DE618252C - Circuit arrangement for regulation and monitoring of independently running clocks by a master clock - Google Patents

Description

Circuit connection for regulation and monitoring of independently going Clocks by a master clock The invention is based on a clock system, which includes independently running clocks, which are thereby regulated by a master clock, that your drive is in the assigned by power surges sent over the line Regulation position is stopped until the regulation time. In this position takes place also a monitoring of the rate of the individual independently running clocks Actuation of a registration magnet in the master clock.

Such systems are often used in rail networks that run through Parallel routing of the clock line with the contact wire, particularly strong high voltage induction influences are subject. The induction surges are often so large that, on the one hand, incorrect registrations can occur, on the other hand working on the clocks by the occurring Tensions. Is dangerous. These evils can be eliminated - through use of lines ,. which are completely separated electrically from the clock's facilities are. over this line inductively sealed off on both sides by transformers the power surges required to regulate the independently running clocks as alternating current sent by the master clock over the line. Also the monitoring current surge on the part the independently running clock, which is used to regulate the master clock inductively transmitted over the line after being closed and opened a DC circuit was generated. This arrangement means that they are independent outgoing connection clocks do not require any special alternating current sources, so that a simple implementation is achieved. Can also be used in the master clock A direct current self-interrupter saves the connection to an alternating current network will. A direction-sensitive device is used in the master clock to receive the monitoring current surge Relay, which only triggers one half-wave of the current impulse by responding once makes usable, for the unambiguous registration of the regulated connection clock.

The illustrated embodiment shows a master clock : HU, which is connected via a connecting line VZ to a number of connection clocks AU , of which only one is shown with its switching means. After omitting all non-essential parts, in particular the mechanical parts belonging to the watch, only the switching means necessary for transmitting and receiving the current surges are shown, namely in the rest position. _ The master clock HU controls mechanically e.g. B. Via a cam wheel the contacts i and $ at periodic intervals. The connection clocks AU also have cam-controlled contacts io and i -i, with contact io closing some time before contact ii. The regulating magnet 17o of the connection clock is used to stop the clock that has passed and to restart it at the time of regulation.

If the contact i -in the master clock is closed, the relay S 1 is excited via a normally closed contact s 111 of the relay S II. The pole changer PW is switched on with its contact I1. Via the contacts s 12, s 1,3 and s I4, a direct voltage in different directions is intermittently applied to the two winding halves of the primary windings of the transformer U, thereby inducing an alternating current in the secondary winding of the transformer, which is possibly taken up in the terminal clocks AU.

In the connection clocks AU , contact io is first closed at the control time, and thus the alternating current relay W is made available for excitation via the idle contact 4 -t s IV of the relay S'IV. When the alternating current arrives, relay W is energized. It turns its contact w and energizes the relay S, III via the idle changeover contact ii. This prepares with its Iontakt s III the excitation of the relay S IV. The alternating current only pours over the line until the relay S II has come to type speaking in the master clock via contact s 15. This relay switches off the relay SI with the contact IIl and switches itself off with s II2 in a holding circuit. The relay W in the connection clock drops when the alternating current stops and puts back its contact ut. Through this. the circuit for relay S IV is completed, which switches the contact s IV, and drops again after the delayed drop of $ , III. By .dosing the contact s IVi, a current surge has been induced in the transformer winding. Of the connection clock, which arrives via the connecting line to the transformer 1I of the master clock and there acts on the relay P via the contacts s 16, s I3 and s I4. This relay is direction-sensitive (polarized) in order to guarantee a unique one-time response. It actuates its contact p and thus closes a circuit to a registration magnet RM, not shown, which records in a known manner the connection of the clock AU that has taken place.

Following these processes, contact 8 of the master clock is now closed. As a result, relay SI is activated and remains energized for the duration of the contact closure; As already shown, an alternating current is sent via the connecting line, which acts on the relay W via the contact ii, which has meanwhile been closed by the connection clock. The contacts i i have been turned over by the clockwork, so that when the contact w is turned over, the regulating magnet 170 now responds. In a known way, the clockwork is inhibited by this magnet and only released again at the precise control point in time. This point in time is determined by opening contact 8 of the master clock. With the drop in W caused thereby, the regulating magnet 170 also drops. The continuing movement puts the contacts ii and u back into the rest position shown, so that more alternating currents, die.evtl. are intended for the regulation of other clocks, can no longer act on the clock shown AU.

Claims (3)

PATENT CLAIMS: i. Circuit arrangement for regulation and monitoring independently running clocks by a main clock, characterized by the fact that dI; e Transmission line 'both sides -inductively sealed off and that for the purpose of regulation of the independently running clocks. by stopping the drive in the assigned Regulation position up to the regulation time From the master clock alternating current over the line is sent while the self-walking to monitor the correct gear When these clocks, a direct current surge is inductively transmitted to the line. 2. Circuit arrangement according to Claim i, characterized in that the transmission the regulating current surge from the monitored independently running clock an alternating current surge is caused to the master clock. 3. Circuit arrangement according to Claims i and 2, characterized in that for generating the alternating current a pole changer (PW) is provided on the master clock.