DE4311096C1 - Signal interface unit for power control bus of buildings - Google Patents

Abstract

A signal interface unit (1) for connection in the control-bus system (3) of a building complex enables the switching of an AC mains (4) connected load (5) via a bus-coupler (2), control module (9) and dependent switch (11) in response to signals from a sensor (7) with its own bus coupler (2) activated by, e.g. a dimmer, window blind etc.The unit (1) also permits mains-borne signals from a central control point to operate the load via a manual switch (10), DC energised opto-coupler module (8) and the bus coupler (2).The opto-coupler connection ensures signal/mains voltage separation thus enabling direct connection (10) of mains borne signals to the interface unit (1).

Description

The invention relates to a subscriber device for connection to an installation bus system according to Preamble of claim 1.

Installation bus systems can be found in buildings as a supplement of the electrical installation network application. It enables solutions in a cost-effective way of control and monitoring tasks. Such an in installation bus system is e.g. B. in the publication Busch-In stallationsbus EIB, the intelligent solution for buildings desystemtechnik, Busch-Jaeger Elektro GmbH, order no. BJE 1083 / 12.92 / 0502.

Such an installation bus system can input devices 7 shown in Fig. 1, z. B. switching, dimming or blind sensors, each with the help of a bus coupling device 2 . In addition, actuators 6 can also be connected as output devices using a coupling device 2 . The actuators 6 contain switching elements for connecting a consumer 5 to a low-voltage network 4 .

If existing building installation equipment through an installation bus system should be added Need to continue using existing pre place operating devices with the low voltage are connected to the mains, i.e. mains voltage signals as sensors deliver signals. Such on-site controls are only with at least one hand-operated contact to Signaling equipped.

In known installation bus systems require inputs and Output devices own bus coupling devices, independent of the spatial distance of input and output devices.

From DE 33 33 971 C2, in particular FIGS. 4 and 7 and to proper description, is a bus subscriber device with a set up for bidirectional information flow ten bus coupler device known. The participant facility device contains a load switching element (consumer control relay RY) with control device (relay control circuit 30, Control circuit 32), via which a consumer with a Low voltage network is connectable. The load switching element is both through signals from the bus system and through manually operated switching devices (9, 66) can be controlled. The requ overall arrangement with relay control device 30, Control circuit 32 and switching device 9 or 66 is expended dig; in particular, arrange this close to the consumer Bare switchgear 66 requires a variety of electronic Components. Simple on-site controls with only in any case, a switch contact cannot be connected. For Message of the respective switching status in the bus system An optocoupler 67 is arranged in the control circuit 32.

From DE 36 08 910 A1 there is an electrical connection unit known for power and information connection, whereby the information connection via a potential isolating over support element takes place.

The invention has for its object with little Additional effort a possibility for further use simple on-site controls in To create installation bus systems.

This task is performed by a subscriber facility with the Features of claim 1 solved.

Advantageous embodiments are in the subclaims specified.

An embodiment of the invention is as follows explained in more detail with reference to the drawing. Show it:

Fig. 1 is a subscriber device,

Fig. 2 shows a connection device for an on-site operating device.

The subscriber device 1 is shown in FIG. 1. It contains a bus coupling device 2 , which is connected to the bus system 3 . The bus coupling device 2 provides potential-isolated control signals to a control device 9 for a load switching element 11 , which connects the consumer 5 to the low-voltage network 4 , preferably with the aid of an optocoupler. The control signals can gelan from an input device 7 via the bus system 3 to the subscriber 1 gene. However, it can also be control signals that are given by an on-site operating device 10 via a device 8 in the bus coupling device 2 . If it is control signals from the connector 8 han delt, these are also on the bus system 3 other locations in a building z. B. provided for evaluation or display.

A preferred design of the connection device 8 is shown in FIG. 2. FIG. 2 shows an arrangement in which a mains voltage signal can be applied to the AC input of a rectifier G via a series resistor R1 with the aid of a pushbutton of an on-site operating device 10 . If necessary for reasons of a test specification, several series resistors can also be arranged. A connected to the rectifier G Integra tor, which consists of a parallel connection of a capacitor C1 and a resistor R3, prevents short disturbances on the connecting line leading to switching actions. The DC voltage thus formed is given via a Zener diode D5 and a protective resistor R4 to the input of an optocoupler K, the output of which is connected to the Buskoppelein device 2 . With R5 is a collector resistor stood for feeding the transistor in the optocoupler K be.

Claims (3)

1. subscriber device ( 1 ) for connection to an installation bus system ( 3 ), wherein

• a) the subscriber device ( 1 ) has a load switching element ( 11 ) with control device ( 9 ) for connecting a consumer ( 5 ) to a low-voltage network ( 4 ),
• b) the subscriber device ( 1 ) contains a Buskoppeleinrich device ( 2 ) which is set up for bidirectional information flow and to which the control device ( 9 ) is connected, and wherein
• c) an on-site operating device ( 10 ) can be connected to the subscriber device ( 1 ),
  characterized in that
• d) the on-site control device ( 10 ) - while avoiding electronic components - contains only one switch contact, which supplies a mains voltage signal when actuated, and
• e) the subscriber device ( 1 ) has a connection device ( 8 ) which converts the mains voltage signals from the on-site operating device ( 10 ) into bus-compatible input signals, and which feeds these signals into the bus coupling device ( 2 ) for forwarding to the control device ( 9 ).

2. Subscriber device ( 1 ) according to claim 1, characterized in that the connecting device ( 8 ) for converting mains voltage signals from an on-site operating device ( 10 ) has the following feature:

• a) the command signal is input via a series circuit of at least one series resistor (R1) and a rectifier circuit (G) on an integrator (C1, R3), which is connected to an optocoupler (K), the output of which is connected to the bus coupling device ( 2 ) is.

3. Subscriber device ( 1 ) according to claim 2, characterized in that the control of the optocoupler (K) is carried out with the interposition of a protective resistor (R4) and a Zener diode (D5).