DE2847061A1 - Time control switch for lavatory ventilation and/or lighting - has variable electronic timer for delayed switching of load in response to initial switch operation - Google Patents

Abstract

The time control switch, has an electronic timer supplied with a small operating voltage from the mains, with its running time varied via an adjustable resistor. The timer controls the load via a load switch and the switch housing incorporates a main switch for actuating the timer in response to depression of one or more local push-button switches. Pref. a further load e.g. the main light is associated with the main switch or one of the local push-button switches, to allow the second load, e.g. a ventilation fan, be operated in conjunction with it.

Description

Circuit arrangement with electronic follow-up

Time control The invention relates to a circuit arrangement with electronic follow-up time control for delayed switching processes e.g. for lighting and / Sder ventilation and the like.

Such circuit arrangements are required to be closed Rooms with air shafts e.g. closed bathrooms, shower cubicles, toilets etc. Like. To ventilate or ventilate in cooperation with a fan. Besides, lets Such a circuit arrangement is also suitable for time-controlled lighting sources use.

There are already switching devices that rely on pneumatic, hydraulic or electrical base work via bimetal and such a purpose to serve.

For example, from the publication by Fotherby, Willis Electronics Ltd. -Yorkshire / England the Delay Timer Type DT 500 according to data sheet FET 1 as a Time switch for a light and fan control known, in which, however, a The requirement for high time accuracy is not guaranteed. Furthermore, the The size of said device does not fit into the usual standardized flush-mounted boxes for the house instalation: install allation. In addition, the light switch is outside the Device, which means an increased effort in the installation.

The object of the invention is to provide an electronic time delay high timing accuracy for room ventilation in one unit with pressure sequence light switch Can be combined with external button or door lock, suitable for installation in a 55 mm flush-mounted box.

ne @iend @in The object is achieved according to the invention in that an electronic timer is supplied with a low voltage via a power supply unit , the delay time of the timer can be set using a variable resistor is, the timer via an input circuit through a main switch, or several extension switches or buttons can be influenced, the timer via a Load switching element controls a consumer and the switching device with the main switch forms a built-in unit.

die @@ n According to the invention, the load switching element is a triac or in another training a relay.

The installation unit is in a standardized flush-mounted box, a so-called. Can accommodate 55 mm.

The circuit arrangement according to the invention is shown in the drawing in an embodiment shown.

Fig. 1 shows a sound image of the arrangement and Fig. 3 shows the device according to the circuit diagram as a built-in unit with a main switch inserted into a Flush-mounted box.

Fig. 4 shows the arrangement according to the circuit diagram as a built-in unit without switch.

As the circuit diagram of Fig. 1 shows, the light counter S between the phase P with the terminal 1 and the switched phase P 'with the Port 2, where. the connection 2 over the resistor R2 with the neutral conductor r N over whose terminal 3 is connected. The series connection is parallel to switch S, consisting of the fuse Si, the Zener diode D1 and the resistor R1. The Zener diode D1, the series circuit of the diode D3 is connected in parallel with the resistor R4. A capacitor C1 is arranged in parallel with the resistor R4.

The common connection point of the diode D3, the resistor R4 and the capacitor C1 is connected to the terminal 6 of the integrated circuit IC. the Connection points? 2, 13 and 14 of the integrated circuit IC are with the fuse Si connected. The series or parallel connection is located between connections 1 and 2 of the IC from the variable resistor R5 and the resistors R6 and R9 with the capacitor C2 in series. The resistors are with the terminal 1 and the capacitor C2 with connected to terminal 2 of the IC.

At the common connection point of the capacitor C2 with the resistors R6 and R9 is another resistor R7, which is connected to terminal 3 of the IC is.

A series circuit extends from the feed connection 3 of the neutral conductor N, formed from resistor R3, the diode D2 and the Zener diode D4, which is connected to the cathode the Zener diode D1 is connected. The cathode of the diode D2 is connected to the resistor R3 tied together. The capacitor C3 is parallel to the Zener diode D4. The connection 8 of the IC is connected to gate G of triac TR via resistor R8-. The anode A1 of the triac TR is connected to the fuse Si. Terminal 4 of the delayed switched Phase P '' is with the anode A2 of the triac TR connected. The IC connectors 5, 7, 9 and 10 are connected to the anode of diode D2.

The function of the circuit device is as follows: First is the supply voltage is applied in the initial position. In the input circuit I, the switch S is open, the triac TR is not ignited and connected to terminal 8 the IC has a log - 1 signal. Via the Zener diode D1 and the resistors Rl, R2 results in a rectangular voltage equal to the Zener voltage (e.g.

