BE359762A - - Google Patents

Description

       

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    FIRE ALARM SYSTEM AT SEVERAL STATIONS PER CIRCUIT'-
The invention relates to fire alarm systems comprising several alarm stations on the same circuit,
Its main characteristics are as follows: a) Are the alarm stations mounted in parallel on a two-wire metal circuit, both ends of which end in a central station? b) The circuit is permanently traversed by a so-called quiescent current. The variations in intensity of this current at the two ends of the circuit are used to signal the alarm as well as the modifications which could possibly affect either the metal core conductors, or the insulator of these conductors *

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 c) In the event of a break in a conductor in the circuit,

   the alarms located downstream of the cut-out maintain a link with the central station thanks to the arrangement of the circuit - d) In the event of an alarm, the warning station alerted emits a certain number of times a group of characteristic signals causing operation - . one or more alarm tones as well as the entry on an ad hoc table of the number of the alarm triggered, false alarms being avoided because the alarm number only appears when a determined number of groups of characteristic signals have been correctly recorded. e) When several alarms are triggered simultaneously, a blocking device makes it possible to stagger over time, at the option of the central operator,

   sending alarm signals so that these signals do not disturb each other * f) A Morse receiver can be arranged to record all signals emitted during alerts! similarly, bells can be set in motion in correspondence with the alarm signals.

   g) In addition to the characteristics set out above, the system forming the subject of the invention makes it possible to establish a two-way telephone link between the alarmed alarm and the central station *
Finally, the following description will bring out all the details and advantages of the invention. On the attached boards, the connections of the central station have been shown diagrammatically.
The device comprises per circuit a) A starting device consisting of an impulse relay 1, a control relay 2, a holding relay 3, a delayed action relay 4, a conversation relay 5, a telephone set, a Ct earthing key, a BA supply battery

   a battery of accumulators or blocking batteries B.B., a contact voltmeter V, an indicator of stations in blocking position I.a. b) An incoming device consisting of a loop relay 6, a control relay 7, a loop return relay 8, an observation relay 9, an auxiliary loop relay 10, a cancellation relay return 11 '

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 c) Signaling equipment consisting of six assemblies each consisting of a relay, a lamp and a key.



   The 12 M-B assembly signals any drop in the voltage of the supply battery below a predetermined value.



   The 13-A assembly signals the alarm The 14-IM assembly signals an insulation fault of the two conductors of the circuit with respect to each other.



   The set 15CC signals the short-circuiting of the wires L1 and L2.



   The 16-FC assembly signals the rupture of a conductor in the circuit * Two relays 29 and 30 controlled by the signaling assemblies activate or deactivate the alarm and fault bells -
Recorders, figure 2, and translators, figure 3, make it possible to register on a table the Number corresponding to the alerted alert *
The recorder assembly can be produced in various ways, FIG. 2 only aims to concretize, by way of example, one of the possible embodiments, as well as to show the measures adopted to avoid false alarms and which consist essentially in consider as a regular alarm signal only that comprising a number fixed in advance of groups of signals characteristic of an alarm station ,,

   The device of figure 2 only causes the operation of the translator when two groups of characteristic signals out of three have been correctly recorded *
The alarm station in its simplest form consists of a cam set in motion by any motor as soon as a trigger has been produced This cam, during the duration of its movement, causes the periodic closing, through a resistance, of a circuit derived from the main circuit *
A blocking relay connected to one of the circuit wires and to earth can, when! is excited, stop cam movement after a fraction of its coursea *
A central battery telephone set completes the alarm.



   In the description below of the operation of an alarm circuit, we will consider successively - Signaling faults that may affect the circuit

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 main alarms * -The emission and reception of alarm signals on the circuit in good working order * -The blocking of the alarms during the emission, by a triggered alarm, of the alarm signals * -L '' transmission and reception of alarm signals on the circuit in poor operating condition *
When the circuit is in good working order, the current flowing through the positive polo of the B.A. accumulator battery.

   passes through the lower coil of relay 1, runs through wire L2 of the circuit, passes through the resistive coil of relay 6, travels through wire L1 of the circuit and returns to the battery through the upper coil of relay 1 'in these conditions relay 6 attracts its armature while relay 1 remains at rest
When for some reason the battery voltage drops below a predetermined value, the contact voltmeter V will close the circuit of relay 12.

