DE4013491A1 - Installation bus coupling device for switch or pushbutton - uses interface circuit carried by circuit board fitted in standard wall socket - Google Patents

Abstract

The coupling device uses a bus interface circuit incorporated in a conventional standard wall socket (10), for connection with a two-wire installation bus (22). Pref. the electric and electronic components (18) of the interface circuit are mounted on a circuit board (18b) contained within the wall socket (10). Pref. an integrated memory module holds signals corresp. to the individual switch positions. ADVANTAGE - Simple fitting in existing wall socket.

Description

The invention relates to a device for coupling of switches, buttons and the like. According to the generic term of claim 1.

With bus systems in the electrical installation, like them for example from ETZ, issue 19/1985 only devices belonging to the system can be connected directly the installation bus. Convention le installation devices, e.g. B. switches, buttons, sensors etc., can currently only be input to the bus be connected. These input devices are located centrally in distributions or in sub-distributions. The switches and, as is known, buttons are located decentrally in individual Rooms. In such an installation with a bus system must be between the switches, Ta star and the like. Control lines in a conventional manner  be relocated, so that a lot of control lines in Ge building will be required. This requires a very high one Installation effort; the fire hazard is further exacerbated is increased and for control lines and distribution cabinets a large space requirement is required.

The object of the is to provide a device to create the type mentioned above, in which the tax cables and the associated input devices are eliminated len.

This object is achieved by the characterizing features of claim 1.

Further advantageous embodiments of the invention are can be found in the subclaims.

The purpose of the invention is therefore the many tax issues lines in the known facilities and in particular in the known bus systems for an installation replace with the peripheral installation of the installati onsbus. The connection of the conventional switches and Pushbuttons on the installation bus then no longer occur centrally via input devices in the distributions, but directly via the interface in the respective room seated flush-mounted box. This interface is then designed as a wall switch interface, which in a Standard flush-mounted box directly below the conventional len button or switch sits.

Due to the wall switch interface according to the invention or wall switch interfaces can control lines be replaced by the bus line as such, at for example in the form of a two-wire communication line, which is twisted and shielded, which laid as a ring, stitch or tree structure in the building can be.  

In the case of subsequent extensions, according to the invention, in an existing or subsequently installed sub a wall switch interface the one to which the switch or button is connected. The wall switch interface will be the closest the point of the installation bus installed in the building closed.

According to the wall switch interface co dated, d. H. the conventional switch or button an address is assigned, which for the programming tion, d. H. Shortcut, the system is needed. Like this with the device according to the invention Wall switch interface in the flush-mounted box the elec Troinstallation with planning for installation bus systems considerably simplified and cost-effectively realized who the.

Using the drawing, in which some embodiments of the invention are shown, the invention should be so such as further advantageous refinements and improvements stations of the invention explained and described in more detail will.

Show it:

Fig. 1 is a schematic representation of a wall switch interface according to the invention put in a conventional flush-mounted box, in cross-section,

Fig. 2 is a block diagram of the wall switch interface shown in Fig. 1,

Fig. 3 shows an exemplary embodiment of the wall switch interface shown in Fig. 2 and

FIGS. 4 and 5 show two examples of installing a wall switch interface according to the invention.

Reference is now made to FIG. 1.

In a standard flush-mounted box 10 , which is only shown schematically in cross-section, a wall scarf ter 11 is used with a cover ring 12 and a manually operated switching handle element 13 , which acts on a movable contact piece 14 . The movable contact piece 14 , which is ausgebil det as a rotary contact piece, is assigned a fixed contact piece 15 , so that the contact point 14/15 can be switched on and off by actuating the switching handle 13 . Fig. 1 shows the contact point 14/15 in the off state. On the movable contact piece 14 , a United connecting line 16 and on the fixed contact piece 15, a connecting line 17 is connected, which are guided to a wall switch interface 18 . At the wall switch interface 18 , an installation bus 19 is connected, which has two wires 20 and 21 , which is part of a telecommunication line 22 , which may be a coaxial cable. The flush-mounted box 10 can of course also be designed as a hollow wall box.

Fig. 2 shows the wall switch interface of FIG. 1 in a schematic representation as a block diagram. On the control line side 23 , the control lines 16 and 17 of the key switch 11 are connected; As can be seen from Fig. 2, several push buttons can be connected; in the embodiment of FIG. 2, there are two key switches 11 and 24. The dashed line 25 indicates that more than two switches 11/24 can be connected.

