FR2511206A1 - Control circuit for automatically displaying state of mains loads - has transistor and trial arrangement, with mains switch control relay to control voltage supply to panel switch lamps - Google Patents

Abstract

The switch panel (2,3) displays the state of remote mains appliance or loads. The remote loads (5) are connected to the supply (12,13) by a pair of switch contacts (10,11). A bi-stable relay (9) controls the switch contacts. A detector unit (7), based on a resitor-bridge arrangement, monitors the state of the switch contacts (10,11) and controls the voltage supplying the lamps in the switch panel. When the mains load is 'on' the lamp supply is full an but when it the laod is 'off' the lamp supply voltage is insufficient to turn it on. The control unit contains a two-transistor detector circuit which feeds the gate of a triac by rectifying the a.e. mains supply and charging a capacitor. The same wires feeding the mains-switch relay are used to control the switch panel lamps. The switch panel lamps can be of standard neon type.

Description

 The remote control by bistable relays or by remote control switches is a technique which is developing widely, both for industrial and consumer applications. This technique offers a.

vantage of reducing the costs of cabling and of allowing very easily the control of the same organ from several different places, this by electrical contacts of push button type.

 However, the current bistable relays and relays do not allow viewing at the level of the control push button the operating state of the member controlled by the latter, except by adding to the two wires intended for the control, an additional wire for viewing.

 The object of the present invention is to make this display function possible without wiring additional wires, while using standard luminous push-buttons.

 It applies to all devices of the type bistable switches or relays already installed, and allows to consider the marketing of several families of new products: electronic modules connecting to a relay or a standard switch: new remote switches integrating the Citf electronic device and display devices that can be placed on the remote control lig.

 With regard to the new remote control switches, the present invention in no way modifies the current technology since very few electronic components are to be added to the models already manufactured.

 According to the present invention, a device has been found which makes it possible to vary, as a function of the state of the load, the voltage across the terminals of the control member, and therefore of the display device which is connected to it, without the coil of the relay: or the remote control switch is ordered. In addition, this device detects the closing of the contact of the control member and then causes the control of the coil of the relay or remote control switch.

 FIG. 1 illustrates the operating principle of the device: according to the present invention. FIG. 2 shows an exemplary embodiment based on the use of standard neon indicators for visualization at the level of the control push button and of an electronic circuit using a triac for the control of the coil of the remote control switch. Figure 3 shows an alternative embodiment according to the invention based on the use of modified neon lights. Figure 4 shows the realization of the modified indicator corresponding to Figure 3. Figure 5 shows an example of technological implementation of the device of Figure 2. Figure 6 shows the connection of the electronic part described in Figure 2 in a conventional installation .

 Figure 1 shows the diagram of a remote control switch according to the invention. The assembly is supplied at 1 by lines 12 and 13. One or more illuminated push-buttons, here 2 and 3, control the remote control switch 4 by means of the device 6, object of the present invention. The remote control switch controls the load 5 through its contacts 10 and 11.

 The electronic device 6 consists of an adaptation part 7 making it possible to vary the voltage at the terminals of the push buttons 2 and 3 as a function of the state of the load. Thus, when the contacts 10 and 11 are closed, the load is supplied and the circuit 7 delivers at the terminals of the push buttons 2 and 3 a sufficient voltage to cause the lights to come on. When the contacts 10 and 11 are open, the load is not supplied and the circuit 7 delivers at the terminals of the push buttons 2 and 3 an insufficient voltage to cause the lights to come on.

 The detection part-8 of the device 6 detects the closing of the contacts of the control push-buttons and then causes the supply of the coil 9 of the remote control switch. This part 8 of the device 6 is based on the fact that the light indicator of the push buttons 2 and 3 has a non-zero extinction voltage.

 it is then possible for the circuit 8 to be sensitive only to the closing of the contacts of the push buttons 2 and 3, this regardless of the state of the output of the device 7.

 FIG. 2 shows an exemplary embodiment of the device 6 for 220 Volt alternating remote control switches and push buttons with standard neon indicator.

 Part 7 consists of resistor 14 (R1) connected to contact 11 of the remote control switch by terminal 26, of resistor 15 (R2) connected to supply line 13 by terminal 28 and of resistor 16 (R3) connecting terminal 25 to part 8. Terminal 25 being connected to the illuminated push-button. Depending on the state of the load, this circuit varies the voltage across the neon indicator of the push buttons within a range such that the extinction or lighting of the indicator is guaranteed (for example 25 to 160 Volts).

 Part 8 consists of transistors 17 and 21 of PNP type, resistors 18 (R4), 20 (R5), 23 (R6), diode 19, capacitor 22 (e) and triac 24, the assembly being cable in accordance with FIG. 2. The transistor 17 serves to detect the closing of the contacts of the push-buttons. Indeed, when these are closed, this transistor remains blocked, which leads to the conduction of transistor 21 and the charge of capacitor C during the alternation or line 28 is negative compared to line 29, this by the resis - tance 20 (R5). A direct current then flows through the resistor 23 (R6) in the trigger of the triac 24 and makes it conductive, which activates the coil of the remote control switch connected to part 8 by terminal 27.

