DE1233306B - Tone sequence switching device - Google Patents

Description

Tone sequence switching device The invention relates to a tone sequence switching device for the acoustic signal system of vehicles with right of way. Switching devices have already become known which use electronic means. So is z. B. in the German patent specification 1 134 321 describes a tone sequence switch in which a multivibrator made up of transistors switches the tone sequence and a changeover switch blocks the multivibrator in the rest position, while the signal system is immediately energized when switched on. With this tone sequence switching device, two switches are required, which engage differently for short-term operation and for continuous operation.

Further, a for electrical flashing signal transmitter has become known, in which the outgoing of a multivibrator switching signals used for switching on the controllable semiconductor devices, which are connected with the flasher lamps in series, and C which these switching signals delayed by the charging of a capacitor come into effect. Furthermore, a tone sequence switch has become known from German patent specification 1176 526 , in which a binary counter designed as a bistable flip-flop is connected downstream of the multivibrator for the purpose of automatic and complete execution of a predetermined tone sequence, which shuts down the multivibrator via relays after the predetermined tone sequence has elapsed, with means being provided with the help of which the flip-flops of the binary counter automatically return to their initial position. With this tone sequence switching device, the signal initiated by briefly pressing a push-button switch automatically switches off after the specified tone sequence has elapsed.

The invention achieves the same goal with considerably less effort, particularly in terms of electronic means. The invention relates to a tone sequence switching device for the acoustic signal system of vehicles with right of way, with a multivibrator containing transistors for periodic control of the signal generator and with a switch that holds the multivibrator in one position and that in the 7 t, eg the other position enables the multivibrator and at the same time applies voltage to the signal system. It is characterized in that a diode is connected between a device for generating periodic pulses and a capacitor using a switching delay known per se due to the charging process of a capacitor so that a charging process of the capacitor initiated by the application of the signal system to voltage C tors, after a predefinable time, makes the diode that was previously blocked for the pulses permeable and that the first pulse that is passed switches off the pulse generator.

The multivibrator can be used as a pulse generator the signaling device can be used. The changeover switch can be designed as a relay, which switches off the impulse generator at the same time as the signal system.

The invention is to be explained in more detail using an exemplary embodiment. In the drawings, FIG. 1 shows the circuit diagram of an embodiment of the tone sequence switching device constructed according to the invention, and FIG. 2 shows a voltage diagram.

F i g. 1 shows the tone sequence switching device in the rest position. The transistors T, # and T "form a multivibrator with the resistors Rl, R, R33, R43, R55 R, and the capacitors Ci and C4 transistor T .. the capacitor C will not T. directly from the base of the transistor T, T. to the collector of transistor but to the emitter of the transistor whose base is connected to the collector of the transistor T. the capacitor C, is thus connected to the collector of the transistor T via the emitter-base path of the transistor T.

For the purpose of suppression, capacitors C2 and C are inserted, which render impulses harmless, which usually occur in the on-board system of motor vehicles. The capacitor C " blocks the base of the transistor T, while the capacitor C, provides negative feedback for the transistor T. The diode D2 is connected on the one hand to the multivibrator and on the other hand to the capacitor C6 . In the exemplary embodiment, the cathode is the diode D2 is connected to the capacitor C 6 , while the anode is connected via the capacitor C to the collector of the transistor T. The charging or discharging resistance P 3 of the capacitor C is adjustable.

The transistor T., which is coupled to the collector of the transistor T2, switches the relay A, which alternately connects the connections a1 and a2 to the positive pole of the on-board voltage via a changeover switch. B. a woofer and a tweeter horn can be made to sound alternately.

The relay A is in the emitter circuit of the transistor T., in the collector circuit there is a resistor R. which absorbs the residual voltage that would drop across the transistor T 3 if it were turned on. In this way, a safe blocking of the transistor 7 # is ensured. Another transistor T4 controls a relay B, which operates various contacts. The base of the transistor T4 is connected to the capacitor C 1 and at the same time via a resistor R 8 to the negative pole of the power supply. A diode D 3 is used to divert induction currents that arise when the coil of relay B is switched off. In the collector circuit of the transistor T4 there is a switch S, which serves as a switch for the entire system. A relatively low resistance R9 leads from switch S to the base of transistor T4.

