NO965401L - Control device for light fixtures on power rails - Google Patents

Description

The invention relates to an installation bus system for a busbar lighting in accordance with the introduction to patent claim 1.

Busbar systems are now used in electrical installation to be able to connect to 230V mains voltage at any point along the busbar. This happens by the 230V mains being fed into the busbar at its end using suitable connecting pieces. Consumers take the voltage from the busbar using adapters, such as can be attached to lamps or sockets. This means that consumption units can also be easily moved around the room after installation, without the installation having to be changed.

A technique has been developed for use in buildings, where the consumption units can be controlled with sensors and a control body, which exchange data via an installation bus system. Furthermore, these sensors and controls can be reprogrammed when the user changes their wishes, and this can be done with personal computers or other programming devices. It can e.g. new connection groups or light scenes are formed. In the control bodies and sensors, the information is changed in such a way that the user's new wishes are taken into account. This change to the user is termed "logical change". However, in retrospect, a user mostly wants a spatial change of the control bodies. For this purpose, however, he must lay new installation lines. It is also possible to integrate the control bodies into the consumer units which are connected to a power rail and which can be moved around the room. However, the standardized installation norm of the "European Installationbus Association EIBA" does not allow two-wire cables to be run as open copper conductors in busbars over several meters in parallel, as it concerns voltages that require special protective measures and a mechanical access to the busbar from the user's side is not is allowed, because a short circuit would cause all the consumer units on the busbar to fail.

The main purpose of the invention is therefore to create a system which makes it possible for the consumer units to be changed both logically and with regard to placement with control bodies.

This task can be solved by proceeding as stated in patent claim 1.

Further advantageous features of the invention are apparent from the subclaims.

With the help of the drawings, various advantageous designs of the invention are shown in more detail, namely

fig. 1 shows an installation bus system for a light rail-based lighting system, fig. 2 shows an embodiment of the converter,

fig. 3 shows an embodiment of a lamp, while

fig. 4 shows a further embodiment of a converter in accordance with fig. 2.

Fig. 1 shows an installation bus system for a track lighting. Several lamps 2, 3 and 4 are mounted in the busbar 1. The busbar gets its mains voltage from a converter 5, which is attached to one end of the busbar 1 by means of a mechanical adapter 6. The mains voltage cable 7 is then over a converter 5, the cable 12 and an adapter 6 inserted into the conductive tracks 8 on the busbar. A wire 9 of the two-wire bus to the EIBA system is similarly connected to the converter 5 and a key sensor 10 is connected to the wire 9. Further sensors and control devices are connected via wire 11 to the two-wire bus. Messages that are created in the wire 9 to the two-wire bus are picked up by the converter 5 and refined and formatted so that they are imprinted on the conductive paths 8. The lamps 2, 3 and/or 4 will receive a message from this message over the conductive paths 8 in power rail 1 and set the desired value on/off or the strength value.

The lamps themselves can provide information about their condition through messages on the conductive paths 8 in the busbar 1, over to the converter 5, which receives the messages, reformats them and feeds them into the wire 9 of the two-wire bus. Sensors and controls, which are connected to wires 9 and 10, can interpret these messages.

Fig. 2 shows an embodiment of the converter 5, on the mains cable 7, with which the supply cable 12 to the busbar and the cable 9 to the two-wire bus are connected. A mains part 13 supplies voltage to a modem connection 14, a mains adapter 15 and a galvanic isolation element 17. Messages that occur on the line 9 are taken up by a bus adapter 19 and transferred to a microcontroller 18. The microcontroller 18 reads from the message the data required for the control of the consumer units 2, 3 and 4 and controls the modem connection 14 via the separating element 17. The modem connection 14 processes control data so that they are superimposed on the mains voltage. In the modem connection, the logical levels "0" or "1" are assigned to specific frequencies, e.g. logic "0" corresponds to 133.05 kHz and logic "1" corresponds to 131.85kHz. These frequencies are supplied to the mains adapter 15 and modulated on the line 12 for the power rail 1. Fig. 3 shows an embodiment of a lamp 2, 3 or 4 which can exchange data with the power rail 1. Each lamp 2, 3 or 4 is connected to the power rail 1's conductive paths 8 by means of a connection part or adapter 20 and receives the mains voltage and the modulated frequencies via this connection. A mains part 21 supplies voltage to the mains adapter 22, a modem 23 and the microcontroller connection 24. The mains adapter separates the frequencies assigned to the levels "0" and "1" from the mains voltage and leads them to the modem 23. With this modem connection, the levels "0" and " 1" decided according to the relevant frequencies and forwarded to the microcontroller 24. This registers the coding of the message and compares it with the coding set in a code-controlled switch 27. If there is a match, further functions are activated in the microcontroller 24. These can e.g. be the control of a power stage 25 so that a light source 26 can be switched on and off or dimmed. Fig. 4 shows a further embodiment of a converter 5', which additionally has a filter 28 and a two-wire power supply 29. With the filter 28, disturbing frequencies on the network are kept away from the power rail 1. The power supply 29 for the two-wire bus system supplies the key sensor 10 and further participants on wire 11 with voltage.

Claims (3)

1. Installation bus system for a busbar lighting which consists of activation sensors, a converter for converting two-wire messages from the bus system into busbar messages for controlling and regulating lamps that are connected to a mains busbar, characterized in that with the help of a converter (5) one or more lamps (2, 3, 4) can be controlled as needed individually or in groups in an on/off state or in a state with arbitrarily selectable brightness, since the converter (5 ) for this purpose captures the two-wire messages, with which the on/off states and a brightness value are carried out, are taken up by the two-wire switching system and are reformatted in a microcontroller (18) and from this fed into the power rail (1) over a network adaptation (15), in that a corresponding lamp (2, 3, 4) receives the current relevant message over a network connection (22), and that the desired on/off connection or brightness value is set using a microcontroller (24), and that each lamp (2, 3, 4) in turn transmits messages (8) in the power rail (1) with the help of a microcontroller (24) and a network adapter (22). 2. Installation bus system in accordance with patent claim 1, characterized in that a further converter (5') is arranged to prevent disturbing influence on the network by means of a filter (28). 3. Installation bus system in accordance with patent claim 1 or 2, characterized in that the converter (5') contains a two-wire voltage supply (29) for supplying sensors (10) and further participants on the two-wire bus system.