WO2021260117A1 - Method for switching an electrical consumer, use of a test signal for detecting a position of an electrical switch, detection arrangement, switching device and corresponding switching arrangement - Google Patents

Abstract

The invention relates to the use of a test signal for detecting a position of an electrical switch (1), wherein the electrical switch (1) is bridged by an electrical filter device (2) and a damping ratio of the test signal carried via the electrical filter device (2) is determined in order to detect a position of the electrical switch (1).

Description

Method for switching an electrical consumer, use of a test signal to detect a position of an electrical switch, detection arrangement, switching device and corresponding switching arrangement

The invention relates to a method for switching an electrical consumer, an electrical switch being actuated.

It has become common practice to provide the switching of electrical loads with intelligence in order to implement a large number of switching functions. However, this requires the replacement of the previous infrastructure with a completely new installation, since the intelligent electrical consumers require a power supply even when they are logically switched off.

The invention further relates to the use of a test signal for detecting a position of an electrical switch.

The invention further relates to a detection arrangement, a switching device and a corresponding switching arrangement.

It is known to implement new switching arrangements by replacing switching devices and electrical loads in an existing electrical installation, but maintaining the laid lines. This approach results in a number of undesirable restrictions on the functionality of the switching arrangement, for example due to the fact that an electrical consumer is not supplied when an associated (light) switch is switched off or open.

The invention is based on the object of simplifying the retrofitting of existing systems. The features of claim 1 are provided to achieve the stated object. In particular, according to the invention, in order to achieve the object in a method of the type described above, it is proposed that the electrical switch is bridged with an electrical filter device, that a test signal is generated and passed through the electrical filter device, that a change in at least one feature of the test signal is detected so as to detect a position of the electrical switch, and that the electrical consumer changes its switching state as a function of the detected position of the electrical switch. Thus, an existing electrical switch can easily be retrofitted in order to be able to switch an intelligent electrical consumer in the intended scope of functions.

The test signal is preferably generated on the consumer side.

For example, an amplitude, a phase, a

Zeitver _S chiebung, a signal profile or any other

Feature be a suitable feature of the test signal.

For example, the detection of a change in a feature of the test signal can include the determination of a degree of attenuation of the test signal or be given as a result.

In one embodiment of the invention it can be provided that the test signal is an electrical current. The advantage here is that radio communication can be dispensed with.

It can be provided here that the test signal is an alternating current, which preferably has a frequency different from that of a supply current. The alternating current particularly preferably has a frequency above Frequency of the supply current. The supply current typically has a frequency of 50 Hz. However, there are also supply networks with a frequency that deviates from this. Such configurations allow the test signal and the supply current to be easily separated and treated separately.

Alternatively, it can be provided that the test signal is a direct current. The test signal can for example also be given by one or more current pulses. Test signals that are easy to process can thus be used.

In one embodiment of the invention, it can be provided that a supply current supplying the electrical consumer with energy passes through the electrical filter device without being attenuated or at least less attenuated than the test signal. A supply of the electrical consumer can thus also be achieved even when the electrical switch is open.

The supply enables, for example, configurations in which it is provided that the consumer is switched via a radio signal in addition to switching by means of the electrical switch.

In one embodiment of the invention, it can be provided that the electrical filter device has a filter which is matched to a frequency of a supply current. Thus, the supply can be ensured undisturbed. As an alternative or in addition, the generation of heat by the supply current can thus be reduced.

For example, the filter can be a high-pass filter, a low-pass filter or a band-pass filter. This enables a test signal to be attenuated in a simple manner at the same time the least possible attenuation of the

Supply current.

The filter device can also be designed, a

To effect phase shift. For example, for this purpose or for another purpose, the filter can contain a capacitor and / or a coil.

The filter device can also be designed to cause the signal to be shifted over time. For this or for another purpose, the filter can be designed as an all-pass filter and / or have an active component.

The filter device can also be designed to bring about a preferably broadband drop in amplitude. For this purpose, the filter can have a resistor, for example.

In one embodiment of the invention it can be provided that the electrical consumer is supplied or can be supplied electrically via the filter device. Thus, a supply of the electrical consumer can be achieved in a simple manner even and in particular when the electrical switch is open. It can be provided that when the switch is closed, power is supplied only via the closed switch or additionally via the filter device. The configurations described above make it possible to ensure that the electrical consumer is permanently supplied with energy, in particular independently of a position of the electrical switch, at least via this when the switch is closed and at least via the filter device when the switch is open.