The mode of operation of the circuit is as follows: In the quiescent state, the base of the transistor T4 is kept at negative potential via the resistor R. At the same time, the base of the transistor T 1 is held at negative potential via the contact b 4 of the relay B, with the result that the multivibrator is held in a certain switching position. The contact b 3 is open, so that the signal system is de-energized.

When the switch S is pressed briefly, current flows through the transistor T4 and the coil of the relay B. This switches the relay B, whereby the contact bi (is closed, which now ensures a self-holding, the relay B. At the same time, the second contact switched from b 4 to b 3 , as a result of which positive voltage is applied to contacts a. and a2 and as a result of which the multivibrator is released.

The contact b 5 is opened, whereby the capacitor C., which was previously fixed at positive potential, is released. It is now negatively charged via the contact bi and the adjustable resistor P.

In Fig. 2 shows the potential profile on the capacitor C, and thus on the cathode of the diode D2 . Via the capacitor C, pulses reach the anode of the diode D .. The square-wave pulses that occur at the collector of the transistor T are differentiated by the capacitor C " and come as pulse peaks to the anode of the diode D .. The pulse train at the The anode is also plotted in Fig. 2. These pulses can be given a certain height by setting R 3 and R 4. It is assumed that the pulse height, as shown in Fig. 2, is half of the supply voltage U. When the capacitor discharge has progressed so far that a lower potential than the voltage level of the pulses has occurred at the cathode K of the diode D ″, the diode D2 lets the pulses through. The pulses reach the base of the transistor T4 via the capacitor C6 and thus lead to a blocking of this transistor, as a result of which the relay B drops out and all contacts return to the rest position.

The capacitor C6 separates the DC voltage on the one hand and couples the pulses to the transistor T4 on the other hand. During the capacitor discharge, the transistor T "was also continuously activated by the multivibrator and thus led to a periodic switching of the relay A. horns As shown in F i g. 2 were therefore off controlled alternately. stating the capacitor C., readily can be achieved by adjustment of the resistance P., so by adjusting the charging or discharging time achieve that the system at the right moment, i. In the present case, a tone sequence low-high-low-high was assumed, that is, a switch-off after a treble.

If the switch S is permanently closed, then through the relatively low resistance R, such a strong current flows into the base of the transistor T4 that the pulses remain ineffective, and consequently the low-high tone sequence is continuously maintained. Only when the switch S is released does the system switch itself off after a further four tones.

The diode D4 serves to cut the contact bi from the base of the transistor T4 to disconnect. In the event of their absence, the transistor T4 would be permanently out of contact b, controlled via the resistor R, and the system could not be switched off.

Claims (2)

Claims: 1. Tone sequence switching device for the acoustic signal system of right-of-way vehicles with a multivibrator containing transistors for periodic control of the signal generator and with a switch that holds the multivibrator in a predetermined switching position in one position and that in the other position releases the multivibrator and at the same time Applying voltage, characterized in that a diode (D.) is connected between a device for generating periodic pulses and a capacitor (C.) using a switching delay known per se due to the charging process of a capacitor Signal system on voltage initiated charging of the capacitor (C.) after a predefinable time makes the diode (D.) which was previously blocked for the pulses permeable and that the first pulse that is passed switches off the pulse generator. 2. tone sequence switching device according to claim 1, characterized in that the multivibrator (T1, T2) is connected as a pulse generator to control the signal generator. 3. tone sequence switching device according to claim 2, characterized in that the changeover switch is designed as a relay (B) which switches off the pulse generator simultaneously with the> e. Signal system 4. tone sequence switching device according to claim 3, characterized in that the relay (B) is ün collector circuit of a transistor (T4) whose base is connected to the diode (D2) . Considered publications: German Auslegeschrift No. 1159 823. 5. tone sequence switching device according to claim 3, characterized in that the charging or discharging resistance (P.) of the capacitor (C.) is adjustable.