ° C), then it is avoided to close the switch 6 due to a low resistance value of the protective element 5. Therefore, the current intensity of the the connection current I at a certain threshold value, for example, at 15 A.

List of reference symbols CLAIMS

one

Circuit layout

2

Circuit input

3

Processing circuit

4

Electrical consumer

5

Protective element

6

Electric switch

7

Bridge rectifier

8

Power source

9

Evolution of the current of the connection current

10

Evolution of the current of the connection current

eleven

Evolution of the current of the connection current

12

Means of collection

13

Control unit

14

Line

I

Connection current

t

Weather

T

Temperature

UB

Operating voltage

A

AC supply voltage

Claims (9)

1. Circuit arrangement (1) for actuating a domestic appliance, with a circuit input (2) to apply an alternating electrical supply voltage (UN), with an electrical consumer (4) that is coupled with the circuit input ( 2) through an electrical switch (6), and with a protective element (5), coupled with the electrical switch (6), for the protection of the circuit arrangement (1) against an electrical connection current (I ), which flows when the electric switch (6) closes, characterized by collection means (12) to capture a temperature (T) of the protective element (5), and by a control unit (13), coupled with the circuit input (2), which is configured to close the electrical switch (6) considering the temperature (T).

2.

Circuit arrangement (1) according to claim 1, characterized in that the protective element (5) is a thermistor.

3.

Circuit arrangement (1) according to claim 1 or 2, characterized in that the collection means (12) comprise a temperature sensor, in particular an NTC temperature sensor.

Four.

Circuit arrangement (1) according to one of the preceding claims, characterized in that the control unit (13) is configured to close the electrical switch (6) only if the temperature (T) is below a predetermined limit value, which is in a range of values between 50º C and 75º C, especially, it rises to 65º C.

5.

Circuit arrangement (1) according to one of the preceding claims, characterized in that the electrical switch (6) is a mechanical switch, especially a relay.

6.

Domestic appliance with a circuit arrangement (1) according to one of the claims set forth above.

7.

Domestic appliance according to claim 6, which, by closing the electric switch (6), is switchable from a standby mode to an operating mode, where, in standby mode, the control unit (13), in particular, exclusively the control unit (13) is electrically connected to the circuit input (2).

8.

Procedure for operating a circuit arrangement (1) in a domestic appliance, in which an alternating electrical supply voltage (UN) is applied at a circuit input (2), an electrical consumer

(4) is coupled with the circuit input (2) through an electrical switch (6) and, through a protective element (5), coupled with the electrical switch (6), the circuit arrangement (1) it is protected against an electrical connection current (I), which flows when the electric switch (6) closes, characterized in that a temperature (T) of the protective element (5) is captured through collection means (12) and , considering the temperature (T), the electrical switch (6) is closed by a control unit (13) coupled with the circuit input (2). SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 201130335 SPAIN Date of submission of the application: 11.03.2011 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: H05B6 / 06 (2006.01) H01H37 / 02 (2006.01) RELEVANT DOCUMENTS

Category

56 Documents cited Claims Affected

X

EP 0373487 A1 (MOULINEX SA) 20.06.1990, description; figures. 1-8

X

DE 102006032698 A1 (BLECKMANN GMBH CO KG) 24.01.2008, the whole document. 1-8

TO

DE 102006010107 A1 (EGO ELEKTRO GERAETEBAU GMBH) 06.09.2007, description; figures. 1-8

TO

DE 3820823 A1 (WSK GMBH) 21.12.1989, the whole document. 1-8

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 27.03.2013

Examiner M. P. López Sabater Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 201130335 Minimum documentation searched (classification system followed by classification symbols) H05B, H01H, G05D, H02H Electronic databases consulted during the search (database name and, if possible, terms of search used) INVENES, EPODOC State of the Art Report Page 2/4  WRITTEN OPINION Application number: 201130335 Date of Completion of Written Opinion: 03.23.2013 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims 4 Claims 1-3.5-8 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 1-8 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 201130335  1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

EP 0373487 A1 (MOULINEX SA) 06/20/1990

 2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement Claim 1: The closest prior art document to this first claim is D01, in which a circuit for operating a domestic appliance with a circuit input for applying an alternating power supply voltage, with an electric consumer (2) is disclosed. which is coupled to the circuit input through an electrical switch (5), and with a protective element (6), coupled with the electrical switch, for the protection of the circuit arrangement against an electrical connection current, the which flows when the electric switch closes. It also has collection means to capture a temperature (9) of the protective element, and by a control unit (7,8), coupled with the circuit input, which is configured to close the electrical switch (5) considering the temperature. Therefore, this claim is not new according to article 6 of Patent Law 11/86. Claims 2 and 3: In the description of D01, column 3, line 10, it is specified that the temperature is collected via NTC. As is known, NTC and PTC are the two large groups into which thermistors are divided, so these two dependent claims are not new either. Claim 4: The control unit (7,8) of the D01 apparatus prevents the circuit from closing until the temperature is below a given threshold value (See description of D01, column 3, lines 49 to 57) In this document, such value has been left open, and the values specified in this claim are design options that do not provide inventive activity according to article 8 of Patent Law 11/86. Claim 5: As read in the description of D01, column 2 lines 52 to 58, it is considered a relay type switch between the possible switches that can be used in the apparatus it discloses, so this claim is also not considered new. Claims 6 to 8: These claims also see their novelty annulled by D01. State of the Art Report Page 4/4