DE506257C - Burglar or fire alarm system - Google Patents

Description

The invention relates to a burglar or fire alarm system with two or more circuits, each monitored by a normally current-carrying minimum current relay and in which each minimum current relay controls two fault signal circuits, one of which is a visible one and the other contains an audible signal. According to the invention in such

A switch is provided in front of security systems, which is activated in the event of an interruption of the closed circuit switch off the disturbance signal circuit containing the audible signal as a result of a disturbance, but the flow of electricity in which the visible Signal containing disturbance signal circuit allowed until the fault in the monitored circuit in question is eliminated and the switch is in its Starting position is returned. There can be one for each monitored circuit special visible signal and a common signal for all monitored circuits single audible signal may be provided, so that the audible signal from the relevant monitored circuit can be switched off, but connected to all other monitored circuits remains and therefore enables faults to be displayed in these. The circuit permitted So, even with a known per se use of a single audible interference signal for all monitored circuits to determine which of these circuits is faulty, and they also allows the audible signal to be disconnected from the disturbed circuit without thereby the display of this fault by the visible signal and the monitoring the other, undisturbed circuits are affected by the audible signal will. 4 »

The drawing illustrates exemplary embodiments of the invention in conjunction with a burglar or fire alarm system with a plurality of closed circuits, In addition to a minimum current relay that is used to display faults, a break-in, Fire o. The like. Resistance to be bridged by a short circuit switch (thermostat) and are connected to an alarm circuit in such a way that its signal responds when the resistor is bridged. In this case, the monitored circuits are the closed-circuit circuits.

Fig. Ι is a circuit diagram of a first embodiment and

Fig. 2 is a circuit diagram of a second embodiment.

In the system shown, the battery α is through a line b with the branches c and c ^{1 of} the various local

Quiescent circuits connected, two of which are shown. Any number of thermostats or short-circuit switches d are arranged in each quiescent circuit, in such a way that they connect the branches c, c ¹ and, when they come into operation, short-circuit a resistor e contained in the quiescent circuits, bridging it. The return branch c ^{1 of} each closed circuit, containing a normally unresponsive signal lamp c ² or some other visible indicator, is connected by a line c ^s via the coils of a minimum current relay / to the return line b ¹ of the main circuit containing the battery α. The latter contains the coils of a maximum current relay g, which controls the alarm circuit and, for the sake of simplicity, is to be referred to as an alarm relay, in contrast to the malfunction relay mentioned above.

When the system is at rest and no short-circuit switch d is closed, the current flowing through resistor e and the coils of the fault relay / is strong enough to energize relay / but not strong enough to switch relay g to excite which has a different number of turns. Each fault relay / controls two contacts Z ¹ and / ² , both of which are connected on one side by wire f ^s to the return line b ^{1 of} the main circuit. The armatures f ¹ and f ² interact accordingly with the contacts / ⁴ and / ⁵ , of which the former is indicated by a visible indicator, e.g. B. a lamp f, containing wire / ^{6 is} connected to the main branches c of each local closed circuit. The other contact / ⁵ is connected to line b of the main circuit via a wire / ⁸ and an audible signal, for example a bell / ^9. At / ¹⁰ in each line / ^{s there is} a manually operated switch of the usual toggle type, which is incapable of assuming an intermediate position and serves to connect the line / ^s with their visible signal f either with the contact / ⁴ controlled by the fault relay or with to connect the branches c ¹ , c ^{3 of} each closed circuit. In the normal state of the system, each local fault relay / keeps its armature f ^x away from the fixed contact / *. However, if the closed circuit is disturbed, so that the current flow through the relay / ceases, it releases its armature f ¹ and / ² and allows a current to flow through the visible fault signal f and the audible fault signal / ⁹ . The latter is common to all closed circuits. The audible signal continues to ring, if it is a bell, until the break in the closed circuit has been mended and the relay / picks up the armature again or until the switch / ^{10 is} moved to the left to make the connection between the line c ° and the line / ⁶ to produce a current flow through the relay / and this is caused to attract its armature again and interrupt the flow of current through the audible signal f. The result is that the visible signal or the lamp / ⁷ continues to indicate a fault in the closed circuit and does so even when the closed circuit has been repaired. The lamp / ⁷ thus indicates that this closed circuit is still switched off by the audible signal f °. In order to extinguish the lamp f , the switch / ^{10 is} moved to the right so that it comes into contact ^{with the fixed contact / 4.} Since the closed circuit has been repaired, a current now flows through the relay /, so that its armature remains attracted and the closed circuit is again in that state in which a fault is indicated in it. The relay g is not excited by the current which normally flows through the closed circuit. But as soon as any of the short-circuit switches in any closed circuit comes into operation, for example when a fire breaks out or a burglar intrudes, the resistor e is short-circuited, and the correspondingly increasing current now excites the relay g, which attracts its armature g ^l and which the bell g · ⁴ containing alarm circuit via the fixed contact g ² and the line g · ³ closes. In this case, the current also drives the corresponding local visible lamp signal c ² .