In one embodiment of the invention it can be provided that a characteristic parameter of the filter device is determined and compared with stored values in order to determine a position of at least one of the electrical switches in an arrangement of more than one electrical switch, each bridged with an individually assigned electrical filter device. Thus, for example, the position of two electrical switches in the form of changeover switches can easily be determined in a changeover circuit. When the electric

Filter devices differ in their parameters, a determination of the position of each individual electrical switch can be determined with a corresponding selection of the differences. The characteristic parameter can be, for example, a characteristic frequency, in particular a limit frequency, a center frequency and / or a characteristic frequency, and / or a quality and / or a degree of attenuation and / or another characteristic of a filter. In particular when using toggle switches, the bridging of each electrical switch can be selected so that the electrical filter devices are arranged in series. This enables a supply current independent of the position of the individual electrical switches.

Alternatively or additionally, the features of the independent claim directed to a use are provided according to the invention in order to achieve the stated object. In particular, when using the type described at the outset, the invention proposes that the electrical switch be bridged with an electrical filter device and a change in at least one feature of the test signal routed via the electrical filter device for a detection of a position of the electrical switch is detected. It is preferably provided that a degree of attenuation of the test signal routed via the filter device is determined in order to detect a position of the electrical switch. The inventive use of an electrical A filter device instead of the usual monitoring contacts enables the electrical consumer to be supplied in a simple manner even when the electrical switch is open.

Alternatively or additionally, the features of the independent claim directed to a detection arrangement are provided according to the invention in order to achieve the stated object. In particular, it is therefore proposed according to the invention, in a detection arrangement, the detection arrangement with a device for detecting a change in at least one feature of a test signal conducted via an electrical switch and a device for controlling a switching connection in correspondence with a position of the causing the change in the at least one feature of the test signal equip electrical switch. In particular, it can be provided that the detection arrangement is equipped with a device for determining a degree of attenuation of a test signal passed via an electrical switch and a device for controlling a switching connection in correspondence with a position of the electrical switch which brings about the determined degree of damping. The advantage here is that retrofitting can be achieved with as little intervention as possible in an existing installation.

The switch terminal may, for example, comprise a relay a semiconductor _S Chalter or any other with the switching _SITUATION suitable switching element. The switching element can be actuated as a function of the detected position of the electrical switch.

In one embodiment of the invention it can be provided that the detection arrangement is provided with a device for generating and sending a test signal to a connected electrical switch. In a further embodiment of the invention it can be provided that a supply connection is formed for an electrical consumer. The advantage here is that existing electrical consumers can continue to be used. The detection arrangement can equip these electrical loads with intelligence.

The supply connection can be formed, for example, by the switching connection.

One or more further supply connections can also be formed. Further consumers can be connected or connected to this. It can be provided here that the other consumers can also be actuated by the electrical switch. However, it can also be provided that the further or further supply connections cannot be actuated by means of the electrical switch. Switching can be done in another way if necessary. The provision of at least one further supply connection has the advantage that the cable length for supplying the consumers can be reduced if they are to be installed in the vicinity of the detection arrangement.

To achieve the stated object, the features of the independent claim directed to a switching device are alternatively or additionally provided according to the invention. In particular, it is proposed according to the invention in a switching device to achieve the object, to equip the switching device, in particular for flush or surface mounting, with an electrical switch and an electrical filter device bridging the electrical switch. Thus, means for carrying out a method according to the invention are easy can be retrofitted without substantial intervention in the electrical installation being necessary. The filter device is preferably designed as described above or further below.

To achieve the stated object, the features of the independent claim directed to a switching arrangement are alternatively or additionally provided according to the invention. In particular, it is proposed according to the invention in a switching arrangement to achieve the object that the switching arrangement is equipped with an electrical switch, an electrical consumer that can be connected or connected to the electrical switch, and an electrical filter device that bridges the electrical switch, the electrical consumer for detecting a change at least one feature of a test signal and is set up to detect a position of the electrical switch based on the change in the at least one feature of the test signal. The at least one electrical switch can be part of a switching device according to the invention, in particular as described above or claimed below.