 It will be noted that an identical circuit using NPN transistors and a diode 19 conducting the positive half-waves on the resistors 18 and 20 can be used, the charge voltage of the capacitor 22 (C) becoming positive with respect to the terminal 29. The choice between these two solutions being a function of the triac used.

 It will be noted that the capacitor 22 (C) and the resistor 23 (R6) could be connected to the collector of the transistor 17, the transistor 21 and the resistor 20 (R5) are removed. This simplified variant of the circuit 8 however has the disadvantage of causing, in the idle state of the push button, a significant dissipation in the resistor R4.

FIG. 3 shows another embodiment of the display device according to the invention, based on the use of modified neon indicators as shown in FIG. I,
Part 7 of device 6 consists of resistor 30,
Part 8 of device 6 consists of resistors 31 and 32, diac 33 and "triac" 24. Push button 2 has a standard neon indicator (tube 36 and resistor 34) to which a resistor 35 has been added in parallel with the tube 36, The choice of resistors 30, 31, 32, 34 and 36 is such that the voltage variation across the push button linked to the contacts 10 and it of the remote control switch, causes the ignition or the extinction of the neon tube 36, without activation of the triac 24. The device 8 actuates the coil of the remote control switch only when the push-button contacts 2 are closed.

 This embodiment of the invention has, compared to the solution described in Figure 2, a more delicate implementation when using several push buttons 2 in parallel indeed, the resistors 30 and 31 must be adapted according to the number of pushbuttons 2 placed in parallel.

FIG. 5 gives an example of a technological embodiment of the device in FIG. 2. A printed circuit 38 supports the electronic components .4 to 24 as well as a connection terminal block 25 to 29. The assembly is molded in a resin block or plastic 37 which carries a label stuck on top, specifying the wiring plan of this module. Finally, two holes 39 allow the module to be fixed to a panel in the vicinity of the remote control switch.
A slightly different printed circuit but using the same electronic components can be designed to be mounted in the base of a conventional remote control switch, which would reduce the wiring of the electronic module.

 Figure 6 shows the wiring plan of the device of Figure 5 in a conventional installation. Terminal 29 of the module is connected to the supply line 12. Terminal 28 is connected to the supply line 13 and to a terminal of the relay coil. The other terminal of the remote control coil is connected to terminal 27 of the module. Terminal 26 is connected to contact 11 of the remote control switch. Finally, pushbuttons 2 and 3 are connected between terminal 25 and line 12.

The device which is the subject of the present invention can be used with all already existing remote control switch installations, such as those intended for lighting in public buildings and individual dwellings. This device can thus, in certain cases, lead to energy savings by easily indicating the operating state of organs which are not directly visible to the user (lighting of garages and cellars for example) 4
This same device can be used in remote controls in an industrial environment by allowing the visualization of the operating state of the organ controlled in several places and possibly its control by a single line of 2 wires.

Claims (6)

 1 - Electronic display device for remote control by bistable relay or remote control switch which enables remote signaling of the running step of the organ controlled by the relay on the same wires as those used by the remote control device for the bistable relay, characterized in that it comprises an adapter circuit (7) receiving a signal corresponding to the marc state of the controlled member and delivering a variable voltage, according to the state of said member, at the terminals of the incorporated remote control device rant a signaling light and characterized in that it comprises a detection circuit (8) receiving the voltage across the remote control device and controlling the coil of the bistable relay by detecting the closing of the contacts of the said control device.  2 - Device according to claim 1 characterized in that the circuit (7) consists of a resistor (14) receiving the signal from the controlled member and a divider bridge of two resistance (15, 16) delivering -la variable voltage across the remote control device characterized in that the circuit (8) consists of a PNP transistor (17) with its load resistance (18), a second PNP transistor (21) with its load resistance (20), these are powered by a rectified alternating voltage. The transistor (21) and the resistor (20) charge a capacitor (22) which supplies via a resistor (23) the trigger of a triac (24) connecting the power supply terminal (29) to the coil of the relay, the said device making it possible to use standard neon indicator lights at the level of the control pushbuttons for viewing the market condition of the controlled organ.  3 - Device according to claim 1 characterized in that the adaptation circuit (7) consists of a resistor (30) receiving the signal from the controlled member and delivering the variable voltage across the terminals of the remote control device, characterized in that the detection circuit (8) consists of a divider bridge with two resistors (31, 32) supplying through a "diac" diode (33) a triac (24) connecting the supply terminal 28 to the coil of the bistable relay, characterized in that the display lamp comprises, in addition to a standard neon lamp, a resistor (35) in parallel with the neon indicator tube.  4 - Device according to claim 2, characterized in that the capacitor (22) and the resistor R6 (23) are directly connected to the collector of the first PNP transistor (17), the transistor (2 and the resistor R5 (20) being deleted.  5 - Device according to claim 2, characterized in that the transistors used are of NPN type, ladiode (19) conducting the alternations where the line 28 is positive relative to the line 29.  6 - Device according to claim 4, characterized in that the transistor (17) is of the NPN type, the diode (19) conducting the alternations where the line 28 is positive relative to the line 29.