The wall switch interface 10 sets the control signals which signal the switch-on and switch-off positions of the switches 11/24 in order to be supplied in the installation bus 22 with clocked signals 26 which are coded in a suitable manner and fed to a central unit; there these signals 26 are processed and supplied to the associated electrical devices to be actuated by the switches 11/24 , which are then controlled depending on the scarf formation.

The installation bus, as shown in FIGS. 4 and 5, as an open ring 22 _R or 22 _B as a tree structure or be formed in any other structure. . For example, in the ring structure as shown in FIG 4, three switches 40, 41 and 42 and two switches are connected to the installation bus 22 _R 43 and 44; each scarf ter or button 40 to 44 is assigned a device according to FIG. 1 or FIG. 2 10/18 in the flush-mounted box 10 .

In the arrangement of Fig. 5 to the installation bus 22 _B are three switches 50, 51 and 52 and three buttons 53, 54 and 55 associated with the switching position, both of the switches are supplied and the button back on the entspre sponding wall switch interface 10/18 .

Fig. 3 shows purely schematically a circuit arrangement how such an interface can be designed. Shown schematically, the installation bus 22 , whose signals are converted via a rectifier 60 into a 24-volt voltage, which are supplied to four switches 62 , 63 , 64 and 65 via a supply voltage line 61 . The other end of the switch is supplied to four inputs of an integrated circuit 66 , with conductors V 13 , V 14 , V 15 and V 16 connected between the individual switches from the switches to the integrated circuit 66 and He de current limiting and stabilization are. The integrated circuit 66 is a memory module in which the information coming from the switches 62 to 65 is stored in the information about the switch position of the switches.

The voltage coming from the installation bus is limited in a stabilizing circuit 67 to a low voltage of 5 volts, which is fed via a line 68 to a coding device 69 , in which the switches 62 to 65 are assigned addresses. This Codierein direction is connected to the integrated circuit 66 .

On line 61 , a further line 70 is connected, which is connected to the integrated circuit via a trigger circuit formed by two transistors V 9 and V 10 .

The circuit arrangement essentially works as follows: It is assumed that one of the switches 62 to 65 is transferred from the open position shown in FIG. 3 to the closed position. As a result, the control voltage is supplied via line 61 and line 61 a assigned to switch 62 to circuit 66 , which is a memory chip. The switching position of the switch 62 corresponding signals which are encoded via the encoder 69 and associated with which an be wrong address while in the circuit 66, ge below memory block 66 Nannt stored, until the center of the memory chip 66 corresponding the address stored in the headquarters is queried. When the appropriate query is made, the two transistors V 9 and V are driven 10 via the line 71 and that accordingly the transferred via line 71 serial Si gnal corresponding to the so-called. Information signal which is associated with 62 of the switching position of the switch. Due to the actuation of the two transistors V 9 and V 10 , in particular due to the actuation of the transistor V 9 , a current increase is generated in line 61 , which also causes a current increase in the installation bus, which current increase is detected and processed by the control center. On the basis of the signal processing in the control center, the electrical device which is assigned to the switch 62 is then activated.

Claims (6)

1. A device for coupling of switches Ta, star and the like. To a wired bus system in egg ner installation condition, characterized in that the formed as an interface device in a con ventional standard flush-mounted box is used (10). 2. Device according to claim 1, characterized in that the device is assigned at least one switch, button and the like., And that the installation bus system has a two-wire installation bus ( 22 ). 3. Device according to claim 2, characterized in that the device's associated electrical and electronic components ( 18 a) on an inside of the flush-mounted box ( 10 ) attached circuit board ( 18 b) are applied. 4. Device according to one of the preceding claims, characterized in that a serving as a memory chip integrated circuit ( 66 ) is provided, to which the individual switches, buttons and the like. ( 62 to 65 ) are connected at one end, whereas the other re End of the switches ( 62 to 65 ) are connected to the installation bus ( 22 ) via a control line ( 61 ). 5. Device according to one of the preceding claims, characterized in that a switching position of each switch is stored (62 to 65) corresponding signal in the memory module (66) and that the SpeI cherbaustein (66) upon receipt of a switch (62) associated Address generates a message signal that is fed to the installation bus ( 22 ). 6. Device according to claim 5, characterized in that the message signal is a serial signal which is converted to an increased current corresponding to this signal in the installation bus ( 22 ).