As can be easily understood, the system makes it possible to indicate which of the existing closed-circuit circuits is faulty and allows the audible fault signal to be switched off by diverting the current through the fault relay / and causing it to attract its armature and thus interrupt the bell circuit. On the other hand, the audible fault signal is only switched off from the quiescent circuit in which the fault occurred, but remains connected to the other quiescent circuits in such a way that in the event of a fault in one of these it can still be activated. After the interruption in the faulty closed ^{circuit has been repaired, the lamp / 7} continues to light in this circuit until the associated fault relay is energized and until the switch / ^{10 is turned} to the right to interrupt the lamp circuit.

The embodiment of Fig. 2 is in

essentially identical to that according to Fig. ι, apart from the arrangement of the visible signal f ⁷ and the corresponding switch / ¹⁰ with reference to the fault relay / and its armature f ¹ and / ² . In the embodiment according to Fig. 2, each fault relay / controls two armatures f ¹¹ and / ¹² , which interact with fixed contacts / ⁴¹ and / ⁵¹ , of which the first contact / ⁴¹ as above through a wire / ° via a lamp / ⁷ the main branch c of the closed circuit and the other contact / ^{51 is connected} as above via a wire / ⁸ and a bell / ⁹ to the line b of the main circuit.

The manually operated toggle switch / ¹⁰¹ is in this case connected to the line / ³ and can bring it into connection either with the terminal / ^u1 'of the wire / ^e or with the base point / ^{121 of} the contact f ¹ ' ^2. In this arrangement, if there is no quiescent current in the local quiescent circuit, for example as a result of a wire break, the relay f is de-excited so that its armature contacts the contacts / ⁴¹ and / "and the

Close the circuits of the fault lamp / ⁷ and the fault bell f ^9. The circuit through the malfunction bell can be opened by moving switch / ¹⁰¹ to the left and bringing it into contact with terminal / ⁰¹ . The lamp / ^{7 continues to} light up even during the movement of the switch / ¹⁰¹ as a result of the contact established ^{at the point / 41.} As soon as the fault in the closed circuit is eliminated, the relay / is energized and attracts its armature; but the lamp f ⁷ continues to light up as a result of the connection established by the switch / ¹⁰¹ at the point / ⁰¹ and thus indicates that the closed circuit is still switched off ^{by the malfunction bell / 9.} The lamp / ⁷ can then be made to go out by moving the switch f ¹⁰¹ to the right up to the contact at the point / ¹²¹ , whereby the closed circuit is again brought into the state in which a fault is indicated in it. Apparently with this arrangement no current flows through the fault relay / until the fault has been eliminated, while in the arrangement according to Fig. 1 the current is ^{diverted through the lamp / T} and the relay /. Another difference is that in the arrangement according to Fig. 2 the lamp / ^T also lights up during the time in which the switch / ^{101 is moved} from one contact to the other, while in the arrangement according to Fig. 1 the lamp / ⁷ goes out temporarily while the switch / ^{10 is moving.}

Claims (4)

Patent claims: 1. Burglar or fire alarm system with two or more circuits, each monitored by a normally current-carrying minimum current relay, and in which each minimum current relay controls two fault signal circuits, one of which contains a visible and the other an audible signal, identified by a Switch f / ¹⁰ or / ¹⁰¹ ), which switches off the disturbance signal circuit containing the audible signal (/ ") when the closed circuit is interrupted due to a disturbance, but allows the current flow in the disturbance signal circuit containing the visible signal (f) to be maintained until the The fault in the monitored circuit in question has been eliminated and the switch has been returned to its original position. 2. System according to claim 1, characterized by a special visible signal (f ⁷ ) for each monitored circuit and a single audible fault signal common to all monitored circuits, which can be switched off from the monitored circuit in question, but with all the others monitored circuits remains connected to indicate faults in these. 3. Installation according to claim 1 and 2, characterized in that the switch (Y ¹⁰ J the corresponding minimum current relay (/) is excited by bypassing the interrupted, monitored circuit in such a way that this relay opens the audible signal (/ °) containing the fault signal circuit again . 4. Installation according to claim 1 and 2, characterized in that the switch (/ ¹⁰¹ ) immediately interrupts the disturbance signal circuit containing the audible signal (f) and its disconnected connection to the power source (α) to which the visible signal (/ ⁷ ) containing malfunction signal circuit bypassing its operable by the minimum current relay breaker. 1 sheet of drawings