12 volts). The diode D3 adjusts this voltage and charges the capacitor Cl on. Since the input resistance of the C-MOS-IC is very high, it is an external one Discharge resistor R4 placed in parallel with capacitor C1 to discharge it when the switch S is closed.

In the idle state of the timer II there is a voltage of -12 volts at connection 6 of the IC. Since the supply voltage is also at -12 volts, the input signal corresponds to a log-0 level. The oscillator (R5, R6, R7, R9, C2) released and oscillates.

With the resistors R5, R6 R9 and the capacitor C2 the oscillator frequency to be influenced. Resistor R7 is a protective resistor for the internal circuit.

If the switch 5, for example a lighting L (see Fig. 2) switches on, closed, the Zener diode D1 and the resistor R1 are short-circuited. This allows the capacitor C1 to discharge through the resistor R4. It arises thus a log-1 signal at connection 6 of the IC, whereby all counters are reset and the oscillator (R5, R6, R7, R9) stops.

At connection 8 of the IC is created by the wiring of the connection 9 of the IC receives a log-O signal and a current flows through the gate G of the triac TR via resistor R8 into the IC. The triac TR is ignited.

After opening the switch S, a voltage builds up again at connection 6 of the IC. This releases the oscillator again and oscillates. After the oscillator has delivered a certain number of clocks, it switches the connection 8 to a log-1 signal and the triac TR blocks again.

The l.fiderstand R2 ensures that the circuit is also defective or no load is working.

The power supply III with the resistor R3 of the diode D2 of the Zener diode D4 and the capacitor C3 provides a DC voltage of -12 V.

In Fig. 2 the block diagram is shown in which the in Fig. 1 building lip of the overlay, marked with Roman numerals, is in simplified circuit diagram execution are shown. As an alternative is the arrangement shown as training with extension switch T in dashed streamlines.

The circuit consists of assemblies 1, II, III and IV.

The load switch S is used to control the input circuit 1. In this circuit group, the control voltage of 220 V is applied to the internal Switching level adapted.

In addition, the control voltage is protected from any interference by a filter element exempted on the power lines. The resulting defined switching levels are to the timer II given that prepared when the switch S closes and after opening the timer starts. After the time has elapsed, this will be Load switching element IV switched off again. Closing the switch S is the Triac IV ignited again.

The power pack III ensures a stabilized supply voltage, which is necessary for the function of the timer II.

The load switching element IV gets its current again from the timer II. Between the terminal 2 of the phase P 'and the terminal III of the neutral conductor N lies lighting L.

Between terminal 3 of the neutral conductor N and terminal 4 of the delayed switched phase P "is a fan motor M in this implementation example.

In Fig. 3 it is shown how the electronic switching device is put together with the integrated light switch S fits into a standardized so-called 55 mm flush-mounted box is used. The entire switching device is housed in the housing m. 5, which in a flush-mounted box (so-called 55 box) 9 by means of the spreaders 10 and 11 is attached. By means of a cover 6 and 7, the flush-mounted box 9 and the device become 5 covered. The light switch S integrated in the switching device is via a Actuating element 8 (e.g. button or rocker) 8 can be operated.

In FIG. 4, the switching device is also accommodated in the housing 5 and fixed in a flush-mounted box 9 by means of the spreaders 10 and 11. Here is only a cover 6 is present, while the device is completely covered with a dummy plate 12 is locked so that there is no manual operation for a light switch on the device itself is available, but the device in connection with an extension, e.g. with a Commercially available switches or buttons can be used.

The extension can also be used as a door lock be executed.

Claims (5)

Claims 1. Circuit arrangement with electronic follow-up time control for delayed switching processes e.g. for lighting and / or ventilation and the like, characterized in that a) an electronic timer (II) via a power supply unit (III) is supplied with a low voltage, b) the delay time of the timer (II) adjustable by a variable resistor (R 5) c) the timer '(II) Via an input circuit (I) through a main switch (S), one or more Extension switch or button (I) can be influenced, d) the timer (II) Uber a load switching element (IV) controls a consumer (M), and e) the circuit arrangement Can be combined as a switching device with the main switch (S) to form a built-in unit is. 2.) Circuit arrangement according to claim 1, characterized in that another consumer (t) with the main switch (S) or one or more Extension switches are electrically connected directly and can be influenced by them. 3.) Circuit arrangement according to claim 1, characterized in that the load switching element is a triac (TR). 4.) Circuit arrangement according to claim 1, characterized in that a relay is used as a load switching element. 5.) Circuit arrangement according to one of claims 1-4, characterized in that that the installation units in a standardized flush-mounted box (9) of a so-called 55er Can be accommodated.