It can preferably be provided that the electrical consumer is set up to determine a degree of damping of a test signal and to detect a position of the electrical switch on the basis of the degree of damping.

To connect the consumer, a switching connection can be designed as described above. The switching connection is then electrically connected to the electrical switch. If the electrical consumer is connected to the switching connection, the consumer is also connected to the electrical switch. Thus, a switching arrangement for carrying out a method according to the invention, in particular as described above and / or claimed below, and / or for use according to the invention, in particular as described above and / or claimed below, can be provided.

It can be provided here that the electrical consumer is provided with a detection arrangement according to the invention, in particular as described above and / or as claimed in the protection claims. A compact unit, for example a unit that can be screwed into an incandescent lamp socket, can thus be provided.

In one embodiment of the invention it can be provided that a coupling module is arranged between the electrical switch and a network source. This can help to avoid interference from the mains source on the measurement of the test signal.

It can be provided here that the coupling module is designed and arranged to return the test signal to the electrical consumer. This avoids additional attenuation of the test signal on the return path, as a result of which the accuracy of the measurement of the degree of attenuation at the electrical switch can be increased.

It can be provided that the detection arrangement and / or the switching arrangement has a radio module which is set up to switch the switching connection and / or an electrical consumer connected to it. This is preferably done in that the radio module receives a switching signal via radio and initiates the switching. In this case, the switching connection or the consumer is switched when the electrical switch is actuated and also when the radio module receives a switching signal. Such Refinements are therefore particularly useful because, for example, both a wireless smart home circuit and also built-in standard devices, such as manually operated switches, can be used to switch a consumer such as a light bulb or the like.

An application advantage of the invention can be to switch a consumer on and off independently of the switch state of the electrical switch, in particular by radio circuit. A permanent supply of electricity to the consumer can be used for this, which can be ensured in particular by the bridging filter device built into the switching arrangement and permeable to the supply current.

The invention will now be described in more detail with reference to exemplary embodiments, but is not limited to the ones shown

Embodiments limited. Further exemplary embodiments result from the combination of the features of individual or multiple claims with one another and / or with individual or multiple features of the exemplary embodiments.

It shows:

Fig. 1 shows a first switching arrangement according to the invention and

2 shows a second switching arrangement according to the invention.

1 shows a switching arrangement 7 according to the invention, designated as a whole by 7. The switching arrangement 7 has an electrical switch 1 to which an electrical load 6 is connected.

The electrical switch 1 is bridged with an electrical filter device 2. With closed electrical Switch 1, the electrical filter device 2 can be bypassed. As a result of the bridging, the filter device 2 is short-circuited and / or deactivated when the switch 1 is closed. When the electrical switch 1 is open, the filter device 2 changes a signal that is passed through. In the exemplary embodiment described here, the change is given by an attenuation of the signal passed through. As described above, the invention is not restricted to this, since the change can also consist, for example, of a phase shift or a temporal signal shift.

A detection arrangement 4, with which a test signal can be generated, is connected upstream of the electrical consumer 6. For this purpose, the detection arrangement 4 has a device 10 for generating and sending the test signal. The electrical consumer 6 and the detection arrangement 4 can also be designed to be integrated in one device.

The electrical load 6 can be fed from the mains source 5 via a supply connection 11 of the detection arrangement 4. When the electrical switch 1 is open, the supply current flows through the electrical filter device 2.

The detection arrangement 4 impresses the test signal on the line to the electrical switch 1 and receives the test signal conducted via the network source 5 or a coupling module 3.

In the exemplary embodiment described here, the detection arrangement 4 determines a degree of attenuation of the test signal by evaluating the received test signal and by comparing it with the transmitted test signal. In the exemplary embodiment, this takes place by means of a device 13 for determining a degree of attenuation of the returned test signal. The detection arrangement 4 can thus determine whether the test signal ran through the closed electrical switch 1 or - because the electrical switch 1 is open - was forced through the electrical filter device 2. This shows whether the electrical switch 1 is open or closed.

The detection arrangement 4 controls a switching connection 9 (for example the supply connection 11 or a separate output) in order to switch the electrical load 6 in accordance with the determined position of the electrical switch 1.

