DE240636C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 240636 CLASS 74 c. GROUP

ALBERT GOLDSTEIN in NEW YORK.

Patented in the German Empire on July 8, 1910.

The invention relates to a circuit arrangement for electrical signal systems, especially for fire and burglar alarm systems, and aims at the failure of the main power source on the one hand automatically a to put the second, weaker backup power source into operation and, on the other hand, the resistance to automatically adapt the system to the lower capacity of the backup power source.

ίο Such a facility then turns out to be as useful if the signaling system is connected to a telephone network and the Operation of the telephone exchange serving main power source at the same time as the operation of the signaling system should be used. It is then, in the event that this power source fails, not necessary to provide a backup power source that has the same voltage and capacity has like the existing power source in the telephone exchange; one comes rather with a smaller and cheaper replacement power source.

The invention is explained using the exemplary embodiment described below, at which in the event of failure of the main power source a relay in the control center weaker battery switches on automatically and, on the one hand, resistors, which the im Main power source in operation are connected upstream, short-circuits and on the other hand the Resistance of the closed circuit reduced by short-circuiting the detector loops.

The new circuit arrangement is shown schematically in the drawing. The parts drawn in the right part of the figure, the main power source A, the auxiliary battery L and the relays H, D, E and F, are located on the receiving station, which is connected by means of double lines 17 and 18 to the detectors I, Γ connected in series is. The electromagnet F is equipped with two windings, the effects of which cancel each other out when the system is idle. The electromagnet H influences by means of its armature a number of contacts through which, in the event of a fault, on the one hand the switching on of the auxiliary battery L, furthermore the short-circuiting of the resistor R and finally the switching on of the auxiliary lines 25 and 31 takes place, the latter the resistance of the circuits between the control center and the detectors.

The electromagnets D and E influence the signal lamps Q and P by means of their armature. Of these signal lamps, the lamp Q also has the task of indicating a malfunction. When the lines 17 and 18 are in the correct state, the lamp Q burns continuously and goes out in the event of a fault. The substations I, Γ are, as already mentioned, connected in series and have detectors T, T ', by means of which the signals are sent in a known manner.

When the system is properly idle, a quiescent current flows from the main power source A via line 15, contact 1, line 16, electromagnet D, upper winding of magnet F. Line 17, detector I, MeI-

of I ', line i8, line 32, lower winding of magnet F, normally closed contact 11 of armature f, line 19, normally closed contact 2 of armature piece h', line 20 to power source A back. A shunt extends to this circuit via wire 22 and the electromagnet H, so that the latter is continuously energized. is. The first-mentioned quiescent current, which is canceled with regard to its effect in the electromagnet F , excites the magnet D continuously. Under normal conditions, the signal is given by one of the detectors, e.g. B. T, on the way: Unearthed pole of the central battery A, contact 1, line 16, electromagnet D, upper windings of the magnet F, line 17, button T, earth G '. The first current pulse of this signaling disturbs the equilibrium in the electromagnet F ₁ so that it attracts its armature. Consequently

ao there is a second signal current path from the non-earthed pole of the central battery A via contact 1, line 16, point X, line 21, electromagnet E, working contact 10 of armature f, lower winding of magnet -F, wire 32, line 18, detector ' T, detector I via T to G '. This current pulse excites the electromagnet E, so that the continuously burning lamp Q goes out for a moment by interrupting the following circuit:

Current source A, line 15, contact 1, line 16, point Y, resistor R, line 29, contact 14 of the armature e, lamp Q, line 30, contact 2, line 20, current source A. When you release the button T is for a Moment the electromagnet D is de-energized because the quiescent current is interrupted at contact n. As a result, the signal lamp P lights up every time the button T is released as a result of the closure of the contact 13, while the signal lamp Q lights up every time the button T is pressed down. So both lamps transmit the signals.

The operations in the event that the power source A fails will now be described.

As a result, the electromagnet H is initially de-energized and drops its armature. As a result, the auxiliary battery L is switched on, which now has a quiescent current via line 24, normally open contact 3, line 16, electromagnet D, upper winding from F, auxiliary line 25, anchor piece h ^s , line 26, lower winding "from F, contact n to line 19 , working contact 4 and line 23 deploys. the quiescent current thus flows now rather than through the series-connected detector loops on to the detectors in the central parallel, the resistance of the closed circuit considerably reducing line 25, 26. the line 31, which from the point Z between the two detectors ab via contact 6 and anchor piece h ^{s is} in communication with the line 25, 26, is used in the manner indicated below when issuing a message.

As in the normal state of the system, the lamp Q now lights up continuously and the electromagnet D is continuously excited. If by a detector, z. B. from T , signaling occurs, this will be done on the way: Unearthed pole from L, line 24, normally open contact 3, line 16, electromagnet D, upper winding of the magnet F via T to G ' . As above, F will respond and the receiving electromagnet E will now excite on the path 24, 3, 16, 21, E, 10, lower winding of F, 32, 26,5, 6, auxiliary line 31, Z, T, G '. In the same way as when operating with the main power source A , the lamps Q and P will light up alternately when the signal is given, but the power supply of the lamps mentioned is no longer via the resistor R , rather the lamps receive their power supply as a result of the in the contacts 9 and 8 short-circuited resistor R in the following way: auxiliary power source L, line 24, contact 3; Point Y, contacts 9 and 8, via armature e or d, lamp Q or P, line 30, contact 4, auxiliary power source L.

It can be seen from the above that, according to the invention, in the event of a failure of the main power source, the connection between the control center and the detectors by means of an automatically switching on shunt 31 reduces their resistance. While the lines of both detectors I and Γ have current flowing through them during the signaling when the main power source is in a proper state, only the line of that detector is always present during operation with the auxiliary battery. flowed through during the signaling of current pulses, which is set in action for the purpose of signaling. Because the excitation of the electromagnet E then takes place, as was shown above, via the auxiliary line '31, without the signal current having to pass the greater resistance path via the detector / '.

Claims (2)

Patent Claims: I. Circuit arrangement for electrical signal systems, in particular for fire and Burglar alarm systems in which several reporting points connected in series are connected to a receiving station by a common double line, characterized in that when Failure of the main power source that feeds the system under normal conditions a weaker backup power source is switched on automatically, whereby the resistance the system was automatically affected by the lower performance of the backup power source adapts. 2. Circuit arrangement according to claim i, characterized in that when operating with the main power source, the line loops of the detectors all one behind the other from Quiescent current flows through it, while when operating with the weaker auxiliary battery only the lines of the detectors in operation, and only during the signaling, are live. For this purpose ι sheet of drawings.