   This relay, closing its contact 121, remains stuck * The closed contact 122 will turn on the NB lamp while the SD fault bell, the circuit of which was closed by relay 29, arouses the attention of the supervisory personnel. Cmb, allows relay 121 to be brought back to rest, and thus avoid continuous operation of the SD bell



   Since the voltage has a normal value, it may happen that the insulation of one circuit wire relative to the other drops to a value low enough for the operation of the installation to be compromised *
Relay 1 through which a more intense current flows is then energized and closes contact 11 causing relay 2 to be energized. This relay, in turn, closes on its contact 22 the following circuit:
Earth, contact 152 at rest, contact 22 at work, winding of delay relay 4, battery.



   Relay 4 when energized closes the following circuit after a short time:
Earth, contact 41, winding of relay 14, battery.



   Relay 14 energized, closes its contact 141, and thus remains stuck * Contact 142 closed causes the lighting of the lamp Ur while the S.D. bell sounds - The C.m.b. prevents continuous operation of the S.D. bell and restores relay 14 to idle.

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   When the insulation of the circuit wires with respect to each other drops to a very low value, relay 6 returns to rest causing contact 61 to close, thereby energizing relay 7.



   Relay 11 and relay 15 are energized in series on the following circuit;
Earth, contact 72 on, contact 91, contact 101 on rest, winding of relay 11, left winding of relay 15, battery *
Relay 11 opens its contact 111, which prevents the energization of relay 8, relay 15 energized, ignites the "short-circuit" lamp and sounds the alarm bell *
When the circuit is in good condition, a wire break occurs, relay 6 returns to rest * Relay 7 whose circuit closes at contact 61, is energized and closes the circuit of relay 10 at 71.

   This relay closes its work contact 101, which causes the excitation of relay 16, on the following circuit:
Earth, contact 72, contact 91, contact 101, relay 16, Battery-
The "wire cut" lamp lights up and the alarm buzzer sounds *
When the circuit is in good working order, a warning device is alerted, the line wire L1 is earthed by the device through the resistance of the blocking relay * At the same time, the cam of the device such an alarm causes the closing of a circuit connecting the two line wires L1 and L2 through a resistance.



   Under these conditions, the relay 6 remains permanently attracted. On the first closing of the branch circuit, the relay 1 coming to the bonding closes its contact 11 and causes the energization of the relay 2. The latter closes by its working contact 21, the next circuit
Battery, resistor r, normally open contact 21, winding of relay 3, normally closed contact 41, terra *
Relay 3 is energized *
When, at the first Interruption of the branch circuit, relay 1 drops out, relay 2 de-energizes, by closing contact 21, short-circuiting the winding of relay 3. Under these conditions, relay 3 will operate as a relay delayed and will maintain its bonding armature for a fraction of a second.

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   Normally closed contact 22 closes the following circuit
Earth, contact 152, .contact 22, contact 31, electro winding of the C.R.O. and battery *
Relay 13 is energized, lighting up the alarm lamp and setting off the alarm bell * Contact 134, closed, earths the blocking battery, thus causing the blocking relays of the warning devices to come on. to be triggered from this moment *
When the branch circuit inside the warning device closes the second time, the O.R.C.

   the circuit of which is cut at the rest contact 22 de-energizes and moves the wipers to the first position,
The following openings and closings of the branch circuit cause the same closings and openings of the circuits of the relays 1,2,3 and of the rotation electric.
The rubbers of the rotary control switches therefore move by a number of steps equal to the number of closings of the branch circuit,
The C.R.l rotary switch, the circuit of which is closed from the first rotation pulse of the C.R.C. gets excited and moves its trotters * When the rubbers arrive on the bench contact which is connected to the contact of the D.R.C. in front of which the rubbers of this organ are stopped, the following circuit closes:

   
Battery, coil of relay 19, wiper and contact of C.R.l. bank, contact of C.R.C. rotary switch bank, earth.



   The energized relay 19 opens its contact 191, which stops the rotational movement of the rubbers of the rotary switch C.R.l.



   The cam 'of the warning device produces at this moment an opening of the branch circuit long enough for the relay 3 to return to rest during the time of this opening' the electro of C.R.C. which had stopped finds a release circuit by:
Earth, contact 33, C.R.C switch contact, switch contact and C.R.C electro winding, battery *
The C.R.C. moves its wipers until they reach the middle of the bench 'the release circuit then being cut off the wipers stop *
The cam of the device 'warning device continuing to rotate, new

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 branch circuit closures and openings occur from the series of operations already described * When the C.R.C.

   in its liberation movement, reached the last contact of the bench, the following circuit closes:
Battery, relay 17 winding, C.R.C.electro contact and wiper, earth ,,
Relay 17, being energized, disconnects from the C.R.C. C.R.l's electro and connects its wipers to C.R. 2's electro.



     When the cam produces a new series of pulses, the C.R.C and C.R.2 switches will perform the series of operations previously described ', C.R.2 replacing C.R.1.