The already mentioned coupling module 3 is arranged between the electrical switch 1 and the network source 5. This coupling module 3 enables the test signal to be fed back even in the case of lines with a long distance to the network source 5.

The electrical switch 1 and the electrical filter device 2 are part of a switching device 12. The switching device 12 can be designed for flush or surface mounting. For this purpose, the switching device 7 preferably has the typical external dimensions of a light switch.

With the switching arrangement 7, a method for switching the electrical load 6 can thus be carried out, which proceeds as follows.

The electrical switch 1 is actuated, that is, it is opened or closed. Since the electrical switch 1 is bridged by an electrical filter device 2, a changes depending on the position of the electrical switch 1

Attenuation behavior between the connections of the electrical Switch 1.

On the consumer side, a test signal is regularly generated and passed through the electrical filter device 2 (and the electrical switch 1).

A degree of attenuation of the test signal is now determined, for example by a comparison with the respective test signal transmitted.

A position of the electrical switch 1 is detected on the basis of the degree of attenuation: low attenuation means that the electrical switch 1 is closed, while high attenuation means that it is open.

The electrical load 6 finally changes a switching state as a function of the detected position of the electrical switch 1. The detection arrangement 4 has a device 14 for controlling a switching connection 9 in correspondence with a position of the electrical switch 1 that effects the determined degree of damping.

In the example, the test signal is an electrical alternating current with a frequency above that of a supply current of the network source 5.

As a filter, the electrical filter device 2 can be permeable to the supply current and attenuating the test signal. This enables a permanent, uninterrupted supply of the electrical load 6 (and the detection arrangement 4) regardless of a position of the electrical switch 1.

The test signal can also be a direct current. It is also It is conceivable to supply the electrical load 6 via the electrical filter device 2 only when the electrical switch 1 is open (then possibly attenuated).

In any case, it is provided in the exemplary embodiment that a supply current supplying the electrical load 6 with energy passes through the electrical filter device 2 without being attenuated or at least less attenuated than the test signal. For this purpose, the electrical filter device 2 has a filter which is matched to a frequency of the test signal.

2 shows a second exemplary embodiment of a switching arrangement 7 according to the invention. Components and functional units that are functionally or structurally similar or identical to the previous exemplary embodiment are denoted by the same reference numerals and are not described again separately. The statements relating to FIG. 1 therefore apply correspondingly to FIG. 2.

In the embodiment of FIG. 2 there are two

Switching devices 12 implemented in an arrangement 8. A changeover circuit is shown as an example. The electrical filter devices 2 are arranged in series and are conductively connected to one another independently of the positions of the electrical switches 1.

It can be seen that a test signal which is routed via both switching devices 12 does not experience any attenuation when both electrical switches 1 are in the lower position. If one of the two electrical switches 1 is in the lower position and the other is in the upper position, the test signal is only attenuated by an electrical filter device 2. If both electrical switches 1 are in the upper position, there is (practically) none in this case too Damping instead.

If a characteristic parameter of the electrical filter device, in particular a characteristic frequency, quality and / or degree of damping, is determined and compared with stored values, a position of at least the electrical switches 1 can be determined in the arrangement 8 of more than one electrical switch 1 . If the electrical filter devices 2 are designed differently from one another, the position of each individual electrical switch 1 can even be determined individually on the basis of the degree of damping or the characteristic frequency of the damping.

This principle can be transferred to any number of electrical switches 1. It is not necessary to use changeover switches. It is already sufficient if a chain of electrical filter devices 2 is present, each of which can be short-circuited by an individual electrical switch 1. It can now be determined on the basis of the total degree of damping how many electrical filter devices 2 are currently short-circuited. A change in the number of short-circuited electrical filter devices 2 can thus be interpreted and processed as a change command in the sense of an impulse switch.

The invention thus generally proposes the use of a test signal to detect a position of an electrical switch 1, the electrical switch 1 being bridged with an electrical filter device 2 and a degree of attenuation of the test signal passed through the electrical filter device 2 to detect a position of the electrical switch 1 is determined. List of reference symbols

1 electrical switch

2 electrical filter device 3 coupling module

4 detection arrangement

5 power source

6 electrical loads 7 switching arrangement 8 arrangement of electrical switches

9 switchgear _S STATEMENTS

10 means for generating and sending a test signal 11 Versorgungsan _S STATEMENTS 12 switching means 13 means for determining a damping ratio

14 Device for controlling a switching connection

Claims

Expectations

1. A method for switching an electrical consumer (6), wherein an electrical switch (1) is actuated, characterized in that the electrical switch (1) is bridged with an electrical filter device (2) that preferably generates a test signal on the consumer side and via the electrical filter device (2) is guided so that a change of at least one feature of the test signal is detected in order to detect a position of the electrical switch (1) that the electrical consumer (6) its switching state depending on the detected position of the electrical Switch (1) changes and that the electrical consumer (6) is or can be supplied electrically via the filter device (2) when the switch (1) is open.

2. The method according to claim 1, characterized in that the test signal is an electrical current, in particular wherein the current is an alternating current with a frequency deviating from, preferably above, that of a supply current or wherein the test signal is a direct current or wherein the test signal is one or comprises several current pulses.

3. The method according to any one of the preceding claims, characterized in that a supply current supplying the consumer (6) with energy passes the filter device (2) undamped or at least less strongly damped than the test signal and / or that the filter device (2) is a filter, in particular a bandpass filter, which is tuned to a frequency of the test signal.

4. The method according to any one of the preceding claims, characterized in that the electrical consumer is permanently supplied with energy, at least via this when the switch is closed and at least via the filter device when the switch is open.

5. The method according to any one of the preceding claims, characterized in that a characteristic parameter of the filter device (2), in particular a characteristic frequency, a quality and / or a degree of attenuation, is determined and compared with stored values in order to be in an arrangement of more than an electrical switch (8), each of which is bridged by an individually assigned filter device (2), to determine a position of at least one of the electrical switches (1).

6. Use of a test signal to detect a position of an electrical switch (1), characterized in that the electrical switch (1) bridged with a filter device (2) and a change of at least one feature of the test signal passed through the filter device (2) to one Detection of a position of the electrical switch (1) is detected, an electrical consumer (6) being or can be supplied electrically via the filter device (2) when the switch (1) is open.

7. Detection arrangement (4), with a device (13) for detecting a change in at least one feature of a test signal passed via an electrical switch (1) and a device (14) for controlling a switching connection (9) in correspondence with a change in the Position of the electrical switch (1) causing at least one feature of the test signal, wherein the detection arrangement has a radio module which is set up to switch the switching connection (9).

8. Detection arrangement (4) according to the preceding claim, with a device (10) for generating and sending a test signal to a connected electrical switch (1).

9. Detection arrangement (4) according to one of the two preceding claims, characterized in that a supply connection (11) for an electrical load (6) is formed, in particular wherein the supply connection (11) is formed by the switching connection (9) and / or wherein at least one further supply connection (11) is formed for at least one further electrical consumer (6).

10. Switching device (12) for flush or surface mounting, with an electrical switch (1) and a filter device (2) bridging the electrical switch (1), the switch (1) and the filter device (2) being designed such that an electrical consumer (6) can be supplied with energy at least via the switch (1) when the switch (1) is closed and at least via the filter device (2) when the switch (1) is open.

11. Switching device (12) according to the preceding claim, characterized in that the filter device (2) has a filter which is tuned to a frequency of the supply current, and / or that the filter device is designed to have a phase shift and / or a time shift and / or to bring about a drop in amplitude of a test signal passed through the filter device (2).

12. Switching arrangement (7), in particular for carrying out a method according to one of claims 1 to 5 and / or for use according to claim 6, with an electrical switch (1), in particular as part of a

Switching device (12) according to the preceding claim, an electrical consumer (6) that can be connected or connected to the electrical switch (1) and a filter device (2) bridging the electrical switch (1), wherein a detection arrangement (4), in particular a detection arrangement ( 4) according to one of claims 7 to 9, for detecting a change in at least one feature of a test signal and for detecting a position of the switch (1) based on the detected change in the at least one feature of the test signal and for changing a switching state of the electrical consumer (6) is set up and wherein the electrical consumer (6) is or can be supplied electrically via the filter device (2) when the switch (1) is open.

13. Switching arrangement (7) according to the preceding claim, characterized in that a coupling module (3) is arranged between the electrical switch (1) and a mains source (5), in particular for returning the test signal to the electrical consumer (6).