   Relay 8 will operate, instead of relay 17 to close a circuit for the C.R. 2 switch.



   During the 5th series of pulses, 'the trotters of CR3 will in turn move *
As soon as the wipers of at least two of the CR rotary switches are stopped on the contacts of their corresponding banks, the circuit of relay 27 or relay 28 closes as follows:

   
Battery, relay winding and wiper and contact of one CR switch, trotter and contact of other CR switch, earth *
The relay is energized and by its contact 281 (for example) closes the electro circuit of the C.R.D. rotary switch, Battery, winding and switch rotation switch, contact 261 at rest, contact 281, earth, -
The C.R.T. move until they reach the bang contact corresponding to the stop position of the switches * At this moment, the following circuit is completed:
Earth, contact 282 or 272, contact and contact of the bank of CR2 or of CR3 contact and contact of C.R.T., relay winding 26, battery.



   The C.R.T. stop in the position reached *
At this moment, the contact 262 being closed, the relay 31 comes into contact, closing at 311 a circuit for the relay 23.
Relay 22 in turn closes, through its contact 221, the following circuit:

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Earth, contact 242, contact 221, electro winding of the C.D.



   This electro opening its rotation switch cuts the circuit of relay 22 causing the opening of contact 221 'The movement is reproduced and the CD wipers advance until they reach the contact of the bench corresponding to the one in front of which are stopped the rubbers of CRT Earth. At this moment, the relay 24 circuit closes *
Battery, relay 24 winding, C.D. wipers and bank, C.R.T.bathing and wipers, earth *
The relay 24 being excited opens its contact 242, and stops the wipers.



   At the same time, the circuit of the tens ED electro which was closed each time the CD wiper passes over a contact of the bank connected to the ground, is definitively cut off and the tens TD drum indicates the number of the ten alarming station alerted
The same process operates during the same time the setting in motion of the drum of the units,
When the central supervisor picks up his telephone set, relay 5 is energized and closes the microphone circuit at 51,
Contacts 52 and 53 short-circuit part of the resistance of relay 1 in order to provide better power to the microphone of the alarm unit *
When the alarm has been received, the central supervisor notes on inspection of the indicator that other warning devices have been triggered,

   he lowers the key Cal relays 17 and 18 return to idle *
Relays 19, 20 and 21 having been de-energized when the C.R.C. returned to its rest position, the C.R.l electro release circuit closes as follows
Battery, winding and electro rotation switch.



  C.R.1, contact 191, IL side switch, contact 132, earth *
The C.R.1 switch returns to its rest position, in which position it closes the C.R.2 and C.R.3 release circuits.



   Battery, coil and rotation switch of C.R.2, contact 201 or 211, side switch of C.R.2 or C.R.3, contact and contactor

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 C.R.1, earth *
Contact 134 having cut the circuit of the blocking electrodes, one of the alarms can send its announcement and the same process takes place until the last alarm signal is received *
A Morse device controlled by relay 2 records, if necessary, all series of alarm signals
During periods when the general circuit is not functioning normally, alarm signals are received as follows
When one or two wires of the circuit are cut, relay 6 returning to rest causes the energization of relay 7, and consequently connection to the circuit, on the outgoing side,

   auxiliary loop relay 10.



   At the same time, relay 8 sends the circuit, on the incoming side, to the outgoing side equipment *
Alarm signals will be received as described above *
When the two wires of the circuit are short-circuited or badly insulated from one another, the central supervisor warned by the lighting of the 'short-circuit' lamp or the 'bad line' lamp lowers the CT earthing key


    

Claims (1)

The alarm signals are then, if necessary, transmitted on the following circuit Earth in the alarm station, cam emitting alarm signals, wire L.1. of the circuit, upper winding of relay 1, battery BA, lower winding of relay 1, earth * ABSTRACT- EMI9.1 ------., .. ¯-¯¯ ............,. ¯ ...... ¯ The invention consists of a fire alarm system comprising several stations connected in parallel on the same two-wire circuit, both ends of which end in a central station * An electric current flows constantly through the circuit indicating faults that may affect the circuit * In the event of a break in one or two of the circuit wires, the two ends of the circuit are automatically connected in parallel and the alarm signals received as correctly as when <Desc / Clms Page number 10> the circuit is intact * Several alarm stations triggered simultaneously send their alarm signals in a determined order, the staggering in the time remaining at the command of the staff of the central station * False alarms are avoided because each post alarm emits a a certain number of times a group of characteristic signals, the N of the alarm appearing on a specially provided table only when a determined number of characteristic groups have been correctly recorded *